Health effects assessment for environmental perchlorate contamination: the dose response for inhibition of thyroidal radioiodine uptake in humans. (Articles).

Application of a sensitive new detection method has revealed widespread perchlorate perchlorate: see chlorate. contamination of groundwater in the southwestern United States United States, officially United States of America, republic (2005 est. pop. 295,734,000), 3,539,227 sq mi (9,166,598 sq km), North America. The United States is the world's third largest country in population and the fourth largest country in area. , typically at 0.005-0.020 mg/L (5-20 ppb ppb
abbr.
parts per billion ). Perchlorate is a competitive inhibitor of the process by which iodide iodide /io·dide/ (i´o-did) a binary compound of iodine.

i·o·dide
n.
A compound of iodine with a more electropositive element or group. is actively transported from the bloodstream blood·stream
n.
The flow of blood through the circulatory system of an organism.

bloodstream

the blood flowing through the circulatory system in the living body. into the thyroid thyroid /thy·roid/ (thi´roid)
1. the thyroid gland; see under gland.

2. pertaining to the thyroid gland.

3. scutiform.

4. . This inhibitory action of perchlorate is the basis of its pharmaceutical use (in the treatment of hyperthyroidism hyperthyroidism: see thyroid gland. ) as well as its potential toxicity. To establish the dose response in humans for perchlorate inhibition of thyroidal thy·roid
n.
1. The thyroid gland.

2. The thyroid cartilage.

3. A dried, powdered preparation of the thyroid gland of certain domestic animals, used in treatment of hypothyroid conditions.

4. iodide uptake and any short-term effects on thyroid hormones Thyroid Hormones Definition

Thyroid hormones are artificially made hormones that make up for a lack of natural hormones produced by the thyroid gland. , we gave perchlorate in drinking water drinking water

supply of water available to animals for drinking supplied via nipples, in troughs, dams, ponds and larger natural water sources; an insufficient supply leads to dehydration; it can be the source of infection, e.g. leptospirosis, salmonellosis, or of poisoning, e.g. at 0.007, 0.02, 0.1, or 0.5 mg/kg-day to 37 male and female volunteers for 14 days. In 24 subjects we performed 8- and 24-hr measurements of thyroidal [sup.123]I uptake (RAIU Noun 1. RAIU - radioactive iodine test that measures the amount of radioactive iodine taken up by the thyroid gland
radioactive iodine uptake test

radioactive iodine test - test of thyroid function in which the patient is given an oral dose of radioactive ) before exposure, on exposure days 2 (E2) and 14 (E14), and 15 days postexposure (P15). In another 13 subjects we omitted both E2 studies and the 8-hr P15 study. We observed a strong correlation between the 8- and 24-hr RAIU over all dose groups and measurement days. We found no difference between E2 and E14 in the inhibition of RAIU produced by a given perchlorate dose. We also found no sex difference. On both E2 and E14, the dose response was a negative linear function of the logarithm logarithm (lŏg`ərĭthəm) [Gr.,=relation number], number associated with a positive number, being the power to which a third number, called the base, must be raised in order to obtain the given positive number. of dose. Based on the dose response for inhibition of the 8- and 24-hr RAIU on E14 in all subjects, we derived estimates of the true no-effect level: 5.2 and 6.4 [micro]g/kg-day, respectively. Given default body weight and exposure assumptions, these doses would be ingested in·gest
tr.v. in·gest·ed, in·gest·ing, in·gests
1. To take into the body by the mouth for digestion or absorption. See Synonyms at eat.

2. by an adult if the drinking-water supply contained perchlorate at concentrations of approximately 180 and 220 [micro]g/L (ppb), respectively. On P15, RAIU was not significantly different from baseline. In 24 subjects we measured serum levels of thyroxine (total and free), triiodothyronine triiodothyronine /tri·io·do·thy·ro·nine/ (tri?i-o?do-thi´ro-nen) one of the thyroid hormones, an organic iodine-containing compound liberated from thyroglobulin by hydrolysis. It has several times the biological activity of thyroxine. , and thyrotropin thyrotropin (thī'rätrō`pĭn) or thyroid-stimulating hormone (TSH), hormone released by the anterior pituitary gland that stimulates the thyroid gland to release thyroxine. in blood sampled 16 times throughout the study. Only the 0.5 mg/kg-day dose group showed any effect on serum hormones: a slight downward trend in thyrotropin levels in morning blood draws during perchlorate exposure, with recovery by P15. Key words: clinical, human, iodine iodine (ī`ədīn, –dĭn) [Gr.,=violet], nonmetallic chemical element; symbol I; at. no. 53; at. wt. 126.9045; m.p. 113.5°C;; b.p. 184.35°C;; sp. gr. 4.93 at 20°C;; valence −1, +1, +3, +5, or +7. , perchlorate, risk assessment, sodium-iodide symporter The sodium-iodide symporter is an ion pump that transports Iodide (I-) into thyroid epithelial cells. This is an important step in the process of iodide organification and the formation of triiodothyronine (T3) and thyroxine (T4). , thyroid. Environ Health Perspect 110:927-937 (2002). [Online 14 August 2002]

http://ehpnet1.niehs.nih.gov/docs/2002/110p927-937greer/abstract.html

**********

The ammonium ammonium /am·mo·ni·um/ (ah-mo´ne-um) the hypothetical radical, NH4, forming salts analogous to those of the alkaline metals.

ammonium carbonate salt of the perchlorate ion perchlorate ion

one of the competing ions which blocks the uptake and transport of iodine ions. is manufactured primarily for use by the Department of Defense, the National Aeronautics and Space Administration National Aeronautics and Space Administration (NASA), civilian agency of the U.S. federal government with the mission of conducting research and developing operational programs in the areas of space exploration, artificial satellites (see satellite, artificial), , and the aerospace industry as a source of oxygen in solid propellant solid propellant
n.
A rocket propellant in solid form, combining both fuel and oxidizer in the form of a compact, cohesive grain. systems for rockets and missiles. Ammonium perchlorate Ammonium perchlorate (AP) is a chemical compound with the formula NH₄ClO₄. It is the salt of ammonia and perchloric acid. Like other perchlorates, it is a powerful oxidizer. is also manufactured for use as an oxidizer ox·i·diz·er
n.
A substance that oxidizes another substance; an oxidizing agent. Also called oxidant. in fireworks fireworks: see pyrotechnics.

fireworks

Explosives or combustibles used for display. Of ancient Chinese origin, fireworks evidently developed out of military rockets and explosive missiles and accompanied the spread of military explosives westward to and matches and for pharmaceutical use. In addition, perchlorate can occur naturally in nitrate-rich mineral deposits used as fertilizers. Analysis of nine commercial fertilizers revealed perchlorate in all samples tested at levels ranging from 0.15% to 0.84% by weight (1).

Application of a sensitive new detection method has revealed widespread perchlorate contamination of groundwater, particularly in Utah, California, Nevada, and Arizona. Perchlorate contamination is also found in surface waters, including Nevada's Lake Mead. Recent testing by the Los Angeles Los Angeles (lôs ăn`jələs, lŏs, ăn`jəlēz'), city (1990 pop. 3,485,398), seat of Los Angeles co., S Calif.; inc. 1850. Metropolitan Water District revealed 8 [micro]g/L at its Lake Mead intake, and the Southern Nevada Water authority The Southern Nevada Water Authority (SNWA) was formed in 1991 to manage Southern Nevada's water needs on a regional basis. The Authority comprises seven member agencies including the City of Henderson, City of Las Vegas, City of North Las Vegas, Big Bend Water District (Laughlin), found 11 [micro]g/L in tap water (2). Sampling by the California Department of Health Services Department of Health Services may refer to:

Los Angeles County Department of Health Services
California Department of Health Services a California state agency

revealed 5-9 [micro]g/L in the Colorado River Colorado River

River, south-central Argentina. Its major headstreams, the Grande and Barrancas rivers, flow southward from the Andes Mountains and meet to form the Colorado near the Chilean border. It flows southeastward across northern Patagonia and the southern Pampas. . Of 2,459 drinking-water sources tested in California, 48 (2.0%) contained concentrations of perchlorate higher than the state's action level of 18 ppb (3). Assuming a default consumption rate of 2 L/day, perchlorate at 18 ppb (18 [micro]g/L) in drinking water results in ingestion ingestion /in·ges·tion/ (-chun) the taking of food, drugs, etc., into the body by mouth.

in·ges·tion
n.
1. The act of taking food and drink into the body by the mouth.

2. of 36 [micro]g/day (0.51 [micro]g/kg-day for a 70-kg person).

Perchlorate is a competitive inhibitor of the process by which iodide, circulating in the blood, is actively transported into thyroid follicular cells follicular cell
n.
An epithelial cell lining a follicle, such as that of the thyroid or ovary. (4,5). The site of this inhibition is the sodium-iodide symporter, a membrane protein A membrane protein is a protein molecule that is attached to, or associated with the membrane of a cell or an organelle. More than half of all proteins interact with membranes. located on the basolateral side of the follicular cell, adjacent to the capillaries Capillaries
The smallest arteries which, in the lung, are located next to the alveoli so that they can pick up oxygen from inhaled air.

Mentioned in: Adult Respiratory Distress Syndrome, Birthmarks, Platelet Count

supplying blood to the thyroid (6). The thyroid follicle follicle /fol·li·cle/ (fol´i-k'l) a sac or pouchlike depression or cavity.follic´ular

atretic ovarian follicle an involuted ovarian follicle. is the functional unit of the thyroid; a single layer of follicular cells at the surface surrounds a colloidal colloidal

of the nature of a colloid.

colloidal bath
a bath containing gelatin, bran, starch or similar substances, to relieve skin irritation and pruritus. protein matrix. At the colloid colloid (kŏl`oid) [Gr.,=gluelike], a mixture in which one substance is divided into minute particles (called colloidal particles) and dispersed throughout a second substance. interface, organification of iodide occurs. Organification is a complex, enzyme-dependent process whereby iodide is oxidized oxidized

having been modified by the process of oxidation.

oxidized cellulose
see absorbable cellulose. and bound to tyrosyl residues within thyroglobulin thyroglobulin /thy·ro·glob·u·lin/ (thi?ro-glob´u-lin) an iodine-containing glycoprotein of high molecular weight, occurring in the colloid of the follicles of the thyroid gland; the iodinated tyrosine moieties of thyroglobulin form the , ultimately forming the thyroid hormones triiodothyronine ([T.sub.3]) and thyroxine ([T.sub.4]). If sufficient inhibition of iodide uptake occurs, formation of thyroid hormones is depressed. Depression of thyroid hormone Thyroid hormone

Any of the chemical messengers produced by the thyroid gland, including thyrocalcitonin, a polypeptide, and thyroxine and triiodothyronine, which are iodinated thyronines. See Hormone, Thyrocalcitonin, Thyroid gland, Thyroxine formation secondary to inhibition of thyroidal iodide uptake is the precursor of any potentially adverse effect of perchlorate and is also the basis for its major current and former pharmaceutical usages.

Treatment of thyrotoxicosis thyrotoxicosis /thy·ro·tox·i·co·sis/ (thi?ro-tok?si-ko´sis) a morbid condition due to overactivity of the thyroid gland; see Graves' disease.

thy·ro·tox·i·co·sis
n. (including Graves' disease Graves' disease: see thyroid gland. ) with 600-2,000 mg potassium perchlorate Potassium perchlorate, chemical formula KClO₄, is a strong oxidizer. It is a colorless, crystalline substance that melts at about 610 °C. It is one of the most common oxidizers used in fireworks, ammunition percussion caps, explosive primers, and is used variously in (430-1,400 mg perchlorate) daily for periods of several months or longer was once common practice, particularly in Europe (7,8). According to according to
prep.
1. As stated or indicated by; on the authority of: according to historians.

2. In keeping with: according to instructions.

3. Wolff (9), although 400 mg of potassium perchlorate divided into four or five daily doses was used initially and found effective, higher doses were introduced when 400 mg/day was discovered not to control thyrotoxicosis in all subjects. Also according to Wolff, seven case reports of fatal aplastic anemia aplastic anemia
or anemia of bone-marrow failure

Inadequate blood-cell formation by bone marrow. Pancytopenia is the lack of all blood-cell types (erythrocytes, leukocytes, and platelets), but any combination may be missing. between 1961 and 1966 curtailed the therapeutic use of perchlorate at that time (9). However, two decades later, physicians reported treating thyrotoxicosis successfully with lower maintenance doses of potassium perchlorate (40-200 mg/day) for 2 years or longer, in the absence of adverse effects (10,11). More recently, perchlorate has been used (alone or in combination with other antithyroid drugs antithyroid drug Pharmacology Any of a family of therapeutic agents–eg, propylthiouracil and methimazole, containing thiourea's thiocarbamide radical, which inhibits thyroid hormone 'organification'; ADs are used to treat children, young adults and pregnant ) to treat amiodarone-induced thyrotoxicosis amiodarone-induced thyrotoxicosis Cardiology Thyroid disease caused by amiodarone, an iodine-rich antiarrhythmic, which occurs in up to ±10% of amiodarone recipients living in areas of moderate iodine deficiency. See Thyrotoxicosis. or hypothyroidism hypothyroidism: see thyroid gland. , conditions in which underlying thyroid abnormalities are unmasked when the iodine-containing drug amiodarone is given to control cardiac arrhythmia cardiac arrhythmia
n.
See cardiac dysrhythmia.

Cardiac arrhythmia
An irregular heart rate or rhythm.

Mentioned in: Holter Monitoring, Stress Test

cardiac arrhythmia (9). Treatment regimens include 500 mg potassium perchlorate twice per day for 18-40 days (12) and, for mild cases, 250 mg/day for 4-6 weeks (13). When we began the present study, we hoped our results would allow us to estimate, for the temporal dosing pattern tested, a maximum effect level for perchlorate inhibition of iodide uptake. With this information in hand, physicians might be prompted to evaluate the efficacy of perchlorate doses lower than those frequently employed.

Thyroid hormones are essential to the regulation of oxygen consumption and metabolism throughout the body. Thyroidal iodine metabolism and thyroid hormone levels in serum and tissues are regulated by a number of homeostatic mechanisms homeostatic mechanism,
n physiologic control system that uses negative feedback to maintain dynamic balance. (14). Thyrotropin (TSH TSH thyroid-stimulating hormone; see thyrotropin.

TSH
abbr.
thyroid-stimulating hormone

Thyroid-stimulating hormone (TSH) ), a hormone synthesized syn·the·sized
adj.
1. Relating to or being an instrument whose sound is modified or augmented by a synthesizer.

2. Relating to or being compositions or a composition performed on synthesizers or synthesized instruments. and secreted by the anterior pituitary gland Noun 1. anterior pituitary gland - the anterior lobe of the pituitary body; primarily glandular in nature
adenohypophysis, anterior pituitary

ductless gland, endocrine gland, endocrine - any of the glands of the endocrine system that secrete hormones (hypophysis hypophysis: see pituitary gland. ), is the primary regulator of thyroidal iodide uptake and other aspects of thyroid function (15).

When hypothyroidism occurs in a woman early in pregnancy, the fetus fetus, term used to describe the unborn offspring in the uterus of vertebrate animals after the embryonic stage (see embryo). In humans, the fetal stage begins seven to eight weeks after fertilization of the egg, when the embryo assumes the basic shape of the newborn is at risk for impaired physical and mental development, the severity of the impairment depending upon the degree of hypothyroidism. In the human fetus, the thyroid and the hypophysial hypophysial /hy·po·phys·i·al/ (hi?po-fiz´e-al) pertaining to the hypophysis.

hy·poph·y·si·al or hy·poph·y·se·al
adj.
Of or relating to a pituitary gland. TSH system begin to function at around 11 weeks of gestation GESTATION, med. jur. The time during which a female, who has conceived, carries the embryo or foetus in her uterus. By the common consent of mankind, the term of gestation is considered to be ten lunar months, or forty weeks, equal to nine calendar months and a week. , and [T.sub.4] secretion begins at around 18-20 weeks of gestation (14). Hypothyroidism during infancy is also a major risk factor for mental retardation mental retardation, below average level of intellectual functioning, usually defined by an IQ of below 70 to 75, combined with limitations in the skills necessary for daily living. and other manifestations of impaired neurodevelopment (14). To ensure that perchlorate in drinking water is well below levels that would produce even mild hypothyroidism, particularly in pregnant women and infant children, it is important to determine the dose response for perchlorate inhibition of iodide uptake and the relationship between iodide uptake inhibition and depression of thyroid hormone levels.

Before we began our study, the potential health effects in humans of long-term exposure to perchlorate at doses below the therapeutic range were examined in two cross-sectional occupational studies of perchlorate plant workers. In both studies, serum tests of thyroid function revealed no evidence for any adverse effect of perchlorate. In one study, the worker population consisted of 35 males and 2 females, 40% of whom had been employed for more than 5 years; the mean perchlorate doses absorbed during a single work shift, based on urinary excretion excretion, process of eliminating from an organism waste products of metabolism and other materials that are of no use. It is an essential process in all forms of life. In one-celled organisms wastes are discharged through the surface of the cell. , were estimated as 4.0, 11, and 34 mg (0.057, 0.16, and 0.48 mg/kg), with values ranging from 0.4 to 69 mg (0.006-0.99 mg/kg) overall (16). In the other study, the worker population consisted of 39 males and 9 females with employment durations of 1-27 years (mean, 8.3 years); the mean work-shift perchlorate exposure was estimated as 0.036 mg/kg, with values ranging from 0.0002 to 0.44 mg/kg overall (17).

In a recent clinical study by Lawrence et al. (18), inhibition of thyroidal radioiodine radioiodine /ra·dio·io·dine/ (-i´o-din) any radioactive isotope of iodine, particularly 123I, 125I, and 131I; used in diagnosis and treatment of thyroid disease and in scintiscanning. uptake (RAIU) was measured in nine male volunteers given perchlorate at 10 mg/day in drinking water for 14 days. In a second study by the same group, eight male volunteers were given a dose of 3 mg/day (19). Body-weight adjusted doses were in the range of 0.089-0.140 mg/kg-day (mean, 0.12 mg/kg-day) in the 10-mg/day study and 0.033-0.041 mg/kg-day (mean, 0.038 mg/kg-day) in the 3-mg/day study (20).

The present investigation, conducted before publication of Lawrence et al.'s 3-mg/day study (19), was designed to provide expanded data on the dose response for perchlorate inhibition of RAIU in humans and to obtain pharmacokinetic data. Whereas Lawrence et al. used a fixed milligram milligram /mil·li·gram/ (mg) (mil´i-gram) one thousandth (10-3) of a gram.

mil·li·gram
n. Abbr. mg
A metric unit of mass equal to one thousandth (10^-3) of a gram. dose in each person (18,19), we used body-weight-adjusted doses to provide greater precision. One important purpose of the present study was to establish a no-observed-effect level (NOEL) for perchlorate inhibition of the thyroidal uptake of iodide during 2-week exposure. The U.S. Environmental Protection Agency Environmental Protection Agency (EPA), independent agency of the U.S. government, with headquarters in Washington, D.C. It was established in 1970 to reduce and control air and water pollution, noise pollution, and radiation and to ensure the safe handling and (U.S. EPA EPA eicosapentaenoic acid.

EPA
abbr.
eicosapentaenoic acid

EPA,
n.pr See acid, eicosapentaenoic.

EPA,
n. ) defines the NOEL as "an exposure level at which there are no statistically or biologically significant increases in the frequency or severity of any effect between the exposed population and its appropriate control" (21). Here we use the term NOEL more narrowly to indicate the highest exposure level tested at which inhibition of thyroidal iodide uptake is not statistically or biologically significant.

At the time the improved detection method for perchlorate in aqueous aqueous /aque·ous/ (a´kwe-us)
1. watery; prepared with water.

2. see under humor.

a·que·ous
adj. solution was developed, the toxicologic database on perchlorate was extremely limited. For example, few or no experimental data existed on the subchronic, reproductive, or developmental toxicity of perchlorate. To fill gaps in the toxicologic database, eight animal studies were designed by a consortium that included the U.S. EPA and the Department of Defense. The results of those animal studies were considered by the U.S. EPA in the development of its 1998 draft risk assessment for perchlorate (22). The dose response and time course of the effects of perchlorate in rats are being elucidated further by additional studies and data reevaluations, several designed in response to the external peer-reviewers' 1999 report (23) on the U.S. EPA's 1998 draft risk assessment. The additional studies include investigations of perchlorate pharmacokinetics pharmacokinetics /phar·ma·co·ki·net·ics/ (fahr?mah-ko-ki-net´iks) the action of drugs in the body over a period of time, including the processes of absorption, distribution, localization in tissues, biotransformation, and excretion. , inhibition of thyroidal iodide uptake, and effects on serum levels of thyroid hormones and TSH in adult males, pregnant and nursing females, and, to a limited extent, fetuses and pups, at doses in the 0.01-10 mg/kg-day range (24-26). These data, along with data gathered in the clinical study reported here, are being used to develop and validate an interspecies (rat/human), physiologically based, pharmacokinetic model (27-31).

Although the physiology of the pituitary-thyroid axis is Axis I Psychiatry A classification dimension used with DSM-IV, which includes clinical disorders and syndromes and/or other areas of concern. See DSM-IV, Multiaxial system. very similar in the rat and the human, the rat thyroid is much more rapidly responsive to any perturbation perturbation (pŭr'tərbā`shən), in astronomy and physics, small force or other influence that modifies the otherwise simple motion of some object. The term is also used for the effect produced by the perturbation, e.g. of iodine metabolism leading to decreased thyroid hormone formation (32,33). Thyroid hormone storage capacity is a major determinant of the difference in responsiveness. If thyroid hormone synthesis is prevented, the rat thyroid contains only enough hormone to last a few days (32,33), whereas the human thyroid has enough thyroid hormone to last several months (34,35).

An additional and potentially important interspecies difference is evidenced by the rapid up-regulation of thyroidal iodide uptake in rats in response to multiday treatment with perchlorate, a phenomenon not observed in humans. In rats, the extent of inhibition of thyroidal iodide uptake in the hours following single-dose exposure to perchlorate was found to be attenuated Attenuated
Alive but weakened; an attenuated microorganism can no longer produce disease.

Mentioned in: Tuberculin Skin Test

attenuated

having undergone a process of attenuation. over the course of multiday exposure (24).

In a single-dose experiment, male rats were injected intravenously with a perchlorate dose of 0, 0.01, 0.1, 1, or 3 mg/kg-day followed 2 hr later by intravenous injection Noun 1. intravenous injection - an injection into a vein
fix - something craved, especially an intravenous injection of a narcotic drug; "she needed a fix of chocolate" of radioiodine ([sup.125]I). Group mean values for thyroidal [sup.125]I binding relative to the controls were reported for the six rats per dose sacrificed at 2, 6, or 9 hr following injection of [sup.125]I. The dose response for inhibition of [sup.125]I binding was similar at all three time points. At the 9-hr sacrifice, the extent of inhibition was statistically significant in the 0.1, 1, and 3 mg/kg-day groups (24).

In a multiday experiment, male rats were exposed to drinking water containing perchlorate at doses of 0, 1, 3, or 10 mg/kg-day. On exposure day 1 (E1), E5, and E14, a total of six rats per dose were administered [sup.125]I by intravenous injection and sacrificed 2 hr later. The inhibition of thyroidal [sup.125]I uptake (presumably pre·sum·a·ble
adj.
That can be presumed or taken for granted; reasonable as a supposition: presumable causes of the disaster. measured as the bound fraction) observed on E1 was dose related and much more pronounced at each dose than on E5, when inhibition was observed only in the 3- and 10-mg/kg-day groups. By E14, inhibition was observed only in the 10-mg/kg-day group (24).

Additional evidence in rats for rapid homeostatic homeostatic

pertaining to homeostasis. adjustment (i.e., up-regulation of uptake) in response to diminished thyroidal availability of iodine is provided by a study of the effects of switching from a high-iodine to low-iodine diet, the physiologic equivalent of introducing an inhibitor of iodide uptake. Following the diet shift, rats exhibited a 50% increase in radioiodine uptake in 1 day (33). Evidence that humans lack rapid up-regulation of thyroidal iodide uptake in response to perchlorate comes from the two clinical studies of Lawrence et al. (18,19), described above. At the end of 14-day exposure via drinking water, a dose-related inhibition of uptake was observed, with statistical significance achieved at the higher dose (mean, 0.12 mg/kg-day). Given this disparity between rats and humans in the homeostatic up-regulation response, a more precise determination of the time course and dose response for perchlorate inhibition of thyroidal iodide uptake in humans should be extremely helpful in evaluating the health risks of environmental exposures to perchlorate.

In this article we report the results of radioiodine studies and serum tests of thyroid function. The results of perchlorate and iodine analyses in serum and 24-hr urine collected before and throughout exposure, along with an evaluation of the extent to which population variability in the magnitude of the response to perchlorate is related to iodine nutrition, will be presented in a separate report.

Materials and Methods

Sample collection and testing. Biological samples (i.e., whole blood, serum, and urine) were collected in the Oregon Health & Science University (OHSU OHSU Oregon Health & Science University (Portland, OR, USA) ) General Clinical Research Center (GCRC GCRC General Clinical Research Center
GCRC Great Canadian Railtour Company
GCRC Graafschap Christian Reformed Church (Holland, Michigan)
GCRC Galena Creek Rock Glacier ) by the nursing staff. All samples other than those to be analyzed for perchlorate or iodine were processed by the OHSU Hospital's Lab Central, which arranged for testing at the OHSU Hospital's Core Lab or a contract laboratory. In the following, analysis at the OHSU Hospital's Core Lab is understood unless otherwise specified.

Dose selection. When designing our study, we relied upon the observation by Lawrence et al. (18) that a mean perchlorate dose of 0.12 mg/kg-day inhibits RAIU to about 60% of baseline. We chose to test doses of 0.02, 0.1, and 0.5 mg/kg-day to broadly span the effective inhibitory range, thinking it possible that a dose of 0.02 mg/kg-day would be a NOEL. By the time the first 14 subjects had been tested at these three doses, it was clear that 0.02 mg/kg-day was not a NOEL. Regression analysis In statistics, a mathematical method of modeling the relationships among three or more variables. It is used to predict the value of one variable given the values of the others. For example, a model might estimate sales based on age and gender. of the E14 uptake relative to baseline for the first 14 subjects predicted that a perchlorate dose of 0.007 mg/kg-day would produce no inhibition of RAIU; this became the fourth dose tested.

Subject screening and informed consent. During an initial interview, each prospective subject was given verbal information about the study's purpose, exclusionary criteria, and requirements. At that time we provided the appropriate consent form and asked the subject to take it home to review. The two consent forms, one for each protocol, were approved by the institutional review board at OHSU, where the study was conducted. Both forms listed the study's sponsor and explained the purpose, procedures, risks and discomforts, benefits, alternatives to participation, confidentiality, compensation provided ($1,200 for the main-study protocol, $650 for the uptake-study protocol), and the voluntary nature of participation. The consent form was signed at the screening visit by the subject, the principal investigator Noun 1. principal investigator - the scientist in charge of an experiment or research project
PI

scientist - a person with advanced knowledge of one or more sciences , and a witness.

The screening visit consisted of a history, a physical examination, blood sampling (for complete blood count, routine serum chemistry, and serum thyroid function tests Thyroid Function Tests Definition

Thyroid function tests are blood tests used to evaluate how effectively the thyroid gland is working. These tests include the thyroid-stimulating hormone test (TSH), the thyroxine test (T4), the triiodothyronine test ), and urine sampling (for routine urinalysis urinalysis (y

r'ənăl`ĭsĭs), clinical examination of urine for the purpose of medical diagnosis. , screening for drug abuse, and pregnancy testing pregnancy test Any test used to detect or confirm pregnancy; in early pregnancy, all PTs measure hCG, the developing placenta's principal hormone, which is detectable as early as 6 days after fertilization; in clinical laboratories, serum levels of hCG are for women who had not had a hysterectomy hysterectomy (hĭstərĕk`təmē), surgical removal of the uterus. A hysterectomy may involve removal of the uterus only or additional removal of the cervix (base of the uterus), fallopian tubes (salpingectomy), and ovaries or tubal Tubal (t

`bəl), in the Bible, son of Japheth. ligation ligation /li·ga·tion/ (li-ga´shun) the application of a ligature.

tubal ligation sterilization of the female by constricting, severing, or crushing the uterine tubes. ). We excluded candidates if they had a history of thyroid disease thyroid disease Thyroid disorder Endocrinology Any benign or malignant condition that affects the structure or function of the thyroid gland. See Anaplastic carcinoma of thyroid, Chronic thyroiditis–Hashimoto's disease, Hyperthyroidism, Hypoparathyroidism, , recent ingestion of any iodine-containing pharmaceutical (including thyroid hormone), or significant thyroid enlargement. Following one woman's enrollment and assignment to the 0.007-mg/kg-day dose group (uptake study), laboratory analysis of her screening-visit blood draw revealed elevated TSH (18 mIU/L). Because her thyroid hormone levels and physical examination were normal, we decided to keep her in the study to evaluate, in a subject with subclinical hypothyroidism subclinical hypothyroidism An ↑ TSH before or after administration of TRH in the face of normal T₃ and T₄; SH affects 6-7% of ♀ and 2-3 of ♂, with 5-10% annual rate of progression to overt hypothyroidism in children and , the effect of perchlorate at a dose predicted to be the NOEL. All 37 subjects who presented themselves for the screening visit met the screening criteria and were entered into the study.

Subject assignment. The first 24 subjects were tested according to our initial (main-study) protocol and the next 13 subjects according to our modified (uptake-study) protocol. We developed the uptake-study protocol as a means of including additional subjects with less expenditure of time and resources than required by the main-study protocol. The 37 subjects tested according to one or the other protocol were between 18 and 57 years old (mean [+ or -] SD, 38 [+ or -] 12 years; median, 40 years). All enrolled subjects remained in the study until its termination.

In the main study, four subjects of each sex received a perchlorate dose of 0.02, 0.1, or 0.5 mg/kg-day. In the uptake study, six women and one man received a dose of 0.007 mg/kg-day and one additional subject of each sex received a dose of 0.02, 0.1, or 0.5 mg/kg-day. Even though we found no statistically significant difference between men and women at the three doses tested in the main study, when testing the new dose in the uptake study we opted to concentrate on women because protecting the developing fetus is of primary concern.

The logistics of the study were such that only three subjects could be started each week. To preclude skewing the dose response through potential temporal variations in measured parameters, in the main study we gave each of the three subjects started each week a different perchlorate dose (0.02, 0.1, or 0.5 mg/kg-day), deviating from this schedule only to balance the sexes in each dose group as necessary. We assigned the first three subjects in the uptake study the 0.007 mg/kg-day dose and thereafter rotated subject enrollment through the four doses tested (0.007, 0.02, 0.1, and 0.5 mg/kg-day).

Study size. Considering that Lawrence et al. (18) found highly significant inhibition of uptake in nine subjects given perchlorate at 10 mg/day, a dose approximately the same as our 0.1 mg/kg-day dose and 4-fold lower than our 0.5 mg/kg-day dose, we considered it highly probable that a comparable group size (8-10 per dose) would yield a significant degree of inhibition at these two doses.

Perchlorate solutions: preparation and ingestion. Pharmaceutical-grade Perchloracap capsules, each containing 200 mg potassium perchlorate (144 mg perchlorate), were obtained from Mallinckrodt Medical, Inc. (St. Louis, MO). We emptied the contents of one or more capsules into a beaker beaker /beak·er/ (bek´er) a glass cup, usually with a lip for pouring, used by chemists and pharmacists.

beaker

a round laboratory vessel of various materials, usually with parallel sides and often with a pouring spout. , mixed the powder with 0.5-1.0 mL lemon juice to make a slurry slurry,
n a thin mixture of insoluble material floating in liquid.

slurry

solids in suspension. Used as a method of feeding pigs—slurry is pumped through fixed lines and delivered to troughs by hoses equipped with gasoline pump fittings. , and added sufficient commercial spring water (Crystal Geyser Crystal Geyser is located on the east bank of the Green River approximately 4.5 miles (7.25 km) downstream from Green River, Utah. It is a rare example of a cold water "soda pop" geyser caused by groundwater which has picked up chemicals necessary to become a mild sulfuric acid , Mount Shasta, CA) to make a stock solution containing 50 mg KCl[O.sub.4]/100 mL. We prepared dosing solutions by appropriate dilution of the stock solution with spring water to a volume of 400 mL in a half-liter plastic bottle. The concentration of perchlorate in some of the stock solutions and in each subject's individual dosing solution was analyzed and confirmed at the Air Force Research Laboratory (AFRL Noun 1. AFRL - a United States Air Force defense laboratory responsible for discovering and developing and integrating fighting technologies for aerospace forces
Air Force Research Laboratory

U. S. ; Wright-Patterson Air Force Base Wright-Patterson Air Force Base, U.S. military installation, 8,023 acres (3,247 hectares), W Ohio, NE of Dayton; est. 1917. One of the largest airport installations in the world, it is the air force's main research and development base, and the headquarters of the , OH). The stock solution samples were found by AFRL to contain perchlorate at 98% of the nominal concentration, indicating essentially complete solubility solubility

Degree to which a substance dissolves in a solvent to make a solution (usually expressed as grams of solute per litre of solvent). Solubility of one fluid (liquid or gas) in another may be complete (totally miscible; e.g. . Samples of the unadulterated un·a·dul·ter·at·ed
adj.
1. Not mingled or diluted with extraneous matter; pure. See Synonyms at pure.

2. Out-and-out; utter: the unadulterated truth. spring water were also analyzed by AFRL to ensure the absence of perchlorate contamination. Some of the filler in the capsule was insoluble insoluble /in·sol·u·ble/ (in-sol´u-b'l) not susceptible of being dissolved.

in·sol·u·ble
adj.
Not soluble. and remained visible as a fine white sediment in the stock solution.

We prepared and bottled dosing solutions several times for each subject during the 14 days of perchlorate administration so that storage in the subject's refrigerator would not be a problem. Subjects were given two 250-mL clear plastic cups that had been marked with a horizontal line (Descriptive Geometry & Drawing) a constructive line, either drawn or imagined, which passes through the point of sight, and is the chief line in the projection upon which all verticals are fixed, and upon which all vanishing points are found.

See also: Horizontal to indicate the 100-mL level, one to keep at home and one to leave at work. They were instructed to drink 100 mL at 0800, 1200, 1600, and 2000 hr on each scheduled perchlorate ingestion day and to record the time and volume of each ingestion on a preprinted log sheet for additional verification. They were also instructed to empty the bottle completely into their 2000 hr aliquot aliquot (al-ee-kwoh) adj. a definite fractional share, usually applied when dividing and distributing a dead person's estate or trust assets. (See: share) to ensure that the entire prescribed perchlorate dose was ingested each day.

Design of the main and uptake studies. In the clinical evaluation clinical evaluation Medtalk An evaluation of whether a Pt has symptoms of a disease, is responding to treatment, or is having adverse reactions to therapy of thyroid function, measurement of the accumulated thyroidal radioiodine (i.e., RAIU) at a given time point integrates the radioiodine uptake at earlier times. If inhibition of the rate of thyroidal iodide uptake was significantly greater at an earlier interval compared with later intervals, this would be reflected in reciprocally increased urinary radioiodide excretion early on, such that less radioiodide would be available for thyroidal uptake at later intervals. After the rate of uptake becomes apparent (~2 hr following radioiodine administration), a mathematical model

Note: The term model has a different meaning in model theory, a branch of mathematical logic. An artifact which is used to illustrate a mathematical idea is also called a mathematical model and this usage is the reverse of the sense explained below.

can be used to predict the thyroidal radioiodine uptake at any time during the accumulation period Accumulation Period

1. The phase in an investor's life when he/she builds up his/her savings and the value of his/her investment portfolio with the intention of having a nest egg for retirement.

2. from a single uptake value measured at any other time (36,37). This relationship holds until approximately 24 hr, by which time all radioiodide has either been taken up by the thyroid or excreted in the urine. Measurement at 4-24 hr is more accurate (i.e., the signal-to-noise ratio The ratio of the power or volume (amplitude) of a signal to the amount of unwanted interference (the noise) that has mixed in with it. Measured in decibels, signal-to-noise ratio (SNR or S/N) measures the clarity of the signal in a circuit or a wired or wireless transmission channel. is higher) than at times < 4 hr for two reasons: First, a variable time is required for radioiodide absorption from the gut into the bloodstream. Second, at earlier times, more radioiodide will be in the blood (i.e., not yet taken up by the thyroid or excreted in the urine), thereby contributing a higher proportion of the radioactivity radioactivity, spontaneous disintegration or decay of the nucleus of an atom by emission of particles, usually accompanied by electromagnetic radiation. The energy produced by radioactivity has important military and industrial applications. measured over the thyroid and making background correction for thyroidal uptake less accurate (38). In subjects not undergoing treatment with a thyroactive thy·ro·ac·tive
adj.
Stimulating activity of the thyroid gland. drug, the 3-, 6-, and 8-hr RAIU values have been found to be highly correlated with the 24-hr RAIU values (36,37). Likewise, in subjects treated for 2 weeks with perchlorate at 10 mg/day, pairwise comparison revealed no significant differences among the 4-, 8-, and 24-hr radioiodine uptakes relative to baseline (20,39). In the present study, although we expected to find no difference between the 8- and 24-hr relative uptakes once a quasi-steady-state equilibrium between perchlorate absorption and elimination was established (i.e., in which perchlorate concentrations in blood fluctuated with the dosing schedule in a regular daily pattern, with no further net perchlorate accumulation over time), we chose to perform both 8- and 24-hr uptake measurements primarily because we were uncertain whether such an equilibrium would be achieved by E2.

The main study design was as follows:

* Ingestion of [sup.123]I at 0900 hr on 4 days: the baseline visit (1 day before the start of perchlorate exposure), E2, E14, and postexposure day 15 (P15); measurement of RAIU at 1700 hr on the day of [sup.123]I ingestion and 0900 hr the following morning.

* In addition to the blood draw at the screening visit, a total of 22 blood draws on 11 days throughout the study period of 35 days.

* Collection of 24-hour urine in five pooled collections on 5 days (the day before the baseline visit, E1, E2, E8, and P1); collection of 24-hr pooled urine on 3 days (E14, P2, and P14); recording the time of urine collection and the amount of any discarded urine on a preprinted log sheet.

The uptake study design was as follows:

* Ingestion of [sup.123]I at 0900 hr on 3 days: the baseline visit (1 day before the start of perchlorate exposure), E14, and P15. Baseline visit and E14: measurement of RAIU at 1700 hr on the day of [sup.123]I ingestion and 0900 hr the following morning. P15: measurement of RAIU only at 0900 hr on the day following [sup.123]I ingestion.

* In addition to the blood draw at the screening visit, a blood draw on E8 and on E14.

* Collection of 24-hr pooled urine on the day before the baseline visit and on E14.

Radioiodine studies. We conducted all radioiodine studies in the Nuclear Medicine facility of the OHSU Hospital. [sup.123]I capsules (nominal specific activity, 100 [micro][C.sub.i]) were obtained from Mallinckrodt Inc. (Portland, OR). An Atomlab 950 Thyroid Uptake System (Biodex Medical Systems, Inc., Shirley, NY) was programmed to measure and record the [sup.123]I counts per minute (cpm) in the capsule just before ingestion (time zero). The instrument was also programmed to measure and record the cpm over the thyroid, the cpm over the thyroid adjusted for radioactive decay radioactive decay
n.
1. Spontaneous disintegration of a radionuclide accompanied by the emission of ionizing radiation in the form of alpha or beta particles or gamma rays.

2. An instance of such disintegration. of the ingested [sup.123]I, and the percentage uptake of the ingested [sup.123]I by the thyroid since time zero. We calibrated cal·i·brate
tr.v. cal·i·brat·ed, cal·i·brat·ing, cal·i·brates
1. To check, adjust, or determine by comparison with a standard (the graduations of a quantitative measuring instrument): the instrument each day before use.

Thyroid function tests. Analysis of serum levels of total thyroxine (T[T.sub.4]), free thyroxine (F[T.sub.4]), total triiodothyronine (T[T.sub.3]), and TSH was performed by Kaiser Permanente Kaiser Permanente is an integrated managed care organization, based in Oakland, California, founded in 1945 by industrialist Henry J. Kaiser and physician Sidney R. Garfield. Regional Laboratory (Portland, OR) and the results were transmitted electronically to the OHSU Hospital's Lab Central on a shared laboratory software system. Analysis of serum antibodies to thyroglobulin (anti-Tg) and thyroid peroxidase Thyroid peroxidase or Thyroperoxidase (TPO) is an enzyme mainly expressed in the thyroid that liberates iodine for addition onto tyrosine residues on thyroglobulin for the production of thyroxine (T4) or triiodothyronine (T3) (thyroid hormones). (anti-TPO) was performed by Esoterics Inc. (Calabasas, CA) and the results were output by the company to a printer located in OHSU Hospital's Lab Central. In the main study, serum T[T.sub.4], F[T.sub.4], T[T.sub.3], and TSH were analyzed in blood drawn on 16 occasions: the screening (unspecified time) and baseline (0800 hr) visits, E1 (1200 and 1600 hr), E2 (0800, 1200, and 1700 hr), E3 (0900 hr), E4 (0800 and 1200 hr), E8 (0900 hr), E14 (0800, 1200, and 1700 hr), P1 (0900 hr), and P15 (0900 hr). In the uptake study, these hormones were analyzed only in blood drawn at the screening visit (unspecified time) and on E14 (0800 hr). Serum Anti-TPO levels were measured in blood drawn at the screening visit and on P15 for all subjects in the main study. We likewise ordered analysis of serum anti-Tg in the same two samples, but the lab reported anti-Tg results in both samples for only eight main-study subjects and in the P15 sample alone for the remaining 16 main-study subjects and one uptake-study subject (the woman with abnormally elevated TSH).

Serum chemistry and hematology. Measurement of serum thyroxine-binding globulin thyroxine-binding globulin TBG An α₂-migrating protein that is the main–70% carrrier protein for thyroxine/T₄ and triiodothryonine/T₃ (TBG TBG
abbr.
thyroid-binding globulin

TBG

thyroxine-binding globulin.

TBG Thyroxine-binding globulin, see there ) was performed by Esoterics Inc. and the results were transmitted to OHSU in the same manner as the antibody data. In the main study, a serum chemistry panel (analysis of sodium, potassium, calcium, chloride, total C[O.sub.2], glucose, urea nitrogen urea nitrogen
n.
The concentration of nitrogen in blood or urine, for example, derived from urea.

urea nitrogen See BUN. , total bilirubin Bilirubin

The predominant orange pigment of bile. It is the major metabolic breakdown product of heme, the prosthetic group of hemoglobin in red blood cells, and other chromoproteins such as myoglobin, cytochrome, and catalase. , albumin albumin (ălby

`mən) [Lat.,=white of egg], member of a class of water-soluble, heat-coagulating proteins. Albumins are widely distributed in plant and animal tissues, e.g. , TBG, total protein, creatinine creatinine /cre·at·i·nine/ (kre-at´i-nin) an anhydride of creatine, the end product of phosphocreatine metabolism; measurements of its rate of urinary excretion are used as diagnostic indicators of kidney function and muscle mass. , aspartate transaminase aspartate transaminase /as·par·tate trans·am·i·nase/ (AST) (ASAT) (trans-am´i-nas) an enzyme normally present in body tissues, especially in the heart and liver; it is released into the serum as the result of tissue injury, hence the , and alkaline phosphatase alkaline phosphatase /al·ka·line phos·pha·tase/ (ALP) (fos´fah-tas) an enzyme that catalyzes the cleavage of orthophosphate from orthophosphoric monoesters under alkaline conditions. ) and a complete blood count (including differential) were performed on blood samples drawn at the screening visit and on E2, E14, and P15. We also requested analysis of alanine aminotransferase alanine aminotransferase /al·a·nine ami·no·trans·fer·ase/ (ah-me?no-trans´fer-as) alanine transaminase.

alanine aminotransferase
n. Abbr. ALT
See SGPT. (ALT (character) alt - /awlt/ 1. The alt modifier key on many keyboards, including the IBM PC. On some keyboards and operating systems, (but not the IBM PC) the alt key sets bit 7 of the character generated.

See bucky bits.

2. ) in the same samples, but the test was inadvertently omitted from the serum chemistry panel until midway through the study; only 16 main-study subjects were tested for ALT at one or more scheduled time In rallying, the Scheduled Time of any crew is the time, calculated at the beginning of the event, that they should arrive at any given control. It is different from Due Time in that Due Time is dynamic, ie it can change throughout the event as competitors drop time; whereas points. In the uptake study, the above tests (excluding analysis of TBG) were performed only in blood samples drawn at the screening visit.

Statistical analysis. We analyzed data using standard statistical techniques, including linear regression Linear regression

A statistical technique for fitting a straight line to a set of data points. and correlation analysis to reveal regression slopes and correlation coefficients Correlation Coefficient

A measure that determines the degree to which two variable's movements are associated.

The correlation coefficient is calculated as: (r values). To the extent possible, RAIU data from the main and uptake studies were combined. When analysis of variance (ANOVA anova

see analysis of variance.

ANOVA Analysis of variance, see there ) was used to investigate the dose dependence of outcome variables, dose was entered as a categorical That which is unqualified or unconditional.

A categorical imperative is a rule, command, or moral obligation that is absolutely and universally binding.

Categorical is also used to describe programs limited to or designed for certain classes of people. variable. For pairwise comparisons with baseline values, we used the two-tailed t-test for dependent samples and the nonparametric Wilcoxon matched pairs test. All statistical analyses were run on Statistica (StatSoft, Tulsa, OK). Our selected criterion for statistical significance was p < 0.05; however, we also report all p values < 0.1. Results are given as mean [+ or -] SE (or regression fit [+ or -] SE) unless otherwise indicated.

Quality assurance/quality control. At the request of the U.S. EPA, the study data were subjected to an intensive quality assurance/quality control (QA/QC QA/QC Quality Assurance/Quality Control ) audit by outside auditors. The RAIU data were audited by M. G. Schneider under the management of the AFRL. All study data other than the RAIU data were audited by Toxicology/Regulatory Services, Inc. (TRS See traffic engineering methods.

TRS - term rewriting system ; Charlottesville, VA) under the management of Toxicology toxicology, study of poisons, or toxins, from the standpoint of detection, isolation, identification, and determination of their effects on the human body. Toxicology may be considered the branch of pharmacology devoted to the study of the poisonous effects of drugs. Excellence for Risk Assessment (Cincinnati, OH). The TRS audit led to the discovery of five F[T.sub.4] data points that had been entered into the database in error. All results reported in this article reflect the database corrected to exclude these five data points, as described by the study co-investigator (G.G.) in her written response to the TRS QA/QC audit report of 11 April 2001. The audit reports prepared by Schneider and by TRS (and the co-investigator's response to the TRS report) were submitted to the U.S. EPA by the audit managers.

Results

Thyroidal radioiodine uptake. As expected, given its 13-hr half-life, no [sup.123]I was detectable in the thyroid just before administration of any subsequent [sup.123]I dose.

Baseline uptake. Thyroidal radioiodine uptake at baseline varied widely among subjects: 5.6-25.4% for the 8-hr uptake and 9.8-33.7% for the 24-hr uptake. Our findings concerning the relationship between the baseline uptake and the 24-hr urinary iodine (UI) excretion will be described elsewhere.

Effect of perchlorate ingestion. Table 1 gives descriptive statistics descriptive statistics

see statistics. for the 8- and 24-hr raw uptakes (expressed as a percentage of ingested [sup.123]I) and the 8- and 24-hr relative uptakes (expressed as a percentage of the baseline uptake). The suppression of radioiodine uptake was linearly related to the logarithm of perchlorate dose. Pairwise comparison revealed no statistically significant difference between the suppression of radioiodine uptake on E2 and E14 at either 8 or 24 hr after radioiodine administration (10 > 0.7), indicating the achievement of quasi-steady-state inhibition by E2 and the absence of a cumulative effect. Figure 1 shows the relationship between the 24-hr relative uptakes on E2 and E14 for all subjects (and doses) tested at both time points (r = 0.824, n = 24); we observed a similar relationship for the 8-hr relative uptakes on E2 and E14 (r = 0.782, n = 24). Regression analysis of the 8and 24-hr relative uptakes (R[U.sub.8] and R[U.sub.24]) against the logarithm of the perchlorate dose (D) in mg/kg-day yielded Equations 1A and 1B for E2 and Equations 1C and 1D for E14:

[1A] [(R[U.sub.8]).sub.E2] = (-0.374 [+ or -] 0.041) [log.sub.10]D + (0.209 [+ or -] 0.047)

[1B] [(R[U.sub.24]).sub.E2] = (-0.373 [+ or -] 0.041) [log.sub.10]D + (0.202 [+ or -] 0.047)

[1C] [(R[U.sub.8]).sub.E14] = (-0.337 [+ or -] 0.037) [log.sub.10]D + (0.229 [+ or -] 0.052)

[1D] [(R[U.sub.24]).sub.E14] = (-0.359 [+ or -] 0.034) [log.sub.10]D + (0.213 [+ or -] 0.048)

[FIGURE 1 OMITTED]

In Equations 1A-1D, the intercept is the regression-model prediction of the relative uptake when the perchlorate dose is exactly 1 mg/kg-day ([log.sub.10]D = 0). Analysis of the correlation of [(R[U.sub.8]).sub.E2], [(R[U.sub.24]).sub.E2], [(R[U.sub.8]).sub.E14], and [(R[U.sub.24]).sub.E14] with [log.sub.10]D yielded correlation coefficients of -0.888 (n = 24), -0.889 (n = 24), -0.844 (n = 36), and -0.870 (n = 37), respectively.

The lowest dose producing no statistically significant inhibition of uptake was 0.007 mg/kg-day (Table 1). Thus, in this study, 0.007 mg/kg-day (7 [micro]g/kg-day) was a NOEL for inhibition of RAIU. To achieve a more refined estimate of the true no-effect level (NEL NEL NTT Electronics
NEL Neuroendocrinology Letters
NEL Non Economic Loss (Workplace Safety and Insurance Act, RSO 1998, Canada)
NEL North East Line (Singapore mass transit)
NEL Network Element Layer ), we extrapolated from the E14 regression relationships for R[U.sub.8] and R[U.sub.24] (Equations 1C and 1D). We used the E14 data and not the E2 data in the extrapolation (mathematics, algorithm) extrapolation - A mathematical procedure which estimates values of a function for certain desired inputs given values for known inputs.

If the desired input is outside the range of the known values this is called extrapolation, if it is inside then because the 7-[micro]g/kg-day dose group (along with the other uptake-study subjects) had no uptake measurement on E2. With [(R[U.sub.8]).sub.E14] and [(R[U.sub.24]).sub.E14] set equal to 1.00 (equivalent to 0% inhibition of uptake) in Equations 1C and 1D, the predicted dose values corresponding to the true NEL are 5.19 and 6.40 [micro]g/kg-day (0.36 and 0.45 mg/day in a 70-kg person), respectively. With [(R[U.sub.8]).sub.E14] and [(R[U.sub.24]).sub.E14] set equal to 0.95, 0.90, 0.85, or 0.80 (equivalent to 5%, 10%, 15%, or 20% inhibition of uptake), Equation 1C predicts dose values of 7.29, 10.3, 14.4, and 20.3 [micro]g/kg-day (0.51, 0.72, 1.0, and 1.4 mg/day in a 70-kg person), respectively, and Equation 1D predicts dose values of 8.82, 12.2, 16.8, and 23.1 [micro]g/kg-day (0.62, 0.85, 1.2, and 1.6 mg/day in a 70-kg person), respectively. Plugging the predicted dose values corresponding to uptake inhibition of 0-20% back into the regression model, we derived 95% upper confidence limits on uptake inhibition (Table 2).

We also used Equations 1C and 1D to provide estimates of the 50% inhibitory dose (I[D.sub.50]). With [(R[U.sub.8]).sub.E14] and [(R[U.sub.24]).sub.E14] set equal to 0.5 (equivalent to 50% inhibition of uptake), Equations 1C and 1D predict dose values of 0.157 and 0.159 mg/kg-day (11.0 and 11.1 mg/day in a 70-kg person), respectively. Although an asymptotic flattening

Ellipticity redirects here. For the mathematical topic of ellipticity, see elliptic operator.

The flattening, ellipticity, or oblateness of an oblate spheroid is the "squashing" of the spheroid's pole, down towards its equator. of the log-linear dose response is expected with increasing dose, a lower limit on the 100% inhibitory dose (I[D.sub.100]) can be estimated by assuming linearity at doses beyond the measurement range. With [(R[U.sub.8]).sub.E14] and [(R[U.sub.24]).sub.E14] set equal to 0 (equivalent to 100% inhibition of uptake), Equations 1C and 1D predict dose values of 4.76 and 3.92 mg/kg-day (333 and 274 mg/day in a 70-kg person), respectively.

Recovery from perchlorate ingestion. On P15, the 8- and 24-hr uptakes were statistically indistinguishable from their respective baseline uptakes (p > 0.4 by pairwise comparison), indicating complete recovery from the inhibitory effect of perchlorate. The mean ([+ or -] SE) 8-hr uptakes relative to baseline were 111.7 [+ or -] 8.1%, 103.5 [+ or - ] 10.4%, and 107.7 [+ or -] 11.3% in the 0.02-, 0.1-, and 0.5-mg/kg-day dose groups, respectively. The mean ([+ or -] SE) 24-hr uptakes relative to baseline were 100.3 [+ or -] 8.4%, 105.3 [+ or -] 5.5%, 106.6 [+ or -]9.1%, and 104.6 [+ or -] 9.4% in the 0.007-, 0.02-, 0.1-, and 0.5-mg/kg-day dose groups, respectively. Figure 2 shows the 24-hr uptake at baseline, on E14, and on P15 for each individual subject in each dose group. The woman with elevated TSH at the screening visit had a 24-hr uptake of 10% at the baseline visit, the lowest value observed in her dose group (0.007 mg/kg-day) or any group. Her 24-hr uptake was 13.9% on E14, or 139% of baseline (Figure 2D). Her case illustrates a general phenomenon in the reporting of uptake as a percentage of baseline: For subjects with low baseline uptake, small changes in absolute uptake, up or down, appear large in terms of relative uptake. Figure 3 shows the mean 24-hr uptake as a percentage of baseline for each dose group on each measurement day.

[FIGURES 2-3 OMITTED]

Effect of sex. In a two-way model testing the effect of sex and dose on the uptake relative to baseline for each of the six postbaseline measurements (8- and 24-hr uptakes on E2, E14, and P15), ANOVA revealed no effect of sex for any measurement (p > 0.4). Similarly, two-way ANOVA revealed no effect of sex on the 8- and 24-hr raw uptakes at the baseline visit (p > 0.7) or on E2, E14, or P15 (p > 0.3). Table 3 gives summary statistics for the raw and relative 24-hr uptakes by sex and dose; we found similar results for the 8-hr uptakes. We calculated the power of the study to detect a 20% difference between males and females in the uptake relative to baseline. The highest power values were found for E2: 83% and 95% for the respective 8-hr and 24-hr measurements in the 0.5-mg/kg-day dose group and 99% for the 8-hr measurement in the 0.1-mg/kg-day dose group.

Correlation of 8- and 24-hr uptakes and relative uptakes. Over all measurement days and dose groups, the 8- and 24-hr uptakes were linearly related (r = 0.975, n = 121). Linear regression analysis yielded the equation:

[2] [U.sub.24] = (1.40 [+ or -] 0.03) [U.sub.8] + (0.013 [+ or -] 0.003)

Pairwise comparison of the [U.sub.24]/[U.sub.8] ratio at baseline with the [U.sub.24]/[U.sub.8] ratios for measurements made during perchlorate administration (E2 and E14 combined) or on P15 revealed no significant difference, indicating that the ratio is independent of perchlorate treatment. The 8- and 24-hr relative uptakes for E2, E14, and P15 combined were likewise linearly related (r = 0.967, n = 84). Figure 4 shows the relationship between the 8- and 24-hr relative uptakes on E14 for each dose group.

[FIGURE 4 OMITTED]

In a 1951 investigation by Greer (37) of euthyroid Euthyroid
Having the right amount of thyroxin stimulation.

Mentioned in: Goiter

euthyroid

having a normally functioning thyroid gland. subjects under basal conditions and after treatment with various doses of thyroid hormone to suppress TSH secretion, the [U.sub.24] versus [U.sub.8] regression slope was 1.43 [+ or -] 0.02 (n = 75). The similarity of the regression slopes observed in the 1951 study (37) and the present study is remarkable given the differences in basal radioiodine uptake and treatment. The mean basal 24-hr uptake in the present study was approximately half that observed in the 1951 study (37), presumably reflecting a higher dietary iodine intake in the current U.S. population. The nature of the suppression of thyroid function in the two studies was also different; perchlorate, at the doses given, suppresses only iodide transport, whereas thyroid hormone, at doses sufficient to decrease TSH secretion, suppresses almost all aspects of thyroid function.

Comparison with uptake results of Lawrence et al. Whereas we tested body-weight adjusted doses in the present study, the above-described studies by Lawrence et al. (18,19) tested doses unadjusted for body weight. To facilitate comparison with the perchlorate inhibition of thyroidal RAIU observed in our study, we obtained body weights (20) for all subjects in the two studies performed by Lawrence et al. (18,19) and calculated a body weight-adjusted dose for each subject. For each E14 uptake measurement in the three studies, we calculated an effect parameter (analogous to the slope of the dose-response relationship The Dose-response relationship describes the change in effect on an organism caused by differing levels of exposure (or doses) to a stressor (usually a chemical). This may apply to individuals (eg: a small amount has no observable effect, a large amount is fatal), or to populations ) by dividing the uptake as a percentage of baseline by the logarithm of the body-weight-adjusted dose. Using a nonparametric test sensitive to the shapes of distributions (Kolmogorov-Smirnov), we found significant differences (p < 0.01) in the effect parameter for both the 8and 24-hr uptakes when we compared the data from our study with the combined data from the other two studies. Figure 5A shows the 24-hr uptake on E14 as a function of perchlorate dose for each subject in the present study and the two studies by Lawrence et al. (18,19).

[FIGURE 5 OMITTED]

Lawrence et al. (18,19) performed the final RAIU 2 weeks after perchlorate withdrawal (on P14) and found a statistically significant overshoot o·ver·shoot
n.
A change from steady state in response to a sudden change in some factor, as in electric potential or polarity when a cell or tissue is stimulated. relative to baseline at both doses tested. We performed the final RAIU 2 weeks after perchlorate withdrawal (on P15) and found no statistically significant overshoot in any dose group. Figure 5B shows the 24-hr uptake at 2 weeks postexposure as a function of perchlorate dose for each subject in all three studies.

Perchlorate elimination rate. Analysis of urinary excretion data from a 1929 study in an adult man given a single oral perchlorate dose of 1.4 g (40) revealed that > 90% of the ingested perchlorate was removed with a half-life ([t.sub.1/2]) of 7.7 hr (39). In the present study, we calculated the rate of perchlorate elimination from levels in serum following perchlorate withdrawal. For the eight main-study subjects in the 0.5-mg/kg-day dose group, [t.sub.1/2] values ranged from 6.0 to 9.3 hr (average, 8.1 hr). Fewer data points were available for the 0.1-mg/kg-day subjects because levels fell more rapidly below the analytical detection limit of 5 ppb after perchlorate withdrawal. Serum levels in the 0.02-mg/kg-day dose group were almost entirely below detection throughout the exposure period. Additional data and analysis pertaining per·tain
intr.v. per·tained, per·tain·ing, per·tains
1. To have reference; relate: evidence that pertains to the accident.

2. to serum and urine perchlorate measurements (as well as serum and urine iodine measurements) will be reported elsewhere. The perchlorate measurements on our subjects' serum and urine samples were performed by AFRL scientists, who have presented some of the data previously (29-31).

Serum hormones (F[T.sub.4], T[T.sub.4], T[T.sub.3], and TSH). Effect of perchlorate ingestion. TSH, F[T.sub.4], T[T.sub.4], and T[T.sub.3] levels throughout the study were in the normal range for all subjects except one woman in the 0.007-mg/kg-day dose group (uptake study) who had abnormally high TSH (18 and 15 mIU/L) on both occasions at which the hormone was measured (screening visit and E14, respectively). Table 4 presents summary statistics for serum hormones measured at all blood draw events in the main study.

Because only limited data were available for uptake-study subjects, we confined con·fine
v. con·fined, con·fin·ing, con·fines

v.tr.
1. To keep within bounds; restrict: Please confine your remarks to the issues at hand. See Synonyms at limit. evaluation of the effect of perchlorate exposure on serum hormones to the 24 subjects in the main study. To facilitate our initial statistical analysis, we defined a categorical exposure variable (before, during, and after perchlorate) and a categorical dose variable (high, middle, and low). Two-way ANOVA applied to the exposure and dose variables revealed no significant dependence of any serum hormone on the exposure variable. By chance, the 0.5-mg/kg-day group had significantly higher baseline-visit TSH levels than did the 0.1-mg/kg-day group (p < 0.014, t-test for independent samples). Similarly, the 0.5-mg/kg-day group had significantly higher screening-visit (p < 0.046) and marginally higher baseline-visit (p < 0.058) T[T.sub.3] levels than did the 0.02-mg/kg-day group. The disparity in pre-exposure values skewed skewed

curve of a usually unimodal distribution with one tail drawn out more than the other and the median will lie above or below the mean.

skewed Epidemiology adjective Referring to an asymmetrical distribution of a population or of data the comparison of TSH and T[T.sub.3] across dose groups. To eliminate the problem of intergroup in·ter·group
adj.
Being or occurring between two or more social groups: intergroup relations; intergroup violence. differences in pre-exposure serum hormone values and elucidate e·lu·ci·date
v. e·lu·ci·dat·ed, e·lu·ci·dat·ing, e·lu·ci·dates

v.tr.
To make clear or plain, especially by explanation; clarify.

v.intr.
To give an explanation that serves to clarify. any possible effects of perchlorate, we performed one-way ANOVA for each dose group separately, once against the exposure variable and once against blood-draw event (16 draws between the screening visit and P 15). The results revealed no association of F[T.sub.4], T[T.sub.4], or T[T.sub3.] with blood-draw event in any dose group. However, we found a marginally significant association of TSH with blood-draw event in the 0.5-mg/kg-day dose group (p = 0.09).

Influence of circadian circadian /cir·ca·di·an/ (ser-ka´de-an) denoting a 24-hour period; see under rhythm.

cir·ca·di·an
adj.
Relating to biological variations or rhythms with a cycle of about 24 hours. variation. To eliminate any potential dampening of the above association by circadian variation in TSH levels, we defined a time-of-day variable with three categories: morning (before 1030 hr), mid-day (1030-1359 hr), and late afternoon (1400 hr or later); these categories refer to the recorded time of each blood draw, not the target (nominal) time. ANOVA performed separately within each dose group for each time-of-day category (a total of 3 x 3 = 9 analyses) yielded a significant relationship between TSH and blood-draw event only in the morning draws of the 0.5-mg/kg-day dose group (p = 0.03). Figure 6 shows the distribution of TSH for each blood-draw event in the 0.5-mg/kg-day dose group, categorized cat·e·go·rize
tr.v. cat·e·go·rized, cat·e·go·riz·ing, cat·e·go·riz·es
To put into a category or categories; classify.

cat according to the time-of-day variable. The data suggest an overall downward trend during exposure with recovery by P15.

[FIGURE 6 OMITTED]

Analysis of the dependence of F[T.sub.4], T[T.sub.4], and T[T.sub.3] on blood-draw event (ANOVA performed separately within each dose group for each time-of-day category) indicated that T[T.sub.3] was significantly related to blood-draw event in the late-afternoon draws of subjects in the 0.1-mg/kg-day dose group (p = 0.03). However, the effect appears to be attributable to the fact that two of the screening-visit draws for the 0.1-mg/kg-day group fell into the late-afternoon category and both happened to be low (80 and 84 ng/dL). All other late-afternoon draws in the 0.1-mg/kg-day group occurred at the scheduled late-afternoon events on E1, E2, and E14; mean T[T.sub.3] values ([+ or -] SE) for these draws in the eight subjects tested were 102.9 [+ or -] 3.9 ng/dL, 104.9 [+ or -] 2.9 ng/dL, and 106.3 [+ or -] 3.4 ng/dL, respectively. For the two subjects with respective T[T.sub.3] values of 80 and 84 ng/dL at the screening visit, T[T.sub.3] values on E1, E2, and E14 were 92, 91, and 95 ng/dL in the first subject and 100, 99, and 112 ng/dL in the second. T[T.sub.3] levels in the 0.5-mg/kg-day dose group were independent of blood-draw event in every time-of-day category (p > 0.7). Consideration of all the available data does not suggest an effect of perchlorate on T[T.sub.3] in this study.

Serum anti- Tg and anti- TPO (Twisted Pair Only) Refers to the use of twisted pair wire when other options are available. For example, a TPO suffix at the end of 3com Ethernet adapter model numbers indicates the card has only an RJ45 connector. . Serum anti-Tg levels were below detection (< 40 IU/mL) in all samples tested. Levels of anti-TPO were above normal (> 20 IU/mL) in two subjects. One was a 56-year-old male in the 0.02-mg/kg-day group whose anti-TPO levels at the screening visit and on P15 were 63 and 59 IU/mL, respectively. `The other was the previously mentioned 49-year-old female in the 0.007-mg/kg-day group with elevated TSH. Her screening-visit anti-TPO level was 75 IU/mL; she was not tested a second time. Both subjects were clinically euthyroid, and their other thyroid function test thyroid function test,
n one of several tests to evaluate the function of the thyroid gland. These include protein-bound iodine, butanol-extractable iodine, radioactive iodine uptake, and radioactive iodine excretion. results remained within normal limits throughout the study.

Serum chemistry and hematology. Serum chemistry and hematology results were within normal limits throughout the study in all subjects. We found no significant change in any of these parameters during or after perchlorate administration.

Discussion

Interpretation of the estimated true NEL for inhibition of uptake. In this study, 0.007 mg/kg-day (7 [micro]g/kg-day) was the NOEL for inhibition of thyroidal RAIU. We estimated true NEL values of 5.2 and 6.4 [micro]g/kg-day based on the dose-response for inhibition of the respective 8-hr (n = 36) and 24-hr (n = 37) RAIU on E14 in all subjects tested, one with subclinical subclinical /sub·clin·i·cal/ (sub-klin´i-k'l) without clinical manifestations.

sub·clin·i·cal
adj.
Not manifesting characteristic clinical symptoms. Used of a disease or condition. autoimmune hypothyroidism, the rest euthyroid. Based on the variability observed in these subjects, there is a 95% probability that thyroidal iodide uptake will be inhibited by no more than 8.3-9.5% at a dose of 5.2-6.4 [micro]g/kg-day. We expect that inhibition of thyroidal iodide uptake by 9.5% would be physiologically insignificant in persons with sufficient iodine intake. Indeed, observations in iodine-sufficient perchlorate plant workers (discussed below) lead us to conclude that perchlorate exposure at levels associated with a relatively high percentage inhibition of thyroidal iodide uptake produces no adverse health consequences in such individuals.

Assuming a body weight of 70 kg and a drinking-water intake of 2 L/day, a perchlorate dose of 5.2 or 6.4 [micro]g/kg-day would be consumed if drinking-water supplies contained perchlorate at a concentration of approximately 180 or 220 [micro]g/L (ppb), respectively. Thus, assuming that the drinking-water supply is the only significant source of exposure to perchlorate or other inhibitors of the thyroidal uptake of iodide, a perchlorate concentration of 180-220 ppb (and possibly much higher) should be of no health concern in iodine-sufficient populations.

Interpretation of serum hormone results. Despite significant inhibition of thyroidal radioiodine uptake in the 0.02, 0.1, and 0.5 mg/kg-day dose groups by respective average values of 17%, 44%, and 67%, we found no change in serum levels of thyroid hormones (i.e., F[T.sub.4], T[T.sub.4], or T[T.sub.3]). We observed a significant effect of perchlorate on serum levels of TSH only in the 0.5-mg/kg-day dose group: a downward trend in morning (before 1030 hr) blood draws during perchlorate exposure, with recovery by P 15. Our findings of no effect on thyroid hormones or TSH during 2-week perchlorate exposure at a dose of 0.1 or 0.02 mg/kg-day agree with those of Lawrence et al. (18,19), who reported no change in thyroid hormones or TSH during 2-week exposure at a mean dose of 0.12 or 0.038 mg/kg-day. Our finding of marginally decreased TSH levels during 2-week perchlorate exposure at a dose of 0.5 mg/kg-day is reminiscent of the significant TSH depression observed in five subjects who ingested perchlorate at a dose of 900 mg/day (~13 mg/kg-day) for 4 weeks (35).

A downward trend in TSH is the reverse of what is expected when iodide uptake is blocked or iodine nutrition is insufficient (41). If iodine deficiency iodine deficiency

Inadequate intake or metabolism of iodine. It directly affects thyroid secretions, which influence heart action, nerve response, growth rate, and metabolism. is severe enough and sufficiently prolonged to compromise adequate production and secretion of thyroid hormones, TSH secretion is increased because of decreased negative feedback of thyroid hormones on the hypothalamic-pituitary control centers. We have no explanation for the slight decrease in TSH observed during exposure to perchlorate at 0.5 mg/kg-day (the present study) or a higher dose (35).

Subjects in the 0.02-, 0.1-, and 0.5-mg/kg-day dose groups experienced partial inhibition of thyroidal iodide uptake for 14 days; the absence of an effect on serum thyroid hormones is expected given any extent of inhibition lasting only a few weeks. For a simplified view of the relevant dynamics, consider the following: The human thyroid gland gland, organ that manufactures chemical substances. A gland may vary from a single cell to a complex system of tubes that unite and open onto a surface through a duct. The endocrine glands, e.g. contains a huge reserve store of hormone within the intrafollicular thyroglobulin. Under iodine-replete conditions, the iodine content of the human thyroid gland averages 0.5% of wet weight, or 100 mg for a 20-g thyroid (32). Approximately 46% (46 mg) of the iodine in thyroglobulin is in the form of iodothyronines. [T.sub.4] is 65% iodine; if all stored iodothyronine were [T.sub.4], there would be 71 mg of stored [T.sub.4]. The typical oral replacement dose of [T.sub.4] in a hypothyroid Hypothyroid
Having too little thyroxin stimulation.

Mentioned in: Goiter

hypothyroid adjective Referring to hypothyroidism, see there individual is 0.1 mg/day. Assuming a constant secretion rate of 0.1 mg [T.sub.4] daily, no conversion to [T.sub.3], and complete inhibition of thyroidal iodide uptake, the quantity of stored hormone should be sufficient to last for over a year. In fact, 20% of the iodothyronine in thyroglobulin is [T.sub.3] (34). Given that [T.sub.3] is only 58% iodine but has four times the potency of [T.sub.4], the quantity of stored hormone should be sufficient to last an even longer period. Because the rate of secretion is proportional to the amount stored in the thyroid gland (42,43), blood levels of thyroid hormone would drop continuously during the entire time that thyroidal iodide uptake is completely blocked, although it should take several weeks or longer for this decrease to become detectable.

Consistency with the uptake results of Lawrence et al. We noted small but significant differences in the response to perchlorate observed in our study compared with that observed by Lawrence et al. (18,19) in their two studies. In our study there was more inhibition of radioiodide uptake for a given dose of perchlorate. Although there were small interstudy differences in baseline uptake, these differences cannot account for the observed discrepancy in the response to perchlorate. The most likely explanation is that the different exposure regimens (four times daily in our study; ad libitum ad libitum

without restraint.

ad libitum feeding
food available at all times with the quantity and frequency of consumption being the free choice of the animal. in the studies by Lawrence et al.) led to different temporal patterns in blood levels of perchlorate. We hypothesize hy·poth·e·size
v. hy·poth·e·sized, hy·poth·e·siz·ing, hy·poth·e·siz·es

v.tr.
To assert as a hypothesis.

v.intr.
To form a hypothesis. that in the ad libitum studies, the subjects tended to drink disproportionately large fractions of their dosing solutions just before their scheduled clinic visits, leading to higher perchlorate concentrations in sampled blood, higher peak concentrations, faster excretion, and lower time-averaged concentrations compared to subjects drinking perchlorate at four prescribed times throughout the day. Whereas blood sampled in the ad libitum studies might reflect recent ingestion of a disproportionate amount of the daily perchlorate dose, the 24-hr RAIU measurements in both studies must reflect perchlorate levels averaged over the entire 24-hr accumulation period. Our temporal hypothesis is supported by the observation that in the 10-mg/day ad libitum study, significantly greater inhibition was revealed by the 4-hr RAIU than by the 24-hr measurement (20,39). It is also supported by the observation that serum perchlorate levels measured in the 10-mg/day (mean, 0.12 mg/kg-day) ad libitum study were much higher than the values measured in our study at a comparable dose. In the 10-mg/day ad libitum study, mean serum perchlorate concentrations in samples taken at unspecified times on E7 and E14 were 0.61 and 0.59 [micro]g/mL, respectively (18). In our 0.1-mg/kg-day dose group, mean serum perchlorate concentrations in the single (morning) sampling event on E8 and the three (morning, noon, and late afternoon) sampling events on E14 were 0.10-0.17 [micro]g/mL; our 0.5-mg/kg-day dose group had mean serum perchlorate concentrations of 0.45-0.85 [micro]g/mL at the same four time points (data not shown). The serum perchlorate levels measured in our study's 0.5-mg/kg-day dose group span those observed in subjects given a 4-fold lower dose in the 10-mg/day ad libitum study. Note that interlaboratory variability can be excluded as an explanation for the discrepancy because in both cases the perchlorate analyses were performed by the AFRL. In a separate article we will address at greater length the issue of temporal effects related to the observed interstudy differences.

Lawrence et al. (18,19) found that the thyroidal radioiodine uptake measured 2 weeks postexposure was significantly elevated relative to the baseline uptake. We did not observe a significant postexposure overshoot in the present study, nor was one seen in six subjects given perchlorate at a dose of 144 mg/day for 7 days (44). In the latter study, measurement of baseline thyroidal radioiodine uptake immediately preceded the start of perchlorate administration and repeat uptake measurements were performed at 2, 4, 7, and 14 days postexposure; the results showed that the mean uptake returned to the baseline value within 2-4 days. Therefore, we consider it likely that the postexposure overshoot in radioiodine uptake observed by Lawrence et al. was a consequence of chance variability or some other factor unrelated to perchlorate exposure.

Inhibition of uptake in iodine insufficiency INSUFFICIENCY. What is not competent; not enough. . It is difficult to say what level of thyroidal iodide uptake inhibition (if any) would be nonadverse in a person with any particular degree of iodine insufficiency.

The third National Health and Nutrition Examination Survey (NHANES III NHANES III Third National Health & Nutrition Examination Survey Public health A population-based survey conducted by the National Center for Health Statistics, designed to assess the health and nutritional status of the noninstitutionalized Americans ) (45), conducted in 1988-1994, found that the percentages of males and females with urinary iodine (UI) concentrations below 5 [micro]g/dL were substantially higher in every age category than in the 1971-1974 survey. Although the NHANES III data reveal a major decline in iodine intake over a 25-year period, we do not believe that iodine insufficiency should be inferred. The NHANES NHANES National Health and Nutrition Examination Survey (US CDC) data were obtained from single spot urines. In comparison with the population distribution of UI based on a 1-year average of monthly spot urines, the distribution based on single spot urines is much broader, leading to overestimation o·ver·es·ti·mate
tr.v. o·ver·es·ti·mat·ed, o·ver·es·ti·mat·ing, o·ver·es·ti·mates
1. To estimate too highly.

2. To esteem too greatly. of the number of individuals at both the low and high ends (46). Although single spot urines are a convenient means for obtaining crude information about iodine nutrition in a population, gauging the adequacy of iodine intake in an individual requires collection of one or more 24-hr urines (47,48). The NHANES III investigators fully appreciated that it was not possible for them to determine, based on their spot-urine results alone, whether thyroid function was adversely affected in any members of the population as a result of insufficient iodine nutrition (45): "Whether the reduced UI seen in 1988-1994 can be directly correlated to measurable changes in thyroid function in the population is not known at this time because the results of thyroid function tests and thyroid antibodies thyroid antibodies See Antimyeloperoxidase antibody, Antithyroglobulin antibody, Antithyroid peroxidase antibody. in the 1988-1994 study are not available as yet." They went on to say that "We know of no population-based study in the United States, such as transient neonatal neonatal /neo·na·tal/ (ne?o-nat´'l) pertaining to the first four weeks after birth.

ne·o·na·tal
adj.
Of or relating to the first 28 days of an infant's life. hypothyroidism or recent goiter goiter: see thyroid gland. surveys, that has shown changes that resulted from decreased iodine intake." The decline in iodine nutrition in the 25 years before 1988-1994 also brought a substantial reduction in the percentage of the population with excessive iodine intake. The investigators noted (45): "In 1971-1974, 27.8% of the population had excessive UI concentrations (> 50 [micro]g/dL), and the decline of those with excessive UI to 5.3% in 1988-1994 may be seen as beneficial in possibly reducing diseases due to iodine excess such as Hashimoto's thyroiditis Hashimoto's thyroiditis
The self destruction of the thyroid cells from an autoimmune disorder.

Mentioned in: Hypoparathyroidism

Hashimoto's thyroiditis and perhaps Graves' disease." In the United States as elsewhere, if iodine insufficiency occurs in any person or population group, then it should be corrected by iodine supplementation. Such supplementation should occur irrespective of irrespective of
prep.
Without consideration of; regardless of.

irrespective of
preposition despite whether there is significant known exposure to environmental perchlorate, other inhibitors of the sodium-iodide symporter such as nitrate and thiocyanate thiocyanate /thio·cy·a·nate/ (-si´ah-nat) a salt analogous in composition to a cyanate, but containing sulfur instead of oxygen. (49), or foods that naturally contain antithyroid compounds or their precursors (41).

Protection against depressed thyroid function in perchlorate plant workers. The average perchlorate absorption in workers subjected to the highest exposure has been estimated as 34 mg/shift, or approximately 0.5 mg/kg-day (16). In our study, a perchlorate dose of 0.5 mg/kg-day inhibited uptake by 67% on average. The fact that studies of chronically exposed perchlorate plant workers have thus far failed to detect any abnormalities of thyroid function (16,17) may well be attributable to high daily intake of iodine among the workers. If iodine intake is sufficiently high, even an average reduction in thyroidal iodide concentration to one-third its former level may still leave these individuals sufficient iodide to produce thyroid hormone at a normal rate. Further, given that perchlorate has a half-life of about 8 hr, the perchlorate plant workers, many of whom worked 12-hr shifts, might recover from the inhibitory effects of exposure during off-shift periods. Thus, the discontinuous discontinuous /dis·con·tin·u·ous/ (dis?kon-tin´u-us)
1. interrupted; intermittent; marked by breaks.

2. discrete; separate.

3. lacking logical order or coherence. nature of occupational exposure, which resembles the discontinuous nature of drinking-water exposure, might be a major factor in the observed tolerance to long-term perchlorate exposure at levels capable of producing pronounced inhibition of uptake. Prolonged exposure to perchlorate may also lead to an adaptive increase in the efficiency of thyroidal iodide uptake.

Although it has been argued, on the basis of data from a very small group of subjects, that serum TSH is lowest in persons whose iodine nutrition falls within certain narrow limits (50), normal TSH levels are typically observed over a wide range of iodine intake. A study of 2,300 euthyroid subjects found that serum TSH levels were statistically indistinguishable among groups with single-sample UI concentrations of 51-100, 101-200, and 201-300 [micro]g/g creatinine; only the group with UI < 50 [micro]g/g creatinine had significantly higher serum TSH levels compared to the other groups (51). Further, iodine deficiency must be relatively severe to produce any clear clinical or laboratory signs of abnormally low thyroid function (41).

Humans are able to maintain normal thyroid function when exposed to relatively high levels of the iodide uptake inhibitor thiocyanate (e.g., from consumption of cassava cassava (kəsä`və) or manioc (măn`ēŏk), name for many species of the genus Manihot of the family Euphorbiaceae (spurge family). or cabbage); the prevalence of goiter is not elevated as long as the iodine/thiocyanate ratio in urine is above a critical threshold Critical threshold, a notion derived from the percolation theory, refers to a threshold, that summons up to a critical mass. Under the threshold the phenomenon tends to abort, above the threshold, it tends to grow exponentially. of approximately 3 [micro]g iodine per 1 mg thiocyanate (41). Taking into consideration the relative molecular weights of perchlorate and thiocyanate and the fact that perchlorate is about 20-fold more potent an inhibitor of thyroidal iodide uptake (52), extrapolation from this guideline for the iodine/thiocyanate ratio suggests that ingestion of 36 [micro]g iodine per 1 mg perchlorate should be sufficient to avoid goiter. Based on this crude calculation, 150 [micro]g iodine daily would protect against goiter in a person whose perchlorate ingestion is 4 mg/day (0.057 mg/kg-day in a 70-kg adult), a dose that would inhibit iodide uptake by approximately 35%, according to the dose-response we observed in the present study. It is not clear what ratio of iodine to perchlorate is necessary to protect against effects on thyroid function more subtle than goiter, but from the observations on thiocyanate, it can be inferred that adequate iodine intake is key to the resiliency of the thyroid-pituitary axis when challenged with perchlorate or any other inhibitor of thyroidal iodide uptake.

Table 1. Descriptive statistics for the 8- and 24-hr thyroidal
RAIU by dose.

                          8-hr uptake (mean [+ or -] SE)

Dose               No.   Raw (% [sup.123]I)    Percent of baseline

0.5 mg/kg-day
  Baseline visit    10   14.1 [+ or -] 1.4             --
  E2                 8    4.4 [+ or -] 0.4     31.6 [+ or -] 2.9 **
  E14               10    4.5 [+ or -] 0.5     32.6 [+ or -] 3.3 **
  P15                8   14.7 [+ or -] 1.4    107.7 [+ or -] 11.3
0.1 mg/kg-day
  Baseline visit    10   12.8 [+ or -] 1.5             --
  E2                 8    7.7 [+ or -] 1.1     59.4 [+ or -] 2.0 **
  E14                9    7.4 [+ or -] 1.3     56.7 [+ or -] 5.2 **
  P15                8   12.9 [+ or -] 1.8    103.5 [+ or -] 10.4
0.02 mg/kg-day
  Baseline visit    10   11.8 [+ or -] 1.0             --
  E2                 8   10.2 [+ or -] 1.0     83.8 [+ or -] 6.3 *
  E14               10    9.4 [+ or -] 0.7     81.8 [+ or -] 4.2 **
  P15                8   13.5 [+ or -] 1.2    111.7 [+ or -] 8.1
0.007 mg/kg-day
  Baseline visit     7   12.6 [+ or -] 2.5             --
  E14                7   10.6 [+ or -] 1.1     93.8 [+ or -] 9.0
  P15               --           --                    --

                         24-hr uptake (mean [+ or -] SE)

Dose               No.   Raw (% [sup.123]I)    Percent of baseline

0.5 mg/kg-day
  Baseline visit    10   21.6 [+ or -] 2.0             --
  E2                 8    6.5 [+ or -] 0.6     30.6 [+ or -] 2.6 **
  E14               10    6.9 [+ or -] 0.9     32.9 [+ or -] 3.8 **
  P15               10   21.7 [+ or -] 2.0    104.6 [+ or -] 9.4
0.1 mg/kg-day
  Baseline visit    10   19.9 [+ or -] 2.1             --
  E2                 8   11.8 [+ or -] 1.7     59.2 [+ or -] 3.5 **
  E14               10   11.0 [+ or -] 1.6     55.3 [+ or -] 3.9 **
  P15               10   20.8 [+ or -] 2.2    106.6 [+ or -] 9.1
0.02 mg/kg-day
  Baseline visit    10   18.4 [+ or -] 1.2             --
  E2                 8   15.7 [+ or -] 1.4     82.8 [+ or -] 5.6 *
  E14               10   15.2 [+ or -] 1.1     83.6 [+ or -] 4.1 **
  P15               10   19.1 [+ or -] 1.3    105.3 [+ or -] 5.5
0.007 mg/kg-day
  Baseline visit     7   18.1 [+ or -] 3.1             --
  E14                7   16.5 [+ or -] 1.6     98.2 [+ or -] 8.3
  P15                7   17.3 [+ or -] 2.5    100.3 [+ or -] 8.4

* p < 0.05; ** p < 0.005 (pairwise comparison to baseline).

Table 2. Doses predicted to produce 0-20% inhibition of iodide
uptake by the thyroid and the calculated 95% upper confidence
limits on uptake inhibition at these doses. (a)

                   Predicted
                     dose
                  ([micro]g/     95% UCL on uptake
                   kg-day)          inhibition

Uptake
inhibition (%)   8-hr   24-hr   8-hr (%)   24-hr (%)

0                 5.2     6.4      9.5        8.3
5                 7.3     8.8     13.6       12.5
10               10.3    12.2     17.8       16.8
15               14.4    16.8     21.9       21.1
20               20.3    23.1     26.3       25.6

(a) Data are based on regression models describing the 8-hr
(Equation 1C) and 24-hr (Equation 1D) uptake data for E14. First
we used each model to predict the perchlorate dose corresponding
to a given level of inhibition of iodide uptake. Using the same
models but with dose as the independent variable, we then derived
confidence limits on the inhibition of iodide uptake at those doses.

Table 3. Descriptive statistics for the 24-hr thyroidal RAIU by sex
and dose.

                       24-hr uptake in men (mean [+ or -] SE)

Dose               No.   Raw (% [sup.123]I)   Percent of baseline

0.5 mg/kg-day
  Baseline visit    5    21.7 [+ or -] 3.8            --
  F2                4     6.2 [+ or -] 0.9     26.6 [+ or -] 1.4
  E14               5     6.7 [+ or -] 1.7     30.5 [+ or -] 4.8
  P15               5    21.4 [+ or -] 3.3    103.4 [+ or -] 14.7
0.1 mg/kg-day
  Baseline visit    5    17.5 [+ or -] 1.7            --
  E2                4    11.6 [+ or -] 2.3     63.6 [+ or -] 6.5
  E14               5     9.5 [+ or -] 1.3     54.8 [+ or -] 6.0
  P15               5    20.4 [+ or -] 3.4    116.6 [+ or -] 17.0
0.02 mg/kg-day
  Baseline visit    5    17.4 [+ or -] 1.5            --
  E2                4    13.8 [+ or -] 1.7     83.9 [+ or -] 10.6
  E14               5    14.4 [+ or -] 0.8     83.8 [+ or -] 5.1
  P15               5    18.7 [+ or -] 1.0    109.3 [+ or -] 8.5
0.007 mg/kg-day
  Baseline visit    1           21.5                  --
  E14               1           18.7                 87.0
  P15               1           20.7                 96.3

                      24-hr uptake in women (mean [+ or -] SE)

Dose               No.   Raw (% [sup.123]I)   Percent of baseline

0.5 mg/kg-day
  Baseline visit    5    21.4 [+ or -] 1.9            --
  F2                4     6.9 [+ or -] 0.8     34.7 [+ or -] 4.4
  E14               5     7.1 [+ or -] 0.8     35.3 [+ or -] 6.3
  P15               5    22.1 [+ or -] 2.5    105.7 [+ or -] 13.4
0.1 mg/kg-day
  Baseline visit    5    22.3 [+ or -] 3.8            --
  E2                4    12.0 [+ or -] 2.9     54.7 [+ or -] 1.3
  E14               5    12.5 [+ or -] 2.9     55.9 [+ or -] 5.6
  P15               5    21.2 [+ or -] 3.3     96.5 [+ or -] 3.0
0.02 mg/kg-day
  Baseline visit    5    19.4 [+ or -] 2.0            --
  E2                4    17.5 [+ or -] 2.0     81.7 [+ or -] 6.0
  E14               5    16.1 [+ or -] 2.0     83.4 [+ or -] 7.0
  P15               5    19.6 [+ or -] 2.6    101.2 [+ or -] 7.3
0.007 mg/kg-day
  Baseline visit    6    17.5 [+ or -] 3.6            --
  E14               6    16.1 [+ or -] 1.9    100.0 [+ or -] 9.6
  P15               6    16.8 [+ or -] 2.8    101.0 [+ or -] 9.9

Table 4. Descriptive statistics for serum hormone concentrations. (a)

                        TSH (mlU/L)             F[T.sub.4] (ng/dL)

Dose            No.     Mean [+ or -] SE     No.    Mean [+ or -] SE

0.5 mg/kg-day
  SV             7    2.146 [+ or -] 0.442    7    1.129 [+ or -] 0.071
  BV             8    2.713 [+ or -] 0.375    8    1.163 [+ or -] 0.080
  E1A            8    2.304 [+ or -] 0.400    8    1.138 [+ or -] 0.050
  E1B            8    2.663 [+ or -] 0.616    8    1.150 [+ or -] 0.050
  E2A            8    2.391 [+ or -] 0.306    8    1.225 [+ or -] 0.070
  E2B            7    1.641 [+ or -] 0.244    8    1.200 [+ or -] 0.085
  E2C            7    2.029 [+ or -] 0.305    8    1.150 [+ or -] 0.057
  E3             8    1.818 [+ or -] 0.198    8    1.213 [+ or -] 0.044
  E4A            7    2.337 [+ or -] 0.330    7    1.186 [+ or -] 0.074
  E4B            8    1.855 [+ or -] 0.346    8    1.138 [+ or -] 0.078
  E8             8    1.684 [+ or -] 0.237    8    1.300 [+ or -] 0.053
  E14A           8    1.896 [+ or -] 0.362    7    1.200 [+ or -] 0.049
  E14B           8    1.644 [+ or -] 0.362    8    1.163 [+ or -] 0.032
  E14C           7    1.464 [+ or -] 0.341    7    1.257 [+ or -] 0.117
  P1             8    1.599 [+ or -] 0.255    8    1.175 [+ or -] 0.067
  P15            8    3.025 [+ or -] 0.471    8    1.213 [+ or -] 0.058
0.1 mg/kg-day
  SV             7    1.481 [+ or -] 0.262    8    1.200 [+ or -] 0.053
  BV             8    1.600 [+ or -] 0.118    8    1.188 [+ or -] 0.055
  E1A            8    1.700 [+ or -] 0.158    8    1.188 [+ or -] 0.064
  E1B            7    1.584 [+ or -] 0.181    8    1.238 [+ or -] 0.053
  E2A            8    1.613 [+ or -] 0.129    8    1.225 [+ or -] 0.075
  E2B            7    1.443 [+ or -] 0.194    7    1.200 [+ or -] 0.105
  E2C            8    1.550 [+ or -] 0.165    8    1.150 [+ or -] 0.042
  E3             8    1.233 [+ or -] 0.107    8    1.250 [+ or -] 0.068
  E4A            8    1.409 [+ or -] 0.146    8    1.188 [+ or -] 0.040
  E4B            8    1.206 [+ or -] 0.077    8    1.088 [+ or -] 0.044
  E8             8    1.523 [+ or -] 0.151    8    1.275 [+ or -] 0.025
  E14A           7    1.729 [+ or -] 0.310    7    1.186 [+ or -] 0.077
  E14B           8    1.598 [+ or -] 0.230    7    1.129 [+ or -] 0.064
  E14C           7    1.314 [+ or -] 0.152    7    1.129 [+ or -] 0.075
  P1             8    1.483 [+ or -] 0.197    8    1.200 [+ or -] 0.080
  P15            8    1.763 [+ or -] 0.226    8    1.138 [+ or -] 0.068
0.02 mg/
    kg-day
  SV             8    1.811 [+ or -] 0.327    8    1.125 [+ or -] 0.041
  BV             8    2.155 [+ or -] 0.415    8    1.125 [+ or -] 0.041
  E1A            7    2.263 [+ or -] 0.638    7    1.114 [+ or -] 0.040
  E1B            7    1.724 [+ or -] 0.256    8    1.150 [+ or -] 0.089
  E2A            7    2.403 [+ or -] 0.463    7    1.186 [+ or -] 0.080
  E2B            8    1.668 [+ or -] 0.225    8    1.225 [+ or -] 0.070
  E2C            8    2.094 [+ or -] 0.437    8    1.125 [+ or -] 0.073
  E3             8    1.875 [+ or -] 0.280    8    1.238 [+ or -] 0.065
  E4A            8    2.128 [+ or -] 0.331    8    1.213 [+ or -] 0.090
  E4B            8    1.859 [+ or -] 0.328    8    1.113 [+ or -] 0.106
  E8             8    1.901 [+ or -] 0.343    8    1.200 [+ or -] 0.027
  E14A           7    2.067 [+ or -] 0.335    6    1.250 [+ or -] 0.072
  E14B           8    1.516 [+ or -] 0.224    7    1.214 [+ or -] 0.063
  E14C           8    2.158 [+ or -] 0.407    7    1.157 [+ or -] 0.048
  P1             8    1.769 [+ or -] 0.334    8    1.163 [+ or -] 0.065
  P15            8    2.019 [+ or -] 0.359    8    1.175 [+ or -] 0.056

                T[T.sub.4] ([micro]g/dL)      T[T.sub.3] (ng/dL)

Dose            No.    Mean [+ or -] SE    No.    Mean [+ or -] SE

0.5 mg/kg-day
  SV             8    7.46 [+ or -] 0.76    8    109.4 [+ or -] 4.6
  BV             8    7.31 [+ or -] 0.64    8    115.1 [+ or -] 7.3
  E1A            8    7.69 [+ or -] 0.75    8    110.8 [+ or -] 4.9
  E1B            8    7.26 [+ or -] 0.74    8    108.1 [+ or -] 5.7
  E2A            8    7.24 [+ or -] 0.54    8    111.3 [+ or -] 6.9
  E2B            8    7.29 [+ or -] 0.55    8    109.0 [+ or -] 5.8
  E2C            8    7.41 [+ or -] 0.59    8    108.5 [+ or -] 5.7
  E3             8    7.69 [+ or -] 0.65    8    111.0 [+ or -] 5.5
  E4A            7    7.39 [+ or -] 0.84    7    122.9 [+ or -] 7.0

  E4B            8    6.95 [+ or -] 0.42    8    108.6 [+ or -] 6.8
  E8             8    8.48 [+ or -] 0.50    8    110.8 [+ or -] 6.1
  E14A           7    7.46 [+ or -] 0.58    7    112.7 [+ or -] 8.7
  E14B           8    7.89 [+ or -] 0.63    8    117.1 [+ or -] 6.6
  E14C           8    7.41 [+ or -] 0.54    8    114.9 [+ or -] 4.7
  P1             8    7.91 [+ or -] 0.65    8    122.3 [+ or -] 8.2
  P15            8    7.84 [+ or -] 0.68    8    120.5 [+ or -] 10.2
0.1 mg/kg-day
  SV             8    7.06 [+ or -] 0.53    8    101.1 [+ or -] 5.4
  BV             8    7.13 [+ or -] 0.38    8    102.5 [+ or -] 3.4
  F1A            8    7.11 [+ or -] 0.49    8    107.4 [+ or -] 4.5
  E1B            8    7.09 [+ or -] 0.43    8    102.9 [+ or -] 3.9
  E2A            8    6.56 [+ or -] 0.38    8    104.4 [+ or -] 3.5
  E2B            7    7.24 [+ or -] 0.32    7    103.1 [+ or -] 3.2
  E2C            8    6.86 [+ or -] 0.41    8    104.9 [+ or -] 2.9
  E3             8    7.05 [+ or -] 0.61    8    103.3 [+ or -] 4.9
  E4A            8    6.36 [+ or -] 0.36    8     99.1 [+ or -] 3.7
  E4B            8    7.33 [+ or -] 0.69    8    108.3 [+ or -] 6.5
  E8             8    7.90 [+ or -] 0.88    8    110.9 [+ or -] 6.2
  E14A           8    6.46 [+ or -] 0.57    8    104.6 [+ or -] 5.4
  E14B           8    6.74 [+ or -] 0.59    8    106.1 [+ or -] 4.4
  E14C           8    6.60 [+ or -] 0.57    8    106.3 [+ or -] 3.4
  P1             7    6.83 [+ or -] 0.55    8    106.9 [+ or -] 4.8
  P15            7    7.09 [+ or -] 0.52    7    105.6 [+ or -] 4.1
0.02 mg/
    kg-day       8    6.90 [+ or -] 0.78    8     95.5 [+ or -] 4.3
  SV             8    7.58 [+ or -] 0.83    8     98.1 [+ or -] 3.8
  BV             7    7.31 [+ or -] 0.80    7     99.3 [+ or -] 3.7
  E1A            8    7.18 [+ or -] 0.76    8    101.3 [+ or -] 6.2
  E1B            7    7.30 [+ or -] 0.87    7    101.4 [+ or -] 6.5
  E2A            8    7.56 [+ or -] 0.76    8     95.8 [+ or -] 6.4
  E2B            8    7.10 [+ or -] 0.75    8     95.0 [+ or -] 5.3
  E2C            8    7.59 [+ or -] 0.70    8    100.3 [+ or -] 5.6
  E3             8    7.10 [+ or -] 0.78    8    102.5 [+ or -] 7.1
  E4A            8    7.35 [+ or -] 0.76    8     94.4 [+ or -] 6.8
  E4B            8    7.68 [+ or -] 0.74    8    103.0 [+ or -] 5.3
  E8             7    7.71 [+ or -] 0.80    7    103.6 [+ or -] 4.0
  E14A           8    7.51 [+ or -] 0.65    8     97.3 [+ or -] 3.2
  E14B           8    7.28 [+ or -] 0.68    8    100.1 [+ or -] 3.9
  E14C           8    7.89 [+ or -] 0.89    8    101.4 [+ or -] 4.7
  P1             8    7.60 [+ or -] 0.82    8     99.1 [+ or -] 4.3
  P15

(a) E1A and E1B: nominal 1200 and 1600 hr draws on E1; E2A, E2B, and
E2C: nominal 0800, 1200, and 1700 hr draws on E2; E4A and E4B:
nominal 0800 and 1200 hr draws on E4; E14A, E14B, and E14C: nominal
0800, 1200, and 1700 hr draws on E14. SV, screening visit; BV,
baseline visit. The SV draw was not at a specified time or on a
specified day. In some cases, weeks or months elapsed between the SV
and the BV. The mean times of the SV blood draw in the 0.02-, 0.1-,
and 0.5-mg/kg-day dose groups were 1327, 1330, and 1243 hr; the
overall mean ([+ or -] SE) was 1313 hr [+ or -] 24 min. The BV blood
draw was nominally at 0800 hr; the E3, E8, P1, and P15 blood draws
were nominally at 0900 hr.

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Hans Huber (composer) (1852–1921), a Swiss composer
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The synthesis of more complex molecules from simpler ones in cells by a series of reactions mediated by enzymes. The overall economy and survival of the cell is governed by the interplay between the energy gained from the breakdown of compounds , and proteolysis proteolysis

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(51.) Buchinger W, Lorenz-Wawschinek O, Semlitsch G, Langsteger W, Binter G, Bonelli RM, Eber O. Thyrotropin and thyroglobulin as an index of optimal iodine intake: correlation with iodine excretion of 39,913 euthyroid patients. Thyroid 7:593-597 (1997).

(52.) Greer MA, Stott AK, Milne KA. Effect of thiocyanate, perchlorate and other anions on thyroidal iodine metabolism. Endocrinology 79:237-247 (1966).

Monte A. Greer, (1) Gay Goodman, (2) Richard C. Pleus, (2) and Susan E. Greer (1)

(1) Oregon Health & Science University, Portland, Oregon, USA; (2) Intertox, Inc., Seattle, Washington

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Address correspondence to G. Goodman, Intertox, Inc., 2819 Elliott Ave., Suite 201, Seattle, WA 98121 USA. Telephone: (206) 284-4820. Fax: (206) 284-8425. E-mail: ggoodman@hhrr.com

We are indebted to the General Clinical Research Center, Nuclear Medicine staff, and L. Bradley of OHSU for their generous support and to C. Crump, D. Lurie, and E. Crouch for consultation on statistical analyses. M.A.G. was the principal investigator, G.G. was the co-investigator, and S.E.G. was the study coordinator. The protocol was developed by G.G., M.A.G., and R.C.P. with the substantial contribution of D. Mattie and J. Fisher of the Air Force Research Laboratory and A. Jarabek of the U.S. Environmental Protection Agency, National Center for Environmental Assessment. M. Greer died in a traffic accident on 24 March 2002. We mourn mourn
v. mourned, mourn·ing, mourns

v.intr.
1. To feel or express grief or sorrow. See Synonyms at grieve.

2. deeply the loss of this gentle, brilliant man: colleague, mentor, and father.

This work was supported by the Perchlorate Study Group and by NIH grant MO1 RR 00334.

Received 26 July 2001; accepted 12 February 2002.

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Author:	Greer, Susan E.
Publication:	Environmental Health Perspectives
Date:	Sep 1, 2002
Words:	14460
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