Characterization of marine aerosol for assessment of human exposure to brevetoxins.Red tides in the Gulf of Mexico Noun 1. Gulf of Mexico - an arm of the Atlantic to the south of the United States and to the east of Mexico Golfo de Mexico Atlantic, Atlantic Ocean - the 2nd largest ocean; separates North and South America on the west from Europe and Africa on the east are commonly formed by the fish-killing dinoflagellate dinoflagellate Any of numerous one-celled, aquatic organisms that have two dissimilar flagella and characteristics of both plants (algae) and animals (protozoans). Most are microscopic and marine. Karenia brevis, which produces nine potent polyether pol·y·e·ther n. A polymer in which the repeating unit contains two carbon atoms linked by an oxygen atom. brevetoxins (PbTxs). Brevetoxins can be transferred from water to air in wind-powered white-capped waves. Inhalation exposure to marine aerosol containing brevetoxins causes respiratory symptoms. We describe detailed characterization of aerosols during an epidemiologic study epidemiologic study A study that compares 2 groups of people who are alike except for one factor, such as exposure to a chemical or the presence of a health effect; the investigators try to determine if any factor is associated with the health effect of occupational exposure to Florida red tide aerosol in terms of its concentration, toxin profile, and particle size distribution The particle size distribution[1] ("PSD") of a powder, or granular material, or particles dispersed in fluid, is a list of values or a mathematical function that defines the relative amounts of particles present, sorted according to size. . This information is essential in understanding its source, assessing exposure to people, and estimating dose of inhaled aerosols. Environmental sampling confirmed the presence of brevetoxins in water and air during a red tide exposure period (September 2001) and lack of significant toxin levels in the water and air during an unexposed period (May 2002). Water samples collected during a red tide bloom in 2001 showed moderate-to-high concentrations of K. brevis cells and PbTxs. The daily mean PbTx concentration in water samples ranged from 8 to 28 [micro]g/L from 7 to 11 September 2001; the daily mean PbTx concentration in air samples ranged from 1.3 to 27 ng/[m.sup.3]. The daily aerosol concentration on the beach can be related to PbTx concentration in water, wind speed, and wind direction. Personal samples confirmed human exposure to red tide aerosols. The particle size distribution showed a mean aerodynamic diameter in the size range of 6-12 [micro]m, with deposits mainly in the upper airways upper airways A term that encompasses the nasal passages, nasopharynx, oropharynx, larynx. Cf Lower airways. . The deposition pattern correlated with the observed increase of upper airway up·per airway n. The portion of the respiratory tract that extends from the nostrils or mouth through the larynx. symptoms in healthy lifeguards during the exposure periods. Key words: brevetoxin, exposure assessment, Karenia brevis, marine aerosol, particle size distribution, personal exposure, red tide. doi:10.1289/ehp.7496 available via http://dx.doi.org/[Online 9 February 2005] ********** Red tides in the Gulf of Mexico are commonly formed by the fish-killing dinoflagellate Karenia brevis (formerly known as Gymnodinium breve BREVE, practice. A writ in which the cause of action is briefly stated, hence its name. Fleta, lib. 2, c. 13, Sec. 25; Co. Lit. 73 b. 2. Writs are distributed into several classes. ). The organism produces as many as nine potent polyether brevetoxins called PbTxs and designated PbTx-1, PbTx-2, etc., that result in the death of a massive number of fish (Forrester et al. 1977), mammals (Bossart et al. 1998), and other marine species during red tide blooms. PbTxs can also concentrate in the tissues of shellfish that feed on dinoflagellates dinoflagellates minute aquatic protozoa; they produce red pigment and toxins which are taken up by shellfish without apparent ill effect, but the toxin is not metabolized and the shellfish may poison animals if eaten. . People who eat these shellfish may suffer from neurotoxic neurotoxic pertaining to or emanating from a neurotoxin. neurotoxic state a case of poisoning by a neurotoxin. neurotoxic adjective shellfish poisoning, a food poisoning food poisoning, acute illness following the eating of foods contaminated by bacteria, bacterial toxins, natural poisons, or harmful chemical substances. It was once customary to classify all such illnesses as "ptomaine poisoning," but it was later discovered that syndrome that can cause severe gastrointestinal and neurologic symptoms. Brevetoxins can also be transferred from water to air in the wind-powered white-capped waves during red tide episodes (Pierce et al. 1989a). Inhalation exposure to marine aerosol containing brevetoxins causes respiratory symptoms, including involuntary coughing and sneezing To verbally tell somebody about a new and interesting Web site. See viral marketing. , watery eyes, rhinorrhea, a burning sensation in the throat and nose, and difficulty breathing (Backer et al. 2003; Cheng et al. 2005; Pierce et al. 2003). Red tides off Florida coastal waters are almost annual events. Historically, anecdotal reports and limited references to human symptoms in the literature (Music et al. 1973; Woodcock woodcock: see snipe. woodcock Any of five species (family Scolopacidae) of plump, sharp-billed migratory birds of damp, dense woodlands in North America, Europe, and Asia. 1948) have consistently cited acute respiratory and eye irritations as typical responses from exposure to aerosolized Adj. 1. aerosolized - in the form of ultramicroscopic solid or liquid particles dispersed or suspended in air or gas aerosolised gaseous - existing as or having characteristics of a gas; "steam is water is the gaseous state" PbTx. In addition, experimental work (Abraham et al. 2004; Asai et al. 1982; Baden et al. 1982) demonstrated that inhaled PbTx could cause bronchoconstriction and a smooth respiratory muscle response that could result in an asthma attack in susceptible individuals. During two red tide events in Florida in 1999, PbTx levels in air and seawater seawater Water that makes up the oceans and seas. Seawater is a complex mixture of 96.5% water, 2.5% salts, and small amounts of other substances. Much of the world's magnesium is recovered from seawater, as are large quantities of bromine. were measured and personal interviews and pulmonary function tests Pulmonary Function Test Definition Pulmonary function tests are a group of procedures that measure the function of the lungs, revealing problems in the way a patient breathes. were conducted on people before and after they visited Florida beaches (Backer et al. 2003). During moderate- and high-exposure periods, 36 and 80 ng/[m.sup.3], respectively, of PbTx were detected in the air. Lower respiratory tract Noun 1. lower respiratory tract - the bronchi and lungs lung - either of two saclike respiratory organs in the chest of vertebrates; serves to remove carbon dioxide and provide oxygen to the blood symptoms (e.g., tightness of chest, wheezing Wheezing Definition Wheezing is a high-pitched whistling sound associated with labored breathing. Description Wheezing occurs when a child or adult tries to breathe deeply through air passages that are narrowed or filled with mucus as a , shortness of breath Shortness of Breath Definition Shortness of breath, or dyspnea, is a feeling of difficult or labored breathing that is out of proportion to the patient's level of physical activity. ) were reported by 8% of the people who had no or low exposure, 11% with moderate exposure, and 28% with high exposure; upper respiratory symptoms (eye and throat irritation, nasal congestion nasal congestion ENT Difficulty in nasal breathing, due to an ↑ vascular thickness of nasal mucosa. See Nasal stuffiness. , cough) were also increased in the moderate- and high-exposure groups. Nasal-pharyngeal swabs were taken from people who experienced moderate or high exposure, and we found a mild inflammatory response in > 33% of these participants. This initial study indicated that brief recreational exposure to red tide aerosol by beach goers could be related to increased respiratory symptoms. We also found in the fall of 2000 in a red tide event near Corpus Christi, Texas Corpus Christi is a coastal city and the county seat of Nueces CountyGR6 in the U.S. state of Texas. It is part of the region known as South Texas. , that low air concentrations of brevetoxins in the range of 3-4 ng/[m.sup.3] could initiate symptoms in the upper respiratory tract respiratory tract n. The air passages from the nose to the pulmonary alveoli, including the pharynx, larynx, trachea, and bronchi. Respiratory tract , including cough, irritation in the throat, and itchy itch·y adj. Having or causing an itching sensation. eyes (Cheng et al. 2005). Red tide aerosols are marine aerosols containing aerosolized K. brevis fragments and associated bacteria (Pierce et al. 1989a). Environmental aerosol samples collected during red tides in Florida and North Carolina North Carolina, state in the SE United States. It is bordered by the Atlantic Ocean (E), South Carolina and Georgia (S), Tennessee (W), and Virginia (N). Facts and Figures Area, 52,586 sq mi (136,198 sq km). Pop. in 1987 (Pierce et al. 1989b) showed high concentrations of three PbTxs (PbTx-2, PbTx-3, and PbTx-5). Generation of red tide aerosol was also studied in the laboratory using cultures of K. brevis (Pierce et al. 1989a, 1989b). In general, similar PbTxs profiles were observed in the laboratory and the field. Characterization of the red tide aerosols in terms of its concentration, chemical composition, toxin profile, and particle size distribution is essential in understanding the source, assessing human exposure, and estimating dose of inhaled aerosol. With additional information on local weather conditions and water samples in the bloom, one can also establish a relationship between the aerosol concentration and environmental conditions. We describe in this article a detailed characterization of aerosols and environmental conditions during an epidemiologic study of occupational exposure to Florida red tide aerosol. Materials and Methods Field sampling study. The occupational exposure study was conducted in Sarasota, Florida. The experimental design had two 5-day study periods including an exposure period between 7 and 11 September 2001 during a red tide episode and a nonexposure period between 3 and 7 May 2002. The detailed study design for the epidemiologic study is described in this mini-monograph by Backer et al. (2005). Air samplers were set up along Siesta Beach and Lido Beach (Sarasota, Florida) to collect marine aerosols. High-volume air samplers (model G2000H; Andersen Instruments, Smyrna, GA) were placed near the water to collect large quantities of material for analysis of PbTx. Some samplers collected airborne particles in one filter substrate for total aerosol concentration, whereas other samplers housed a five-stage, high-volume cascade impactor (model SA235, Andersen Instruments) for total concentration as well as particle size distribution. Glass-fiber filters (20 cm x 25 cm) were used as the collection substrates (model EPM EPM equine protozoal myeloencephalitis. 2000; Whatman International Ltd., Maidstone, UK) for the single-stage filter sampler. Cellulous filters (15 cm x 14 cm; filter paper 41, Whatman) were used for the five-stage cascade impactor. There were one impactor sampler and three filter samplers at Siesta and Lido beaches. The sampling time usually started between 0800 and 0830 hr and ended between 1530 and 1630 hr. We also ran one impactor sampler at night for a total of approximately 15 hr at Siesta Beach during the exposed period of 7-10 September 2001. The samples collected represented the time-integrated ambient concentration and particle size in the sampling area. Seawater samples were collected in 1-L glass bottles 3 times each day (0830, 1200, and 1600 hr) from the surf zone adjacent to each air sampler location to provide an indication of changes in cell counts and toxin composition throughout each day. A 20-mL subsample sub·sam·ple n. A sample drawn from a larger sample. tr.v. sub·sam·pled, sub·sam·pling, sub·sam·ples To take a subsample from (a larger sample). was collected from each bottle and fixed with Utermohl's solution for microscopic identification and enumeration 1. (mathematics) enumeration - A bijection with the natural numbers; a counted set. Compare well-ordered. 2. (programming) enumeration - enumerated type. of K. brevis cells. The remaining water sample was processed for brevetoxin analysis by liquid chromatography-electrospray ionization ionization: see ion. ionization Process by which electrically neutral atoms or molecules are converted to electrically charged atoms or molecules (ions) by the removal or addition of negatively charged electrons. mass spectrometry mass spectrometry or mass spectroscopy Analytic technique by which chemical substances are identified by sorting gaseous ions by mass using electric and magnetic fields. (LC-MS) and for verification by enzyme-linked immunosorbent assay enzyme-linked immunosorbent assay n. ELISA. Enzyme-linked immunosorbent assay (ELISA) A diagnostic blood test used to screen patients for AIDS or other viruses. (ELISA ELISA (e-li´sah) Enzyme-Linked Immuno-Sorbent Assay; any enzyme immunoassay using an enzyme-labeled immunoreactant and an immunosorbent. ELISA n. ). Personal exposure. Personal exposure was measured by the occupational study participants who wore a personal sampler (IOM IOM See: Index and Option Market inhalable dust sampler; SKC SKC Salish Kootenai College (Pablo, MT) SKC Sky Clear (Meteorology) SKC St Kevin's College (Melbourne, Victoria-Australia) SKC Chief Storekeeper , Inc., Eighty Four, PA) connected to a battery-operated pump (Hi Flow Sampler; Gillian Instrument, Wayne, NJ). The sampler was placed at the lapel near the breathing zone. A 25-mm glass fiber filter (type A/E A/E Architect/Engineer A/E Architecture and Engineering Services A/E Air Entry (by auscultation) A/E Activity Elements A/E Ascent and Entry (spacecraft; NASA) A/E Attitude Ephemeris A/E Anarchy and Equality ; Pall Life Science, Ann Arbor, MI) was used as the collection substrate. The sampling flow rate was 2-L/min controlled by a rotameter in the sampling pump. Monitoring of weather conditions. A portable, solar-powered weather station was deployed at Siesta Beach near the impactor sampler to provide wind speed and direction, temperature, and relative humidity relative humidity n. The ratio of the amount of water vapor in the air at a specific temperature to the maximum amount that the air could hold at that temperature, expressed as a percentage. (Complete Weather Station; Davis Instruments, Hayward, CA). It continued to monitor weather conditions during the sampling period, and the data were downloaded daily. The wind direction measured at Siesta Beach included 16 quadrants. We assigned arbitrary values for onshore wind (1 for W, WSW, SW, SSW SSW abbr. south-southwest Noun 1. SSW - the compass point midway between south and southwest sou'-sou'-west, south southwest , and S), offshore wind (0 for ESE ESE abbr. east-southeast Noun 1. ESE - the compass point midway between east and southeast east southeast , E, ENE, NE, NNE NNE abbr. north-northeast Noun 1. NNE - the compass point that is midway between north and northeast nor'-nor'-east, north northeast , and N), and partially onshore wind (0.5 for SSE (1) An earlier full-screen editor in OS/2. (2) (Streaming SIMD Extensions) A series of additional instructions built into Pentium CPU chips for improved multimedia performance by performing mathematical operations on multiple sets of data at the and WNW WNW abbr. west-northwest Noun 1. WNW - the compass point midway between west and northwest west northwest , 0.3 for NW, 0.1 for NNW NNW abbr. north-northwest Noun 1. NNW - the compass point that is midway between north and northwest nor'-nor'-west, north northwest and SE). The daily average of the direction was then the mean value averaged over the sampling period; the standard deviation In statistics, the average amount a number varies from the average number in a series of numbers. (statistics) standard deviation - (SD) A measure of the range of values in a set of numbers. was a measure of the variability in wind direction measurement. The mean wind direction can also be viewed as the fraction of time the wind direction was onshore. Analysis for air samples. After collection, the high-volume impactor substrates were stored at -20[degrees]C. Filters were removed from the cold storage and equilibrated to room temperature before extraction. First, substrates were cut into several sections. About 3.0 [cm.sup.2] was used for ELISA analysis for total concentration of brevetoxins and related compounds. About 90 [cm.sup.2] of samples were extracted and analyzed by LC-MS. The extraction and LC-MS techniques have been described in detail (Cheng et al. 2005). Briefly, the section of filter for LC-MS-MS analysis was extracted first by folding over and rolling it into a 15-mL polypropylene tube. Ten milliliters of acetone acetone (ăs`ĭtōn), dimethyl ketone (dīmĕth`əl kē`tōn), or 2-propanone (prō`pənōn), CH3COCH3 were added to the tube and the sample was vortexed for 20 sec, sonicated for 2 min, and then placed on a circular rotator (Roto-Torque, low speed #10; Cole-Parmer Instruments, Vernon Hills, IL) for 20 min. The 10-mL extract was then evaporated under a gentle stream of nitrogen to approximately 100 [micro]L, vortexed for 5 sec to rehomogenize the extract, and recombined with a 50:50 methanol: purified water to the final analysis volume (typically 200 [micro]L). The samples were then analyzed for brevetoxins by an LC-MS technique using a high-performance liquid chromatograph chromatograph /chro·mato·graph/ (kro-mat´o-graf) 1. the apparatus used in chromatography. 2. to analyze by chromatography. chromatograph 1. to analyze by chromatography. 2. (SIL-DAD vp; Shimadzu Co., Kyoto, Japan) coupled with the API 365 MS/MS MS/MS Tandem Mass Spectroscopy MS/MS Multistage Mass Spectrometry (Applied Biosystems Inc., Foster City, CA). We ran the instrument in multiple-response monitor mode and used the parent/daughter ion pairs of 867.5/849.5 (PbTx-1), 895.5/877.5 (PbTx-2), 897.5/725.4 (PbTx-3), 911.6/893.7 (PbTx-6), 899.6/863.9 (PbTx-9), and 657.4/273.2 (brevenal) to identify and quantify the PbTx components. The limit of quantitation for the analysis of the impactor sample was 0.01 ng/[m.sup.3]. Filter samples from personal samples and small sections of each impactor substrate were analyzed by a competitive ELISA (Naar et al. 2002) based on the specific activity of the goat anti-PbTx antibody (Trainer and Baden 1991). The analysis provided a total amount of PbTxs but not the individual PbTxs. The limit of quantitation of the brevetoxins using the ELISA assay was 0.6 ng/sample. For the personal samples, this corresponded to about 1 ng/[m.sup.3] for a sampling period of 300 min. Analysis of water samples. We extracted brevetoxins from the water samples by passing the seawater through a [C.sub.18] solid-phase extraction disk under vacuum (Ansys Technologies, Inc., Lake Forest, CA) according to the procedure of Pierce et al. (2003). The [C.sub.18] disks were then rinsed with reverse osmosis reverse osmosis n. The movement of a solvent in the opposite direction from osmosis in such a manner that the solvent moves from a solution of greater concentration through a membrane to a solution of lesser concentration. water to remove any remaining salts and eluted with methanol for LC-MS and ELISA analyses. We verified the extraction efficiency by recovery of standard toxins added to seawater samples and processed as described above. Brevetoxin analyses of water samples were performed at the Mote Marine Laboratory Mote Marine Laboratory (and Aquarium) is a not-for-profit research and educational institution with an aquarium open to the public 365 days a year. Founded by Dr. Eugenie Clark in 1955 in Cape Haze, Florida, the early years of the laboratory specialized in shark research. by LC-MS using a ThermoFinnigan AqA LC-MS. The LC consisted of a SpectraSystems: LC pump P4000, autosampler AS3000, and degasser SCM (1) (Software Configuration Management, Source Code Management) See configuration management. (2) See supply chain management. 1000 (Thermo Electron Co., Waltham, MA). Mass spectral detection was obtained using an AqA single quad system scanned from 204 to 1,216 AMU amu atomic mass unit. amu abbr. atomic mass unit with AqA Max 40 V, and a scan rate of 1.1 scans/sec. All analysis was conducted using electrospray with the probe at 3 kV and 250[degrees]C. The column was a Phenomenex Security Guard [C.sub.18] guard column with a Phenomenex Luna [C.sub.18] 5Fm 250 x 2 mm analytical column (Phenomenex USA, Torrance, CA). The solvent gradient was composed of acidified acidified /acid·i·fied/ (ah-sid´i-fid) having been made acid. (0.3% acetic acid acetic acid (əsē`tĭk), CH3CO2H, colorless liquid that has a characteristic pungent odor, boils at 118°C;, and is miscible with water in all proportions; it is a weak organic carboxylic acid (see carboxyl group). ) acetonitrile acetonitrile /ac·e·to·ni·trile/ (as?e-to-ni´tril) a colorless liquid with an etherlike odor used as an extractant, solvent, and intermediate; ingestion or inhalation yields cyanide as a metabolic product. (ACN ACN Accenture (stock symbol) ACN Accenture ACN Australian Company Number ACN Automatic Collision Notification (US DOT) ACN Acetonitrile ACN Anglican Communion Network )/[H.sub.2]O with initial 50:50 ACN/[H.sub.2]O to 95:5 ACN/[H.sub.2]O over 40 min. Dose estimation of inhaled PbTxs. The deposition pattern of the inhaled red tide aerosol in different regions of the respiratory tract can be estimated using the International Commission on Radiological Protection The International Commission on Radiological Protection (ICRP) is an advisory body providing recommendations and guidance on radiation protection; It was founded in 1928 by the International Society of Radiology (ISR) and was then called the ‘International X-ray and Radium (ICRP ICRP International Commission on Radiological Protection ICRP International Commission on Radiation Protection (Stockholm, Sweden) ICRP Indonesian Committee on Religion and Peace ICRP Intensive Cognitive Rehabilitation Program ) 66 lung model (ICRP 1994). The human respiratory tract is divided into three anatomical regions. The extrathoracic (ET) airway including the naso-oro-pharyngolaryngeal region is the entry to the respiratory tract and the first defense against hazardous inhaled material. The tracheobronchial tracheobronchial /tra·cheo·bron·chi·al/ (-brong´ke-al) pertaining to the trachea and bronchi. tra·che·o·bron·chi·al adj. Of or relating to the trachea and the bronchi. (TB) tree region includes the trachea trachea (trā`kēə) or windpipe, principal tube that carries air to and from the lungs. It is about 4 1-2 in. (11.4 cm) long and about 3-4 in. (1.9 cm) in diameter in the adult. and 16 generations of branching airways. Gas exchange takes place in the pulmonary region. Particles deposit in the lung by inertial impaction, sedimentation, diffusion, and electrostatic mechanisms. Assuming a breathing rate of 25 L/min for light exercise of an adult male and measured particle size distribution, we calculated the deposition fractions of inhaled particles in the three regions of the human respiratory tract using LUDEP software (NRPB NRPB National Radiological Protection Board (UK) NRPB National Resources Planning Board (WWII) NRPB National Radiological Protection Directorate , Oxon, UK), which is based on the ICRP lung model (ICRP 1994). Statistical analysis. A paired t-test was used to determine whether differences of mass median aerodynamic diameter (MMAD MMAD Mass Median Aerodynamic Diameter MMAD Musicians Making A Difference MMAD Maxi-Minis And Databases MMAD Medical Marijuana Access Division MMAD Minerva McGonagall Albus Dumbledore (Harry Potter fanfiction) ) between the LC-MS and ELISA analysis were significant. A p-value < 0.05 was considered significant. Results Environmental conditions. Table 1 summarizes the environmental data obtained for the two sampling periods during the 2001-2002 Occupational Exposure Study in Siesta Beach, Florida. The data showed that during the two sampling periods, the temperature and relative humidity were stable. In addition to temperature and relative humidity, the wind speed [in miles per hour (mph)] and wind direction were measured. Both wind direction and wind speed varied daily during the exposure and nonexposure periods. For example, on 7 September 2001, the air was calm with little wind. On 8 and 9 September 2001, wind speed increased, and > 50% of the time the wind carried marine aerosols onshore. On 10 September 2001, the wind speed decreased and was offshore most of the time. On 11 September 2001, the wind speed increased but was still offshore. PbTx concentration in air and water. Environmental sampling confirmed the presence of K. brevis in water and brevetoxins in the water and air during the red tide exposure period (September 2001), and the lack of significant toxin levels in the water and air during the unexposed period (May 2002) (Table 2). Surf water samples from the non-exposed May 2002 period contained low concentrations of brevetoxins, ranging from below the limit of quantitation (0.05 [micro]g/L) to 0.3 [micro]g/L for samples collected from 3 to 7 May 2002 in both Lido and Siesta beaches. Air concentrations were expressed as nanograms per cubic meter of PbTxs (LC-MS technique) and were the mean value of three filter and one impactor samples collected at Lido and Siesta beaches. During the nonexposure period, air samplers recovered trace amounts of brevetoxins from the air ranging below the detection limit of quantitation (< 0.01 ng/[m.sup.3]) to 1 ng/[m.sup.3]. Water samples collected during a red tide bloom showed moderate-to-high concentrations of K. brevis cells and PbTxs. The daily mean total PbTx concentration and standard deviation in water samples ranged from 8 to 28 [micro]g/L from 7 to 11 September 2001. The mean concentrations were between 18 and 28 [micro]g/L for the first 2 days. The aerosol concentrations were between 1.9 and 12 ng/[m.sup.3] at the Siesta Beach and 1.3 and 27 ng/[m.sup.3] at the Lido Beach. Higher concentrations (> 8.6 ng/[m.sup.3]) were reported between 7 and 9 September 2001, in general corresponding to higher PbTx concentrations in water and onshore wind direction. On 10 and 11 September 2001, the wind directions were mostly offshore, resulting in lower air concentrations (< 6 ng/[m.sup.3]). We also analyzed evening samples collected on impactors at night between 7 and 10 September 200l. The air concentrations of PbTx were very low: from below limit of quantitation (0.01 ng/[m.sup.3]) to 0.32 ng/[m.sup.3]. Weather conditions were not monitored, nor were water samples taken at night. The brevetoxin profiles in aerosol samples taken during the month of September 2001 at Lido Beach are shown in Figure 1. These data show that PbTx-2 and PbTx-3 were the major brevetoxin species present. Much lower concentrations of PbTx-1, PbTx-6 and PbTx-9 were also observed. Trace amounts of brevenal, a natural brevetoxin antagonist, were also detected in water and air samples. The brevenal was recently isolated from K. brevis culture by our colleagues at the University of North Carolina at Wilmington (Bourdelais et al. 2004) and was beneficial in preventing airway responses in the laboratory animal study (Abraham et al. 2004). Particle size distribution. Particle size distributions of red tide aerosol were estimated from impactor samples, which were analyzed by both the LC-MS and ELISA techniques. Figure 2A and B shows normalized size distributions on samples obtained 8 September 2001 at Siesta and Lido beaches, respectively. Our data showed that the particle size distributions as analyzed by both ELISA and LC-MS analysis were similar. The size distribution showed a range of particles from 0.5 to 20 [micro]m with a single-size mode approximately 6-12 [micro]m. As shown in Figure 2A and B, the particle size can be described with a lognormal log·nor·mal adj. Mathematics Of, relating to, or being a logarithmic function with a normal distribution. log size distribution: f(x) = 1/[square root of [pi]x1n[[sigma].sub.g]] exp [-[(lnx-ln[x.sub.o]).sup.2]/ 2[(ln[[sigma].sub.g]).sup.2]], [1] where [x.sub.o] is the MMAD and [[sigma].sub.g] is the geometric standard deviation In probability theory and statistics, the geometric standard deviation describes how spread out are a set of numbers whose preferred average is the geometric mean. If the geometric mean of a set of numbers is denoted as μg (GSD GSD German Shepherd Dog GSD Graduate School of Design GSD Glycogen Storage Disease GSD General Services Division GSD Gundam Seed Destiny (anime) GSD Ground Sample Distance GSD Geometric Standard Deviation ). The best-fit curve using SigmaPlot software (Version 8.0; SPSS A statistical package from SPSS, Inc., Chicago (www.spss.com) that runs on PCs, most mainframes and minis and is used extensively in marketing research. It provides over 50 statistical processes, including regression analysis, correlation and analysis of variance. , Chicago, IL), as shown in Figure 2A and B, has an MMAD of 9.1 and 8.9 [micro]m and a GSD of 1.85 and 1.76 for Siesta and Lido beaches, respectively, based on LC-MS analysis. The MMADs and GSDs of the fitted lognormal distribution Lognormal distribution Pattern of frequency of occurrence in which the logarithm of the variable follows a normal distribution. Lognormal distributions are used to describe returns calculated over periods of a year or more. of red tide aerosols are listed in Table 3. The MMAD obtained from LC-MS and ELISA analyses was not significantly different for both Siesta and Lido beaches. This particle size information was then used to estimate the dose of inhaled red tide aerosol in the human volunteers (see below). The concentration of PbTx was too low to estimate particle size distribution for samples obtained during the nonexposed period of May 2002. [FIGURE 2 OMITTED] Dose calculation. The fractional deposition of inhaled red tide aerosol in the human respiratory tract was estimated based on the size measurements as listed in Table 3. A total deposition fraction of 76-90% was calculated, with the majority of aerosol deposited in the ET region or upper airway (75-84%), and small but not insignificant deposition (2-6%) in the lower airways (TB and pulmonary region). The inhaled red tide aerosol has high deposition efficiency in the respiratory tract; thus, the pattern of deposition would help to explain the observed respiratory symptoms. The dose rate of the deposited brevetoxins can be calculated from Table 3 for a breathing rate of 25 L/min and for a unit air concentration of 1 ng/[m.sup.3] of PbTx, as shown in Table 4. Correlation of PbTx concentration with environmental factors. To understand the contribution of various parameters that may influence the air concentration of red tide aerosol, we analyzed further the data obtained at Siesta Beach where the weather information was measured during both the 2001 and 2002 sampling period. The total brevetoxin concentration obtained from the impactor sample was modeled as a function of water concentration, wind speed, and wind direction monitored near the impactor sampling site. The following empirical relationship was developed: [C.sub.air] (ng/[m.sup.3]) = 3.73 [C.sub.water.sup.0.42] [W.sub.speed.sup.0.30][W.sub.dir.sup.0.77]. [2] This empirical model indicates the relative importance of water concentration, wind speed, and wind direction on the red tide aerosol concentration. The four constants in this equation were obtained by a nonlinear regression procedure of SigmaPlot software. An [R.sup.2] value of 0.99 indicates a very good fit between the model and the experimental data (Figure 3). [FIGURE 3 OMITTED] Personal samples. During the occupational study conducted in 2001 and 2002, personal samples were worn by seven or eight researchers and by lifeguards working on the Siesta and Lido beaches for about 8 hr a day. All 39 personal samples taken during the sampling period of 3-7 May 2002 showed no detectable amount of PbTx. During the exposure period from 7 to 11 September 2001, a total of 39 personal samples (mean sampling time, 471 min) from both the Siesta and Lido beaches were analyzed. The exposure concentration of PbTx is shown in Figure 4. Our results indicated a large variability of personal samples within each sampling day. Comparison of PbTx concentration obtained from area samples taken with high-volume samplers showed that the personal samples indicated a lower exposure concentration (on the average about 50%) from those obtained from the area sample. However, the daily means of the exposure concentrations from the personal samples followed the concentrations obtained from the area samples. This may be attributable to different sampling techniques with much lower flow rate for personal samplers and the possibility that the subjects spent only part of the time in the exposure area. This was the case for both the researchers and lifeguards, who were in and out of the beach area during the study periods. [FIGURE 4 OMITTED] Discussion In the pilot study of inhaled red tide aerosol (Backer et al. 2003; Cheng et al. 2005), we showed that during the red tide episodes, nanogram nanogram /nano·gram/ (ng) (nan?o-gram) one billionth (10-9) of a gram. nan·o·gram n. Abbr. ng One billionth (10-9) of a gram. per cubic meter levels of brevetoxins in the environment could be related to the observed respiratory symptoms of exposed volunteers. It was the first evidence of health effects of measured exposure to red tide aerosol. This study was designed to compare occupational exposure during a red tide aerosol episode and during a nonexposure period. PbTx-2 and PbTx-3 were the most abundant species of brevetoxins in both water and air samples, similar to what we observed in the pilot studies (Cheng et al. 2005; Pierce et al. 2003). PbTx-2 and PbTx-3 were the major species produced by K. brevis. With improved LC-MS analysis, we detected PbTx-1, PbTx-6, and PbTx-9 at lower concentrations. We also identified trace amounts of a brevetoxin antagonist (brevenal) produced by K. brevis (Bourdelais et al. 2004) that appears to inhibit the effects of brevetoxins in animal models. Identification of specific brevetoxins and the brevenal antagonist compounds in marine aerosol would help explain why some red tide blooms appear to have greater respiratory effects on humans than others. In addition to the LC-MS technique, we used an ELISA assay to analyze the same sample. The LC-MS was more specific in identifying and quantifying individual compounds. However, it requires standards for the known brevetoxins for analysis and may miss other material that has not been identified. The ELISA technique had high sensitivity but was not specific for individual brevetoxins. It detected a class of compounds reactive to the specific antibody. It required a small amount of sample and did not need elaborated extraction for the analysis. We showed that in both air and water samples the brevetoxin concentrations from ELISA analysis were higher than those of LC-MS-MS analysis (Cheng et al. 2005). This was reasonable because for LC-MS-MS analysis we only detect and quantify PbTx-1, PbTx-2, PbTx-3, PbTx-6, and PbTx-9, whereas ELISA analysis also detected other compounds that were reactive to the assay. This indicated that there are other components of red tide aerosol that remain to be identified. Furthermore, the particle size distributions of red tide aerosol obtained from both analyses were similar, indicating that the PbTxs and related compounds were from the same marine aerosol or from marine aerosol that was produced from the same process. The ELISA technique was critical for the analysis of the personal samples because of very low amounts of material collected on the substrates. The sensitivity of the technique allowed us to determine the amounts of brevetoxin and related compounds on personal samples. The positive results on personal samples provided information on personal exposure levels of red tide aerosol. It also provided a marker for exposure, a direct indication of red tide aerosol exposure. The exposure levels of these samples showed lower concentrations than the red tide aerosol concentrations obtained from high-volume samples. This could be attributed to a difference of sampling technique (high-volume vs. low-volume sampling), but it was more likely because the volunteers wearing the personal samples only spent part of the time in the exposure area. A record of activities may be required in future studies to further assess personal exposure. We observed in the pilot studies that the water concentration of PbTx and onshore wind were important for red tide exposure. In this study we had the weather data near the water and air sampling location at Siesta Beach. The temperature and humidity were stable during the sampling periods. The wind speed and wind direction were very variable among the 5-day sampling periods. The wind direction and speed changed during the 8-hr sampling day. The variability of wind speed and direction resulted in changes of daily mean concentration of PbTx in aerosol samples during the 5-day study periods. Thus, the exposure periods in September 2001 showed low concentrations of PbTx levels in the air on 10 and 11 September 2001 despite high concentrations of K brevis and PbTx in the water. More frequent sampling during the same exposure day may be needed to reflect the time profile of red tide aerosol concentration. The daily red tide aerosol concentration varied substantially during the 5-day study period because of the changes in environmental conditions. Our empirical model showed the relative importance of water concentration, wind speed, and wind direction on the aerosol concentration. Basically the red tide aerosol concentration increased with water concentration, wind speed, and fraction of the time that the wind was in an onshore direction. The wind direction appeared to have the greatest weight for the aerosol concentration, confirming our previous anecdotal observations. However, this is an empirical correlation and additional data sets are needed to validate and improve the correlation. The particle size distribution showed that the red tide aerosol consisted of coarse particles with the mean aerodynamic diameter in the range of 6-12 [micro]m, similar to what we observed in previous studies (Cheng et al. 2005). The red tide aerosol may be produced by a breakup of bubbles from white-capped waves (Pierce et al. 1989a). Measured size distributions of marine aerosols showed a bimodal distribution bimodal distribution a distribution with two peaks separated by a region of low frequency of observations. with a peak in the fine-particle mode (0.1-0.2 [micro]m) and another peak in the coarse-particle mode (2-30 [micro]m) (Fitzgerald 1991). The coarse mode constitutes about 90-95% of the total mass but only 5-10% of the total number of particles. The coarse-particle mass in clean marine air is mainly composed of sea salt, with a strong dependence on wind speed. The red tide aerosol appears to be a component of marine coarse particles that may be associated with the sea salts. Inhaled red tide particles can deposit efficiently in the respiratory tract. The deposit pattern is seen predominantly in the nasal and oral airways (75-84%) and 2-6% in the lower airways. Based on the environmental sampling, the estimated deposited dose rates were between 1 and 31 ng/hr in the ET region and 0.07 and 1.0 ng/hr in the lower airway for the September 2001 study. The PbTx concentrations observed during the red tide episodes (including during previous studies) ranged from 1 to 80 ng/[m.sup.3]. The estimated total deposited dose rate is small, between 1 and 100 ng/hr (picomole pi·co·mole n. One trillionth (10-12) of a mole. range). However, this small dose was sufficient to contribute to the observed respiratory symptoms in the study subjects. From the 2000 study, we observed that a dose rate of 4-5 ng/hr in the ET region was associated with observed upper airway symptoms (throat irritation, nasal irritation, itchy skin). In the same study, the estimated dose rate in the lung was 0.15-0.2 ng/hr, which was not sufficient to cause lower respiratory symptoms. The estimated dose rate in the ET region for the occupational study (1-31 ng/hr) was associated with upper respiratory symptoms including eye irritation, nasal congestion, throat irritation, and cough (Backer et al. 2005). This was consistent with our observation in Texas (Cheng et al. 2005) and supported the observation that a lower dose rate of 1-4 ng/hr in the upper airways could cause upper respiratory symptoms. The estimated dose rate in the low respiratory airways (0.07-1 ng/hr) was not sufficient to cause lower respiratory symptoms, particularly in normal nonasthmatic subjects.
Table 1. Summarized data for environmental conditions in Siesta
Beach, Florida (mean [+ or -] SD).
Temperature Humidity
Date ([degrees]F) (%)
7 Sept 2001 28.9 [+ or -] 0.9 69.5 [+ or -] 4.7
8 Sept 2001 27.6 [+ or -] 0.6 75.0 [+ or -] 3.2
9 Sept 2001 26.1 [+ or -] 0 .7 81.5 [+ or -] 3.2
10 Sept 2001 25.9 [+ or -] 0.7 86.3 [+ or -] 3.0
11 Sept 2001 27.9 [+ or -] 1.9 NA
3 May 2002 NA NA
4 May 2002 27.6 [+ or -] 0.6 NA
5 May 2002 28.6 [+ or -] 0.8 65.8 [+ or -] 4.8
6 May 2002 29.1 [+ or -] 2.7 56.9 [+ or -] 14.3
7 May 2002 27.3 [+ or -] 1.2 69.8 [+ or -] 6.1
Average wind Maximum wind
Date speed (mph) speed (mph)
7 Sept 2001 0.0 [+ or -] 0.0 0.1 [+ or -] 0.4
8 Sept 2001 7.0 [+ or -] 2.8 10.9 [+ or -] 3.3
9 Sept 2001 9.2 [+ or -] 3.5 13.3 [+ or -] 3.8
10 Sept 2001 5.8 [+ or -] 2.2 9.3 [+ or -] 2.6
11 Sept 2001 10.0 [+ or -] 2.0 16.7 [+ or -] 2.4
3 May 2002 NA NA
4 May 2002 9.0 [+ or -] 1.8 12.2 [+ or -] 1.9
5 May 2002 7.1 [+ or -] 3.0 10.1 [+ or -] 3.2
6 May 2002 7.4 [+ or -] 1.9 13.2 [+ or -] 3.3
7 May 2002 6.6 [+ or -] 0.8 9.3 [+ or -] 1.1
Date Wind direction
7 Sept 2001 0.37 [+ or -] 0.55
8 Sept 2001 0.68 [+ or -] 0.30
9 Sept 2001 0.50 [+ or -] 0.47
10 Sept 2001 0.17 [+ or -] 0.36
11 Sept 2001 0.09 [+ or -] 0.16
3 May 2002 NA
4 May 2002 0.61 [+ or -] 0.43
5 May 2002 0.52 [+ or -] 0.42
6 May 2002 0.00 [+ or -] 0.02
7 May 2002 0.73 [+ or -] 0.42
NA, not applicable.
Table 2. Summarized air and water concentration of PbTxs by
LC-MS method (mean [+ or -] SD).
Siesta Beach
Water concentration Air concentration
Date ([micro]g/L) (n9/[m.sup.3])
7 Sept 2001 27.9 [+ or -] 14 7.53 [+ or -] 3.86
8 Sept 2001 18.9 [+ or -] 8 9.94 [+ or -] 6.41
9 Sept 2001 8.6 [+ or -] 3.7 11.89 [+ or -] 7.07
10 Sept 2001 10 [+ or -] 3.3 2.40 [+ or -] 2.64
11 Sept 2001 12.3 [+ or -] 2.3 1.90 [+ or -] 1.66
3 May 2002 0.04 [+ or -] 0.04 1.11 [+ or -] 0.48
4 May 2002 0.3 [+ or -] 0.4 1.16 [+ or -] 0.17
5 May 2002 < LOQ 0.05 [+ or -] 0.11
6 May 2002 < LOQ < LOQ
7 May 2002 < LOQ 0.06 [+ or -] 0.14
Lido Beach
Water concentration Air concentration
Date ([micro]g/L) (ng/[m.sup.3])
7 Sept 2001 26 [+ or -] 16 26.90 [+ or -] 17.54
8 Sept 2001 18.3 [+ or -] 12.8 20.36 [+ or -] 27.16
9 Sept 2001 9.3 [+ or -] 6.6 17.43 [+ or -] 9.60
10 Sept 2001 13.8 [+ or -] 5 5.93 [+ or -] 7.26
11 Sept 2001 8.2 [+ or -] 2.4 1.32 [+ or -] 2.64
3 May 2002 < LOQ 0.08 [+ or -] 0.17
4 May 2002 < LOQ 0.08 [+ or -] 0.17
5 May 2002 < LOQ 0.04 [+ or -] 0.09
6 May 2002 < LOQ < LOQ
7 May 2002 < LOQ 0.03 [+ or -] 0.06
LOQ, limit of quantitation.
Table 3. Summary of particle size distribution.
Siesta Beach
LC-MS
MMAD
([micro]m) GSD
7 Sept 2001 5.97 1.73
8 Sept 2001 9.06 1.85
9 Sept 2001 10.32 1.91
10 Sept 2001 12.21 1.77
11 Sept 2001 10.20 1.73
Mean [+ or -] SD 9.55 [+ or -] 2.30 1.80 [+ or -] 0.08
Siesta Beach
ELISA
MMAD GSD
([micro]m)
7 Sept 2001 7.02 1.81
8 Sept 2001 9.69 1.87
9 Sept 2001 11.82 1.71
10 Sept 2001 9.61 1.98
11 Sept 2001 10.87 2.05
Mean [+ or -] SD 9.80 [+ or -] 1.80 1.88 [+ or -] 0.13
Lido Beach
LC-MS
MMAD GSD
([micro]m)
7 Sept 2001 10.85 1.89
8 Sept 2001 8.90 1.76
9 Sept 2001 8.18 1.43
10 Sept 2001 10.73 1.78
11 Sept 2001 7.59 1.95
Mean [+ or -] SD 9.25 [+ or -] 1.48 1.76 [+ or -] 0.20
Lido Beach
ELISA
MMAD GSD
([micro]m)
7 Sept 2001 8.33 1.65
8 Sept 2001 8.90 1.56
9 Sept 2001 8.82 1.67
10 Sept 2001 8.04 1.68
11 Sept 2001 7.45 1.83
Mean [+ or -] SD 8.31 [+ or -] 0.59 1.68 [+ or -] 0.10
Table 4. Dose rate of PbTx (nanograms per hour) in the human
respiratory tract based on aerosol concentration of 1 ng/[m.sup.3]
(mean [+ or -] SD).
Extrathoracic TB
Oct 2000 (Corpus Christi, TX) 1.25 [+ or -] 0.03 0.03 [+ or -] 0.01
Sept 2001 (Siesta Beach, FL) 1.18 [+ or -] 0.05 0.03 [+ or -] 0.01
Sept 2001 (Lido Beach, FL) 1.19 [+ or -] 0.05 0.03 [+ or -] 0.01
Pulmonary Total
Oct 2000 (Corpus Christi, TX) 0.02 [+ or -] 0.01 1.30 [+ or -] 0.04
Sept 2001 (Siesta Beach, FL) 0.02 [+ or -] 0.01 1.23 [+ or -] 0.08
Sept 2001 (Lido Beach, FL) 0.02 [+ or -] 0.01 1.24 [+ or -] 0.05
REFERENCES Abraham WM, Ahmed, Bourdelais A, Baden DG. 2004. Effects of novel antagonists of polyether brevetoxin (PbTx)-induced bronchoconstriction in allergic sheep. In: Harmful Algae algae (ăl`jē) [plural of Lat. alga=seaweed], a large and diverse group of primarily aquatic plantlike organisms. These organisms were previously classified as a primitive subkingdom of the plant kingdom, the thallophytes (plants that 2002 (Steidinger KA, Landsberg JH, Tomas CR, Vargo GA, eds). St. Petersburg, FL:Litho Service Ina; Florida Fish and Wildlife Conservation Commission The Florida Fish and Wildlife Conservation Commission (FWC) is a Florida governmental organization created in 1999 with the purpose of regulating the environment and enforcing environmental legislation in the state of Florida. , Florida Institute of Oceanography The State of Florida Institute of Oceanography (FIO), located on the campus of the University of South Florida St. Petersburg, is an independent entity owned by the State University System of Florida which works cooperatively with a number of Florida's public and private , and Intergovernmental Oceanographic Commission The Intergovernmental Oceanographic Commission was established by resolution 2.31 adopted by the General Conference of Unesco. It first met in Paris at Unesco Headquarters from 19 to 27 October 1961. Initially, 40 States became members of the Commission. of UNESCO UNESCO: see United Nations Educational, Scientific, and Cultural Organization. UNESCO in full United Nations Educational, Scientific and Cultural Organization , 496-499. Asai S, Krzanowski JJ, Anderson WH, Martin DF, Polson JB, Lockey RF, et al. 1902. Effects of the toxin of red tide, Ptychodiscus brevis on canine tracheal tracheal pertaining to or emanating from trachea. tracheal aspiration see transtracheal aspiration. tracheal band sign on contrast radiography of a dilated esophagus, the impression made ventrally by the trachea. smooth muscle: a possible new asthma-triggering mechanism. J Allergy Clin Immunol 69:418-428. Backer LC, Fleming LE, Rowan A, Cheng YS, Benson JM, Pierce RH, et al. 2003. Recreational exposure to aerosolized brevetoxins during Florida red tide events. Harmful Algae 2:19-28. Hacker LC, Kirkpatrick B, Fleming LE, Cheng YS, Pierce R, Bean JA, et al. 2005. Occupational exposure to aerosolized brevetoxins during Florida red tide events: effects on a healthy worker population. Environ Health Perspect 113:644-649. Baden DG, Mende TJ, Bikhazi G, Leung I. 1982. Bronchoconstriction caused by Florida red tide toxins. Toxicon 20:929-932. Bossart GD, Baden DG, Ewing RY, Roberts B, Wright SD. 1998. Brevetoxicosis in manatees (Trichechus manatus latirostris) from 1996 epizootic ep·i·zo·ot·ic adj. Affecting a large number of animals at the same time within a particular region or geographic area. Used of a disease. ep : gross, histologic, and immunohistochemical features. Toxicol Pathol 26:276-282. Bourdelais AJ, Campbell S, Jacocks H, Naar J, Wright JLC JLC Jaeger–LeCoultre (Swiss watch maker) JLC Journal of Light Construction JLC Juvenile Law Center JLC Jewish Labor Committee JLC Joint Labour Committee JLC Junior League of Chicago JLC Junior League of Cleveland , Cersi J, et al. 2004. Brevenal is a natural inhibitor of brevetoxins action in sodium channel receptor binding assays. Cell Mol Neurobiol 24:553-563. Cheng YS, Villereal TA, Zhou Y, Gao J, Pierce RH, Wetzel D, et al. 2005. Characterization of red tide aerosol on the Texas coast. Harmful Algae 4:87-94 Fitzgerald JW. 1991. Marine aerosols: a review. Atm Environ 25A:533-545. Forrester DJ, Gaskin gaskin the muscular portion of the hindleg between the stifle and hock, corresponding to the human calf. The term is used in horses and sometimes dogs. JM, White FH, Thompson NP, Quick JA, Henderson BE, et al. 1977. An epizootic of waterfowl waterfowl, common term for members of the order Anseriformes, wild, aquatic, typically freshwater birds including ducks, geese, and screamers. In Great Britain the term is also used to designate species kept for ornamental purposes on private lakes or ponds, while in associated with a red tide episode in Florida. J Wildlife Dis 13:160-167. ICRP (International Commission on Radiological Protection). 1994. Human Respiratory Tract Model for Radiological Protection. Publ 66. Annals of ICRP 24(1-3) London: Pergamon. Music SI, Howell JT, Brumback CL. 1973. Red tide, its public health implications. J Florida Med Assoc 60:27-39. Naar J, Bourdelais A, Tomas C, Kubanek J, Whitney P, Flewelling L, et al. 2002. A competitive ELISA to detect brevetoxins from Karenia brevis (formerly Gymnodinium breve) in seawater, shellfish, and mammalian body fluid. Environ Health Perspect 110:179-185. Pierce RH, Henry MS, Blum PC, Lyons J, Cheng YS, Yazzie D, et al. 2003. Brevetoxin concentrations in marine aerosol: human exposure levels during a Karenia brevis harmful algal bloom A harmful algal bloom (HAB) can refer to a dense aggregation of phytoplankton, algae or cyanobacteria in a marine or aquatic environment, such that it causes negative impacts to other organisms via biotoxins, mechanical damage or other means. . Bull Environ Contain 70:161-165. Pierce RH, Henry M, Boggess S, Rule A. 1989a. Marine toxins in bubble-generated aerosols. In: Climate and Health Implications of Bubble-Mediated Sea-Air Exchange (Monahan EC, Van Patten MA, eds). Groton, CT: Connecticut Sea (3rant College Program, 27-42. Pierce RH, Henry MS, Proffitt S, Hesbrouck PA. 1989b. Red tide toxin (brevetoxin) enrichment in marine aerosol. In: Toxic Marine Phytoplankten (Graneli E, Sundstorm B, Edler L, Anderson DM, eds). New York New York, state, United States New York, Middle Atlantic state of the United States. It is bordered by Vermont, Massachusetts, Connecticut, and the Atlantic Ocean (E), New Jersey and Pennsylvania (S), Lakes Erie and Ontario and the Canadian province of : Elsevier Science, 397-402. Trainer VL, Baden DG. 1991. An enzyme immunoassay Immunoassay An assay that quantifies antigen or antibody by immunochemical means. The antigen can be a relatively simple substance such as a drug, or a complex one such as a protein or a virus. for the detection of Florida red tide brevetoxins. Toxicon 29:1387-1394. Woodcock AH. 1948. Note on concerning human respiratory irritation associated with high concentrations of plankton plankton: see marine biology. plankton Marine and freshwater organisms that, because they are unable to move or are too small or too weak to swim against water currents, exist in a drifting, floating state. and mass mortality of marine organisms. Sears Found J Marine Res 7:56-62. Yung Sung Cheng, (7) Yue Zhou, (1) Clinton M. Irvin, (7) Richard H. Pierce, (2) Jerome Naar, (3) Lorraine C. Backer, (4) Lora E. Fleming, (5) Barbara Kirkpatrick, (2) and Dan G. Baden (3) (1) Lovelace Respiratory Research Institute, Albuquerque, New Mexico “Albuquerque” redirects here. For other uses, see Albuquerque (disambiguation). Albuquerque (pronounced [ˈæl.bə.kɚ.kiː], Spanish: [al.βu. , USA; (2) Mote Marine Laboratory, Sarasota, Florida, USA; (3) Center for Marine Science, University of North Carolina at Wilmington, Wilmington, North Carolina For other places with the same name, see Wilmington (disambiguation). Wilmington is a city in New Hanover County, North Carolina, United States. The population was estimated at 100,000 as of 2006;[1] , USA; (4) Centers for Disease Control and Prevention Centers for Disease Control and Prevention (CDC), agency of the U.S. Public Health Service since 1973, with headquarters in Atlanta; it was established in 1946 as the Communicable Disease Center. , Atlanta, Georgia, USA; (5) National Institute of Environmental Health Sciences The National Institute of Environmental Health Sciences (NIEHS) is one of 27 Institutes and Centers of the National Institutes of Health (NIH),which is a component of the Department of Health and Human Services (DHHS). The Director of the NIEHS is Dr. David A. Schwartz. Marine and Freshwater Biomedical Science Center, University of Miami This article is about the university in Coral Gables, Florida. For the university in Oxford, Ohio, see Miami University. The University of Miami (also known as Miami of Florida,[2] UM,[3] or just The U , Miami, Florida, USA This article is part of the mini-monograph "Aerosolized Florida Red Tide Toxins (Brevetoxins)." Address correspondence to Y.S. Cheng, Lovelace Respiratory Research Institute, 2425 Ridgecrest Dr. SE, Albuquerque, NM 87108 USA. Telephone: (505) 348-9410. Fax: (505) 348-8567. E-mail: ycheng@lrri.org We thank D. Kracko and J. McDonald for the liquid chromatography/mass spectrometry analysis. This research was supported by the National Institute of Environmental Health Sciences (NIEHS NIEHS National Institute of Environmental Health Sciences (NIH, DHHS) ) grant P01 ES 10594 and a Minority Supplement to the P01, also from the NIEHS, as well as by the Centers for Disease Control and Prevention, the Florida Harmful Bloom Taskforce, and the Florida Department of Health Florida Department of Health is a category of Government of Florida. Orange County Health Department is one of the branches of Florida Department of Health and Government of Florida. . The authors declare they have no competing financial interests. Received 2 August 2004; accepted 20 December 2004. |
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