Modeling of Exposure to Carpet-Cleaning Chemicals Preceding Irritant-Induced Asthma in One Patient.A 42-year-old woman experienced an acute asthma attack, seizures, and unconsciousness immediately after a carpet-cleaning and deodorizing job was conducted in her home. Exposure modeling estimates that she was exposed to approximately 3.4-17 mg/[m.sup.3] of sodium tripolyphosphate sodium tri·pol·y·phos·phate n. A white powder, Na5O10P3, used as a water softener and as a food preservative and texturizer. Noun 1. and more than 14 mg/[m.sup.3] volatile organic compounds volatile organic compound Environment Any toxic cabon-based (organic) substance that easily become vapors or gases–eg, solvents–paint thinners, lacquer thinner, degreasers, dry cleaning fluids immediately after the cleaning. I derived two separate exposure models for these estimates that evidenced good consistency of exposure estimates. Asthmatics and carpet-cleaning companies should be advised about safety during carpet-cleaning operations, including adequate warnings about excess risk for asthmatics, temporary removal from the home, reduced detergent levels within cleaners, and reduced overall levels of cleaning solutions used within the home. Further studies of carpet-cleaning exposures are indicated. Key words: asthma, carpet cleaning, exposure modeling, sodium tripolyphosphate, volatile organic compounds. Environ Health Perspect 108:911-913 (2000). [Online 10 August 2000] http://ehpnet1.niehs.nih.gov/docs/2000/108p911-913lynch/abstract.html Case Presentation A 42-year-old female hired a professional carpet-cleaning company to clean the carpets in her home. The carpet-cleaning solution used was a sodium tripolyphosphate (TSP) solution, which also contained low levels of dipropylene glycol glycol (glī`kōl), dihydric alcohol in which the two hydroxyl groups are bonded to different carbon atoms; the general formula for a glycol is (CH2)n(OH)2. methyl ether (Chem.) a light, volatile ether See also: Methyl (DPGME) and various fragrance compounds, mixed with water. The solution was applied to the carpets and upholstery in the home with a high pressure application wand. During most of the carpet-cleaning activity, the female remained in a bedroom with the door closed, isolated from the living room, which was being cleaned. When she reentered the house after leaving temporarily, she noticed a damp smell and an associated chemical odor as the carpet cleaning was being completed. She began to experience respiratory distress Respiratory distress A condition in which patients with lung disease are not able to get enough oxygen. Mentioned in: Lung Cancer, Non-Small Cell and facial discomfort within 5 min of returning to the home; this was immediately followed by 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. , an asthma attack, and cyanosis cyanosis (sī'ənō`sĭs), bluish coloration of the skin, mucous membranes, and nailbeds, resulting from a lack of oxygenated hemoglobin in the blood. . A witness present during the event (a certified emergency medical technician e·mer·gen·cy medical technician n. Abbr. EMT A person trained and certified to appraise and initiate the administration of emergency care for victims of trauma or acute illness before or during transportation of victims to a health care ) described the patient as being semiconscious sem·i·con·scious adj. Not completely aware of sensations; partially conscious. and having what appeared to be petit mal petit mal /pe·tit mal/ (pe-te´ mahl´) [Fr.] see under epilepsy. pet·it mal n. seizures: her eyes rolled, her feet and arms tightened, her hands clenched clench tr.v. clenched, clench·ing, clench·es 1. To close tightly: clench one's teeth; clenched my fists in anger. 2. , her feet postured downward in an arch, and her entire body shook. An ambulance was called by the witness. Upon arrival, emergency personnel attempted to intubate in·tu·bate v. To insert a tube into a hollow organ or body passage. in  tu·ba the patient but
were unsuccessful due to airway swelling. She was transported to the
local emergency room via ambulance and was finally intubated in the
emergency room. She was diagnosed with anaphylactic shock anaphylactic shockn. A severe, sometimes fatal allergic reaction characterized by a sharp drop in blood pressure, urticaria, and breathing difficulties that is caused by exposure to a foreign substance, such as a drug or bee venom, after preliminary with respiratory failure Respiratory Failure Definition Respiratory failure is nearly any condition that affects breathing function or the lungs themselves and can result in failure of the lungs to function properly. secondary to carpet cleaning. The seizures were considered to be due to hypoxic hypoxic a state of hypoxia. hypoxic cell sensitizers compounds that selectively sensitize hypoxic tumor cells to the effects of radiation. encephalopathy encephalopathy /en·ceph·a·lop·a·thy/ (en-sef?ah-lop´ah-the) any degenerative brain disease. AIDS encephalopathy HIV e. anoxic encephalopathy hypoxic e. . After 18 days of hospitalization, she was released. The patient had been diagnosed with asthma at age 19, though the condition did not prevent normal activities and exercise throughout her twenties. She was a self-reported smoker from her teenage years through age 37. During her thirties, the patient reported that heavy physical exercise was increasingly likely to induce asthma attacks, and by her early forties, she was using oral and inhaled bronchodilators Bronchodilators Definition Bronchodilators are medicines that help open the bronchial tubes (airways) of the lungs, allowing more air to flow through them. 2-3 times per day, more often during the winter than other seasons. The patient is considered atopic atopic /atop·ic/ (a-top´ik) (ah-top´ik) 1. ectopic. 2. pertaining to atopy; allergic. atopic 1. displaced; ectopic. 2. pertaining to atopy. . Since the asthma attack that followed the carpet-cleaning exposure, she has experienced persistent nocturnal and exertional asthma with reduced responsiveness to bronchodilators. She is steroid dependent and maintains an epinephrine anaphylactic anaphylactic /ana·phy·lac·tic/ (an?ah-fi-lak´tik) pertaining to anaphylaxis. anaphylactic (an´ kit for emergency use. She reports breathing difficulty when exposed to odors and consistent nocturnal awakening due to breathing difficulty. She self-administers Albuterol albuterol /al·bu·ter·ol/ (al-bu´ter-ol) a ß agonist used as the base or sulfate salt as a bronchodilator. al·bu·ter·ol n. nebulizer nebulizer /neb·u·liz·er/ (neb´u-li?zer) atomizer; a device for throwing a spray. neb·u·liz·er n. (Ivax Corp., Miami, FL) treatments 3 times daily and Azmacort (Aventis Pharma AG, Frankfurt, Germany), an inhaled steroid, each morning and evening. In this paper I summarize the current understanding of irritant ir·ri·tant adj. Causing irritation, especially physical irritation. n. A source of irritation. irritant, n 1. an agent that causes an irritation or stimulation. 2. exposures and asthma, as well as asthma associated with carpet-cleaning operations, and describe modeling of the exposure to carpet-cleaning compounds potentially received by the victim described in this case, based upon two independent exposure-modeling approaches. Discussion Several studies linking the use of carpet-cleaning compounds to respiratory irritation and asthma among building occupants after carpet cleaning have been published over the past two decades. In 1982, Kreiss et al. (1) described two respiratory distress outbreaks associated with carpet cleaning. In one outbreak, employees of an office building experienced coughing, respiratory irritation, and difficulty breathing after the application of underdiluted carpet-cleaning compounds. In the other outbreak, employees and children of a day-care facility experienced respiratory irritation and breathing difficulty after carpet-cleaning activities. In 1983, a case of respiratory irritation and breathing difficulty was reported immediately after carpet-cleaning activities in a hospital clinic (2). Excessive respiratory irritation, coughing, and sneezing To verbally tell somebody about a new and interesting Web site. See viral marketing. were also reported among conference participants following carpet cleaning in a motel (3). In each of these studies, recommendations were proposed for proper dilution of cleaning chemicals and for proper ventilation of rooms to be cleaned. Chemical components and process description. 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. the material safety data sheets, the carpet-cleaning solution used was a 90-95% TSP solution, which also contained low levels of DPGME and various fragrance compounds. None of the material safety data sheets report the components as allergens. This original powdered mixture was diluted to a 4% mixture in water before being introduced into the home. This material was further diluted to a 1 part in 30 mixture, using tap water at the home, and applied to the carpets and upholstery within the home using a high pressure application wand. During application, high temperature water and cleaning chemicals are injected into the carpet via high pressure nozzles at the end of the application wand. Some of the moisture impacts the carpet surface and is absorbed or removed from the carpet via a vacuum system vacuum system Urology A mechanical system used to facilitate and maintain an erection; an erection erector. Cf Penile implant. . The remaining moisture is either released into the air of the home as a mist, or remains in the carpet to dry over a 2-24-hr period. Approximately 8-40 gallons of diluted cleaning solution is applied within the home, 95% of which is removed and recaptured by the vacuum system. Following the cleaning process, a deodorizer deodorizer or deodorant, substance used to absorb or eliminate offensive odors. Disinfectants such as hydrogen peroxide, chlorine, and chlorine compounds eliminate odors caused by microorganisms. product containing approximately 2.1% glycol ethers and fragrance compounds was applied to the upholstery. Irritant effects of chemicals used. TSP is an irritant powdered solid that may affect the skin and eyes. It injures cell tissue by alkaline caustic action, causing irritation of mucous membranes Mucous membranes The inner tissue that covers or lines body cavities or canals open to the outside, such as nose and mouth. These membranes secrete mucus and absorb water and salts. Mentioned in: Leprosy, Pulmonary Fibrosis, Topical Anesthesia , with effects similar to those of lye (4). Because of respiratory hazards, the American Industrial Hygiene Association The American Industrial Hygiene Association (AIHA) is a professional membership organization of industrial hygienists, and occupational health and safety, and environmental health professionals. (AIHA AIHA American Industrial Hygiene Association; autoimmune hemolytic anemia. AIHA autoimmune hemolytic anemia. ) has established a recommended workplace environmental exposure level of 5 mg/[m.sup.3] over a 15-min period as the maximum exposure level for this material for industrial workers. Glycol ethers such as DPGME can cause irritation, burning, and coughing after inhalation exposure. The American Conference of Governmental Industrial Hygienists ACGIH® advances worker protection by providing timely, objective, scientific information to occupational and environmental health professionals. History The independent National Conference of Governmental Industrial Hygienists (NCGIH) convened on June 27, 1938, in Washington, D. has established a threshold limit value threshold limit value n. Abbr. TLV The maximum concentration of a chemical allowable for repeated exposure without producing adverse health effects. of 100 ppm and a 15-min short-term exposure limit short-term exposure limit n. The maximum concentration of a chemical to which workers may be exposed continuously for up to 15 minutes without danger to health or work efficiency and safety. of 150 ppm for DPGME (5). Irritant exposure and asthma. The relationship between irritant chemical exposure and induction of asthma attacks in asthmatics is well established. Irritant chemical exposure causes bronchial bronchial /bron·chi·al/ (brong´ke-al) pertaining to or affecting one or more bronchi. bron·chi·al adj. Relating to the bronchi, the bronchial tubes, or the bronchioles. epithelium injury. Persons with asthma are more susceptible to irritant and volatile organic chemicals than nonasthmatics and show greater bronchial hyperresponsiveness bronchial hyperresponsiveness Exaggerated bronchial constriction most common in asthma, in response to nonspecific provocation, inhalation of various bronchoconstrictors, but also to physical challenges–eg, exercise, dry or cold air, hypertonic or hypotonic aerosols to irritant exposures than nonasthmatics (6). Several studies indicated respiratory irritation due to exposure to low levels of volatile organic compounds. In 1986, Molhave et al. (7) found that exposures to between 5 and 25 mg/[m.sup.3] of volatile organic compounds resulted in eye, nose, and throat irritation. Exposure to 25 mg/[m.sup.3] organic compounds produces asthma-like symptoms in asthmatics, resulting in forced expiratory volumes forced expiratory volume n. Abbr. FEV The maximum volume of air that can be expired from the lungs in a specific time interval when starting from maximum inspiration. of approximately 90% after 90-min exposures, and also produces reduced pulmonary flow rates among persons suffering from sick building syndrome sick building syndrome n. An illness affecting workers in office buildings, characterized by skin irritations, headache, and respiratory problems, and thought to be caused by indoor pollutants, microorganisms, or inadequate ventilation. (8,9). Exposure Model 1: chemical composition of the mist as a function of increases in 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. . The specified dilution of the cleaning compound results in 37.9 mg TSP/gram of water as the 5 gallon premix premix a finite mixture of nutritional supplements such as minerals and vitamins, usually combined with a carrier and ready for mixing with a total ration. solution. When further diluted by 30 additional gallons of water, the new TSP concentration is reduced to 1.26 mg TSP/gram of water as delivered to the carpet and mist released into room air. Assuming that the mist and moisture liberated into the air from the use of the cleaner results in an increase in the humidity within the room air, and that the increased airborne moisture contains dissolved TSP in the same concentrations as in the diluted cleaner, potential exposures to the victim can be projected based upon any increase in relative humidity within the home due to the release of the TSP-containing mist. Relative humidity refers to the amount of moisture in the air as compared to the amount that the air could contain at saturation at the same temperature (10). Assuming that the temperature within the home at the start of the project was 70 [degrees] F with a relative humidity of 30%, the amount of water that could be held in the air is approximately 32 grains of water per pound of dry air. If, as a result of the hot water mist liberated during the carpet-cleaning operation, the relative humidity increased to 50%, then a total of 56 grains of water per pound of dry air would be suspended. At 70% relative humidity, 76 grains/[ft.sup.3] would be contained within the air, and approximately 112 grains/[ft.sup.3] would be airborne at 100% relative humidity. Using the above information, the estimated exposure to TSP (in milligrams per cubic meter) can be computed by multiplying the changes in total moisture content in air from cleaning solution humidity by the room size over which the increased humidity occurs. Equations 1 and 2 display the specifics of this conversion process, using standard industrial hygiene conversion factors (5,10,11). [1] Total moisture grams [H.sub.2]O/[ft.sup.3] = (grains [H.sub.2]O/lb air) x (0.065 g [H.sub.2]O/grain [H.sub.2]O) x (0.075 lb air/[ft.sup.3] air) I computed an estimate of TSP exposure by multiplying the results obtained from Equation 1 (grams [H.sub.2]O/[ft.sup.3] air) by the computed concentration of TSP per gram of water (1.26 mg TSP/gram [H.sub.2]O), a conversion factor of 35.31 [ft.sup.3] air/[m.sup.3] of air (11), and the percent of new moisture added to air as a result of the cleaning process (new moisture refers to the percentage of total moisture added by the mist liberated during cleaning). [2] Milligrams TSP/[m.sup.3] air = (grams [H.sub.2]O/[ft.sup.3]) x (1.26 mg TSP/gram [H.sub.2]O) x (35.31 [ft.sup.3]/[m.sup.3]) x (percent new moisture) Based upon the above equations, the estimate of TSP exposure is shown to increase as a function of changes in relative humidity due to the liberation of mist from the carpet-cleaning procedure, as shown in Table 1. Table 1. Estimated TSP and DPGME exposures experienced immediately after carpet cleaning based on increases in relative humidity (RH) levels.
Total grams
[H.sub.2]0/ Milligrams
Condition [ft.sup.3] air TSP/[m.sup.3] air
Normal (30% RH) 0.156 0
50% RH from cleaning 0.273 5.2
70% RH from cleaning 0.370 9.6
100% RH from cleaning 0.546 17.4
Table 1 shows that even a modest increase in relative humidity posed by the carpet-cleaning solution mist results in significant increases in projected homeowner inhalation exposure to TSP. This increased exposure would occur immediately at the end of the cleaning job and during the 2- to 24-hr carpet drying period that follows, until room humidity levels return to normal. The range of estimated exposure based on this approach is 5-17 mg/[m.sup.3] of TSP; this is 1-3 times the recommended 15-min exposure limit for industrial workers. Exposure Model 2: box model assuming that mist spreads evenly in air within the apartment. An alternative exposure estimate is based on a "box model" and uses assumptions about the volume of mist generated within the room. Using the 8-40 gallons of cleaning solution used, along with the 95% reported removal rate, I tested several assumptions regarding the fate of the 5% moisture left within the home. Because no actual measures of the mist fraction left within the home are available, the model was run using several assumed mist fractions (10, 25, and 50%) to establish a range of exposure possibilities. This information was applied in the following manner to estimate TSP exposure levels: [3] mg TSP/[m.sup.3] air = (gallons of mist released/room volume [ft.sup.3]) x (8.31 lb mist/gal mist) x (454 g mist/lb mist) x (1.26 mg TSP/g mist) x (35.31 [ft.sup.3] air/[m.sup.3] air) Table 2 shows the range of estimated exposures to TSP based on the assumptions that 8-40 gal cleaner solution was used and that the approximate size of the living room plus other open areas of the apartment was 3,912 [ft.sup.3] (approximately 111 [m.sup.3]). Table 2. Estimated exposure to TSP based on mist released in the living room and other open areas (assumed to be 3,912 [ft.sup.3]).
Percent of Exposure
Gallons Percent remaining Gallons of level
cleaner removed solution mist/cleaner mg TSP/
used by wand as mist in air [m.sup.3] air
8 95 10 0.08 3.4
8 95 25 0.1 4.3
8 95 50 0.2 8.6
40 95 10 0.2 9.0
40 95 25 0.5 21.5
40 95 50 1.0 43.0
This approach yields estimates of 3.4-43 mg/[m.sup.3] of TSP exposure, using the most conservative assumption that the mist spreads evenly throughout all open areas of the apartment. This exposure represents 0.7-8.6 times the recommended AIHA's 15-min maximum exposure recommendation of 5 mg/[m.sup.3] for workers. Estimated volatile organic compound exposure from the deodorizing product. I also conducted mathematical modeling of the exposures to organic chemicals contained within the deodorizing product. According to the standard operating procedures standard operating procedure Medtalk A technique, method or therapy performed 'by the book,' using a standard protocol meeting internally or externally defined criteria; a formal, written procedure that describes how specific lab operations are to be performed. , the technicians should apply approximately 1 gal for every 200 [ft.sup.2] of upholstery surface area, enough to penetrate carpets and padding in stained areas and produce a drying time of 2-24 hr. From the material safety data sheets and stated dilutions, every gallon of the deodorizer is estimated to contain approximately 2.1% glycol ether and fragrance organic compounds. From this, it can be estimated that every gallon of diluted deodorizer results in 10,139 mg volatile organic compounds being sprayed around the apartment as a mist. Assuming that 1.5 gal was used to cover the approximate 300 [ft.sup.2] of surface area treated within the home where the incident occurred, approximately 15,209 mg organic chemicals known to cause respiratory irritation was sprayed in the victim's apartment. If only 10-25% of this deodorizer was airborne due to the mist created during application, evaporation, and drying by the time the homeowner exited the bedroom, she would have been exposed to a mixture of organic chemicals ranging from 14 to 61 mg/[m.sup.3]--far in excess of the 5-25 mg/[m.sup.3] shown by Molhave and colleagues (7,12) to cause respiratory irritation and asthma reactions among asthmatics and nonasthmatics. Conclusions Respiratory distress associated with carpet-cleaning activities has been reported in the literature for decades. The absence of exposure-monitoring data for carpet cleaning may be attributable to a perception of little danger associated with this activity and a high variability of the locations and types of cleaning performed, among other factors. The modeling conducted in this study demonstrates that significant exposures to TSP and volatile organic compounds may be possible during some carpet-cleaning activities where hot water mist is released into the room. The modeled exposures from this incident may approach levels considered to be of concern for workers, who are often more healthy than older adults or children. The two approaches used during modeling showed comparable estimates of exposure, with ranges overlapping between 5 and 17 mg/[m.sup.3] TSP exposure, which is 1.0-3.4 times the recommended short-term exposure limit for workers. If the findings of this study are indicative of other exposures to carpet cleaners using a hot water mist cleaning method, then asthmatics who are susceptible to irritant-induced asthma attacks may be particularly at risk after carpet cleaning. Companies that perform carpet cleaning should provide asthmatics with specific warnings about potential risks before cleaning operations begin and take steps to minimize hazardous exposure to these individuals. Preventative steps may include a) reducing cleaning chemical concentrations used to reduce airborne exposures and residual solid cleaner in carpets after moisture has dried; b) reducing the total volume of water and cleaner used within asthmatics' homes; c) instructing the asthmatic to avoid returning to the home until all surfaces have dried; and d) ensuring the availability of a medicinal inhaler inhaler /in·hal·er/ (in-hal´er) 1. an apparatus for administering vapor or volatilized medications by inhalation. 2. ventilator (2). in·hal·er n. in case of an emergency. Modeling also suggests that asthmatics should not accept deodorizing treatments. More detailed industrial hygiene studies are warranted for characterizing carpet-cleaning exposures. This information would be valuable not only to susceptible individuals and their attending physicians seeking to avoid harmful exposure but also to carpet cleaners and chemical manufacturers in developing appropriate hazard labeling and safety precautions for their workers. REFERENCES AND NOTES (1.) Kreiss K, Gonzalez M, Conright K. Respiratory irritation due to carpet shampoo: two outbreaks. Environ Int 8:337-341 (1982). (2.) Respiratory illness associated with carpet cleaning at a hospital clinic. MMWR MMWR Morbidity & Mortality Weekly Report Epidemiology A news bulletin published by the CDC, which provides epidemiologic data–eg, statistics on the incidence of AIDS, rabies, rubella, STDs and other communicable diseases, causes of mortality–eg, Morb Mortal Wkly Rep 32:383-384 (1983). (3.) Robinson P, Tauxe R, Winkler Winkler may refer to:
(4.) Micromedex. Tomes, Hazardtext Interactive WWW WWW or W3: see World Wide Web. (World Wide Web) The common host name for a Web server. The "www-dot" prefix on Web addresses is widely used to provide a recognizable way of identifying a Web site. System. Englewood, CO:Micromedex, Inc., 1992. (5.) ACGIH ACGIH American Conference of Governmental Industrial Hygienists, Inc. Committee on Industrial Ventilation. Industrial Ventilation: A Manuel of Recommended Practice, 19th ed. Lansing, MI:American Conference of Governmental Industrial Hygienists, 1986; xi. (6.) Rom WN. Occupational and environmental asthma. In: Environmental and Occupational Medicine. 2nd ed. Boston, MA: Little, Brown and Co., 1992;393-432. (7.) Molhave L, Bach B, Pedersen O. Human reactions to low concentrations of volatile organic compounds. Environ Int 12:167-175 (1986). (8.) Kjaergaard S, Molhave L, Pedersen O. Human reactions to a mixture of indoor air volatile organic compounds. Atmos Environ 25:1417-1426 (1991). (9.) Harving H, Dahl R, Molhave L. Lung function and bronchial reactivity in asthmatics during exposure to volatile organic compounds. Am Rev Respir Dis 143:751-754 (1991). (10.) NIOSH NIOSH National Institute for Occupational Safety & Health, see there NIOSH Recommendations for Safety & Health Standards Agent NIOSH REL*/OSHA PEL† Health effects . The Industrial Environment - Its Evaluation and Control. DHHS DHHS Department of Health & Human Services (US government) DHHS Dana Hills High School (Dana Point, California) DHHS Deaf and Hard of Hearing Services DHHS Deaf and Hard of Hearing Services (NIOSH) Publication No. 74-117. Washington, DC:National Institute for Occupational Safety and Health National Institute for Occupational Safety and Health, n.pr an institute of the Centers for Disease Control and Prevention that is responsible for assuring safe and healthful working conditions and for developing standards of safety and health. , 1973;417. (11.) Plog B. Fundamentals of Industrial Hygiene. 3rd ed. Itasca, IL:National Safety Council, 1988;839. (12.) Molhave L, Jensen JG, Larsen S. Subjective reactions to volatile organic compounds as air pollutants. Atmos Environ 25A:1283-1293 (1991). Editor's note: This issue's Grand Rounds in Environmental Medicine represents something of a departure from convention in that it was written by a nonphysician and deals in large part with modeling concentrations of chemicals in air. However, it is instructive. Lynch takes a case scenario that is relatively common in the clinical practice of occupational/environmental medicine--new onset of asthma in relation to chemical exposures--and analyzes the circumstances surrounding the use of chemical carpet shampoos to estimate the likes dose inhaled by the patient. This is not merely an exercise in industrial hygiene theory. The information provided (dose reconstruction) forms an essential part of the chain of causation that would allow a clinician to determine the likelihood that a particular chemical exposure is responsible for illnesses observed. In this case, Lynch's analysis also informs us of an underrecognized danger inherent in carpet shampooing that may ultimately assist in public health efforts to prevent future occurrences of chemically related exacerbations of asthma. Appreciation of the value of this kind of analysis is vital to the interdisciplinary discipline that is environmental medicine. We look forward to additional contributions from other disciplines in future Grand Rounds. Richard M. Lynch Department of Urban Studies and Community Health, Rutgers University, New Brunswick, New Jersey This article is about the city in New Jersey. For the Canadian province, see New Brunswick. New Brunswick, also known as "the Healthcare City"[2] or "Hub City",[3] is a city and the county seat of the County of Middlesex, New Jersey, USA. , USA Address correspondence to R.M. Lynch, Department of Urban Studies and Community Health, Rutgers University, 33 Livingston Avenue, Suite 100, New Brunswick, NJ 08901-1958 USA. Telephone: (732) 932-4101 ext 670 or 671. Fax: (732) 932-0934. E-mail: RMLynch@rci.rutgers.edu Received 12 January 2000; accepted 7 June 2000. |
|
||||||||||||||
Printer friendly
Cite/link
Email
Feedback
Reader Opinion