Airborne Nosocomial Infection: A Contemporary Perspective | Infection Control & Hospital Epidemiology | Cambridge Core (original) (raw)
Abstract
The history of airborne nosocomial infections is reviewed, and current beliefs about such infections are placed into their historical context. Possible sources, both animate and inanimate, of airborne nosocomial infections in the hospital environment are identified. Viruses, bacteria, and fungi that have been important causes of airborne nosocomial infections in the past are discussed, and examples of key studies that have confirmed an airborne route of transmission are presented. Where relevant, measures that have been used to control airborne transmission of nosocomial pathogens are discussed. Although outbreaks of airborne nosocomial infection have been uncommon, airborne transmission appears to account for about 10% of all endemic nosocomial infections.
References
2.Chapin, CV. Infection by air. In: Sources and Modes of Infection. New York, NY:John Wilev and Sons: 1910.Google Scholar
3.Langmuir, AD. Changing concepts of airborne infection of acute contagious diseases: a reconsideration of classic epidemiologic theories. Ann NY Acad Sci 1980;353:35–44.CrossRefGoogle ScholarPubMed
4.Subcommittee for the Evaluation of Methods of Control of Airborne Infections. American Public Health Association. Present status of the control of airborne infections. Am J Pub Health 1947;37:13–22.Google Scholar
5.Riley, RL, Mills, CC, Nyka, W, et al. Aerial dissemination of pulmonary tuberculosis: a two-year study of contagion in a tuberculosis ward. Am J Hyg 1959;70:185–196.Google Scholar
6.Riley, RL. Mills, CC. O’Grady, F. Eet, al. Infectiousness of air from a tuberculosis ward: ultraviolet&radiation of infected air; comparative infectiousness of different patients. Am Rev Respir Dis 1962;85:511–525.Google ScholarPubMed
7.Schaal, KF! Medical and microbiological problems arising from airborne infection in hospitals. J Hosp Infect 1991;18(suppl A):451–459.CrossRefGoogle ScholarPubMed
8.Chanock, RW, Kim, HW, Vargosko, AJ, et al. Respiratory syncytial virus 1. Virus recovery and other observations during 1960. Outbreak of bronchiolitis, pneumonia and other minor respiratory illness in children. JAMA 1961;176:647–653.Google Scholar
9.Gardner, DS. Court, SDM. Bmcklebank, IT. et al. virus cross-infection in paediatric wards. Br Med J 1973;ii:571–575.Google Scholar
10.Hall, CB. Nosocomial viral respiratory infections: perennial weeds in pediatric wards. In: Dixon, RE, ed. Nosocomial Infections. New York, NY:Yorke Medical Books: 1981:227–233.Google Scholar
11.Moser, MR, Bender, TR, Margolis, HS, et al. An outbreak of influenza aboarda commercial airliner. Am J Epidemiol 1979;110:1–6.Google Scholar
12.Hoffman, PC, Dixon, RE. Control of influenza in hospital. Ann Intern Med 1977;87:725–728.Google Scholar
13.Valenti, WM. Selected viruses of nosocomial importance. In: Bennett, JV, Brachman, PS, eds. Hospital Infections. 3rd ed. Boston, MA:Little, Brown and Co: 1992:789–821.Google Scholar
14.Ayliie, GAJ, Lowbury, EJL. Airborne infection in hospital. J Hosp Z Infect 1982;3:217–240.Google Scholar
15.Leclair, JM, Zaia, JA, Levin, MJ, et al. Airborne transmission of chickenpox in a hospital. N Engl J Med 1980;302:450–453.CrossRefGoogle ScholarPubMed
16.Wehrle, PF, Posch, J, Richter, KH, et al. An airborne outbreak of smallpox in a German hospital and its significance with respect to other recent outbreaks in Europe. Bull WHO 1970;43:669–679.Google Scholar
17.Centers for Disease Control. Laboratory-associated smallpox—England. MMWR 1978;27:319–320.Google Scholar
18.Hawkes, N. Science in Europe/smallpox death in Britain challenges presumption of laboratory safety. Science 1979;203:855–856.Google Scholar
19.Centers for Disease Control. Hantavirus pulmonary syndrome—United States, 1993. MMWR 1994;43:45–48.Google Scholar
20.Sawyer, LA, Murphy, JJ, Kaplan, JE, et al. 25-30-nm virus particle associated with a hospital outbreak of acute gastroenteritis with evidence for airborne transmission. Am J Epidemiol 1988;127:1261–1271.Google Scholar
21.Meiklejohn, G, Reimer, LG, Graves, PS, et al. Cryptic epidemic of Q fever in a medical school. J Infect Dis 1981;144:107–113.Google Scholar
22.Mortimer, EA, Wolinsky, E, Gonzaga, AJ, et al. Role of airborne transmission in staphylococcal infections. Br Med J 1966;i:319–322.CrossRefGoogle Scholar
23.Charnley, J, Eftekhar, N. Postoperative infection in total prosthetic replacement arthroplastyof the hip joint: with special reference to the bacterial-content of the air of the operating room. Br J Surg 1969;56:641–649.Google Scholar
24.Fitzgerald, RH Jr. Reduction of deep sepsis following total hip arthroplasty. Ann NY Acad Sci 1980;353:262–270.Google Scholar
25.Hart, D, Schiebel, HM, Sharp, DG. Bactericidal ultraviolet radiation in the operating room: twenty-nine year study for control of infections. JAMA 1960;172:1019–1028.CrossRefGoogle ScholarPubMed
26.Goldner, JL, Moggio, M, Beissinger, SF, et al. Ultraviolet light for the control of airborne bacteria in the operating room. Ann NY Acad Sci 1980;353:271–284.CrossRefGoogle ScholarPubMed
27.National Research Council. Postoperative wound infections: the influence of ultraviolet irradiation in the operating room and of various other factors. Ann Surg 1964;160:1–192.Google Scholar
28.Lidwell, OM, Lowbury, EJ, Whyte, W, et al. Airborne contamination of wounds in joint replacement operations: the relationship to sepsis rates. J Hosp Infect 1983;4:111–131.CrossRefGoogle ScholarPubMed
29.Fitzgerald, RH Jr, Nolan, DM, Ilstrup, RF, et al. Deen wound sepsis following total hip arthroplasty. J Bone Joint Surg [Am] 1977;59:847–855.Google Scholar
30.Dooley, SW, Villarino, ME, Lawrence, M, et al. Nosocomial transmission of tuberculosis in a hospital unit for HIV-infected patients. JAMA 1992;267:2632–2634.CrossRefGoogle Scholar
31.Pearson, ML, Jereb, JA, Frieden, TR, et al. Nosocomial transmission of multidrug-resistant Mycobacterium tuberculosis: a risk to patients and health care workers. Ann Intern Med 1992;117:191–196.CrossRefGoogle ScholarPubMed
32.Edlin, BR, Tokars, JI, Grieco, MH, et al. An outbreak of multidrug-resistant tuberculosis among hospitalized patients with the acquired immunodeficiency syndrome. N Engl J Med 1992;326:1514–1521.Google Scholar
33.Beck-Sague, C, Dooley, SW, Hutton, MD, et al. Hospital outbreak of multidrug-resistant Mycobacterium tuberculosis infections. JAMA 1992;268:1280–1286.Google Scholar
34.Zaza, S. Blumberg, H, Beck-Sague, C. et al. Nosocomial transmission of Mycobacterium tuberculosis ‘infection among healthcare workers. Presented at the 32nd Interscience Conference on Antimicrobial Agents and Chemotherapy. American Society for Microbiology; October 11-14, 1992; Los Angeles, California.Google Scholar
35.Ehrenkranz, NJ, Kicklighter, JL. Tuberculosis outbreak in a general hospital, evidence for airborne spread of infection. Ann Intern Med 1972;77:377–382.Google Scholar
36.Goldmann, DAEpidemiology of Staphylococcus aureus and group A streptococci. In: Bennett, JV, Brachman, PS, eds. Hospital Infections. 3rd ed. Boston. MA:Little. Brown and Co: 1992;767–787.Google Scholar
37.Cohen, MS, Steer, AC, Baltimore, R, et al. Possible nosocomial transmission of group Y Neisseria meningitidis among oncology patients. Ann Intern Med 1979;91:7–12.CrossRefGoogle ScholarPubMed
38.Allen, KD, Green, HT. Hospital outbreak of multi-resistant Acinetobacter anitratus: an airborne mode of spread? J Hosp Infect 1987;9:110–119.Google Scholar
39.Hirai, Y. Survival of bacteria under dry conditions; from a viewpoint of nosocomial infection. J Hosp Infect 1991;19:191–200.Google Scholar
40.LaForce, FM. Lower respiratory tract infections. In: Bennett, JV, Brachman, PS, eds. Hospital Infections. 3rd ed. Boston, MA:Little, Brown and Co; 1992;611–639.Google Scholar
41.Dondero, TJ, Rentdorff, RC, Mallison, GF. et al. An outbreak of Legionnaires’ disease associated with an air-conditioning cooling tower. N Engl J Med 1980;302:365–370.CrossRefGoogle ScholarPubMed
42.Hoang, ET, Lovett, IS, Thompson, FD, et al. Nocardia asteroides infection-a transmissible disease. J Hosp Infect 1980;1:31–40.Google Scholar
43.Sahathevan, M, Harvey, FA, Forbes, G, et al. Epidemiology, bacteriology and control of an outbreak of Nocardia asteroides infection on a liver unit. J Hosp Infect 1991;18(suppl A):473–480.CrossRefGoogle ScholarPubMed
44.Weems, JJ, Davis, BJ, Tablan, OC, et al. Construction activity: an independent risk factor for invasive aspergillosis and zygomycosis in patients with hematologic malignancy. Infect Control 1987;8:71–75.CrossRefGoogle ScholarPubMed
45.Sherertz, RJ, Belani, A, Kramer, BS, et al. Impact of air filtration on nosocomial Aspergillus infections. Unique risk of bone marrow transplant recipients. Am J Med 1987;83:709–718.Google Scholar
47.Rhame, FS, Streifel, AJ, Kersey, JH Jr, et al. Extrinsic risk factors for pneumonia in thepatient at high risk of infection. Am J Med 1984;76:42–52.Google Scholar
48.Brachman, PS. Nosocomial infection-airborne or not? In: Brachman, PS, Eickhoff, TC, eds. In: Proceedings of the International Conference on Nosocomial Infections. Chicago, IL: American Hospital Association; 1971:189–192.Google Scholar
50.Ayliffe, GA. Role of the environment of the operating suite in surgical wound infection. Rev Infect Dis 1991;13(suppl):S800–S804.CrossRefGoogle ScholarPubMed
51.Haley, RW, Tenney, JH, Lindsey, JO II, et al. How frequent are outbreaks of nosocomial infection in community hospitals? Infect Control 1985;6:233–236.CrossRefGoogle ScholarPubMed
52.Wenzel, RP, Thompson, RL, Landry, SM, et al. Hospital acquired infections in intensive care unit patients: an overview with emphasis on epidemics. Infect Control 1983;4:371–375.CrossRefGoogle ScholarPubMed
53.Jarvis, WR. Nosocomial outbreaks: the Centers for Disease Control's Hospital Infections Program experience, 1980-1990. Am J Med 1991;91(suppl 3B):101S–106S.CrossRefGoogle ScholarPubMed
54.Eickhoff, TC. Microbiological sampling: hospitals. JAHA. 1970;44:86–87.Google Scholar