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F. Griffith (1934)
The Serological Classification of Streptococcus pyogenesEpidemiology and Infection, 34
E. Robertson, M. Doyle (1940)
ON THE CONTROL OF AIR‐BORNE BACTERIA IN OPERATING ROOMS AND HOSPITAL WARDS A PRELIMINARY REPORTAnnals of Surgery, 111
J. Brown (1938)
A SIMPLIFIED METHOD FOR GROUPING HEMOLYTIC STREPTOCOCCI BY THE PRECIPITIN REACTIONJAMA, 111
R. Lancefield (1933)
A SEROLOGICAL DIFFERENTIATION OF HUMAN AND OTHER GROUPS OF HEMOLYTIC STREPTOCOCCIThe Journal of Experimental Medicine, 57
) 1938. 10. Drs. Frieda Fraser and Helen Plummer of the Connaught Labor\l=a`\-tories
C. Andrewes, R. Glover (1941)
Spread of Infection from the Respiratory Tract of the Ferret. I. Transmission of Influenza A Virus.British journal of experimental pathology, 22
W. Wells, W. Henle (1941)
Experimental Air-Borne Disease. Quantitative Inoculation by Inhalation of Influenza VirusProceedings of the Society for Experimental Biology and Medicine, 48
W. Wells, M. Wells (1938)
Measurement of Sanitary Ventilation.American journal of public health and the nation's health, 28 3
D. Greene, L. Barenberg, B. Greenberg (1941)
EFFECT OF IRRADIATION OF THE AIR IN A WARD ON THE INCIDENCE OF INFECTIONS OF THE RESPIRATORY TRACT: WITH A NOTE ON VARICELLAJAMA Pediatrics, 61
W. Auger (1939)
A New Method of Culturing Sputum on Solid Media using Carbon Dioxide for the Isolation of PneumococciBritish journal of experimental pathology, 20
H. Neisser (1939)
The serological typing of Streptococcus pyogenes and its application to certain infective conditionsThe Journal of Pathology and Bacteriology, 48
W. Wells, M. Wells, T. Wilder (1942)
THE ENVIRONMENTAL CONTROL OF EPIDEMIC CONTAGIONI. AN EPIDEMIOLOGIC STUDY OF RADIANT DISINFECTION OF AIR IN DAY SCHOOLSAmerican Journal of Epidemiology, 35
J. Mueller, K. Klise (1932)
A Method for the Agglutination of Hemolytic StreptococciThe Journal of Immunology
A. Fuller (1938)
The Formamide Method for the Extraction of Polysaccharides from Hæmolytic StreptococciBritish journal of experimental pathology, 19
E. Robertson, M. Doyle, F. Tisdall, L. Koller, F. Ward (1939)
AIR CONTAMINATION AND AIR STERILIZATIONJAMA Pediatrics, 58
Following the installation in this hospital of a new operating room equipped with a battery of eight Westinghouse Sterilamps and an air changing system, counts were made of the bacteria in the air of this room. Either of these agents reduced the number of air borne bacteria. and the combination of the two was very effective.1 This suggested the possibility of using similar means to reduce the number of cross infections in the infant ward. In order to test the efficacy of various barriers to the spread of air borne bacteria, an experimental room was set up in the laboratory.2 It consisted of a series of open door cubicles the entrances of which were 4 feet wide and 6 feet 2 inches high. Around the cubicle entrances, General Electric Ultraviolet Germicidal lamps (15 watt, T8) were mounted with baffles in front and behind them so that a narrow
JAMA – American Medical Association
Published: Mar 20, 1943
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