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Literature DB >> 13950172

Microbiological contamination of hospital air. I. Quantitative studies.

V W GREENE, D VESLEY, R G BOND, G S MICHAELSEN.

Abstract

The levels of airborne contamination in various areas of two hospitals were determined during a 15-month sampling period, using Casella and Andersen volumetric samplers. Based on nearly 5,000 samples, the mean count per ft(3) ranged from 4.5 in obstetric-gynecology delivery rooms to 72.4 in waste-handling areas. The mean count for the entire hospital environment was on the order of 20 contaminants per ft(3); 48% were associated with particles >5 mu diam, 30% with particles between 2 and 6 mu diam, and 22% with particles <2 mu diam. The airborne contamination was influenced by traffic, activity, ventilation considerations, and gross surface contamination, but not markedly by seasonal changes. When suitable control measures were implemented, the level of contamination could be diminished and kept low.

Keywords: AIR MICROBIOLOGY; CROSS INFECTION

Mesh：

Year: 1962 PMID： 13950172 PMCID： PMC1057915 DOI： 10.1128/am.10.6.561-566.1962

Source DB: PubMed Journal: Appl Microbiol ISSN： 0003-6919

6 in total

1. The floor as a reservoir of hospital infections.

Authors: C W WALTER; R B KUNDSIN
Journal: Surg Gynecol Obstet Date: 1960-10

2. New sampler for the collection, sizing, and enumeration of viable airborne particles.

Authors: A A ANDERSEN
Journal: J Bacteriol Date: 1958-11 Impact factor: 3.490

3. Staphylococcal infections in hospitals. Recent developments in epidemiologic and laboratory investigation.

Authors: A J NAHMIAS; T C EICKHOFF
Journal: N Engl J Med Date: 1961-07-20 Impact factor: 91.245

4. Environmental aspects of staphylococcal infections acquired in hospitals. III. Ventilation of operating rooms--bacteriological investigations.

Authors: R BLOWERS; K R WALLACE
Journal: Am J Public Health Nations Health Date: 1960-04

5. Determination of bacterial air pollution in various premises.

Authors: B CVJETANOVIC
Journal: J Hyg (Lond) Date: 1958-06

6. The bacterial flora of the air of occupied rooms.

Authors: A HIRCH; O M LIDWELL; R E WILLIAMS
Journal: J Hyg (Lond) Date: 1956-12

6 in total

11 in total

1. THE POTENTIAL ROLE OF INHALATION THERAPY EQUIPMENT IN NOSOCOMIAL PULMONARY INFECTION.

Authors: J A REINARZ; A K PIERCE; B B MAYS; J P SANFORD
Journal: J Clin Invest Date: 1965-05 Impact factor: 14.808

2. Microbiological contamination of hospital air. II. Qualitative studies.

Authors: V W GREENE; D VESLEY; R G BOND; G S MICHAELSEN
Journal: Appl Microbiol Date: 1962-11

3. Reaerosolization of Spores from Flooring Surfaces To Assess the Risk of Dissemination and Transmission of Infections.

Authors: Susan Paton; Katy-Anne Thompson; Simon R Parks; Allan M Bennett
Journal: Appl Environ Microbiol Date: 2015-05-15 Impact factor: 4.792

4. Comparison of microbial contamination levels among hospital operating rooms and industrial clean rooms.

Authors: M S Favero; J R Puleo; J H Marshall; G S Oxborrow
Journal: Appl Microbiol Date: 1968-03

5. Evaluation of a simple device for bacteriological sampling of respirator-generated aerosols.

Authors: K J Ryan; S F Mihalyi
Journal: J Clin Microbiol Date: 1977-02 Impact factor: 5.948

6. Fungal air spora at Ibadan, Nigeria.

Authors: E O Ogunlana
Journal: Appl Microbiol Date: 1975-04

7. Monitoring airborne fungal spores in an experimental indoor environment to evaluate sampling methods and the effects of human activity on air sampling.

Authors: M P Buttner; L D Stetzenbach
Journal: Appl Environ Microbiol Date: 1993-01 Impact factor: 4.792