J. R. Puleo scite author profile

Planetary quarantine requirements associated with the launch of two Viking spacecraft necessitated microbiological assessment during assembly and testing at Cape Canaveral and the Kennedy Space Center. Samples were collected from selected surfaces of the Viking Lander Capsules (VLC), Orbiters (VO), and Shrouds at predetermined intervals during assembly and testing. Approximately 7,000 samples were assayed. Levels of bacterial spores per square meter on the VLC-1 and VLC-2 were 1.6 x 102 and 9.7 x 10', respectively, prior to dryheat sterilization. The ranges of aerobic mesophilic microorganisms detected on the VO-1 and VO-2 at various sampling events were 4.2 x 102 to 4.3 x 10:1 and 2.3 x 102 to 8.9 x 103/m2, respectively. Approximately 1,300 colonies were picked from culture plates, identified, lyophilized, and stored for future reference. About 75% of all isolates were microorganisms considered indigenous to humans; the remaining isolates were associated with soil and dust in the environment. The percentage of microorganisms of human origin was consistent with results obtained with previous automated spacecraft but slightly lower than those observed for manned (Apollo) spacecraft.

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Microbiological Profiles of Four Apollo Spacecraft

Puleo¹,

Oxborrow²,

Fields³

et al. 1973

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Comparative Levels and Types of Microbial Contamination Detected in Industrial Clean Rooms

Favero¹,

Puleo²,

Marshall³

et al. 1966

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Comparative levels and types of microbial contamination detected in industrial clean rooms. Appl. Microbiol. 14:539-551. 1966.-The primary objective of this study was to determine quantitatively and qualitatively the predominant types of microbial contamination occurring in conventional and laminar flow clean rooms. One horizontal laminar flow, three conventional industrial clean rooms, and three open factory areas were selected for microbiological tests. The results showed that as the environment and personnel of a clean room were controlled in a more positive manner with respect to the reduction of particulate contamination, the levels of airborne and surface microbial contaminants were reduced accordingly. The chief sources of microbial contamination were associated with the density and activity of clean room personnel. In addition, the majority of microorganisms isolated from the intramural air by air samplers were those indigenous to humans. Studies on the fallout and accumulation of airborne microorganisms on stainless-steel surfaces showed that, although there were no significant differences in the levels of microbial contamination among the conventional clean rooms, the type of microorganism detected on stainless-steel surfaces was consistently and significantly different. In addition, the "plateau phenomenon" occurred in all environments studied. It was concluded that the stainless-steel strip method for detecting microbial accumulation on surfaces is efficient and sensitive in ultra-clean environments and is the most reliable and practical method for monitoring microbial contamination in future class 100 clean rooms to be used for the assembly of spacecraft which will be sterilized.

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Use of Ultrasonic Energy in Assessing Microbial Contamination on Surfaces

Puleo¹,

Favero²,

Petersen³

1967

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Ultrasonic tanks were evaluated for their ability to remove viable microorganisms from various surfaces for subsequent enumeration. Test surfaces were polished stainless steel, smooth glass, frosted glass, and electronic components. The position of contaminated surfaces in relation to the ultrasonic energy source, distance of the ultrasonic source from the test surfaces, and temperature of the rinse fluid were some of the factors which influenced recovery. Experimental systems included both naturally occurring microbial contamination and artificial contamination with spores of Bacillus subtilis var. niger. The results showed that ultrasonic energy was more reliable and efficient than mechanical agitation for recovering surface contaminants. Conditions which increased the number and percentage of microorganisms recovered by ultrasonic energy were: using a cold rinse fluid, placing the sample bottle on the bottom of the ultrasonic tank, and facing the contaminated surfaces toward the energy source. It was also demonstrated that ultrasonic energy could be effectively used for eluting microorganisms from cotton swabs.

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Quantitative and Qualitative Microbiological Profiles of the Apollo 10 and 11 Spacecraft

Puleo¹,

Oxborrow²,

Fields³

et al. 1970

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J. R. Puleo

Microbiological profiles of the Viking spacecraft

Microbiological Profiles of Four Apollo Spacecraft

Comparative Levels and Types of Microbial Contamination Detected in Industrial Clean Rooms

Use of Ultrasonic Energy in Assessing Microbial Contamination on Surfaces

Quantitative and Qualitative Microbiological Profiles of the Apollo 10 and 11 Spacecraft

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