Polyester-rayon blend wipes were evaluated for efficiency of extraction and recovery of powdered Bacillus atrophaeus spores from stainless steel and painted wallboard surfaces. Method limits of detection were also estimated for both surfaces. The observed mean efficiency of polyester-rayon blend wipe recovery from stainless steel was 0.35 with a standard deviation of ؎0.12, and for painted wallboard it was 0.29 with a standard deviation of ؎0. It is critical from a public health perspective that the information obtained is accurate and reproducible. The consequences of an inappropriate public health response founded on information garnered by an ineffective sample collection method or procedure has the potential for undesired social and economic impact. Well-developed and validated procedures for the collection and analysis of biological environmental samples are required to provide the necessary level of confidence in agent characterization information provided.Researchers and investigators are aware that the Centers for Disease Control and Prevention (CDC)-recommended procedures for the collection of B. anthracis spores by swab, wipe, and vacuum filtration collection methods (6) underestimate the number of spores on surfaces, and attempts are being made to address the knowledge gap (4,5,18,19). Additionally, a number of studies have been conducted to determine the efficiency of the swab sample collection method (1,2,3,7,8,10,17,18), but limited studies have been conducted to examine the efficiency of the wipe spore collection method (10, 13). A recent study conducted by Sanderson et al. (19) that compared B. anthracis surface sampling results obtained by swab, wipe, and vacuum filtration methods suggests that the wipe collection method outperforms the swab method, but no independent recovery efficiency was established for the wipe method.The objective of this study was to empirically evaluate the wipe surface sample collection method for recovery efficiency with a polyester-rayon blend wipe material and estimate limits of detection for selected nonporous surfaces seeded with dry deposited Bacillus atrophaeus spores. Additionally, a sonication extraction method was evaluated for effectiveness in removing viable spores from the selected wipe collection material.
MATERIALS AND METHODSSpore matrix. The material used as the test agent for this study was a powdered matrix containing B. atrophaeus spores (ATCC 9372; formerly Bacillus subtilis var. niger and subsequently "Bacillus globigii") (12) and silicon dioxide particles obtained from the U.S. Army Dugway Proving Ground Life Science Division. The spore material was prepared by cultivating B. atrophaeus in tryptic soy broth (Difco, Detroit, MI) containing 3 mg/liter MnSO 4 (Fisher Scientific, Pittsburgh, PA). After 80 to 90% sporulation, the spore suspension was centrifuged to obtain a spore suspension containing approximately 20% solids. Dry spore material was then prepared from the unwashed spore suspension with a laboratory spray dryer. The spore material was...
