A 58 kDa excretory-secretory product (ESP) of Giardia lamblia has been characterized. The ESP was purified over 508-fold by a combination of ammonium sulphate precipitation and sequential chromatography on affinity matrix and a gel filtration column. The homogeneity of the purified protein was established by sodium dodecyl sulphate polyacrylamide gel electrophoresis (Mr, 58 kDa) and analytical isoelectrophoresis (pI 4.75). The purified protein was recognized by the pooled sera of G. lamblia-positive patients as well as an antiserum raised against crude Giardia extract, thus indicating it to be an immunodominant parasite product. The ESP was found to agglutinate rabbit erythrocytes. The haemagglutinating activity of this protein was inhibited strongly by thyroglobulin, fetuin, asialofetuin and monosialoganglioside but not by simple sugars. The purified protein was characterized immunochemically and was found to be heat stable as well as protease sensitive. Lectin-binding studies of the purified ESP and its sensitivity to periodic-acid silver staining as well as to metaperiodate treatment clearly indicated its glycoprotein nature. The major localization site of the ESP was found to be on the surface of the parasite as revealed by flow cytometric analysis. Further, this glycoprotein induced fluid accumulation in ligated rabbit ileal loops and revealed a positive skin permeability reaction in the rabbit.
Urine cultures are among the most common specimens received by clinical laboratories and generate a major share of the laboratory workload. Chromogenic agar can expedite culture results, but technologist review is still needed. In this study, we evaluated the ability of the WASPLab software to interpret urine specimens plated onto chromID CPS Elite (CPSE) agar. Urine specimens submitted for bacterial culture were plated onto CPSE agar with a 1-μl loop using the WASP. Each plate was imaged after 0 and 18 h of incubation, and colonies were enumerated by color using the WASPLab software and a technologist’s reading from a high-definition (HD) monitor. The results were reported as negative if <10 colonies/plate were detected. Laboratory information system (LIS) time stamps were used to measure the time to result. A total of 1,581 urine cultures were tested. The sensitivity and specificity of the software were 99.8% and 68.5%, respectively, which included 2 manual-positive/automation-negative (MP/AN) results and 170 manual-negative/automation-positive (MN/AP) results. Of the 170 MN/AP specimens, 116 were caused by microcolonies missed by the technologist. The remaining MN/AP results were caused by either count differences near the 10-colony threshold (n = 43) or count differences of >50 CFU (n = 11). The use of both CPSE agar and the WASPLab software improved the time to result for urine culture, reducing the average time to result by 4 h 42 min for negative specimens and 3 h 28 min for positive specimens compared to that with standard-of-care testing. These data demonstrate that the use of CPSE agar and automated plate reading has the potential to improve turnaround time while maintaining high sensitivity and reducing urine culture workload.
CME Accreditation Statement: This activity ("JMD 2019 CME Program in Molecular Diagnostics") has been planned and implemented in accordance with the accreditation requirements and policies of the Accreditation Council for Continuing Medical Education (ACCME) through the joint providership of the American Society for Clinical Pathology (ASCP) and the American Society for Investigative Pathology (ASIP). ASCP is accredited by the ACCME to provide continuing medical education for physicians. The ASCP designates this journal-based CME activity ("JMD 2019 CME Program in Molecular Diagnostics") for a maximum of 18.0 AMA PRA Category 1 Credit(s) ä. Physicians should claim only credit commensurate with the extent of their participation in the activity.
Objectives To determine diagnostic, workflow, and economic implications of instituting a gross-only policy at our institution. Methods Retrospective (2017) key word searches were performed to identify “gross-only” cases for which microscopic evaluation could potentially be omitted, but was performed, and those who underwent gross evaluation per surgeon request. Cases were evaluated for type(s), part(s), block volume, turnaround time, demographics, and diagnosis. Laboratory costs and reimbursement were evaluated. Results In total, 448 potential gross-only cases with 472 specimens consisted of atherosclerotic plaques (33.5%), bariatric stomach/bowel (32.6%), hernia (15.7%), heart valves (12.7%), and other (5.9%). Four (2.6%) bariatric surgery cases had Helicobacter pylori infection; these were the only cases with “significant” histologic findings. Cost analysis revealed that converting all potential gross-only specimens to gross only would result in overall losses based on average reimbursements, most influenced by bariatric specimens (Current Procedural Terminology code 88307), comprising 65.2% of estimated loss. Conclusions Establishing a gross-only policy should be guided by established recommendations but institutionally individualized and data driven. It was reasonable for us to establish a gross-only policy for most evaluated specimens, while excluding bariatric stomach specimens in which microscopic pathology could be missed, given the lack of H pylori screening at our institution.
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