Angela Wright - Academia.edu (original) (raw)
Papers by Angela Wright
Journal of the American Society of Cytopathology, 2016
INTRODUCTION The roles of pathologists and cytotechnologists (CTs) continually evolve to optimize... more INTRODUCTION The roles of pathologists and cytotechnologists (CTs) continually evolve to optimize patient care, particularly with regard to rapid on-site evaluation (ROSE). Having ROSE performed helps ensure sufficient material is obtained for diagnosis and permits appropriate specimen triage for ancillary studies. At our institution, both on-site and telecytology evaluations are increasingly utilized, particularly in endobronchial ultrasound-guided procedures (EBUS). Consequently, time demands placed on the pathologist and CT staff has significantly increased, creating workload management challenges. MATERIAL AND METHODS A consecutive number of ROSE procedures were documented for a 3-month time period at our institution. Case type and time spent for travel, adequacy assessment, processing, screening, and sign-out was recorded in order to assess time demands placed on staff by different procedures. RESULTS Average travel/processing time by CTs was variable among ROSE procedures (72.9 minutes), as was adequacy assessment time by pathologists (16.9 minutes). EBUS posed the greatest time challenges with the longest CT travel/processing time as EBUS took almost 40% longer and adequacy assessment took the pathologist 3-4 times longer when compared with other procedures because of the targeting of multiple sites during EBUS with associated procedural delays. Using telecytology, average pathologist adequacy assessment time was reduced from 44.8 minutes to 24.6 minutes for EBUS. The provision of ROSE for EBUS is more challenging from a workload management perspective than for other procedures. CONCLUSIONS ROSE reimbursement is low, and no greater for EBUS than for other procedures. Use of telecytology can save time for pathologists and make the service more cost-effective if the number of procedures is sufficient to justify investment in the technology.
Archives of Pathology & Laboratory Medicine, 2013
Context.—Digital whole slide imaging is the anticipated future of anatomic pathology, where sign-... more Context.—Digital whole slide imaging is the anticipated future of anatomic pathology, where sign-out of glass slides will be replaced by scanned images. Whole slide imaging has been successfully used in surgical pathology, but its usefulness and clinical application have been limited in cytology for several reasons, including lack of availability of z-axis depth focusing and large file size. Recently, several systems have become available in the United States for whole slide imaging with z-axis technology.Objective.—To determine the accuracy and efficiency of whole slide imaging, as compared with traditional glass slides, for use in cervicovaginal diagnostic cytology.Design.—Eleven cervicovaginal cytology cases (ThinPrep and SurePath) scanned at ×20, ×40, and ×40 z-stack magnifications using the BioImagene iScan Coreo Au 3.0 scanner were evaluated by 4 cytotechnologists and 3 pathologists in a blinded study. Different magnification scans were recorded as separate cases and presented...
Archives of Pathology & Laboratory Medicine, 2011
Ten years ago a bioterrorism event involving Bacillus anthracis spores captured the nation&am... more Ten years ago a bioterrorism event involving Bacillus anthracis spores captured the nation's interest, stimulated extensive new research on this pathogen, and heightened concern about illegitimate release of infectious agents. Sporadic reports have described rare, fulminant, and sometimes fatal cases of pneumonia in humans and nonhuman primates caused by strains of Bacillus cereus , a species closely related to Bacillus anthracis. To describe and investigate a case of rapidly progressive, fatal, anthrax-like pneumonia and the overwhelming infection caused by a Bacillus species of uncertain provenance in a patient residing in rural Texas. We characterized the genome of the causative strain within days of its recovery from antemortem cultures using next-generation sequencing and performed immunohistochemistry on tissues obtained at autopsy with antibodies directed against virulence proteins of B anthracis and B cereus. We discovered that the infection was caused by a previously unknown strain of B cereus that was closely related to, but genetically distinct from, B anthracis . The strain contains a plasmid similar to pXO1, a genetic element encoding anthrax toxin and other known virulence factors. Immunohistochemistry demonstrated that several homologs of B anthracis virulence proteins were made in infected tissues, likely contributing to the patient's death. Rapid genome sequence analysis permitted us to genetically define this strain, rule out the likelihood of bioterrorism, and contribute effectively to the institutional response to this event. Our experience strongly reinforced the critical value of deploying a well-integrated, anatomic, clinical, and genomic strategy to respond rapidly to a potential emerging, infectious threat to public health.
Archives of Pathology & Laboratory Medicine, 2013
Digital whole slide imaging is the anticipated future of anatomic pathology, where sign-out of gl... more Digital whole slide imaging is the anticipated future of anatomic pathology, where sign-out of glass slides will be replaced by scanned images. Whole slide imaging has been successfully used in surgical pathology, but its usefulness and clinical application have been limited in cytology for several reasons, including lack of availability of z-axis depth focusing and large file size. Recently, several systems have become available in the United States for whole slide imaging with z-axis technology. To determine the accuracy and efficiency of whole slide imaging, as compared with traditional glass slides, for use in cervicovaginal diagnostic cytology. Eleven cervicovaginal cytology cases (ThinPrep and SurePath) scanned at ×20, ×40, and ×40 z-stack magnifications using the BioImagene iScan Coreo Au 3.0 scanner were evaluated by 4 cytotechnologists and 3 pathologists in a blinded study. Different magnification scans were recorded as separate cases and presented in a randomized sequence. Corresponding glass slides were also reviewed. For each case, the diagnoses and total time to reach each diagnosis were recorded. Diagnostic accuracy was higher and average time per case was lower with glass slides as compared with all digital images. Among the digital images, the ×40 or ×40 z-stack had the highest diagnostic accuracy and lowest interpretation time. Whole slide imaging is a viable option for the purposes of teaching and consultations, and as a means of archiving cases. However, considering the large file size and total time to reach diagnosis on digital images, whole slide imaging is not yet ready for daily cervicovaginal diagnostic cytology screening use.
Journal of the American Society of Cytopathology, 2015
Journal of the American Society of Cytopathology, 2016
INTRODUCTION The roles of pathologists and cytotechnologists (CTs) continually evolve to optimize... more INTRODUCTION The roles of pathologists and cytotechnologists (CTs) continually evolve to optimize patient care, particularly with regard to rapid on-site evaluation (ROSE). Having ROSE performed helps ensure sufficient material is obtained for diagnosis and permits appropriate specimen triage for ancillary studies. At our institution, both on-site and telecytology evaluations are increasingly utilized, particularly in endobronchial ultrasound-guided procedures (EBUS). Consequently, time demands placed on the pathologist and CT staff has significantly increased, creating workload management challenges. MATERIAL AND METHODS A consecutive number of ROSE procedures were documented for a 3-month time period at our institution. Case type and time spent for travel, adequacy assessment, processing, screening, and sign-out was recorded in order to assess time demands placed on staff by different procedures. RESULTS Average travel/processing time by CTs was variable among ROSE procedures (72.9 minutes), as was adequacy assessment time by pathologists (16.9 minutes). EBUS posed the greatest time challenges with the longest CT travel/processing time as EBUS took almost 40% longer and adequacy assessment took the pathologist 3-4 times longer when compared with other procedures because of the targeting of multiple sites during EBUS with associated procedural delays. Using telecytology, average pathologist adequacy assessment time was reduced from 44.8 minutes to 24.6 minutes for EBUS. The provision of ROSE for EBUS is more challenging from a workload management perspective than for other procedures. CONCLUSIONS ROSE reimbursement is low, and no greater for EBUS than for other procedures. Use of telecytology can save time for pathologists and make the service more cost-effective if the number of procedures is sufficient to justify investment in the technology.
Archives of Pathology & Laboratory Medicine, 2013
Context.—Digital whole slide imaging is the anticipated future of anatomic pathology, where sign-... more Context.—Digital whole slide imaging is the anticipated future of anatomic pathology, where sign-out of glass slides will be replaced by scanned images. Whole slide imaging has been successfully used in surgical pathology, but its usefulness and clinical application have been limited in cytology for several reasons, including lack of availability of z-axis depth focusing and large file size. Recently, several systems have become available in the United States for whole slide imaging with z-axis technology.Objective.—To determine the accuracy and efficiency of whole slide imaging, as compared with traditional glass slides, for use in cervicovaginal diagnostic cytology.Design.—Eleven cervicovaginal cytology cases (ThinPrep and SurePath) scanned at ×20, ×40, and ×40 z-stack magnifications using the BioImagene iScan Coreo Au 3.0 scanner were evaluated by 4 cytotechnologists and 3 pathologists in a blinded study. Different magnification scans were recorded as separate cases and presented...
Archives of Pathology & Laboratory Medicine, 2011
Ten years ago a bioterrorism event involving Bacillus anthracis spores captured the nation&am... more Ten years ago a bioterrorism event involving Bacillus anthracis spores captured the nation's interest, stimulated extensive new research on this pathogen, and heightened concern about illegitimate release of infectious agents. Sporadic reports have described rare, fulminant, and sometimes fatal cases of pneumonia in humans and nonhuman primates caused by strains of Bacillus cereus , a species closely related to Bacillus anthracis. To describe and investigate a case of rapidly progressive, fatal, anthrax-like pneumonia and the overwhelming infection caused by a Bacillus species of uncertain provenance in a patient residing in rural Texas. We characterized the genome of the causative strain within days of its recovery from antemortem cultures using next-generation sequencing and performed immunohistochemistry on tissues obtained at autopsy with antibodies directed against virulence proteins of B anthracis and B cereus. We discovered that the infection was caused by a previously unknown strain of B cereus that was closely related to, but genetically distinct from, B anthracis . The strain contains a plasmid similar to pXO1, a genetic element encoding anthrax toxin and other known virulence factors. Immunohistochemistry demonstrated that several homologs of B anthracis virulence proteins were made in infected tissues, likely contributing to the patient's death. Rapid genome sequence analysis permitted us to genetically define this strain, rule out the likelihood of bioterrorism, and contribute effectively to the institutional response to this event. Our experience strongly reinforced the critical value of deploying a well-integrated, anatomic, clinical, and genomic strategy to respond rapidly to a potential emerging, infectious threat to public health.
Archives of Pathology & Laboratory Medicine, 2013
Digital whole slide imaging is the anticipated future of anatomic pathology, where sign-out of gl... more Digital whole slide imaging is the anticipated future of anatomic pathology, where sign-out of glass slides will be replaced by scanned images. Whole slide imaging has been successfully used in surgical pathology, but its usefulness and clinical application have been limited in cytology for several reasons, including lack of availability of z-axis depth focusing and large file size. Recently, several systems have become available in the United States for whole slide imaging with z-axis technology. To determine the accuracy and efficiency of whole slide imaging, as compared with traditional glass slides, for use in cervicovaginal diagnostic cytology. Eleven cervicovaginal cytology cases (ThinPrep and SurePath) scanned at ×20, ×40, and ×40 z-stack magnifications using the BioImagene iScan Coreo Au 3.0 scanner were evaluated by 4 cytotechnologists and 3 pathologists in a blinded study. Different magnification scans were recorded as separate cases and presented in a randomized sequence. Corresponding glass slides were also reviewed. For each case, the diagnoses and total time to reach each diagnosis were recorded. Diagnostic accuracy was higher and average time per case was lower with glass slides as compared with all digital images. Among the digital images, the ×40 or ×40 z-stack had the highest diagnostic accuracy and lowest interpretation time. Whole slide imaging is a viable option for the purposes of teaching and consultations, and as a means of archiving cases. However, considering the large file size and total time to reach diagnosis on digital images, whole slide imaging is not yet ready for daily cervicovaginal diagnostic cytology screening use.
Journal of the American Society of Cytopathology, 2015