Patients with metastatic lung adenocarcinoma may not be getting the correct molecular biomarker testing prior to first-line therapy. We implement reflex ordered testing for molecular biomarkers at time of pathologic diagnosis of lung adenocarcinoma. We retrospectively compared reflex ordered testing to standard molecular testing. Reflex ordered testing lead significantly shorter turnaround time and higher variant detection rate. Introduction: In order to standardize and expedite molecular biomarker testing, we implemented reflex ordered testing of targeted gene alterations in newly diagnosed lung adenocarcinomas within our hospital system. Patients and Methods: Reflex ordered testing of specific molecular biomarkers at the time of pathologic diagnosis of lung adenocarcinoma was approved and adopted system-wide in our hospital during 2017. Through institutional review board approval, we retrospectively looked at cohort of patients whose specimens received a diagnosis of lung adenocarcinoma, with molecular biomarker testing performed at Houston Methodist Hospital between 2016 and 2018. We compared average turnaround time (TAT) from 2016 (prior to reflex ordered testing) to 2017 and 2018 (post reflex ordered testing). Results: Standard molecular testing performed on 39 patients in 2016 had an average TAT of 52.6 days, whereas reflex ordered molecular testing in 2017 yielded an average TAT of 26.5 days (n ¼ 127) and 15.6 days in 2018 (n ¼ 54). The average TAT for reporting of molecular results significantly decreased by 37 days (P ¼ .0002) within our hospital system post adoption of reflex ordered testing for lung adenocarcinoma. Reflex ordered testing also resulted in a higher variant detection rate than standard molecular biomarker ordering practices (48.8% vs. 25.6%; P < .05). Overall, the frequencies and types of variants identified among our cohort were similar to previous reports. Conclusions: Reflex ordered testing of molecular biomarkers in lung adenocarcinoma led to significantly decreased TAT within our hospital system and higher detection rates of targeted gene alterations.
Pathology training programs throughout the United States have endured unprecedented challenges dealing with the ongoing coronavirus disease 2019 pandemic. At Houston Methodist Hospital, the Department of Pathology and Genomic Medicine planned and executed a trainee-oriented, stepwise emergency response. The focus was on optimizing workflows among areas of both clinical and anatomic pathology, maintaining an excellent educational experience, and minimizing trainee exposure to coronavirus disease 2019. During the first phase of the response, trainees were divided into 2 groups: one working on-site and the other working remotely. With the progression of the pandemic, all trainees were called back on-site and further redeployed within our department to meet the significantly increased workload demands of our clinical laboratory services. Adjustments to trainee educational activities included, among others, the organization of a daily coronavirus disease 2019 virtual seminar series. This series served to facilitate communication between faculty, laboratory managers, and trainees. Moreover, it became a forum for trainees to provide updates on individual service workflows and volumes, ongoing projects and research, as well as literature reviews on coronavirus disease 2019–related topics. From our program’s experience, redeploying pathology trainees within our department during the coronavirus disease 2019 pandemic resulted in optimization of patient care while ensuring trainee safety, and importantly, helped to maintain continuous high-quality education through active involvement in unique learning opportunities.
Baboons, rhesus monkeys, and chimpanzees were injected with the human immunodeficiency virus (HIV) and monitored for up to 4 years. Various immunosuppressive regimens were used during this time in attempts to induce development of the acquired immune deficiency syndrome (AIDS). No infectious virus was recovered or anti-HIV antibodies detected in the baboons and rhesus monkeys. Virus has been recovered from lymphocyte cultures of all five of the chimpanzees at intermittent periods following inoculation. The chimpanzees developed anti-HIV antibodies from 1 to 5 months after virus inoculation and had circulating antibodies that neutralized HIV. All the infected animals were capable of in vitro lymphocyte blastogenic responses to recombinant envelope and core HIV antigens. Despite immunosuppressive therapies and evidence of some immunologic abnormalities, none of the five chimpanzees has yet developed AIDS or a related disorder.
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