evere infection with COVID-19 has been linked to immune dysregulation, including impaired or delayed production of type I and type III interferons 1-5 , marked lymphopenia [6][7][8][9][10] and a paradoxical increase in pro-inflammatory cytokines, such as TNF-α, IL-1β and IL-6 1,4,6,[11][12][13] . Alteration of T cell compartments include increases in effector and activated CD4 and CD8 T cells [14][15][16][17] , CD8 + T cells contribute to survival in patients with COVID-19 and hematologic cancer
A concerted commitment across research stakeholders is necessary to increase equity, diversity, and inclusion (EDI) and address barriers to cancer clinical trial recruitment and participation. Racial and ethnic diversity among trial participants is key to understanding intrinsic and extrinsic factors that may affect patient response to cancer treatments. This ASCO and Association of Community Cancer Centers (ACCC) Research Statement presents specific recommendations and strategies for the research community to improve EDI in cancer clinical trials. There are six overarching recommendations: (1) clinical trials are an integral component of high-quality cancer care, and every person with cancer should have the opportunity to participate; (2) trial sponsors and investigators should design and implement trials with a focus on reducing barriers and enhancing EDI, and work with sites to conduct trials in ways that increase participation of under-represented populations; (3) trial sponsors, researchers, and sites should form long-standing partnerships with patients, patient advocacy groups, and community leaders and groups; (4) anyone designing or conducting trials should complete recurring education, training, and evaluation to demonstrate and maintain cross-cultural competencies, mitigation of bias, effective communication, and a commitment to achieving EDI; (5) research stakeholders should invest in programs and policies that increase EDI in trials and in the research workforce; and (6) research stakeholders should collect and publish aggregate data on racial and ethnic diversity of trial participants when reporting results of trials, programs, and interventions to increase EDI. The recommendations are intended to serve as a guide for the research community to improve participation rates among people from racial and ethnic minority populations historically under-represented in cancer clinical trials. ASCO and ACCC will work at all levels to advance the recommendations in this publication.
Advances in cancer care have led to improved survival, which, coupled with demographic trends, have contributed to rapid growth in the number of patients needing cancer care services. However, with increasing caseload, care complexity, and administrative burden, the current workforce is ill equipped to meet these burgeoning new demands. These trends have contributed to clinician burnout, compounding a widening workforce shortage. Moreover, family caregivers, who have unique knowledge of patient preferences, symptoms, and goals of care, are infrequently appreciated and supported as integral members of the oncology “careforce.” A crisis is looming, which will hinder access to timely, high-quality cancer care if left unchecked. Stemming from the proceedings of a 2019 workshop convened by the National Cancer Policy Forum of the National Academies of Sciences, Engineering, and Medicine, this commentary characterizes the factors contributing to an increasingly strained oncology careforce and presents multilevel strategies to improve its efficiency, effectiveness, and resilience. Together, these will enable today’s oncology careforce to provide high-quality care to more patients while improving the patient, caregiver, and clinician experience.
Background Pharmacogenetic (PGx) testing for germline variants in the DPYD and UGT1A1 genes can be used to guide fluoropyrimidine and irinotecan dosing, respectively. Despite the known association between PGx variants and chemotherapy toxicity, preemptive testing prior to chemotherapy initiation is rarely performed in routine practice. Methods We conducted a qualitative study of oncology clinicians to identify barriers to using preemptive PGx testing to guide chemotherapy dosing in patients with gastrointestinal malignancies. Each participant completed a semi-structured interview informed by the Consolidated Framework for Implementation Research (CFIR). Interviews were analyzed using an inductive content analysis approach. Results Participants included sixteen medical oncologists and nine oncology pharmacists from one academic medical center and two community hospitals in Pennsylvania. Barriers to the use of preemptive PGx testing to guide chemotherapy dosing mapped to four CFIR domains: intervention characteristics, outer setting, inner setting, and characteristics of individuals. The most prominent themes included 1) a limited evidence base, 2) a cumbersome and lengthy testing process, and 3) a lack of insurance coverage for preemptive PGx testing. Additional barriers included clinician lack of knowledge, difficulty remembering to order PGx testing for eligible patients, challenges with PGx test interpretation, a questionable impact of preemptive PGx testing on clinical care, and a lack of alternative therapeutic options for some patients found to have actionable PGx variants. Conclusions Successful adoption of preemptive PGx-guided chemotherapy dosing in patients with gastrointestinal malignancies will require a multifaceted effort to demonstrate clinical effectiveness while addressing the contextual factors identified in this study.
Gastrointestinal (GI) malignancies are among the most commonly diagnosed cancers worldwide. Despite the introduction of targeted and immunotherapy agents in the treatment landscape, cytotoxic agents, such as fluoropyrimidines and irinotecan, remain as the cornerstone of chemotherapy for many of these tumors. Pharmacogenetics (PGx) is a rapidly evolving field that accounts for interpatient variability in drug metabolism to predict therapeutic response and toxicity. Given the significant incidence of severe treatment-related adverse events associated with cytotoxic agents, utilizing PGx can allow clinicians to better anticipate drug tolerability while minimizing treatment interruptions or delays. In this review, the PGx profiles of drug-gene pairs with potential impact in GI malignancy therapy-DPYD-5-fluorouracil/capecitabine and UGT1A1-irinotecanand the available clinical evidence of their roles in reducing severe adverse events are discussed. Considerations for clinical implementation, such as optimal laboratory workflows, electronic health record integration, and stakeholder engagement, as well as provider education, are addressed. Last, exploratory PGx markers in GI malignancy treatment are described. As the PGx knowledge base rapidly evolves, pharmacists will be vital in leveraging their pharmacology knowledge and clinical skills to implement PGx testing in the clinic.
Cancer patients have increased morbidity and mortality from Coronavirus Disease 2019 (COVID-19), but the underlying immune mechanisms are unknown. In a cohort of 100 cancer patients hospitalized for COVID-19 at the University of Pennsylvania Health System, we found that patients with hematologic cancers had a significantly higher mortality relative to patients with solid cancers after accounting for confounders including ECOG performance status and active cancer status. We performed flow cytometric and serologic analyses of 106 cancer patients and 113 non-cancer controls from two additional cohorts at Penn and Memorial Sloan Kettering Cancer Center. Patients with solid cancers exhibited an immune phenotype similar to non-cancer patients during acute COVID-19 whereas patients with hematologic cancers had significant impairment of B cells and SARS-CoV-2-specific antibody responses. High dimensional analysis of flow cytometric data revealed 5 distinct immune phenotypes. An immune phenotype characterized by CD8 T cell depletion was associated with a high viral load and the highest mortality of 71%, among all cancer patients. In contrast, despite impaired B cell responses, patients with hematologic cancers and preserved CD8 T cells had a lower viral load and mortality. These data highlight the importance of CD8 T cells in acute COVID-19, particularly in the setting of impaired humoral immunity. Further, depletion of B cells with anti-CD20 therapy resulted in almost complete abrogation of SARS-CoV-2-specific IgG and IgM antibodies, but was not associated with increased mortality compared to other hematologic cancers, when adequate CD8 T cells were present. Finally, higher CD8 T cell counts were associated with improved overall survival in patients with hematologic cancers. Thus, CD8 T cells likely compensate for deficient humoral immunity and influence clinical recovery of COVID-19. These observations have important implications for cancer and COVID-19-directed treatments, immunosuppressive therapies, and for understanding the role of B and T cells in acute COVID-19.
The Oncology Care Model (OCM) is a 5-year model developed and tested by the Centers for Medicare & Medicaid Services that uses an episode-based payment model triggered by the receipt of chemotherapy to test if changing payment mechanisms, in conjunction with a requirement for enhanced patient services, can generate clinical transformation that will orient practices toward more patient-centered, high-value care to reduce expenditures and preserve or enhance quality of care for beneficiaries. The model is geographically diverse with practices in 34 states and encompasses practices ranging in size from 1 to more than 400 practitioners, with a multitude of business structures. Given these varied clinical and business environments, we believe that OCM-participating practices will have different opportunities and challenges as they work toward practice transformation, but they will likely share similarities with other practices in similar clinical and business settings. This commentary shares the experiences of four diverse groups participating in OCM—three practices and one network of practices—halfway through the model’s projected 5-year life cycle in the expectation that these experiences will be of value to other practices embarking toward patient-centered, high-value practice transformation.
95 Background: Oncology Advanced Practitioners (APs), including Nurse Practitioners, Physician Assistants, Clinical Nurse Specialists, and Pharmacists are highly trained health care providers that contribute significantly to quality cancer care. Given low clinical trial enrollment among adult oncology patients, understanding current research responsibilities of APs could lead to identification of opportunities to leverage this workforce to enhance accrual and conduct of clinical trials. Methods: A 65-item validated survey addressing attitudes, beliefs and responsibilities of oncology APs participating in clinical research was distributed from January 22 through March 6, 2020. Outreach via the Association of Community Cancer Centers (ACCC) and Harborside was utilized to reach a sample set of 14,601 oncology APs’ emails. The survey was administered and data were analyzed using Survey Monkey. Results: 408 U.S. oncology APs completed the survey. Respondents were primarily white (83%), female (92%) and nurse practitioners (71%). Thirty-five percent practiced in an academic setting and 62% practiced in a community setting. Nearly all respondents believed that clinical trials are important to improve oncology care standards and more than 90% reported that clinical trials were available at their practice. Nearly 80% reported that they are comfortable discussing treatment options with patients, discussing clinical trials in general, and know where to find clinical trials. Furthermore, 80% participate in the care of patients enrolled on clinical trials. Only 60%, however, are comfortable discussing trials available at their practice and only 38% routinely explore whether a clinical trial is available for their patients. While 70% of APs approach eligible patients about clinical trials at their practice, only 20% reported doing so “a great deal” or “a lot”. Ninety percent of APs reported that they should play a role in clinical research and 75% would like to be more involved in the clinical trial process. Barriers to greater involvement in clinical trials include lack of time, inadequate awareness of clinical trial specifics, and under-representation on research committees. Conclusions: The majority of oncology APs are engaged and interested in clinical trials and believe that research is important to improve cancer care. However, they are not being utilized to their full scope. Multidisciplinary team integration, trials-related education, and policy change is needed to allow this group of skilled professionals to realize their full potential within cancer clinical trials.
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