key: cord-0904548-u4uob83v authors: West, Howard Jack; Tan, Yuan Angela; Barzi, Afsaneh; Wong, Debra; Parsley, Robert; Sachs, Todd title: Novel Program Offering Remote, Asynchronous Subspecialist Input in Thoracic Oncology: Early Experience and Insights Gained During the COVID-19 Pandemic date: 2021-12-07 journal: JCO Oncol Pract DOI: 10.1200/op.21.00339 sha: 1d1c0551e59b22ddade2608ef2805001aece6482 doc_id: 904548 cord_uid: u4uob83v AccessHope is a program developed initially by City of Hope to provide remote subspecialist input on cancer care for patients as a supplemental benefit for specific payers or employers. The leading platform for this work has been an asynchronous model of review of medical records followed by a detailed assessment of past and current management along with discussion of potential future options in a report sent to the local oncologist. This summary describes an early period of development and growth of this service, focusing on cases of lung cancer, particularly during the COVID-19 pandemic. METHODS: Cases were primarily identified by a trigger list of cancer diagnoses that included non–small-cell lung cancer and small-cell lung cancer. After medical records were obtained, a summary narrative was provided to a thoracic oncology specialist who wrote a case review sent to the local physician, followed by a direct discussion with the recipient. We focused on feasibility as measured by case volumes, the rates of concordance between the subspecialist reviewer with the local team, and cost savings from recommended changes, using descriptive statistics. RESULTS: From April 2019 to November 2020, 110 cases were reviewed: 55% male, median age 62.5 years (range, 33-92 years); 82% non–small-cell lung cancer (12% stage I or II, 16% stage III, and 57% stage IV), and 17% small-cell lung cancer (4% limited and 14% extensive). Median turnaround time for report send-out was 5.0 days. The review agreed with local management in 79 (72%) cases and disagreed in 31 (28%) cases; notably, specific additional recommendations were associated with evidence-based anticipated improvements in efficacy in 76 cases (69%) and improvement in potential for cure in 14 cases (13%). Recommendations leading to cost savings were identified in 14 cases (13%), translating to a projected cost savings of $19,062 (USD) per patient for the entire cohort of patient cases reviewed. CONCLUSION: We demonstrate the feasibility of completing a rapid turnaround of cases of lung cancer either patient-initiated for review or prospectively triggered by diagnosis and stage. This program of asynchronous second opinions identified evidence-based management changes affecting current treatment in 28% and potential improvements to improve care in 92% of patients, along with cost savings realized by eliminating low-value interventions. WHAT WE DID: AccessHope, a remote consult and educational support service developed as a subsidiary of City of Hope Comprehensive Cancer Center working with client companies and selected medical insurers, retrospectively analyzed submissions over an interval of just over 1.5 years for the program. This effort focused on case volumes and key findings within thoracic oncology for potential candidates throughout the United States. Specifically, the focus of this review was on patient characteristics, the degree of concordance between subspecialist recommendations from the reviewer with management plans by the local oncology team, the anticipated clinical benefit and cost savings of new recommendations, and the patterns of molecular marker testing, routine positron emission tomography-computed tomography surveillance, and reported patient frailty or poor performance status limiting the ability of patients to pursue treatment approaches otherwise considered as standard of care. WHAT WE FOUND: Cases represented a broad range of thoracic oncology, comprising the spectrum of clinical stages of small-cell lung cancer and non-small-cell lung cancer, including a range of histologic subtypes. Molecular marker testing was rare in small-cell lung cancer and far more common for nonsquamous than squamous non-small-cell lung cancer, more commonly pursued with increasing stage; routine use of positron emission tomography-computed tomography surveillance was pursued in 11% of cases; 19% of the patient cohort was identified by their care team as having a performance status that precluded treatment that would have otherwise been standard of care. BIAS, CONFOUNDING FACTORS, DRAWBACKS: These findings represented a limited cohort of patients who are both insured and provided supplemental case review services through their employer or medical insurer, limiting the generalizability of these findings to a patient population with less support and fewer resources. In addition, we do not have data to speak to the level of satisfaction with the program among patients or physicians who received the reviews featuring recommendations, nor do we know the extent to which suggested changes in management were implemented in practice; however, AccessHope is developing processes to assess satisfaction among other stakeholders and clarify the degree to which recommendations are adopted. The AccessHope model of faculty from an National Cancer Institute-designated cancer center in a specific cancer type reviewing medical records to provide recommendations to local oncologists throughout the United States offers the opportunity to integrate subspecialist insight and support for remote cases without requiring patient travel and with a focus on having most patients receive their care through their local cancer care team, close to home. This service was compatible with the travel restrictions introduced by the COVID-19 pandemic and grew despite the limitations imposed over the time interval. AccessHope is now transitioning to a network of several geographically distributed foundational partner institutions equipped to scale the increased case volume conferred by new client partners and insurers. This novel platform offers a strategy for effective educational support for patients and physicians across the United States to avail themselves of the latest rapidly evolving changes in cancer subtype-specific care without requiring patients to travel or receive most care away from their local environment and support system. abstract PURPOSE AccessHope is a program developed initially by City of Hope to provide remote subspecialist input on cancer care for patients as a supplemental benefit for specific payers or employers. The leading platform for this work has been an asynchronous model of review of medical records followed by a detailed assessment of past and current management along with discussion of potential future options in a report sent to the local oncologist. This summary describes an early period of development and growth of this service, focusing on cases of lung cancer, particularly during the COVID-19 pandemic. METHODS Cases were primarily identified by a trigger list of cancer diagnoses that included non-small-cell lung cancer and small-cell lung cancer. After medical records were obtained, a summary narrative was provided to a thoracic oncology specialist who wrote a case review sent to the local physician, followed by a direct discussion with the recipient. We focused on feasibility as measured by case volumes, the rates of concordance between the subspecialist reviewer with the local team, and cost savings from recommended changes, using descriptive statistics. RESULTS From April 2019 to November 2020, 110 cases were reviewed: 55% male, median age 62.5 years (range, 33-92 years); 82% non-small-cell lung cancer (12% stage I or II, 16% stage III, and 57% stage IV), and 17% small-cell lung cancer (4% limited and 14% extensive). Median turnaround time for report send-out was 5.0 days. The review agreed with local management in 79 (72%) cases and disagreed in 31 (28%) cases; notably, specific additional recommendations were associated with evidence-based anticipated improvements in efficacy in 76 cases (69%) and improvement in potential for cure in 14 cases (13%). Recommendations leading to cost savings were identified in 14 cases (13%), translating to a projected cost savings of $19,062 (USD) per patient for the entire cohort of patient cases reviewed. CONCLUSION We demonstrate the feasibility of completing a rapid turnaround of cases of lung cancer either patient-initiated for review or prospectively triggered by diagnosis and stage. This program of asynchronous second opinions identified evidence-based management changes affecting current treatment in 28% and potential improvements to improve care in 92% of patients, along with cost savings realized by eliminating lowvalue interventions. With advances in cancer care arriving at an escalating pace, additional input from second opinions may provide invaluable insight, particularly if conferred by a subspecialist in a limited area of oncology. Reviews of second opinions in general, 1,2 as well as telemedicinebased second opinions in particular, 3 reveal that they are sought to provide additional certainty, supplemental communication, more personalized attention, and potential identification of novel management options; diagnostic or therapeutic discrepancies are identified in a significant fraction (2%-69%) of cases. [1] [2] [3] AccessHope is a subsidiary of City of Hope Comprehensive Cancer Center that provides remote subspecialist input on wide range of different cancer subtypes, most commonly offered as a supplemental employee benefit for specific companies or health care Author affiliations and support information (if applicable) appear at the end of this article. payers. Evaluations are commonly conducted as an asynchronous review of medical records, without patient travel required, followed by a detailed assessment of prior and current management along with recommendations for subsequent testing and treatment options. Importantly, patients may seek a remote opinion, but most cases are proactively identified on the basis of the anticipated impact of potential management changes on the basis of the diagnosis and stage of a cancer for which the prognosis is often unfavorable and practice patterns are dynamic. The reports are provided directly to the primary medical team, a strategy providing subspecialist guidance that typically incorporates treatment plans amenable to ongoing management close to their home and support system. The feasibility of such an approach has yet to be clarified, but restrictions on mobility and direct access as a consequence of the COVID-19 pandemic only made it more challenging for people to seek additional opinions in person, raising the appeal of a remote alternative that offers an individualized assessment for patients. The purpose of this descriptive analysis is to retrospectively evaluate the cohort of patients with lung cancer whose cases were reviewed during the early period of this program, from April 2019 through November 2020. The focus of this work is on case volumes, rates of concordance versus alternative management recommendations compared with the plans from the local medical team, projected improvements in outcomes that may include cost savings, and observed clinical patterns that may be compared with published series from clinical trials. This work demonstrates the feasibility and growth of the program despite the practical challenges introduced by the COVID-19 pandemic and reveals opportunities for its ongoing evolution as AccessHope transitions into a network of geographically decentralized tertiary care institutions. Client companies or medical payers (see Appendix Fig A1 , online only for distribution) retain AccessHope to offer expert reviews for their insured employees and dependents, in which AccessHope provides detailed reviews that may become eligible through either of two paths. First, cases may be identified proactively through the Accounfig Precision Oncology (APO) program on the basis of prior authorizations and claims submissions identifying the top 20% of complex cancers, to address significant variability in treatment patterns and outcomes. This proactive process is designed to expedite identification of cases for which timely input is critical, including diagnosed lung cancer across many stages. Alternatively, a limited subset of client companies offers a program called Expert Advisory Review, a patient-initiated service in which participants with any cancer diagnosis can request a review of their case materials and request answers to specific questions so that their reviewer can suggest management options to their treating physician. This review includes cases of non-small-cell lung cancer (NSCLC), small-cell lung cancer (SCLC), or other chest malignancies that were conducted from April 2019 through November 2020. The process of collecting data, performing the case review, and sending completed reports is summarized in Figure 1 . Once needed medical records were collected for each case, they were reviewed by an oncology specialist nurse who developed a synopsis of the chronology and key data; the Clinical Operations team then worked with an Access Hope oncologist as needed to identify the most relevant clinical expert(s) in hematology or oncology, radiation oncology, surgery, or potentially other experts who serve as active faculty at City of Hope to review the case. The narrative summary and original records are sent securely to the expert(s), who offer written commentary on the workup, prior therapy, current plans, and future management options for the patient. Upon completion, reports undergo review and editing for quality control by a nurse practitioner followed by an additional hematology or oncology specialist on the Acces-sHope team before they are sent to the local physician in all cases, with a copy also sent to the requesting patient for Expert Advisory Review cases. The key components of a completed report are illustrated in Appendix Figure A2 (online only). For APO cases, the AccessHope team coordinates a call between an AccessHope physician and the oncologist or other leading member of the treatment team coordinating the patient's care. This is pursued to directly discuss the report and interval events in the patient's care, as well as to facilitate outreach back to AccessHope by the local physician in the future in the event that any further communication could be helpful. Metrics for each case were assessed in multiple dimensions, generally by a team of two or more physicians reviewing case reports and agreeing on an assignment of these metrics on the basis of defined criteria enumerated in the Appendix 1. The level of concordance of the expert reviewer with the planned management ranged from agreement (without additional recommendations) to disagreement, with significant recommendations. Notably, all categories other than agreement include additional recommendations anticipated to improve outcomes for the patient's care. In addition, recommendations for a change in diagnosis or stage, treatment, additional testing or specifically precision medicine, a clinical trial, or other management recommendations such as bone-directed therapy were tabulated. Humanistic outcomes such as an anticipated reduction in side effects or long-term complications, improvement in patient support or distress, and potential improvement in anticipated survival or cure rate on the basis of evidencebased recommendations were recorded. Finally, anticipated cost savings from overutilization or inappropriate utilization of services (such as imaging or treatment interventions) not supported as an appropriate standard of care was identified. Cost savings were valued (in US dollars) on the basis of differences in the cost of the plan by the treatment team compared with that proposed by Access Hope. In keeping with established practices, 4 we relied on the methodology for measuring return on investment for oncology pathways. Specifically, savings are based on a payer perspective and account for direct costs associated with treatments and procedures, whereas for chemotherapy or supportive care agents, savings are associated with the drug reimbursement. Costs are based on Medicare reimbursement fees and adjusted with a conversion factor for private carriers. Cost savings are only captured for future activities; assessments or treatments that were delivered and completed were not subject to savings. This project was submitted to the institutional review board and determined to be exempt. The aims of this analysis are as follows: 1. To assess the changes in case volumes and characterize the stage and histologic distribution of remote consultations for lung cancer over time during the interval noted above. 2. To evaluate the level of concordance of subspecialist expert recommendations in remote consults on cases compared with management pursued or proposed by the local medical team for the case. 3. To identify the proportion of patients with anticipated improvements in clinical outcomes. 4. To identify trends in patterns on the basis of aggregate review of cases, including molecular marker testing, surveillance with positron emission tomographycomputed tomography (PET-CT), and marginal performance status limiting treatment options. These variables were characterized using descriptive statistics. A total of 110 cases with a diagnosis of NSCLC or SCLC were reviewed during the interval being evaluated, the majority (107 [97%]) coming through the APO program. As shown in Figure 2 , case volume increased over time, despite the disruption of workflows and many health care processes and workups in the spring of 2020, albeit with marked variation month to month because of variance in client company case input. The characteristics of patients for whom reviews were conducted are shown in Table 1 . The median turnaround time from receipt of the case materials by the expert to the report being sent to the local oncologist or other intended recipient was 5.0 days. Multidisciplinary reviews were conducted for 3 of 110 cases (3%). At the time of the case review, 14 (13%) patients had not initiated treatment for their current treatment stage and setting, 68 (62%) were receiving or had received their primary treatment without progression, and 28 (25%) had disease progression and were receiving or planned to receive second line or later treatment. The distribution of concordance by the AccessHope expert with the recommendations from the local oncology team for the cohort of cases is illustrated in Appendix Figure A3 . The most common level of concordance was agreement, with minor recommendations in 71 cases (65%); followed by disagreement, with moderate recommendations in 25 cases (23%); agreement, with no recommendations in eight cases (7%); and disagreement, with significant recommendations in six cases (5%). The recommendations were associated with evidence-based anticipated improvements in efficacy in 76 cases (69%) and improvement in potential for cure in 14 cases (13%, only feasible in patients with curable disease). Examples of suggested changes for the 31 cases (28%) with disagreement are briefly summarized in Appendix Table A1 (online only). Recommendations accompanied by cost savings were identified in 14 cases (13%), with a total cost savings of $149,776 (USD) per patient within this subset, or $19,062 (USD) per patient for the full cohort of cases reviewed. Molecular testing patterns. As shown in Figure 3 , molecular marker testing was rare in SCLC, ordered for only one of 19 (5%) cases of SCLC, consistent with the lack of any clear role for it in this setting. 5 For patients with NSCLC, molecular marker testing was more commonly ordered for patients with nonsquamous compared with squamous NSCLC at all stages (66% and 0% for early-stage nonsquamous and squamous NSCLC, respectively; 57% v 25% for stage III nonsquamous and squamous NSCLC, respectively; 94% v 75% for stage IV nonsquamous NSCLC, respectively) and most commonly ordered for stage IV NSCLC, all consistent with clinical guidelines. 5 Routine surveillance with PET-CT. Among the cohort of 110 cases, surveillance PET-CT scans were identified as the prevailing imaging studies to assess ongoing treatment response in 12 cases (11%). In these cases, the reviews noted that there is no evidence demonstrating that PET-CT offers a significant incremental benefit in terms of clinical outcomes and that routine monitoring of response by CT may be an appropriate alternative. Frail or marginal performance status. A total of 21 patients (19%) were identified by their local cancer care team as having a poor performance status, as reflected in clinic notes, limiting treatment considerations relative to standard of care for more fit patients. Although this cohort included nine patients (8%) age 80 years or older, only three (33%) of this subset were noted to be frail enough on the basis of clinic notes to limit the treatment recommendations. The program developed by AccessHope represents a new model for cancer care that remotely incorporates input from a subspecialist oncologist into a report to a patient's local medical team, thereby enabling delivery of optimal care without an expectation that a patient present to a tertiary care center. Our experience over slightly more than 1.5 years demonstrates that this model is not only feasible to implement but revealed increasing uptake over that time, despite disruption of workflows and many health care processes throughout much of 2020. 6 Reviewing the results of these reports in aggregate demonstrated that although our expert agreed with the general management approach in the majority (72%) of cases, 92% of cases included recommendations to refine management, largely on the basis of strategies for surveillance, subsequent treatment options, surveillance, and/or supplemental evidence-based recommendations such as bone-directed therapy for patients with bone metastases. Two-thirds of cases included recommendations for current or future care associated with an anticipated improvement in efficacy, and 13% included a proposed plan associated with improved chance of cure. Moreover, even when commenting on past management, identifying teaching points for completed therapies is prone to improve outcomes for other patients treated by the same physician; similarly, outlining and suggesting optimal subsequent therapy options for a patient is not recorded as discordant with current therapy but stands to improve that patient's outcome later, while also providing guidance that can also be translated to many other patients. Overall, for more than one of every four cases, expert recommendations proposed an alternative management approach for current treatment associated with a significantly superior survival on the basis of available data. Moreover, by recommending against lowvalue imaging or treatments that are not concordant with clinical guidelines for that setting, marked cost savings could be identified that averaged more than $19,000 (USD) per patient. Surveying the broad range of case materials submitted also affords an opportunity to understand the features of the patient population and clinical decision making of a diverse array of oncology practice across the United States. Through this lens, we observed that PET scan-based imaging was pursued or planned to assess for response or progression in 11% of cases despite it having no demonstrated incremental benefit over CT scan surveillance. We noted that 19% of patients were limited by marginal or poor performance status for which individualized judgment is left to fill the void of scant clinical evidence; importantly, this proportion is based on local assessment and includes only the subset of patients for whom their functional status was specifically documented within clinic notes as poor candidates for standard therapies favored for more fit patients. Assessment of molecular testing patterns revealed that testing in this broad sample far exceeded that reported in some prior reports 7-9 ; overall, even very recent broad data sets have shown that community-based molecular marker testing follows clinical guidelines in , 50% of cases. 9 Consistent with clinical guidelines, molecular testing was far more likely to be ordered for patients with NSCLC than SCLC, more commonly ordered for advanced-compared with early-stage disease, and more likely to be ordered in patients with nonsquamous versus squamous NSCLC histology. We must also acknowledge the limitations of this work. First, this analysis represents a growing but still relatively small cohort that limits our ability to draw strong conclusions about patient features or practice patterns; our ability to see these with greater resolution will undoubtedly improve as the size of this cohort grows with the trajectory of this program. Findings are also gleaned from a population of patients who are not only insured but have an employer or insurance payer providing a high level of support; the observations cannot be extrapolated to a broader population of uninsured or underinsured patients in the United States. In addition, the expert input has been provided by only a limited group of experts in this early interval of the program. Given the value in obtaining input from a plurality of experts as well as the steadily growing case volume, the AccessHope program is now increasingly distributing cases not only among City of Hope faculty but also to faculty that include two additional National Cancer Institute-designated cancer centers (Northwestern Medicine and Dana-Farber Cancer Institute) as foundational partners, with others planned, to create a geographically diverse network of experts reviewing an escalating number of candidate cases. Importantly, we do not directly assess patient or local physician satisfaction, nor the rates at which articulated recommendations have been followed or clinical outcomes associated with them. AccessHope is striving to pursue follow-up at one or more defined time points, which should enable us to assess which recommendations have been pursued in the interval since the initial review was submitted. Those interested in these services may question whether this work constitutes telemedicine that would require physicians to be licensed by the state in which the patient is located. AccessHope provides educational and support services to the local treating physicians who are licensed in the state where the patient resides and who provide direct care for the patient. AccessHope does not establish a doctor-patient relationship, provide care, or practice telemedicine. Therefore, although patients may be located throughout the United States, there is no requirement for AccessHope physicians to be licensed in the state in which a specific patient resides. Multiple mechanisms for second opinions exist to provide reassurance to patients and potentially their care team, although the experience of many of these programs has not been summarized and published. As one option with some similarities to AccessHope, Meyer et al 10 describe their experience with an asynchronous patient-initiated second opinion service (Best Doctors) covering all aspects of medicine that included 588 patients with hematology or oncology diagnoses, with opinions in this subset estimated to have moderate or major clinical impact in 38% of cases. Another option that provides a multidisciplinary approach is virtual tumor boards or case conferences, which have been pursued for testicular cancer, 11 sarcoma, 12 and lung cancer, 13 with success in improving care while overcoming geographic barriers. AccessHope has prioritized proactive identification of cases with high potential for impact by triggering cases on the basis of diagnosis and stage, with a rationale that many patients and oncologists may be unaware of when supplemental subspecialist input could improve outcomes. Only 3% of our reviewed cases with lung cancer were patient-initiated, likely reflecting the disinclination of so many patients with cancer, often particularly patients with lung cancer, to seek a second opinion. 14 The AccessHope program is also designed to minimize turnaround time and maximize flexibility to accommodate a variable volume of patients with a potentially wide array of cancer diagnoses. Although a regular cadence of multidisciplinary tumor boards or case conferences could potentially provide support for patients with specific tumor types, this incurs a delay before feedback is available, cannot be readily offered across a wide range of tumor types simultaneously, and is challenging to modulate in response to variable patient volumes over time. As new employers contract with this AccessHope network, this program can offer oncologists in practice the input and support of a subspecialist while preserving the autonomy of the local medical team, without requiring patient travel, and keeping the patient's care close to home. Agree, with minor recommendations. The clinical expert has recommendations for additional tests, interventions, or changes in management that are not associated with significant evidence-based improvements in cancer outcome and may be secondary to anticancer treatment and/or on the basis of preference. Disagree, with moderate recommendations. The clinical expert recommends a change in anticancer therapy that is anticipated to be associated with an evidence-based, clinically significant improvement in cancer outcome, whether greater efficacy or reduced toxicity or both; OR the clinical expert recommends a management plan in the absence of any default treatment recommendations by the local medical team. Disagree, with significant recommendations. The clinical expert recommends a change in anticancer therapy that is anticipated to be associated with an evidence-based, clinically significant improvement in cancer outcome that is provided as an alternative to a treatment plan by the local medical team that is associated with greater anticipated harm than benefit or represents a treatment plan clearly below the standard of care for that clinical setting. Medical records including most recent three clinic notes from relevant specialists (as applicable), pathology reports including all molecular marker testing, and initial and most recent imaging reports for each case were requested as pdf files, although an original history and physical examination and any additional relevant records were also welcomed. Imaging and pathology were reviewed on the basis of reports and not direct review of source materials. Favored chemoimmunotherapy combination as optimal first-line standard of care for stage IV NSCLC without a driver mutation, potentially followed by consolidation local therapy if limited residual disease D Received pembrolizumab and radiation for T3N0M0 NSCLC invading chest wall, followed by chest wall resection with path CR, followed by ongoing pembrolizumab for more than two years despite pneumonitis and postoperative persistent air leaks requiring repeat surgery Advised of the lack of evidence to support ongoing adjuvant pembrolizumab, particularly in the absence of residual viable cancer and with significant treatment-related complications E Unresectable stage IIIB NSCLC with plan for total of four cycles of chemotherapy and concurrent chest radiation to 76 Gy; no mention of consolidation durvalumab Recommended against consolidation chemotherapy for which there is no evidence; also, advised radiation dose exceeds evidence-based guidelines; favored consideration of consolidation durvalumab F Multifocal lung nodules being treated as stage IIIA NSCLC on right, proposed to receive cCRT followed by surgery 6 postoperative durvalumab, along with SBRT to left-sided lesion Favored biopsy of left-sided disease to compare pathologic findings, brain MRI to complete staging, benefit of doubt to patient for staging, but favor durvalumab, not surgery after cCRT G SCLC with T9 lesion proposed to receive cCRT with atezolizumab, followed by maintenance atezolizumab, as well as denosumab for prophylaxis against skeletal-related events Strongly favored brain MRI to complete staging, then reasonable if negative to treat as LS-SCLC, as radiation can be all within one port, with cCRT, while omitting immunotherapy if treating as LS-SCLC Favor lurbinectedin as next treatment option on the basis of short CFI, rather than return to same chemotherapy, which is more favored after longer CFI; consider denosumab for bone metastases CC Extensive-stage SCLC with symptomatic brain metastases and bone metastases, started on chemotherapy/durvalumab, not yet treated with local therapy for brain metastases Recommend close surveillance of intracranial disease and likely need for local therapy of whole-brain radiation therapy or possibly stereotactic radiosurgery; consider denosumab for bone metastases DD Stage IV disease with oligometastatic focus of likely pericardial nodule, PET-avid, receiving cCRT to total radiation dose 50.4 Gy, then potential right pneumonectomy Highlighted risk of right pneumonectomy, particularly for what appears to be stage IV disease, favoring cCRT to higher dose of radiation followed by durvalumab, or chemotherapy/immunotherapy for stage IV EE Stage III NSCLC, completed two cycles of cisplatin/pemetrexed followed by same with chest radiation, undefined plans for subsequent management after cCRT Agreed that induction chemotherapy followed by cCRT is an appropriate strategy for some patients with stage III NSCLC, advised against consolidation chemotherapy and favored consolidation durvalumab FF Stage III NSCLC, recently started weekly carboplatin/paclitaxel with chest radiation, plan is articulated to give two additional cycles of chemotherapy, then durvalumab consolidation Noted that there is no evidence to support consolidation chemotherapy after cCRT, evidence only shows increased toxicity with no clinical benefit, favor transition to subsequent consolidation durvalumab next GG Stage IIIA N2 NSCLC, underwent neoadjuvant chemotherapy 3 four cycles, minor response on CT, surgery revealing 95% residual viable tumor and multiple positive N1 and N2 nodes Discussed lack of evidence of survival benefit but improvement in disease-free survival and local control with radiation; recommended testing for possible EGFR mutation and adjuvant osimertinib if detected Abbreviations: BSC, best supportive care; cCRT, chemoradiation; CFI, chemotherapy-free interval; CR, complete response; CT, computed tomography; EGFR, epidermal growth factor receptor; FOLFIRINOX, fluorouricil, leucovorin, irinotecan, oxaliplatin; LS-SCLC, limited stage small cell lung cancer; MRI, magnetic resonance imaging; NSCLC, non-small-cell lung cancer; PD, progression of disease; PD-L1, programmed death-ligand 1; PET, positron emission tomography; PS, performance status; RT, radiotherapy; SBRT, stereotactic body radiotherapy; s/p: status-post; VATS, video-assisted thoracoscopic surgery. Patient-driven second opinions in oncology: A systematic review Is there evidence for a better health care for cancer patients after a second opinion? A systematic review Outcome assessment for a telemedicine-based second opinion program for Midwest China Documenting the benefits and cost savings of a large multistate cancer pathway program from a payer's perspective National Comprehensive Cancer Network (NCCN): Clinical Guidelines in Non-small Cell Lung Cancer (version 3.2021). bit Cancer screening tests and cancer diagnoses during the COVID-19 pandemic Association of patient characteristics and tumor genomics with clinical outcomes among patients with non-small cell lung cancer using a clinicogenomic database The authors are grateful for the critical data support from Abhishek Kumar from AccessHope, as well as to Mark Stadler, Melissa Gilkerson, and Bridget Davis of AccessHope for critical review of the manuscript content. Novel Program Offering Remote, Asynchronous Subspecialist Input in Thoracic Oncology: Early Experience and Insights Gained During the COVID-19 PandemicThe following represents disclosure information provided by authors of this manuscript. All relationships are considered compensated unless otherwise noted. Relationships are self-held unless noted. I 5 Immediate Family Member, Inst 5 My Institution. Relationships may not relate to the subject matter of this manuscript. For more information about ASCO's conflict of interest policy, please refer to www.asco.org/rwc or ascopubs.org/op/authors/author-center.Open Payments is a public database containing information reported by companies about payments made to US-licensed physicians (Open Payments).