1524 Background: Reports suggested cancer patients were at greater risk for increased morbidity and mortality from COVID-19. A process to mitigate these risks was established at Levine Cancer Institute (LCI) in partnership with Atrium Health’s (AH) Hospital at Home (HAH) initiative. This virtual health navigation process employed expertise from the departments of Hematologic Oncology and Blood Disorders, Oncology, and Supportive Oncology, including a specialized nurse navigation team, to rapidly identify COVID-19 positive LCI patients, monitor them under physician supervision, and escalate care as needed with AH HAH program. Methods: AH Information Services created an automated list of LCI COVID-19 positive patients with a daily database. Each patient was reviewed by a nurse navigator. Review included hematologic or oncologic diagnosis, outpatient or inpatient status, and any COVID-19 symptoms. Once a malignant diagnosis was confirmed, a diagnosis-specific navigator contacted and screened the patient with a COVID assessment tool. Documentation was forwarded to the primary oncologist/hematologist. The tool scored patients for surveillance and treatment needs. A score of 0-2 prompted phone assessment every 48-72 hours, and score of 3-5 required every 24-48 hour calls with physician involvement when appropriate. If score of ≥6, care was escalated to LCI nurse/physician for admission to AH acute care HAH or conventional inpatient admission. Results: From inception on 3/20/2020 to data review date of 12/2/2020, 974 LCI patients were identified as COVID-19 positive and reviewed for nurse navigation (Table). Of the 974, 488 were navigated. Given limited resources, patients with benign conditions were not assigned a navigator, though a similar process was created for sickle cell disease. Of the 974, 75 are now deceased. Only 25 are deceased among the 488 navigated. Conclusions: The COVID-19 pandemic presented unprecedented circumstances to our patients and their clinicians. LCI expeditiously put policies and procedures in place to mitigate the intersection of COVID-19 and cancer. The multidisciplinary response strategy liaising between AH HAH and LCI followed, assessed, and assisted LCI COVID-19 positive patients. With our embedded nurse navigation team’s specialized attention along with enhanced physician oversight and close collaboration with AH HAH, opportunities for care escalation or adjustments in cancer-focused care were promptly identified. Analysis is ongoing to elucidate the lower mortality rate observed among navigated patients.[Table: see text]
Abstract Polycythemia vera (PV) is a myeloproliferative neoplasm characterized by unregulated red blood cell production resulting in elevated hemoglobin (HGB) and/or hematocrit (HCT). Patients often have clinical symptoms such as fatigue, pruritus, and painful splenomegaly but are also at increased risk of thrombosis, both venous and arterial. Ruxolitinib, a selective JAK inhibitor, is approved by the US Food and Drug Administration as second-line cytoreductive treatment after intolerance or inadequate response to hydroxyurea. Though ruxolitinib has been widely used in this setting, limited data exist in the literature on ruxolitinib treatment patterns and outcomes among patients with PV in routine clinical practice. We report a retrospective, observational, cohort study of patients treated for PV with ruxolitinib across three US centers (academic and regional practice) from December 2014-December 2019. We identified 69 patients with a median follow-up was 3.7 years (95% CI, 2.9 to 4.4). Our data demonstrate very high rates of HCT control (88% of patients by three months and 89% by six months); few patients required dose adjustments or suspension during the study period. No arterial thromboses were observed and we found that one patient had a thrombotic event in the setting of a second malignancy. We also found that 28% of patients initiated ruxolitinib as a result of poorly controlled platelet counts, second only to hydroxyurea intolerance (46%). In clinical practice, ruxolitinib continues to be effective in controlling HCT after three and six months of treatment in patients with low thrombotic risk.
e18776 Background: SARS-CoV-2 virus has been shown to persist in respiratory tract in immunocompromised patients. However, such data are lacking for both asymptomatic and symptomatic SARS-CoV-2 infection in cancer patients. We share our single center experience on duration of SARS-CoV-2 viral presence in the upper respiratory tract of cancer patients with SARS-CoV-2 infection (asymptomatic and symptomatic) detected by viral PCR. Methods: This is retrospective review of cancer patients with documented SARS-CoV-2 infection and measurement of viral shedding at Levine Cancer Institute. Testing indications were COVID-19 symptomatic illness, pre-procedural and pre-chemo testing. Prolonged shedding was defined as presence of viral RNA beyond 30 days after first positive test. To document viral clearance, patients required 2 negative SARS-CoV-2 PCR test separated by at least 24 hours and maximum 3 weeks apart either by nasopharyngeal or nasal PCR swab. Differences in distributions were identified between patients shedding virus more than 30 days and less than 30 days using uni- and multivariable logistic regression models. Statistical significance was set at p < 0.10 to enter the multivariable model, and p < 0.05 to remain. Results: Demographic data: median age 62 (range 20-93); 58.5% females; 70% White, 21% Black, and 7.4% Hispanics. Comorbidities included hypertension 43.2%, diabetes 16.7% and chronic lung disease 3.7%. Underlying malignancies were breast cancer 25%, hematologic cancer 22%, lung cancer 16% and genitourinary 11%. Chemotherapy was received by 26.5% patients within 4 weeks prior to testing. 162 patients were identified median duration of 18 days (range 4-90 days). Of these, 76% patients were tested for non-symptomatic indication with median duration of shedding 17 days (range 6-80) and 23% were tested for clinical symptoms with median duration of shedding 29 days (range 4-90) (p = < 0.001); 50% of patients never developed symptoms, whereas 35% patients with non-symptomatic testing indication, subsequently developed symptoms. Viral clearance by day 30, day 45, day 60 and day 90 was 78%, 93%, 97% and 100% respectively. Univariate analysis did not show difference between patients with prolonged shedding vs those shedding less than 30 days for age, gender, race, ethnicity, underlying malignancy, co-morbidities including body mass index, diabetes, chronic lung conditions, hypertension, or receipt of cytotoxic chemo. Multivariable analysis showed that presence of symptoms at any point during SARS-CoV-2 infection (OR 5.9, 95% CI 2.4-14.5, p < 0.001) was associated with prolonged shedding. Conclusions: Symptomatic SARS-CoV-2 infection is associated with prolonged viral shedding in cancer patients. Cancer patients can have asymptomatic SARS-CoV-2 infection. More studies are warranted to understand viral kinetics and its clinical implications in cancer patients.
Hemorrhagic cystitis (HC) is a common and important complication of allogeneic hematopoietic cell transplantation (HCT). Reactivation of BK virus is its most common cause. The more intense immunosuppressive regimens administered to recipients of grafts from alternative donors have been reported to account for the increased susceptibility to HC in this population. This study compares patients undergoing HCT with either a haploidentical donor or a matched related donor, all of whom received identical immunosuppression with a post-transplantation cyclophosphamide-based regimen. The incidence of HC was significantly higher in the patients receiving a haploidentical graft (P = .01). The higher incidence of HC in haploidentical graft recipients is therefore directly related to the inherent immune deficiency that follows HLA-mismatched transplantation, independent of the intensity of pharmacologic immunosuppression. This finding carries significant clinical impact for the prevention and treatment of HC in haploidentical graft recipients.
