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Jamie Pruitt

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Background: Epstein-Barr virus associated smooth muscle tumors (EBV-SMT) are rare neoplasms that occur in immunocompromised individuals. Although generally less aggressive in adults, data in pediatric solid organ transplant (SOT) recipients suggest these malignancies may be more difficult to manage. As pediatric SOT becomes more common, the occurrence of EBV-SMT is likely to increase. Understanding what incites and drives these tumors is paramount. Design/Methods: We retrospectively reviewed the electronic health record (EHR) of 152 pediatric cardiac transplant recipients at our single institution between 1985-2017. Three patients were identified as having EBV SMT. We reviewed their demographics, time to malignancy, histology, treatment, and subsequent course. Results: Of the 152 cardiac transplant recipients reviewed at our institution between 1985-2017, three were identified to have EBV SMT (confirmed by EBER CISH). In our series, the average time to diagnosis was approximately 32 months following transplant. Liver was the most common site of EBV SMT. Two patients were diagnosed with EBV SMT after a known PTLD diagnosis. All three patients had elevated EBV titers at (or around) time of diagnosis, and there was one patient with EBV donor/recipient mismatch. Treatment was individualized and varied case by case. Conclusion: EBV-SMTs are rare in pediatric SOT and are difficult to manage in the setting of required immunosuppression. While there is some literature to suggest the use of mTOR inhibition and CTL therapy is helpful in treatment of EBV SMT, data remains limited given the paucity of cases. At current, there remains no standard of care for treatment of pediatric EBV SMT.

Anthony Zembillas

and 4 more

Palifermin as Primary Prophylaxis for Mucositis Prevention in Patients with B-Cell Non-Hodgkin LymphomaAnthony S. Zembillas, PharmD, BCPS, BCOP1,3, Stefanie M. Thomas, MD, MS2, Seth J. Rotz MD2, Ilia N. Buhtoiarov, MD2, Rabi Hanna, MD2(1) Pharmacy, Cleveland Clinic, Cleveland, OH;(2) Department of Pediatric Hematology Oncology and Bone Marrow Transplantation, Cleveland Clinic Children’s, Cleveland, OH;(3) Address correspondence to:Funding Source: Supported in part by a grant from the NIH NCATS (2KL2TR002547 PI Dweik, to S.J.R.)To the Editor:Progress continues to be made regarding the treatment of children and adolescents with aggressive B-cell Non-Hodgkin Lymphoma (NHL). Recent data demonstrated patients with mature B-cell NHL have an improved overall survival with the addition of rituximab to lymphomes malins B (LMB) chemotherapy.1 However, these patients experienced significant therapy-related adverse events including febrile neutropenia, stomatitis, and infection. Oral mucositis, the second most common adverse event, occurred in up to 80% of patients with grade 3 oral mucositis occurring in 71% of patients. 1Complications related to mucositis include significant morbidities such as severe pain requiring opioids, nutritional deficiencies necessitating parenteral nutrition, life-threatening bloodstream infections, and prolonged hospitalizations likely increasing the overall cost of care.2 Proper oral care is the standard first-line approach to mucositis prevention but its benefits may be limited with more intensive chemotherapy regimens.Palifermin, a human recombinant keratinocyte growth factor, is a preventative medication that has shown positive effects on reducing mucositis frequqncy and severity in children receiving cancer therapy.3 Studies of palifermin most frequently involve patient’s undergoing hematopoietic stem cell transplant (HSCT) with limited data in the non-HSCT setting.4-6 Data are encouraging regarding the use of palifermin as secondary prophylaxis, showing effectiveness in children and adolescents with NHL who previously developed mucositis.6 This data, combined with our experience of significant toxicity in our patient population led us to administer palifermin as primary prophylaxis for mucositis prevention in patients receiving Group B or Group C LMB therapy for B-cell NHL, as part of routine clinical practice.We first utilized this approach in a young adult male with Stage II A diffuse large B cell lymphoma (DLBCL) treated per Group B of ANHL1131. He received a single dose of palifermin 180 mcg/kg IV in the outpatient setting approximately three days prior to cycles 1 and 2. He did not receive palifermin prior to cycle 3 due to the perceived lower risk of mucositis. But after developing severe mucositis requiring opioid analgesics during cycle 3, palifermin was reinstituted prior to cycle 4. Of the three cycles where palifermin was used, there were no mucositis-related complications. The patient remains in complete remission one year post-therapy. The second patient was a young adult female with Burkitt lymphoma treated per Group C1 of ANHL1131. She received a single dose of palifermin 180 mcg/kg IV in the outpatient setting approximately 3 days prior to all 6 cycles of chemotherapy. She did not have mucositis-related complications or require opioids for mucositis-related pain throughout her entire treatment. She has no evidence of disease at end of therapy. No toxicities from palifermin were noted in either patient.Our experience suggests that palifermin is a potential therapeutic option as primary prophylaxis for NHL patients receiving high intensity chemotherapy commonly causing grade 3-4 mucositis. Prospective studies are warranted to confirm the benefit and safety of palifermin compared to other interventions such as oral saline rinses or a standardized oral mouth care protocol.ReferencesMinard-Colin V, Auperin A, Pillon M, Burke GAA, Barkauskas DA, Wheatley K. Rituximab for high-risk, mature B-cell non-Hodgkin’s lymphoma in children. N Engl J Med 2020;382:2207-2219.Spielberger R, Stiff P, Bensinger W, Gentile T, Weisdorf D, Kewalramani T. Palifermin for Oral Mucositis after Intensive Therapy for Hematologic Cancers. N Engl J Med2004;351:2590-2598.Mazhari, F, Shirazi AS, Shabzendehdar M. Management of oral mucositis in pediatric patients receiving cancer therapy: a systematic review and meta-analysis. Pediatr Blood Cancer 2019;66:e27403.Vadhan-Raj S, Trent J, Patel S, Zhou X, Johnson MM, Araujo D. Single-dose palifermin prevents severe oral mucositis during multicycle chemotherapy in patients with cancer. Ann Intern Med 2010;153:358-367.Saber W, Zhang MJ, Steinert P, Chen Min, Horowitz MM. The impact of palifermin use on hematopoietic cell transplant outcomes in children. Biol Blood Marrow Transplant 2016;22:1460-1466.Dazhi L, Seyboth B, Mathew S, Gilheeney SW, Chou AJ, Drill E. Retrospective evaluation of palifermin use in nonhematopoietic stem cell transplant pediatric patients. J Pediatr Hematol Oncol 2017;39:177-182.