Background The COVID-19 pandemic has led to significant reductions in transplantation, motivated in part by concerns of disproportionately more severe disease among solid organ transplant (SOT) recipients. However, clinical features, outcomes, and predictors of mortality in SOT recipients are not well-described. Methods We performed a multi-center cohort study of SOT recipients with laboratory-confirmed COVID-19. Data were collected using standardized intake and 28-day follow-up electronic case report forms. Multivariable logistic regression was used to identify risk factors for the primary endpoint, 28-day mortality, among hospitalized patients. Results Four hundred eighty-two SOT recipients from >50 transplant centers were included: 318 (66%) kidney or kidney/pancreas, 73 (15.1%) liver, 57 (11.8%) heart, and 30 (6.2%) lung. Median age was 58 (IQR 46-57), median time post-transplant was 5 years (IQR 2-10), 61% were male, and 92% had ≥1 underlying comorbidity. Among those hospitalized (376 [78%]), 117 (31%) required mechanical ventilation, and 77 (20.5%) died by 28 days after diagnosis. Specific underlying comorbidities (age >65 [aOR 3.0, 95%CI 1.7-5.5, p<0.001], congestive heart failure [aOR 3.2, 95%CI 1.4-7.0, p=0.004], chronic lung disease [aOR 2.5, 95%CI 1.2-5.2, p=0.018], obesity [aOR 1.9, 95% CI 1.0-3.4, p=0.039]) and presenting findings (lymphopenia [aOR 1.9, 95%CI 1.1-3.5, p=0.033], abnormal chest imaging [aOR 2.9, 95%CI 1.1-7.5, p=0.027]) were independently associated with mortality. Multiple measures of immunosuppression intensity were not associated with mortality. Conclusions Mortality among SOT recipients hospitalized for COVID-19 was 20.5%. Age and underlying comorbidities rather than immunosuppression intensity-related measures were major drivers of mortality.
Viruses are the leading cause of infections after solid organ transplant. The antiviral properties of mammalian target of rapamycin inhibitors (mTORis) have been ascribed to a variety of mechanisms and historical data have supported their use over other immunosuppressants for a myriad of viruses. Herein, we summarize the most current data to highlight the role of mTORis in the management of viral infections after solid organ transplant. The mTORis play a clear role in the management of cytomegalovirus, and have data supporting their potential use for BK virus and human herpesvirus 8-related Kaposi sarcoma. No data definitively supports mTORis for use in Epstein-Barr virus-mediated posttransplant lymphoproliferative disorder or hepatitis C virus viral replication. Although theoretically an advantageous therapy for hepatitis C virus-related liver allograft fibrosis and human immunodeficiency virus, mTORi use specifically for these indications is less attractive with modern treatments currently available. Data surrounding mTORi efficacy in preventing rejection, and their toxicity profile must be balanced with their potential antiviral effects in combination with patient-specific factors.
The use of allografts from hepatitis C virus (HCV) Nucleic Acid Testing (NAT)+ donors into HCV NAT-recipients has been reported to be efficacious in a handful of studies.However, these studies have not reflected real-world practice where the initiation of direct-acting antivirals (DAA) is dependent on insurance coverage. A single-center, retrospective chart review of HCV NAT-recipients who underwent solid organ transplantation (SOT) from a HCV NAT+ donor between April 1, 2019 and May 27, 2020 was conducted. Sixty-one HCV NAT-patients underwent SOT with a HCV NAT+ organ, with 59 transplant recipients included for evaluation: 22 kidney (KT), 18 liver (LiT), 10 heart (HT), nine lung (LuT). HCV transmission occurred in 100% of recipients.Average time to DAA initiation was POD 46.3 ± 25 days. SVR12 was achieved in 98% (56/57; two patients ineligible for analysis). Treatment failure occurred in one LuT on glecaprevir/pibrentasvir with P32del and Q80K mutations. No patients developed fibrosing cholestatic hepatitis. Two patients died, secondary to anastomotic complication (LuT) and pulmonary embolism (HT). Clinically significant rejection was diagnosed and treated in two HT (one patient with ACR2 and one with ACR2/pAMR2) and one LiT (RAI 5/9). Six patients (10.2%) had documented adverse effects attributed to DAA therapy, primarily gastrointestinal. K E Y W O R D Santiviral, donor-derived infections, hepatitis C, side effects INTRODUCTIONMore than 1 00 000 candidates are currently on the waitlist for solid organ transplantation (SOT) in the United States. Over eleven thousand people were removed from the waitlist in 2020 due to death or progressive illness that rendered the individuals no longer suitable for transplantation 1 With an increasing demand for solid organ transplants, donor organ shortages have become a major limiting factor in the transplantation process.
Due to the limited nature of the available literature, use of daptomycin in pediatric patients should be limited to situations in which other options are not viable due to toxicity, local susceptibility patterns, or likely treatment failure. As a result of faster drug CL and lower AUC values, higher doses may be necessary in pediatric patients to achieve serum concentrations similar to those seen with adult dosing.
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