In 2017, the Organ Procurement and Transplant Network and the United Network for Organ Sharing (UNOS) updated the requirements to serve as the primary transplant physician for Pediatric Kidney Transplant Programs. One of the pathways to fulfill the requirements relies on experience gained during completion of a pediatric nephrology fellowship (Table ​(Table11).1 Pediatric nephrology fellowship programs are 3 years in length, with a minimum of 12 months dedicated to research and scholarly activities (33%).2 According to the Accreditation Council for Graduate Medical Education, there are 48 accredited programs for Pediatric Nephrology Fellowship for the academic year 2022–2023.3 Adult nephrology 2-year fellowships offer a third dedicated additional year of postgraduate training for those interested in achieving expertise in kidney transplant. No such additional transplant-specific training opportunities are available for pediatric nephrology fellows who already train for 3 years. In 2009, a self-perceived competency evaluation demonstrated that recent adult fellowship trainees felt well-trained and competent in caring for kidney transplant patients, including the performance of kidney transplant biopsies.4 There is no similar published literature of recent graduates of pediatric nephrology fellowships. Given the lack of a core transplantation curriculum in fellowship training and lower kidney transplant volumes in children, it is unclear how many pediatric nephrology fellows perceive that they obtain the minimum experience required to qualify as a primary pediatric kidney transplant physician. We conducted a survey of pediatric nephrology fellows to examine current transplant-specific training.

A 14-year-old female with no significant medical history presented with hypertensive urgency, in the setting of 4 to 6 weeks of diarrhea, abdominal pain, headaches, anemia, weight loss, and high blood pressures. Her evaluation revealed signs of a systemic inflammatory process that was most suspicious for inflammatory bowel disease. However, when her hypertension was evaluated with a renal Doppler ultrasound, there were signs of narrowing, stenosis, and hypoplasia that led to a diagnostic angiogram of the abdominal aorta. Full body positron emission tomography scan revealed multiple areas of stenosis and aortic thickening with enhancement compatible with Takayasu arteritis. She received prednisone, methotrexate, and infliximab with marked improvement in her clinical symptoms and inflammatory markers.

The current cross-sectional, single-center study aimed to examine sleep quality in a sample of adolescents awaiting solid organ transplantation and to explore associations between sleep quality and both health-related quality of life and barriers to adherence. Thirty adolescents between the ages of 12 and 18 years (M age = 15.26, SD = 1.89) who were awaiting transplantation participated in this study. Participants completed measures of sleep quality, health-related quality of life, and barriers to adherence. T test and correlational analyses were performed to examine study aims. Adolescents awaiting transplantation had significantly lower levels of overall sleep quality compared to published norms of healthy peers. Domains of sleep quality were positively related to emotional and psychosocial health-related quality of life. Sleep quality domains were also negatively related to adherence barriers. This study provides preliminary evidence demonstrating that sleep quality among transplant candidates is compromised, and that poor sleep quality is related to adolescents’ functioning across a number of domains during the pretransplant period. Results highlight the clinical importance of assessing and targeting sleep functioning in adolescents awaiting transplantation in order to reduce the negative influence of suboptimal sleep on functioning during this vulnerable period.

Cardiovascular disease is the leading cause of death in chronic kidney disease (CKD). Arginine, the endogenous precursor for nitric oxide synthesis, is produced in the kidneys. Arginine bioavailability contributes to endothelial and myocardial dysfunction in CKD. Plasma from 129X1/SvJ mice with and without CKD (5/6th nephrectomy), and banked plasma from children with and without CKD were analyzed for amino acids involved in arginine metabolism, ADMA, and arginase activity. Echocardiographic measures of myocardial function were compared with plasma analytes. In a separate experiment, a non-specific arginase inhibitor was administered to mice with and without CKD. Plasma citrulline and glutamine concentrations correlated with multiple measures of myocardial dysfunction. Plasma arginase activity was significantly increased in CKD mice at 16 weeks vs. 8 weeks (p = 0.002) and ventricular strain improved after arginase inhibition in mice with CKD (p = 0.03). In children on dialysis, arginase activity was significantly increased vs. healthy controls (p = 0.04). Increasing ADMA correlated with increasing RWT in children with CKD (r = 0.54; p = 0.003). In a mouse model, and children, with CKD, arginine dysregulation correlates with myocardial dysfunction.

We describe the successful use of the novel antifungal drug fosmanogepix to treat a chronic case of multidrug-resistant cutaneous Fusarium suttonianum infection in a pediatric patient with STAT3 hyper-IgE syndrome and end-stage kidney disease on peritoneal dialysis.

Rationale & Objective: Children with kidney disease and primary hypertension may be more vulnerable to COVID-19. We examined COVID-19 vaccine hesitancy among parents of children with chronic kidney disease or hypertension. Study Design: Sequential explanatory mixed-methods design; survey followed by in-depth interviews. Setting & Participants: Parents of children aged <18 years with kidney disease or primary hypertension within a large pediatric practice. Exposure: Parental attitudes toward general childhood and influenza vaccines assessed by the Vaccine Hesitancy Scale. Kidney disease classification, demographic and socioeconomic factors, experiences with COVID-19, COVID-19 mitigation activities and self-efficacy, and sources of vaccine information. Outcome: Willingness to vaccinate child against COVID-19. Analytical Approach: Analysis of variance (ANOVA) test to compare parental attitudes toward general childhood and influenza vaccination with attitudes toward COVID-19 vaccination. Multinomial logistic regression to assess predictors of willingness to vaccinate against COVID-19. Thematic analysis of interview data to characterize influences on parental attitudes. Results: Of the participants, 207 parents completed the survey (39% of approached): 75 (36%) were willing, 80 (39%) unsure, and 52 (25%) unwilling to vaccinate their child against COVID-19. Hesitancy toward general childhood and influenza vaccines was highest among the unwilling group (P < 0.001). More highly educated parents more likely to be willing to vaccinate their children, while Black race was associated with being more likely to be unwilling. Rushed COVID-19 vaccine development as well as fear of serious and unknown long-term side effects were themes that differed across the parental groups that were willing, unsure, or unwilling to vaccinate their children. Although doctors and health care teams are trusted sources of vaccine information, perceptions of benefit versus harm and experiences with doctors differed among these 3 groups. The need for additional information on COVID-19 vaccines was greatest among those unwilling or unsure about vaccinating. Limitations: Generalizability may be limited. Conclusions: Two-thirds of parents of children with kidney disease or hypertension were unsure or unwilling to vaccinate their child against COVID-19. Higher hesitancy toward routine childhood and influenza vaccination was associated with hesitancy toward COVID-19 vaccines. Enhanced communication of vaccine information relevant to kidney patients in an accessible manner should be examined as a means to reduce vaccine hesitancy. Plain-Language Summary: Children with kidney disease or hypertension may do worse with COVID-19. As there are now effective vaccines to protect children from COVID-19, we wanted to find out what parents think about COVID-19 vaccines and what influences their attitudes. We surveyed and then interviewed parents of children who had received a kidney transplant, were receiving maintenance dialysis, had chronic kidney disease, or had hypertension. We found that two-thirds of parents were hesitant to vaccinate their children. Their reasons varied, but the key issues included the need for information pertinent to their child and a consistent message from doctors and other health care providers. These findings may inform an effective vaccine campaign to protect children with kidney disease and hypertension.

Background: Ofatumumab is a humanized anti-CD20 monoclonal antibody that has recently garnered interest as a potential therapeutic agent for nephrotic syndrome. We report our center’s experience in administering ofatumumab to five pediatric patients with idiopathic nephrotic syndrome. Methods: Between March 2015 and November 2016, five patients were treated with ofatu mumab. One patient had post-transplant recurrent focal segmental glomerulosclerosis (FSGS) which had been resistant to plasmapheresis and numerous immunosuppressive agents. Four patients had nephrotic syndrome in their native kidneys, one with initial steroid-resistant disease and the others with subsequent development of steroid resistance. Two of the patients were treated with a desensitization protocol after experiencing hypersensitivity reactions to ofatumumab. Results: One patient did not complete ofatumumab treatment due to infusion reactions. Of the four remaining patients, three achieved complete remission after treatment, and one achieved partial remission. One of the patients achieving complete remission represents the first reported case of successful treatment of post-transplant recurrent FSGS using ofatumumab. Two patients who received ofatumumab with our desensitization protocol were able to complete their treatments after initially experiencing hypersensitivity reactions. Conclusions: Ofatumumab may be an effective treatment for refractory childhood nephrotic syndrome and post-transplant recurrent FSGS. A desensitization protocol may be helpful to address hypersensitivity reactions.

BACKGROUND: Patients' loss to follow-up (LFU) has significant impacts on outcomes and is a barrier to improving care, especially in adolescent and young adult (AYA) renal transplant recipients. There is limited information regarding the relationship between transfer of care from pediatric to adult transplant centers, age, and LFU among AYA renal transplant recipients. METHODS: We studied 16 386 individuals aged 10-29 years who received kidney transplants between January 1, 2005 and December 31, 2015 using the Scientific Registry of Transplant Recipients. The primary outcome was LFU, which was defined as >1 year without follow-up in a transplant clinic/program. Death or graft failure within a year of the last follow-up was not classified as LFU. We performed a retrospective cohort study describing LFU using Pearson's chi-square tests. Multivariable logistic regression was used to estimate the change in likelihood of LFU associated with recipient characteristics and institution transfer. RESULTS: In total, 22.26% (n = 3647) of our study population met criteria for LFU. About 11.17% (n = 1830) transferred institutions during the study period. LFU occurred in 50.18% of recipients who transferred institutions. LFU peaked at the age of 20 years, with 7.4% of 20-year-olds having LFU. The odds of LFU among renal transplant recipients who transferred institutions were 3.36 times greater (95% confidence interval, 3.1-3.6) than the odds of LFU among those who did not transfer institutions. CONCLUSIONS: LFU is a critical problem faced by AYA renal transplant recipients, and institution transfer is a significant risk factor for LFU. Additional studies investigating the interplay between age, institution transfer, and LFU in the AYA population are still needed.

Thymectomy is performed routinely in infants undergoing cardiothoracic surgery. Children post-sternotomy have decreased numbers of T lymphocytes, although the mechanisms involved and long-term consequences of this have not been defined. We hypothesized that lymphopenia in patients with adult congenital heart disease (ACHD) would be reflective of premature T cell maturation and exhaustion. Adults with ACHD who had sternotomy to repair congenital heart disease as infants (<1 year) and age-matched ACHD patients without prior sternotomy were studied using polychromatic flow cytometry interrogating markers of lymphocyte maturation, exhaustion and senescence. Group differences were analyzed using Mann–Whitney U and Fisher’s exact tests. Eighteen ACHD patients aged 21–40 years participated: 10 cases and 8 controls. Median age at sternotomy for cases was 52 days. Cases and controls were matched for age (28.9 vs. 29.1 years; p = 0.83), gender (p = 0.15) and race (p = 0.62) and had similar case complexity. Cases had a lower mean percentage of cytotoxic CD8 lymphocytes compared to controls (26.8 vs. 33.9 %; p = 0.016), with fewer naive, undifferentiated CD8 T cells (31.0 vs. 53.6 %; p = 0.027). CD8 cells expressing PD1, a marker of immune exhaustion, trended higher in cases versus controls (25.6 vs. 19.0 %; p = 0.083). Mean percentage of CD4 cells was higher in cases versus controls (65.6 vs. 59.6 %; p = 0.027), without differences in CD4 T cell maturation subtype. In summary, ACHD patients who undergo sternotomy as infants exhibit differences in T lymphocyte composition compared to ACHD controls, suggesting accelerated immunologic exhaustion. Investigation is warranted to assess the progressive nature and clinical impact of this immune phenotypic change.