Post‐renal transplant erythrocytosis: A case report

PTE is defined as hematocrit >51% or hemoglobin >17 g/dL after renal transplantation. Risk factors include native kidneys with adequate erythropoiesis pretransplant, smoking, renal artery stenosis, and cyclosporine treatment. We report the case of a 14‐yr‐old female kidney transplant patient, with triple therapy immunosuppression and stable graft function who developed PTE at 12 months post‐transplant with hemoglobin 17.3 g/dL, hematocrit 54.2%, stable graft function, and normotensive with normal cardiac echocardiogram and erythropoietin levels. The only risk factor found was tobacco use. As she had no spontaneous improvement, enalapril treatment was started at 19 months post‐transplant with a hemoglobin level of 17.5 g/dL and hematocrit 53%; by 23 months post‐transplant, hemoglobin lowered to 15 g/dL and hematocrit to 44.5% and continued to be in normal range thereafter. PTE is a rare condition in childhood and can be successfully treated with enalapril.     

The use of vascular homografts in pediatric small bowel transplantation: Single‐center experience over a decade

Intestinal transplantation in children has evolved with more isolated small intestine transplants being performed compared to combined liver‐intestine transplants. Consequently, surgical techniques have changed, frequently requiring the use of vascular homografts of small caliber to revascularize the isolated small intestine, the impact of which on outcomes is unknown. Among 106 pediatric intestine and multivisceral transplants performed at our center since 2003, 33 recipients of an isolated small intestine graft were included in this study. Outcome parameters were thrombotic complications, graft, and patient survival. A total of 29 of 33 (87.9%) patients required arterial and/or venous homografts from the same donor, mainly iliac or carotid artery and iliac or innominate vein, respectively (donor's median age 1.1 years [2 months to 23 years], median weight 10 kg [14.7‐48.5]). Post‐transplant, there were three acute arterial homograft thromboses and one venous thrombosis resulting in two peri‐operative graft salvages and two graft losses. Three of four thromboses occurred in patients with primary hypercoagulable state, including the two graft losses. Overall, at a median of 4.1 years (1‐10.2) from transplant, 29 of 33 (88%) patients are alive with 26 of 33 (79%) functioning grafts. The procurement of intact, size‐matched donor vessels and the management of effective post‐transplant anticoagulation are critical.     

De novo development of antibodies to kidney‐associated self‐antigens angiotensin II receptor type I,collagen IV,and fibronectin occurs at early time points after kidney transplantation in children

Chronic rejection is the leading cause of graft loss following pediatric kidney transplantation. Our group and others have demonstrated an association between the development of Abs to self‐antigens and chronic rejection following adult lung and heart transplantation. The goal of this study was to determine whether Abs to kidney‐associated self‐antigens develop following pediatric renal transplantation. We investigated post‐transplant development of Abs to kidney‐associated self‐antigens angiotensin II receptor type I, Fn, and collagen IV in a pediatric cohort. Using ELISA, we measured Abs to kidney‐associated self‐antigens in serum. Our cohort included 29 subjects with samples collected pretransplant and for 12 months post‐transplant. No samples had Abs to kidney‐associated self‐antigen pretransplant. In contrast, 50% (10/20) of subjects developed Abs to one or more kidney‐associated self‐antigen post‐transplantation. The median time to antibody appearance and duration of persistence were 103 and 61 days, respectively. Development of Abs did not correlate with graft function. Half of subjects developed Abs to kidney‐associated self‐antigens angiotensin II receptor type I, Fn, or collagen IV in the first year after kidney transplantation—a higher rate of early antibody development than expected. In this small study, Abs did not correlate with worse clinical outcomes.     

Incidence and risk factors of early surgical complications in young renal transplant recipients: A persistent challenge

There is a paucity of data on the rate of urological and vascular complications in very young children after kidney transplant. We conducted a study on the incidence and risk factors for early post‐transplant surgical complications in young recipients (<5 years) over three decades. The primary outcome was any urological or vascular complication within 30 days of transplant, and the secondary outcome was incidence rate of graft failure reported as per 1000 person‐years. Risk factors associated with surgical complications were analyzed by logistic regression. There were 22 (26.5%) complications in 21 children with vascular thrombosis being the most common complication. There was no significant difference in the number of complications in period 1 (1985‐1994) and period 2 (1995‐2014) (P=.1). The incidence rate of graft failure was higher in period 1 (IR 70.8, 95% CI 41.1, 121.9) compared to period 2 (IR 20.7, 95% CI 9.3, 46.0). Cumulative incidence of graft survival at 1, 3, and 5 years' post‐transplant was 96.5%, 92.6%, and 90%, respectively, in those without compared to 71%, 65.1%, and 58.6%, respectively, in children with complications. In conclusion, early surgical, especially vascular, complications are quite common in young renal transplant recipients and lead to significantly reduced graft survival.     

Perioperative renal transplantation management in small children using adult‐sized living or deceased donor kidneys: A single‐center experience

Kidney transplantation remains the treatment of choice for children with ESRD. Optimal perioperative management is critical in small recipients of ASK to assure adequate graft perfusion. We present a single‐center experience outlining management for patients weighing <20 kg who underwent primary renal transplantation with ASKs between 2007 and 2016. Sixty‐three patients met study criteria and underwent 34 living‐related, six living‐unrelated, and 23 deceased donor kidney transplants. Median age and weight at transplant were 25 months (IQR 18‐37 months; range 11 months‐6 years) and 11.0 kg (IQR 9.2‐14.5 kg; range 7.1‐19.5 kg). Eighty‐nine percent of patients required vasoactive agents intra‐operatively, with twenty patients requiring prolonged vasoactive agents post‐operatively. Intra‐operatively, patients received 51.9 mL/kg of crystalloid, 27.3 mL/kg of 5% albumin, and 13.6 mL/kg of packed red blood cells. Most (93.7%) patients were extubated on POD#0. Weights peaked on post‐operative days three through five. Over a median follow‐up of 49 months (IQR 31‐86 months; range 0‐130 months), four grafts were lost, two due to thrombosis and two secondary to chronic rejection. There was one patient death six months post‐transplant due to causes unrelated to transplantation. Graft survival at 1, 5, and 10 years was 98.4%, 96.6%, and 84.2%, respectively. Of surviving allografts, the median 1, 5, and 10 years post‐transplant eGFR was 122.9, 90.0, and 59.2 mL/min/1.73 m² as determined by the 2009 Schwartz formula. Renal transplantation in small children using ASKs requires meticulous perioperative management including adequate fluid resuscitation and judicious use of pressors to assure adequate graft perfusion. The use of ASKs from living or deceased donors results in satisfactory short and long‐term outcomes.     

Assessment of prophylactic heparin infusion as a safe preventative measure for thrombotic complications in pediatric kidney transplant recipients weighing <20 kg

Small‐sized kidney recipients (<20 kg) are at high risk of allograft vessel thrombosis. HP has been used to mitigate this risk but may infer an increase in bleeding risks. Therefore, we aim to determine whether HP is a safe means to prevent thrombosis in small kidney transplant patients by comparing those who have received HP and those who have NHP. A retrospective review of patients < 20 kg who underwent kidney transplant in our institution from 2000 to 2015 was performed. At our institution, unfractionated heparin 10 units/kg/hour is used as HP since 2009. Patients at increased risk of thrombosis (previous thrombosis, thrombophilia, nephrotic syndrome) and bleeding (therapeutic doses of heparin, diagnosis of coagulopathy) were excluded. Fifty‐six patients were identified (HP n = 46; NHP n = 10). Baseline demographics were similar between HP and NHP. There was no statistical difference in frequency of transfusions, surgical re‐exploration, or thrombotic events between HP and NHP. The HP group was more likely to have drop in Hb > 20 g/L (67.4% vs 30.0%, P = 0.038), and those who had drop in Hb > 20 g/L were more likely to also require pRBC transfusions (63.0% vs 20.0%, P = 0.017). Within the HP group, those who had bleeding complications had similar Hb levels as those who did not at baseline and post‐transplant. Outcomes in the HP and NHP groups were no different with respect to thrombosis or significant bleeding complications requiring pRBC transfusions or surgical intervention. Future prospective studies are required to investigate the balance of preventing thrombosis and risks of pRBC transfusions for small‐sized kidney recipients.     

Neurocognitive outcomes at kindergarten entry after liver transplantation at <3 yr of age

This prospective inception cohort study determines kindergarten‐entry neurocognitive abilities and explores their predictors following liver transplantation at age <3 yr. Of 52 children transplanted (1999–2008), 33 (89.2%) of 37 eligible survivors had psychological assessment at age 54.7 (8.4) months: 21 with biliary atresia, seven chronic cholestasis, and five acute liver failure. Neurocognitive scores (mean [s.d.], 100 [15]) as tested by a pediatric‐experienced psychologist did not differ in relation to age group at transplant (≤12 months and >12 months): FSIQ, 93.9 (17.1); verbal (VIQ), 95.3 (16.5); performance (PIQ), 94.3 (18.1); and VMI, 90.5 (15.9), with >70% having scores ≥85, average or above. Adverse predictors from the pretransplant, transplant, and post‐transplant (30 days) periods using univariate linear regressions for FSIQ were post‐transplant use of inotropes, p = 0.029; longer transplant warm ischemia time, p = 0.035; and post‐transplant highest serum creatinine, (p = 0.04). For PIQ, they were pretransplant encephalopathy, p = 0.027; post‐transplant highest serum creatinine, p = 0.034; and post‐transplant inotrope use, p = 0.037. For VMI, they were number of post‐transplant infections, p = 0.019; post‐transplant highest serum creatinine, p = 0.025; and lower family socioeconomic index, p = 0.039. Changes in care addressing modifiable predictors, including reducing acute post‐transplant illness, pretransplant encephalopathy, transplant warm ischemia times, and preserving renal function, may improve neurocognitive outcomes.     

Outcomes of children receiving en bloc renal transplants from small pediatric donors

The utilization of en bloc renal allografts from small pediatric donors has been adopted as an effective strategy to expand the organ donor pool in adult recipients. Data in children are limited. The aim of our study is to describe the outcomes of en bloc renal transplants in children from our center. Medical records of children receiving pediatric en bloc renal transplants at our institution from January 2007 were abstracted. Data collected included recipient and donor demographics, operative technique and complications, and post‐operative studies. Eight children received en bloc renal transplants at a median age of 17 yr; median follow‐up was 0.9 yr. Donor body weight ranged from 4 to 22 kg. One kidney was lost to intra‐operative thrombosis, while the other kidney from this en bloc graft remained viable. All grafts showed increased renal size at follow‐up ultrasound. Surveillance biopsies showed glomerulomegaly in two patients. At last follow‐up, the median eGFR was 130 mL/min/1.73 m². The urinary protein to creatinine ratio was normal in four of seven patients. Our data suggest that in experienced centers, en bloc renal transplantation from young donors into pediatric recipients is effective. Long‐term follow‐up to monitor for complications, including hyperfiltration injury, is warranted.     

Reno‐portal anastomosis as an approach to pediatric kidney transplantation in the setting of inferior vena cava thrombosis

In pediatric renal transplantation in the setting of IVC thrombosis, the retrohepatic IVC or gonadal veins are often used for outflow. However, if use of systemic venous outflow is unsuccessful, options become limited. We report the use of the portal vein for venous outflow in kidney retransplantation in the setting of IVC thrombosis. The patient is a 19‐month‐old male who developed end‐stage renal failure at seven months of age secondary to hypotension after spontaneous rupture of an accessory renal vein. The IVC was occluded during emergent laparotomy, and the patient developed extensive IVC thrombosis. The first two transplant attempts used the retrohepatic IVC for venous outflow. Despite good initial flow, in both instances the renal vein thrombosed on post‐operative day 1. In an unsuccessful salvage attempt of the second transplant, a reno‐portal anastomosis was performed. With few options for vascular access, a third transplant was attempted. The reno‐portal stump from the second transplant was used for outflow. The patient recovered well from his third transplant (creatinine 0.6 mg/dL 35 months post‐surgery), demonstrating that the portal vein can be used for outflow in cases of extensive IVC thrombosis.     

Lymphocele after pediatric kidney transplantation: Incidence and risk factors

Lymphocele is a well‐known postoperative complication after kidney transplantation. The aim of this study was to analyze time trend incidence, risk factors, and outcome of post‐transplant lymphocele in a large pediatric cohort. This is a retrospective single institution review of 241 pediatric kidney transplants performed from 2000 to 2013. Etiology of end‐stage renal disease, recipient age and gender, transplant year, BMI percentile for age, type of dialysis, living/non‐living related donor, acute rejection, and multiple transplantations were analyzed in association with lymphocele formation. Fourteen of 241 (5.81%) children developed a postoperative lymphocele. There has been a reduction in the incidence of lymphocele after 2006 (3.22% vs. 8.55%, p < 0.05). Significant risk factors for lymphocele were older age (≥11 yr), transplant before 2006, male gender, BMI percentile for age ≥95%, and multiple transplantations (p < 0.05). The one‐yr graft survival was significantly reduced in the group with lymphocele compared with control (81.2% vs. 92.51%, p < 0.04). This is the first pediatric report showing the following risk factors associated with post‐transplant lymphocele: age ≥11 yr, male gender, BMI for age ≥95%, and multiple transplantations. A lymphocele can contribute to graft loss in the first‐year post‐transplant.     

“Inverted” positioning of renal allograft during kidney transplantation in children and adolescents: A single‐institution comparative analysis

Renal transplantation is the treatment of choice in children with end‐stage renal failure. Limitations in patient anatomy or a short donor renal vein may necessitate intraoperative inversion of the kidney. There is little evidence to support the use of this surgical technique, and no evidence in the pediatric population. This study identifies the perioperative and post‐operative outcomes of inverted renal transplants in pediatric patients. We reviewed all patients having a renal transplant between January 2012 and December 2016 and collected short‐ and long‐term outcomes of patients who received an inverted allograft. Early graft function was defined as the time to reach creatinine nadir. During this time, our hospital performed 81 transplants, and 50 (62%) were from deceased donors, including the 6 (12%) patients who received inverted renal grafts. Half (3/6) were female, 5/6 (83%) were dialysis‐dependent, and the median age at surgery was 13 years (range 9‐16 years). There was no significant difference in mean creatinine nadir values (P = 0.518) and the time to creatinine nadir mean values (P = 0.190) between the upright and inverted renal transplant groups. There were also no significant differences in rates of post‐operative complications between the upright and inverted allograft recipients. Inversion of renal allografts in pediatric patients is a viable surgical technique to compensate for shortcomings in patient anatomy or in special cases of renal transplantation involving a short donor renal vein. Future research should focus on outcomes of a larger group of pediatric inverted renal transplant patients.     

The impact of recipient BKV shedding before transplant on BKV viruria,DNAemia, and nephropathy post‐transplant: A prospective study

We previously demonstrated that detectable BKV replication in donor urine pretransplant was significantly associated with post‐transplant recipient BKV viremia. In this 4‐year prospective study, we assessed whether recipient BKV replication pretransplant was associated with post‐transplant viremia/BKV nephropathy. We studied 220 primary adult and pediatric organ transplant recipients for 490 person‐years and 2100 clinical visits. BKV viruria was detectable in 28 (16%), 26 adults and two children; and viremia in none pretransplant. Post‐transplant viruria occurred in all recipients with pretransplant BKV viruria, significantly more than in recipients without pretransplant viruria on univariate (P<.005) and multivariate analysis including type of organ transplanted and immunosuppression type (P .008). Time to post‐transplant viruria was significantly shorter in recipients with pretransplant viruria (P .01). By univariate and multivariate analysis, BKV viruria in recipients pretransplant did not impact post‐transplant BKV viremia (P=.97 and .97, respectively) even when stratified by type of organ transplant (kidney P=.6; liver P=.5). The peak serum and urine BKV PCR post‐transplant were not significantly different in patients with pretransplant BKV viruria and no one developed BK nephropathy. In conclusion, recipient BKV viruria prior to transplant predicts post‐transplant viruria but not viremia or BKV nephropathy.     

Pretransplant peritoneal dialysis and graft thrombosis following pediatric kidney transplantation: a NAPRTCS report

Graft thrombosis is a common cause of graft failure in pediatric renal transplantation. Several previous studies, including a North American Pediatric Renal Transplant Cooperative Study (NAPRTCS) review of pretransplant dialysis status and graft outcomes, have described a potential correlation of peritoneal dialysis (PD) and graft thrombosis. This issue is of particular concern for pediatric transplant programs as more than 65% of children with end stage renal disease are treated with PD. We reviewed 7247 pediatric renal transplants performed between 1987 and 2001. Thrombosis was the cause of graft loss in 2.7% (199) of all the transplants performed. Among failed transplants, thrombosis was the third most common cause of graft loss in both index (11.6%) and subsequent transplants (14.5%). Thrombosis becomes the most common cause of graft failure (21%, 61/294) if one looks at transplants in the later cohort, from 1996 to 2001. This change is primarily because of a decrease in the incidence of acute rejection. In the PD group, 3.4% of all grafts were lost as a result of thrombosis. This compares with 1.9% in the hemodialysis group, 2.4% in the pre-emptive transplant group, and 4.1% among patients who received both dialysis modalities. There was a statistically significant difference in thrombosis failure risk in the different dialysis groups (p = 0.005) with those who received only peritoneal dialysis having the highest risk. Additional significant risk factors for graft thrombosis included; cadaver donor source (p < 0.001), cold ischemia time >24 h (p < 0.001), history of prior transplant (p < 0.001), donor age <6 yr (p < 0.001), and >5 pretransplant blood transfusions (p = 0.02). Using stepwise proportional hazards modeling, only pretransplant peritoneal dialysis, >24 h cold ischemia time, prior transplant, and donor age <6 yr were simultaneously associated with an increased risk of thrombosis. We conclude that pretransplant PD is associated with an increased risk of graft thrombosis. Special precautions should be undertaken in pediatric renal transplant patients who have received PD, especially infants and young children.     

A longitudinal retrospective analysis of left ventricular mass in a cohort of pediatric kidney transplant recipients

Childhood end‐stage kidney disease is associated with increased risk for early adulthood cardiovascular (CV) morbidity and mortality. Increased LVM is an early indicator of CV disease. Previous studies have suggested that LVM decreases after kidney transplantation; however, trends have been inconsistent. A single center retrospective longitudinal cohort analysis of LVM, documented annually, starting before kidney transplantation for up to 10 yr after transplantation was performed. BP documented by annual 24‐h ambulatory monitoring studies, and BMI values were also reviewed. Twenty‐seven children followed for a mean period of 5.3 yr were included. Depending on definition of LVH, its prevalence pretransplant and in the first years post‐transplant was up to 33% dropping to 0–25% thereafter. Individual longitudinal LVM z‐score trends were highly variable but generally trended toward the mean immediately after transplant and toward negative values in the following years. BP was stable during the follow‐up period while mean annual BMI increased in the first‐year post‐transplant but declined thereafter. In a cohort of pediatric renal transplant recipients, prevalence of LVH decreased after transplant; however, individual longitudinal LVM trends were highly variable among patients. Prospective studies are needed to correlate individual LVM trends with outcomes.     

Outcomes of kidney transplants in pediatric patients with the vertebral defects,anal atresia,cardiac defects,tracheoesophageal fistula,renal anomalies,limb abnormalities association

In this single‐center retrospective study, we analyzed kidney transplant outcomes in nine pediatric patients with VACTERL [vertebral defects, anal atresia, cardiac defects, tracheoesophageal fistula, renal anomalies, limb abnormalities] association—making this the largest study of its kind. Of 743 pediatric kidney transplant recipients at our center (1980‐2017), nine had documented diagnoses of VACTERL association. All nine had congenital anorectal malformations and renal anomalies, five had vertebral defects, and one had a bifid thumb and tracheoesophageal fistula. Renal anomalies included dysplasia (n = 6), aplasia (n = 3), and horseshoe kidney (n = 2). Congenital lower urinary tract anomalies included neurogenic bladder (n = 6), obstructive uropathy (n = 4), anovesicular fistula (n = 1), rectourethral fistula (n = 1), and posterior urethral valves (n = 1). Age at transplant ranged from 1.2 to 15 years (mean, 7.3; standard deviation [SD], 5.5); 6 (67%) were male, and 3 (33%) were female; 6 (67%) had a living related donor, and 3 (33%) had a deceased donor. The overall graft survival rate was 78% (range, 1.5 to 25.2 years; mean, 10.5; SD, 8.9). One month post‐transplant, one recipient died with a functioning graft. At 3.7 years post‐transplant, one graft failed because of recurrent pyelonephritis. Post‐transplant urologic complications included pyelonephritis (n = 6), vesicoureteral reflux (n = 5), and graft hydronephrosis (n = 4). We conclude that pediatric patients with VACTERL association can be safely transplanted—careful patient selection with vigilance and intervention for pre‐ and post‐transplant urologic complications is essential.     

Transplantation of adult‐size kidneys in small pediatric recipients: A single‐center experience

RTx of adult‐size kidneys presents a size mismatch in small pediatric recipients, and there are potential surgical complications. This study reveals the outcomes of intra‐ and extraperitoneal RTx in low‐weight (less than 15 kg) pediatric recipients. We studied 51 pediatric patients weighing less than 15 kg who received a living‐related donor renal transplant between 2009 and 2017. The intraperitoneal (group A, n = 24) and extraperitoneal (group B, n = 27) approaches were compared. In group A, the mean age, Ht, and weight were 3.8 ± 1.6 years, 83.7 ± 6.5 cm, 10.5 ± 1.8 kg; in group B, 5.0 ± 1.9 years, 95.3 ± 7.3 cm, and 13.0 ± 1.4 kg. Single renal artery grafts (21 in group A and 16 in group B) and double renal artery grafts (three in group A and 11 in group B) were performed. Of the patients with double renal artery transplants, one in group A and six in group B underwent ex vivo arterial reconstruction. The eGFR (mL/min/1.73 m²) at 1‐week post‐transplant in group A was significantly higher than that in group B; the eGFRs at 4 weeks post‐transplant did not differ. One graft was lost in group B because of vascular thrombosis. Post‐transplant complications included ileus and transplant ureteral stenosis. There was no significant difference in 5‐year graft survival rate (group A 100%, group B 91.7%). Both transplant approaches are feasible to adapt to a size mismatch between the adult‐size donor kidney and low‐weight pediatric recipients.     

De novo therapy with everolimus and reduced‐exposure cyclosporine following pediatric kidney transplantation: A prospective,multicenter, 12‐month study

Prospective data regarding the de novo use of everolimus following kidney transplantation in children are sparse. In a prospective, 12‐month, single‐arm, open‐label study, pediatric kidney transplant patients received everolimus (target trough concentration ≥3 ng/mL) with reduced‐exposure CsA and corticosteroids, with or without basiliximab induction. Sixteen of the 18 patients completed the study on‐treatment. Age range was 2–16 yr (mean 10.9 yr); eight patients received a living donor graft. Mean (s.d.) everolimus level was 7.4 (3.1) ng/mL during the first 12 months post‐transplant. There were no cases of BPAR, graft loss, or death during the study. Protocol biopsies were performed at month 12 in seven patients, with subclinical (untreated) acute rejection diagnosed in one case. Mean (s.d.) estimated GFR (Schwartz formula) was 98 (34) mL/min/1.73 m² at month 12. Three patients experienced one or more serious adverse events with a suspected relation to study medication. One patient discontinued study medication due to post‐transplant lymphoproliferative disease (5.6%). Everolimus with reduced‐dose CsA and corticosteroids achieved good efficacy and renal function and was well tolerated in this small cohort of pediatric kidney transplant patients. Controlled trials are required to answer remaining questions about the optimal use of everolimus in this setting.     

Immune‐mediated nephropathies in kidney transplants: recurrent or de novo diseases

IMN contribute to ESRD in 13% children with renal transplant (txp). Recurrent or de novo IMN can cause graft dysfunction and/or failure, but the details regarding incidence, therapy, and outcome remain poorly understood. Retrospective single‐center study of all pediatric kidney txp was carried out since 1998. Clinical presentation, pathology, therapy, and graft outcomes of children with recurrent or de novo IMN were reviewed. IMN was the primary etiology of ESRD in 28 of the 149 txp recipients. Eleven children had biopsy‐proven post‐txp IMN—six were recurrent and five had de novo. Presentation varied with changes in SCr and/or proteinuria. Initial therapy included higher doses of steroids, MMF, and tacrolimus. Outcome was excellent with only one late graft loss. Full remission was achieved in all other patients, but some had re‐recurrence of the IMN. Median follow‐up time was 11.8 years. IMN (recurrent or de novo) occurred in 7.4% (11 of 149) of all kidney txp performed at our center. IMN post‐txp was often seen late post‐txp, usually asymptomatic and noted to have relapsing pattern. Early diagnosis and prompt therapy resulted in excellent long‐term outcome in children diagnosed with post‐txp IMN.     

Anuria since birth: does it impact outcome of kidney transplant in infants?

Kidney transplantation (txp) in infants has recently made much progress but provides a unique challenge in infants anuric since birth. Little data exists on outcome of renal txp recipients with anuria since birth. Retrospective chart review was done for outcome of 27 children with wt ≤15 kg and they were divided into two groups: Group A (N=21) with urine output and Group B (N=6) anuric since birth had their urological complications and long‐term outcome compared. Median age at the time of txp 18 vs 23 months, mean wt 10.8 vs 11.8 kg, and mean ht 77 cm in both, mean follow‐up post‐txp: 9.4 vs 5.6 years, and neurological problems were noted in 48% and 33% in Group A and Group B. There was no graft thrombosis or post‐transplant lymphoproliferative disease and only two rejections. Anuric Group B were older, had more post‐txp urological surgeries (66% vs 19%) and UTIs (66% vs 38%) compared to Group A. The overall graft survival at 1, 5, and 10 years was 96%, 86%, and 70%; patient survival at 1, 5, and 10 years was 96%, 85%, and 85%. Long‐term graft outcomes in small children, anuric prior to txp, were excellent despite higher rates for UTIs and urological complications.