Use of eculizumab in children with allogeneic haematopoietic stem cell transplantation associated thrombotic microangiopathy - a multicentre retrospective PDWP and IEWP EBMT study

Real World Application of Recently Proposed ASTCT/CIBMTR/ eBMT/ APBMT Consensus Risk Stratification for Transplant Associated Thrombotic Microangiopathy (TA-TMA) in Children

BACKGROUND

Consensus diagnostic and risk stratification of transplant associated thrombotic microangiopathy (TA-TMA) was recently achieved from international transplantation groups (Schoettler et al, TCT, 2023). While the diagnostic criteria proposed have been applied to multiple pediatric cohorts, there are scant data applying the novel risk stratification approach in children with TA-TMA.

METHODS

In this retrospective cohort study, all children undergoing an allogeneic HCT or autologous HCT for neuroblastoma were prospectively screened for TA-TMA, diagnosed and risk-stratified using Jodele criteria from August 2019- October 2023. Our institutional practice during the study period was treat all Jodele intermediate and high-risk patients (IR, HR) with eculizumab. Harmonization risk stratification criteria were retrospectively applied. All survival analyses were calculated from the day of TA-TMA diagnosis. To identify which specific harmonization high-risk feature(s) were the most important predictors for NRM, full and reduced logistic regression models were tested. The lowest BIC and optimal Mallows' CP statistic were used to identify the best subset. SAS 9.4 (Cary, NC) was used to complete the analysis.

RESULTS

Fifty-two children were diagnosed with TA-TMA during the study period a median of 37.5 days post HCT (range 3 to 735). Using Jodele risk stratification, 11 (21%) were SR, 21 (40%) intermediate risk, and 20 (39%) high- risk (HR). Forty (77%) were treated with eculizumab. There were no statistically significant differences in NRM among Jodele risk groups, though overall survival was significantly different. Using the harmonized stratification, 49 (94%) of children were stratified as HR and 3 as SR, there were no statistically significant differences in NRM or OS between groups. Eight (15.4%) children were classified as SR using Jodele risk stratification but re-stratified as HR using the harmonization criteria. One (12.5%) died in the setting of severe GVHD and the remaining 7 patients are alive at last follow up. In a best subset model, LDH >2x ULN (OR 6.52, 95% CI 0.96-44.3, p=0.05), grade 2-4 acute GVHD at the time of TA-TMA diagnosis (OR 15.4, 95% CI 2.14- 110.68, p=0.01), and multi-organ dysfunction at the time of TA-TMA (OR 21.5, 95% CI 2.96-156.37, p=0.002) were significantly associated with NRM; elevated sC5b-9, rUPCR, and viral infections were not significantly associated with NRM. Using these best fit criteria, 14 patients were classified as SR and 38 as HR; NRM was significantly higher and OS significantly lower.

DISCUSSION

In this cohort of children with TA-TMA retrospective application of harmonization criteria resulted in more patients stratified as HR than previously described Jodele criteria. The intention of the harmonization criteria was to identify those at highest risk of poor outcomes; while all harmonization SR patients survived, this risk stratification was very sensitive. Previous criticisms of harmonization risk stratification include limited access to sC5b-9 testing- these data suggest that concurrent MOD, acute GVHD, and LDH >2X ULN are the most important predicators of NRM in this cohort, supporting the use of harmonization risk stratification even in the absence of available sC5b-9 testing. Additional studies are needed to validate these findings.

Use of Eculizumab in Pediatric Patients with High-Risk Transplantation-Associated Thrombotic Microangiopathy: Outcomes and Risk Factors Associated with Response and Survival. A Retrospective Study on Behalf of the Spanish Group for Hematopoietic Transplantation and Cellular Therapy (GETH-TC)

Transplantation-associated thrombotic microangiopathy (TA-TMA) is associated with high morbidity and mortality. Although survival has improved significantly with the introduction of eculizumab, the need for improvement remains, especially in high-risk patients. This study aimed to describe the results obtained with eculizumab in a pediatric cohort with the attempt to define which risk factors could determine the response to treatment. We designed a national multicenter retrospective study of children treated with eculizumab for high-risk TA-TMA. The study cohort comprised 29 patients who had undergone a first (n = 28) or second (n = 1) allogeneic hematopoietic stem cell transplantation (HSCT) for malignant (n = 17) or nonmalignant (n = 12) disease. The median time from HSCT to TA-TMA diagnosis was 154 days (interquartile range [IQR], 103 to 263 days). Eleven patients (38%) who were initially diagnosed with low- to intermediate-risk TA-TMA progressed to high-risk TA-TMA (hrTA-TMA), within a median time of 4 days (IQR, 1 to 33 days). SC5b-9 was increased in 90% of 20 patients in whom it was measured. Renal (n = 12), pulmonary (n = 1), and intestinal (n = 1) biopsy confirmed the diagnosis in 12 of 14 patients (85%). Seventeen patients (58%) had extrarenal involvement with serositis (n = 13; 44,8%), pulmonary (n = 12; 41,4%), gastrointestinal (n = 8; 27.6%), cardiovascular (n = 7; 24.1%), or central nervous system (CNS) (n = 2; 6.9%) involvement. The median time from hrTA-TMA diagnosis to the initiation of eculizumab was 7 days (IQR, 1 to 8 days). Overall, 19 patients (65.5%) responded to eculizumab, of whom 17 (58.6%) achieved a complete response and 2 (6.9%) achieved a partial response. The remaining 10 patients (34.5%) did not show any of response. The overall response rate to eculizumab for TA-TMA was 27.59% (95% confidence interval [CI], 14.87% to 47.66%) at 1 month, 55.17% (95% CI, 38.43% to 73.48%) at 3 months, and 62.07% (95% CI, 45.10% to 79.13%) at 6 months after eculizumab initiation. In multivariate analysis, the pulmonary involvement decreased the probability of response (hazard ratio [HR], .18; P = .0298). The 1-year overall survival (OS) was 55.2% (95% CI, 35.6% to 71.0%) for the whole cohort and 83.3% (95% CI, 56.7% to 94.3%) for patients who responded to eculizumab. Pulmonary involvement (HR, 14.93; P = .0043) and CNS involvement (HR, 8.63; P = .0497) were associated with a statistically significant decrease in survival. We found that patients diagnosed with hrTA-TMA with pulmonary involvement had a poor response to eculizumab, and that patients with pulmonary and CNS involvement had significantly decreased survival. Given these results, we hypothesize that providing eculizumab therapy at an early stage of the disease before organ damage is established might significantly improve the response and, consequently, survival.

Pediatric transplant-associated thrombotic microangiopathy health care utilization and implications of eculizumab therapy

ABSTRACT

The health care use (HCU) burden of transplant-associated thrombotic microangiopathy (TA-TMA) and its treatments are unknown. The objective of this study was to investigate inpatient costs associated with meeting criteria for TA-TMA in the first year after hematopoietic cell transplant (HCT). This institutional review board-approved retrospective multicenter study included serial children who underwent HCT from 1 January 2015 to 1 July 2019. A standardized unit cost (adjusted for geographic location, differences in cost of living, and inflation) for inpatient hospitalization was extracted from the Pediatric Health Information System data and linked to clinical data. Both total cost and cost per day from 15 days before stem cell infusion to 1-year after HCT were calculated. Among allogeneic (allo) transplant recipients, after adjusting for severe grade 3/4 acute graft-versus-host disease (GVHD), infections, and HLA mismatch, costs were not different in TA-TMA (n = 137) vs no TA-TMA (n = 238). Severe GVHD was significantly associated with increased costs. Among allo high-risk (HR) TMA-TMA, unadjusted costs were significantly higher in the eculizumab-treated cohort (n = 19) than in the supportive care group (n = 36). However, after adjusting for gastrointestinal bleeding that occurred disproportionately in the eculizumab (n = 6) vs supportive care (n = 0) cohort, eculizumab treatment was not associated with increased total costs. More studies are needed to determine the etiology of increased HCU costs in those with HR-TA-TMA and predict those more likely to benefit from eculizumab, reducing HCU and improving outcomes.

Compassionate Use Narsoplimab for Severe Refractory Transplantation-Associated Thrombotic Microangiopathy in Children

Transplant-associated thrombotic microangiopathy (TA-TMA) is a common and potentially severe complication of hematopoietic cell transplantation. TA-TMA-directed therapy with eculizumab, a complement C5 inhibitor, has resulted in a survival benefit in some studies. However, children with TA-TMA refractory to C5 inhibition with eculizumab (rTA-TMA) have mortality rates exceeding 80%, and there are no other known therapies. Narsoplimab, an inhibitor of the MASP-2 effector enzyme of the lectin pathway, has been studied in adults with TA-TMA as first-line therapy with a response rate of 61%. Although there are limited data on narsoplimab use as a second-line agent in children, we hypothesized, that complement pathways proximal to C5 are activated in rTA-TMA, and that narsoplimab may ameliorate rTA-TMA in children. In this single-center study, children were enrolled on single-patient, Institutional Review Board-approved compassionate use protocols for narsoplimab treatment. Clinical complement lab tests were obtained at the discretion of the treating physician, although all patients were also offered participation in a companion biomarker study. Research blood samples were obtained at the time of TA-TMA diagnosis, prior to eculizumab treatment, at the time of refractory TA-TMA diagnosis prior to the first narsoplimab dose, and 2 weeks after the first narsoplimab dose. Single ELISA kits were used to measure markers of complement activation according to the manufacture's instructions. Five children with rTA-TMA received narsoplimab; 3 were in multiorgan failure and 2 had worsening multiorgan dysfunction at the time of treatment. Additional comorbidities at the time of treatment included sinusoidal obstructive syndrome (SOS; n = 3), viral infection (n = 3), and steroid-refractory stage 4 lower gut grade IV acute graft-versus-host disease (aGVHD, n = 3). Two infants with concurrent SOS and no aGVHD had resolution of organ dysfunction; 1 also developed transfusion-independence (complete response), and the other's hematologic response was not assessable in the setting of leukemia and chemotherapy (partial response). One additional patient achieved transfusion independence but had no improvement in organ manifestations (partial response), and 2 patients treated late in the course of disease had no response. Narsoplimab was well tolerated without any attributed adverse effects. Three patients consented to provide additional research blood samples. One patient with resolution of organ failure demonstrated evidence of proximal pathway activation prior to narsoplimab treatment with subsequent declines in Ba, Bb, C3a, and C5a and increases in C3 in both clinical and research lab tests. Otherwise, there was no clear pattern of other complement markers, including MASP-2 levels, after therapy. In this cohort of ill children with rTA-TMA and multiple comorbidities, 3 patients benefited from narsoplimab. Notably, the 2 patients with resolution of organ involvement did not have steroid-refractory aGVHD, which is thought to be a critical driver of TA-TMA. Additional studies are needed to determine which patients are most likely to benefit from narsoplimab and which markers may be most helpful for monitoring lectin pathway activation and inhibition.

Onconephrology and Thrombotic Microangiopathy: Looking Beyond the Horizon

Thrombotic microangiopathies (TMAs) represent a complex interaction of endothelial and podocyte biology, nephron physiology, complement genetics, and oncologic therapies with host immunology. The complexity of various factors, such as molecular causes, genetic expressions, and immune system mimicking, along with incomplete penetrance, make it difficult to find a straightforward solution. As a result, there may be variations in diagnosis, study, and treatment approaches, and achieving a consensus can be challenging. Here, we review the molecular biology, pharmacology, immunology, molecular genetics, and pathology of the various TMA syndromes in the setting of cancer. Controversies in etiology, nomenclature, and points requiring further clinical, translational, and bench research are discussed. Complement-mediated TMAs, chemotherapy drug-mediated TMAs, TMAs in monoclonal gammopathy, and other TMAs central to onconephrology practice are reviewed in detail. In addition, established and emerging therapies within the US Food and Drug Administration pipeline subsequently are discussed. Finally, a comprehensive review of critical areas of onconephrology clinical practice is presented as practical value to the clinical practitioner and seeds of investigation to be sown among the community of atypical hemolytic uremic syndrome researchers.