Abstract
Reduced-intensity conditioning (RIC) regimens have been shown to decrease transplant-related morbidity and mortality; however, this comes with an increased risk of graft failure and morbidity and mortality secondary to infections following intense serotherapy. Here we report a novel RIC regimen for chemotherapy-naïve patients. (Trial: NCT01852370).
Between 2012 and 2015, 28 patients with non-malignant conditions underwent first hematopoietic cell transplantation (HCT) using either single-unit umbilical cord blood (UCB; n=23) or bone marrow (4 unrelated, 1 mismatched maternal donor) at the Children's Hospital of Pittsburgh of UPMC. Patients received alemtuzumab (0.7-2.2 mg/kg), hydroxyurea (30 mg/kg/day), fludarabine (150 mg/m2), melphalan (140 mg/m2), and thiotepa (200 mg/m2) with tacrolimus and mycophenolate mofetil as GVHD prophylaxis. Patient and graft characteristics are shown in the table.
Neutrophil engraftment occurred in all patients at a median of 14 days post-HCT. Platelet engraftment (>20K) occurred at a median of 35 days post-HCT in 24 of 25 evaluable patients. 1 patient developed graft failure prior to platelet engraftment, and 3 patients were not evaluable due to mucosal bleeding requiring prolonged transfusion (Table). 27 of 28 patients had >98% donor whole blood chimerism at first measurement, performed at a median of 28 days post-HCT. The median chimerism was 100% in whole blood (range: 50-100%; n=20) and T cell fraction (range: 0-100%; n=18) at 6 months post-HCT, and 100% (range: 83-100%; n=16) in whole blood and 100% (range: 71-100%; n=13) in the T cell fraction at 12 months. 1 patient had graft failure at day +38 and after autologous reconstitution, underwent a successful second single-unit umbilical cord blood transplant. No patient developed VOD, IPS, hemorrhagic cystitis, or pericardial effusion requiring drainage.
T cell reconstitution commenced between 100-180 days post-HCT (Fig. 1A), and in some, TREC numbers and TCR Vβ repertoire achieved pre-transplant values by 9 months post-HCT. Fifteen patients developed viremia with CMV (n=7), EBV (n=6), adenovirus (n=5), or HHV-6 (n=5); however, only two developed serious viral disease. The incidence of acute GVHD was low, with 7 patients developing grade II-IV acute GVHD, and only 1 developing grade III-IV acute GVHD (Fig. 1B). All patients responded to therapy. None of the 24 patients who are beyond Day 180 post-UCBT have developed extensive chronic GVHD. 13 of 18 patients evaluable at 1 year post-HCT are completely off systemic immunosuppression, and 12 of 18 no longer require IgG supplementation. Two patients died after day +100 post-transplant, one from cardiopulmonary complications of viruses acquired pre-transplant (CMV, adenovirus, and parainfluenza), and one from disease progression. Twenty-six patients (92%) are alive with a median follow-up of 22 months (range 1.5-47 months) (Fig. 1C).
In conclusion, this novel RIC regimen allows for rapid engraftment of donor cells and immune reconstitution in chemotherapy-naive patients with acceptable rates of viral reactivation and GVHD despite the use of single-unit UCB grafts in most cases. High rates of survival and improved quality of life was associated with a low incidence of end-organ toxicity and absence of extensive cGVHD.
Characteristic . | . | N=28 . |
---|---|---|
Age (years) - median (range) | 1.6 (0.5-33.0) | |
Gender - no. (%) | Male | 12 (43%) |
Diagnosis - no. (%) | Krabbe | 7 (25%) |
Metachromatic Leukodystrophy | 5 (18%) | |
MHC II Deficiency | 2 (7%) | |
Diamond-Blackfan Anemia | 2 (7%) | |
Cartilage-Hair Hypoplasia | 1 (4%) | |
Combined Immunodeficiency (CID) | 1 (4%) | |
CID with Intestinal Atresias | 1 (4%) | |
DiGeorge Syndrome | 1 (4%) | |
Gaucher Disease | 1 (4%) | |
HLH | 1 (4%) | |
Hunter Syndrome | 1 (4%) | |
Severe Congenital Neutropenia | 1 (4%) | |
Tay-Sachs Disease | 1 (4%) | |
X-linked Adrenoleukodystrophy | 1 (4%) | |
XLP2 | 1 (4%) | |
Osteopetrosis | 1 (4%) | |
Stem Cell Source | UCB | 23 (82%) |
Marrow | 5 (18%) | |
Cell dose (E+07; TNC/kg) - median (range) | UCB | 10.2 (3.8-22.5) |
Marrow | 31.4 (11.8-86.0) | |
Cell dose (E+05; CD34/kg) - median (range) | UCB | 3.33 (1.55-9.00) |
Marrow | 22.4 (44.2-91.4) | |
Match (UCB) - no. (%) | 6/6 | 9 (39%) |
5/6 | 7 (30%) | |
4/6 | 7 (30%) | |
Match (Marrow) - no. (%) | 8/8 | 4 (80%) |
7/8 | 1 (20%) | |
ABO mismatch - no. (%) | 19 (68%) | |
Neutrophil engraftment (days) - median (range) | 14 (9-33) | |
Platelet >20K (days; N=24) - median (range) | 35 (17-56) | |
Platelets >50K (days; N=25) - median (range) | 37 (18-105) |
Characteristic . | . | N=28 . |
---|---|---|
Age (years) - median (range) | 1.6 (0.5-33.0) | |
Gender - no. (%) | Male | 12 (43%) |
Diagnosis - no. (%) | Krabbe | 7 (25%) |
Metachromatic Leukodystrophy | 5 (18%) | |
MHC II Deficiency | 2 (7%) | |
Diamond-Blackfan Anemia | 2 (7%) | |
Cartilage-Hair Hypoplasia | 1 (4%) | |
Combined Immunodeficiency (CID) | 1 (4%) | |
CID with Intestinal Atresias | 1 (4%) | |
DiGeorge Syndrome | 1 (4%) | |
Gaucher Disease | 1 (4%) | |
HLH | 1 (4%) | |
Hunter Syndrome | 1 (4%) | |
Severe Congenital Neutropenia | 1 (4%) | |
Tay-Sachs Disease | 1 (4%) | |
X-linked Adrenoleukodystrophy | 1 (4%) | |
XLP2 | 1 (4%) | |
Osteopetrosis | 1 (4%) | |
Stem Cell Source | UCB | 23 (82%) |
Marrow | 5 (18%) | |
Cell dose (E+07; TNC/kg) - median (range) | UCB | 10.2 (3.8-22.5) |
Marrow | 31.4 (11.8-86.0) | |
Cell dose (E+05; CD34/kg) - median (range) | UCB | 3.33 (1.55-9.00) |
Marrow | 22.4 (44.2-91.4) | |
Match (UCB) - no. (%) | 6/6 | 9 (39%) |
5/6 | 7 (30%) | |
4/6 | 7 (30%) | |
Match (Marrow) - no. (%) | 8/8 | 4 (80%) |
7/8 | 1 (20%) | |
ABO mismatch - no. (%) | 19 (68%) | |
Neutrophil engraftment (days) - median (range) | 14 (9-33) | |
Platelet >20K (days; N=24) - median (range) | 35 (17-56) | |
Platelets >50K (days; N=25) - median (range) | 37 (18-105) |
No relevant conflicts of interest to declare.
Author notes
Asterisk with author names denotes non-ASH members.
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