Association of Matched Sibling Donor Hematopoietic Stem Cell Transplantation With Transcranial Doppler Velocities in Children With Sickle Cell Anemia

Overview

Journal JAMA

Publisher American Medical Association

Specialty General Medicine

Date 2019 Jan 23

PMID 30667500

Citations 29

Authors

Francoise Bernaudin

Suzanne Verlhac

Regis Peffault de Latour

Jean-Hugues Dalle

Valentine Brousse

Eleonore Petras

Isabelle Thuret

Catherine Paillard

Benedicte Neven

Claire Galambrun

Lydia Divialle-Doumdo

Corinne Pondarre

Corinne Guitton

Florence Missud

Camille Runel

Charlotte Jubert

Gisele Elana

Elisabeth Ducros-Miralles

Elise Drain

Olivier Taieb

Cecile Arnaud

Annie Kamdem

Aurore Malric

Monique Elmaleh-Berges

Manuela Vasile

Emmanuella Leveille

Gerard Socie

Sylvie Chevret

Affiliations

Soon will be listed here.

Abstract

Importance: In children with sickle cell anemia (SCA), high transcranial Doppler (TCD) velocities are associated with stroke risk, which is reduced by chronic transfusion. Whether matched sibling donor hematopoietic stem cell transplantation (MSD-HSCT) can reduce velocities in patients with SCA is unknown.

Objective: To determine the association of MSD-HSCT with TCD velocities as a surrogate for the occurrence of ischemic stroke in children with SCA.

Design, Setting, And Participants: Nonrandomized controlled intervention study conducted at 9 French centers. Patients with SCA were enrolled between December 2010 and June 2013, with 3-year follow-up ending in January 2017. Children with SCA were eligible if younger than 15 years, required chronic transfusions for persistently elevated TCD velocities, and had at least 1 sibling without SCA from the same 2 parents. Families agreed to HLA antigen typing and transplantation if a matched sibling donor was identified or to standard care in the absence of a matched sibling donor.

Exposures: MSD-HSCT (n = 32), compared with standard care (n = 35) (transfusions for ≥1 year with potential switch to hydroxyurea thereafter), using propensity score matching.

Main Outcomes And Measures: The primary outcome was the highest time-averaged mean of maximum velocities in 8 cerebral arteries, measured by TCD (TCD velocity) at 1 year. Twenty-five of 29 secondary outcomes were analyzed, including the highest TCD velocity at 3 years and normalization of velocities (<170 cm/s) and ferritin levels at 1 and 3 years.

Results: Sixty-seven children with SCA (median age, 7.6 years; 35 girls [52%]) were enrolled (7 with stroke history). In the matched sample, highest TCD velocities at 1 year were significantly lower on average in the transplantation group (129.6 cm/s) vs the standard care group (170.4 cm/s; difference, -40.8 cm/s [95% CI, -62.9 to -18.6]; P < .001). Of the 25 analyzed secondary end points, 4 showed significant differences, including the highest TCD velocity at 3 years (112.4 cm/s in the transplantation group vs 156.7 cm/s in the standard care group; difference, -44.3 [95% CI, -71.9 to -21.1]; P = .001); normalization rate at 1 year (80.0% in the transplantation group vs 48.0% in the standard care group; difference, 32.0% [95% CI, 0.2% to 58.6%]; P = .045); and ferritin levels at 1 year (905 ng/mL in the transplantation group vs 2529 ng/mL in the standard care group; difference, -1624 [95% CI, -2370 to -879]; P < .001) and 3 years (382 ng/mL in the transplantation group vs 2170 ng/mL in the standard care group; difference, -1788 [95% CI, -2570 to -1006]; P < .001).

Conclusions And Relevance: Among children with SCA requiring chronic transfusion because of persistently elevated TCD velocities, MSD-HSCT was significantly associated with lower TCD velocities at 1 year compared with standard care. Further research is warranted to assess the effects of MSD-HSCT on clinical outcomes and over longer follow-up.

Trial Registration: ClinicalTrials.gov Identifier: NCT01340404.

Citing Articles

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Jones J, Wool J, Crowe E, Bloch E, Pecker L, Lanzkron S Transfusion. 2024; 64(12):2260-2269.

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Incremental eligibility criteria for the BMT CTN 1507 haploidentical trial for children with sickle cell disease.

John T, Walters M, Rangarajan H, Rahim M, McKinney C, Bollard C Blood Adv. 2024; 8(23):6055-6063.

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Stroke Prevention and Treatment for Youth with Sickle Cell Anemia: Current Practice and Challenges and Promises for the Future.

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PMID: 38517255 PMC: 11730142. DOI: 10.1002/ajh.27297.

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