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5 Participants Needed

Bone Marrow Transplant for Sickle Cell Disease

Overseen ByPaul Szabolcs, MD

Age: < 65

Sex: Any

Trial Phase: Phase 1 & 2

Sponsor: Paul Szabolcs

Must be taking: Hydroxyurea

Disqualifiers: Pregnancy, CNS event, Infections, others

No Placebo GroupAll trial participants will receive the active study treatment (no placebo)

Approved in 2 JurisdictionsThis treatment is already approved in other countries

What You Need to Know Before You Apply

What is the purpose of this trial?

This trial examines how a bone marrow transplant from a mismatched donor might benefit individuals with severe sickle cell disease and other blood disorders requiring regular transfusions. Known as a T-Cell Depleted Alternative Donor Bone Marrow Transplant, this approach aims to increase transplant accessibility by using donors who are not a perfect match. The study also seeks to reduce complications such as graft-versus-host disease, where donor cells attack the recipient's body. Suitable candidates include those with sickle cell disease experiencing frequent pain episodes or chest problems, or those dependent on regular blood transfusions. As a Phase 1, Phase 2 trial, this research focuses on understanding the treatment's function in people and measuring its effectiveness in an initial, smaller group.

Will I have to stop taking my current medications?

The trial information does not specify if you need to stop taking your current medications. However, it does mention that hydroxyurea must have been tried and failed for patients with sickle cell disease, which might imply some changes in medication. It's best to discuss your specific medications with the trial team.

What prior data suggests that this T-Cell Depleted Alternative Donor Bone Marrow Transplant is safe for patients with severe sickle cell disease?

Previous studies have shown promise for bone marrow transplants from alternative donors, with certain immune cells (T-cells) removed, in patients with severe sickle cell disease. Research indicates that this method, which uses a specific type of donor stem cell, is generally well-tolerated. Removing T-cells reduces the risk of complications like graft-versus-host disease, where donor cells attack the recipient’s body.

One study found that this T-cell depleted approach led to successful engraftment, meaning the donor cells started to grow and produce new blood cells without severe complications in patients with sickle cell disease. Other studies have reported that patients did not experience serious issues like sinusoidal obstruction syndrome (a liver condition) or veno-occlusive disease (a type of blood vessel blockage in the liver).

While these findings are encouraging, it is important to remember that this treatment is still being tested. Participants in clinical trials help researchers learn more about its safety and effectiveness.¹ ² ³ ⁴ ⁵

Why are researchers excited about this trial's treatment for sickle cell disease?

Unlike the standard treatments for sickle cell disease, such as hydroxyurea or regular blood transfusions, this approach uses a T-cell depleted alternative donor bone marrow transplant. Researchers are excited because this method specifically targets and depletes CD3+/CD19+ cells, reducing the risk of graft-versus-host disease, which is a common complication of transplants. Additionally, by using HLA mismatched or haploidentical donors, it increases the availability of potential donors, making transplants more accessible for patients. This innovative technique aims to provide a more effective and safer option for those with sickle cell disease, offering hope for improved outcomes.

What evidence suggests that this T-Cell Depleted Alternative Donor Bone Marrow Transplant is effective for severe sickle cell disease?

Research has shown that using specially prepared stem cells from partially matched donors can help treat severe sickle cell disease. In this trial, participants will receive a T-Cell Depleted Alternative Donor Bone Marrow Transplant. Earlier studies demonstrated that patients who received these transplants successfully had the new stem cells start working in their bodies. This method reduces the risk of a common problem where the new stem cells attack the body. Early research indicates that this approach can work even for patients who typically have fewer donor options.¹ ² ³ ⁴ ⁵

Who Is on the Research Team?

Paul Szabolcs, MD

Principal Investigator

University of Pittsburgh

Are You a Good Fit for This Trial?

This trial is for people aged 5-40 with severe sickle cell disease or other anemias needing many blood transfusions and showing organ damage. They must have tried Hydroxyurea without success, not be pregnant, HIV negative, and agree to birth control post-transplant. A suitable donor match is also required.

Inclusion Criteria

I agree to use approved birth control methods for the required time.

I am between 5 and 40 years old.

Patient, parent, or legal guardian must have given written informed consent and/or assent according to FDA guidelines

See 5 more

Exclusion Criteria

I had a stem cell transplant less than 6 months ago.

I do not have any uncontrolled infections.

Patients with past or current medical problems that may pose additional risks, interfere with study requirements, or impact data quality

See 3 more

Timeline for a Trial Participant

Screening

Participants are screened for eligibility to participate in the trial

2-4 weeks

Conditioning

Participants undergo reduced-intensity, immune-ablative conditioning to prepare for stem cell transplant

2-3 weeks

Transplantation

Participants receive a CD3+/CD19+ depleted stem cell transplant from mismatched unrelated or haploidentical related donors

1 day

1 visit (in-patient)

Post-Transplant Monitoring

Participants are monitored for engraftment, immune reconstitution, and complications such as graft-versus-host disease

6 months

Regular visits (in-person and virtual)

Follow-up

Participants are monitored for long-term outcomes including chronic GVHD, organ toxicity, and quality of life

Up to 2 years

What Are the Treatments Tested in This Trial?

Interventions

T-Cell Depleted Alternative Donor Bone Marrow Transplant

Trial Overview The study tests if stem cell transplants from mismatched unrelated or related donors can help treat severe sickle cell disease and other anemias requiring frequent transfusions. It aims to reduce graft-versus-host disease using a T-cell depleted method in the transplant process.

How Is the Trial Designed?

1Treatment groups

Experimental Treatment

Group I: Hematopoietic Stem Cell TransplantationExperimental Treatment7 Interventions

All patients will receive a CD3+/CD19+ depleted stem cell transplant. In this study, the investigators will use HLA mismatched unrelated or haploidentical related donor peripheral blood stem cells. Prior to transplantation, the marrow (90-95%) will be negatively selected for CD3/CD19 using the ClinicMACs® depletion device. The remaining (5-10%) will undergo CD45+RA+ depletion and be frozen for future use as an immune boost. Subjects will undergo hematopoietic stem cell transplant utilizing CD3+/CD19+ depleted cells following conditioning therapy.

T-Cell Depleted Alternative Donor Bone Marrow Transplant is already approved in United States, European Union for the following indications:

Approved in United States as T-Cell Depleted Alternative Donor Bone Marrow Transplant for:

Severe Sickle Cell Disease
Transfusion Dependent Anemias

Approved in European Union as T-Cell Depleted Haploidentical Stem Cell Transplant for:

Severe Sickle Cell Disease
Acute Leukemias
Other Hematological Disorders

Find a Clinic Near You

Who Is Running the Clinical Trial?

Paul Szabolcs

Lead Sponsor

Trials

Recruited

230+

Published Research Related to This Trial

Matched sibling marrow, cord blood, or mobilized peripheral blood are the most effective sources for allogeneic hematopoietic stem cell transplantation in sickle cell disease, showing low rates of graft rejection and graft-versus-host disease (GVHD) along with high disease-free survival rates.

While fully matched unrelated donors are a viable option for patients without matched siblings, unrelated cord blood transplants have been associated with high GVHD and low engraftment rates, indicating that the choice of donor type should be guided by the expertise available at the treatment institution.

NCBI (Pubmed)

pubmed.ncbi.nlm.nih.gov

Hematopoietic stem cell transplantation for patients with sickle cell disease: progress and future directions.Fitzhugh, CD., Abraham, AA., Tisdale, JF., et al.[2022]

Haploidentical hematopoietic cell transplants offer a near-universal solution for patients with severe sickle cell disease, providing a potential cure when matched related donors are unavailable.

Both T-cell deplete and T-cell replete transplant approaches show comparable outcomes, allowing for individualized treatment decisions based on patient needs and institutional preferences.

NCBI (Pubmed)

pubmed.ncbi.nlm.nih.gov

T-cell deplete versus T-cell replete haploidentical hematopoietic stem cell transplantation for sickle cell disease: where are we?Patel, DA., Akinsete, AM., Connelly, JA., et al.[2020]

Hematopoietic stem cell transplantation remains the only curative treatment for sickle cell disease, but many patients lack an HLA-matched sibling donor, which limits their options.

Alternative donor options, including haploidentical, unrelated umbilical cord blood, and matched unrelated donor transplants, should be systematically considered for patients without a matched sibling to improve their chances of receiving potentially life-saving treatment.

NCBI (Pubmed)

pubmed.ncbi.nlm.nih.gov

When there is no match, the game is not over: Alternative donor options for hematopoietic stem cell transplantation in sickle cell disease.Joseph, JJ., Abraham, AA., Fitzhugh, CD.[2019]

Citations

1.clinicaltrials.govclinicaltrials.gov/study/NCT03653338?cond=Sickle%20cell-beta-thalassemia%20disease%20syndrome%20OR%20%22Hb%20S-Beta%20thalassemia%22%20OR%20%22%20HbS-beta-thalassemia%20syndrome%22%20OR%20%22%20S-Beta%20thalassemia%22%20OR%20%22%20sickle%20cell-Beta%20thalassemia%22%20OR%20%22%20sickle%20cell-Beta-thalassemia%22&aggFilters=status:not%20rec&viewType=Table&rank=2

T-Cell Depleted Alternative Donor Bone Marrow Transplant ...The purpose of this study is to evaluate what effect, if any, mismatched unrelated volunteer donor and/or haploidentical related donor stem cell transplant ...

2.centerwatch.comcenterwatch.com/clinical-trials/listings/NCT03653338/t-cell-depleted-alternative-donor-bone-marrow-transplant-for-sickle-cell-disease-scd-and-other-anemias

3.nature.comnature.com/articles/s41409-025-02546-w

αß T-cell depleted haploidentical stem cell transplantation ...Treosulfan-based T-cell depleted haplo-HSCT can achieve comparable OS and DFS even in young adult TDT patients with no SOS/VOD.

4.pmc.ncbi.nlm.nih.govpmc.ncbi.nlm.nih.gov/articles/PMC5728546/

Alternative donor hematopoietic stem cell transplantation for ...A CD34-selected, T-cell–depleted alternative donor graft after a reduced conditioning regimen resulted in engraftment in patients with sickle cell.

5.astctjournal.orgastctjournal.org/article/S2666-6367(23)01321-0/fulltext

CD3+TCRαβ/CD19+-Depleted Mismatched Family or ...This single-center retrospective case series reports the outcomes of salvage CD3+TCRαβ/CD19-depleted mismatched family or unrelated donor stem ...

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Bone Marrow Transplant for Sickle Cell Disease

What You Need to Know Before You Apply

Who Is on the Research Team?

Are You a Good Fit for This Trial?

Timeline for a Trial Participant

What Are the Treatments Tested in This Trial?

Find a Clinic Near You

Who Is Running the Clinical Trial?

Published Research Related to This Trial

Citations

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