Allogenomic Mismatch Score (AMS) Applied to Haplo-identical Donor/Recipient Pairs in Haematopoietic Stem Cell Transplantation

Completed

• Conditions: Haplo-identical; Stem Cell Transplantation
• Interventions: Other: Assessment of the Allogenomic Mismatch Score (AMS); Other: Assessment of the optimised Allogenomic Mismatch Score (AMS)

• Registration Number: NCT05243498
• Lead Sponsor: Central Hospital, Nancy, France

Brief Summary

The occurrence of acute and/or chronic GVH (Graf Versus Host disease) for recipients undergoing HSCT (haematopoietic stem cell transplantation) with a geno-identical donor suggests the implication of other systems or genes than those involved in HLA (Human Leukocyte Antigen) compatibility.

In kidney transplantation, it has been shown that the AMS (allogenomic mismatch score) is correlated with the probability of survival of the graft. This AMS reflects the degree of differences between the immunopeptidomes of the recipient and his donor as it is a continuous variable based on the number of nsSNP (non synonymous Single Nucletotide Polymorphism) between the donor and the recipient. Roughly, the exome of the donor is aligned to the exome of the recipient, allowing to count the number of variations that will generate a peptide present in the recipient but absent in in the donor. In this case, peptide presented by the recipient's cells is not part of the donor's immunopeptidome, leading to an activation of the donor's immunocompetent cells toward this antigen, i.e. to alloreactivity that may cause GVL (Graft Versus Leukemia) and/or GVH.

This study aims to highlight significant correlations between the occurrence of acute and/or chronic GVH after haplo-identical stem cell transplantation and the AMS.

This would allow to use the AMS as a predictive factor of acute or chronic GVH, which could be employed to select the best donor for one particular recipient and/or personalize the immunotherapies after transplantation

Detailed Description

Not available

Study Timeline

• Study Start: 2015-03-23
• Primary Completion: 2020-11-06
• Study Completion: 2020-11-06
• Study First Submitted: 2022-01-13
• Status Verified: 2022-02
• Study First Submitted QC: 2022-02-07
• Last Update Submitted: 2022-02-07
• Study First Posted: 2022-02-17
• Last Update Posted: 2022-02-17

Recruitment & Eligibility

• Status: COMPLETED
• Sex: All
• Target Recruitment: 80

Inclusion Criteria

• • Recipients who underwent haplo-identical stem cell transplantation in CHRU (Centre Hospitalier Régional et Universitaire) de Nancy
• Recipients transplanted between 03/01/2015 et 01/01/2020
• Recipient older than 18 years old at time of transplant
• Available DNA for the recipient and his donor.

Exclusion Criteria

• Recipient died within the 6 months following the transplantation without acute GVH (unknown status for one of the measured outcomes)

Study & Design

• Study Type: OBSERVATIONAL
• Study Design: Not specified

Arm && Interventions

Group	Intervention	Description
acute and chronic GVH	Assessment of the Allogenomic Mismatch Score (AMS)	-
no acute GVH, no chronic GVH	Assessment of the Allogenomic Mismatch Score (AMS)	-
chronic GVH without acute GVH	Assessment of the Allogenomic Mismatch Score (AMS)	-
acute GVH without chronic GVH	Assessment of the optimised Allogenomic Mismatch Score (AMS)	-
chronic GVH without acute GVH	Assessment of the optimised Allogenomic Mismatch Score (AMS)	-
no acute GVH, no chronic GVH	Assessment of the optimised Allogenomic Mismatch Score (AMS)	-
acute GVH without chronic GVH	Assessment of the Allogenomic Mismatch Score (AMS)	-
acute and chronic GVH	Assessment of the optimised Allogenomic Mismatch Score (AMS)	-

Primary Outcome Measures

Name	Time	Method
Predictive performance of AMS regarding the occurence of chronic GVH	12 months after each transplantation	Allogenomic Mismatch Score (AMS) is a continuous variable based on the number of nsSNP between the donor and the recipient. Roughly, the exome of the donor is aligned to the exome of the recipient, allowing to count the number of variations that will generate a peptide present in the recipient but absent in the donor. The comparison of AMS will be performed between the groups "presence of cGVH" and "absence of cGVH"

Secondary Outcome Measures

Name	Time	Method
Predictive performance of AMS regarding the occurence of acute GVH	6 months after each transplantation	Allogenomic Mismatch Score (AMS) is a continuous variable based on the number of nsSNP between the donor and the recipient. Roughly, the exome of the donor is aligned to the exome of the recipient, allowing to count the number of variations that will generate a peptide present in the recipient but absent in the donor. The comparison of AMS will be performed between the groups "presence of aGVH" and "absence of aGVH"
Predictive performance of an optimised AMS regarding the occurence of chronic GVH	12 months after each transplantation	Optimised Allogenomic Mismatch Score (AMS) is a continuous variable based on the number of nsSNP between the donor and the recipient, encountering only peptides that can be presented by the donors' MHC (using another layer of algorithm, NetMHCpan). The comparison of optimised AMS will be performed between the groups "presence of cGVH" and "absence of cGVH"
Predictive performance of an optimised AMS regarding the occurence of acute GVH	6 months after each transplantation	Optimised Allogenomic Mismatch Score (AMS) is a continuous variable based on the number of nsSNP between the donor and the recipient, encountering only peptides that can be presented by the donors' MHC (using another layer of algorithm, NetMHCpan). The comparison of optimised AMS will be performed between the groups "presence of aGVH" and "absence of aGVH"
Predictive performance of AMS regarding the occurence of relapse	12 months after each transplantation	Allogenomic Mismatch Score (AMS) is a continuous variable based on the number of nsSNP between the donor and the recipient. Roughly, the exome of the donor is aligned to the exome of the recipient, allowing to count the number of variations that will generate a peptide present in the recipient but absent in the donor. The comparison of AMS will be performed between the groups "relapse" and "no relapse"
Predictive performance of an optimised AMS regarding the occurence of relapse	12 months after each transplantation	Optimised Allogenomic Mismatch Score (AMS) is a continuous variable based on the number of nsSNP between the donor and the recipient, encountering only peptides that can be presented by the donors' MHC (using another layer of algorithm, NetMHCpan). The comparison of optimised AMS will be performed between the groups "relapse" and "no relapse"

Trial Locations

Locations (1)

Alice Aarnink; 🇫🇷 Vandœuvre-lès-Nancy, France