Whole Genome Sequencing (ChromoSeq) as an Adjunct to Conventional Genomic Profiling in AML and MDS

Not Applicable

Recruiting

• Conditions: Whole Genome Sequencing; Myelodysplastic Syndromes; Acute Myeloid Leukemia
• Interventions: Device: ChromoSeq

• Registration Number: NCT04986657
• Lead Sponsor: Washington University School of Medicine

Brief Summary

This is a single institution, prospective study of the whole genome sequencing assay, ChromoSeq. Using prospectively collected patient data, coupled with physician surveys, the investigators seek to determine the feasibility of implementing ChromoSeq in addition to standard genomic testing, for patients with the diagnoses of acute myeloid leukemia (AML) or myelodysplastic syndrome (MDS).

Detailed Description

Not available

Study Timeline

• Study First Submitted: 2021-07-22
• Study First Submitted QC: 2021-07-22
• Study First Posted: 2021-08-03
• Study Start: 2021-09-17
• Status Verified: 2024-10
• Last Update Submitted: 2024-10-09
• Last Update Posted: 2024-10-10
• Primary Completion: 2027-12-31
• Study Completion: 2027-12-31

Recruitment & Eligibility

• Status: RECRUITING
• Sex: All
• Target Recruitment: 275

Inclusion Criteria

Not provided

Exclusion Criteria

Not provided

Study & Design

• Study Type: INTERVENTIONAL
• Study Design: PARALLEL

Arm && Interventions

Group	Intervention	Description
Patients: ChromoSeq	ChromoSeq	ChromoSeq will be performed on bone marrow DNA from consented patients in parallel with the standard of care cytogenetics, FISH, and the MyeloSeq gene panel obtained from that sample, in a CLIA licensed environment using CLIA-compliant ChromoSeq procedures.

Primary Outcome Measures

Name	Time	Method
Proportion of failed ChromoSeq assays	Through completion of all ChromoSeq tests (estimated to be 15 months)	* As compared to failed standard of care genomic profiling assays; * Each assay will be categorized as successful or failed and a two-way table constructed displaying ChromoSeq assay status by standard assay status. A Pearson chi-square test will be calculated to test the null hypothesis that assay success is independent of type of assay.
Sensitivity of ChromoSeq as measured by total number of recurrent structural variants identified	Through completion of all ChromoSeq tests (estimated to be 15 months)	* As compared to conventional cytogenetics in a real-time clinical setting; * The total number of recurrent structural variants will be measured in each sample by ChromoSeq and metaphase cytogenetics yielding a pair of measurements. Each measurement will also be dichotomized into the presence or absence of at least one recurrent structural variant. The hypothesis of no difference in the number of variants detected by each method will be analyzed by a paired-sample t-test. However, if it is determined that the assumptions of a t-test are not tenable then a paired-sample sign test will be used instead. McNemar's test will be used to compare whether or not at least one recurrent structural variant identified is by each method.
Sensitivity of ChromoSeq as measured by total number of copy number alterations identified	Through completion of all ChromoSeq tests (estimated to be 15 months)	* As compared to conventional cytogenetics in a real-time clinical setting; * The total number of copy number alterations will be measured in each sample by ChromoSeq and metaphase cytogenetics yielding a pair of measurements. Each measurement will also be dichotomized into the presence or absence of at least one copy number alteration. The hypothesis of no difference in the number of copy number alterations detected by each method will be analyzed by a paired-sample t-test. However, if it is determined that the assumptions of a t-test are not tenable then a paired-sample sign test will be used instead. McNemar's test will be used to compare whether or not at least one copy number alterations is identified is by each method.
Sensitivity of ChromoSeq as measured by number of single nucleotide variants identified	Through completion of all ChromoSeq tests (estimated to be 15 months)	* As compared to high coverage gene panels in a real-time clinical setting; * The number of single nucleotide variants will be counted for each sample. Additionally, the data will be dichotomized into the presence or absence of at least one single nucleotide variant. Data will be analyzed by paired-sample t-tests and McNemar's test.
Sensitivity of ChromoSeq as measured by number of insertion-deletions identified	Through completion of all ChromoSeq tests (estimated to be 15 months)	* As compared to high coverage gene panels in a real-time clinical setting; * The number of insertion-deletions will be counted for each sample. Additionally, the data will be dichotomized into the presence or absence of at least one insertion-deletion. Data will be analyzed by paired-sample t-tests and McNemar's test.
Determine if risk-stratification using ChromoSeq correlates with overall-survival	Through completion of follow-up for all patients (estimated to be 63 months)	* As compared to metaphase cytogenetics; * The relationship of risk-stratification defined by either ChromoSeq or conventional cytogenetics to clinical outcome will be illustrated with Kaplan-Meier survival analyses on overall survival for both ChromoSeq and metaphase cytogenetics. The predictive accuracy of the two methods will be tested by comparing the area under the ROC curves using the method of DeLong et al.
Determine if risk-stratification using ChromoSeq correlates with event-free survival	Through completion of follow-up for all patients (estimated to be 63 months)	* As compared to metaphase cytogenetics; * The relationship of risk-stratification defined by either ChromoSeq or conventional cytogenetics to clinical outcome will be illustrated with Kaplan-Meier survival analyses on event-free survival for both ChromoSeq and metaphase cytogenetics. The predictive accuracy of the two methods will be tested by comparing the area under the ROC curves using the method of DeLong et al.
Proportion of cases in which ChromoSeq provides new genetic information to the clinician	Through completion of all ChromoSeq tests (estimated to be 15 months)	* As compared to conventional genomic profiling (cytogenetics, FISH, and next-generation sequencing) that is used for clinical management (such as risk-stratification or institution of targeted gene therapy); * Items in the ChromoSeq Implementation Physician Survey will be used to describe physician evaluation of ChromoSeq with conventional genomic profiling with regard to clinical management. Responses to these items will be presented in frequency tables. For statistical analysis, the values of each item will be recoded from 1-5 to -2 to +2 and one-sample t-tests used to test the null hypothesis that the mean value is 0 (neither agree nor disagree.) In addition, case-reports will be reviewed for qualitative evaluations of physician experience with the two methods.
ChromoSeq turnaround time	Through completion of all ChromoSeq tests (estimated to be 15 months)	-Measured from time of order requisition (hematologic molecular algorithm from Barnes Jewish Hospital) to return of report to the medical record

Secondary Outcome Measures

Name	Time	Method
Stakeholder perceptions of ChromoSeq	Within 1 month after generation of ChromoSeq (estimated to be 2 months)	* Using survey responses from treating physicians obtained from per case standardized questionnaires designed using Consolidated Framework for Implementation Research constructs; * For each case, the corresponding treating physician will be asked to answer a case-based ChromoSeq Implementation Physician Survey. In order to prospectively investigate how the ChromoSeq data was used or could be used by the treating physician for each case, and to evaluate perceptions in real time, the physician will be asked to complete the survey within 1 month of the ChromoSeq and completed conventional genomic profiling results being returned to the chart, whichever is later.
Stakeholder perceptions of ChromoSeq as measured by the Acceptability of Intervention Measure	When 100 genomes have been sequenced (estimated to be 12 months)	* Will complete survey at the time when 100 genomes have been sequenced; * 4 statements with answers ranging from 1=completely disagree to 5=completely agree.
Stakeholder perceptions of ChromoSeq as measured by the Intervention Appropriateness Measure	When 100 genomes have been sequenced (estimated to be 12 months)	* Will complete survey at the time when 100 genomes have been sequenced.; * 4 statements with answers ranging from 1=completely disagree to 5=completely agree.
Stakeholder perceptions of ChromoSeq as measured by the Feasibility of Implementation Measure	When 100 genomes have been sequenced (estimated to be 12 months)	-Will complete survey at the time when 100 genomes have been sequenced.; --4 statements with answers ranging from 1=completely disagree to 5=completely agree.
Stakeholder perceptions of ChromoSeq as measured by the System Usability Scale	When 100 genomes have been sequenced (estimated to be 12 months)	* Will complete survey at the time when 100 genomes have been sequenced.; * 10 statements about usability of ChromoSeq with answers ranging from 1=strongly disagree to 5=strongly agree

Trial Locations

Locations (1)

Washington University School of Medicine; 🇺🇸 Saint Louis, Missouri, United States