PROactive Evaluation of Function to Avoid CardioToxicity - Clinical Trial for Cardiotoxicity | NCT03862131

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Primary Purpose

Status

Terminated

Phase

Phase 2

Locations

United States

Study Type

Interventional

Intervention

MyoStrain®

About this trial

This is an interventional supportive care trial for Cardiotoxicity

Eligibility Criteria

18 Years - undefined (Adult, Older Adult)All SexesDoes not accept healthy volunteers

Inclusion Criteria:

Participant in the SURVIVE registry
Signed informed consent form for PROACT
Histological diagnosis of any cancer type (patients with treated and clinically stable brain metastasis are acceptable)
Scheduled to receive anti-cancer therapy (radiation therapy is permitted)

Exclusion Criteria:

Contraindication to magnetic resonance imaging (MRI)
Unable to comply with study investigations (in the judgment of the investigator)
Life expectancy less than 1 year
Note: If a patient develops a temporary contraindication (e.g. temporary tissue expanders in breast cancer patients) after the baseline MRI, follow up MRIs will be discontinued for safety for the duration in which the patient has the contraindication. However, once the patient is no longer contraindicated to receiving MRIs, the study schedule may resume with their next scheduled MRI time point from the date of enrollment. Therefore, some time points may be skipped during the patient's enrollment in the study.

Also, if a patient needs a repeat MRI at any time point for any reason (i.e. panic attack during the MRI causing them to not be able to continue, unreadable images, etc.), we may repeat the MRI as long as the patient is willing.

Sites / Locations

Washington University School of Medicine

Arms of the Study

Arm 1

Arm 2

Arm Type

Experimental

Active Comparator

Arm Label

MyoStrain® unblinded treatment arm

MyoStrain® blinded control arm

Arm Description

After consenting to the PROACT study, patients will undergo a baseline MRI to determine their risk stratification for the study. This baseline MyoStrain® MRI must demonstrate 2 or more segments measuring >-10% or 9 or more segments >-17% for entrance into the study as the Higher Risk Group The unblinded treatment arm will enhance patient management by augmenting standard of care with serial MyoStrain® monitoring of the impact of cancer therapy on myocardial function. Higher Risk unblinded patients will continue to undergo MyoStrain® MRI testing, regardless of study arm, at 1 month (+1 week), 3 months (+ 1 week), 6 months (+1 week), 12 months (+ 30 days), 24 months (+30 days), and 36 months (+30 days) after the baseline visit. In addition to the MyoStrain® testing, patients will also be asked to complete a brief patient satisfaction questionnaire at each PROACT time point.

After consenting to the PROACT study, patients will undergo a baseline MRI to determine their risk stratification for the study. This baseline MyoStrain® MRI must demonstrate 2 or more segments measuring >-10% or 9 or more segments >-17% for entrance into the study as the Higher Risk group The blinded control arm will provide investigators with LVEF and LVEDV/LVESV measurements, which are clinical, in conjunction with standard of care Higher Risk blinded patients will continue to undergo MyoStrain® MRI testing, regardless of study arm, at 1 month (+1 week), 3 months (+ 1 week), 6 months (+1 week), 12 months (+ 30 days), 24 months (+30 days), and 36 months (+30 days) after the baseline visit. In addition to the MyoStrain® testing, patients will also be asked to complete a brief patient satisfaction questionnaire at each PROACT time point.

Outcomes

Primary Outcome Measures

Sensitivity and accuracy of detection of patients with myocardial dysfunction who necessitate cardioprotection during cancer treatment using MyoStrain compared to standard of care (SOC) as measured by left ventricular ejection fraction

-Receiver operating characteristic curves will be used to identify criteria for standard of care and MyoStrain cardiac features to detect subclinical cardiotoxicity. -. Considering many patients will have a complex management of cardioactive medications as well as cancer treatment regimen, the classification of cardiotoxicity status will be based on a clinical committee to designate whether the patient experienced no cardiotoxicity, functional decline without cardiotoxicity, subclinical cardiotoxicity, or clinical cardiac dysfunction at each exam time point

Sensitivity & accuracy of detection of patients requiring cardioprotection therapy for cardiotoxicity during cancer treatment who demonstrate an improvement in myocardial function using MyoStrain compared to SOC as measured by LVEF

-Receiver operating characteristic curves will be used to identify criteria for standard of care and MyoStrain cardiac features to detect improvement in cardiac function due to cardioprotective therapy in patients exhibiting cardiotoxicity -. Considering many patients will have a complex management of cardioactive medications as well as cancer treatment regimen, the classification of cardiotoxicity status will be based on a clinical committee to designate whether the patient experienced no cardiotoxicity, functional decline without cardiotoxicity, subclinical cardiotoxicity, or clinical cardiac dysfunction at each exam time point

Sensitivity and accuracy of detection of patients at risk of developing cardiotoxicity using MyoStrain compared to standard of care as measured by left ventricular ejection fraction

-Receiver operating characteristic curves will be used to identify criteria for standard of care and MyoStrain cardiac features to predict risk of developing cardiotoxicity. -. Considering many patients will have a complex management of cardioactive medications as well as cancer treatment regimen, the classification of cardiotoxicity status will be based on a clinical committee to designate whether the patient experienced no cardiotoxicity, functional decline without cardiotoxicity, subclinical cardiotoxicity, or clinical cardiac dysfunction at each exam time point

Ability of MyoStrain testing to detect subclinical cardiac dysfunction compared to standard cardiac imaging as measured by left ventricular ejection fraction

Multivariate regression and logistic regression will be used with "stepwise" option to identify significant predictors for standard of care and MyoStrain cardiac features for predicting cardiotoxicity. Furthermore, the investigators will use decision trees for identifying the importance of MyoStrain cardiac features in cardiotoxicity risk prediction based on standard assessment of variables

Impact of MyoStrain imaging on medical management of cardiotoxicity through early detection of at risk patients compared to standard cardiac imaging as measured by left ventricular ejection fraction

Multivariate regression and logistic regression will be used with "stepwise" option to identify significant predictors at standard of care and MyoStrain cardiac features for detecting improvement in cardiac function due to cardioprotective therapy in patients exhibiting cardiotoxicity. Furthermore, the investigators will use decision trees for identifying the importance of MyoStrain cardiac features in cardioprotection risk prediction based on standard assessment of variables

Ability of MyoStrain testing to detect risk of developing cardiotoxicity compared to standard cardiac imaging as measured by left ventricular ejection fraction

Multivariate regression and logistic regression will be used with "stepwise" option to identify significant predictors at standard of care and MyoStrain cardiac features for predicting risk of developing cardiotoxicity. Furthermore, the investigators will use decision trees for identifying the importance of MyoStrain segmental intramyocardial strain in cardiotoxicity risk prediction based on standard assessment of variables

Sensitivity and accuracy of detection of patients with myocardial dysfunction who necessitate cardioprotection during cancer treatment using MyoStrain compared to standard of care (SOC) as measured by stroke (LVSV) volumes indexed to body surface area

Receiver operating characteristic curves will be used to identify criteria for standard of care and MyoStrain cardiac features to detect subclinical cardiotoxicity. -. Considering many patients will have a complex management of cardioactive medications as well as cancer treatment regimen, the classification of cardiotoxicity status will be based on a clinical committee to designate whether the patient experienced no cardiotoxicity, functional decline without cardiotoxicity, subclinical cardiotoxicity, or clinical cardiac dysfunction at each exam time point

Secondary Outcome Measures

Full Information

NCT ID

NCT03862131

First Posted

March 1, 2019

Last Updated

March 2, 2023

Sponsor

Washington University School of Medicine

Collaborators

Myocardial Solutions

1. Study Identification

Unique Protocol Identification Number

NCT03862131

Brief Title

PROactive Evaluation of Function to Avoid CardioToxicity

Acronym

PROACT

Official Title

PROactive Evaluation of Function to Avoid CardioToxicity

Study Type

Interventional

2. Study Status

Record Verification Date

March 2023

Overall Recruitment Status

Terminated

Why Stopped

Insufficient funding/staff

Study Start Date

March 13, 2019 (Actual)

Primary Completion Date

March 2, 2023 (Actual)

Study Completion Date

March 2, 2023 (Actual)

3. Sponsor/Collaborators

Responsible Party, by Official Title

Sponsor

Name of the Sponsor

Washington University School of Medicine

Collaborators

Myocardial Solutions

4. Oversight

Studies a U.S. FDA-regulated Drug Product

No

Studies a U.S. FDA-regulated Device Product

Yes

Product Manufactured in and Exported from the U.S.

Yes

Data Monitoring Committee

Yes

5. Study Description

Brief Summary

This study is intended to evaluate the ability of an intramyocardial strain analysis package with cardiac MRI to assist in the early detection and management of cardiotoxicity from therapeutics used to treat cancer.

6. Conditions and Keywords

Primary Disease or Condition Being Studied in the Trial, or the Focus of the Study

Cardiotoxicity, Breast Cancer, Lymphoma, Sarcoma, Leukemia, Myeloma, Lung Cancer

7. Study Design

Primary Purpose

Supportive Care

Study Phase

Phase 2

Interventional Study Model

Parallel Assignment

Masking

ParticipantCare Provider

Masking Description

Patients will be classified based on baseline segmental MyoStrain Fast-SENC strain testing, into lower and higher risk groups. The higher risk group will be randomized with half blinded and half unblinded to intramyocardial strain in terms of assessing cardiotoxicity incidence and management. Physicians will have knowledge of MyoStrain intramyocardial strain and cardiac MRI information in the unblinded group to augment standard of care in detecting and managing cardiotoxicity. Physicians will not have access to or knowledge of intramyocardial strain and cardiac MRI data, except 4 standard cardiac measures, for patients in the blinded group.

Allocation

Randomized

Enrollment

49 (Actual)

8. Arms, Groups, and Interventions

Arm Title

MyoStrain® unblinded treatment arm

Arm Type

Experimental

Arm Description

After consenting to the PROACT study, patients will undergo a baseline MRI to determine their risk stratification for the study. This baseline MyoStrain® MRI must demonstrate 2 or more segments measuring >-10% or 9 or more segments >-17% for entrance into the study as the Higher Risk Group The unblinded treatment arm will enhance patient management by augmenting standard of care with serial MyoStrain® monitoring of the impact of cancer therapy on myocardial function. Higher Risk unblinded patients will continue to undergo MyoStrain® MRI testing, regardless of study arm, at 1 month (+1 week), 3 months (+ 1 week), 6 months (+1 week), 12 months (+ 30 days), 24 months (+30 days), and 36 months (+30 days) after the baseline visit. In addition to the MyoStrain® testing, patients will also be asked to complete a brief patient satisfaction questionnaire at each PROACT time point.

Arm Title

MyoStrain® blinded control arm

Arm Type

Active Comparator

Arm Description

After consenting to the PROACT study, patients will undergo a baseline MRI to determine their risk stratification for the study. This baseline MyoStrain® MRI must demonstrate 2 or more segments measuring >-10% or 9 or more segments >-17% for entrance into the study as the Higher Risk group The blinded control arm will provide investigators with LVEF and LVEDV/LVESV measurements, which are clinical, in conjunction with standard of care Higher Risk blinded patients will continue to undergo MyoStrain® MRI testing, regardless of study arm, at 1 month (+1 week), 3 months (+ 1 week), 6 months (+1 week), 12 months (+ 30 days), 24 months (+30 days), and 36 months (+30 days) after the baseline visit. In addition to the MyoStrain® testing, patients will also be asked to complete a brief patient satisfaction questionnaire at each PROACT time point.

Intervention Type

Device

Intervention Name(s)

MyoStrain®

Other Intervention Name(s)

Cardiac MRI Imaging Software, Intramyocardial Strain

Intervention Description

MyoStrain® SENC software receives image data from MRI storage archives and performs viewing, image manipulation, communication, printing, and quantification of images.

Primary Outcome Measure Information:

Title

Sensitivity and accuracy of detection of patients with myocardial dysfunction who necessitate cardioprotection during cancer treatment using MyoStrain compared to standard of care (SOC) as measured by left ventricular ejection fraction

Description

-Receiver operating characteristic curves will be used to identify criteria for standard of care and MyoStrain cardiac features to detect subclinical cardiotoxicity. -. Considering many patients will have a complex management of cardioactive medications as well as cancer treatment regimen, the classification of cardiotoxicity status will be based on a clinical committee to designate whether the patient experienced no cardiotoxicity, functional decline without cardiotoxicity, subclinical cardiotoxicity, or clinical cardiac dysfunction at each exam time point

Time Frame

Through 36 months

Title

Sensitivity & accuracy of detection of patients requiring cardioprotection therapy for cardiotoxicity during cancer treatment who demonstrate an improvement in myocardial function using MyoStrain compared to SOC as measured by LVEF

Description

-Receiver operating characteristic curves will be used to identify criteria for standard of care and MyoStrain cardiac features to detect improvement in cardiac function due to cardioprotective therapy in patients exhibiting cardiotoxicity -. Considering many patients will have a complex management of cardioactive medications as well as cancer treatment regimen, the classification of cardiotoxicity status will be based on a clinical committee to designate whether the patient experienced no cardiotoxicity, functional decline without cardiotoxicity, subclinical cardiotoxicity, or clinical cardiac dysfunction at each exam time point

Time Frame

Through 36 months

Title

Sensitivity and accuracy of detection of patients at risk of developing cardiotoxicity using MyoStrain compared to standard of care as measured by left ventricular ejection fraction

Description

-Receiver operating characteristic curves will be used to identify criteria for standard of care and MyoStrain cardiac features to predict risk of developing cardiotoxicity. -. Considering many patients will have a complex management of cardioactive medications as well as cancer treatment regimen, the classification of cardiotoxicity status will be based on a clinical committee to designate whether the patient experienced no cardiotoxicity, functional decline without cardiotoxicity, subclinical cardiotoxicity, or clinical cardiac dysfunction at each exam time point

Time Frame

Through 36 months

Title

Ability of MyoStrain testing to detect subclinical cardiac dysfunction compared to standard cardiac imaging as measured by left ventricular ejection fraction

Description

Multivariate regression and logistic regression will be used with "stepwise" option to identify significant predictors for standard of care and MyoStrain cardiac features for predicting cardiotoxicity. Furthermore, the investigators will use decision trees for identifying the importance of MyoStrain cardiac features in cardiotoxicity risk prediction based on standard assessment of variables

Time Frame

Through 36 months

Title

Impact of MyoStrain imaging on medical management of cardiotoxicity through early detection of at risk patients compared to standard cardiac imaging as measured by left ventricular ejection fraction

Description

Multivariate regression and logistic regression will be used with "stepwise" option to identify significant predictors at standard of care and MyoStrain cardiac features for detecting improvement in cardiac function due to cardioprotective therapy in patients exhibiting cardiotoxicity. Furthermore, the investigators will use decision trees for identifying the importance of MyoStrain cardiac features in cardioprotection risk prediction based on standard assessment of variables

Time Frame

Through 36 months

Title

Ability of MyoStrain testing to detect risk of developing cardiotoxicity compared to standard cardiac imaging as measured by left ventricular ejection fraction

Description

Multivariate regression and logistic regression will be used with "stepwise" option to identify significant predictors at standard of care and MyoStrain cardiac features for predicting risk of developing cardiotoxicity. Furthermore, the investigators will use decision trees for identifying the importance of MyoStrain segmental intramyocardial strain in cardiotoxicity risk prediction based on standard assessment of variables

Time Frame

Through 36 months

Title

Sensitivity and accuracy of detection of patients with myocardial dysfunction who necessitate cardioprotection during cancer treatment using MyoStrain compared to standard of care (SOC) as measured by stroke (LVSV) volumes indexed to body surface area

Description

Receiver operating characteristic curves will be used to identify criteria for standard of care and MyoStrain cardiac features to detect subclinical cardiotoxicity. -. Considering many patients will have a complex management of cardioactive medications as well as cancer treatment regimen, the classification of cardiotoxicity status will be based on a clinical committee to designate whether the patient experienced no cardiotoxicity, functional decline without cardiotoxicity, subclinical cardiotoxicity, or clinical cardiac dysfunction at each exam time point

Time Frame

Through 36 months

10. Eligibility

Sex

All

Minimum Age & Unit of Time

18 Years

Accepts Healthy Volunteers

No

Eligibility Criteria

Inclusion Criteria: Participant in the SURVIVE registry Signed informed consent form for PROACT Histological diagnosis of any cancer type (patients with treated and clinically stable brain metastasis are acceptable) Scheduled to receive anti-cancer therapy (radiation therapy is permitted) Exclusion Criteria: Contraindication to magnetic resonance imaging (MRI) Unable to comply with study investigations (in the judgment of the investigator) Life expectancy less than 1 year Note: If a patient develops a temporary contraindication (e.g. temporary tissue expanders in breast cancer patients) after the baseline MRI, follow up MRIs will be discontinued for safety for the duration in which the patient has the contraindication. However, once the patient is no longer contraindicated to receiving MRIs, the study schedule may resume with their next scheduled MRI time point from the date of enrollment. Therefore, some time points may be skipped during the patient's enrollment in the study. Also, if a patient needs a repeat MRI at any time point for any reason (i.e. panic attack during the MRI causing them to not be able to continue, unreadable images, etc.), we may repeat the MRI as long as the patient is willing.

Overall Study Officials:

First Name & Middle Initial & Last Name & Degree

Joshua Mitchell, M.D., MSCI, FACC, FICOS

Organizational Affiliation

Washington University School of Medicine

Official's Role

Principal Investigator

Facility Information:

Facility Name

Washington University School of Medicine

City

Saint Louis

State/Province

Missouri

ZIP/Postal Code

63110

Country

United States

12. IPD Sharing Statement

Plan to Share IPD

No

Links:

URL

http://www.siteman.wustl.edu

Description

Alvin J. Siteman Cancer Center at Barnes-Jewish Hospital and Washington University School of Medicine

PROactive Evaluation of Function to Avoid CardioToxicity (PROACT)

Cardiotoxicity, Breast Cancer, Lymphoma

About this trial

Eligibility Criteria

Sites / Locations

Arms of the Study

Arm 1

Arm 2

Outcomes

Primary Outcome Measures

Secondary Outcome Measures

Full Information

1. Study Identification

2. Study Status

3. Sponsor/Collaborators

4. Oversight

5. Study Description

6. Conditions and Keywords

7. Study Design

8. Arms, Groups, and Interventions

10. Eligibility

12. IPD Sharing Statement

Learn more about this trial