Toxicity Due to Chemotherapy Clinical Trial
Official title:
Optimized Multi-modality Machine Learning Approach During Cardio-toxic Chemotherapy to Predict Arising Heart Failure
The present project will develop an automated machine learning approach using multi-modality data (imaging, laboratory, electrocardiography and questionnaire) to increase the understanding and prediction of arising heart failure in patients scheduled for cardio-toxic chemotherapy. This algorithmus will be developed by the technical cooperation partner at Technion, the institut for biomedical engineering in Haifa, Israel.
The present project will develop an automated machine learning approach using multi-modality
data (imaging, laboratory, electrocardiography and questionnaire) to increase the
understanding and prediction of arising heart failure in patients scheduled for cardio-toxic
chemotherapy. This algorithmus will be developed by the technical cooperation partner Prof.
Adam who leads the Technion, the institut for biomedical engineering.
Specific aims:
1. To collect all achievable data from patients scheduled for cardiotoxic chemotherapy at
baseline, up to 6 months after ending therapy - regarding imaging (MRI,
echocardiography with conventional and strain parameter), electrocardiography,
biomedical markers (to define the function of liver, kidney, heart and hematopoietic
bone marrow), clinical parameter and quality of life questionnaire:
2. To optimize and evaluate a robust machine learning approach that integrate and assess
all these data to detect early myocardial damage and to identify an optimal parameter
(single or in combination) for prediction of subclinical left ventricular (LV)
dysfunction (stage 1 of the current study).
3. To perform a clinical study (stage 2 of the current study) of chemotherapy patients,
and to identify subclinical LV dysfunction, which will be used to guide
cardioprotective therapy using the new machine learning approach in comparison to the
actual standard procedure using only echocardiographic left ventricular ejection
fraction (LVEF).
The purpose of this study is to evaluate and optimize a machine learning approach to combine
and integrate data from different imaging modalities with laboratory, electrocardiography
and questionnaire information to define the value of all these parameter in patient
management, by identification of subclinical LV dysfunction, which will be used to guide
cardioprotective therapy in comparison to a standard approach using only conventional
echocardiographic parameters.
MRI, conventional echocardiographic parameters and echocardiographic myocardial deformation
imaging are employing different modalities and approaches to obtain insight into myocardial
tissue and deformation. We hypothesize that a new and optimized automated algorithm using
these modalities and integrating laboratory, electrocardiography and questionnaire
information will improve the detection of early LV dysfunctions, and will bring new insight
to the potential response of chemo patients to cardiotoxic therapy. We expect that this
algorithm leads to the use of adjunctive therapy that will limit the development of LV
dysfunction, interruptions of chemotherapy and development of heart failure in follow-up and
thus will reduce morbidity and costs.
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Observational Model: Cohort, Time Perspective: Prospective
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