To assess the role of myocardial oedema on CMR (T2 mapping) after radiation therapy and cardiotoxic systemic therapy in predicting the incidence of cardiotoxicity, defined as by consensus guidelines\* (decline of LVEF ≥10% points with a final LVEF \<53%) measured on CMR and ECHO over the time window of 12 months from the end of radiation therapy.
Overall study schedule The Overall Study Schedule is summarized in the assessment schedule (appendix 1). This study is composed of three subsequent phases: a Run-In Phase, a RT/Systemic Therapy Phase, a Follow-Up Phase. Run-In Phase The Run-In Phase starts with the first visit (before any cancer treatment), when Screening/Enrollment procedure is performed. This phase will start once a patient has provided WIC to participate in the study and ends the day of treatment start. Screening / Enrolment Visit Visit will be performed before the expected starting date of treatment. After a WIC has been obtained from the patient, the patient will be visited by the Investigators and the following information will be gathered: * Demographic Data (age, height, weight, BMI); * Medical history (previous and concomitant diseases, previous therapies, family history of CVD); * Concomitant Medication; * Physical examination \& overall health assessment (including vital signs). * Pregnancy test (pre- and perimenopausal women). The inclusion and exclusion criteria will be checked and, if the patient complies with all the Inclusion and Exclusion criteria, she will be enrolled into the study A baseline assessment will be performed by the Investigator: CMR, ECG and ECHO will be done at the participating centers The patient will be assigned to specific treatment (chemo/immunotherapy and adjuvant radiation therapy +/- aromatase inhibitor/tamoxifen/LhRh agonist). A standard of care treatment will be administered. Radiotherapy/Systemic therapy Treatment Phase (specific Visit descriptions) SYSTEMIC TREATMENT Blood sample will be scheduled before and, if possible, 24 hours after chemotherapy administration. * Patients treated with antracyclines regimens will be checked with ECG and ECHO at the end of treatment. * Blood sample will be scheduled before Trastuzumab administration every three weeks and ECHO will be done after every 4 cycles (3 months). RADIOTHERAPY For Technical details see appendix 3. Before starting RT patients will be checked clinically the first day of treatment and baseline tests will be done. Biomarkers will be checked the first day and in the middle of RT. If a patient gets symptomatic heart failure during the treatment, or if LVEF decline greater than 10% points with a final LVEF \<53% measured on Echo, the patient will be referred to the cardiologist for a specific treatment as described by guidelines End of RT Group Patients treated with trastuzumab, will continue the treatment up to 1 year. Blood tests will be taken every three weeks and Echos will be done after every 4 cycles (3-week cycles). Follow-Up Phase 2 weeks+/-3 days after the end of RT, blood sample will be taken. An ECHO and CMR will be done. All patients will be checked 6 weeks after the end of radiotherapy for the study visit. The following activities will be performed: Blood sample for biomarkers. If hs-CRP ≥3mg/l, ECHO will be done. All patients will be followed at least until 10 years after the end of RT. Blood samples for measuring biomarkers and ECHO and CMR will be done 12 months after the end of RT. Unscheduled Visit An unscheduled visit may occur at any time during the study, only for safety reason or for a premature discontinuation from the study.
Study Type
OBSERVATIONAL
Enrollment
150
cCardiac MRI, ecocardiography and cardiotoxicity blood tests will be repeated as previously scheduled
Oncology Institute of Italian Switzerland
Bellinzona, Canton Ticino, Switzerland
CMR T2 mapping
To assess the role of myocardial oedema on CMR (T2 mapping) after radiation therapy and cardiotoxic systemic therapy in predicting the incidence of cardiotoxicity, defined as by consensus guidelines\* (decline of LVEF ≥10% points with a final LVEF \<53%).
Time frame: Time window of 12 months from the end of radiation therapy
GLS
To detect GLS decrease \>15% from baseline, measured on Echo over the time window of 12 months
Time frame: Time window of 12 months from the end of radiation therapy
Myocardial edema
To assess the incidence of myocardial oedema on CMR (T2 mapping) after radiation therapy and cardiotoxic systemic therapy. To assess the incidence of myocardial oedema on ECHO after radiation therapy and cardiotoxic systemic therapy.
Time frame: Time window of 12 months from the end of radiation therapy
Biomarkers (Troponine, pro-BNP, hs-CRP) correlate with LVEF
To see if the changes in Troponine (ng/L) will correlate with LVEF measurements, assessed by ECHO. To see if the changes in Troponine (ng/L) will correlate with LVEF measurements, assessed by CMR. To see if the changes in pro-BNP (ng/L) will correlate with LVEF measurements, assessed by ECHO. To see if the changes in pro-BNP (ng/L) will correlate with LVEF measurements, assessed by CMR. To see if the changes in hs-CRP (mg/L) will correlate with LVEF measurements, assessed by ECHO. To see if the changes in hs-CRP (mg/L) will correlate with LVEF measurements, assessed by CMR.
Time frame: Time window of 12 months from the end of radiation therapy
Biomarkers (Troponine, pro-BNP, hs-CRP) correlated with GLS
To see if the changes in Troponine (ng/L) will correlate with GLS measurements, assessed by ECHO. To see if the changes in pro-BNP (ng/L) will correlate with GLS measurements, assessed by ECHO. To see if the changes in hs-CRP (mg/L) will correlate with GLS measurements, assessed by ECHO.
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Time frame: Time window of 12 months from the end of radiation therapy
Time to biomarkers (Troponine, pro-BNP, hs-CRP) increase
To compare the time to the Troponine (ng/L) positivity to the time to the decrease in GLS \>15% and/or decline of LVEF ≥10% points with a final LVEF \<53% measured on Echo. To compare the time to the pro-BNP (ng/L) positivity to the time to the decrease in GLS \>15% and/or decline of LVEF ≥10% points with a final LVEF \<53% measured on Echo. To compare the time to the hs-CRP (mg/L) positivity to the time to the decrease in GLS \>15% and/or decline of LVEF ≥10% points with a final LVEF \<53% measured on Echo.
Time frame: Time window of 12 months from the end of radiation therapy
Biomarkers (Troponine, pro-BNP, hs-CRP) predictors of cardiotoxicity
To see if the changes in Troponine (ng/L) will correlate with developement of cardiotoxicity, defined as by decline of LVEF ≥10% points with a final LVEF \<53%. To see if the changes in pro-BNP (ng/L) will correlate with developement of cardiotoxicity, defined as by decline of LVEF ≥10% points with a final LVEF \<53%. To see if the changes in hs-CRP (mg/L) will correlate with developement of cardiotoxicity, defined as by decline of LVEF ≥10% points with a final LVEF \<53%.
Time frame: Time window of 12 months from the end of radiation therapy
Major cardiovascular events
To detect major cardiovascular events (defined as acute myocardial infarction, hospitalization due to heart failure, atrial flutter/fibrillation, ventricular tachycardia) or death due cardiac problems during the follow up
Time frame: follow-up
cardiac fibrosis
assess the role of fibrosis on CMR (T1 mapping with evaluation of extracellular volume) after cardiotoxic radiation therapy and systemic therapy in predicting the incidence of cardiotoxicity
Time frame: through study completion, an average of 1 year
acute asymptomatic pericarditis
incidence of acute asymptomatic pericarditis after radiation therapy, measured on CMR
Time frame: through study completion, an average of 1 year
cardiac edema
investigate if the area of the edema on CRM correlates with RT dose distribution
Time frame: through study completion, an average of 1 year