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PET/MR Pre- and Post Radiotherapy for Cardiopulmonary Dysfunction Evaluation

Not Applicable
Recruiting
Conditions
Pulmonary Hypertension
Interventions
Registration Number
NCT04901884
Lead Sponsor
University Health Network, Toronto
Brief Summary

Radiotherapy (RT) is a well-known and established therapy or adjuvant therapy for the treatment of thoracic cancer It uses a high energy radiation from x-rays, gamma rays and other charged particles that assist in damaging the cancer DNA.

PET/MR as imaging biomarkers for cardiopulmonary dysfunction with a focus on Pulmonary hypertension (PH).

Despite the measures taken to reduce the total radiation dose and to limit the radiation to normal tissues, there is evidence of transient or permanent radiotherapy induced myocardial and pulmonary dysfunction leading to PH in patients who receive radiotherapy above a certain threshold of received dose.

To be able to Demonstrate correlation of combined PET/MR and plasma metabolomics markers in patients at risk of developing cardiopulmonary disfunction after RT.

Detailed Description

RT is a well-known and established therapy or adjuvant therapy for the treatment of thoracic malignancies (breast cancer, lung cancer, lymphoma and others). It usually uses high energy radiation from x-rays, gamma rays or other charged particles to induce DNA damage in malignant cells. Despite the measures taken to reduce the total radiation dose and to limit the radiation to normal tissues, the signs and symptoms of radiation induced cardiopulmonary dysfunction (RICPD) still persist. However, in the majority of cases, it remains unclear which cardiopulmonary damage is the main /leading cause for the clinical symptoms the patients are experiencing.

Hybrid PET/MRI is a promising technique that allows for truly simultaneous molecular, anatomic and functional imaging of the cardiopulmonary system. The simultaneity is an important aspect in this proposed study since only parameters measured at the same time in PET and MR can be used for an integrated, multimodality parameter for possible detection and prognostication of the different underlying processes of cardiopulmonary dysfunction after RT. Furthermore, certain PET-uptake of the RV have to be corrected for RV mass which is only possible with concomitant anatomical imaging. MR imaging and PET at different time point are not accurately reflective of the underlying pathophysiological pathways and metabolic state at the specific time points pre- and post radiotherapy. To our knowledge, there are no online publications of its use in the diagnosis and prognostication of cardiopulmonary dysfunction after RT and specifically PH.

Recruitment & Eligibility

Status
RECRUITING
Sex
All
Target Recruitment
40
Inclusion Criteria
  • Age ≥18 years
  • Biopsy or otherwise clinically proven thoracic malignant mass which is intended to be treated with radio(chemo)therapy
  • Intention to treat with radio(chemo)therapy with incidental cardiac irradiation of at least 25Gy.
  • A negative urine or serum pregnancy test within the two week interval immediately prior to imaging, in women of child-bearing age.
  • Ability to provide written informed consent to participate in the study (for all components of the trial: imaging with cardiac PET/MR, blood sampling for plasma metabolomics and circulating DNA).
Exclusion Criteria
  • Contraindication for MR as per current institutional guidelines.
  • Contraindication for Gadolinium injection as per current institutional guidelines.
  • Inability to lie supine for at least 45 minutes.
  • Any patient who is pregnant or breastfeeding.
  • Any patient with known hypersensitivity to 18F-FDG.

Study & Design

Study Type
INTERVENTIONAL
Study Design
SINGLE_GROUP
Arm && Interventions
GroupInterventionDescription
One arm / exploratory studyPET/MR with 18F-FDGInjection of 18F-FDG.The 18F-FDG cardiac PET-MR scanning visit will take up to 1.5 hours.
Primary Outcome Measures
NameTimeMethod
Change of the heart functionat 4 weeks prior to radiotherapy, and at 6-10 weeks after completion of radiotherapy

MRI of ventricular volumes in PETMRI scans

Change of FDG uptake of lungsat 4 weeks prior to radiotherapy, and at 6-10 weeks after completion of radiotherapy

FDG uptake of left and right ratios within the lungs in PETMRI scans

Change of the lung perfusionbefore radiotherapy and up to 16 weeks after completion of radiotherapy

Percentage of the perfused/ventilated lung segments will be evaluated and compared pre and post therapy by SPECT scans

Change of FDG uptake of heartat 4 weeks prior to radiotherapy, and at 6-10 weeks after completion of radiotherapy

FDG uptake of the left and right ventricles of heart will be measured and compared in PETMRI scans

Secondary Outcome Measures
NameTimeMethod

Trial Locations

Locations (1)

University Health Network

🇨🇦

Toronto, Ontario, Canada

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