Overview
The goal of this innovative project is to evaluate the correspondence between several imaging modalities for characterizing the elasticity of healthy and pathological renal tissue which could help improve the realism of 3D prints used by urological surgeons and allow the identification of new, complementary imaging biomarkers. The main objective is to develop a predictive model of the biomechanical properties of normal and pathological kidney tissue, as assessed by the reference method (Magnetic Resonance (MR)-elastography).
Description
Medical imaging plays a key role in the diagnostic and therapeutic management of renal cell carcinomas. It can be used to confirm the presence of a tumor, localize it, suggest malignancy or even histological subtype, guide sampling, perform TNM staging, assist in surgical scheduling, monitor therapeutic efficacy in the event of systemic treatment, guide ablathermy procedures and look for relapses after curative treatments have ended. Imaging of kidney tumors relies on three complementary imaging modalities: ultrasound (US), Computed Tomography based on X-ray absorption (CT-scan) and magnetic resonance imaging (MRI). The most commonly performed examination remains the CT scan, which is used to print 3D models. However, the correlation between renal parenchyma densities and renal tumors (before and during the scan acquisition times after injection) and elasticity parameters measured by US and MRI has never been explored.
This trial aim to evaluate the correspondence between several imaging modalities for characterizing the elasticity of healthy and pathological kidney tissue. It will also improve the realism of 3D models used by surgeons, and identify new complementary imaging biomarkers.
To achieve this aim, 50 patients will undergo DWI -elastography (Diffusion Weigthed Imaging-elastography) and MR-elastography sequences, as well as an US before the surgery. After surgery, a fragment of the resected specimen will be used to perform mechanical tests to determine the real hardness of the tissue.
Eligibility
Inclusion Criteria:
- Adult patients (≥ 18 years of age)
- Scheduled for surgical management with nephrectomy for kidney tumor in the urology department of Bordeaux University Hospital
- CT scan available or scheduled for surgery
- Consent expressed for integration of the UroCCR database
- Expressed consent for participation in the Rein 3D Print Mechanics study
- Patients affiliated or benefiting from social security system
Exclusion Criteria:
- - Pregnant or breast-feeding women
- Contraindication to MRI (Magnetic Resonance Imaging)
- Contraindication to injection of gadoline contrast agents
- Biopsy prior to MRI, CT and ultrasound scans (risk of artifactual alteration, via iatrogenic hemorrhagic changes, of the biomechanical properties of the renal tumor and parenchyma).
- Presence of thoracolumbar arthrodesis material
- Obese patient (body mass index ≥ 30 kg/m²)
- Cystic renal tumors with solid component (corresponding to either parietal thickening or tumor bud) < 2 cm
- Necrotic renal tumors with solid component (corresponding to either parietal thickening or tumor bud) < 2 cm
- Ascites
- Person under legal protection
- Difficulty understanding and expressing in French