Contrast‐enhanced Ultrasound Combined With Elastography for the Evaluation of Muscle‐invasive Bladder Cancer in Rats

Abstract: ObjectivesBy comparing with the control group, we evaluated the usefulness of contrast‐enhanced ultrasound (CEUS) combined with elastography for the assessment of muscle invasion by bladder cancer (MIBC) in a Sprague–Dawley (SD) rat model.MethodsIn the experimental group, 40 SD rats developed in situ bladder cancer (BLCA) in response to N‐methyl‐N‐nitrosourea treatment, whereas 40 SD rats were included in the control group for comparison. We compared PI, Emean, microvessel density (MVD), and collagen fiber con… Show more

“…Findings from this study are exploitable for setting the ground to identify patients and bladder areas at risk of tumor relapse, both i) ex-vivo , by assessing the anisotropy index of collagen fibers on non-neoplastic and suspicious H&E tissue sections collected during TURBT using polarized light microscopy or Brillouin microscopy [37] , and ii) in vivo , by assessing the three-dimensional organization of collagen fibrils using innovative imaging-based techniques, such as elastography [34] , [35] ormultiparametric magnetic resonance imaging [36] , and iii) for the delivery of novel adjuvant therapy targeting ECM remodelling in order to revert topographic modifications to a physiological low linearization of the collagen fibers, aiming to decrease the disease progression/relapse.…”

Topographic modification of the extracellular matrix precedes the onset of bladder cancer

“…Findings from this study are exploitable for setting the ground to identify patients and bladder areas at risk of tumor relapse, both i) ex-vivo , by assessing the anisotropy index of collagen fibers on non-neoplastic and suspicious H&E tissue sections collected during TURBT using polarized light microscopy or Brillouin microscopy [37] , and ii) in vivo , by assessing the three-dimensional organization of collagen fibrils using innovative imaging-based techniques, such as elastography [34] , [35] ormultiparametric magnetic resonance imaging [36] , and iii) for the delivery of novel adjuvant therapy targeting ECM remodelling in order to revert topographic modifications to a physiological low linearization of the collagen fibers, aiming to decrease the disease progression/relapse.…”

Topographic modification of the extracellular matrix precedes the onset of bladder cancer