Novel volumetric and morphological parameters derived from three-dimensional virtual modeling to improve comprehension of tumor's anatomy in patients with renal …
L Bianchi, R Schiavina, B Bortolani, L Cercenelli… - European Urology …, 2022 - Elsevier
Abstract Background Three-dimensional (3D) models improve the comprehension of renal
anatomy. Objective To evaluate the impact of novel 3D-derived parameters, to predict …
anatomy. Objective To evaluate the impact of novel 3D-derived parameters, to predict …
Novel Volumetric and Morphological Parameters Derived from Three-dimensional Virtual Modeling to Improve Comprehension of Tumor's Anatomy in Patients with …
L Bianchi, R Schiavina, B Bortolani… - European Urology …, 2021 - europepmc.org
Novel Volumetric and Morphological Parameters Derived from Three-dimensional Virtual
Modeling to Improve Comprehension of Tumor's Anatomy in Patients with Renal Cancer …
Modeling to Improve Comprehension of Tumor's Anatomy in Patients with Renal Cancer …
Novel Volumetric and Morphological Parameters Derived from Three-dimensional Virtual Modeling to Improve Comprehension of Tumor's Anatomy in Patients with …
L Bianchi, R Schiavina… - European …, 2022 - eu-focus.europeanurology.com
Abstract Background Three-dimensional (3D) models improve the comprehension of renal
anatomy. Objective To evaluate the impact of novel 3D-derived parameters, to predict …
anatomy. Objective To evaluate the impact of novel 3D-derived parameters, to predict …
Novel Volumetric and Morphological Parameters Derived from Three-dimensional Virtual Modeling to Improve Comprehension of Tumor's Anatomy in Patients with …
L Bianchi, R Schiavina, B Bortolani… - EUROPEAN …, 2022 - cris.unibo.it
Background: Three-dimensional (3D) models improve the comprehension of renal anatomy.
Objective: To evaluate the impact of novel 3D-derived parameters, to predict surgical …
Objective: To evaluate the impact of novel 3D-derived parameters, to predict surgical …
[PDF][PDF] Novel Volumetric and Morphological Parameters Derived from Three-dimensional Virtual Modeling to Improve Comprehension of Tumor's Anatomy in Patients …
L Bianchi, R Schiavina, B Bortolani, L Cercenelli… - 2021 - researchgate.net
Abstract Background: Three-dimensional (3D) models improve the comprehension of renal
anatomy. Objective: To evaluate the impact of novel 3D-derived parameters, to predict …
anatomy. Objective: To evaluate the impact of novel 3D-derived parameters, to predict …
Novel Volumetric and Morphological Parameters Derived from Three-dimensional Virtual Modeling to Improve Comprehension of Tumor's Anatomy in Patients with …
L Bianchi, R Schiavina, B Bortolani… - European …, 2022 - pubmed.ncbi.nlm.nih.gov
Background Three-dimensional (3D) models improve the comprehension of renal anatomy.
Objective To evaluate the impact of novel 3D-derived parameters, to predict surgical …
Objective To evaluate the impact of novel 3D-derived parameters, to predict surgical …