RT @JRobotSurg: A novel ex vivo trainer for robotic vesicourethral anastomosis https://t.co/xSMSSQS4HJ @DartmouthUro https://t.co/qEpv5G4KyQ
RT @JRobotSurg: A novel ex vivo trainer for robotic vesicourethral anastomosis https://t.co/xSMSSQS4HJ @DartmouthUro https://t.co/qEpv5G4KyQ
RT @JRobotSurg: A novel ex vivo trainer for robotic vesicourethral anastomosis https://t.co/xSMSSQS4HJ @DartmouthUro https://t.co/qEpv5G4KyQ
For challenging surgical tasks like robotic vesicourethral anastomosis, ex vivo simulation can improve trainees' in vivo performance. Here's an inexpensive, 3D-printed solution from @GeiselMed & @thayerschool that mimics live tissue and benefits both n
RT @JRobotSurg: A novel ex vivo trainer for robotic vesicourethral anastomosis https://t.co/xSMSSQS4HJ @DartmouthUro https://t.co/qEpv5G4KyQ
RT @JRobotSurg: A novel ex vivo trainer for robotic vesicourethral anastomosis https://t.co/xSMSSQS4HJ @DartmouthUro https://t.co/qEpv5G4KyQ
A novel ex vivo trainer for robotic vesicourethral anastomosis https://t.co/xSMSSQS4HJ @DartmouthUro https://t.co/qEpv5G4KyQ
Our student, Kevin Shee (@KShee11, 3rd year MD) just published his article in the Journal of Robotic Surgery (@JRobotSurg) about a novel 3D-printed model of VUA for robotic surgical education! Congrats!... https://t.co/Sm6RgQsFlK
RT @KShee11: Presenting new work in @JRobotSurg representing a collaboration between @DartmouthUro and Dr. Ryan Halter @thayerschool. Here…
RT @KShee11: Presenting new work in @JRobotSurg representing a collaboration between @DartmouthUro and Dr. Ryan Halter @thayerschool. Here…
Presenting new work in @JRobotSurg representing a collaboration between @DartmouthUro and Dr. Ryan Halter @thayerschool. Here @kvnkoo, @EliasHyams, and I present a novel 3D-printed model of VUA for robotic surgical education. https://t.co/mFFPqUGxao @Geise