Shuxiang Guo

About

Shuxiang Guo is a pioneering researcher whose work spans medical robotics, minimally invasive surgery, and bio-inspired robotic systems. He is perhaps best recognized for his groundbreaking contributions to robot-assisted endovascular interventions, where his development of master-slave robotic catheter systems has fundamentally advanced how vascular surgeries are performed. His 2019 robot-assisted endovascular catheterization system, with 163 citations, introduced haptic force feedback to shield surgeons from harmful X-ray radiation while preserving procedural dexterity — a challenge at the heart of modern interventional medicine. His 2012 robotic catheter system, with 153 citations, similarly demonstrated how force and visual feedback could replicate a surgeon's natural tactile skill in remote settings. Guo's 2015 work on MR fluid-based haptic interfaces for minimally invasive neurosurgery, cited 150 times, further established his leadership in teleoperated surgical safety. Beyond the operating room, Guo has made notable strides in underwater and amphibious robotics, developing spherical underwater robots and compact amphibious platforms that demonstrate remarkable versatility. With multiple papers exceeding 100 citations and successful in-human evaluations of his vascular robotic systems, Guo's research stands as a landmark body of work bridging engineering innovation with real-world clinical impact.

Research Focus

Key Achievements

Top Papers

1. 1
   A Novel Robot-Assisted Endovascular Catheterization System With Haptic Force Feedback

   163 citations · 2019
2. 2
   A novel robotic catheter system with force and visual feedback for vascular interventional surgery

   153 citations · 2012
3. 3
   Safety Operation Consciousness Realization of a MR Fluids-Based Novel Haptic Interface for Teleoperated Catheter Minimally Invasive Neurosurgery

   150 citations · 2015
4. 4
   A cooperation of catheters and guidewires-based novel remote-controlled vascular interventional robot

   124 citations · 2018
5. 5
   Development of a Spherical Underwater Robot Equipped with Multiple Vectored Water-Jet-Based Thrusters

   123 citations · 2012
6. 6
   Design and experimental evaluation of a teleoperated haptic robot–assisted catheter operating system

   111 citations · 2014
7. 7
   Development of a novel type of microrobot for biomedical application

   104 citations · 2007
8. 8
   Operation evaluation in-human of a novel remote-controlled vascular interventional robot

   103 citations · 2018
9. 9
   Modeling and experimental evaluation of an improved amphibious robot with compact structure

   101 citations · 2017
10. 10
    Design and performance evaluation of an amphibious spherical robot

    95 citations · 2014

Key Collaborators

Contact & Links