EndoQuest Robotics, Inc.
Developer of a flexible robotic surgical system intended to enable endoluminal and single‑incision procedures. Activity described includes design and integration of flexible robotically actuated instruments, patient cart and console systems, high‑performance imaging and cloud analytics, preclinical comparative testing, simulation‑based training, IDE clinical studies, and regulatory engagement.
Industries
Nr. of Employees
medium (51-250)
EndoQuest Robotics, Inc.
9310 Kirby Drive, Suite 100, Houston, TX 77054, USA Office (South Korea): 42 Changeop‑ro, Sujeong‑gu, Seongnam‑si, Gyeonggi‑do 13449, Republic of Korea; +82-31-476-7797
Patents
Products
Flexible robotic surgical system (endoluminal and single‑incision)
Modular surgical system comprising a patient cart with a steerable overtube, robotically controlled flexible instruments, and a physician console for procedures through natural orifices or a single small incision.
Flexible robotic surgical system (endoluminal and single‑incision)
Modular surgical system comprising a patient cart with a steerable overtube, robotically controlled flexible instruments, and a physician console for procedures through natural orifices or a single small incision.
Services
Support for IDE clinical studies including principal investigator training programs, site readiness, study coordination, and multicenter execution.
Provision of validated simulation tools and hands‑on training programs to accelerate clinician adoption and shorten learning curves for complex endoluminal procedures.
On‑site installation, clinical workflow integration, and commissioning of surgical systems at clinical and training sites.
Integration of high‑performance image sensors, GPU‑accelerated AI inference, and secure cloud services for enhanced visualization, analytics, and remote collaboration.
Support for IDE clinical studies including principal investigator training programs, site readiness, study coordination, and multicenter execution.
Provision of validated simulation tools and hands‑on training programs to accelerate clinician adoption and shorten learning curves for complex endoluminal procedures.
On‑site installation, clinical workflow integration, and commissioning of surgical systems at clinical and training sites.
Integration of high‑performance image sensors, GPU‑accelerated AI inference, and secure cloud services for enhanced visualization, analytics, and remote collaboration.
Expertise Areas
- Endoluminal and single‑incision surgical robotics
- Clinical trial management for investigational medical devices (IDE)
- Robotic instrument articulation and control (multi‑DOF flexible instruments)
- Real‑time surgical image processing and AI‑driven visualization
Key Technologies
- Flexible multi‑DOF robotic actuators for endoluminal access
- High‑definition endoscopic imaging pipelines
- GPU‑accelerated AI inference and edge AI platforms
- Real‑time image processing and visualization algorithms
News & Updates
Announcement of integration of a GPU‑accelerated AI inference platform into the endoluminal robotic system to enable real‑time image processing, robotic control, and cloud intelligence.
Completion of initial clinical procedures as part of a multicenter IDE trial using the endoluminal robotic system, including subsequent site procedures at multiple U.S. centers.
Randomized preclinical study reported higher technical success and greater closure integrity with a robot‑assisted approach compared to conventional endoscopic techniques in an animal/tissue model.
Announcement that the system received Investigational Device Exemption (IDE) approval to begin clinical trials in the United States.
Installation of a flexible robotic system at a minimally invasive surgery training institute in Strasbourg, France for clinician training and evaluation.
Closed financing rounds to advance clinical trials, early feasibility studies, and visualization system development.
Announcement of integration of a GPU‑accelerated AI inference platform into the endoluminal robotic system to enable real‑time image processing, robotic control, and cloud intelligence.
Completion of initial clinical procedures as part of a multicenter IDE trial using the endoluminal robotic system, including subsequent site procedures at multiple U.S. centers.
Randomized preclinical study reported higher technical success and greater closure integrity with a robot‑assisted approach compared to conventional endoscopic techniques in an animal/tissue model.
Announcement that the system received Investigational Device Exemption (IDE) approval to begin clinical trials in the United States.
Installation of a flexible robotic system at a minimally invasive surgery training institute in Strasbourg, France for clinician training and evaluation.
Closed financing rounds to advance clinical trials, early feasibility studies, and visualization system development.