The global haptic feedback surgical environment market is expected to witness a CAGR of 14.3% during the forecast period. Haptics is defined as a real and simulated touch between robots, humans, real, remote, or simulated environments. The application of haptic devices in the healthcare sector is in its emerging stage and is projected to grow significantly owing to technological advancement in the healthcare sector, specifically in minimally invasive surgeries.

Furthermore, the global haptic feedback surgical environment market is growing owing to proliferating need for scientifically and technologically developed surgical robots systems and simulators for medical training applications. However, certain factors may hamper the growth of the haptic feedback surgical environment market like low dexterity, limited workspace of the haptic device, and implementation of haptic feedback surgical environment technology in a medical device is intricate and is highly technical.

Download Free Sample Copy Of Research Report: https://www.vynzresearch.com/healthcare/haptic-feedback-surgical-environment-market/request-sample

Force Dimension uses haptic interfaces and integrates several medical devices such as the Sensei™ Robotic Catheter System from Hansen Medical that uses computed catheter technology and offers stable and predictable control of catheter movement. This advanced technology was designed to direct catheter control in three dimensions i.e., to augment the physician's ability to access hard to influence anatomy, reiterate procedure steps, and sustain stability through interventional procedures.

The COVID-19 pandemic has resulted in stay at home, social distancing, avoiding physical contact, remote working and travel restrictions globally. Healthcare sector has adopted teleoperated haptic systems for remote training, resulting in growth of the global haptic feedback surgical environment market

Based on the application, the global haptic feedback surgical environment is bifurcated into surgical robotics systems and medical simulators. Surgical robot systems are anticipated to witness a significant share during the forecast period. Haptic feedback is growing significantly owing to its adoption in endovascular procedures and is a computer simulation for surgical training systems. These systems can train surgeons in a virtual operating room and provide quantitative feedback on the performed procedure. As a result, the operator can refine the required skills and achieve proficiency before starting the real surgery.

North America dominates the market owing to the technical development in the healthcare sector, rising awareness, increased government spending on the healthcare sector, adoption of surgical robotic systems owing to its enhanced use in surgeries and teleoperations.

Some of the major players in the global Haptic Surgical Feedback Environment market include 3D Systems Corporation, Force Dimension, Forsslund Systems AB, HAPTION, Orb Surgical Ltd., and Moog Inc.

Source: VynZ Research