HFMED Optimizes Operating Table Fine-Tuning Mechanical Structure To Improve Intraoperative Posture Precision Adaptation

Jun 24, 2026 Leave a message

June 24, 2026 – Complex surgeries such as neurosurgery, orthopedic spine surgery and minimally invasive laparoscopy require extremely high precision of patient posture and table angle. Traditional operating tables only support large-angle overall adjustment, with coarse single adjustment amplitude and no fine micro-adjustment function. It is impossible to achieve millimeter-level posture fine-tuning according to intraoperative real-time needs. Slight deviation of table angle and body position will affect the tightness of surgical field exposure, increase the difficulty of fine operation, and cannot meet the high-precision positioning needs of modern complex surgery.

 

Gynae OT Table

To solve the problem of insufficient precision of traditional operating table adjustment, HFMED has fully optimized the internal transmission and fine-tuning mechanical structure of the electric operating table this week. The upgraded structure adds independent micro-adjustment modules for lifting, tilting and back plate flipping, realizing small-amplitude, high-precision continuous fine-tuning of table posture. It supports real-time subtle correction of body position during surgery, accurately matches the optimal exposure angle of different surgical fields, effectively optimizes the surgical field visualization effect, and reduces the operational difficulty of deep and minimally invasive fine surgery.

 

"Precise posture adaptation is the premise of optimal surgical field exposure," said the mechanical R&D director of HFMED. "Traditional coarse adjustment mode cannot cope with the high-precision positioning needs of complex fine surgery. Through mechanical structure iteration and fine-tuning function upgrading, we realize flexible and accurate posture adjustment, help doctors obtain the best surgical field perspective, reduce operation difficulty, and further improve the success rate and safety of complex surgical operations."

 

Frequently Asked Questions

 

Q1: What problems will insufficient adjustment precision of operating tables bring to complex surgeries?

A:Traditional operating tables have large single adjustment range and no fine-tuning function, which makes it difficult to accurately lock the optimal surgical posture. Subtle posture deviation will lead to incomplete exposure of deep lesions and blind surgical field, increasing the difficulty of fine dissection and hemostasis. Repeated large-angle adjustments will interrupt the surgical rhythm, prolong the operation time, and affect the overall efficiency and safety of complex surgery.

 

Q2: What is the core clinical value of the fine-tuning structure upgrade?

A:The optimized fine-tuning mechanical structure realizes high-precision continuous adjustment of the operating table, which can accurately correct intraoperative posture deviations and lock the optimal surgical field exposure angle. It effectively solves the problem of insufficient field exposure caused by inaccurate posture adjustment, reduces repeated equipment adjustment operations, stabilizes the surgical rhythm, and provides accurate and reliable posture support for high-precision complex minimally invasive surgery.