Surgical robots have become increasingly important in veterinary research, particularly in large animal testing labs. These advanced systems enhance precision, reduce recovery times, and improve overall outcomes in surgical procedures performed on large animals such as pigs and sheep.
Endoscopic surgical robots: These can perform a wide range of surgeries, helping surgeons extend their vision into the patient's body, while the robotic arms mimic human hands to manipulate endoscopes and surgical instruments.

Orthopedic surgical robots: Used to assist in orthopedic surgeries, such as joint replacement and spinal surgeries, providing better imaging of the surgical site and minimizing damage to healthy bones.

Vascular surgical robots: Used to treat diseases related to the heart, brain, or vascular system organs.

Natural orifice transluminal endoscopic surgical robots: These deliver relevant surgical instruments to the surgical area through the body's natural orifices and can control the robot for diagnosis or surgery, applicable for examining and treating organs such as the lungs and stomach.

Percutaneous puncture surgical robots: Used for percutaneous puncture surgeries, primarily for collecting tissue samples for diagnostic purposes, such as early cancer detection.