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Orthopedic surgeons are medical professionals that focus on the musculoskeletal system, which includes the bones, joints, ligaments, tendons, muscles, and other soft tissues that are necessary for movement and daily life.
The human body has more than 200 bones, making it a highly sought-after expertise. joint dislocations. back or hip ache
The goal of orthopaedics, often known as orthopaedic services, is to treat the musculoskeletal system. This comprises your muscles, tendons, ligaments, and bones.
The medical specialty of orthopaedics, commonly referred to as orthopaedic surgery, focuses on the treatment of the skeletal system and its connected components. Bones, muscles, and joints are a few of these components.
Orthopedic surgery, often known as orthopaedics or orthopaedics, is the area of surgery that deals with musculoskeletal problems. Orthopedic surgeons treat musculoskeletal trauma, spine problems, sports injuries, degenerative diseases, infections, cancers, and congenital abnormalities using both surgical and nonsurgical techniques.
The treatment of the musculoskeletal system is the main emphasis of the medical specialty of orthopaedics. Muscles, bones, joints, ligaments, and tendons make up this system. An orthopaedic specialist is referred to as an orthopedist.
Orthopaedic surgeons are experts in performing surgical procedures to address issues brought on by illness and injuries to the bones, joints, and other moving parts of the body.
Mobility may be impacted by a variety of orthopaedic or neuromuscular conditions. Amputation, paralysis, cerebral palsy, stroke, multiple sclerosis, muscular dystrophy, arthritis, and spinal cord damage are only a few of them.
The Global orthopedic surgery support systems market accounted for $XX Billion in 2023 and is anticipated to reach $XX Billion by 2030, registering a CAGR of XX% from 2024 to 2030.
Robotic orthopaedic surgery support system Megrez has begun operations! allows for accuracy! hardly intrusive minimal radiation
With the ageing of the population, orthopaedic-related disorders are becoming more common. A major concern for the orthopaedic business is how to increase the calibre of orthopaedic surgery while maintaining the volume of operations.
Robots for orthopaedic surgery have been developed as a result.
Orthopaedic surgery support system robots can perform automatically or passively at the operator’s command, and the mechanical arm positioning replaces the operator’s bare hand positioning to improve stability and accuracy.
This is in contrast to traditional orthopaedic surgery, which is susceptible to factors such as patient positioning, accuracy of surgical instrument control, personal experience, and fatigue of the surgeon.
The orthopaedic surgery robot digitally empowers the surgeon’s “hands” (robotic arm), “eyes” (navigation), and “brain” in particular for extremely complex orthopaedic surgeries like scoliosis (intelligent planning).
It may successfully address the clinical drawbacks of traditional surgery, which is overly reliant on the operator’s skill and unable to create standardised and repeatable operation because to its simplicity of operation and short learning curv.
Orthopaedic surgery support systems robot has developed a strong system of medical-industrial collaboration based on clinical requirements, overcame challenges in multi-disciplinary fields, and made significant strides in core technologies like the creation of highly dexterous and lightweight robotic arms and intelligent planning and navigation algorithms.