MAKO robotic surgery: Revolutionising orthopaedic procedures

MAKO robotic surgery represents a cutting-edge advancement in the field of orthopaedic surgery, offering patients a more precise and personalised approach to joint replacement procedures. Developed by Stryker, a global leader in medical technology, the MAKO system combines robotic-arm technology with advanced 3D imaging to enhance surgical accuracy and outcomes.

The MAKO procedure begins with a pre-operative CT scan that creates a detailed 3D model of the patient’s joint. This model allows surgeons to plan the surgery with pinpoint precision, tailoring implant placement to the patient’s unique anatomy. During the surgery, the robotic arm assists the surgeon by guiding the instruments, ensuring that bone preparation and implant positioning are executed exactly as planned.

One of the primary benefits of MAKO robotic surgery is its ability to improve implant alignment and fit. Proper alignment is crucial for the longevity and function of joint replacements, especially in hip and knee surgeries. By minimising the risk of misalignment, MAKO technology can help reduce pain, improve joint function, and extend the life of the implant.

Additionally, the minimally invasive nature of the procedure often results in less soft tissue damage, reduced blood loss, and quicker recovery times compared to traditional surgery. Patients typically experience less postoperative pain and regain mobility faster, enabling a quicker return to daily activities.

MAKO robotic surgery is currently used for partial knee replacements, total knee replacements, and total hip replacements. Its precision and consistency make it a popular choice among orthopedic surgeons seeking to improve surgical outcomes.

In summary, MAKO robotic surgery exemplifies the future of orthopaedic care, combining technology and surgical expertise to deliver safer, more effective joint replacement procedures with enhanced recovery for patients.