Robotic Knee ACL reconstruction surgery is a Robotic surgical procedure performed to repair a torn or ruptured ACL, one of the major ligaments in the knee. The ACL (Anterior Cruciate Ligament) is crucial for providing stability to the knee joint and preventing excessive forward movement of the shin bone (tibia) relative to the thigh bone (femur).
During the Robotic Knee ACL Repair Surgery , the damaged ACL is replaced with a graft, which can be taken from various sources, such as:
Autograft: The graft is harvested from the patient’s own body, commonly from the patellar tendon (a tendon below the kneecap) or the hamstring tendons (muscles at the back of the thigh).
Allograft: The graft is obtained from a deceased donor, which is typically sourced from a tissue bank. Common allograft options include patellar tendon, hamstring tendons, or Achilles tendon.
The ACL reconstruction surgery is usually performed arthroscopically, which is a minimally invasive technique. It involves making small incisions around the knee joint and using an arthroscope (a tiny camera) to visualize the internal structures of the knee. This approach reduces surgical trauma, leads to faster recovery, and decreases the risk of complications.
Before the surgery, the orthopedic surgeon will conduct a thorough examination of the knee, possibly including imaging tests like MRI, to assess the extent of the ACL injury and identify any associated damage to other structures in the knee.
On the day of surgery, the patient is administered either general anesthesia or regional anesthesia (spinal or epidural) to ensure they are comfortable and pain-free during the procedure.
The surgeon makes small incisions around the knee to access the joint.
The surgeon uses an arthroscope, a small camera inserted through one of the incisions, to visualize the structures inside the knee joint. This allows for a detailed examination of the ACL and other ligaments, cartilage, and menisci.
If the ACL is severely damaged and cannot be repaired, it is removed.
The surgeon then harvests a graft, which is a piece of tissue used to reconstruct the torn ACL. The graft can be taken from the patient’s own body (autograft), commonly from the patellar tendon or hamstring tendon, or from a tissue donor (allograft).
At RKRS Center , we provide cutting-edge Robotic Knee Arthroscopy Surgery. RKRS Center,, our highly qualified orthopedic surgeon, specializes in advanced and minimally invasive solutions for knee issues using cutting-edge robotic technology. We try to provide the best possible outcomes for our patients using our knowledge and the precision of robotic-assisted surgery.
After the graft is securely in place, the surgeon closes the incisions with sutures or staples.
Following the surgery, the patient will undergo a structured rehabilitation program under the guidance of a physical therapist. This is crucial for regaining knee strength, flexibility, and stability.
It is important to note that not everyone with an ACL tear requires surgery. The decision to undergo ACL reconstruction is usually made in consultation with an orthopedic surgeon, who will assess the extent of the injury, the individual’s activity level and lifestyle, and their overall health before recommending the appropriate course of action.
The growing popularity of ACL reconstruction surgery, fueled by increased participation in sports, has prompted the need for more precise and quantified approaches. The current empirical method of drilling bone tunnels and inserting grafts to restore knee function can lead to instability post-surgery. To address this challenge, we propose a Robotic Assisted Knee ACL Reconstruction Surgery System that leverages engineering techniques for improved outcomes.
To develop the robotic graft tension setting device, our research involved conducting experiments to measure two essential parameters: the initial knee flexion angle and graft tension. Through the utilization of Magnetic Resonance Imaging (MRI) and a 3D positional measuring device, we non-invasively measured the extent of change in ligament length during knee flexion. Additionally, we observed the change in graft tension during flexion using a load cell attached to the ligament of a cadaveric knee, considering various initial conditions.
The study’s findings revealed that not only does the extent of knee flexion influence ligament tension, but the location of bone tunnels also plays a critical role in determining the level of graft tension. By understanding these factors, we aim to enhance the stability and long-term success of Robotic Knee ACL Reconstruction Surgery
Further investigation involved monitoring the relaxation phenomena of pig’s ACL, which exhibited a strong correlation with the ligament tension setting velocity. Armed with these insights, we proceeded to design a graft tension setting device. The first prototype of this device showcases promising initial results, indicating its feasibility in revolutionizing ACL reconstruction surgery.
Robotic Knee Replacement Surgery in India ,” we are your trusted destination for cutting-edge knee care and advanced robotic surgical solutions. Our dedicated team of experts, located in the vibrant cities of Mumbai and Thane, is committed to providing you with a comprehensive range of services to alleviate knee pain and enhance your quality of life.
Our state-of-the-art offerings include Robot Assisted Knee Replacement Surgery in Thane , Robotic Partial Knee Replacement Surgery, Robotic Hip Replacement Surgery, Robotic Knee Arthroscopy Surgery, and Robotic ACL Reconstruction Surgery. We take pride in our expertise in knee pain management and surgical interventions, ensuring that you receive the highest standard of care.
Our Robotic Knee Replacement surgeon in Mumbai boasts a wealth of experience and unwavering dedication to knee surgeries. With a track record of over 3000 successful procedures, their expertise and commitment ensure you’re in capable hands when you entrust your knee health to us. Your well-being is our priority.
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Robotic Knee ACL Reconstruction Surgery is an advanced surgical procedure that utilizes robotic-assisted technology to repair or replace a torn or damaged Anterior Cruciate Ligament (ACL) in the knee joint. The robotic system aids surgeons in achieving more precise and accurate placement of grafts, ultimately enhancing the overall outcome of the surgery.
Traditional ACL surgery involves manual techniques for drilling bone tunnels and graft placement. In contrast, Robotic Knee ACL Reconstruction Surgery incorporates a robotic-assisted system that allows for meticulous planning and execution of the procedure. This advanced technology provides greater surgical accuracy and may result in improved long-term stability and functional outcomes for patients.
The benefits of Robotic Knee ACL Reconstruction Surgery include:
The eligibility for Robotic Knee ACL Reconstruction Surgery depends on various factors, including the extent of the ACL injury, the patient’s activity level, overall health, and their commitment to post-operative rehabilitation. An orthopedic surgeon will conduct a thorough evaluation and discuss the most appropriate treatment plan for each individual.
The duration of Robotic Knee ACL Reconstruction Surgery may vary depending on the complexity of the case and the patient’s specific needs. On average, the procedure may take around 1 to 2 hours.
After the surgery, patients will undergo a structured rehabilitation program, which is essential for the successful recovery and long-term outcomes. Physical therapy and exercises will help regain knee strength, flexibility, and stability. The total recovery time may range from several months to a year, depending on individual healing and progress.
Yes, one of the primary goals of Robotic Knee ACL Reconstruction Surgery is to restore knee stability and function, enabling patients to return to their desired activities and sports with reduced risk of further knee injuries. However, the timing of returning to sports will be determined by the surgeon based on individual healing progress and rehabilitation success.
As with any surgical procedure, there are inherent risks involved. Potential risks include infection, bleeding, blood clots, nerve or blood vessel damage, and adverse reactions to anesthesia. However, the use of robotic-assisted technology aims to minimize these risks by improving surgical accuracy.
Patients may experience initial improvements in knee stability and function within a few weeks after the surgery. However, complete recovery and return to pre-injury levels of activity may take several months, and individual results may vary.
In most cases, Robotic Knee ACL Reconstruction Surgery is covered by insurance if it is deemed medically necessary. However, it is essential to check with your insurance provider to understand your specific coverage and any pre-authorization requirements.
