[vc_row el_class=”cstm_container”][vc_column][vc_column_text]Robotic joint replacement surgery is a medical process of fixing damaged joints with various implants. The advancement in technology, such as robotic assistance devices, assists surgeons in performing joint replacement surgery personalized for the specific anatomy.
The VELYS Robotic-Assisted Solution enables surgeons to closely monitor and optimize surgical outcomes. It performs such tasks using intraoperative data, which is unique to you. The surgeon used it to enhance the accuracy & precision of the robotic joint replacement surgery to make you move again.
So, here in this blog, we will discuss how robotic joint surgical treatment works and will discuss its benefits.
Why Do You Need Joint Replacement?
Joint replacement surgery is a common procedure for those suffering from severe joint pain and limited mobility. Traditional joint replacement surgeries have been effective, but recent advancements in technology have led to the development of robotic joint replacement surgery. This innovative technique involves the use of robotic instruments and 3D imaging to create a customized surgical plan for each patient, leading to greater precision and accuracy during surgery. For those experiencing chronic joint pain, robotic joint replacement offers a minimally invasive solution that can improve their quality of life.
How Robotic Surgery Works?
Robotic joint replacement surgery has revolutionized the field of joint replacement surgery, offering patients a minimally invasive and highly accurate approach to joint reconstruction. The VELYS Robotic-Assisted solution is one such system that has been developed to assist surgeons in performing joint replacement surgeries with greater precision and accuracy.
The VELYS system does not require CT scan of the patient’s joint. The surgeon then uses this model to create a detailed surgical plan, taking into account the unique anatomy of the patient’s joint and the specific needs of the individual.
During the surgical procedure, the VELYS system provides the surgeon with real-time feedback, allowing them to make precise adjustments as needed. The robotic arm is guided by the surgeon and is capable of making sub-millimeter adjustments, ensuring that the implant is positioned with a high degree of accuracy.
One of the key advantages of the VELYS system is its ability to optimize implant positioning, which is critical to the long-term success of joint replacement. By ensuring that the implant is correctly aligned and positioned, patients are less likely to experience complications or premature wear of the implant.
Overall, the VELYS Robotic-Assisted system offers a powerful tool for surgeons to perform joint replacement surgeries with greater precision and accuracy, resulting in improved outcomes for patients.
Who Is Suitable for Robotic Joint Replacement Surgery?
Robotic knee replacement surgery can be a suitable option for a wide range of patients who are experiencing knee pain and mobility issues due to conditions such as osteoarthritis, rheumatoid arthritis, or a traumatic injury.
Suitable candidates for robotic joint replacement surgery typically have advanced knee damage that has not responded to non-surgical treatments such as physical therapy or medication. They may also have difficulty performing daily activities such as walking, climbing stairs, or getting in and out of chairs.
Additionally, candidates for robotic joint replacement surgery should be generally healthy and not have any underlying medical conditions that could increase the risk of surgery or complications. Patients should also be committed to participating in postoperative rehabilitation to ensure a successful recovery.
It is important to note that each patient’s situation is unique, and ultimately, the decision to undergo robotic joint replacement should be made in consultation with a qualified orthopedic surgeon. The surgeon can evaluate the patient’s specific condition and determine if robotic surgery is a suitable option for them.
Benefits of Robotic Joint Replacement Surgery
Robotic joint replacement surgery, particularly with the VELYS™ Robotic-Assisted system, offers a number of benefits compared to traditional joint replacement surgery.
One major advantage of robotic joint replacement surgery is its precision and accuracy. The VELYS™ system uses advanced imaging and robotic technology to create a 3D model of the joint, allowing the surgeon to create a customized surgical plan for each patient. During the surgery, the robotic arm is guided by the surgeon to make precise adjustments and ensure accurate placement of the implant. This level of precision can result in improved outcomes and reduced complications.
Robotic joint replacement surgery also typically involves smaller incisions compared to traditional surgery, resulting in less tissue damage, reduced blood loss, and faster healing times. This means that patients may experience less pain and require less postoperative medication, which can also reduce the risk of side effects and complications.
Furthermore, because robotic joint replacement surgery is less invasive, patients may be able to return to their normal activities sooner than with traditional surgery. This can improve quality of life and overall patient satisfaction.
The merits of robotic joint replacement surgery with the VELYS™ Robotic-Assisted system include improved precision and accuracy, smaller incisions, reduced blood loss, faster healing times, and potentially faster recovery. It is important to discuss the potential benefits and risks of this procedure with a qualified orthopedic surgeon to determine if it is a suitable option for each individual patient.
Conclusion
In conclusion, robotic joint replacement surgery is an innovative approach to joint reconstruction that offers numerous benefits over traditional surgery. Using advanced imaging and robotic technology, surgeons are able to create a customized surgical plan and perform the procedure with a high degree of precision and accuracy. The VELYS™ Robotic-Assisted system is one such technology that has been developed to assist surgeons in performing joint replacement surgeries with greater accuracy and efficiency. [/vc_column_text][/vc_column][/vc_row]
