- 7/24 Live Call Center
Last Updated on November 27, 2025 by Bilal Hasdemir
Robotic knee replacement has changed orthopedic surgery a lot. People often wonder how long it takes. On average, it’s between 1.5 to 2.5 hours per knee.
The exact time can change. This depends on how complex the case is and the surgeon’s skill. Knowing this helps patients get ready for their surgery and know what to expect.
Knee replacement surgery has seen big changes thanks to new technology. Now, thanks to robots, surgeries are more precise and effective. This change has made surgeries better for patients.
Old knee replacement surgeries depended on the surgeon’s skill. While good, it had its limits. Robotic-assisted surgeries, though, offer better accuracy and fit for each patient. Robots help plan the surgery, making bone cuts and implant placement more precise.
Several big steps have improved knee replacement surgery. One key change is 3D imaging and virtual modeling. These tools let surgeons see the knee in detail, plan better, and try out the surgery before starting.
The table below shows the main differences between old and new knee replacement surgeries:
| Feature | Traditional Knee Replacement | Robotic-Assisted Knee Replacement |
| Precision | Limited by human error | Enhanced accuracy with robotic assistance |
| Customization | Limited personalization | Highly personalized based on patient anatomy |
| Surgical Planning | Based on X-rays and surgeon expertise | Utilizes 3D imaging and virtual modeling |
| Surgery Time Frame | Varies; typically longer due to manual adjustments | Can be more efficient with precise robotic assistance; robotic knee replacement surgery time frame is often optimized |
Robotic knee replacement surgery has changed orthopedic care a lot. It offers precision and customization that old methods can’t. The tech in robotic surgery helps surgeons plan and do the surgery with better precision. When thinking about how long is robotic knee surgery, remember it depends on the case’s complexity and the surgeon’s robotic skills.
Knowing how long robotic knee replacement surgery takes is key for both patients and doctors. It helps in planning and getting ready for the surgery. It also sets the right expectations for how long it will take to recover.
The average time in the operating room for this surgery is 1.5 to 2.5 hours per knee. This time can change based on how complex the surgery is and the doctor’s skill with robotic tech. Robotic-assisted surgery makes planning and doing the surgery more precise, which can make it faster.
In clinics, the whole surgery time, from start to finish, can be 2.5 to 3.5 hours. This time includes getting ready and closing up. It depends on the patient’s body, the robotic system used, and other factors. Good preoperative planning and advanced robotic systems can cut down the time in the operating room.
While the surgery time is important, it’s just one part of the treatment. Things like surgeon experience and the specific robotic platform used also play big roles in how well and fast the surgery goes.
The robotic knee surgery timeline has several key parts. Knowing these parts helps us understand how long the surgery takes.
The pre-surgical setup is very important. It includes getting the operating room ready, placing the patient, and checking all equipment. This can take 30 minutes to an hour, based on the case’s complexity and the team’s experience.
Key steps in pre-surgical setup include:
Calibrating the robotic system is also key. It makes sure the system matches the patient’s body perfectly. This usually takes 15-30 minutes.
The calibration process involves:
| Component | Average Time | Description |
| Pre-Surgical Setup | 30-60 minutes | Preparation of the operating room and patient |
| Robotic System Calibration | 15-30 minutes | Calibration of the robotic system to the patient’s anatomy |
| Actual Surgical Intervention | 60-90 minutes | The actual surgery performed by the surgeon using the robotic system |
The actual surgery is the main part. Here, the surgeon does the knee replacement with the robotic system. The time needed can change based on the case’s complexity, the surgeon’s skill, and the robotic system used.
A study in the Journal of Orthopaedic Surgery found the surgery lasts about 90 minutes on average. But, it can vary with each case.
“Robotic-assisted knee replacement surgery has been shown to improve accuracy and reduce recovery time. The precise duration of the surgery can vary, but the benefits of robotic assistance are clear. An Orthopaedic Surgeon
In summary, the robotic knee surgery timeline includes setup, calibration, and the surgery itself. Understanding these parts helps us see how long the surgery takes and the benefits of using robots.
It’s important for patients and surgeons to know what affects the time it takes for robotic knee replacement surgery. The surgery’s length depends on several key factors.
The patient’s body and health greatly influence how long the surgery takes. Complex body structures or health issues can make the surgery longer.
For example, those with severe bone problems or past knee surgeries need more time and care. A study in the Journal of Orthopaedic Surgery showed that those with more bone loss need longer surgery times. This is because they often need more bone grafting.
| Patient Condition | Average Surgery Time |
| Standard Anatomy | 60-90 minutes |
| Complex Anatomy | 90-120 minutes |
| Previous Knee Surgeries | 120-150 minutes |
The surgeon’s skill with robotic technology also matters a lot. More experienced surgeons can do the surgery faster.
“Surgeon experience is a critical factor in the success and duration of robotic knee replacement surgery. As surgeons become more adept with the technology, they can achieve better outcomes in less time.” An Orthopedic Surgeon
The robotic system used can also affect surgery time. Each system is different in complexity and ease of use. For instance, the Mako Robotic-Arm Assisted Surgery system is known for its precision and ease, which can make the surgery faster.
The choice of robotic platform, along with the surgeon’s experience and the patient’s anatomy, affects the surgery’s efficiency and length.
In robotic knee replacement, careful planning before surgery is key. It helps make the surgery faster and better. This planning uses advanced imaging to make a detailed plan for each patient.
3D imaging lets surgeons see the patient’s knee in detail. It helps create a virtual model of the knee. This model lets surgeons practice the surgery and see any possible problems.
Using 3D imaging and virtual modeling helps surgeons plan better. They can understand the patient’s knee better. This leads to faster surgeries and better results.
Patient-specific surgical planning is a big part of pre-surgery prep. It uses 3D imaging data to make a plan just for the patient.
Having a detailed plan before surgery makes the procedure smoother. It cuts down on extra steps and lowers the chance of problems. This is very important in robotic knee surgery, where being precise is critical.
The mix of 3D imaging, virtual modeling, and patient-specific planning makes robotic knee surgery better. It makes the surgery more efficient and effective. This way, surgeons can help patients recover faster and get better results.
The robotic knee replacement procedure is a detailed process. It aims to give patients the best results. This method has changed orthopedic surgery, making it more precise and tailored to each patient.
The first step is giving anesthesia. An anesthesiologist makes sure the patient is comfortable and pain-free. The anesthesia used is often a mix of regional and general types.
After anesthesia, the surgeon makes a planned incision. The incision’s size and location depend on the patient’s body and the robotic system. Robotic technology allows for smaller cuts than traditional surgery.
Next, the robotic system is used for registration. It creates a detailed map of the knee. This map helps the surgeon make accurate cuts and adjustments.
The last step is preparing the bone for the implant and placing it. The robotic system gives feedback to the surgeon. This ensures the implants are correctly placed, which is key for the surgery’s success.
| Step | Description | Key Features |
| Anesthesia Administration | Ensuring patient comfort and pain management | Regional and general anesthesia |
| Incision and Exposure | Accessing the knee joint | Smaller incisions with robotic technology |
| Robotic Mapping and Registration | Creating a detailed map of knee anatomy | Real-time data for precise surgery |
| Bone Preparation and Implant Placement | Preparing bone surfaces and placing implants | Accurate implant positioning |
Robotic and traditional knee replacement surgeries differ in time. Robotic surgery is known for its quickness and shorter hospital stays.
Robotic knee surgery is faster than traditional surgery. It can be 15-30 minutes shorter. This is because robots are more precise, making the surgery smoother.
Key differences in operating room duration include:
| Surgery Type | Average Operating Room Time | Average Hospital Stay |
| Robotic Knee Replacement | 60-90 minutes | 2-3 days |
| Traditional Knee Replacement | 90-120 minutes | 3-5 days |
Robotic knee surgery is not only quicker in the OR but also in recovery. This means patients can go home sooner.
The use of robots in knee surgery is a big step forward. It makes the treatment faster and less invasive for patients.
In the world of robotic knee replacement, Mako Robotic-Arm Assisted Surgery and ROSA Knee System are at the forefront. They lead in efficiency and precision.
The advanced technology in these systems makes knee replacement surgery more efficient. A study in a top orthopedic journal found that robotic systems cut down surgery time. They also improve how accurately implants are placed.
“Robotic technology allows for precise preoperative planning and execution, resulting in better outcomes and faster recovery times for patients.”
Mako Robotic-Arm Assisted Surgery is a top technology for knee replacement. It lets surgeons work with more precision. This system combines preoperative planning with real-time guidance during surgery for accurate implant placement.
Key Features of Mako Robotic-Arm Assisted Surgery:
The ROSA Knee System is another advanced robotic system for knee replacement. It helps surgeons by providing a robotic platform during surgery. This ensures precise bone preparation and implant placement.
The ROSA Knee System’s efficiency comes from its real-time feedback during surgery. This allows for adjustments as needed.
Robotic knee systems like Mako and ROSA are big steps forward in orthopedic surgery. They offer better efficiency, precision, and outcomes for patients.
Knowing the recovery timeline is key for those getting robotic knee replacement surgery. The journey to full recovery is slow but has clear milestones. Thanks to robotic surgery, patients can get back to their lives faster.
The first few days after surgery are critical for a smooth recovery. Patients might feel pain and swelling, which doctors manage with meds. Most can walk with help from a therapist or nurse within a day.
Key aspects of this period include:
In the short term, patients see big improvements. Swelling goes down, and pain lessens as the knee heals. It’s important to keep up with physical therapy to build muscle and improve movement.
Some of the key milestones during this period include:
The long-term recovery time varies, but most get back to normal in 6-12 weeks. It may take months to reach full strength and movement. Keeping up with physical therapy is key for the best results.
| Timeframe | Recovery Milestones |
| 24-48 hours | Initial mobility, pain management |
| 1-6 weeks | Significant improvement in mobility and strength |
| 3-12 months | Full recovery, maximum strength, and range of motion |
Understanding the recovery timeline helps patients prepare for their journey. It lets them make the most of robotic knee replacement surgery’s benefits.
Robotic knee surgery makes operations faster and more efficient. It uses advanced technology for precise work. This can shorten the surgery time and recovery period.
Robotic knee replacement surgery uses the latest tech to improve surgeon skills. It leads to improved accuracy and reduced surgical time. Surgeons can plan and do the surgery better, saving time in the operating room.
Robotic knee surgery can lead to a reduced rehabilitation duration. Studies show patients have less tissue damage and trauma. This means a faster recovery.
Robotic surgery minimizes damage to surrounding tissues. This reduces post-operative pain and swelling. These factors help determine how long the rehab period will be. So, patients can get back to normal activities sooner.
Robotic knee surgery not only shortens rehab but also helps patients get back to daily activities faster. The precision and control of robotic systems allow for better implant placement. This improves knee function.
Patients often report a quicker return to their daily routines and activities. This is thanks to the minimally invasive nature of the procedure and less tissue damage. This fast recovery is a big plus for those wanting to stay active.
Patient demographics are key in robotic knee replacement surgery. Knowing these differences helps tailor care to each patient’s needs.
Elderly patients face unique challenges in robotic knee replacement. They might have health issues and weaker bones. But, robotic surgery’s precision can help plan and execute the surgery better.
A study showed that while older patients’ surgeries took longer, their recovery and complication rates were similar to younger patients.
Younger, active patients want quick recovery and durable implants. Robotic knee replacement can offer a precise fit and faster recovery. This is because it’s a minimally invasive procedure.
For these patients, planning is key. Using 3D imaging helps plan the implant’s placement for the best results.
| Patient Demographic | Considerations | Benefits of Robotic Knee Replacement |
| Elderly Patients | Comorbidities, reduced bone density | Precision in preoperative planning, reduced complication rates |
| Younger, Active Patients | Demand for quicker recovery, durable implants | Minimally invasive, precise implant placement, faster recovery |
Understanding different patient needs helps healthcare providers improve robotic knee replacement outcomes. This leads to better patient satisfaction.
Surgeons starting with robotic knee replacement technology face a steep learning curve. This curve is key to their success with the systems.
Getting started with robotic knee systems takes a lot of time. Surgeons need to learn the tech, its features, and how to use it in surgeries.
New users of robotic knee systems need training and practice to get good. This initial effort is vital to grasp the tech’s details and use it well in surgeries.
A study found that new surgeons need 10 to 15 cases to feel comfortable with the system. It showed that mentorship and hands-on training help reduce this learning time.
| Case Number | Average Time (minutes) | Surgeon Feedback |
| 1-5 | 120 | Challenging, required significant guidance |
| 6-10 | 90 | Improving, some help needed |
| 11-15 | 60 | Confident, can work alone |
With more experience, surgeons get better at using robotic knee systems. They do surgeries faster and place implants more accurately.
Efficiency gains also show in planning before surgery and care after it. Experienced surgeons can streamline their work, leading to better patient results.
The graph shows how surgery time goes down as surgeons get more experience. This shows how important experience is for the best results.
In summary, while starting with robotic knee surgery takes a lot of time, the benefits of experience make it worth it. Surgeons who learn to use these systems well can give their patients better care, leading to happier patients.
Robotic knee replacement is becoming more common. It’s important to understand how patients feel about the surgery’s length. Some patients are surprised by how long the surgery takes.
Patients often have ideas about how long their surgery will last. They might think it will be shorter because of the technology. But, the surgery time can be longer than expected, even with robotic help.
A study showed that patients who knew what to expect were happier. This shows how important it is to talk about what will happen before surgery.
Studies show that how happy patients are with robotic knee replacement depends on their understanding. The surgery’s length is important, but not the only thing that matters.
Key factors influencing patient satisfaction include:
By focusing on these areas and setting realistic expectations, doctors can make patients happier.
Studies on robotic knee replacement have given us important insights. They show how efficient this surgery can be for patients. Recent research has looked into how long the surgery takes and how to make it faster.
Recent studies have looked into how long robotic knee replacement surgeries take. They found that while setting up for robotic surgery might take longer, the actual surgery time is getting shorter. A study in a top orthopedic journal showed that robotic knee replacement times are similar to traditional methods. In some cases, the surgery time is even shorter.
Advances in robotic technology and surgical techniques are making surgeries faster. Surgeons are getting better at using robots, making procedures smoother. Better planning and imaging before surgery also help reduce time in the operating room. As surgeons get more experience with robotic knee replacement, the surgery gets faster and better for patients.
More research is needed to keep improving robotic knee replacement surgery. This could lead to quicker recoveries and happier patients.
Understanding the economic side of robotic knee surgery is key for both doctors and patients. Robotic technology in knee surgery has improved results. But, it also brings new costs that need to be looked at closely.
The cost of using the operating room is a big part of the total cost of robotic knee surgery. Efficient time management is key to keeping costs down. Research shows that while robotic tech costs a lot upfront, it can save money in the long run. This is because it can lead to fewer complications and shorter hospital stays.
Here’s a detailed look at the costs of the operating room:
| Cost Component | Traditional Knee Replacement | Robotic Knee Replacement |
| Operating Room Time | $1,500 – $2,000 | $2,000 – $2,500 |
| Equipment and Supplies | $1,000 – $1,500 | $1,500 – $2,000 |
| Hospital Stay | $3,000 – $5,000 | $2,000 – $4,000 |
| Total | $5,500 – $8,500 | $5,500 – $8,500 |
Insurance coverage is a big deal when it comes to the cost of robotic knee surgery. Most insurance plans cover robotic knee surgery, but how much they cover can differ. Procedure duration is a big factor in how much insurance will pay.
Insurance usually covers:
The length of the surgery can affect the total cost. But, robotic knee surgery often means shorter hospital stays and fewer complications. This can help balance out some of the costs.
Robotic knee replacement surgery is on the verge of a new era. New innovations promise to make procedures faster. As technology advances, we can expect better results from robotic knee surgeries.
Several new technologies are set to change robotic knee replacement. These include:
These new technologies will make surgeries more efficient. We can expect:
| Technological Advancement | Predicted Outcome |
| AI-assisted pre-surgical planning | Reduced surgery time due to optimized planning |
| Advanced imaging and 3D modeling | Improved accuracy in implant placement |
| Next-generation robotic systems | Enhanced precision and reduced recovery time |
As these technologies improve, patients and doctors will see faster and better robotic knee surgeries.
Robotic knee replacement surgery has many advantages. It offers better precision, less recovery time, and better results. The time it takes for this surgery is very important. It affects how well and fast the surgery works.
The time needed for robotic knee replacement surgery changes based on several things. These include the patient’s body, the surgeon’s skill, and the robotic system used. Knowing these factors helps us see the value of robotic knee replacement.
Using advanced tech like Mako Robotic-Arm Assisted Surgery and ROSA Knee System helps surgeons. They can make the surgery faster and better. This means patients get to recover quicker and have better joint function.
Robotic knee replacement surgery can last from 1.5 to 2.5 hours per knee. This time can vary based on several factors.
Several things can affect how long the surgery takes. These include the case’s complexity, the surgeon’s experience, and the patient’s health. The robotic system used also plays a role.
Planning before surgery is key. Using 3D imaging and virtual models can make the procedure more efficient and precise. This can shorten the surgery time.
On average, the surgery takes 1.5 to 2.5 hours per knee. This depends on the case’s complexity and the surgeon’s skill.
Robotic surgery often takes less time in the operating room. It also leads to shorter hospital stays compared to traditional surgery.
Robotic surgery can make recovery faster. It helps patients get back to their daily activities sooner.
Yes, age is a factor. Elderly and younger patients may face different challenges. This includes how long the surgery takes and when it’s best to have it.
A surgeon’s experience with robotic technology is very important. More experienced surgeons can make the surgery more efficient, saving time.
Costs and time in the operating room are key economic factors. Insurance coverage and how long the procedure takes also matter.
Recovery times vary. It starts with the immediate post-op period (24-48 hours). Then, there are short-term milestones (1-6 weeks) and long-term expectations (3-12 months).
New technologies will likely make the surgery even more efficient. They will help streamline the process.
Yes, robotic surgery is generally faster. It reduces the time spent in the operating room compared to traditional surgery.
Robotic surgery often means shorter hospital stays. This is compared to traditional surgery.
Pre-surgical setup is critical. It involves preparing and calibrating the robotic system. This is a key part of the surgery timeline.
The procedure involves several steps. These include anesthesia, making the incision, and using the robotic system. It also includes preparing the bone and placing the implant.
PubMed (2025) – Study on robotic-assisted total knee arthroplasty operative times and improvements:
