JOINT REPLACEMENT SURGEON IN INDORE WHAT IS JOINT REPLACEMENT? Joint replacement as the name suggests is the replacement of the torn or damaged joint in the body of an individual. The damaged joint in the body is replaced by artificial joint (prosthesis) made of metal, plastic or ceramic. Joint replacement is most commonly done to relive joint pain that can be caused die to various reasons. Some of these reasons are as follows: 1.osteoarthritis 2.rheumatoid arthritis 3.joint injuries The joint replace surgery helps restore the mobility of the patients and give him back the old quality of life where he doesn’t have to struggle with day to day activities due to joint related issues. The joint replacement surgery is mostly performed when the medicines and physiotherapy can’t seem to relieve the pain of the patient. Common Joints Replaced: 1.Knee (most common) 2.Hip 3.Shoulder 4.Elbow 5.Ankle TYPES OF JOINT REPLACEMENT 1. Knee Replacement Total Knee Replacement (TKR): Entire knee joint is replaced — both sides of the joint and the kneecap. Partial Knee Replacement (PKR): Only one part (inner, outer, or kneecap area) of the knee is replaced. Revision Knee Replacement: Done if the first knee implant wears out or fails. 2. Hip Replacement 3. ⁠Total Hip Replacement (THR): Both the ball (femoral head) and socket (acetabulum) are replaced. Partial Hip Replacement (Hemiarthroplasty): Only the ball of the hip joint is replaced. Hip Resurfacing: Bone is preserved by capping the ball instead of replacing it. Revision Hip Replacement: Second surgery if the first implant fails. 3. Shoulder Replacement Total Shoulder Replacement: Both the ball (humeral head) and socket (glenoid) are replaced. Partial Shoulder Replacement (Hemiarthroplasty): Only the ball part is replaced. Reverse Shoulder Replacement: Used in cases of rotator cuff damage or failed previous surgeries — ball and socket positions are reversed. 4. Elbow Replacement Replaces the damaged parts of the elbow joint with metal and plastic components. Mostly done for rheumatoid arthritis or complex fractures. 5. Ankle Replacement Less common than other joint replacements. Used in advanced arthritis or post-injury damage when movement is severely limited. SIGNS THAT ONE IS IN NEED OF JOINT REPLACEMENT: Joint replacement is usually considered when joint damage severely affects your daily life, and other treatments like medicines, physiotherapy, or injections no longer help. Here are the key signs that someone might need a joint replacement (knee, hip, shoulder, etc.): 1. Persistent Joint Pain Constant or severe pain that doesn’t go away, even with rest or medication. Pain that wakes you up at night or limits your ability to sit, stand, or sleep. 2. Stiffness and Limited Movement Difficulty in bending, straightening, or rotating the joint. Trouble doing everyday activities like climbing stairs, walking, or lifting your arm. 3. Swelling and Inflammation Chronic swelling that doesn’t improve with rest, ice, or medicines. Signs of joint inflammation that come and go, or stay constantly. 4. Joint Deformity Visible changes like bowed legs, uneven leg length, or misalignment of the joint. The joint may appear “sunken,” twisted, or bulged. 5. Dependence on Painkillers or Walking Aids Needing pain medicines daily just to function. Using a walker, cane, or crutches regularly due to pain or weakness. 6. X-ray or MRI Shows Severe Damage Imaging shows bone-on-bone contact, joint space narrowing, cartilage loss, or joint collapse. Bone spurs, cysts, or joint erosion. 7. Failed Conservative Treatments No long-term relief from: Physiotherapy Joint injections Weight loss and lifestyle changes 8. Declining Quality of Life You avoid walking, traveling, or socializing because of joint pain. Pain interferes with work, hobbies, or mental health. ADVANTAGES OF JOINT REPLACEMENT SURGERY: 1.Pain Relief Significantly reduces or completely eliminates chronic joint pain. 2.Improved Mobility and Function Restores movement, making walking, climbing stairs, or daily tasks easier. 3.Better Quality of Life Helps you return to normal activities, work, and hobbies with greater independence. 4. Long-Lasting Results Modern implants can last 15–20 years or more, giving years of active, pain-free living. For more details on total hip replacement/ DAA total hip replacement, please visit our dedicated website for hip joint issues created by Dr Vikas jain- www.hipreplacementindia.in https://hipreplacementindia.in/treatment/bikini-hip-replacement/

HIP REPLACEMENT SURGEON IN INDORE WHAT IS HIP REPLACEMENT SURGERY? Hip replacement surgery, also known as hip arthroplasty, is a surgical procedure in which a damaged or worn-out hip joint is removed and replaced with an artificial joint (prosthesis) made of metal, ceramic, or plastic. This is usually done to relieve severe pain, stiffness, and loss of mobility caused by conditions like osteoarthritis, rheumatoid arthritis, fractures, or avascular necrosis. The surgeon replaces the ball-and-socket parts of the hip joint: the head of the femur (thigh bone) and the hip socket (acetabulum). Hip replacement helps restore normal movement, reduce or eliminate pain, and significantly improve quality of life when other treatments like medication, physiotherapy, or lifestyle changes no longer work. MAIN CAUSES OF HIP REPLACEMENT 1. Osteoarthritis The most common reason. Caused by age-related wear and tear of the hip joint cartilage.Leads to pain, stiffness, and reduced mobility. 2. Rheumatoid Arthritis An autoimmune disease that causes chronic inflammation of the joints. It Destroys cartilage and bone, leading to severe joint damage and deformity. 3. Hip Fractures This is Especially common in older adults after falls. If the bone can't be repaired properly, hip replacement is often needed. 4. Avascular Necrosis (AVN) It Occurs when the blood supply to the hip bone is reduced, causing the bone to die and collapse. It Can be due to steroid use, alcohol abuse, trauma, or certain medical conditions. 5. Childhood Hip Diseases (e.g., Developmental Dysplasia, Perthes' disease) Improper hip development can cause long-term joint problems. These conditions may eventually lead to early joint damage and arthritis, requiring replacement in adulthood. TYPES OF HIP REPLACEMENT SURGERY 1. Total Hip Replacement (THR) – Most Common Both the ball (femoral head) and the socket (acetabulum) are replaced with artificial components. 2. Partial Hip Replacement (Hemiarthroplasty) In this surgery Only the femoral head (ball) is replaced and the socket is left as it is. 3. Hip Resurfacing In this surgery The femoral head is not removed, but instead it is reshaped and capped with a metal cover. The socket may still be replaced. 4. Revision Hip Replacement A repeat surgery is done when a previous hip replacement has failed or worn out. This is More complex and may involve replacing only part or maybe all components. It is Needed due to implant loosening, infection, fracture, or wear. WHO NEEDS HIP REPLACEMENT Hip replacement surgery is recommended for people who have severe hip joint damage that causes chronic pain, stiffness, and difficulty in movement, and does not improve with medicines. Who needs it : 1.People with Advanced Osteoarthritis 2.Patients with Rheumatoid Arthritis 3.Individuals with Avascular Necrosis (AVN) 4.People with Hip Fractures (Especially Elderly) 5.Those with Childhood Hip Disorders. Common signs that you may need hip replacement surgery : 1.Constant hip pain, even while resting 2.Stiffness and limited range of motion 3.Limping or difficulty standing/walking 4.No improvement with physiotherapy, medication, or injections. HOW IS HIP REPLACEMENT DONE? Hip replacement surgery is a procedure where a damaged hip joint is replaced with an artificial implant to relieve pain and restore movement. It usually takes 1.5 to 2 hours and is done under spinal or general anesthesia. How is it done? 1.Anesthesia The patient is given spinal anesthesia (numbs the body below the waist) or general anesthesia (makes you sleep during surgery). Sometimes a combination is used. 2. Incision A cut is made over the side, front, or back of the hip, depending on the approach used. Traditional approach: larger incision (20–30 cm) Minimally invasive: smaller incision (8–15 cm) 3. Removing the Damaged Bone The femoral head (ball part of the hip joint) is removed. The damaged cartilage and bone from the socket (acetabulum) are also cleaned out. 4. Inserting the Artificial Implants A metal or ceramic cup is placed into the hip socket. A metal stem is inserted into the thigh bone (femur), and a ball (metal or ceramic) is attached to the top. These parts together form the new artificial hip joint. 5. Fixing the Implants Implants may be cemented into place (common in older adults) or left uncemented, allowing bone to grow onto them Sometimes a combination of both methods is used. 6. Closing the Incision Muscles and tissues are repaired, and the skin is stitched or stapled. For more details on total hip replacement/ DAA total hip replacement, please visit our dedicated website for hip joint issues created by Dr Vikas jain- www.hipreplacementindia.in https://hipreplacementindia.in/treatment/bikini-hip-replacement/

Best Knee replacement Surgeon in Indore WHAT IS ARTHRITIS? Knee replacement surgery is mostly performed in the cases of arthritis. It is a general term for various conditions which can cause pain, swelling and stiffness in the joints. It can affect one or multiple joints in the body sometimes leading to complete damage of cartilage which leads to making the movement severely painful. Symptoms of Arthritis: 1. Joint pain 2. Swelling and warmth 3. Stiffness (especially in the morning) 4. Redness 5. Limited movement 6. Cracking or grinding sounds. WHAT IS KNEE REPLACEMENT? Knee replacement, also known as knee arthroplasty, is a surgical procedure where a damaged or worn-out knee joint is replaced with an artificial joint (implant). This artificial joint can be made of metal, plastic, or ceramic. It is usually done to relieve severe knee pain and improve movement when other treatments like medicines or physiotherapy doesn’t seem to work or provide relief. TYPES OF KNEE REPLACEMENT There are 4 main types of knee replacement surgeries, each chosen on the basis of how damage the knee is and the patient's age, activity level, and overall health. 1. TOTAL KNEE REPLACEMENT SURGERY (TKR) As the name suggests total knee replacement surgery is the type of surgery which replaces the complete knee of the patient. In this surgery entire knee is replaced including both sides if the knee ( femur and tibia) and sometimes even the knee cap ( patella). This surgery is generally suitable for the people going through severe arthritis as it provides long term relief and generally the recovery of 2-3 months. Most people above 60 with arthritis are advised with Total knee replacement surgery. 2. PARTIAL KNEE REPLACEMENT SURGERY (PKR) As the name is self explanatory, partial knee replacement unlike total knee replacement replaces only one part of the knee. It can either be any of the two sides of the knee or the frontal part. It is recovered fast as compared to total knee surgery and is less invasive. It is usually done in early stages of arthritis. 3. BILATERAL KNEE REPLACEMENT In bilateral knee surgery both knees are replaced on the same day or in the single surgery. It is suitable if both knees are severely affected and you are medically unfit and in alarming need if both knee replacements. The recovery is intense as compared to the prior two surgeries as both the knees are replaced. REVISION KNEE REPLACEMENT A repeat surgery done when an old knee implant wears out, loosens, or gets infected. It is more complex than the first surgery. It is Usually needed after 15–20 years of the first replacement (or earlier if complications arise). SIGNS THAT YOU NEED KNEE REPLACEMENT: Knee replacement surgery is generally required when the non surgical treatment can’t seem to relieve the pain any longer. 1. Severe knee pain. 2. ⁠Advanced Arthritis 3. ⁠Joint Stiffness and limited range of motion 4. ⁠Swelling and inflammation doesn’t just go away 5. ⁠Failed non surgical treatments 6. ⁠Poor quality of life like difficulty in performing day to day activities like walking. 7. ⁠Deformity or structural instability. Knee visibly looks crooked. 8. ⁠post traumatic Arthritis. For more details on total knee replacement/ robotic total knee replacement, please visit our dedicated website for knee issues created by Dr Vikas jain- www.tkasurgery.com https://tkasurgery.com/robotic-total-knee-replacement-surgery/

Knee Arthroscopy- ACL Reconstruction Knee arthroscopy, keyhole surgery, is a technique used to inspect the inside of the joint cavity to diagnose and assess damage and, where possible, to treat this damage. Arthroscopic knee surgery involves putting a small telescope and special instruments into the knee, with the ability to photograph and video the operation. Arthroscopic knee surgery is used to treat any number of conditions that occur within the knee from simple cartilage tears to removal of loose bodies, meniscal surgeries and anterior/ posterior cruciate ligament reconstructions. At the same time all of the other structures within the knee can be clearly viewed and probed. The four main ligaments in the knee connect the Femur (thighbone) to the Tibia (shinbone) and include the following: • ANTERIOR CRUCIATE LIGAMENT (ACL): The Ligament located in the center of the knee, which controls rotation and forward movement of the Tibia. • POSTERIOR CRUCIATE LIGAMENT (PCL): The Ligament located in the center of the knee, which controls backward movement of the Tibia. • MEDIAL COLLATERAL LIGAMENT (MCL): The Ligament that gives stability to the inner knee. • LATERAL COLLATERAL LIGAMENT (LCL): The Ligament that gives stability to the outer knee. WHAT IS DONE? The entire procedure is done with the help of 2-3 small keyhole sized incisions from which the instruments and the small laser/telescopic camera is inserted and the procedure is visualized on a high definition screen. Arthroscopic ACL/PCL reconstruction: The torn portion of the anterior cruciate ligament or the Posterior cruciate Ligament is removed. A new ligament graft is taken from the extra tendon of hamstrings group of muscles and after preparation is inserted into the Femoral (upper bone) and the Tibial(lower bone) tunnel. Arthroscopic MCL/LCL repair with augmentation: The torn portions of the ligament are repaired with sutures. In order to further strengthen the repaired ligaments, an augmentation (extra support) is done with additional grafts obtained from the extra tendons of Hamstring (knee) or Peronei (ankle) group of muscles. PRE-OPERATIVE STEPS Though the procedure is a very minor procedure, every effort is made to assess the patient prior to surgery in order to ensure safety of the patient for the elective procedure. 1. After admission, routine blood work-up will be done prior to surgery. Depending on the age of the patient and other premorbid conditions, other investigations such as Echocardiography may be performed. 2. All the investigations prior to surgery are performed in order to ensure that the surgical procedure can be safely tolerated by the patient, since it is an elective procedure. If any risk is involved, the patient/ attendants will be informed so. 3. X-rays and MRI may be done depending on the surgeon’s choice and the surgical indication for the procedure. 4. Surgical consent will be explained to the patient detailing the procedure as well as the risks involved, if any. INTRA-OPERATIVE STEPS ACL/PCL Reconstruction Procedure for the reconstruction of ACL and PCL is almost the same except the position of the femoral and tibial tunnels are different. An ACL injury is about 100 times more common than a PCL injury. Here we are describing the steps for an ACL reconstruction. 1. The inflow cannula, which brings the fluid into the joint so that the knee may be visualized, is seen in this picture. The patella is at the top of the screen and the trochlear groove of the femur at the bottom. The width of the tube is approximately 4 mm (1 inch = 25.4 mm). 2. The apparently normal meniscus is viewed. The femur is above the meniscal cartilage and the tibia is below it. A probe is inserted to inspect the meniscal cartilage. 3. The normal ACL is a taut rope-like structure which goes from the femur to the tibia. Probing of this ACL indicates that it is lax and frayed. This indicates a functionally incompetent ACL (torn ACL). 4. To reconstruct the ACL, it is necessary to remove all of the existing damaged ACL. This is done with a motorized device which is called a shaver. 5. At this point, attention is directed to the hamstring tendon. Incisions are made at the inner aspect the upper 1/3 leg. Each incision is approximately 1.5 inches in length. 6. After making the skin incisions, the tendon is identified, and is harvested with a tendon stripper. Harvesting is completed. 8. The graft then has sutures placed through the bone blocks. 7. Attention is then directed to the arthroscopic part of the procedure. The tibial drill guide is positioned on the tibia. 8. The guide wire is then drilled into the tibia, exiting inside the joint. 9. The tibial drill hole is placed. 10. The endoscopic femoral drill guide is then passed. 11. The guide is then positioned on the back of the femur. 12. The femoral guide wire is then placed, the femoral guide is removed and the femoral drill is used to place a hole in the femur. 13. The graft is then placed through the tibia, through the knee joint, and into the femoral drill hole. 14. For the graft to heal, blood vessels must grow into the reconstructed ACL. To hold the graft in place, a endobutton attached to the graft is inserted through the femoral drill hole. This particular screw is a bioabsorbable screw. 15. A second screw is inserted into the tibia to hold that part of the reconstruction in place. Following this, the reconstructed ACL is inspected. Unlike the picture of the torn ACL, the reconstructed ACL is a rigid rope-like structure that provides stability to the joint. 16. At this point the procedure is finished, the incisions are closed, and the surgical procedure is completed. POST-OPERATIVE MANAGEMENT/ REHABILITATION ACL Reconstruction Rehabilitation is a vital part of your ACL recovery and is essential to getting back to regular physical activity. Your program can last anywhere from two to six months or longer. Your doctor will help you find a program that is suited to your recovery goals. Weeks 1 - 2 • Ice/elevation every 2 hours for 15 minutes to minimize edema and promote healing (please refer to Icing handout). • Full weight bearing is allowed immediately after surgery. Though some surgeons may prefer not to allow weight bearing for up to 6 weeks after surgery. • ROM knee brace needs to be worn for support. • Dressing will be done on day 4 after the surgery. Exercises • The patient should be seated at the edge of bed and asked to hang the knee for flexion; lift for knee extension. • Quad sets/straight leg raises, hip abduction, calf presses, glut sets, and core exercises. • Upper body conditioning, non-operated leg stationary cycling. Goals • Knee Range of motion: 0-90 degrees. • Good quality gait with least amount of Assistive Device. Weeks 2 - 4 • Suture removal on day 14. • Walking for exercise for 15-20 minutes if no limp or swelling present. Manual • Extensive patellar mobilization. • No direct scar mobilization x 4weeks. Exercises Range of motion and functional strengthening exercises: • Squats/Leg Press, Bridges/Hamstring Curls. • 2” step up/down, intense core training. • Aerobic exercises as tolerated (bilateral stationary bike, Elliptical, arm bike). Goals • Active range of motion equal extension to uninvolved side and flexion to 120 degrees. No edema. Full weight-bearing; normal gait without assistive device. Single leg balance 60 seconds on level surface. Weeks 4 - 6 • Review with the doctor at 4 weeks. • Walk up to 1 hour for exercise. Manual • Continue with soft tissue mobilization. Apply direct scar tissue mobilization; can use instruments/tools. Exercises • Emphasize self-stretching to both lower extremities. • Increase intensity of resistance exercises (i.e. standing resisted squats, lunges, etc.). • Introduce eccentric exercises (4-6” steps). • Increase single leg strength, challenge proprioceptive training. Goals • Full Range Of Motion equal to uninvolved leg. • Perform 4 inch step down. • Bike with minimal resistance for 20-30 minutes (in saddle), walking for 30 minutes, Elliptical, water-walking. Weeks 6 - 10 Manual • Soft tissue mobilization and joint mobilization as needed. Exercises • Add lateral training exercises (lateral step ups, lunges, step overs). • Initiate tri-planar activities with the exception of closed-chain rotation (pivots). • No cutting or pivoting. Goals • Activities should be pain-free: • Able to descend stairs, double leg squat hold for >1 minute. • Bike >30 minutes with moderate resistance, Elliptical with interval training. Weeks 10 - 16 • Doctor visit at 3 months. • Incorporate bilateral, low level jumping exercises. • Continue to increase strength, endurance, and add sport specific training drills. Weeks 16+ • Doctor visit at 6 months. • Implementation of jump training, agility training. • After 6 months add lateral plyometric type drills, agility ladder Goals • Initiate sagittal plane plyometrics, work towards single leg plyometrics. Clearance by surgeon before returning to full athletics.

Shoulder Arthroscopy- Frozen Shoulder Release Frozen shoulder, also called adhesive capsulitis is a condition characterized by pain and loss of motion in shoulder joint. Frozen shoulder release is extremely useful in cases of frozen shoulder that do not respond to therapy and rehabilitation. The aim of the surgery is to decrease pain, reduce the recovery time and help to gain full range of movement. Arthroscopic capsular release and manipulation under anesthesia (MUA) are the surgical procedures performed to treat the frozen shoulder. PRE-OPERATIVE STEPS Every effort is made to assess the patient prior to surgery in order to ensure safety of the patient for the elective procedure. 1. After admission, routine blood work-up will be done prior to surgery. Depending on the age of the patient and other premorbid conditions, other investigations such as Echocardiography may be performed. 2. All the investigations prior to surgery are performed in order to ensure that the surgical procedure can be safely tolerated by the patient, since shoulder arthroscopy is an elective procedure. If any risk is involved, the patient/ attendants will be informed so. 3. Blood transfusion though rarely required, may be done depending on the reports. 4. X-rays and/or MRI may be done depending on the surgeon’s choice and the surgical indication. 5. Surgical consent will be explained to the patient detailing the procedure as well as the risks involved, if any. INTRA-OPERATIVE STEPS A manipulation under anesthesia (MUA) is most commonly indicated in patients with simple frozen shoulder. This procedure is performed with the patient sedated under anesthesia. Your surgeon moves the shoulder through a range of motion which causes the capsule and scar tissue to stretch or tear. Thus the tight capsule is released allowing increased range of motion. The procedure involves freeing the shoulder by manipulation and does not involve any incisions. Arthroscopic capsular release is a keyhole surgery that involves the release of the tight, constricted capsule. It is an effective treatment for most people with stiff shoulder after injury, trauma, or fracture, and diabetes. 1. During the procedure 2 to 3 small incision holes are made in the shoulder in the front and the back. 2. The thickened, swollen abnormal capsule tissue is cut and removed using a special radiofrequency thermal probe with adequate precautions to not damage the normal tissue. 3. Once adequate capsular release is achieved, wound is closed and dressing applied. 4. Once again the shoulder movements are checked to ensure adequate shoulder release. POST-OPERATIVE MANAGEMENT Following Capsular release, immediate rehabilitation is necessary to prevent the recurrence of Frozen Shoulder. The aim of the rehabilitation is to reduce pain and to restore full range of motion. • Pain medications are recommended to control pain • Following these procedures, though much easier than the pre-operative phase, aggressive regular exercises need to be done in order to maintain full range of motion for 1 week- 1 month. • If you feel comfortable and have good range of movement, you can begin driving 1 week after your surgery. • Returning to work depends on the nature of your work. If you are in a sedentary job you may be able to return as early as 1 week after surgery • But if your job requires heavy lifting or using your arm at shoulder height, it may take longer time to return to your work. • Full range of motion is achieved at 4 – 6 weeks once the swelling is reduced.