'ligament injuries'

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/

Anterior Total hip replacement - A hip replacement surgery with Zero precautions. A hip replacement which can get you back to a completely pain-free life with normal walking. The biggest problem with old techniques of hip replacement are 1. 4 percent patients have high chances of hip dislocation (hip ball coming out & where resurgery is needed to fix). In order to prevent it, patients are adviced multiple precautions & restrictions sometimes for lifetime. 2. The other major problem is unequal length of legs after hip replacement. Leading to permanent abnormal walking & limp. With Anterior total hip replacement both the above issues can be easily managed. With Direct Anterior(surgery from front) Total Hip replacement, patients have the following advantages- 1. Both legs will be completely equal in length- since pt is positioned straight on table & comparison with computerized arm while operating making comparison to the opposite leg easier helping in getting completely equal legs. In other technique like posterior or anterolateral since patient is placed on side, legs end up being unequal since comparison is not possible with opposite leg at all. Even imaging is not possible. 2. Minimal muscle pain due to minimally invasive -mis technique. The entire surgery is performed with an incision of around 10 cms & zero muscle damage. 3. Zero precautions after surgery leading to stress free life. . Patients can sit on floor/use Indian Toilets without worrying about chances of hip dislocation. In older techniques patients are told to follow precautions for atleast 3 months & sometimes even lifetime. 4. No restriction in Sexual activities. 5. Patients have quick recovery due to less pain & can even walk without walker with full weight bearing within 1-2 days. With older techniques, patients still have to use walker or wait upto 1.5 months to put weight & walk. 6. A small 10 cm line incision which gets hidden in groin crease & becomes just like a thin pencil mark in 2-3 months. With Direct Anterior Total Hip replacement, pts can even get Both total hip replacements performed in a single sitting. Even the choice of implants cemented or uncemented & can be dual mobility, ceramic on ceramic , ceramic on poly or metal on poly as per patients preference. Anterolateral & Posterior hip replacement - Both are older techniques of total hip replacements where patients are adviced multiple precautions after surgery. Older techniques posterior/anterolateral (incision of surgery from back- posterior & surgery from side - anterolateral) total hip replacements have limitations such as patients are adviced not to sit on floor or do any activity on ground because of risk of hip ball dislocation & even where patients end up having unequal leg lengths after surgery. Multiple research papers have proven Direct Anterior Hip replacement has significant advantages. In The US, Hip replacement by Direct Anterior technique is preferred by most of the patients due to its significant advantages. Though Direct Anterior Hip replacement technique has excellent advantages, it can be performed in obese patients with weight more than 130 kgs only after proper assessment. We regularly have patients visiting from various parts of the country for Total Hip replacement with Direct Anterior Technique be it cases of hip avn, ankylosing spondylitis or post traumatic hip failure. We have numerous patients from all over the country visiting our centre in Indore & Mumbai who have been suffering from Hip issues & have undergone Total Hip Joint Replacement by Direct Anterior technique. For your benefit, please see the explanation & results regarding anterior hip replacement on our YouTube page- TheJointSurgeon https://youtube.com/@TJSJoints https://youtu.be/mC-Sd52dxsw https://youtu.be/jAKbalLIL4A https://youtu.be/Y3cyQRl5v_U If you are suffering from hip joint issues & need a hip replacement, Anterior Total Hip replacement is the best technique for you to be pain free & walk completely normally. We can help you. For more details or appointment please feel free to contact us. +91 7760547341

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.

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. At the same time all of the other structures within the knee can be clearly viewed and probed. . 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. The meniscus is a piece of cartilage that provides cushion between the Femur (thigh bone) and Tibia (shin bone). In many ways, meniscus acts as shock-absorbers of the knee joint. They can be damaged or torn during activities that put pressure on or rotate the knee joint. If a meniscus is torn, it is ideal to get it repaired at the earliest since neglected meniscal damage leads to onset of osteoarthritis of the 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 Meniscectomy: A minor surgery where the torn part of the damaged meniscus is removed and the remaining part of the meniscus is smoothened/ balanced in order to prevent any further damage to knee cartilage and ensure smooth functioning of the joint. Arthroscopic Meniscal repair: Depending on the pattern, some of the meniscal tears can be repaired. The torn portion of the meniscus is repaired with the help of specialized meniscal sutures. 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- MENISCAL REPAIR/ MENISCECTOMY A meniscal injury is most commonly associated with another ligamental injury, though it is not uncommon to find an isolated meniscal injury. Meniscal tears are majorly of 2 types repairable and irreparable. Depending on the type of pattern two procedures which are performed commonly are described. 1. 2-3 small key hole incisions are made on the front aspect of the knee. 2. A small 1 mm Arthroscopic Camera is inserted into the knee joint to visualize the torn meniscus. 3. If the meniscus part is damaged and irreparable, a Debrider is inserted into the joint to remove the damaged portion of the meniscus and remaining part is smoothly balanced. The meniscectomy is complete. 4. If the Meniscus part which is torn is radial in shape or is large, an attempt is made to perform the meniscal repair. 5. An all inside suture with needle is inserted into the joint and is released after obtaining a hold in both the cut ends of the torn meniscus. 6. After checking that the torn portions are again in continuity, meniscal repair is complete. 7. Wound is closed with 2 or 3 small sutures followed by dressing. POST-OPERATIVE MANAGEMENT/ REHABILITATION Meniscectomy- patient is allowed to resume all the daily activities from the next day itself including full weight bearing. Patient needs to follow up for suture removal at 10th day after surgery Meniscal repair- patient is advised to continue non-weight bearing for a period of 6 weeks in order to allow for the torn meniscus to heal adequately.

Hip Arthroscopy Arthroscopy, also referred to as keyhole or minimally invasive surgery, is a procedure in which an arthroscope is inserted into a joint to check for any damage and repair it simultaneously. An arthroscope is a small, fibre-optic instrument consisting of a lens, light source, and video camera. The camera projects an image of the inside of the joint onto a large screen monitor allowing the surgeon to look for any damage, assess the type of injury, and repair the problem. Hip arthroscopy is a surgical procedure performed through very small incisions to diagnose and treat various hip conditions including: Removal of torn cartilage or bone chips that cause hip pain and immobility. Repair a torn labrum: The labrum is a fibrous cartilage ring which lines the acetabular socket. Removal of bone spurs or extra bone growths caused by arthritis or an injury. Removal of part of the inflamed synovium (lining of the joint) in patients with inflammatory arthritis. This procedure is called a partial synovectomy. Repair of fractures or torn ligaments caused by trauma. Evaluation and diagnosis of conditions with unexplained pain, swelling, or stiffness in the hip that does not respond to conservative treatment. Hip arthroscopy is performed under regional or general anaesthesia depending on you and your surgeon’s preference. Your surgeon will make 2 or 3 small incisions about 1/4 inch in length around the hip joint. Through one of the incisions an arthroscope is inserted. Along with it, a sterile solution is pumped into the joint to expand the joint area and create room for the surgeon to work. Surgical instruments will be inserted through other tiny incisions to treat the problem. The larger image on the television monitor allows the surgeon to visualize the joint directly to determine the extent of damage so that it can be surgically treated. After the surgery, the incisions are closed and covered with a bandage. The advantages of hip arthroscopy over the traditional open hip surgery include: Smaller incisions Minimal trauma to surrounding ligaments, muscles, and tissues Less pain Faster recovery Lower infection rate Less scarring Earlier mobilization Shorter hospital stay

TOTAL SHOULDER REPLACEMENT/ PARTIAL SHOULDER REPLACEMENT The primary indication for a Total Shoulder Arthroplasty or Hemiarthroplasty is Inability to reconstruct the fracture. A repairable rotator cuff is a pre-requisite for this type of surgery. Replacement of the humeral head along with the glenoid surface constitutes Total Shoulder Arthroplasty whereas replacement of only the humeral head constitutes Hemiarthroplasty of the shoulder joint. Supporting indications • Poor bone quality • Humeral head ischemia in the elderly patient • Intraoperative failure of osteosynthesis • Osteoarthritis of the shoulder joint ( Though reverse shoulder replacement is a preferred procedure) Advantages • Provides a replacement for unreconstructable humeral head • If failure of fixation and/or avascular necrosis (AVN) are highly likely, primary arthroplasty may avoid a second surgery Introduction Arthroplasty is indicated in all cases where a stable fixation is not achievable especially in situations with poor bone quality like severe osteoporosis. In the elderly, the indication might be extended to head-splitting fractures and situations with a probably ischemic humeral head (e.g., a displaced anatomical neck fracture with no capsular attachment remaining). 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 in elderly patients. 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 MRI will be done ideally in order to guide the surgical plan and the prognosis. 5. Surgical consent will be explained to the patient detailing the procedure as well as the risks involved, if any. INTRA-OPERATIVE STEPS 1. This procedure is performed with the patient in a beach chair position. 2. For this procedure the deltopectoral approach is normally used. 3. It is crucial to evaluate the fracture. Identify the fracture lines, the long head of the biceps and the condition of the rotator cuff. 4. Sutures are inserted into the subscapularis tendon and the supraspinatus tendon just superficial to the tendon’s bony insertions. These provide anchors for reduction, and temporary fixation of the greater and lesser tuberosities. 5. The biceps tendon is temporarily attached to the superior border of the pectoralis muscle. A tenotomy of the long head of the bicipital tendon close to the rotator interval is performed. 6. Any remaining medial capsular attachment to the head should be carefully released with special attention not to damage the axillary nerve medial to the proximal humerus. 7. Insert a suture into the infraspinatus tendon. 8. The correct prosthesis head size can be measured on the retrieved humeral head. 9. In general, the reattachment of the tuberosities can be performed with sutures or cables. 10. Preparation of the humeral shaft is performed after opening the medullary canal and gently enlarging the humeral canal with rasps of increasing sizes. 11. Determine humeral head retroversion 12. Preparation of the Glenoid is performed and an appropriate sized trial is used to see the alignment. 13. Implantation of the prosthesis is performed, respecting the proper insertion height and the retroversion. 14. Depending on the prosthesis type and the remaining bony situation, bone cement may be necessary to fix the implant. Certainly it is wise to use cement if the prosthesis does not fit securely in the humerus. 15. Once the prosthesis is inserted, stability of the shoulder joint is assessed. After stability assessment, wound wash is given followed by wound closure and dressings. POST OPERATIVE PHASE Care after surgery: • Wear your sling or brace at all times for as long as directed. This helps to remind you not to use the arm. It also allows your shoulder to heal and decreases pain. • Apply ice on your shoulder for 15 to 20 minutes every hour or as directed. Use an ice pack, or put crushed ice in a plastic bag. Cover it with a towel. Ice helps prevent tissue damage and decreases swelling and pain. • Place a small pillow or towel behind your elbow when you lie on your back. This keeps your shoulder in proper position. You may need to sleep in an upright position if you cannot sleep on your back. Place 2 to 3 pillows lengthwise behind your back when in bed. Make sure the pillows do not move your shoulder forward. Instead, you can sleep in a reclining chair. • Avoid moving your shoulder. Do not stretch or shrug your shoulder. Do not do exercises on your own until your healthcare provider says it is okay. • Do not lift with your hand on your surgery side. You put pressure on your shoulder muscles when you lift. • Do not lean on the hand of your surgery side. Pressure will cause pain and may cause damage to your shoulder. • Do not drive until your healthcare provider says it is okay. Shoulder bandage care: Keep your dressing clean and dry. Your healthcare provider will tell you when it is okay to take a bath or shower. Once you are able, let soap and water run over your surgery area. Do not scrub the area. Pat the area dry and put on a clean bandage as directed. Pain Management • Some amount of pain is expected after the surgical procedure. • Ice packs can be used for pain reduction • Paracetamol or Nsaids can be considered for pain management especially during the first four weeks. Shoulder rehabilitation protocol The shoulder is perhaps the most challenging joint to rehabilitate both postoperatively and after conservative treatment. Early passive motion according to pain tolerance can usually be started after the first postoperative day. The program of rehabilitation has to be adjusted to the ability and expectations of the patient and the quality and stability of the repair. The full exercise program progresses to protected active and then self-assisted exercises. The stretching and strengthening phases follow. The ultimate goal is to regain strength and full function. Activities of daily living (ADL) can generally be resumed while avoiding certain stresses on the shoulder. Mild pain and some restriction of movement should not interfere with this. The more severe the initial displacement of a fracture, and the older the patient, the greater will be the likelihood of some residual loss of motion. Generally, shoulder rehabilitation protocols can be divided into three phases. Gentle range of motion can often begin early without stressing fixation or soft-tissue repair. Gentle assisted motion can frequently begin within a few weeks, the exact time and restriction depends on the injury and the patient. Resistance exercises to build strength and endurance should be delayed until bone and soft-tissue healing is secure. The schedule may need to be adjusted for each patient. Phase 1 (approximately first 6 weeks) Bandage • Immobilization on a shoulder abduction pillow in neutral position of rotation Range of motion • Passive motion within the pain free interval for abduction, adduction and flexion • No internal or external rotation • Shoulder joint motion up to 90° • ADL for eating and writing allowed Physiotherapy • Passive motion up to 90° • Relaxation/stretching of neck muscles • Training of elbow and hand functions • Specific stabilization therapy for the shoulder joint • Isometric exercises in all directions • CPM up to 90° of abduction Massage • Neck • Shoulder girdle • Thoracic spine Training therapy • Training of the contralateral arm (overflow cardiovascular training) Phase 2 (approximately week 7-11) Bandage • No longer required Range of motion • Assisted/active motion within the pain free interval, also beyond 90° • Careful rotation Physiotherapy • Free motion of shoulder girdle (scapula, clavicle, cervicothoracic junction, cervical and thoracic spine) with specific mobilization • Strengthening exercises especially for ADL • Eccentric muscle activity Massage • As required Ice/warmth • As required Training therapy • Mobilization bath, wound permitting • Training of hand and forearm muscles • Set for shoulder therapy Phase 3 (after week 11) Range of motion • No restrictions on Shoulder movement • Muscle growth for shoulder girdle and all arm muscles Physiotherapy • All physiotherapeutic techniques allowed, active and against resistance • Increasing eccentric muscle activity Training therapy • Handcycling • Training for specific ADL and sports • Machine training • Free weight training

OVERVIEW Fractures (Broken Bones) of the Shoulder, Elbow and Wrist are common from both minor and major accidents. These are incapacitating in the short term as they commonly require the use of a cast or brace and restrict the use of the affected limb. DESCRIPTION Upper limb fractures occur from either direct trauma or indirectly from forces applied to the limb (eg twisting injuries). The type of fracture depends on the size and direction of the injury to the limb. Low energy injuries (such as falls from a standing height), usually result in less complex fracture patterns and less soft tissue injury. Typical symptoms of a fracture include: • Pain • Swelling • Deformity • Difficulty lifting things Lower energy injuries can be missed and may be passed off as ‘sprains’ or ‘strains’. If you have had an injury that is not responding to treatment, it is advisable to see your doctor and obtain X-Rays to rule out a fracture. Higher energy injuries (such as motorcycle and car crashes) typically fracture bones in multiple places, into smaller pieces, and commonly disrupt the soft tissues resulting in large amounts of bruising and swelling. These can be challenging to treat and frequently require surgery to restore the bones to their anatomical position to make healing quicker and your function better in the long term. TREATMENT The treatment of lower limb fractures requires careful tailoring to the individual patients demands and the type of fracture sustained. Non-operative treatment of upper limb fractures may involve: • Braces or Slings • Plaster Casts • Activity Restriction • Physiotherapy Dr. Jain always encourages non-operative treatment whenever possible, however, many fractures do much better with surgical intervention as surgery can speed up recovery and improve the short and long term outcome. As there many different types of upper limb fractures, there are a large range of surgical options that can be used, these can include: • Plates + screws • Wires • Rods/Nails • External Fixators Sometimes a combination of these is used, and Dr. Jain will discuss the surgical plan with you pre-operatively. He uses the latest technology in orthopedic trauma implants to give you the best outcome possible. After surgery, Dr. Jain will discuss your operation as well as plan your rehab in line with your goals and expectations. He uses a highly qualified team of physiotherapists and rehabilitation specialists to get you back to your activities as quickly as possible. Dr. Jain has extensive experience treating fractures, he has completed Training at Cascais Hospital in Lisbon (Portugal, Europe) with world recognized leaders in Orthopedic Trauma Surgery, and has worked as an Orthopedic Joint Replacement & Trauma Consultant at Tata Hospitals. He routinely attends conferences and visits trauma centers worldwide to refine his skills and stay on top of the most recent advances in trauma surgery.