An ALL INSIDE ARTHROSCOPIC ACL RECONSTRUCTION is the latest innovation in the field of ACL reconstruction with excellent patient results and long term surgical outcome. The Joint Surgeon centre is the FIRST Centre in Indore as well MP performing an ALL INSIDE ARTHROSCOPIC ACL RECONSTRUCTION & INTERNAL BRACE helping our patients with quicker and better recovery. In early ACL reconstruction techniques, large incisions were required to repair tears. Later, the procedure improved by using smaller incisions and inserting a camera into the patient’s knee to project the surgery onto a monitor. Now, the All-inside ACL reconstruction procedure is less invasive and more efficient than previous techniques by using small 0.5 cm incisions inside the knee rather than large incisions. Additionally, the procedure uses graft harvested from either the patient or a donor. This graft is assembled for implantation by double-fixing it at each end with a titanium washer and sutures, then threaded through the tunnels inside the knee under camera visualization and pulled tight. The tunnel pathways are placed to mimic the native ACL’s attachments, which makes the placement of the graft more accurate. In case of athletes or high demand individuals, an additional Internal brace can be added to provide further strength to the ligament. With this technique, patient can walk with full weight just within 24-48 hours without the need of walker or brace. As compared to traditional acl reconstruction technique where patients are allowed only toe touch weight bearing & have to use walker for atleast 1-1.5 months, unnecessarily delaying recovery. This minimally invasive technique helps patients recover more quickly. There is less pain, smaller incisions and shorter rehabilitation periods. After a course of rehabilitation, most patients regain normal range of motion and control. Stability of the knee is regained with the new ACL graft, and healing and incorporation of the graft is achieved fully in weeks rather than months. The benefits of All-inside ACL reconstruction are especially valuable for athletes or patients with an active lifestyle. Previously, an ACL tear or break could ruin an athlete’s career. However, thanks to the improvements provided from this procedure, physically active patients can return to their lifestyle with minimal recovery time and less pain. Our results are much better than other renowned centres in Indore as well as India. Feel free to read our honest reviews by patients on Google as well as The Joint Surgeon page on youtube. If you have an ACL tear, contact Dr Vikas Jain at +91 7760547341.

A standard total shoulder replacement depends upon muscles and tendons around the shoulder joint to be intact. These muscles and their tendons function to move the shoulder and are together called the rotator cuff. When these tendons become extensively torn so that they do not attach to the bone any longer, the shoulder often does not function normally. The loss of the rotator cuff can produce pain and also loss of motion. A normal shoulder replacement is designed to work only if those tendons are intact. Reverse Shoulder Replacement (Arthroplasty) has emerged as a very attractive alternative for patients with cuff-tear arthropathy, selected proximal humerus fractures and nonunions. Its indications continue to expand, especially for revision surgery. REVERSE SHOULDER ARTHOPLASTY Reverse shoulder arthroplasty is an attractive option in patients. Since this kind of shoulder replacement does not rely on the function of the rotator cuff, it provides predictable results in terms of pain relief and shoulder function in one operation. The results of reverse shoulder replacement are fairly predictable and good especially in patients suffering from chronic shoulder joint problems since the function of the joint is less dependent on healing of the tuberosities. The main reason to consider a reverse prosthesis is when there is arthritis of the shoulder joint and the rotator cuff tendons are torn or gone. This is the most common surgical indication for a patient considering a reverse prosthesis. In this situation this operation will give the patient significant pain relief and may also help with range of motion of the shoulder. Another reason to have a reverse prosthesis is if the rotator cuff tendons are all torn and one cannot lift the arm high enough to function. Typically in this case the shoulder is not painful but the inability to lift the arm is very disrupting to the ability to function in life. When the patient goes to lift the arm there is a prominence on the front of the shoulder, and this is called an anterior-superior migration or subluxation of the shoulder. In these cases pain may or may not be a major factor for the reverse prosthesis, but the main reason for the replacement is to regain motion and function. The third most common reason to have a reverse prosthesis is if the shoulder has already had a replacement prior to the time a reverse prosthesis was available and the patient still has pain and loss of motion. Sometimes the regular shoulder replacement was placed for a fracture or for torn rotator cuff tendons and the shoulder continues to be painful. In this case, if a reverse prosthesis is needed, the surgery to place a reverse prosthesis is a little more complicated. The reason for this is that the first, more traditional shoulder replacement has to be removed at the time of surgery, and the reverse can then be placed in the shoulder. Other reasons to have a reverse prosthesis are some fractures of the shoulder area, particularly ones that involve the proximal humerus (arm bone) where the ball attaches to the shaft of the bone. In some instances, the bone is broken into many pieces or the ball may be split into parts. The last reason to have a reverse prosthesis is because of a tumor in the proximal humerus that involves the bone of the shaft of the bone or the ball of the humerus itself 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. The patient is positioned in a beach chair position. 2. For this procedure the deltopectoral approach is normally used. 3. It is crucial to evaluate the fracture. The fracture lines are identified as well as the long head of the biceps and the condition of the rotator cuff. 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. The glenohumeral joint is opened through the fracture. 7. Preparation of the joint for placement of prosthesis is performed. 8. A complete soft-tissue release around the glenoid is performed. 9. The guide plate is placed on to the glenoid surface so that it is flush with the circle of the lower glenoid . The guide plate is fixed with a central K-wire. 10.A cannulated glenoid resurfacing reamer is used to remove the cartilage and to create a smooth surface of the glenoid to provide full contact with the base plate. 11.The glenosphere is implanted. A trial glenosphere may be used instead of the definitive one. 12. The intramedullary canal is prepared with reamers of increasing diameters. 13. The humeral trial prosthesis is inserted as determined by the size of the last reamer. 14. Reduce the prosthesis and confirm proper joint tension and stability. Do not overtension the deltoid muscle. Check if there is any unwanted impingement. 14. After hardening of the cement, reduce the prosthesis. Confirm correct soft-tissue tension and stability. 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. This 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

INTRODUCTION This means that part or all of your previous hip replacement needs to be revised. This operation varies from very minor adjustments to massive operations replacing significant amounts of bone and hence is difficult to describe in full. Total Hip Replacement (THR) procedure replaces all or part of the hip joint with an artificial device (prosthesis) with a plastic liner in between to restore joint movement Why does a hip need to be revised? Pain is the primary reason for revision. Usually the cause is clear but not always. • Plastic (polyethylene) wear : This is one of the simpler revisions where only the plastic insert is changed. • Dislocation (instability) : means the hip is popping out of place. Repositioning of the implants has to be planned. • Loosening of either the femoral or acetabular component: This usually presents as pain but may be asymptomatic. For this reason, you must have your joint followed up for life as there can be changes on X-ray that indicate that the hip should be revised despite having no symptoms. • Infection usually presents as pain but may present as an acute fever or a general feeling of unwell. Such revisions may be performed in a single or two stages to prevent recurrence of infection. • Osteolysis (bone loss): This can occur due to particles being released into the hip joint that result in bone being destroyed. • Pain from hardware e.g. cables or wires causing irritation. Such procedures are amongst simpler revisions where patients can expect excellent results. PRE-OPERATIVE PHASE • Your surgeon will send you for routine blood tests to rule out infection, CT scan to look closer at the anatomy, and bone scans to help to determine if a component is loose. • X-rays and/or MRI will be considered. • Aspiration of the hip joint is occasionally done to diagnose or rule out infection • Patient will be asked to undertake a general medical check-up with a physician • Patient should have any other medical, surgical or dental problems attended to prior to the surgery in order to prevent a risk of infection. • Cease aspirin or anti-inflammatory medications 10 days prior to surgery as they can cause bleeding. • Any antiplatelet drugs / blood thinners such as clopidogrel, warfarin will be stopped 3-7 days prior to the date of surgery. • Surgical consent will be explained to the patient detailing the procedure as well as the risks involved, if any. • Blood transfusion, if required will be informed and done. Day of surgery • You will meet the nurses and answer some questions for the hospital records • You will meet your anesthetist, who will ask you a few questions and assess the risk factors for surgery. • You will be given hospital clothes to change into and have a shower prior to surgery • The operation site will be shaved and cleaned • Approximately 45 minutes prior to surgery, you will be transferred to the operating room • After explanation of the procedure, you will be asked to sign the consent for surgery. Occasionally, a high risk consent for surgery may be requested depending on the blood reports and clinical examination. SUGRICAL PROCEDURE Hip Revision will be explained to you prior to surgery including what is likely to be done. The surgery is often, but not always, more extensive than your previous surgery and the complications similar but more frequent than the first operation. It is difficult describing the steps of the procedure as each revision procedure is different based on the indication of surgery. Depending on the indication, the surgery varies from a simple liner exchange to changing one or all of the components and the operating surgeon will plan extensively regarding the planned procedure as well as certain associated complications which are often acknowledged during the complicated surgery. In certain cases bone graft may need to be used to make up for any bone loss. POST-OPERATIVE MANAGEMENT • You will wake up in the recovery room with a number of monitors to record your vitals. (Blood pressure, Pulse, Oxygen saturation, temperature, etc.) You will have a dressing on your hip and drain coming out of your wound. • Post-operative X-rays will be performed in recovery. • Once you are stable and awake you will be taken back to the ward. • You will have one or two IV’s in your arm for fluid and pain relief. • On the day following surgery, if inserted, your drains will usually be removed and you will be allowed to sit out of bed or walk depending on your surgeon’s preference. • Pain is normal but if you are having extreme pain inform your nurse. IV antibiotics as well as pain medications will be continued ranging from 1 to 4 days. • You will be able to put all your weight on your hip and your physical therapist will help you with the post-op hip exercises. • You will also be trained by the physical therapist regarding ascending/ descending the stairs as well as toilet training. • You will be discharged home or to a rehabilitation hospital approximately 3-5 days after surgery depending on your pain and help at home. • First dressing will be done on day 3-5, followed by suture/staples removal on 10-14th post-operative day. • A post-operative visit will be arranged prior to your discharge. You will be instructed to walk with crutches for two weeks following surgery and cane from then on until 6 weeks post-op. Special Precautions Remember this is an artificial hip and must be treated with care. AVOID THE COMBINED MOVEMENT OF BENDING YOUR HIP AND TURNING YOUR FOOT IN. This can cause DISLOCATION. Other precautions to avoid dislocation are • You should sleep with a pillow between your legs for 6 weeks. Avoid crossing your legs and bending your hip beyond right angle. • Avoid low chairs. • Avoid bending over to pick things. • Slippers are helpful. • Elevated toilet seats are helpful. • You may shower once the wound has healed. • You can apply Vitamin E or moisturizing cream into the wound once the wound has healed. • If you have increasing redness or swelling in the wound or temperatures over 100.5 degrees you should call your doctor. • If you are having any procedures such as dental work or any other surgery you should take antibiotics before and after to prevent infection in your new prosthesis. Consult your surgeon for details. A Revision Hip replacement is a complex procedure and requires a highly skilled surgeon with adequate expertise. Our Consultant in chief, Dr Vikas Jain is one of the few surgeons in the region who is trained from Europe and has adequate surgical experience in such complex revision procedures.

INTRODUCTION A revision knee replacement surgery is a procedure that is performed to replace a knee implant that is no longer functioning properly. Most knee replacements last several decades, some longer. However, there are also times when a knee replacement needs to be redone after years or even just months. Understanding why a knee replacement has worn out is critical to performing a successful revision knee replacement. The average knee replacement lasts more than two decades, and there are reports of implants lasting longer, and new materials and surgical techniques are hoped to provide even longer-lasting knee replacements. That said, there are times when knee replacements may last a very short time, even in otherwise healthy patients. A small percentage of patients (around 1-2%) end up requiring a knee replacement revised within a few years of their initial surgery. Revision replacements are performed for a number of reasons. Some of the more common include: Loosening of the implant Infection of the joint Instability of the knee Malalignment of the components Many people ultimately have a revision knee replacement because the problem is causing significant pain. While pain can be a problem in itself, a revision knee replacement surgery should not be performed without understanding why the pain is occurring. Performing this type of surgery for pain without an identified cause is unlikely to yield good results. Instead, the cause of the problem with the knee replacement needs to be precisely understood, and there needs to be a plan to address that problem with the implant. An operation without a clear plan to address the problem is unlikely to be helpful. Complexity in revision surgeries Revision replacement is difficult for several reasons. First, when someone has had surgery, scar tissue develops, and soft tissues become less identifiable. Performing the second surgery is always more difficult. Second, when performing a knee replacement, bone is removed. When performing a revision knee, often more bone has to be removed, and some may be lost as a result of the problem with the implant. Maintaining adequate bone to support the new implant can be a challenge. Finally, obtaining a knee that is flexible enough to allow for motion, yet stable enough to keep you steady, is also more difficult in revision situations. PRE-OPERATIVE PHASE Your surgeon will send you for routine blood tests to rule out infection, CT scan to look closer at the anatomy, and bone scans to help to determine if a component is loose. X-rays and/or MRI will be considered. Aspiration of the knee joint is occasionally done to diagnose or rule out infection Patient will be asked to undertake a general medical check-up with a physician Patient should have any other medical, surgical or dental problems attended to prior to the surgery in order to prevent a risk of infection. Cease aspirin or anti-inflammatory medications 10 days prior to surgery as they can cause bleeding. Any antiplatelet drugs / blood thinners such as clopidogrel, warfarin will be stopped 3-7 days prior to the date of surgery. Surgical consent will be explained to the patient detailing the procedure as well as the risks involved, if any. Blood transfusion, if required will be informed and done. Day of surgery You will meet the nurses and answer some questions for the hospital records You will meet your anesthetist, who will ask you a few questions and assess the risk factors for surgery. You will be given hospital clothes to change into and have a shower prior to surgery The operation site will be shaved and cleaned Approximately 45 minutes prior to surgery, you will be transferred to the operating room After explanation of the procedure, you will be asked to sign the consent for surgery. Occasionally, a high risk consent for surgery may be requested depending on the blood reports and clinical examination. SURGICAL PROCEDURE Each knee is individual and knee replacements take this into account by having different sizes for your knee. If there is more than the usual amount of bone loss, sometimes extra pieces of metal or bone are added. Surgery is performed under sterile conditions in the operating room under spinal or general anesthesia. You will be on your back and a tourniquet will be applied to your upper thigh to reduce blood loss. Surgery takes approximately two hours. The patient is positioned on the operating table and the leg prepped and draped. A tourniquet is applied to the upper thigh and the leg is prepared for the surgery with a sterilizing solution. An incision around 7cm is made to expose the knee joint. Old/ damaged components of the implants are removed. The bone ends of the femur and tibia are prepared using a saw or a burr to freshen the bone. Trial components are then inserted to make sure they fit properly. The real components (Femoral & Tibial) are then put into place with or without cement. The knee is then carefully closed and drains usually inserted, and the knee dressed and bandaged. POST- OPERATIVE MANAGEMENT When you wake up you will be in the recovery room with intravenous drips in your arm, a tube (catheter) in your bladder may be inserted, and a number of other monitors to check your vitals. Once stable, you will be taken to the ward. The postop protocol is surgeon dependent, but in general your drain will come out at 24 hours and you will sit out of bed and start moving your knee and walking on it within a day or two of surgery. The dressing will be reduced usually on the second postop day to make movement easier. Your rehabilitation and mobilization will be supervised by a physical therapist. To avoid lung congestion, it is important to breathe deeply and cough up any phlegm you may have. Your surgeon will use one or more measures to minimize blood clots in your legs, such as inflatable leg coverings, stockings, and injections to thin the blood clots or DVT’s. A lot of the long-term results of knee replacements depend on how much work you put into it following your operation. Usually you will be in hospital for 3-5 days and then either go home or to a rehabilitation facility depending on your needs. You will need physical therapy on your knee following surgery. You will be discharged on a walker or crutches and usually progress to a cane at six weeks. Your sutures will be removed at approximately 12-15 days. Bending your knee is variable, but by 6 weeks it should bend to 90 degrees. The goal is to get 110-115 degrees of movement. Once the wound is healed, you may shower. You can drive at about 6 weeks, once you have regained control of your leg. You should be walking reasonably comfortably by 6 weeks. More physical activities, such as sports may take 3 months to be able to do comfortably. You will usually have a 6-week checkup with your surgeon who will assess your progress. You should continue to see your surgeon for the rest of your life to check your knee and take X-rays. This is important as sometimes your knee can feel excellent but there can be a problem only recognized on X-ray. You are always at risk of infections especially with any dental work or other surgical procedures where germs (bacteria) can get into the blood stream and find their way to your knee. If you ever have any unexplained pain, swelling, redness or if you feel unwell you should see your doctor as soon as possible. A Revision Knee replacement is a complex procedure and requires a highly skilled surgeon with adequate expertise. Our Consultant in chief, Dr Vikas Jain is one of the few surgeons in the region who is trained from Europe and has adequate surgical experience in such complex revision procedures.

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 thigh, knee and leg, are common from both minor and major accidents. These are incapacitating in the short term as they commonly require the use of crutches, casts and modifications of activities as well as time off work and driving restrictions. DESCRIPTION Lower 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. Condition 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 weight bearing/walking 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 an occult 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 demand and the type of fracture sustained. Non-operative treatment of lower limb fractures may involve: • Crutches • Braces • Plaster Casts • Orthotic Shoes • 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 lower 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 minimally invasive percutaneous orthopedic trauma implants, to give you the best outcome possible with the least amount of scarring and soft tissue injury. After surgery, Dr. Jain will discuss your operation as well as plan your rehabilitation 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. He is also actively involved in various trauma research projects and regularly teaches junior doctors.

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.