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Jul05
Magnetic Therapy Research
Even though claims that magnetic therapy can treat diseases like cancer and multiple sclerosis are unfounded, there is some evidence that it may help relieve pain related to these chronic conditions:

1) Arthritis

In a 2004 study of 194 adults with osteoarthritis of the hip or knee, researchers found that those who wore magnetic bracelets for 12 weeks had a decrease in arthritis-associated pain. Meanwhile, a 2001 study of 64 people with rheumatoid arthritis of the knee showed that 68% of those who used magnetic therapy reported feeling better or much better after one week.

Learn about other natural solutions for osteoarthritis and rheumatoid arthritis.

2) Chronic Pelvic Pain

For a 2002 study of 32 women with chronic pelvic pain, one group of patients had active or placebo magnets applied to their abdomens for 24 hours a day. After four weeks of continuous use, those who received the active magnets reported significantly lower pain levels than at the start of the study.

3) Fibromyalgia

After six weeks of sleeping on magnetized mattress pads, 13 women with fibromyalgia reported significantly less pain, sleep disturbance, fatigue, and next-day tiredness. A control group of 12 women (who slept on non-magnetized mattresses) had smaller improvements in pain, sleep, fatigue, and tiredness. The study's authors note that improvements in both groups might have been due to use of a better mattress pad.


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Jul05
What is Magnetic Therapy?
Magnetic therapy is based on the theory that when delivered directly to the body magnetic fields can stimulate healing from a range of health problems. Although its health claims include the treatment of multiple sclerosis, fibromyalgia, arthritis, insomnia, inflammation, and even cancer and heart disease, there is little scientific evidence for magnetic therapy's effectiveness.


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Jun15
what is Rheumatology?
Rheumatology is a superspeciality which deals with problems of bones joints muscles and connectivity tissue diseases like Sle, vasculitis.
There are about 200 type of Arthritis mainly osteoarthritis, Rheumatic Arthritis, Gout etc.
Contrary to the previous belief, these problems can be accurately diagnosed and managed by the doctor skilled in Rheumatology who is known as Rheumatology


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Feb17
Custom fit knee replacement boosts success rate
Orthopaedic surgeon Dr. A.K. Venkatachalam, of the Madras Joint Replacement Center in Chennai, India, has introduced customized knee replacement. He is offering a concept called 'patient specific instrumentation' to help prolong the life of knee implants.
Oxinium implants are a highly rated knee replacement joint prosthetic. Oxinium joints are designed of special metal composites coated with ceramic. Then, they're fused and coated with oxygen to create very durable and long-lasting joint replacements. The latest concept to be introduced is the ‘Visionaire’, patient specific instrumentation from Smith & Nephew, an orthopedic implant company based in Warsaw, Indiana, USA. It provides the surgeon a customized device derived from the individual patient’s anatomy. This data is derived from pre-operative x rays and MRI scans of the individual patient. The images are sent online to the research and development engineers of the Smith & Nephew. Based on the scans, the design engineers fabricate a customized mould from Nylon. These are shipped to the surgeon within a gap of four weeks. Armed with these customized cutting blocks, the surgeon is confident of shaping the patient’s bone very accurately.
Dr. Venkatachalam performed the latest surgeries utilizing this customized approach at the Chettinad Health city’s super-specialty hospital.
Benefits of Oxinium Implants and Patient Specific Surgery
While Oxinium prosthetic joints are believed to last nearly 90 times longer than a traditional knee joint, Dr. Venkatachalam wants to ensure that his patients have the best experiences with joint replacements as possible. With this combined technology, the implants can be expected to last for thirty years versus the ten to fifteen years with traditional cobalt chrome implants.
The new approach to knee replacements offers a variety of patient benefits including but not limited to conservation of existing bone and added stability of the knee joint. Utilizing patient specific instrumentation during the implant process, the surgeon is able to make anatomically precise cuts of the knee bone for a much-customized fit of the Oxinium knee implant. The implant is then aligned to fit the specific patient's knee anatomy. Reduction of pain and increased mobility and range of motion are just a few of the added benefits of such stability.
In addition, the implants, designed by Smith & Nephew, are used in combination with Visionaire instruments, utilizing OXINIUM™ technology. In addition to their strengths and longevity, Oxinium implants are lightweight and hypoallergenic.
The Oxinium implant with Visionaire patient specific instruments offers minimally invasive procedures that reduce the risk of bleeding, complications, infections and postoperative pain. Patients are able to return to an active lifestyle faster than with traditional total knee replacement procedures, enhancing healing, mobility, and range of motion.
Finally, minimally invasive procedures such as the Visionaire patient specific instrument approach reduces the time a patient needs to be kept under anesthesia, again minimizing risk of complications as well as bleeding during the procedure.
The two patients who received the Oxinium total knee replacement with Visionaire patient specific instruments are both middle-aged women diagnosed with severe osteoarthritis and gross deformities.
Dr. Venkatachalam is a board certified, highly trained and experienced orthopedic surgeon in Chennai, India. He and staff members at Madras Joint Replacement Center have gained extensive experience in joint replacement surgeries throughout the United Kingdom, Belgium, the Middle East and Asia. Dr. Venkatachalam is a pioneer in minimally invasive procedures for total knee replacements.
For more information regarding Dr. Venkatachalam, the Madras Joint Replacement Center, or Oxinium implants and prosthetic knee replacements and surgeries, visit www.kneeindia.com


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Feb12
POLY ARTICULAR GOUT-A CASE REPORT
Unusual case of poly articular gout-a case report.

Abstract-
Gout is a common inflammatory arthritis caused by deposition of monosodium urate crystals in the joints. It classically affects the first metatarsophalangeal joint and less commonly other joints, such as wrists, elbows, knees and ankles.
We report the case of a 65-year-old man with tophaceous polyarticular gout, soft-tissue involvement of elbow joint with secondary infection leading to septicemia.
Key words—
Gout, monosodium urate crystals, tophi, arthropathy,Febuxostat,Colchicine
Introduction-

Gout is a common disorder of uric acid metabolism, characterized by recurrent episodes of inflammatory arthritis, tophaceous soft tissue deposits of monosodium urate crystals, uric acid renal calculi and chronic nephropathy. We report the case of a 65-year-old man suffering from tophaceous polyarticular gout and soft-tissue involvement, presenting with ulcerated tophi overlying the left elbow. We also emphasize the disabling effects of the untreated hyperuremic arthropathy.
Case presentation
A 65-year old man with a long-standing history of tophaceous gout and several recurrent episodes of arthritis during the past five years presented with a large, painful, ulcerated tophus located on the left elbow joint to the emergency department. He tried a course of non-steroidal anti-inflammatory drugs (NSAIDs) without improvement.
On physical examination he had a mild fever of 37.8°C. A grayish, voluminous and ulcerated nodule containing chalky material was located on the left elbow. Further examination revealed multiple other tophi overlying the 4th and 5th PIP joints (proximal interphalangeal joint) of his right hand and the first interphalangeal joints of his left hand(Figure 1). Other joints involved were wrists, elbows, ankles, interphalangeal and metatarsophalangeal joints of the feet and heels. Many joints were also deformed. The first metatarsophalangeal joint of his left foot was totally nonfunctional.
Laboratory workup revealed leukocytosis (11.000/mm3), elevated C-reactive protein (60.21 mg/dl) and elevated serum uric acid (11 mg/dl) and normal serum creatinine (0.9mg/dl). Radiographs of the hands showed showing soft tissue swelling and destruction of both wrist, left IP thumb, right 4th and 5th PIP joints, calcified tophi seen in right 2nd MCP joint(meta carpo phalangeal joint)(Figure 2). A culture from the ulcerated tophus was positive for staphylococcus aureus (Methicillin sensitive). Two days after admission, the tophus burst releasing a viscous, chalk-like material. Polarized microscopy confirmed presence of needle shaped monosodium urate crystals (Figure 3).
Antibiotic treatment with IV Ciprofloxacin (1000 mg/day) and intravenous administration of NSAIDs (Diclofenac 100 mg/day) was initiated.
A surgical debridement with lavage of the joint was performed. Debridement was also performed on the minor ulcers. Five days after admission treatment with Febuxostat (80 mg/day) along with Colchicine 0.5mg twice daily was initiated. The patient improved clinically and was discharged two days later. Six months after treatment, he remains symptom free.
Discussion:
Gout is the most common inflammatory arthropathy, reported to affect 2.13% of the population of the United States of America in 2009 [1]. Older age, male sex, postmenopausal state and black race are related to a higher risk for development of the disease [2]. Elevation of uric acid levels above the saturation point for urate crystal formation (6.8 mg/dl) usually results from an impaired renal uric acid excretion and although necessary, it is not sufficient to cause gout. Hyperuricemia and gout can be attributed to uric acid elevating drugs, genetic polymorphisms in genes controlling renal urate transport and predisposing dietary factors, such as consumption of red meat, seafood, alcohol and fructose containing soft beverages [3]. Other conditions associated with the disease include insulin resistance, obesity, hypertension, renal insufficiency, congestive heart failure, and organ transplantation [2].
Over time, poorly controlled gout may progress to a chronic phase, characterized by polyarticular attacks, painful symptoms between acute flares and monosodium urate crystal deposition (tophi) in soft tissues or joints [2]. Tophi are typically found on the helix of the ears, on fingers, toes, wrists and knees, on the olecranon bursae, on the Achilles tendons and also rarely on the sclerae, subconjuctivally, [4] and on the cardiac valves [5]. They can cause pain and dysfunction and are rarely associated with ulcerations [6], bone fractures [7], tendon and ligament rupture [8], carpal tunnel [9] and other nerve compression syndromes [10]. Differential diagnosis for subcutaneous or articular nodules includes septic arthritis, synovial cysts, nodal osteoarthritis, rheumatoid arthritis, sarcoidosis, lymphoma or neoplasms [11]. Synovial fluid or tophus aspiration permits diagnosis through demonstration of negatively birefringent monosodium urate crystals [2].
Treatment options for acute gouty attacks include dietary and lifestyle modifications, NSAIDs, colchicine, oral or topical steroids and corticotropin (ACTH). Interleukin-1 (IL-1) antagonists, such as anakinra, a human recombinant IL-1 receptor antagonist and canakinumab, a monoclonal antibody against IL-1β, have also shown promising results in the treatment of refractory cases or cases intolerant to classical therapy [2]. Even without treatment acute attacks usually resolve spontaneously within seven to 10 days. Normalizing hyperuricemia is of cardinal significance for the control of recurrent attacks and for the regression of tophi. This is achieved with drugs, which either favor uric acid excretion (probenecid), convert uric acid into soluble allantoin (pegloticase), or inhibit uric acid production (allopurinol, febuxostat) [2].
Surgical treatment is seldom required for gout and is usually reserved for cases of recurrent attacks with deformities, severe pain and joint destruction [11]. The main indication for surgery in patients with tophaceous gout is sepsis or infection of ulcerated tophi, followed by mechanical problems, confirmation of diagnosis and pain control [12]. Removal of tophaceous deposits from the hands can be achieved through tenosynovectomy for heavily infiltrated tendons, through a soft-tissue shaving technique for heavy skin infiltration with ulceration and draining fissures [13], or through more complex surgical approaches involving large skin incisions and excision of the tophi [14]. A hydrosurgery system applying a highly pressurized saline stream has also been used with good results for the debridement of tophi [15]. In the early stages, surgical arthroplasty can be carried out, but simple enucleation of the tophi may lead to complications such as skin necrosis, tendon and joint exposures [11]. Amputation is always a valid option for untreatable and infected ulcerations [16].
Conclusion
Secondary infection of tophaceous gout are not uncommon can lead to septicemia. Surgical treatment is required for such cases along with medical therapy.

References:
1.Brook RA, Forsythe A, Smeeding JE, Lawrence Edwards N. Chronic gout: epidemiology, disease progression, treatment and disease burden. Curr Med Res Opin. 2010;26:2813–2821. 2.Neogi T. Clinical practice. Gout. N Engl J Med. 2011;364:443–452.
3.Lee SJ, Terkeltaub RA, Kavanaugh A. Recent developments in diet and gout. Curr Opin Rheumatol. 2006;18:193–198.
4.Sarma P, Das D, Deka P, Deka AC. Subconjunctival urate crystals: a case report. Cornea.2010;29:830–832
5.Iacobellis G. A rare and asymptomatic case of mitral valve tophus associated with severe gouty tophaceous arthritis. J Endocrinol Invest. 2004;27:965–966.
6. Patel GK, Davies WL, Price PP, Harding KG. Ulcerated tophaceous gout. International Wound Journal. 2010;7:423–427.
7.Nguyen C, Ea HK, Palazzo E, Liote F. Tophaceous gout: an unusual cause of multiple fractures. Scand J Rheumatol. 2010;39:93–96.
8.Iwamoto T, Toki H, Ikari K, Yamanaka H, Momohara S. Multiple extensor tendon ruptures caused by tophaceous gout. Mod Rheumatol. 2010;20:210–212.
9.Ali T, Hofford R, Mohammed F, Maharaj D, Sookhoo S, van Velzen D. Tophaceous gout: a case of bilateral carpal tunnel syndrome. West Indian Med J. 1999;48:160–162.
10.Tran A, Prentice D, Chan M. Tophaceous gout of the odontoid process causing glossopharyngeal, vagus, and hypoglossal nerve palsies. Int J Rheum Dis. 2011;14:105–108. 11.Khandpur S, Minz AK, Sharma VK. Chronic tophaceous gout with severe deforming arthritis.Indian J Dermatol Venereol Leprol. 2010;76:69–71.
12.Kumar S, Gow P. A survey of indications, results and complications of surgery for tophaceous gout. N Z Med J. 2002;115:U109.
13. Lee SS, Sun IF, Lu YM, Chang KP, Lai CS, Lin SD. Surgical treatment of the chronic tophaceous deformity in upper extremities - the shaving technique. J Plast Reconstr Aesthet Surg. 2009;62:669–674.
14.Tripoli M, Falcone AR, Mossuto C, Moschella F. Different surgical approaches to treat chronic tophaceous gout in the hand: our experience. Tech Hand Up Extrem Surg. 2010;14:187–190.
15.Lee JH, Park JY, Seo JW, Oh DY, Ahn ST, Rhie JW. Surgical treatment of subcutaneous tophaceous gout. J Plast Reconstr Aesthet Surg. 2010;63:1933–1935.
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16.Ertugrul Sener E, Guzel VB, Takka S. Surgical management of tophaceous gout in the hand.Arch Orthop Trauma Surg. 2000;120:482–483.


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Dec21
A ganglion cyst at the foot causing tarsal tunnel syndrome detected by magnetic resonance imaging.
Title:
A ganglion cyst at the foot causing tarsal tunnel syndrome detected by magnetic resonance imaging.
Abstract
Tarsal tunnel syndrome is often misdiagnosed as clinical symptoms of tarsal tunnel syndrome vary and physician must keep this in mind whenever unexpected paresthesias are present in the planter aspect of the foot, in the toes, or over the medial distal calf. . Failure to diagnose and treat neuropathies effectively can cause permanent neuropathic pain and functional disability. We report a case of a ganglion cyst detected by MRI in a 31-year-old man who complained of rapidly aggravating pain, numbness and paresthesia on the great toe and the first metatarsal area in the sole, symptoms that resembled tarsal tunnel syndrome confined to the medial planter nerve. Surgical treatment could be performed early with no permanent sequelae. We could also avoid repeated steroid injections or prescription medications.
Key words: Tarsal tunnel syndrome; Ganglion cyst; Medial planter nerve.

Introduction
Tarsal tunnel syndrome (TTS) is caused by compression of the posterior tibial nerve as it passes through the posterior tarsal tunnel. It is much more common in the posterior tarsal tunnel than in the anterior by compression of the deep peroneal nerve as it passes beneath the superficial fascia of the ankle [1]. TTS may be associated with exacerbation of symptoms at night, by exercise or rest, or by elevating or lowering the extremity, and symptoms confined to the lateral planter nerve, medial planter nerve, or medial calcaneal nerve [2]. Failure to diagnose and treat neuropathies effectively can cause permanent neuropathic pain and functional disability In most cases, TTS develops from unknown causes and can be treated conservatively. However, early surgical intervention is mandatory when neuropathy arises from a progressing occult pathology to avoid, repeated steroid injections, prescription of several medication for neuropathic pain, and to prevent permanent neuropathic pain. MRI and electromyography, together with clinical history and physical examination, can help to make the differential diagnosis.

Case history:
The patient was a 31-year-old man with a 6-month history of pain, numbness, and paresthesia on the left great toe and the first metatarsal area in the sole. The pain was constant and burning. Symptoms were aggravated by pressure on the sole such as walking and weight bearing. Symptoms had initially localized in the great toe and sole but gradually extended to the second and third toes. Patient had been prescribed lot of local steroidal injections but had no permanent relief.
A physical examination did not reveal specific abnormalities except a local tenderness just below and down to the medial malleolus over the foot. There was no palpable swelling. We then performed an MRI which revealed a unilocular, ganglion cyst around the medial planter nerve in the digitorum muscles of the foot. [Fig.1 and 2]. Nerve-conduction studies showed that conduction velocity was reduced in the right medial plantar nerve. There was no apparent weakness of the intrinsic muscles of the right foot, but a subtle T2 high signal change in the abductor hallucis and flexor digitorum brevis muscle was seen on MRI. We suspected subacute muscle denervation and planned the patient for surgery. Intra-operatively, ganglion cyst was found close to the medial planter nerve and after meticulous dissection nerve was freed from the ganglion cyst [Fig. 3 and 4]. After surgery two weeks later, the patient had dramatic response with improved symptoms.



Discussion
The most common cause of compression of the posterior tibial nerve around the tarsal tunnel is trauma to the ankle, but any occult pathology, such as a space-occupying lesion like a ganglion cyst, can cause similar neuropathic pain [3]. Tarsal tunnel syndrome is an entrapment neuropathy caused by compression of the posterior tibial nerve and its branches, between the calcaneum and the medial malleolus under the cover of the flexor retinaculum [4, 5]. TTS can be misdiagnosed as ankle arthritis and lumbar radiculopath [6]. However, patients with ankle arthritis have radiologic evidence of it. TTS can be distinguished from lumbar radiculopathy because patients suffering from TTS have no reflex changes, and motor and sensory changes are localized to the distribution of the distal posterior tibial nerve and its branches. Secondary TTS by a ganglion is unusual,[4,5] but it can occur. Kirby and colleagues [7]) found that ganglion cysts were the most common benign lesion of the foot, accounting for nearly one-third of all cases. The size and location of the ganglion cyst is influences entrapment neuropathy because the volume of the tarsal tunnel compartment ranges from 18 cm3 to 21 cm3 in normal individuals [8]). In addition, Takakura and colleagues (9[] mentioned that a large ganglion can easily be diagnosed by MRI, but is difficult if it is smaller than 0.5 × 0.5 × 0.5 cm. A cystic and completely anechoic fluid collection around the ankle detected by USG commonly represents a ganglion cyst [10].


Conclusion
In conclusion, neuropathy arising from progressing occult pathology should be diagnosed early with high degree of suspicion by modern imaging facilities and treated adequately to avoid permanent neuropathic pain and functional disability. When a suddenly exacerbated case of neuropathy is encountered, a space-occupying lesion such as a ganglion cyst should be considered and clinicians must try to detect it as soon as possible. MRI may be a helpful device for this effort. The unique clinical symptoms and signs of our diagnosis of a ganglion causing medial plantar nerve compression were confirmed by MRI and then operative findings.

Consent
"Written informed consent was obtained from the patient for publication of this case report and accompanying images. A copy of the written consent is available for review by the Editor-in-Chief of this journal."

Competing interests
“The author(s) declare that they have no competing interests’'.
Authors' contributions
“IHWand SS analyzed and interpreted the patient data regarding the disease. YK discussed the case with radiology and pathology experts and formulated the investigative and treatment plan. AQS and SS performed the biopsy. IHW was responsible for followup and prepared the manuscript. All authors read and approved the final manuscript.”



References

1. Waldman SD: Posterior tarsal tunnel syndrome. In: Atlas of Common Pain Syndromes. 2nd ed. Philadelphia,Saunders Elsevier. 2007,pp 337-9.
2. Greer Richardson E.:From Neurogenic disorders: Tarsal Tunnel syndrome. In Campbell’s operative orthopaedics. Volume 4th. Elevanth Edition.Edited by S. Terry Canale, James H. Beaty 2008; 83: 4717-4721.
3. Ferraresi S, Leidi P, Leidi M, Ubiali E, Bortolotti G, Cassinari V: Tarsal tunnel syndrome. Report of a case and review of clinical and surgical aspects. Ital J Neurol Sci 1992; 13: 47-51.
4. Taguchi Y, Nosaka K, Yasuda K, Teramoto K, Mano M, Yamamoto S: The tarsal tunnel syndrome: report of two cases of unusual cause. Clin Orthop Relat Res 1987; 217:247-52.
5. Brown RJ: Tarsal tunnel syndrome due to a ganglion: a case report. Ulster Med J 1982; 51: 127-9.
6. Lam SJ: Tarsal tunnel syndrome. J Bone Joint Surg Br 1967; 49: 87-92.
7. Kirby EJ, Shereff MJ, Lewis MM: Soft-tissue tumors and tumor-like lesions of the foot. An analysis of eighty-three cases. J Bone Joint Surg Am 1989; 71:621-6.
8. Bracilovic A, Nihal A, Houston VL, Beattie AC, Rosenberg ZS, Trepman E: Effect of foot and ankle position on tarsal tunnel compartment volume. Foot Ankle Int 2006; 27: 431-7.
9. Takakura Y, Kumai T, Takaoka T, Tamai S: Tarsal tunnel syndrome caused by coalition associated with a ganglion. J Bone Joint Surg Br 1998; 80: 130-3.
10. Chhem RK, Beauregard G, Schmutz GR, Benko AJ: Ultrasonography
of the ankle and the hindfoot. Can Assoc Radiol J 1993; 44: 337-41.


Figure legends’:
Fig. 1: MRI showing unilocular hyperintense cystic lesion in digitorum muscles of foot.

Fig.2: MRI showing ganglion cyst.
Fig. 3: Ganglion cyst pressing on a medial planter nerve detected intraoperatively.

Fig. 4: Removed ganglion cyst


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Nov18
WEIGHT AND LOWER BACK PROBLEMS
Low back ache is one of the most common complaint in our practice. Obesity by itself may not cause back pain but if a heavy person gets back pain the suffering would be more and the response to the treatment may be sub optimal. More over the medical team may find it difficult to manage back pain in an obese person with the likes of physiotherapy or surgical treatment. Obesity compounds back pain as these people may also have problems with other joints, especially those of lower limbs as excess fat in the body contributes to the inflammation of the joints. According to the American Obesity Association, back pain is prevalent among 1/3rd of Americans who are under obese category.

What cause back pain in over weight individuals?

The extra weight in the mid segment of the body pulls the pelvis forward and strains the lower back resulting in back pain. In order to compensate for extra weight, the back bone can become tilted and stressed unevenly. As a result, over the time, the back may lose its support and an abnormal curvature of the spine may develop. Overweight also causes early wear and tear in the small joints of the spine and may enhance the rate of disc degeneration which may contribute to back ache. In addition, sciatica and symptoms of pinched nerves may result when nerves get compressed in the spaces between the bones of the lower back.

How much excess weight causes back pain ?

People who are of ‘ideal weight’ as well as people who are heavy, both suffer from back pain. Hence we cannot say what percentage of back pain is purely due to obesity as there are no established scientific studies. Those patients who carry more weight around their midsection are at greater risk of developing pain in the back.

How can you reduce risk of back pain?

“Keep your back fit and maintain a good posture”
The main emphasis of management is to “ loose weight, loose weight & loose weight” which in turn will help you and your back to become fit. A fit back and a good posture are even more important for people on desk jobs with long hours of sitting.
Analgesics and other medications help to reduce the soreness of the back which are generally used only for short durations.
Physiotherapy: Regular aerobic activities that don’t strain your back can increase strength and endurance in your lower back. Strengthen your back and abdominal muscles. Flexibility in your hips and upper legs allows for proper pelvic bone alignment, which improves back pain.
• Walking is usually helpful – start slowly on flat ground, building up to longer walks and gentle slopes.
• Swimming is an excellent exercise – do back or front crawl instead of breast-stroke which can strain your neck.
• When your back pain has settled, using an exercise bike is a good way of getting fit. Keep the saddle at correct height to keep the natural curves in your spine.
• Proper shoes also may help a little.


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Oct08
Distal tibial interosseous osteochondroma with impending fracture
Abstract
Osteochondromas arising from the interosseous border of the distal tibia and involving distal fibula
are uncommon. We present a 16 year old young boy with an impending fracture, erosion and
weakness of the distal fibula, secondary to an osteochondroma arising from the distal tibia. Early
excision of this deforming distal tibial osteochondroma avoided the future risk of pathological
fracture of the distal fibula, ankle deformities and syndesmotic complications.


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Sep07
House remedies
An effective way to get relief from the pain of arthritis is to massage the affected area with warm olive oil.


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Aug07
' Bharat Jyoti Award ' Received For Alternatives to Knee Replacement Surgery
Dome Osteotomy & Kodkanis Dome Stabilizer : A Knee Conserving, Reliable, Safe, Convenient & Cost-effective substitute to knee joint replacement surgery.





Osteoarthritis, or degenerative (wear & tear of joint increases as age advances) joint disease, is one of the oldest and most common types of arthritis (disease of a joint). It is characterized by the breakdown of cartilage (Insulating coating over the ends of bones within the joint) in the joint. Cartilage is the part of the joint that cushions (insulates from the nerve endings and provides a smooth surface for friction free movements of the joint) the ends of bones and its breakdown causes bones to rub against each other, resulting in pain and loss of movement. Most commonly affecting middle-aged and older people, Osteoarthritis can range from very mild to very severe. It affects hands and weight-bearing joints such as knees, hips, feet and the back.

According to the World Health Organization (WHO), around 10% of the world’s population above the age of 60 is estimated to be suffering from this condition. Moreover, an increasing number of young people, some even as young as 30, suffer from osteoarthritis.

In patients suffering from osteoarthritis of the knee, the inner sides of the knee joint gets worn off and the joint space collapses, causing ‘bowing’ (outward bending of the knee) of the knees. This ‘bowing’ leads to increased load on the inner side of the knee causing further wear and tear. In this entire process, the outer side of the knee joint is virtually intact.

The commonly opted solution to such a condition is a replacement of the knee joint, an expensive option as the cost of the artificial joint alone may be Rs. 75,000 onwards + surgical + medical +hospital cost = about Rs 1.5 lacs. Due to financial constraints a large number of patients are unable to go in for this replacement surgery. Moreover, patients lose their natural knee joint and must adjust to an artificial one.

To overcome these problems, an innovative, unique, cost-effective and less invasive (small incision of about 1 inch on front of the knee without ‘added damage’ caused to the knee) solution to deal with this condition is now available.

Dr. Pranjal Kodkani says: “Instead of knee replacement, osteotomy is now available for patients who have not reached the last stages of arthritis. This involves realigning ( straightening the ‘bowed’ knee ) the knee in such a manner that the load on the inner side of the knee is transferred to the outer side of the knee. This is done by cutting the lower bone of the knee in a particular (curved manner & not the previously followed method of removal of a wedge of bone & aligning the knee. This previous method still practised by some require postoperative plastering & immobilisation of the knee which in turn delays mobilisation and does not as good results) manner and then realigning it to make the limb straight. This osteotomy is known as the ‘dome osteotomy’ because of its shape. The surgery does not involve removal of any part of the bone or the joint and so does not shorten the leg.”

Advantages of Dome Osteotomy

* The patient is able to retain his original knee joint
* The treatment proves very cost-effective, enabling a large number of patients with modest incomes to opt for it.
* Allows all activities following surgery including squatting.
* Ideal for patients in the early stages of the disease as the original joint is saved.
* The surgery is less invasive.
* Significant amount of pain relief
* Faster mobilisation
* No artificial sensation
* Reduced risk of complications.
* Convenient, lightweight fixator facilitates faster recovery

This method also has several advantages when it comes to the recovery period. No plaster immobilization is required. Earlier, the patient would have to put up with a plaster cast, leading to immobility (since the patient cannot walk independently with a plaster. Also the plaster per se has its own disadvantages) and discomfort.

Large external ring fixators (Large metal rings applied from outside the knee to hold the bone with wires passed thro them) such as the one devised by Ilizarov in Russia allow some mobility however; their cumbersome (numerous wires are passed so the patient needs to take adequate care of all the wires and the entire apparatus to keep it clean and free of potential infection) and bulky nature may cause a certain amount of discomfort for the patient ( and difficult to socialise or even wear ones routine attire). To deal with these problems, a unique fixator, which is compact, lightweight, economical and allows early mobility is also available. It is called the ‘Kodkanis Dome Stabilizer’ (a patented and copyright product).

The surgery thus retains the original knee of the patient and results in a well-aligned (a knee straight enough so that the weight now is transmitted through the outer side of the knee rather than the inner side which is worn out and painful) leg, with significant pain relief.

Also the patient can squatt after the surgery and return to all their routine activities unlike a joint replacement where squatting which is an important activity in the Indian senario is not permitted following the surgery. Also this surgery does not burn any bridges unlike a joint replacement where a knee once cut off & lost cannot be regained.

Perhaps, the greatest advantage of Dome Osteotomy is the cost factor. The fixator is very economically priced bringing the total cost of the treatment to half the cost of joint replacement.

With incidence of young arthritics on the rise, the expectations from treatment for painful arthritic knee in this group of population are - relief of pain, rapid functional recovery for return to daily activities with the ability to squatt, not be a dependent for long, long lasting results, with least serious complications & risk of losing ones knee forever, less resurgeries, patient convenience and at an economical rate. Keeping these expectations in mind, osteoarthritis of the knee in this stage would be best treated with dome osteotomy for realignment of the knee fixed with this indigenous fixator designed to meet these requirements.

However this particular osteotomy, which is capable of providing all these advantages, is a more technically demanding procedure unlike the previously performed osteotomies and therefore not performed by all.


Older method of removing a wedge of bone and realigning the knee (High Tibial Osteotomy). Results in shortening because of removal of bone and also at times over or under correction of deformity. Also requires plastering.


‘Dome Osteotomy’ done with a curved cut in the bone & the knee is straightened by rotating the bone within the cut without removing any part of bone. The cut is fixed (stabilized) using ‘Kodkanis Dome Stabilizer’. Here ‘x’ degrees is the degree of abnormal bend in the knee which is straightened.

Advantages Of ‘Kodkanis Dome Stabilizer’ For Dome Osteotomy.

Compact & Light.
Stable fixation of dome osteotomy.
Immediate joint mobilization.
Early full weight bearing.
Early return to Activities of Daily Living.
Ability to alter correction in post-op period without anaesthesia.
No residual implants following treatment.
Better patient compliance.
Surgeon convenience.
Economical.

LINK ON INDIAN ARTHROSCOPY SOCIETY WEBSITE -

http://www.indianarthroscopy.co.in/download/current_concepts/jks_kds.pdf


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