Overview
Flat feet can lead to extreme stress or inflammation of the plantar fascia, possibly causing severe discomfort and leading to other foot problems. Without properly supported arches, simple movement can pull your body out of alignment and cause stress, strain and fatigue to your lower body. Causes Flat feet are a common condition. In infants and toddlers, the arch is not developed and flat feet are normal. The arch develops in childhood. By adulthood, most people have developed normal arches. When flat feet persist, most are considered variations of normal. Most feet are flexible and an arch appears when the person stands on his or her toes. Stiff, inflexible, or painful flat feet may be associated with other conditions and require attention. Painful flat feet in children may be caused by a condition called tarsal coalition. In tarsal coalition, two or more of the bones in the foot fuse together. This limits motion and often leads to a flat foot. Most flat feet do not cause pain or other problems. Flat feet may be associated with pronation, in which the ankle bones lean inward toward the center line. When the shoes of children who pronate are placed side by side, they will lean toward each other (after they have been worn long enough for the foot position to remodel their sole). Foot pain, ankle pain, or lower leg pain (especially in children) may be a result of flat feet and should be evaluated by a health care provider. Adults can develop a flat foot when they are 60 - 70 years old. This type of flat foot is usually on one side. Symptoms A significant number of people with fallen arches (flat feet) experience no pain and have no problems. Some, however, may experience pain in their feet, especially when the connecting ligaments and muscles are strained. The leg joints may also be affected, resulting in pain. If the ankles turn inwards because of flat feet the most likely affected areas will be the feet, ankles and knees. Some people have flat feet because of a developmental fault during childhood, while others may find that the problem develops as they age, or after a pregnancy. There are some simple devices which may prevent the complications of flat feet. Diagnosis Many medical professionals can diagnose a flat foot by examining the patient standing or just looking at them. On going up onto tip toe the deformity will correct when this is a flexible flat foot in a child with lax joints. Such correction is not seen in the adult with a rigid flat foot. An easy and traditional home diagnosis is the "wet footprint" test, performed by wetting the feet in water and then standing on a smooth, level surface such as smooth concrete or thin cardboard or heavy paper. Usually, the more the sole of the foot that makes contact (leaves a footprint), the flatter the foot. In more extreme cases, known as a kinked flatfoot, the entire inner edge of the footprint may actually bulge outward, where in a normal to high arch this part of the sole of the foot does not make contact with the ground at all. pes planus orthotics Non Surgical Treatment If you have flat feet (pes planus) it does not mean you will have problems or pain. Flat feet are a common condition. Flat feet are defined as an abnormal lowering of the medial longitudinal arch. There is often a hereditary component to the development of flat feet. Flat feet are more common in certain ethnic groups. Flat feet usually occurs equally in both feet and become apparent at an early age. Flat feet can initially be asymptomatic, but can become progressively symptomatic with age. Some flat feet never become bothersome. The medial arch is unstable in flexible flatfoot. The foot can bend as the heel lifts of the ground. This creates stress on the surrounding soft-tissues and joints creating tired, sore arches. The instability of the foot can create abnormal stress that flows up the leg which results in pain in the legs, knees, hips and lower back. Patients with flat feet often present to the chiropodist/podiatrist with problems that are indirectly caused by their foot structure. Surgical Treatment This is rare and usually only offered if patients have significant abnormalities in their bones or muscles. Treatments include joint fusion, reshaping the bones in the foot, and occasionally moving around tendons in the foot to help balance out the stresses (called tendon transfer). Prevention Flat feet or Fallen Arches cannot be prevented due to congenital of nature or from underlying disease process; however, painful symptoms and future pathology from Flat Feet or Fallen Arches may be prevented by the following. Continue to wear your orthotics for work and exercise to provide stability and maintain function of your feet. Footwear. Continue to wear supportive shoes to maximise the function of your orthotic and prevent excessive movement of the joints in your feet. Overview
Surgery to shorten the longer leg. This is less involved than lengthening the shorter leg. Shortening may be done in one of two ways. Closing the growth plate of the long leg 2-3 years before growth ends (around age 11-13), letting the short leg catch up. This procedure is called an epiphysiodesis. Taking some bone from the longer leg once growth is complete to even out leg lengths. Surgery to lengthen the shorter leg. This surgery is more involved than surgery to shorten a leg. During this surgery, cuts are made in the leg bone. An external metal frame and bar are attached to the leg bone. This frame and bar slowly pull on the leg bone, lengthening it. The frame and bar must be worn constantly for months to years. When the frame and bar are removed, a leg cast is required for several months. This surgery requires careful and continued follow-up with the surgeon to be sure that healing is going well. Causes Some causes of leg length discrepancy (other than anatomical). Dysfunction of the hip joint itself leading to compensatory alterations by the joint and muscles that impact on the joint. Muscle mass itself, i.e., the vastus lateralis muscle, pushes the iliotibial band laterally, causing femoral compensations to maintain a line of progression during the gait cycle. This is often misdiagnosed as I-T band syndrome and subsequently treated incorrectly. The internal rotators of the lower limb are being chronically short or in a state of contracture. According to Cunningham's Manual of Practical Anatomy these are muscles whose insertion is lateral to the long axis of the femur. The external rotators of the hip joint are evidenced in the hip rotation test. The iliosacral joint displays joint fixations on the superior or inferior transverse, or the sagittal axes. This may result from many causes including joint, muscle, osseous or compensatory considerations. Short hamstring muscles, i.e., the long head of the biceps femoris muscle. In the closed kinetic chain an inability of the fibula to drop inferior will result in sacrotuberous ligament loading failure. The sacroiliac joint dysfunctions along its right or left oblique axis. Failure or incorrect loading of the Back Force Transmission System (the longitudinal-muscle-tendon-fascia sling and the oblique dorsal muscle-fascia-tendon sling). See the proceedings of the first and second Interdisciplinary World Congress on Low Back Pain. Sacral dysfunction (nutation or counternutation) on the respiratory axis. When we consider the above mentioned, and other causes, it should be obvious that unless we look at all of the causes of leg length discrepancy/asymmetry then we will most assuredly reach a diagnosis based on historical dogma or ritual rather than applying the rules of current differential diagnosis. Symptoms Back pain along with pain in the foot, knee, leg and hip on one side of the body are the main complaints. There may also be limping or head bop down on the short side or uneven arm swinging. The knee bend, hip or shoulder may be down on one side, and there may be uneven wear to the soles of shoes (usually more on the longer side). Diagnosis The most accurate method to identify leg (limb) length inequality (discrepancy) is through radiography. It?s also the best way to differentiate an anatomical from a functional limb length inequality. Radiography, A single exposure of the standing subject, imaging the entire lower extremity. Limitations are an inherent inaccuracy in patients with hip or knee flexion contracture and the technique is subject to a magnification error. Computed Tomography (CT-scan), It has no greater accuracy compared to the standard radiography. The increased cost for CT-scan may not be justified, unless a contracture of the knee or hip has been identified or radiation exposure must be minimized. However, radiography has to be performed by a specialist, takes more time and is costly. It should only be used when accuracy is critical. Therefore two general clinical methods were developed for assessing LLI. Direct methods involve measuring limb length with a tape measure between 2 defined points, in stand. Two common points are the anterior iliac spine and the medial malleolus or the anterior inferior iliac spine and lateral malleolus. Be careful, however, because there is a great deal of criticism and debate surrounds the accuracy of tape measure methods. If you choose for this method, keep following topics and possible errors in mind. Always use the mean of at least 2 or 3 measures. If possible, compare measures between 2 or more clinicians. Iliac asymmetries may mask or accentuate a limb length inequality. Unilateral deviations in the long axis of the lower limb (eg. Genu varum,?) may mask or accentuate a limb length inequality. Asymmetrical position of the umbilicus. Joint contractures. Indirect methods. Palpation of bony landmarks, most commonly the iliac crests or anterior iliac spines, in stand. These methods consist in detecting if bony landmarks are at (horizontal) level or if limb length inequality is present. Palpation and visual estimation of the iliac crest (or SIAS) in combination with the use of blocks or book pages of known thickness under the shorter limb to adjust the level of the iliac crests (or SIAS) appears to be the best (most accurate and precise) clinical method to asses limb inequality. You should keep in mind that asymmetric pelvic rotations in planes other than the frontal plane may be associated with limb length inequality. A review of the literature suggest, therefore, that the greater trochanter major and as many pelvic landmarks should be palpated and compared (left trochanter with right trochanter) when the block correction method is used. Non Surgical Treatment Treatment depends on what limb has the deformity and the amount of deformity present. For example, there may be loss of function of the leg or arm. Cosmetic issues may also be a concern for the patient and their family. If there are problems with the arms, the goal is to improve the appearance and function of the arm. Treatment of leg problems try to correct the deformity that may cause arthritis as the child gets older. If the problem is leg length, where the legs are not "equal," the goal is equalization (making the legs the same length). Treatment may include the use of adaptive devices, prosthesis, orthotics or shoe lifts. If the problem is more severe and not treatable with these methods, then surgery may be necessary. how to increase height by yoga Surgical Treatment The bone is lengthened by surgically applying an external fixation device to the leg. The external fixator, a scaffold-like frame, is connected to the bone with wires, pins, or both. A small crack is made in the bone and the frame creates tension when the patient or family member turns its dial. This is done several times each day. The lengthening process begins approximately five to 10 days after surgery. The bone may lengthen 1 millimeter per day, or approximately 1 inch per month. Lengthening may be slower in a bone that was previously injured. It may also be slower if the leg was operated on before. Bones in patients with potential blood vessel abnormalities, such as cigarette smokers, may also need to be lengthened more slowly. The external fixator is worn until the bone is strong enough to support the patient safely. This usually takes about three months for each inch. Factors such as age, health, smoking and participation in rehabilitation can affect the amount of time needed. Overview
The function of the heel in walking is to absorb the shock of your foot striking the ground as it is put down and to start springing you forward on the next step. It contains a strong bone (the calcaneum). Under the bone are a large number of small pockets of fat in strong elastic linings, which absorb much of the shock (fat pads). The heel is attached to the front of the foot by a number of strong ligaments which run between the front part of the calcaneum and various other parts of the foot. The strongest ligament is the plantar fascia, which attaches the heel to the toes and helps to balance the various parts of the foot as you walk. It therefore takes a lot of stress as you walk. In some people the plantar fascia becomes painful and inflamed. This usually happens where it is attached to the heel bone, although sometimes it happens in the mid-part of the foot. This condition is called plantar fasciitis. Causes The most common cause of heel pain is a pull on the heel bone exerted by the muscles and ligaments (plantar fascia shown in illustration above) that support the arch of the foot. This is an overuse condition similar to bursitis of the shoulder or tennis elbow. Plantar fasciitis is typically very painful in the morning during the first few steps, after sitting and again at the end of the day. Symptoms Initially, this pain may only be present when first standing up after sleeping or sitting. As you walk around, the muscle and tendon loosen and the pain goes away. As this problem progresses, the pain can be present with all standing and walking. You may notice a knot or bump on the back of the heel. Swelling may develop. In some cases, pressure from the back of the shoe causes pain. Diagnosis Your GP or podiatrist (a healthcare professional who specialises in foot care) may be able to diagnose the cause of your heel pain by asking about your symptoms and examining your heel and foot. You will usually only need further tests if you have additional symptoms that suggest the cause of your heel pain is not inflammation, such as numbness or a tingling sensation in your foot - this could be a sign of nerve damage in your feet and legs (peripheral neuropathy), your foot feels hot and you have a high temperature (fever) of 38C (100.4F) or above - these could be signs of a bone infection, you have stiffness and swelling in your heel - this could be a sign of arthritis. Possible further tests may include, blood tests, X-rays - where small doses of radiation are used to detect problems with your bones and tissues, a magnetic resonance imaging (MRI) scan or ultrasound scan, which are more detailed scans. Non Surgical Treatment Curing posterior heel pain requires calming the inflammation, resting the foot and increasing calf flexibility. Ice therapy and anti-inflammatory medications can be used to reduce the inflammation. Stopping exercises that stress the calf and Achilles is important. This includes walking, running and the use of stair climbers and elliptical machines. Placing a heel lift in each shoe can reduce some of the excess strain on the back of the heel. Stretching exercises to increase calf flexibility are important in curing this problem and preventing its recurrence. Wearing running shoes also provides good foot support and helps with this condition. Sometimes a walking boot is used to immobilize the ankle and let the area completely rest. Physical therapy is sometimes ordered to help reduce the inflammation and pain and to help improve the flexibility of the calf muscles. Occasionally these measures fail to relieve the pain and surgery may be needed. The surgical procedure involves removing bone spurs and repairing any damage to the tendon. Surgical Treatment Although most patients with plantar fasciitis respond to non-surgical treatment, a small percentage of patients may require surgery. If, after several months of non-surgical treatment, you continue to have heel pain, surgery will be considered. Your foot and ankle surgeon will discuss the surgical options with you and determine which approach would be most beneficial for you. No matter what kind of treatment you undergo for plantar fasciitis, the underlying causes that led to this condition may remain. Therefore, you will need to continue with preventive measures. Wearing supportive shoes, stretching, and using custom orthotic devices are the mainstay of long-term treatment for plantar fasciitis. deelsonheels Prevention Maintaining flexible and strong muscles in your calves, ankles, and feet can help prevent some types of heel pain. Always stretch and warm-up before exercising. Wear comfortable, properly fitting shoes with good arch support and cushioning. Make sure there is enough room for your toes. Overview
Lengthening is usually done by corticotomy and gradual distraction. This technique can result in lengthenings of 25% or more, but typically lengthening of 15%, or about 6 cm, is recommended. The limits of lengthening depend on patient tolerance, bony consolidation, maintenance of range of motion, and stability of the joints above and below the lengthened limb. Numerous fixation devices are available, such as the ring fixator with fine wires, monolateral fixator with half pins, or a hybrid frame. The choice of fixation device depends on the desired goal. A monolateral device is easier to apply and better tolerated by the patient. The disadvantages of monolateral fixation devices include the limitation of the degree of angular correction that can concurrently be obtained; the cantilever effect on the pins, which may result in angular deformity, especially when lengthening the femur in large patients; and the difficulty in making adjustments without placing new pins. Monolateral fixators appear to have a similar success rate as circular fixators, especially with more modest lengthenings (20%). Causes A patient?s legs may be different lengths for a number of reasons, including a broken leg bone may heal in a shorter position, particularly if the injury was severe. In children, broken bones may grow faster for a few years after they heal, resulting in one longer leg. If the break was near the growth center, slower growth may ensue. Children, especially infants, who have a bone infection during a growth spurt may have a greater discrepancy. Inflammation of joints, such as juvenile arthritis during growth, may cause unequal leg length. Compensation for spinal or pelvic scoliosis. Bone diseases such as Ollier disease, neurofibromatosis, or multiple hereditary exostoses. Congenital differences. Symptoms Many people walk around with LLD?s of up to 2 cm. and not even know it. However, discrepancies above 2 cm. becomes more noticeable, and a slight limp is present. But even up to 3 cm. a small lift compensates very well, and many patients are quite happy with this arrangement. Beyond 3 cm. however, the limp is quite pronounced, and medical care is often sought at that point. Walking with a short leg gait is not only unsightly, but increases energy expenditure during ambulation. It could also put more stress on the long leg, and causes functional scoliosis. Where the discrepancy is more severe, walking becomes grotesque or virtually impossible. Diagnosis Leg length discrepancy may be diagnosed during infancy or later in childhood, depending on the cause. Conditions such as hemihypertrophy or hemiatrophy are often diagnosed following standard newborn or infant examinations by a pediatrician, or anatomical asymmetries may be noticed by a child's parents. For young children with hemihypertophy as the cause of their LLD, it is important that they receive an abdominal ultrasound of the kidneys to insure that Wilm's tumor, which can lead to hypertrophy in the leg on the same side, is not present. In older children, LLD is frequently first suspected due to the emergence of a progressive limp, warranting a referral to a pediatric orthopaedic surgeon. The standard workup for LLD is a thorough physical examination, including a series of measurements of the different portions of the lower extremities with the child in various positions, such as sitting and standing. The orthopaedic surgeon will observe the child while walking and performing other simple movements or tasks, such as stepping onto a block. In addition, a number of x-rays of the legs will be taken, so as to make a definitive diagnosis and to assist with identification of the possible etiology (cause) of LLD. Orthopaedic surgeons will compare x-rays of the two legs to the child's age, so as to assess his/her skeletal age and to obtain a baseline for the possibility of excessive growth rate as a cause. A growth chart, which compares leg length to skeletal age, is a simple but essential tool used over time to track the progress of the condition, both before and after treatment. Occasionally, a CT scan or MRI is required to further investigate suspected causes or to get more sophisticated radiological pictures of bone or soft tissue. Non Surgical Treatment Treatment of leg length inequality involves many different approaches, which vary among osteopaths, physiotherapist and chiropractor and whether the LLD is functional or structural. Thus is a combination of myofascial release (massage) & stretching of shortened muscles. Manipulation or mobilization of the spine, sacro-iliac joint (SIJ), hip, knee, foot. Orthotics, shoe lifts can be used to treat discrepancies from two to six cm (usually up to 1 cm can be inserted in the shoe. For larger leg length inequalities, the shoe must be built up. This needs to be done for every shoe worn, thus limiting the type of shoe that the patient can wear). Surgery (epiphysiodesis, epiphyseal stapling,bone resection). leg length discrepancy measurement Surgical Treatment Your child will be given general anesthetic. We cut the bone and insert metal pins above and below the cut. A metal frame is attached to the pins to support the leg. Over weeks and months, the metal device is adjusted to gradually pull the bone apart to create space between the ends of the bones. New bone forms to fill in the space, extending the length of the bone. Once the lengthening process is completed and the bones have healed, your child will require one more short operation to remove the lengthening device. We will see your child regularly to monitor the leg and adjust the metal lengthening device. We may also refer your child to a physical therapist to ensure that he or she stays mobile and has full range of motion in the leg. Typically, it takes a month of healing for every centimeter that the leg is lengthened. Overview
Morton's neuroma is the common name given to the nerve irritation that is found in the ball of the foot that may or may not be accompanied by an inter-metatarsal bursae (a bursa-neuromal complex). It is often associated with inflammation or degeneration and often occurs with constant pressure or irritation of the nerve from the surrounding bony structures or local bursas (fluid filled sacs). Morton's Neuroma can cause symptoms such as a sharp pain, burning even a lack of feeling in the ball of the foot and associated toes. Causes Unfortunately, the cause of Morton?s Neuroma remains unknown to researchers. It is likely that a variety of factors may play a role in the development of this condition, including the presence of chronic pain conditions like fibromyalgia. Factors that may contribute to the development of Morton?s Neuroma include Wearing improperly fitting shoes can cause pressure on your foot, leading to swelling around the toe nerves. High heels are of particular concern as they cause a large amount of weight to be shifted to the ball of the foot. Repetitive activities like jogging, walking, and aerobics can also place a lot of pressure on the feet. This could lead to Morton?s Neuroma. Having a previous foot or muscle injury may cause you to hold your foot in a poor position when walking, contributing to nerve inflammation. Some people are just born with poorly shaped feet. People with extremely low arches or "flat feet" may suffer from Morton?s Neuroma more than others. Symptoms The symptoms of Morton?s Neuroma tend to come and go over time. They are typically exacerbated by physical activity or by wearing certain shoes. Morton?s Neuroma symptoms include sharp pain in the ball of the foot, pain radiating to the tips of the toes, burning pain in the second, third, or fourth toes, numbness in the toes, sensation of a lump between the toes. Diagnosis To diagnose Morton's neuroma the podiatrist commonly palpates the area to elicit pain, squeezing the toes from the side. Next he or she may try to feel the neuroma by pressing a thumb into the third interspace. The podiatrist then tries to elicit Mulder's sign, by palpating the affected interspace with one hand and squeezing the entire foot at the same time with the other hand. In many cases of Morton's neuroma, this causes an audible click, known as Mulder's sign. An x-ray should be taken to ensure that there is not a fracture. X-rays also can be used to examine the joints and bone density, ruling out arthritis (particularly rheumatoid arthritis and osteoarthritis). Non Surgical Treatment Anti-inflammatory drugs may be recommended to dull the pain and lessen swelling. Neuropathic pain medications such as the antionvulsants and / or antidepressants may be tried as well. Many are able to recover from this issue at home by icing the area, resting the feet, and by avoiding wearing narrow or tight shoes. If these remedies do not work to alleviate symptoms, the doctor may give special devices to separate the toes and avoid the squeezing of the nerve. Steroid injections may reduce pain and swelling. Surgery may be required if these do not help. Surgical Treatment Patients are commonly offered surgery known as neurectomy, which involves removing the affected piece of nerve tissue. Postoperative scar tissue formation (known as stump neuroma) can occur in approximately 20%-30% of cases, causing a return of neuroma symptoms. Neurectomy can be performed using one of two general methods. Making the incision from the dorsal side (the top of the foot) is the more common method but requires cutting the deep transverse metatarsal ligament that connects the 3rd and 4th metatarsals in order to access the nerve beneath it. This results in exaggerated postoperative splaying of the 3rd and 4th digits (toes) due to the loss of the supporting ligamentous structure. This has aesthetic concerns for some patients and possible though unquantified long-term implications for foot structure and health. Alternatively, making the incision from the ventral side (the sole of the foot) allows more direct access to the affected nerve without cutting other structures. However, this approach requires a greater post-operative recovery time where the patient must avoid weight bearing on the affected foot because the ventral aspect of the foot is more highly enervated and impacted by pressure when standing. It also has an increased risk that scar tissue will form in a location that causes ongoing pain. There are not one but two different types of leg length discrepancies, congenital and acquired. Congenital indicates you are born with it. One leg is structurally shorter in comparison to the other. Through developmental phases of aging, the brain senses the stride pattern and identifies some variance. The entire body typically adapts by tilting one shoulder over to the "short" side. A difference of under a quarter inch isn't really abnormal, require Shoe Lifts to compensate and normally does not have a serious effect over a lifetime.
Leg length inequality goes largely undiscovered on a daily basis, yet this issue is simply fixed, and can eliminate quite a few cases of chronic back pain. Therapy for leg length inequality commonly involves Shoe Lifts. Many are very inexpensive, regularly being under twenty dollars, compared to a custom orthotic of $200 or more. Differences over a quarter inch can take their toll on the spine and should probably be compensated for with a heel lift. In some cases, the shortage can be so extreme that it requires a full lift to both the heel and sole of the shoe. Lumbar pain is easily the most prevalent health problem impacting men and women today. Over 80 million people are afflicted by back pain at some stage in their life. It's a problem which costs employers vast amounts of money yearly on account of time lost and productivity. Innovative and superior treatment solutions are continually sought after in the hope of reducing the economical influence this condition causes. Men and women from all corners of the world experience foot ache as a result of leg length discrepancy. In most of these cases Shoe Lifts are usually of immense help. The lifts are capable of relieving any pain and discomfort in the feet. Shoe Lifts are recommended by numerous expert orthopaedic practitioners". So that you can support the human body in a well balanced manner, the feet have got a vital role to play. Despite that, it is sometimes the most neglected area in the body. Some people have flat-feet meaning there may be unequal force placed on the feet. This will cause other areas of the body including knees, ankles and backs to be affected too. Shoe Lifts make sure that appropriate posture and balance are restored. There are actually two different types of leg length discrepancies, congenital and acquired. Congenital means you are born with it. One leg is structurally shorter in comparison to the other. As a result of developmental periods of aging, the human brain senses the step pattern and identifies some variation. The human body usually adapts by dipping one shoulder over to the "short" side. A difference of under a quarter inch isn't really irregular, doesn't need Shoe Lifts to compensate and mostly does not have a profound effect over a lifetime.
Leg length inequality goes mainly undiagnosed on a daily basis, yet this condition is easily solved, and can reduce a number of incidents of back discomfort. Treatment for leg length inequality usually consists of Shoe Lifts. Many are very inexpensive, generally being under twenty dollars, compared to a custom orthotic of $200 or even more. Differences over a quarter inch can take their toll on the spine and should probably be compensated for with a heel lift. In some cases, the shortage can be so extreme that it requires a full lift to both the heel and sole of the shoe. Upper back pain is easily the most prevalent health problem affecting people today. Around 80 million people experience back pain at some point in their life. It's a problem which costs employers vast amounts of money yearly on account of lost time and production. Fresh and superior treatment methods are constantly sought after in the hope of lowering economic influence this issue causes. People from all corners of the earth suffer the pain of foot ache due to leg length discrepancy. In a lot of these cases Shoe Lifts might be of very helpful. The lifts are capable of reducing any discomfort in the feet. Shoe Lifts are recommended by countless certified orthopaedic practitioners". So that you can support the body in a well balanced fashion, your feet have a very important function to play. Inspite of that, it can be the most overlooked region in the body. Many people have flat-feet which means there is unequal force exerted on the feet. This will cause other body parts like knees, ankles and backs to be impacted too. Shoe Lifts guarantee that suitable posture and balance are restored. Overview
A Hammer toe is a toe that is bent because of a muscle imbalance around the toe joints. The imbalance causes the toe to bend at one or more joints, pushing the middle of the toe upward in a claw-like position. If you notice such changes, it is important to seek proper treatment. Hammer toes never get better without some type of intervention and the sooner it is treated, the better the outcome. Causes A common cause of hammertoe and mallet toe is wearing improper footwear - shoes that are too tight in the toe box, or high-heel shoes. Wearing shoes of either type can push your toes forward, crowding one or more of them into a space that's not large enough to allow your toes to lie flat. Hammertoe and mallet toe deformities can also be inherited and may occur despite wearing appropriate footwear. The result is a toe that bends upward in the middle and then curls down in a hammer-like or claw-like shape. Your shoes can rub against the raised portion of the toe or toes, causing painful corns or calluses. The bottom of the affected toe can press down, creating the mallet-like appearance of mallet toe. At first, a hammertoe or mallet toe may maintain its flexibility and lie flat when you're not wearing crowded footwear. But eventually, the tendons of the toe may contract and tighten, causing your toe to become permanently stiff. Symptoms Hammer toes can cause problems with walking and lead to other foot problems, such as blisters, calluses, and sores. Pain is caused by constant friction over the top of the toe?s main joint. It may be difficult to fit into some shoe gear due to the extra space required for the deformed toe. In many cases there will be pain on the ball of the foot over the metatarsals along with callus formation. This is due to the toes not functioning properly, failing to properly touch the ground during the gait cycle. The ball of the foot then takes the brunt of the ground forces, which causes chronic pain. Diagnosis A hammertoe is usually diagnosed with a physical inspection of your toe. Imaging tests, such as X-rays, may be ordered if you have had a bone, muscle, or ligament injury in your toe. Non Surgical Treatment A number of approaches can be undertaken to the manage a hammer toe. It is important that any footwear advice is followed. The correct amount of space in the toe box will allow room for the toes to function hammertoes without excessive pressure. If a corn is present, this will need to be treated. If the toe is still flexible, it may be possible to use splints or tape to try and correct the toe. Without correct fitting footwear, this is often unsuccessful. Padding is often used to get pressure off the toe to help the symptoms. If conservative treatment is unsuccessful at helping the symptoms, surgery is often a good option. Surgical Treatment Probably the most frequent procedure performed is one called a Post or an Arthroplasty. In this case a small piece of bone is removed from the joint to straighten the toe. The toe is shortened somewhat, but there is still motion within the toe post-operatively. In other cases, an Arthrodesis is performed. This involves fusing the abnormally-contracted joint. The Taylor procedure fuses only the first joint in the toe, whereas the Lambrinudi procedure fuses both joints within the toe. Toes which have had these procedures are usually perfectly straight, but they take longer to heal and don't bend afterwards. A Hibbs procedure is a transfer of the toe's long extensor tendon to the top of the metatarsal bone. The idea of this procedure is to remove the deforming cause of the hammertoes (in this case, extensor substitution), but to preserve the tendon's function in dorsifexing the foot by reattaching it to the metatarsals. Fortunately, the Gotch (or Gotch and Kreuz) procedure--the removal of the base of the toe where it attaches to the foot, is done less frequently than in years past. The problem with this procedure is that it doesn't address the problem at the level of the deformity, and it causes the toe to become destabilized, often resulting in a toe that has contracted up and back onto the top of the foot. You can even have an Implant Arthroplasty procedure, where a small, false joint is inserted into place. There are several other procedures, as well.
Overview
The Achilles tendon attaches the calf muscles in the leg to the heel bone. It is the largest yet most exposed tendon in the body. An Achilles tendon rupture injury is when the tendon fibres tear, causing symptoms of pain and loss of function. A rupture can be either partial or complete and treatment may involve surgery. Achilles tendon rupture is most common in weekend athletes trying to train too hard and is least common in well-trained professional athletes. The injury is more common in men than in women and the frequency of rupture increases over the age of 30 years. Causes The most common cause of a ruptured Achilles' tendon is when too much stress is placed through the tendon, particularly when pushing off with the foot. This may happen when playing sports such as football, basketball or tennis where the foot is dorsiflexed or pushed into an upward position during a fall. If the Achilles' tendon is weak, it is prone to rupture. Various factors can cause weakness, including corticosteroid medication and injections, certain diseases caused by hormone imbalance and tendonitis. Old age can also increase the risk of Achilles' tendon rupture. Symptoms The most common symptom of Achilles tendonitis is a sudden surge of pain in the heel and back of the ankle at the point of injury which is often described as a snapping sensation in the heel. After the injury has occurred, patients then struggle or find it near impossible to bear any weight on the affected leg. Pain can often be most prominent first thing in the morning after the injury has been rested. Swelling and tenderness is also likely to appear in the area. Diagnosis The actual area of an Achilles tendon rupture cannot be seen on x-ray. Therefore, although x-rays are often done to rule out bony injuries in individuals with an Achilles tendon rupture these x-rays are usually normal. Diagnostic ultrasound of the tendon can be performed to assess the integrity of the tendon. Other diagnostic tests, such as MRI's, may also be required in difficult cases. Non Surgical Treatment Treatment of the initial injury is with use of ice, elevation, and immobilization. If suspected you should contact your podiatrist or physician. Further treatment with continued immobilization, pain medication, or anti-inflammatory medications may be advised. If casted the foot is usually placed in a plantarflexed position to decrease the stretch on the tendon. As healing progresses the cast is changed to a more dorsiflexed position at the ankle. The casting processes can be up to 8 weeks or more. Surgical Treatment The patient is positioned prone after administration of either general or regional anesthesia. A longitudinal incision is made on either the medial or lateral aspect of the tendon. If a lateral incision is chosen care must be taken to identify and protect the sural nerve. Length of the incision averages 3 to 10 cm. Once the paratenon is incised longitudinally, the tendon ends are easily identifies. These are then re-approximated with either a Bunnell or Kessler or Krackow type suture technique with nonabsorbable suture. Next, the epitenon is repaired with a cross stitch technique. The paratenon should be repaired if it will be useful to prevent adhesions. Finally, a meticulous skin closure will limit wound complications. An alternative method is to perform a percutaneous technique, with a small incision (ranging from 2-4 cm). A few salient points include: the incision should be extended as needed, no self-retaining retractors should be used, and meticulous paratenon and wound closure is essential. Postoperatively the patient is immobilized in an equinous splint (usually 10?-15?) for 2 weeks. Immobilization may be extended if there is any concern about wound healing. At the 2-week follow-up, full weight bearing is permitted using a solid removable boot. At 6 weeks, aggressive physical therapy is prescribed and the patient uses the boot only for outdoor activity. At 12 weeks postoperatively, no further orthosis is recommended. Prevention Prevention centers on appropriate daily Achilles stretching and pre-activity warm-up. Maintain a continuous level of activity in your sport or work up gradually to full participation if you have been out of the sport for a period of time. Good overall muscle conditioning helps maintain a healthy tendon. |
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