April 2022

The Achilles tendon is the largest tendon in the body; it is a tough band of fibrous tissue that stretches from the bones of the heel to the calf muscles. This tendon is what allows us to stand on our toes while running, walking, or jumping, it is common for this tendon to become injured. In severe cases, the Achilles tendon may become partially torn or completely ruptured. However, this tendon is susceptible to injury because of its limited blood supply and the high level of tension it endures.

The people who are more likely to suffer from Achilles tendon injuries are athletes who partake in activities that require them to speed up, slow down, or pivot. Consequently, athletes who engage in running, gymnastics, dance, football, baseball, basketball, or tennis are more likely to suffer from Achilles tendon injuries. Additionally, there are other factors that may make you more prone to this injury. People who wear high heels, have flat feet, tight leg muscles or tendons, or take medicines called glucocorticoids are more likely to have Achilles tendon injuries.

A common symptom of an Achilles tendon injury is pain above the heel that is felt when you stand on your toes. However, if the tendon is ruptured, the pain will be severe, and the area may become swollen and stiff. Other symptoms may be reduced strength in the lower ankle or leg area, and reduced range of motion in the ankle. When the Achilles tendon tears, there is usually a popping sound that occurs along with it. People who have acute tears or ruptures may find walking and standing to be difficult.

If you suspect you have injured your Achilles tendon, you should see your podiatrist to have a physical examination. Your podiatrist will likely conduct a series of tests to diagnose your injury including a “calf-squeeze” test. Calf squeeze tests are performed by first squeezing the calf muscle on the healthy leg. This will pull on the tendon and consequently cause the foot to move. Afterward, the same test will be performed on the injured leg. If the tendon is torn, the foot won’t move because the calf muscle won’t be connected to the foot.

Biomechanics and its related study deal with the forces that act against the body and affect things like our movement. In podiatry, biomechanics are studied to determine the movement of the ankle, toes, and the foot, as well as the forces that impact them. Podiatrists who train in this specialty are able to effectively diagnose and treat conditions that affect people’s everyday movement.

Regardless of your lifestyle, age, or any other factors, many people experience foot problems throughout their lives. Twists and turns, improper balance, and added weight are just a few of the things that can add stress to the feet. These issues can also limit our bodies’ mobility that we often take for granted. Pain in the feet and ankles can also trickle up towards the lower legs, knees, hip, and even back area. This affects the way you move around on a daily basis.

Biomechanics and its related study deal with forces that act against the body and affect things like our movement. In podiatry, biomechanics are studied to determine the movement of the ankle, toes, and the foot, as well as the forces that impact them. Podiatrists who train in this specialty are able to effectively diagnose and treat conditions that affect people’s everyday movement.

Regardless of your lifestyle, age, or any other factors, many people experience foot problems throughout their lives. Twists and turns, improper balance, and added weight are just a few of the things that can add stress to the feet. These issues can also limit our bodies’ mobility that we often take for granted. Pain in the feet and ankles can also trickle up towards the lower legs, knees, hip, and even back area. This affects the way you move around on a daily basis.

The history of studying biomechanics dates back to ancient Egypt at around 3000 B.C., where evidence of professional foot care has been recorded. Throughout the centuries, advances in technology, science, and an understanding of the human body led to more accurate diagnosis of conditions such as corns for example. In 1974, biomechanics garnered a large audience when Merton Root founded Root Lab to make custom orthotics. He proposed that corrections of certain conditions could be implemented to gain strength and coordination in the area. Due to his research, we still use his basic principle of foot orthotics to this day.

As technology has improved, so have the therapeutic processes that allow us to correct deficiencies in our natural biomechanics. Computers can now provide accurate readings of the forces, movements, and patterns of the foot and lower leg. Critical treatment options can be provided to patients now who suffer from problems that cause their biomechanics to not function naturally. The best results are now possible thanks to 3D modeling and computing technologies that can take readings and also map out what treatment will do to the affected areas.

These advanced corrective methods were able to come to light thanks to an increase in both the technologies surrounding biomechanics and also the knowledge of how they work naturally. For example, shoe orthotics are able to treat walking inabilities by realigning the posture deviations in patients caused by hip or back problems. Understanding foot biomechanics can help improve movement and eliminate pain, stopping further stress to the foot. Speak with your podiatrist if you have any of these problems.

A neuroma is a thickening of nerve tissue and can develop throughout the body.  In the foot, the most common neuroma is a Morton’s neuroma; this typically forms between the third and fourth toes.  The thickening of the nerve is typically caused by compression and irritation of the nerve; this thickening can in turn cause enlargement and, in some cases, nerve damage.

Neuromas can be caused by anything that causes compression or irritation of the nerve.  A common cause is wearing shoes with tapered toe boxes or high heels that force the toes into the toe boxes.  Physical activities that involve repeated pressure to the foot, such as running or basketball, can also create neuromas.  Those with foot deformities, such as bunions, hammertoes, or flatfeet, are more likely to develop the condition.

Symptoms of Morton’s neuroma include tingling, burning, numbness, pain, and the feeling that either something is inside the ball of the foot or that something in one’s shoe or sock is bunched up.  Symptoms typically begin gradually and can even go away temporarily by removing one’s shoes or massaging the foot.  An increase in the intensity of symptoms correlates with the increasing growth of the neuroma.

Treatment for Morton’s neuroma can vary between patients and the severity of the condition.  For mild to moderate cases, padding, icing, orthotics, activity modifications, shoe modifications, medications, and injection therapy may be suggested or prescribed.  Patients who have not responded successfully to less invasive treatments may require surgery to properly treat their condition.  The severity of your condition will determine the procedure performed and the length of recovery afterwards.

Our bones are important aspects of our body and they are constantly changing. The heavier the workload for a bone, the more likely it is that calcium will be placed in it. When a bone isn’t used often, there won’t be much calcium within it. When stress from repetitive loads prevent the bone from being able to repair itself, cracks will start to form. Stress fractures are defined as cracks in a bone that result from repetitive force, such as overuse.

The most common cause of stress fractures is a sudden increase in intensity and duration of physical activity. For example, if you begin to run long distances without working your way into doing so, you will be more likely to develop a stress fracture.

Common symptoms of stress fractures are pain and swelling near the weight bearing area on the injured bone. When initial x-rays are performed, it is possible that the fracture will not show up. However, once the stress on the area continues, the damage will increase, and the fracture will be severe enough to show up on an x-ray. Certain parts of the foot are more likely to develop stress fractures than others. Areas that typically have these fractures are: the metatarsals, the navicular bone, the calcaneus, tibia, and fibula.

Since women are at an increased risk of developing osteoporosis, they are twice as likely as men to sustain a stress fracture. Additionally, old age causes a decrease in bone mineral density which is why elderly people are also likely to develop these fractures.

It is important for you to be professionally diagnosed by a podiatrist if you suspect you have a stress fracture, because there are other injuries that can easily be mistaken for a fracture.  Sprains, strains, shin splints, plantar fasciitis, and Morton’s neuroma can all easily be mistaken for stress fractures in the foot. Your podiatrist will likely ask you a series of questions to determine what type of pain you are experiencing. These questions will help your doctor identify whether you have a stress fracture.

The best method of treatment for a stress fracture is rest. Additionally, a walking boot, cast, or crutches, will help rest the area that is injured. The typical healing time for stress fractures is 4-12 weeks, however this depends on which bone is involved.

The plantar fascia is a connective tissue in the heel that stretches across the bottom length of your foot. Plantar fasciitis occurs when the connective tissue becomes inflamed, causing heel pain and discomfort during physical activity. Although the condition is completely treatable, traditional methods can take up to a year to start becoming effective.

Plantar fasciitis is caused by a number of everyday activities, so understanding the condition is important for managing and treating it. One of the most common causes of plantar fasciitis is excessive running, especially with improper fitting or non-supportive shoes. Too much exercise can lead to the plantar fascia being overworked and overstretched, which can cause tears in the tissue. Along with improper fitting shoes, pronation, the rolling of the feet inward, is a common cause of plantar fasciitis. If not treated properly, the plantar fascia becomes overstretched and starts to tear, causing inflammation.

Despite the common causes of plantar fasciitis, there are many different treatment options. For less severe cases, conservative home remedies include taking anti-inflammatory drugs to alleviate pain, applying ice packs to the bottom of your foot and heel, slowly stretching and exercising your feet to re-strengthen the tissue, and using orthotic devices are all ways to help manage your plantar fasciitis.

For more severe cases, shockwave therapy has become a common solution for plantar fasciitis. Shockwave therapy can effectively break up the tissue on the bottom of your foot which facilitates healing and regeneration. This fights the chronic pain caused by plantar fasciitis. Even if this doesn’t work, surgery is always a final option. Surgery on the tissue itself can be done to permanently correct the issue and stop the inflammation and pain in your heels.

No matter what the case may be, consulting your podiatrist is the first and best step to recovery. Even the slightest amount of heel pain could be the first stage of plantar fasciitis. Untreated symptoms can lead to the tearing and overstretching of tissue. Because the tearing of tissue can be compounded if it remains ignored, it can evolve into a severe case. The solution is early detection and early treatment. Talk to your podiatrist about the possibilities of plantar fasciitis if you’re experiencing heel pain.