There are 4.1 million runners in the United States which is a 30% increase since 2000.1 Nearly 80% of runners sustain at least one overuse running injury per imgresyear,2 and 70% to 80% of these injuries occur between the knees and the feet.3 The most common running injuries include patellar tendonitis, plantar fasciitis, iliotibial band syndrome, patella femoral pain syndrome, shin splints, Achilles tendon pain, hamstring strain, stress fractures, and ankle sprain. This month’s Runners Edge article will focus on Achilles tendon pain.

The Achilles tendon is one of the largest tendons in the body. It is formed by the gastrocnemius and soleus muscles and serves to attach these lower leg (calf) muscles to the heel (calcaneus) bone. Unique to the gastroc-soleus-Achilles complex is the fact that this muscular-tendon group crosses three joints (knee, talocrural ankle joint, subtalar ankle joint). The Achilles tendon, therefore, is responsible for powering push-off during running and absorbs torsional stress placed upon the associated lower extremity joints. Achilles tendon soreness is common in runners. A rapid increase in running mileage, a drastic change in shoe cushioning or shoe drop, or a significant increase in hill running can all lead to Achilles pain. Poor calf muscle length and mobility as well as poor proximal hip and core functional strength also results in increased Achilles tension during running.

Soreness in the Achilles must not be ignored due to its limited blood supply which can make healing and inflammation reduction challenging. Acute Achilles tendonitis symptoms include pain during the push-off phase of walking or running, tenderness

to palpation a few inches above the calcaneus. Acute symptoms may also include a “squeaky” sensation in the Achilles tendon as you move your foot up and down in to dorsiflexion and plantarflexion. This “squeaky” sensation represents inflammation in the Achilles tendon sheath and warrants immediate rest, ice, and medical treatment to reduce inflammation. Chronic Achilles inflammation and soreness results in the formation of a thickened “knot-like” structure within the

Achilles and is referred to as Achilles tendinosis or Achilles tendinopathy. The thickened tendon represents scar tissue formation which will not resolve with rest alone.

Treatment of Achilles tendonitis in its early stages should include complete rest from running. It is vital to reduce inflammation by modifying activity level. Anti-inflammatory medication may be prescribed, and ice/elevation will aid in pain reduction. Because the blood supply in the Achilles is limited, healing may take some time. A physical therapist will help determine the underlying cause of your Achilles symptoms as proximal weakness or a muscle imbalance which lead to poor running mechanics. If acute Achilles tendonitis is not treated in a timely manner or if symptoms are ignored, then Achilles tendinosis may develop. The associated tendinosis “lump” of scar tissue decreases the elasticity of the Achilles and may lead to bone irritation at the Achilles attachment (calcaneus). Addressing the scar tissue with properly applied physical therapy cross friction massage, instrument assisted soft tissue mobilization (IASTM), and anti-inflammatory modalities such as Iontophoresis are beneficial. If symptoms do not resolve in a timely manner, orthopedic options such as platelet rich plasma (PRP) injections should be considered. Once pain is gone, running mileage and uphill running should be resumed very gradually. Strengthening the Achilles tendon and calf musculature in an eccentric (lengthened) manner will reduce injury recurrence.

Do not ignore Achilles pain. See treatment immediately to expedite your return to running. Because of the unique dynamic musculoskeletal forces and complex synthesis of movement involved in running, treatment of running injuries must not focus solely on static, passive interventions. Physical therapy is a vital component in returning to full running ability following an Achilles tendon injury. Rest and pain relief alone will not insure a full return to running. A physical therapist with experience treating running specific injuries and a firsthand understanding of the mechanics of running will insure a successful return to running. Learn more about our comprehensive running and physical therapy services at

John Fiore, PT

Sapphire Physical Therapy

1 Wilk B, Muniz A, Nau S. An Evidence-based Approach to Orthopaedic Physical Therapy: Management of Functional Running Injuries. Orthopaedic Physical Therapy Practice. 2010; 22:213-216. 2 Van Gent RN, Siem D, van Middelkoop K, et al. Incidence and determinants of lower extremity running injuries in long distance runners: a systematic review. J Sports Med. 2007; 41:469-480. 3 Ballas M, Tyrko J, Cookson D. Common overuse running injuries: Diagnosis and management. Am Fam Physician. 1997: 55(7):2473-2484.

Spring in only a few weeks away and the roads and trails are drawing runners out of winter hibernation and winter sports. Whether you are new to running, or have already signed yourself up for a dozen races, spring represents a season of new beginnings. Spring is a great time to assess your running form to maximize your running efficiency while minimizing your injury risk. As running mileage increases, it is important to maintain proper running form. Fatigue associated with less than ideal running efficiency increased overuse injury risk. While overall body fatigue is often obvious, individualmuscle fatigue (resulting in running gait asymmetries) is often undetectable until an injury occurs.

A comprehensive running form analysis should be conducted by a physical therapist experienced in running biomechanics and running injury treatment and prevention. There are a few simple steps, however, which every runner can implement to improve running efficiency in preparation for spring mileage increases.

1. Run Silently

Whether you are a forefoot, mid-foot, or heel striker, it is important to remain light on your feet as your mileage increases. Listen to your foot strike. A silent runner is an efficient runner.Landing quietly on your feet is possible only if your feet, lower legs, quads, hamstrings, hips, gluts, core, and upper body are strong. The less time you spend on each foot, the shorter the impact duration of each foot strike. Shortening each foot strike duration results in a lower impact force through the body over the distance of your run and a higher running efficiency. Work on running quietly on your shorter runs and gradually implement silent running into your long runs.

2. Shorten Your Stride

The longer your stride, the greater the leverage through your hips, knees, and back. Shorten your stride slightly and focus on increasing your turn-over or cadence. Relax your arms, maintain a neutral pelvis (hips beneath you) and drive your knees forward. Running silently is more readily achieved with a shortened stride.

3. Correct Your Posture

Most of us spend a great deal of time sitting each day. Prolonged sitting results in hip flexor tightness, hamstring tightness, abdominal weakness, gluteal weakness, forward shoulder posture, forward head posture, and protracted shoulder posture. Body adaptations secondary to sitting must be addressed to improve running posture. Whenever possible, get up from the sitting position and move your body/joints into positions opposite those found while sitting. Straighten your spine, extend your hips, find and strengthen your gluteal muscles, find your neutral pelvis position, lengthen your hamstrings, stretch your rounded shoulders, and hold your head up.

The experts at Sapphire Physical Therapy can evaluate your running gait, posture, detect underlying form or strength issues, and develop an individualized injury prevention and treatment program to meet your individual needs. Call Sapphire Physical Therapy or see learn more at and let us help you successfully achieve your 2015 running goals.
John Fiore, PT
Sapphire Physical Therapy

As runners, our feet take a beating. Foot pain can greatly impact a runner’s ability to train and race to your potential. Running places 2.5 to 5.0 times the weight of the body through each foot strike. Foot pain, however, does not have to be synonymous with distance running. This month I will explain foot anatomy, preventing toe nail loss, ingrown toe nail prevention, and stress fractures. In next month’s article, I will discuss plantar fasciitis.

FOOT ANATOMY:       imgres.142302
Understanding the foot and how to avoid a few common foot injuries will enable runners to achieve training and racing goals. The human foot contains 26 bones (28 if you count the two floating sesmoid bones on each foot). The bones of the foot form three distinct structural and functional units. The rear foot is made up of the large calcaneus and talus. The rear foot is designed for weight bearing and articulates with the lower leg bones (tibia, fibula). The mid foot is made up of the navicular, talus, and cuneiform bones. The mid foot has a dual role. It absorbs shock during weight bearing and forms the stability we rely on (the arch) when pushing off to initiate the next step. The fore foot is made up of the five metatarsal bones and 14 bones in our toes (phalanges).

Observation of the bone structure of the foot explains why our feet are so uniquely shaped. Foot function is responsible for the unique shape of each bone within the foot. The wedge-shaped mid foot bones allow shock absorption during pronation (weight bearing acceptance), but with muscle contraction the flexible wedge becomes a rigid supporting structure which drives body propulsion. In contrast, the stout calcaneus and talus bones are weight bearing structures. Even though mid foot and fore foot running has been shown to be more efficient and decrease running injuries, humans heel strike when we walk. Finally, the fore foot is the region of the foot which allows us to “feel” the trail or road when we run. Balance, agility, and proprioception are duties of the fore foot.

The skeletal anatomy of the foot must be combined with the stability and mobility provided by our connective tissue (ligaments, tendons, fascia) and muscular tissue (Intrinsic: within the foot; Extrinsic: lower leg muscles). The ability to react to uneven surfaces in a fraction of a second and rhythmically run without active concentration is made possible by the neuromuscular function of the foot. Continuous, two-way nerve messages to and from the foot to the spinal cord and brain result in split-second shock absorption, foot work finesse, and propulsion power.

Trail runners are particularly susceptible to toe nail impact injuries. Striking rocks with the front of your shoe is often unavoidable and sure to traumatize toe nails. Working on foot placement and agility over rocky surfaces may reduce the frequency of toe nail trauma due to striking rocks head on. Downhill running (especially fast downhill running) can lead to toe nail trauma as the foot shifts forward in your shoe. The nail root, located at the base of the toe nail, becomes inflamed during to impact. If impact is sufficient, the nail may actually avulse from the nail bed, leading to eventual nail loss. Do not attempt to remove a traumatized toe nail as it will shed itself once a new nail is sufficiently established beneath the old nail. Understanding the foot and how to avoid a few common foot injuries will enable runners to achieve training and racing goals.

Trimming your toe nails (discussed below under Ingrown Toe Nails) properly will also decrease trauma to the nail matrix and nail root. A shoe with a wide toe-box may reduce the risk of toe impact against the front of the shoe, but proper lacing must be utilized as well. Be sure our mid-foot is secure by proper lacing while allowing your toe the room it needs to spread and absorb impact. The Runners Edge staff can help match your running style and foot shape to a shoe which will minimize trauma to your toe nails.

A less common but equally painful running-related to issue are ingrown toe nails. The most common cause of ingrown toe nails is improper trimming of toe nails. Often runners believe toe

nails must be as short as possible to decrease toe nail trauma and loss. Proper trimming, however, is more important than toe nail length. Remember, your toe nails are designed to protect your toe, so cutting them super short exposes the ends of your toes to impact, trauma, and blisters. Proper toe nail trimming involves a flattened toe nail end. Rounding off the toe nail when trimming the nail actually increases lateral toe nail growth and can lead to the formation of ingrown toe nails. Not only can they be painful, but severely ingrown toe nails may become infected and require medical attention.

Excessive impact can break down the structural integrity of the foot (joints, connective tissue, and muscular support).

The greatest enemy of the foot, however, is torsion. Bones, joints, and connective tissue function properly when movement is through designated planes. Torsion through a joint or bone, however, greatly increases its chance of fatigue and failure. Stress fractures are often the result of excessive torsion through a bone secondary to inadequate stability (muscle weakness or lack of connective tissue tensile strength).

To prevent structural failure and subsequent injury in the foot, runners must regularly address foot and ankle strength, proper joint mobility, and allow for tissue recovery. The experts at Sapphire Physical Therapy can evaluate your running gait, detect any form or strength issues, and develop a foot injury prevention and treatment program to meet your individual needs. Call Sapphire Physical Therapy or see learn more at and don’t let your feet keep you from meeting your running goals.

John Fiore, PT
Sapphire PT