What are Shin Splints?

A person with shin pain

Shin splints, medically known as medial tibial stress syndrome, are a common ailment among athletes, especially runners. Understanding shin splints is crucial for preventing and effectively treating this painful condition. In this blog post, we will delve into the definition, causes, symptoms, treatment options, prevention strategies, and long-term management of shin splints.

Key Points

  • Shin splints refer to pain along the inner edge of the shinbone due to inflammation of the muscles, tendons, and bone tissue, commonly affecting athletes.

  • Overuse, improper footwear, and running on hard surfaces are common causes, with athletes and runners at higher risk.

  • Pain, tenderness, and swelling along the shinbone are typical symptoms, diagnosed through physical exams and sometimes imaging tests.

  • Rest, ice therapy, physical therapy, medications, acupuncture, and dry needling are effective treatments.

  • Proper warm-up, stretching, appropriate footwear, and gradual increase in exercise intensity can prevent shin splints.

  • Addressing underlying causes and maintaining lower leg health are crucial for long-term management and prevention of recurrence.

Definition of Shin Splints

Shin splints refer to pain along the edge of the shinbone (tibia) due to inflammation of the muscles, tendons, and bone tissue. The condition is also known as medial tibial stress syndrome. There are two main types of shin splints: anterior and medial. Anterior shin splints affect the front part of the shin, while medial shin splints affect the inner part of the shin. The muscles commonly involved include the tibialis anterior and tibialis posterior.

Understanding the different types of shin splints is essential for proper treatment. Anterior shin splints are typically caused by repetitive stress on the muscles at the front of the shin, while medial shin splints result from stress on the muscles along the inner edge of the shinbone. Both types can cause significant discomfort and hinder physical activity.

Shin splints are a common cause of shin pain and among the most prevalent overuse injuries seen in runners, impacting nearly 35% of the athletic population. Overuse injuries like Medial Tibial Stress Syndrome (MTSS) can affect up to 70% of runners annually. Sports such as running, soccer, football, and basketball exhibit a high incidence of shin splints.

Causes and Risk Factors

Shin splints are primarily caused by overuse of the muscles, tendons, and bone tissue in the lower legs. Common causes include:

  • Repetitive activities like running or jumping

  • Improper footwear that does not provide adequate support

  • Running on hard surfaces

Several risk factors can increase the likelihood of developing shin splints. These include:

  • Being an athlete, especially a runner

  • Having flat feet or abnormally rigid arches

  • Using improper running techniques

  • Inadequate warm-up or stretching routines

Symptoms and Diagnosis

The primary symptom of shin splints is pain along the inner edge of the shinbone, which can range from a dull ache to sharp, severe pain. Other symptoms include:

  • Tenderness along the shinbone

  • Swelling along the affected area

  • Redness (in some cases)

Diagnosing shin splints typically involves a physical examination where the doctor will look for tenderness and swelling along the shinbone. In some cases, imaging tests such as X-rays or MRI scans may be used to rule out other conditions like stress fractures or compartment syndrome. Early diagnosis is crucial for effective treatment and prevention of further injury.

Shin Splints Treatments

Treating shin splints primarily involves rest and allowing the affected area to heal. Effective treatment options include:

  • Rest and Ice Therapy: Resting the legs and applying ice can help reduce inflammation and pain.

  • Physical Therapy: Exercises aimed at strengthening the muscles around the shin, focusing on stretching and strengthening the calf muscles and Achilles tendon.

  • Medications: Nonsteroidal anti-inflammatory drugs (NSAIDs) can manage pain and reduce inflammation.

  • Acupuncture and Dry Needling: These therapies can relieve muscle tightness, reduce inflammation, and improve circulation.

Biomechanics of Shin Splints

Shin splints, or medial tibial stress syndrome (MTSS), are often the result of repetitive stress and strain on the muscles, tendons, and bone tissue around the tibia. Understanding the biomechanics behind shin splints can help in both prevention and treatment. Here, we explore how specific movements, parts of the gait, and landing patterns contribute to the development of shin splints.

Gait and Landing Patterns

Heel Strike and Toe-Off Phases: During running, the gait cycle includes distinct phases: heel strike, mid-stance, and toe-off. The heel strike phase, where the heel makes initial contact with the ground, subjects the tibia to significant impact forces. If the impact is not properly absorbed, it can lead to excessive stress on the tibialis anterior muscle and the tibial bone. As the foot transitions from heel strike to mid-stance and then to toe-off, the tibialis posterior muscle works to support the arch and stabilize the foot. Improper mechanics or weaknesses in these muscles can increase the risk of shin splints.

Overpronation and Supination: Overpronation, where the foot rolls inward excessively during the gait cycle, places additional strain on the tibialis posterior muscle and the inner part of the tibia. This inward rolling can cause a misalignment that forces the shin muscles to work harder to stabilize the leg. Conversely, excessive supination, or outward rolling, can also lead to an imbalance and increased stress on the outer shin area.

Landing Patterns: How an athlete lands after a jump or a sprint can significantly influence the development of shin splints. A heavy or uneven landing increases the load on the tibial region. Athletes who land on their heels may experience greater impact forces transmitted through the shin bones, whereas those who land on their forefoot might place more stress on the tibialis muscles.

Repetitive Movements and Overuse

Running Mechanics: Repetitive running on hard surfaces or with improper footwear can exacerbate the stress on the tibial region. Each step taken during running involves a force approximately three times the body weight impacting the lower legs. When these forces are repeated thousands of times, they can lead to microtrauma in the tibial bone and surrounding tissues.

Training Errors: Rapid increases in running intensity, duration, or frequency without adequate rest periods can contribute to overuse injuries like shin splints. Athletes who fail to incorporate rest days into their training schedules or who do not allow sufficient time for recovery are more likely to experience muscle fatigue and inflammation in the shin area.

Biomechanical Abnormalities: Structural abnormalities such as flat feet (pes planus) or high arches (pes cavus) can alter normal gait mechanics and increase the likelihood of developing shin splints. Flat feet often lead to overpronation, while high arches can cause underpronation, both of which disrupt the natural distribution of forces along the leg.

Understanding the biomechanics of shin splints highlights the importance of proper training techniques, appropriate footwear, and attention to individual anatomical differences. By addressing these factors, athletes can reduce their risk of shin splints and improve overall performance and comfort during physical activities.

Prevention Strategies

Shin splints prevention involves several strategies, including:

  • Proper Warm-up and Stretching Techniques: Before engaging in physical activity.

  • Choosing Appropriate Footwear: That provides adequate support and cushioning.

  • Gradually Increasing Exercise Intensity: To help the body adapt and reduce the risk of overuse injuries.

Incorporating strength training exercises to build muscle endurance and flexibility can also be beneficial. Regularly replacing worn-out shoes and avoiding running on hard surfaces can further help prevent shin splints. Listening to your body and avoiding overtraining are key components of a successful prevention strategy.

Long-term Management

Addressing the underlying causes of shin splints is essential for long-term management. This includes:

  • Maintaining proper form during physical activities

  • Using supportive footwear

  • Incorporating strength and flexibility exercises into your routine

  • Regular check-ups with a healthcare professional to monitor progress and make necessary adjustments to your treatment plan

Maintaining overall lower leg health is crucial for preventing recurrent shin splints. This involves a balanced diet, adequate hydration, and ensuring you get enough rest and recovery time between workouts. Seeking professional help when experiencing persistent pain or complications can prevent further injury and promote long-term recovery.

Conclusion

Shin splints are a common but manageable condition that affects many athletes and active individuals. By understanding the definition, causes, symptoms, and treatment options, you can take proactive steps to prevent and manage shin splints effectively. Incorporating proper warm-up techniques, choosing appropriate footwear, and seeking professional help when needed are essential components of a successful prevention and treatment plan.


Over to you

If you liked this article, please share with friends and family who may be suffering with shin splints or medial tibial stress syndrome.


Sources:

  • Travell, J. G., Simons, D. G. (1993). Myofascial pain and dysfunction: The trigger point manual. London: Lippincott Williams & Wilkins.

  • Biel, A., & Dorn, R. (2010). Trail guide to the body: A hands-on guide to locating muscles, bones and more. Boulder, CO: Books of Dicovery.

  • Bhusari N, Deshmukh M. Shin Splint: A Review. Cureus. 2023 Jan 18;15(1):e33905. doi: 10.7759/cureus.33905. PMID: 36819450; PMCID: PMC9937638.

  • Deshmukh NS, Phansopkar P. Medial Tibial Stress Syndrome: A Review Article. Cureus. 2022 Jul 7;14(7):e26641. doi: 10.7759/cureus.26641. PMID: 35949792; PMCID: PMC9356648.


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Theodore Levarda

Teddy is a licensed acupuncturist and certified myofascial trigger point therapist at Morningside Acupuncture in New York City.

Teddy specializes in combining traditional acupuncture with dry needling to treat pain, sports injuries, and stress.

https://www.morningsideacupuncturenyc.com/
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