Physical Therapy Exercises for Runner’s Knee

July 3, 2014 by Leave a Comment

Running is a popular form of exercise, but can be very hard on your body. Keith Strange offers some good exercises to help with “runner’s knee” in this article posted on Livestrong.com. For more questions give us a call at 619-756-7500!

Runner’s knee is an overuse injury that can result in pain when bending your knee.

Runner’s knee, or patellofemoral pain syndrome, is a condition that causes a dull or aching pain around or under your kneecap, according to the American Academy of Orthopaedic Surgeons. This condition can be aggravated by walking up or down stairs or when squatting down or bending your knee for an extended period of time. Treatment for this condition often includes exercises designed to help you build strength and flexibility in your thigh muscles.

Standing Hamstring Stretch
Stand in front of a chair or stool that is about knee height. Place the heel of your injured leg on the stool with your toes pointing toward the ceiling. Lean forward at your waist until you feel a stretch in the back of your thigh. Hold this stretch for up to 30 seconds and relax. Repeat. Be sure that you keep your shoulders positioned directly in line with your hips when performing this stretch.

Standing Quadriceps Stretch
Stand in front of a counter or wall for support. Place the hand of your uninjured side on the wall with your uninjured leg farthest away from the wall. Bend your injured knee and reach down with your other hand and grab your foot around your ankle. Use your hand to pull your ankle toward your buttocks until you feel a stretch along the front of your thigh. Hold this stretch for 15 to 30 seconds and relax. Repeat.

Quadriceps Sets
Sit down on the floor with both legs extended in front of you and your toes pointing toward the ceiling. If necessary, you can place a rolled-up towel under the back of your injured knee. Press the back of your knee into the towel by contracting the muscles along the front of your thigh. Hold this contraction for about five seconds and relax. Repeat. You can ensure that you’re performing this exercise correctly by placing your hands on the front of your thigh to feel your muscles contract.

Straight Leg Raise
Lie down on your back with your injured leg extended and your toes pointing toward the ceiling. Bend your other knee and place the sole of your foot on the floor. Keep your injured knee straight and lift your heel about eight inches off the floor. Hold this position for a few seconds and use a slow and controlled motion to lower your heel back to the floor. Repeat.

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Benefits of the Use of Ultrasound in Physical Therapy

June 26, 2014 by Leave a Comment

If you have ever thought of using ultrasound for physical therapy, take a look at this article by Erica Jacques for more information. Give us a call at 619-756-7500 if you have any additional questions!

Ultrasound can help to prepare a muscle for stretching.
Ultrasound, according to Alain-Yvan Belanger, is the most commonly used modality in physical therapy today. Its use dates all the way back to the 1880s. Ultrasound machines generate sound waves that are higher than the frequency we can hear. The effect of these sound waves on the body’s tissues produces a number of benefits.

Deeper Heat
According to Belanger, the way ultrasound generates heat is through the vibrations caused by the sound waves. When tissues vibrate, this increases friction all the way down to the molecular level, causing the temperature of the targeted tissues to rise. This is a benefit of ultrasound over a traditional hot pack, which cannot penetrate into deeper musculature or joint tissues. Ultrasound heads are available in a variety of frequencies that can target a variety of depths, which gives a skilled therapist the ability to send heat exactly where she wants it to go. Some conditions that may benefit from this deeper heat, according to Belanger, include osteoarthritis and phantom limb pain.

Deeper Stretch
The deep heat generated by ultrasound can help to relax a tense or strained muscle. According to Spine Universe, this can help to minimize muscle spasms and shortening often associated with tension or injury. Spine Universe reports that ultrasound therapy has the added benefit of increasing range of motion.

Tissue Healing
Ultrasound’s deep heat is thought to have a healing effect on deep tissues. According to Belanger, ultrasound actually affects the metabolism of soft tissue cells. In addition, these cells often become more receptive to healing fluids, which are present in the increased blood flow generated by ultrasound. Because of this, Belanger goes on to report that ultrasound’s healing benefits may be useful in treating surgical wounds and soft tissue lesions.

Scar Tissue Control
Another benefit of ultrasound is its acoustic effect. The waves generated by ultrasound cause tiny vibrations in the cells of the soft tissues. These microvibrations, as Belanger describes them, have an effect on the fibers that form scar tissue. Over time, ultrasound used in this method can actually prevent some scar tissue from forming, and may be able to break some scar tissue down. Examples of success in scar tissue management are episiotomy scars as well as Dupuytren’s contracture, which is caused by excessive scarring in the tissues of the palm. As with its thermal effects, ultrasound used to break up scar tissue can also maintain and increase range of motion.

Reduced Pain
Some of the pain control from ultrasound comes from the mechanical results of the treatment itself. These include the decreased muscle spasms and muscle tightness as well as tissue healing. However, an added benefit of ultrasound comes not from what it does, but what it can help a physical therapist do. Combining the heating and healing powers of ultrasound prepares muscles for other therapeutic treatments that reduce pain, including stretching and strengthening.

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The Effects of Pronation Distortion Syndrome and Solutions for Injury Prevention

January 23, 2014 by Leave a Comment

Issues starting at the foot and ankle can cause distress to other regions of the body. Read this article by Scott Lucett, MS, NASM-CPT, PES, CES who is a Senior Research Director for the National Academy of Sports Medicine for great insight on this topic! Then come see us at San Diego Sports Physical Therapy for great exercises. 619-756-7500

Dysfunction at the foot and ankle complex can lead to a variety of musculoskeletal issues in other regions of the kinetic chain that can eventually lead to injury. In this article, we’ll review the common postural distortion pattern, Pronation Distortion Syndrome, its effects on the kinetic chain, and corrective solutions to decrease injury risk.

Introduction

Pronation distortion syndrome is characterized by excessive foot pronation (flat feet) with concomitant knee internal rotation and adduction (“knock-kneed”). This lower extremity distortion pattern can lead to a chain reaction of muscle imbalances throughout the kinetic chain, leading to foot and ankle, knee, hip and low back pain.

It has been shown that excessive pronation of the foot during weight bearing causes altered alignment of the tibia, femur, and pelvic girdle (Figure 1) and can lead to internal rotation stresses at the lower extremity and pelvis, which may lead to increased strain on soft tissues (Achilles tendon, plantar fascia, patella tendon, IT-band) and compressive forces on the joints (subtalar joint, patellofemoral joint, tibiofemoral joint, iliofemoral joint, and sacroiliac joint), which can become symptomatic (1,2). The lumbo-pelvic-hip complex alignment has been shown by Khamis to be directly affected by bilateral hyperpronation of the feet. Hyperpronation of the feet induced anterior pelvic tilt of the lumbo-pelvic-hip complex (3). The addition of 2-3 degrees of foot pronation lead to a 20-30% increase in pelvic alignment while standing and 50-75% increase in anterior pelvic tilt during walking (3). Since anterior pelvic tilt has been correlated with increased lumbar curvature, the change in foot alignment might also influence lumbar spine position (4). Furthermore, an asymmetrical change in foot alignment (as might occur from a unilateral ankle sprain) may cause asymmetrical lower extremity, pelvic, and lumbar alignment, which might enhance symptoms or dysfunction. An understanding of this distortion pattern and its affects throughout the kinetic chain becomes particularly important for recreational runners and walkers as the accompanying stressors to the soft tissues and joints can lead to Achilles tendonitis, plantar fasciitis, IT-band syndrome, and low back pain.

Assessment

When assessing for pronation distortion syndrome, both static and dynamic assessments can be done. When performing either a static or dynamic assessment, have the individual take their shoes off and make sure you have the ability to see their knees as well. During a static assessment, from an anterior and posterior view, look to see if the arches of their feet are flattened and/or their feet are turned out. When performing a dynamic assessment, such as the overhead squat, look to see if the feet flatten and/or turn out and if the knees adduct and internally rotate (knee valgus). These compensations can also be assessed both from an anterior and posterior view. For many, it’s easier to see excessive foot pronation from a posterior view in comparison to an anterior assessment, so assessing in both positions can help in confirming your findings.

Corrective Exercise Strategies for Pronation Distortion Syndrome

Functionally tightened muscles that have been associated with pronation distortion syndrome include the peroneals, gastrocnemius, soleus, IT-band, hamstring, adductor complex, and tensor fascia latae (TFL). Functionally weakened or inhibited areas include the posterior tibialis, anterior tibialis, gluteus medius and gluteus maximus. Following NASM’s Corrective Exercise Continuum programming strategy can help address these muscle imbalances that may be contributing to the distortion pattern (5). First, inhibit the muscles that may be tight/overactive via self-myofascial release. Key regions that should be addressed would include the peroneals, gastrocnemius/soleus, IT-band/TFL, bicep femoris and adductor complex.

The next step is to lengthen the tight muscles via static stretching. Key muscles to stretch include the gastrocnemius/soleus, TFL, bicep femoris and adductor complex. Hold each stretch for a minimum of 30 seconds perform 1-2 sets of each stretch.

Once the overactive muscles have been addressed, activate the underactive muscles. Key areas to target with isolated strengthening are the anterior tibialis via resisted dorsiflexion, posterior tibialis via a single-leg calf raise, gluteus medius via wall slides and gluteus maximus via floor bridges. Perform 1-2 sets of 10-15 repetitions.

Finally, perform an integrated exercise to improve muscle synergy to enhance neuromuscular efficiency and overall movement quality. An example integration exercise would include a multiplanar single-leg balance reach while maintaining neutral foot and knee alignment. Perform 1-2 sets of 10-15 repetitions.

Summary

Pronation distortion syndrome is a common lower extremity postural distortion pattern that can lead to other movement dysfunction patterns throughout the kinetic and ultimately injury. By incorporating static and dynamic assessments of the foot and ankle complex can help to identify this distortion pattern. Once identified, following a systematic corrective exercise strategy can help to improve functionality and movement quality, leading to decreased risk of injury.

References

Powers, C.M. (2003). The influence of altered lower-extremity kinematics on patellofemoral joint dysfunction: a theoretical perspective. Journal of Orthopedic & Sports Physical Therapy, 33:639-46.
Powers, C.M., Chen, P.Y., Reischl, S.F., & Perry, J. (2002). Comparison of foot pronation and lower extremity rotation in persons with and without patellofemoral pain. Foot & Ankle International, 23:634-40.
Khamis, S., & Yizhar, Z. (2007). Effect of feet hyperpronation on pelvic alignment in a standing position. Gait Posture, 25:127-34.
Levine, D., & Whittle, M.W. (1996). The effects of pelvic movement on lumbar lordosis in the standing position. Journal of Orthopedic & Sports Physical Therapy, 24:130-5.
Clark, M. C., & Lucett, S. C. (2011). NASM Essentials of Corrective Exercise Training. Baltimore, MD: Lippincott, Williams and Wilkins.
– See more at: http://blog.nasm.org/fitness/the-effects-of-pronation-distortion-syndrome-and-solutions-for-injury-prevention/#sthash.l1qfwl4p.dpuf

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