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HOW TO PREVENT ACL INJURIES AND KEEP YOUR CLIENTS ON THE COURT THROUGH CORRECTIVE EXERCISE PROGRAMMING

Knee ACL iStock_000012214665_XXXLarge resized

(Republished with permission www.WebExercises.com)

Anterior cruciate ligament (ACL) injuries are one of the most common among young female athletes occurring at a conservative estimate of 38,000 incidences per year. (1) With the cost of a surgical repair ranging between $17,000-$25,000 (2), the economic impact is significant, not to mention the long term sequela to the athlete which includes a significantly greater risk of osteoarthritis in the future. (3) Approximately 80% of these injuries are non-contact, suggesting many of them can be prevented. (4)

The ACL is a ligament running from the posterior femur anteriorly to the tibia. It originates from deep within the notch of the distal femur and its proximal fibers fan out along the medial wall of the lateral femoral condyle. The ACL attaches in front of the intercondyloid eminence of the tibia and is blended with the anterior horn of the medial meniscus. It provides approximately 85% of the restraining forces preventing anterior tibial translation. It also limits excessive internal or external rotation of the tibia. (5)

Knee Normal ACL

Pubertal females are four to six time more likely to sustain an ACL injury compared to males, thereby representing the largest demographic of athletes at potential risk. (6) This is due to a variety of reasons including the rapid growth of the femur and tibia that generate larger joint forces making neuromuscular control of the lower extremities and trunk much harder. A lack of core stability has also been shown to influence knee injuries in female athletes as reported by Zazulak and colleagues. They demonstrated this decrease in core neuromuscular control increases uncontrolled trunk displacement leading to higher knee ligament strain and ACL injury. (7)

Knee ACL Tear

In order to identify at risk athletes, implementing a screening method such as the Landing Error Scoring System (LESS) test or Tuck Jump test is essential when working with all athletes in this age range. The LESS involves having the athlete stand on a 12-inch box and then jumping forward with both feet to a predetermined line followed by an immediate jump for maximal height.

The Tuck Jump test requires the athlete to perform repeated jumps flexing the knees toward the trunk for a duration of 10 seconds. Both tests have been validated in the literature to identify neuromuscular imbalances. (9) (10) (For more information on each test please refer to NASM Essentials of Corrective Exercise Training for a detailed review. (8))

One of the most common muscular imbalances identified in females over males is increased knee valgus and coronal plane rotation that has been shown to be a predictor of injury. This common finding has been associated with increased quadriceps firing and decreased gluteal activation in females, causing anterior shear stress on the tibia, which is then transferred to the ACL. (11)

Knees cave in

In order to establish proper gluteus maximus activation, a hip bridge with a resistance band above the knees is recommended. Choi and colleagues found that gluteus maximus EMG activity was significantly greater while anterior pelvic tilt angle was significantly lower in the hip bridge with isometric hip abduction compared to the hip bridge without the band. Therefore, they concluded that performing hip bridges with isometric hip abduction against isometric elastic resistance can be used to increase gluteus maximus EMG activity and reduce anterior pelvic tilt during the exercise. (16)

Exercise 1a

Hip Bridge with Resistance Band – Begin by lying on the floor with knees bent and feet flat on the floor. Place a resistance band around the thighs just above the knees. Slightly abduct the legs while simultaneously performing a hip bridge. Slowly lower to start position without bringing knees together. Perform 3 sets of 10 repetitions.

Valgus collapse of the knee can also be associated with weakness of the hip external rotators and gluteus maximus. Paterno and colleagues identified this finding as an eight times greater risk of sustaining a second ACL injury. (12) Performing the clam shell exercise will mitigate hip rotator weakness, helping to minimize this potential risk.

Exercise 2a Exercise 2b

Clam Shell with Resistance Band – Begin by lying on the side with knees together and bent to 90 degrees with resistance band around knees. Lift top knee upward while keeping feet touching. Continue lifting knee to the point just before pelvis begins to move. Perform 3 sets of 10 repetitions.

The hamstrings are also synergistic to the knee helping to stabilize the tibia against the anterior forces created by the quadriceps. A stability ball leg curl is a great open kinetic chain exercise and has been showed to elicit high EMG activity of the hamstring muscles while co-contracting the core musculature. (13)

Exercise 3a Exercise 3b

Stability Ball Leg Curl – Begin lying face up with arms extended at sides and ankles on top of the stability ball. Activate core and form a bridge position. Then flex knees, bending legs as you draw the ball inward. Reverse the movement, extending knees, and return to start position. Perform 3 sets of 10 repetitions.

In order to establish lateral stability, the side step “monster walk” with knees bent is a functional and effective exercise. Increased hip abduction strength has been shown to improve the ability of female athletes to control lower extremity alignment. (14) When performing this exercise, the stepping motion should be performed in a squat position rather than an upright straight leg position in order to generate greater gluteus maximus and medius muscle activity. (15)

Exercise 4a Exercise 4b

1/4 Squat with Lateral Steps Using Resistance Band – Begin standing with a resistance band around the thighs just above the knees. Keep your feet and knees apart enough to put resistance on the band. Perform a ¼ squat with both feet supporting body weight. Hold squat position, shift weight fully onto one leg. Take a lateral step with the other un-weighted leg. Repeat, taking several lateral steps in one direction and then doing the same in the other direction.

Another potential risk of injury occurs when landing with a knee flexion angle of less than 45 degrees. Therefore, performing long jumps can be used to train proper landing patterns. This exercise is similar to the Tuck Jump test with the addition of forward motion and is also a great way to introduce plyometric exercises. If the athlete is unable to “stick” the landing with toes straight ahead and no inward knee motion, then regress them to submaximal jumps of a shorter distance until perfect technique can be attainted. (6)

Exercise 5a Exercise 5b

Long Jump to Backward Hop – Begin in quarter squat position. Jump forward in an explosive long jump trying to “stick” the landing for 3-5 seconds. Make sure the knees are flexed to approximately 90 degrees on landing. Hop backwards two or three times returning to the start position. Perform 3 sets of 10 repetitions.

One of the most significant findings, which has been shown to reduce the incidence of ACL injuries in a number of studies, is the incorporation of high-intensity plyometric exercises as part of the training program. The split jump offers these plyometric benefits.

Exercise 6a Exercise 6b

Split Jumps – Begin in a split stance lunge position with arms raised at shoulder level. Jump upward and quickly reposition legs and land with feet in opposite positions. Raise arms while you are jumping. Continue jumps by alternating leg positions. Perform 3 sets of 10 repetitions.

If an athlete fatigues to the point that she can no longer perform the exercise perfectly, then she should be instructed to stop. The duration of each completed exercise should be noted with the goal of the next training session to continue to improve technique and to increase volume or intensity.

In addition to the NASM corrective exercise continuum of inhibit, lengthen, activate and integrate, three additional components should also be considered as part of a comprehensive training protocol. These are biomechanically correct movement patterns as noted above; neuromuscular patterning based on the identification of underlying neuromuscular imbalances as found in the assessment test; and constant biomechanical assessment through the LESS, Tuck Jump or similar test with feedback and verbal cueing to athlete both during and after training. (10)

An incorporation of a core stabilization program is not only integral but also essential in order to provide dynamic stability for the lower extremities. A weak core results in energy leakage as described by McGill requiring the weaker joints to make up for this difference. An example of this is when jumping or changing running direction, the lower extremity musculature must compensate for the lack of core stability, negatively effecting performance. (17)

All of the above displayed exercises are easy to execute and include minimal risks if performed as described. To achieve satisfying results, it is important do them on a regular basis and for a minimum of 4 weeks. The general guideline for progressing student athletes is the “10% rule”, where total training (intensity, frequency, duration, or any combination) is not increased more than 10% per week. Although there are many approaches to knee strengthening, hopefully this has provided insight into some basic strengthening strategies. Should your client’s condition worsen at any time, an evaluation with a medical professional would be warranted.

To download a copy of the above exercises, click here.

References

1) Toth AP, Cordasco FA. Anterior cruciate ligament injuries in the female athlete. J Gend Specif Med. 2001; 4:25–34.

2) de Loes, M, et al. A 7-year study on risks and costs of knee injuries in male and female youth participants in 12 sports. Scand J Med Sci Sports. 2000;10(2):90-97.

3) Ruiz AL, Kelly M, Nutton RW. Arthroscopic ACL reconstruction: a 5-9 year follow up. Knee. 2002;9(3):197-200.

4) Sadoghi, P, et al. 2012. Effectiveness of Anterior Cruciate Ligament Injury Prevention Training Programs. J Bone Joint Surg Am. 2012; 94:1-8.

5) Lowe, R. Anterior Cruciate Ligament (ACL). Retrieved from: http://www.physio-pedia.com/Anterior_Cruciate_Ligament_(ACL)

6) Myer, G. 2004. Rationale and Clinical Techniques for Anterior Cruciate Ligament Injury Prevention Among Female Athletes. Journal of Athletic Training 2004;39(4):352–364.

7) Zazulak BT, Hewett TE, Reeves NP, et al. The effects of core proprioception on knee injury: a prospective biomechanical–epidemiological study. Am J Sports Med 2007;35(3):368–73.

8) Clark, MA, Lucett, SC. (2014). NASM Essentials of Corrective Exercise Training. Burlington, MA. Jones & Bartlett Learning.

9) Padua, D. et al. 2011. Journal of Sport Rehabilitation. 20, 145-156.

10) Myer, et al. 2008. Tuck Jump Assessment for Reducing Anterior Cruciate Ligament Injury Risk. Athl Ther Today. 2008 September 1; 13(5): 39–44.

11) Zazulak, B, et al. Gender Comparison of Hip Muscle Activity During Single-Leg Landing. Journal of Orthopaedic & Sports Physical Therapy.

12) Paterno, M, et al. Biomechanical Measures During Landing and Postural Stability Predict Second Anterior Cruciate Ligament Injury After Anterior Cruciate Ligament Reconstruction and Return to Sport. Am J Sports Med October 2010 vol. 38 no. 10 1968-1978.

13) Panagiotis, T., et al. 2015.  Muscle and intensity based hamstring exercise classification in elite female track and field athletes: implications for exercise selection during rehabilitation. Open Access Journal of Sports Medicine. 6:209-217.

14) Myer , G, et al. 2008. Trunk and Hip Control Neuromuscular Training for the Prevention of Knee Joint Injury. Clin Sports Med 27:425–448.

15) Berry, et al. 2015. Resisted side-stepping: the effect of posture on hip abductor muscle activation. Journal of Orthopaedic & Sports Physical Therapy.

(16) Choi, C, et al. 2014. Isometric hip abduction using a Thera-band alters gluteus maximus muscle activity and the anterior pelvic tilt angle during bridging exercise. Journal of Electromyography and Kinesiology.

(17) McGill, S. Core Training: Evidence Translating to Better Performance and Injury Prevention. Strength and Conditioning Journal. Vol 32(3):33-46.

(18) Myer, G. 2006. The effects of plyometric vs dynamic stabilization and balance training on power, balance, and landing force in female athletes. Journal of Strength and Conditioning Research. 20(2), 345-353.

THE AUTHOR

DAVID CRUZ, DC, CSCS, FMS, SFMA

Dr. David Cruz practiced as a sports chiropractor for 18 years treating athletic injuries, from weekend warriors to professional athletes. He received his bachelor’s of science degree in athletic training and has completed graduate course work in kinesiology. He is a Certified Strength and Conditioning Specialist (CSCS) as well as having both FMS and SFMA certifications. The combination of his background in sports medicine and interest in technology made him passionate about bringing these two worlds closer together, resulting in the foundation of his company WebExercises in 2005.
WebExercises is an end-to-end solution for exercise rehabilitation professionals and is currently integrated with several EHR companies. In addition to WebExercises.com, Dr. Cruz is co-founder and partner of two other software businesses within the health care and technology industry.

5 Exercises to Combat the Negative Effects of Bad Posture

We all know that our clients are doing good things for their bodies while we are with them, but probably not during the other hours of the week. Especially the prolonged time they potentially spend sitting, now considered detrimental to overall health. We see the effects of this everyday in the form of poor posture, and we continue to overlook it as something benign that naturally occurs over time without consequences. According to the American Journal of Pain Management “Posture effects and moderates every physiological function from breathing to hormonal production. Spinal pain, headache, mood, blood pressure, pulse, and lung capacity are among the functions most easily influenced by posture.” ¹ There is also evidence that poor thoracic posture shows “a trend towards greater mortality” as discussed in a study by the Journal of the American Geriatrics Society. ²

Another fairly new risk factor that is starting to become more common is excessive usage of mobile phones, tablets and PCs. Over the past seven years mobile device usage has grown from .3 hours a day to 2.8 hours a day for the average adult. Comparatively, our computer use has remained about the same over the same time period at 2.4 hours per day. ³ A recent article by Kenneth Hansraj, MD, the chief of Spine Surgery at New York Spine Surgery and Rehabilitation, describes that as the head tilts forward its weight effectively goes from 10 to 12 pounds in the neutral position to as much as 60 pounds at 60 degrees of flexion, which is the typical position that we have while using a mobile device. ⁴

Over time this forward head position leads to ligamentous creep deformation having lasting neurophysiological effects. This was demonstrated with a feline study that found the creep deformation that occurred over the first 30 minutes did not recover with 10 minutes of rest and was present up to seven hours later. ⁵ The other finding of this research was even more alarming: the primary risk factor was not the load but rather the duration of the load. The implication of this is concerning given we spend an average of 2.8 hours a day using our mobile device.

In addition to the ligamentous deformation, muscle adaptations occur resulting in the Upper Cross Syndrome (UCS) as described by Janda. The UCS is characterized by tightness of the upper trapezius, levator scapula and pectoral muscles along with weakness of the deep cervical flexors and middle to lower trapezius muscles.

As these postural changes occur with the neck and upper body, our lower body becomes susceptible to adaptions as well. These include weakened back muscles as evident in a study by Sanches-Zuriaga that found a decrease in low back muscle activation after soft tissue creep, suggesting that prolonged or repeated flexion could increase the risk of injury. ⁶ These findings support the fact that prolonged sitting should be interrupted with breaks in order to decrease this risk along with exercise intervention.

For the purpose of this article the focus will be on the Active Subsystem (spinal muscles) as described by Panjabi in his spinal stability system model. The following five exercises can be used for most clients, requiring minimal time and no equipment. These exercises will not only help with preventing the above-described deformation and adaptation risks, but also encourage clients to stand up regularly and perform mini-exercise breaks throughout the day.

We will start with the forward head posture as described by Harman and colleagues who found that this position is associated with weakness of the deep cervical flexor and mid thoracic scapular retraction muscles. ⁷ Additionally, shortening of the opposing cervical extensors and pectoral muscles was also noted. A combination of strengthening exercises for the deep cervical flexors and scapular retraction muscles coupled with stretching of the cervical extensor and pectoral muscles was performed for 10 weeks. The findings of the study demonstrated that a short, home-based targeted exercise program can improve the postural alignment related to forward head posture.

Based on the above findings, the following three upper body exercises are suggested as they are ‘low-barrier’ homework for clients that they can perform daily without any equipment.

Head Retraction

Begin seated, or standing, looking forward with shoulders back, neutral posture. Activate core muscles. Attempt to draw head directly backwards. Maintain level head position. Do not tilt head up or down. Hold for two seconds. Return to start position. Beginners should start with 3 sets of 10 repetitions.

Shoulder Retraction
Begin standing with good posture. Shoulders should be back and head up. Bend elbows to 90 degrees and keep elbows near sides. While maintaining good posture, draw shoulders back squeezing shoulder blades together. A stretch may be felt in the chest and front of shoulder. Do not allow shoulders to raise upward. Hold for 5-10 seconds. Beginners should start with 3 sets of 5 repetitions.

Doorway Chest Stretch

Place forearm on wall, or doorway, with elbow bent at 90º. Elbows should be slightly below shoulder level. While maintaining forearm contact, lean body into doorway until gentle stretch is felt in the chest and shoulder. Hold for 20-30 seconds. Beginners should start with 3 repetitions on each side.

As described earlier, prolonged sitting and its effect on posture is not limited to the upper body alone but also affects the lower body. Tightness of the hip flexors along with an inhibition of the extensor muscles can lead to an aberrant motor pattern know as “gluteal amnesia” according to McGill. ⁸ He recommends exercises to enhance gluteal muscle function to unload the back in addition to hip flexor mobility with specific psoas muscle targeting.

Here are two very effective and easy to perform exercises that clients can do during short exercise breaks throughout the day.

Standing Hip Flexor Stretch
Begin standing in front of a chair about 18 inches away. Place one foot flat on the chair seat. Slowly allow hips to glide slightly forward until a gentle stretch is felt on the front of straight leg. Hold for 20-30 seconds. Beginners should aim for 3 sets each per side.

Glute Hip Bridge
Begin lying on floor, facing up. Bend knees so feet are firmly on floor and arms extended. Activate core muscles. Lift hips off floor to attain a bridge position with knees, hips, and shoulders in alignment. Slowly return to start position. Initially, some cramping in the back of the thigh may develop. A simple hamstring stretch, before and after, may prevent this from occurring. Beginners should aim for 3 sets of 10 repetitions.

All of the above exercises are easy to execute and include minimal risks. Most important here is the regular execution and mid- to long-term adherence to the program. A calendar that reminds clients of the exercises and allows them to check off performed sets and reps could be a motivational tool for them and helps you track their compliance.

References

(1) Lennon et al. (1994). Posture and Respiratory Modulation of Autonomic Function, Pain, and Health. American Journal of Pain Management. 4 (36-39).

(2) Kado et al. (2004). Hyperkyphotic Posture Predicts Mortality in Older Community Dwelling Men and Women: A Prospective Study. Journal of the American Geriatrics Society. Volume 52 (10) 1662.

(3) Bosomworth, D. Mobile Marketing Statistics 2015. Retrieved from: http://www.smartinsights.com/mobile-marketing/mobile-marketing-analytics/mobile-marketing-statistics/

(4) Hansraj, K. (2014). Assessment of Stresses in the Cervical Spine Caused by Posture and Position of the Head. Surg Technol Int. Nov;25:277-9.

(5) Jam, B. (2005). The Neurophysiological Effects of the Creep Phenomenon and its Relation to Mechanical Low Back Pain.

(6) Sanchez-Zuriaga, D. (2010). Is Activation of the Back Muscles Impaired by Creep or Muscle Fatigue? Spine. Vol 35, (5) 517–525.

(7) Harman, K. (2005). Effectiveness of an Exercise Program to Improve Forward Head Posture in Normal Adults: A Randomized, Controlled 10-Week Trial. The Journal of Manual & Manipulative Therapy. Vol. 13 (3) 263-176.

(8) McGill, S. (2010). Core Training: Evidence Translating to Better Performance and Injury Prevention. Strength and Conditioning Journal. Vol. 32 (3) 33-46.

Patent awarded by USPTO on PostureScreen Technology

On May 13, 2014, Dr. Joe Ferrantelli was notified by the United States Patent and Trademark Office (USPTO) that after a very vigorous review, he was awarded the full utility patent for the technology that powers the PostureScreen Mobile application.

Patent for PostureScreen Mobile awarded by the USPTO

Dr. Ferrantelli noted, “We at PostureCo, Inc. are very excited to see our technology is now protected not only by copyrights and trademarks, but now a full utility patent.” The patent US Patent Number US Patent No. 8,721,567 B2, is the first of many submitted patent pending both in the United States as well as abroad internationally.