Sports Spine Specialist Chiropractic Team: Athletes strive to achieve their body’s maximum performance by participating in numerous training regimens consisting of strenuous exercises and physical activity and ensuring they meet all of their body’s nutritional requirements. Through proper fitness and nutrition, many individuals can condition themselves to excel in their specific sport. Our training programs are designed for athletes that look to gain a competitive edge in their sport.
We provide sport-specific services to help increase an athlete’s performance through mobility, strength, and endurance. Occasionally, however, the excess workouts can lead many to suffer injuries or develop underlying conditions. Dr. Alex Jimenez’s chronicle of articles for athletes displays in detail the many forms of complications affecting these professionals while focusing on the possible solutions and treatments to follow to achieve overall well-being.
The legs are crucial for many individuals to move, jump, run, walk, and stand in various locations. The legs involve the thighs, hips, and knees as they work together to provide support and a range of movements for the body. For athletes, the legs allow them to run from one obstacle to another and kick the object to finish the game they are participating. Many individuals require strong leg muscles to keep the body balanced and stabilized from the upper body’s weight. One leg muscle that allows the body to be stabilized is the anterior tibialis muscle. When the legs suffer from various sports injuries or injuries in general, it can lead to issues like shin splints correlated with trigger points that can cause pain to the lower portion of the legs and can affect the body’s stability. Today’s article examines the anterior tibialis muscles, how shin splints are associated with myofascial trigger points, and various methods to treat shin splints. We refer patients to certified providers that incorporate various techniques in the lower body extremities, like lower leg pain therapies correlating to myofascial trigger point pain, to aid many people dealing with pain symptoms along the anterior tibialis muscles, causing shin splints. We encourage and appreciate each patient by referring them to associated medical providers based on their diagnosis, especially when appropriate. We understand that education is an excellent source to asking our providers intricated questions at the patient’s request. Dr. Alex Jimenez, D.C., only utilizes this information as an educational service. Disclaimer
What Is The Tibialis Anterior Muscles?
Have you been dealing with leg pain affecting your ability to move? Do you feel radiating pain going down to your feet? Or does even the smallest amount of pressure sends shooting pain from your knees to your feet? Many of these leg pain issues correlate to myofascial trigger points along the anterior tibialis muscles, mimicking shin splints. Studies reveal that the leg is divided into anterior, lateral, and posterior crural compartments. As one of the largest four muscles in the anterior compartment of the legs, the tibialis anterior is a thick muscle located in the front of the lateral tibia of the legs. The tibialis anterior has the muscle that allows the function to the lower leg and tendons that travel down to the ankle and foot. The anterior tibial muscle plays an important role in the lower leg through dorsiflexion and inversion of the foot. To that point, the anterior tibial muscle plays a key role in energy absorption when walking and maintaining balance.
Shin Splints Associated With Myofascial Trigger Points
Since the anterior tibial muscle plays a key role in energy absorption when it comes to walking and maintaining balance in the body, when the lower leg extremity muscles have been overused, it causes stress on the tibial anterior. It can lead to medial tibial stress syndrome or shin splints. Studies reveal that shin splints affect many athletes, especially runners, by causing pain and discomfort to the tibial anterior. This can cause mobility and balancing issues in the legs and lead to the development of myofascial trigger points in the anterior tibial muscle. Now, how do shin splints and myofascial trigger points correlate with each other?
Dr. Janet G. Travell, M.D., author of “Myofascial Pain and Discomfort: The Trigger Point Manual,” mentioned that one of the chief complaints many people have when experiencing myofascial trigger points would feel muscle weakness of dorsiflexion to the foot when walking. Other complaints include:
Falling
Dragging their feet
Ankle weakness
The book also mentioned that myofascial pain causes referred pain to the anterior tibial muscle, thus mimicking shin splints. The activation from myofascial trigger points causes an overload of the anterior tibial muscle, thus causing various pain issues in the legs and restricting mobility to the muscle itself.
An Overview Of Tibialis Anterior Trigger Points- Video
Have you been dealing with radiating pain from your knees to your feet? Do your legs feel heavy from walking a short distance? Or do your leg muscles feel cramps that hinder your ability to move? These pain-like issues are associated with the anterior tibialis muscle being affected by trigger points. Trigger points or myofascial pain syndrome can affect the worldwide population by affecting a muscle or muscle group in the body that can impair mobility, cause pain-like symptoms, and reduces a person’s overall sense of well-being. Trigger points along the tibialis anterior muscle cause mobility issues and mimic shin splint issues in the legs. All is not lost, however, as there are ways to reduce pain-like symptoms and help manage myofascial trigger points in the anterior tibialis muscle. The video above explains where the trigger points are located in the tibialis anterior through palpitation. By finding the trigger points in the affected muscle, doctors can refer patients to pain specialists who target trigger points and provide treatment to reduce the pain.
Various Methods Of Treating Shin Splints
There are various methods to treat the tibialis anterior when treating shin splints associated with trigger points. Studies reveal that one of the multiple ways to reduce shin splints is to strengthen the core hip muscles, improve running mechanics, and prevent lower-extremity overuse injuries. Muscle strength training allows the other muscles from the abdominals, gluteal, and hips to be stronger and reduce strain on the anterior tibialis muscles. Another method that many individuals should consider is to wear the appropriate footwear. Wearing the proper footwear can reduce the shock absorption to the feet and reduce the overloading forces on the anterior tibialis. These are two methods to manage trigger points and prevent shin splints from re-occurring in the legs.
Conclusion
As one of the four leg muscles, the anterior tibialis is a large muscle located in front of the lateral tibia and travels down to the ankles and foot. This muscle plays an important role in the legs as it allows dorsiflexion and inversion of the foot while also playing a key role in energy absorption when walking and maintaining balance. When the anterior tibialis becomes overused, it can develop trigger points, which invoke shin splints in the legs. When the legs suffer from shin splints associated with trigger points, it can cause pain in the lower leg extremities and cause the body to become unstable. However, various methods can take the load off the tibialis anterior and help improve the body’s stability, allowing the individual to walk without feeling pain traveling up from their feet.
References
Deshmukh, Nikita S, and Pratik Phansopkar. “Medial Tibial Stress Syndrome: A Review Article.” Cureus, U.S. National Library of Medicine, 7 July 2022, www.ncbi.nlm.nih.gov/pmc/articles/PMC9356648/.
Galbraith, R Michael, and Mark E Lavallee. “Medial Tibial Stress Syndrome: Conservative Treatment Options.” Current Reviews in Musculoskeletal Medicine, U.S. National Library of Medicine, 7 Oct. 2009, www.ncbi.nlm.nih.gov/pmc/articles/PMC2848339/.
Juneja, Pallavi, and John B Hubbard. “Anatomy, Bony Pelvis and Lower Limb, Tibialis Anterior Muscles.” In: StatPearls [Internet]. Treasure Island (FL), StatPearls Publishing, 29 Aug. 2022, www.ncbi.nlm.nih.gov/books/NBK513304/.
Travell, J. G., et al. Myofascial Pain and Dysfunction: The Trigger Point Manual: Vol. 2:the Lower Extremities. Williams & Wilkins, 1999.
Zielinska, Nicol, et al. “Anatomical Variations of the Tibialis Anterior Tendon Insertion: An Updated and Comprehensive Review.” Journal of Clinical Medicine, U.S. National Library of Medicine, 19 Aug. 2021, www.ncbi.nlm.nih.gov/pmc/articles/PMC8396864/.
As one of the stabilizers for the body, the knees are located between the thighs and legs, allowing flexion and extension. The knees help the hips by supporting the upper body’s weight and allowing the legs to move from one place to another without feeling pain. The knee has various muscles and ligaments surrounding the knee joint, allowing the leg to be bent when active. One of the muscles is located behind the knee, known as the popliteus, and supports the legs. However, minor injuries or actions can affect the knees causing the joint to be in a “lock” position and develop myofascial trigger points that can induce muscle spasms in the knees. Today’s article focuses on the popliteus muscle, how knee pain is associated with trigger points, and how to manage knee pain through various treatments. We refer patients to certified providers that incorporate multiple methods in the lower body extremities, like knee pain treatments correlating to myofascial trigger points, to aid many people dealing with pain symptoms along the popliteus muscles. We encourage and appreciate each patient by referring them to associated medical providers based on their diagnosis, especially when appropriate. We understand that education is an excellent source to asking our providers intricated questions at the patient’s request. Dr. Alex Jimenez, D.C., only utilizes this information as an educational service. Disclaimer
What Is The Popliteus Muscle?
Have you been dealing with pain behind your knees? Do you have issues bending your knees when climbing up or down the stairs? Or do your back knee muscles start to twitch uncontrollably, causing muscle spasms? Many knee issues correlate with various factors that can affect the popliteus muscle and develop trigger points. The popliteus is a small muscle with a very important job as it is a major stabilizing muscle to the knees. The popliteus muscle originates from the lateral side of the femur and inserts itself into the posterior surface of the tibia. Some attachments are between the popliteus and lateral meniscus, allowing the knees to be in motion and providing flexion without pain and entrapment. Additional studies reveal that when a person exercises, the popliteus’s basic function helps bring about and maintain internal rotation of the tibia on the femur. The popliteus also helps prevent the foot from external rotation and allows the individual to stand correctly. However, injuries to the knee could overstretch the popliteus muscle and cause mobility issues to the knee flexion.
Knee Pain Associated With Trigger Points
When dealing with knee pain, it could often be a joint disorder like osteoarthritis or a musculoskeletal condition like sciatica pain associated with the knee. These issues could be due to normal factors like constantly sitting down or bending down to lift heavy objects that cause the knees to buckle. However, when the popliteus muscle has been continuously overused from being bent, it can form tiny nodules known as trigger points to cause knee pain. Studies reveal that trigger points on the muscles surrounding the knee are often ignored during a clinical diagnosis. Trigger points cause referred pain to the surrounding muscles, accompanied by various sensory sensations like heaviness, tingling, and hypersensitivity to the popliteus muscle. In “Myofascial Pain and Dysfunction,” written by Dr. Travell, M.D. stated that one of the chief complaints that many patients often talk to their doctors about is the pain they feel in the back of their knees when they are in a crouch position. The book also states when normal actions like running or twisting have overloaded the popliteus muscle, it can cause trauma or strain to the popliteus muscle and tear the posterior cruciate ligament to the knees.
How To Find Trigger Points In The Popliteus- Video
Have you been having knee issues that make walking difficult for a long period? Do you feel like your knees are locking up constantly? What about feeling unstable when standing or carrying objects around? These issues that affect the knees are associated with trigger points along the popliteus muscles. The popliteus muscle is small, located at the back of the knees, and assists with knee flexion. When the popliteus muscle becomes overused, it can cause trigger points to form and cause knee issues. Studies reveal that various issues, like tendon injuries, are associated with repetitive mechanical stresses that can cause degenerative knee lesions. Any trauma or muscle strain can affect the knee’s function of flexing and bending without pain for trigger points to form along the popliteus muscles. The video above focuses on the popliteus muscle, where the trigger points are located, and where the referred pain patterns are situated in the knees. On the bright side, all is not lost, as various treatments offer ways to manage knee pain associated with trigger points.
Managing Knee Pain Through Various Treatments
When it comes to knee pain, many individuals will apply an ice or heat compress to allow the surrounding muscles to relax while reducing the pain and swelling. Other individuals use over-the-counter medicines to eliminate the pain for a few hours. While these work at managing knee pain, various treatments target trigger points and can help improve flexion mobility back to the knees. Studies reveal that muscle stretching on the popliteus muscle contributes to joint position sense to knee joint stability and function. Stretching the popliteus muscles can reduce the pain in the back of the knee while elongating the muscle fibers to manage trigger points from forming again. Other treatments that people can do to avoid trigger points from returning is to avoid walking or running in a lateral sloped area to prevent the knees from locking up. Incorporating these treatments to prevent knee issues and allow the knee to function properly.
Conclusion
The knees are one of the stabilizers in the body that are located between the thighs and legs, allowing flexion and extension. As a small muscle located in the back of the knees, the popliteus stabilizes the knees and enables them to be in motion without pain. However, when the popliteus muscle becomes overstretched and overused, it can develop trigger points in the popliteus that invoke referred pain to the surrounding muscles and cause the knees to lock up. To that point, it causes the body to be unstable and mimics knee pain issues. Fortunately, trigger points are treatable through various treatments that help relieve the pain and reduce the trigger points from returning. When these treatments are utilized on the knees, the surrounding muscles regain flexion mobility in the lower body.
References
English, S, and D Perret. “Posterior Knee Pain.” Current Reviews in Musculoskeletal Medicine, U.S. National Library of Medicine, 12 June 2010, www.ncbi.nlm.nih.gov/pmc/articles/PMC2941578/.
Ghaffarinejad, Farahnaz, et al. “Effect of Static Stretching of Muscles Surrounding the Knee on Knee Joint Position Sense.” British Journal of Sports Medicine, U.S. National Library of Medicine, Oct. 2007, www.ncbi.nlm.nih.gov/pmc/articles/PMC2465159/.
Hyland, Scott, and Matthew Varacallo. “Anatomy, Bony Pelvis and Lower Limb, Popliteus Muscle.” In: StatPearls [Internet]. Treasure Island (FL), StatPearls Publishing, 6 June 2022, www.ncbi.nlm.nih.gov/books/NBK526084/.
Mann, R A, and J L Hagy. “The Popliteus Muscle.” The Journal of Bone and Joint Surgery. American Volume, U.S. National Library of Medicine, Oct. 1977, pubmed.ncbi.nlm.nih.gov/908724/.
Sánchez Romero, Eleuterio A, et al. “Prevalence of Myofascial Trigger Points in Patients with Mild to Moderate Painful Knee Osteoarthritis: A Secondary Analysis.” Journal of Clinical Medicine, U.S. National Library of Medicine, 7 Aug. 2020, www.ncbi.nlm.nih.gov/pmc/articles/PMC7464556/.
Travell, J. G., et al. Myofascial Pain and Dysfunction: The Trigger Point Manual: Vol. 2:the Lower Extremities. Williams & Wilkins, 1999.
Before you begin running, talk with your physician, prosthetist, and other clinicians involved in your rehabilitation/health care treatment. Learning to use a prosthetic takes time and practice. Individuals that meet the minimum recommendations for running and have mastered walking on a prosthesis can begin running. The world of sports prosthetics has realized technological advancements to become highly refined and targeted for all levels of competition.
Before Running Recommendations
Every individual has specific healthcare needs, and guidelines should be considered to prevent injuries.
To become a runner and progress to a good runner, individuals need to focus on strengthening their legs to build endurance levels to meet the energy demands.
Working with a sports chiropractic and physical therapy team is recommended to build, strengthen, and condition the muscles and develop healthy posture and walking habits.
Skin Health
Talk with your healthcare team to ensure the skin can withstand the forces while running. If limb skin quality is insufficient, running can result in sores and blisters that prevent wearing a prosthesis until they heal. Other considerations include the following:
The incision should be healed.
All stitches and staples have been removed.
There should be no drainage.
Ensure there are no open wounds or blisters.
Bone Health
Research suggests in some cases that a decrease in bone density/osteopenia or osteoporosis of the residual limb can occur after amputation.
This can result in pain when applying weight through the residual limb.
Some amputations can result in heterotopic ossification – bone growth in the soft tissues outside the normal skeleton.
If heterotopic ossification is causing symptoms, it is not recommended to run and talk to your physician and prosthetist about options.
Proper Fitting of Prosthetic
Suboptimal socket fit can result in an altered gait.
If there is any compensation when walking, the gait deviations will be exacerbated when running.
Gait deviations can result in abnormal loading, resulting in injuries.
Talk to your prosthetist about the fit if it is less than optimal.
It is recommended to participate in gait training with a chiropractic physical therapy team to learn to walk with proper form.
Balance and Agility
Agility drills are recommended to transition from walking to running.
They help coordinate the limbs and can be done with a regular prosthesis.
Agility and balance exercises promote stability in the socket to become more stabilized during quick movements.
They can help to prevent balance-related falls.
When working on balance, do it in a safe environment with a friend, family, or something to hold on to.
Strength Training
The unaffected leg will now be the main powerhouse, so the focus needs to be on strengthening all the muscles in that leg.
If you have bilateral amputations or both legs, the hips will be the powerhouse for running. It needs to generate all the force to propel the body forward.
Individuals with a below-knee amputation will also have the hamstrings to help out.
Hip musculature needs to be strong to meet running demands.
Without proper strength, the body will compensate in various ways, which can lead to injuries.
Endurance
Endurance training is essential.
A high level of endurance is required before training to run to meet the energy demands.
Running on a prosthesis requires more energy. It could be recommended to use a running prosthesis instead of the everyday prosthesis. The energy needed to run is:
Greater for individuals with amputations above the knee than those below the knee.
Even greater for those with amputations on both sides.
Asymmetry
Asymmetrical loading is a common problem when running with a prosthesis. Runners want to use the unaffected limb more than maintain balance for reasons that include:
Not trusting the prosthetic.
Discomfort when loading the residual limb.
Not enough strength in the residual limb.
Unbalanced amounts of force from impact can result in injuries.
Practice Schedule
In the first week, asses how the socket fits and if there is any discomfort.
If something does not feel correct, check with your prosthetist.
Don’t run for more than 10 minutes in the beginning without stopping to check the skin to see if any red spots appear.
The pressure will be increased, so be aware of anything irritating or rubbing the skin.
Individuals who had their amputations some time ago may be able to tolerate the load more easily at the beginning than individuals who recently had an amputation.
Too much too soon can result in injuries.
Slowly ease into running and give the limbs and body time to adapt to the physical and mental stress.
Running With A Prosthetic Limb
References
Beck, Owen N et al. “Reduced prosthetic stiffness lowers the metabolic cost of running for athletes with bilateral transtibial amputations.” Journal of applied physiology (Bethesda, Md.: 1985) vol. 122,4 (2017): 976-984. doi:10.1152/japplphysiol.00587.2016
Bragaru, Mihai, et al. “Sport prostheses and prosthetic adaptations for the upper and lower limb amputees: an overview of peer-reviewed literature.” Prosthetics and orthotics international vol. 36,3 (2012): 290-6. doi:10.1177/0309364612447093
Kanas, Joanne L, and Mark Holowka. “Adaptive upper extremity prostheses for recreation and play.” Journal of pediatric rehabilitation medicine vol. 2,3 (2009): 181-7. doi:10.3233/PRM-2009-0082
Matthews, D et al. “Return to sport following amputation.” The Journal of sports medicine and physical fitness vol. 54,4 (2014): 481-6.
Meyers, Carolyn, et al. “Heterotopic Ossification: A Comprehensive Review.” JBMR plus vol. 3,4 e10172. 27 Feb. 2019, doi:10.1002/jbm4.10172
Morgan, Sara J et al. “Mobility with a lower limb prosthesis: experiences of users with high levels of functional ability.” Disability and rehabilitation vol. 44,13 (2022): 3236-3244. doi:10.1080/09638288.2020.1851400
Many individuals utilize their lower muscles to move around and stay active as each muscle does its job and allows mobility to the hips and thighs. In sports, the thigh muscles are utilized constantly to extend the legs and bend the knees, allowing a powerful force to win any sports competition. At the same time, various sports injuries can occur to the hips, thighs, and legs and can affect the muscles causing pain and discomfort to the lower extremities. A hamstring injury is one of the most common injuries that can affect the thighs, which can cause many athletes to be taken out of their favorite sport to recover from the injury. Today’s article looks at the hamstring muscle, how trigger points correlate with a hamstring strain, and how various stretches can reduce muscle strain on the hamstrings. We refer patients to certified providers who incorporate multiple methods in the lower body extremities, like upper thigh and hip pain treatments correlating to myofascial trigger point pain, to aid individuals dealing with pain symptoms along the hamstring muscles. We encourage and appreciate patients by referring them to associated medical providers based on their diagnosis, especially when appropriate. We understand that education is an excellent solution to asking our providers complex questions at the patient’s request. Dr. Jimenez, D.C., utilizes this information as an educational service only. Disclaimer
What Are The Hamstring Muscles?
Do you experience pain in the back of your upper thigh? When walking from one place to another, do you hear a popping sound in the back of your thigh? Or are you dealing with muscle tenderness in the back of your upper thigh? Many of these symptoms correlate with issues affecting the hamstrings causing trigger points to affect the upper thighs. As one of the most complex muscles comprising three muscles (semitendinosus, semimembranosus, biceps femoris), the hamstrings play a crucial part in daily activities. From simple actions like standing to explosive movements like sprinting or jumping, the hamstrings are known as posterior thigh muscles that begin from the pelvis and run behind the femur bone and cross the femoroacetabular and tibiofemoral joints. The hamstring muscles in the body play a prominent role in hip extension and is a dynamic stabilizer of the knee joint. To that point, the hamstring muscles are the most susceptible muscle that succumbs to injuries that can lead to disability in the legs and affect daily activities.
Hamstring Strain & Trigger Points
Since the hamstrings are the most susceptible muscles that can succumb to injuries, it takes a while for the muscle to heal, depending on the severity of the damage. Studies reveal that the hamstrings can occur injuries when a person is running or sprinting due to their anatomic arrangement, which causes the muscles to strain. To that point, depending on how much force has impacted the hamstrings, the injuries can lead to 3 of the following:
Grade 1: Mild pain or swelling (no loss of function)
Grade 2: Identifiable partial tissue disruption with moderate pain and swelling (minimal loss of function)
Grade 3: Complete disruption of the tissue with severe pain and swelling (total loss of function)
The pain that patients experience can be painful when walking, causing them to limp. In “Myofascial Pain and Dysfunction,” written by Dr. Janet G. Travell, M.D., stated that when patients are dealing with pain in their hamstrings, it could potentially be associated with trigger points along the three muscles, causing pain and disability in the upper thighs. The book also mentioned that when trigger points affect the hamstrings, it can lead to muscle inhibition, compromising hip stability. Another issue that trigger points associated with hamstring strain causes in the body are that when individuals are sitting down are likely to experience posterior pain in the buttock, upper thighs, and back of the knees. Luckily, there are various ways to reduce the pain along the hamstring muscles.
Trigger Point Of The Week: Hamstrings- Video
Have you dealt with pain along the back of your upper thighs? Does it feel uncomfortable when you are sitting down? Or do your hamstrings ache or feel tight after running for a long period? People dealing with issues in their hamstrings could be dealing with muscle strain associated with trigger points. The hamstring muscles play a vital role in the body as it allows the individual to walk, run, bend the knees and even extend the legs. The hamstring muscles are also the most susceptible to injury, causing disability to the legs. Studies reveal that trigger points associated with the hamstring muscles can lead to soreness or irritability in the muscle fibers that may interfere with the biomechanics and normal functioning of the lower limbs. The video above explains where the hamstrings are located and how the trigger points can cause referred pain to the hamstrings. To that point, trigger points can affect a person’s ability to walk and affect the surrounding muscles in the lower body while mimicking other chronic conditions.
Various Stretches To Reduce Muscle Strain On The Hamstrings
When the hamstrings become injured, the healing rate usually depends on how severe the injury is in the hamstrings. If a hamstring injury is mild, the tears or strains can heal within about three to eight weeks, and if the hamstring injury is severe, the tears or strains could be long as three months. When the hamstrings are tense and on the verge of tearing, many people should stop overusing the muscle. Various stretches can reduce muscle strain on the hamstrings and relieve tension from the hamstrings to allow mobility back to the legs. Studies reveal that manual ischemic compression on the upper thigh muscles can significantly reduce pain in the lower limbs. This allows the individual to manage the trigger points associated with the hamstrings and reduce the chances of them re-occurring in the legs.
Conclusion
As the most important muscle in the lower body extremities, the hamstrings play a crucial part in the body as they allow the individual to walk, run, and stand without feeling pain. However, even though they are important muscles, they are susceptible to injuries. When the hamstrings become injured, the recovery process varies depending on the severity and can develop trigger points along the muscle fibers. To that point, it causes referred pain along the upper thigh muscle and affects a person’s ability to walk. Fortunately, incorporating various stretches to the hamstrings can alleviate the pain and reduce the trigger points from re-occurring in the muscle. This allows mobility back to the legs, and many individuals can resume their daily activities.
References
Esparza, Danilo, et al. “Effects of Local Ischemic Compression on Upper Limb Latent Myofascial Trigger Points: A Study of Subjective Pain and Linear Motor Performance.” Rehabilitation Research and Practice, Hindawi, 4 Mar. 2019, www.ncbi.nlm.nih.gov/pmc/articles/PMC6425406/.
Poudel, Bikash, and Shivlal Pandey. “Hamstring Injury – Statpearls – NCBI Bookshelf.” In: StatPearls [Internet]. Treasure Island (FL), StatPearls Publishing, 28 Aug. 2022, www.ncbi.nlm.nih.gov/books/NBK558936/.
Rodgers, Cooper D, and Avaias Raja. “Anatomy, Bony Pelvis and Lower Limb, Hamstring Muscle.” In: StatPearls [Internet]. Treasure Island (FL), StatPearls Publishing, 29 Jan. 2022, www.ncbi.nlm.nih.gov/books/NBK546688/.
Thummar, Ravindra C, et al. “Association between Trigger Points in Hamstring, Posterior Leg, Foot Muscles and Plantar Fasciopathy: A Cross- Sectional Study.” Journal of Bodywork and Movement Therapies, U.S. National Library of Medicine, 7 Aug. 2020, pubmed.ncbi.nlm.nih.gov/33218537/.
Travell, J. G., et al. Myofascial Pain and Dysfunction: The Trigger Point Manual: Vol. 2:the Lower Extremities. Williams & Wilkins, 1999.
The hips and thighs have a working relationship as their jobs are to maintain stability for the legs and pelvis while supporting the upper body’s weight. These two body groups have various muscles, tendons, and nerves that have specific jobs that allow mobility to the lower body. Many athletes in multiple sports events use their thighs to exert a huge amount of power to be the best. This is due to the adductor muscles in the thighs that allow the athlete to win the event. These adductor muscles are voluminous in size and can become overstretched if the muscles have been worked out too much or injuries have caused dysfunction in the surrounding muscles, causing mobility issues. To that point, the adductor muscles will develop myofascial trigger points and cause hip and thigh pain. Today’s article looks at the two adductor muscles (Longus and Magnus), how myofascial trigger points affect the adductor muscles, and available treatments to manage hip adductor trigger points. We refer patients to certified providers who incorporate multiple methods in the lower body extremities, like thigh and hip pain treatments correlating to myofascial trigger point pain, to aid individuals dealing with pain symptoms along the adductor muscles. We encourage and appreciate patients by referring them to associated medical providers based on their diagnosis, especially when appropriate. We understand that education is an excellent solution to asking our providers complex questions at the patient’s request. Dr. Jimenez, D.C., utilizes this information as an educational service only. Disclaimer
Adductor Longus & Adductor Magnus
Have you been dealing with groin pain located near your thighs? Do you feel muscle tenderness or stiffness when stretching your inner thighs? Or have you been feeling unstable in your hips or thighs when walking? Many individuals, especially athletes and older adults, could be experiencing myofascial trigger points associated with groin pain along their adductor muscles. The thighs contain several muscles and functions that allow many people to bend and extend their knees and hips. The adductor muscles allow the legs to move inward toward one another. The adductor muscles have five muscles: magnus, brevi, longus, pectineus, and gracilis. These muscles enable functionality to the thighs and hips, and we will look at two adductor muscles in the inner thighs. The long adductor muscle is a large, fan-shaped muscle that starts from the superior aspect of the pubis bone and travels down to connect at the thigh bone. Studies reveal that the adductor longus is a long and thin muscle with many actions for the thighs, including external/lateral rotation and thigh flexion.
Now the adductor Magnus is a large triangular-shaped muscle of the inner thighs that are important for thigh and hip function and stabilizing the pelvis. Studies reveal that even though the adductor Magnus is a large muscle in the inner thighs, its primary function is to allow the thigh to move in a larger range of motion without any pain inflicted on the thigh muscles. However, the adductor muscle can succumb to various issues affecting the thighs and groin regions of the body that can be overstretched and strain the body.
Myofascial Trigger Points Affecting The Adductor Muscles
Groin pain is a multi-factorial pain issue that affects the lower limbs, and its often due to muscle strain in the inner thigh muscles. This pain increases during vigorous activities and when there is a sudden twist in the hips. When the adductor muscles suddenly change in motion when the body is active, they can be overstretched and correlate to myofascial trigger points that can affect the inner thigh and groin regions. According to “Myofascial Pain and Dysfunction,” by Dr. Travell, M.D., patients with active myofascial trigger points in the two adductor muscles (Longus and Magnus) would become frequently aware of the pain in their groin and medial thigh. When the adductor muscles have myofascial trigger points in the inner thigh, diagnosing is difficult since the individual thinks they are suffering from groin pain when the pain is in their inner thighs. To that point, studies reveal that many individuals participating in various sports would suffer from groin pain due to myofascial trigger points affecting the adductor muscles. Luckily, there are multiple treatments to reduce the pain in the adductor muscles.
Hip Adductors: Trigger Point Anatomy- Video
Have you been dealing with groin pain when you are walking? What about experiencing unquestionable thigh pain that affects your daily activities? Or does stretching your inner thigh muscles seem difficult, causing muscle tenderness? Many of these symptoms correlate with groin pain associated with myofascial trigger points affecting the adductor muscles in the inner thighs. The adductor muscles allow mobility function to the thighs and enable the hips to have a wide range of motion. When the adductor muscles are overstretched due to a sudden change of hip rotation or injury has occurred on the thighs can lead to referred pain in the groin and inner thighs and develop myofascial trigger points. The video above shows where the trigger points are located in the hip adductor muscles. The video also explains where the pain is localized in the adductor muscles and the symptoms it produces that can affect the lower body extremities. Fortunately, even though diagnosing myofascial trigger points are a bit challenging, available treatments can manage trigger points along the hip adductors.
Available Treatments To Manage Hip Adductor Trigger Points
When myofascial trigger points affect the hip adductor muscles, many individuals complain about stiffness in their inner thighs and how they feel miserable when they don’t have mobility from their thighs and hips. As stated earlier, trigger points are a bit challenging when diagnosed, but they are treatable when doctors examine patients dealing with myofascial pain in their hips and thigh muscles. Once the diagnosis is complete, doctors work with pain specialists who can locate the trigger points and devise a treatment plan to relieve the pain. Available treatments like trigger point injections can minimize the pain and reduce the chances of trigger points returning. Other available therapies like exercising or stretching, especially for the hips and thighs. Specific exercises for the hips and thigh muscles can help strengthen the adductor muscles from suffering pain and can help reduce the pain symptoms. Another treatment is applying moist heat on the hip adductor muscles to release the tension from the tight muscles and allow mobility back to the hip adductors.
Conclusion
The adductor muscles work with the hips and thighs to allow a wide range of motions and extension to the knees and hips. The hips and the thighs allow stability to the lower body and support the weight to the upper body. When injuries or sudden changes start to affect the adductor muscles, it can lead to symptoms of groin pain associated with myofascial trigger points. Myofascial trigger points produce tiny nodules in the affected muscle that causes referred pain to the muscle group. When this happens, it causes the body to be dysfunctional and can affect a person’s mobility to function in the world. Luckily myofascial trigger points are treatable through various techniques and treatments that can reduce the chances of trigger points from re-occurring in the body.
References
Jeno, Susan H, and Gary S Schindler. “Anatomy, Bony Pelvis and Lower Limb, Thigh Adductor Magnus Muscle.” In: StatPearls [Internet]. Treasure Island (FL), StatPearls Publishing, 1 Aug. 2022, www.ncbi.nlm.nih.gov/books/NBK534842/.
Simons, D. G., and L. S. Simons. Myofascial Pain and Dysfunction: The Trigger Point Manual: Vol. 2:the Lower Extremities. Williams & Wilkins, 1999.
Takizawa, M, et al. “Why Adductor Magnus Muscle Is Large: The Function Based on Muscle Morphology in Cadavers.” Scandinavian Journal of Medicine & Science in Sports, U.S. National Library of Medicine, 27 Apr. 2012, pubmed.ncbi.nlm.nih.gov/22537037/.
van de Kimmenade, R J L L, et al. “A Rare Case of Adductor Longus Muscle Rupture.” Case Reports in Orthopedics, Hindawi Publishing Corporation, 2015, www.ncbi.nlm.nih.gov/pmc/articles/PMC4397006/.
All sports differ in the relative importance of various physical skills contributing to the game and individual performance. Baseball is a precision sport with fast, explosive movements and full-body activity. The ability to repeatedly perform near maximum level with little rest is necessary for baseball players. Baseball training involves a multidimensional approach that focuses on speed, agility, and strength in a way that is relative to the motions and requirements of the sport.
Baseball Training
Trainers have to assess the unique needs of the sport and determine the time needed to improve each quality within the athlete. They should focus on the following:
Baseball training workouts are targeted at increasing running speed, bat speed, pitching, and throwing velocity that breaks down the muscle groups for improving performance while decreasing the risk of injury. Training consists of combined conditioning that includes:
Throwing a baseball at high velocity is a full-body movement that requires total body development.
Strong leg, hip, and core muscles are necessary to transfer power from the ground, up through the lower body, to the torso, and then the arm and hand to generate a fast, whipping ball release.
This will improve generating power in the throwing muscles.
The objective is to build power utilizing a heavy and then a light load to build arm speed, and using proper form will improve throwing velocity safely.
Proper trunk rotation during arm cocking and strength and flexibility training should involve trunk rotational exercises to develop the obliques so that maximum arm speed can be generated.
Players have to deal with consistent failure and remain confident.
Hitting Mistakes
References
Ellenbecker, Todd S, and Ryoki Aoki. “Step-by-Step Guide to Understanding the Kinetic Chain Concept in the Overhead Athlete.” Current reviews in musculoskeletal medicine vol. 13,2 (2020): 155-163. doi:10.1007/s12178-020-09615-1
Fleisig, Glenn S et al. “Biomechanical Analysis of Weighted-Ball Exercises for Baseball Pitchers.” Sports health vol. 9,3 (2017): 210-215. doi:10.1177/1941738116679816
Rhea, Matthew R, and Derek Bunker. “Baseball-specific conditioning.” International journal of sports physiology and performance vol. 4,3 (2009): 402-7. doi:10.1123/ijspp.4.3.402
Seroyer, Shane T et al. “The kinetic chain in overhand pitching: its potential role for performance enhancement and injury prevention.” Sports health vol. 2,2 (2010): 135-46. doi:10.1177/1941738110362656
Workout recovery is as important as working out. Pushing muscle past its normal levels creates tiny tears in the muscle tissue. It is the repairing process that generates muscle growth. Muscles that aren’t allowed to recover will not grow or gain muscle mass, and muscle strength could be reduced, making working out a struggle and hindering health goal progress. The body needs time to repair the muscles to reduce the risk of injury. Allowing enough time for recovery reduces overuse-related muscle breakdown and injuries. Muscle recovery supplements can expedite the healing process.
Muscle Recovery Supplements
Reasons for taking supplements include their ability to heal damaged muscles faster, aid in injury recovery, reduce muscle soreness, reduce muscle fatigue, and provide the muscle cells with energy during recovery.
Some studies have found that taking a creatine supplement may aid muscle recovery and greater muscle strength during recovery.
Citrulline Malate
Citrulline is a non-essential amino acid found in watermelon that converts into nitric oxide.
Nitric oxide helps open blood vessels and improve blood circulation.
This allows oxygen and nutrients to reach the muscle faster, speeding the recovery process.
Citrulline also improves the bioavailability of L-arginine, another amino acid that aids protein synthesis.
Magnesium
Magnesium assists with muscle recovery by helping the muscles relax.
When the body doesn’t have enough magnesium, there is a greater chance of muscle cramps.
Magnesium helps support healthy muscle contraction.
Tart Cherry Juice Extract
This extract works by reducing inflammation in the muscle.
Inflammation is normal, but too much can increase muscle soreness and the risk of injury.
One study found that cherry juice helps minimize post-exercise muscle pain.
Supplement Plan
After selecting a supplement plan that is the most beneficial for the individual, the next step is to devise a schedule for taking them.
When using a muscle recovery supplement can either be a pre-workout supplement or a post-workout supplement.
The recommended time to take a specific supplement is based on the type.
Individuals should talk with their doctor and a nutritionist before starting any new supplement regimen.
This helps ensure the supplements are safe and minimize negative side effects given health and medical conditions.
Nutrition In Recovery
References
Cooke, M.B., Rybalka, E., Williams, A.D. et al. Creatine supplementation enhances muscle force recovery after eccentrically-induced muscle damage in healthy individuals. J Int Soc Sports Nutr 6, 13 (2009). doi.org/10.1186/1550-2783-6-13
DiNicolantonio, James J et al. “Subclinical magnesium deficiency: a principal driver of cardiovascular disease and a public health crisis.” Open heart vol. 5,1 e000668. 13 Jan. 2018, doi:10.1136/openhrt-2017-000668
Gough, Lewis A et al. “A critical review of citrulline malate supplementation and exercise performance.” European journal of applied physiology vol. 121,12 (2021): 3283-3295. doi:10.1007/s00421-021-04774-6
Kuehl, Kerry S et al. “Efficacy of tart cherry juice in reducing muscle pain during running: a randomized controlled trial.” Journal of the International Society of Sports Nutrition vol. 7 17. 7 May. 2010, doi:10.1186/1550-2783-7-17
Vitale, Kenneth C et al. “Tart Cherry Juice in Athletes: A Literature Review and Commentary.” Current sports medicine reports vol. 16,4 (2017): 230-239. doi:10.1249/JSR.0000000000000385
Weinert, Dan J. “Nutrition and muscle protein synthesis: a descriptive review.” The Journal of the Canadian Chiropractic Association vol. 53,3 (2009): 186-93.
Wolfe, Robert R. “Branched-chain amino acids and muscle protein synthesis in humans: myth or reality?.” Journal of the International Society of Sports Nutrition vol. 14 30. 22 Aug. 2017, doi:10.1186/s12970-017-0184-9
Zhang, Shihai, et al. “Novel metabolic and physiological functions of branched-chain amino acids: a review.” Journal of animal science and biotechnology vol. 8 10. 23 Jan. 2017, doi:10.1186/s40104-016-0139-z
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Baseball Training
