Can individuals with stiff person syndrome incorporate non-surgical treatments to reduce muscle stiffness and restore muscle mobility?
Introduction
The musculoskeletal system allows the body’s extremities to be mobile, provides stability to the host, and has an outstanding relationship with the other body systems. The musculoskeletal system’s muscles, tissues, and ligaments help protect the body’s vital organs from environmental factors. However, many individuals often deal with repetitive motions in the upper and lower body extremities that can cause pain and discomfort. Additionally, environmental factors, illnesses, and injuries can affect the musculoskeletal system and play a part in co-morbidities in overlapping risk profiles. These issues can cause the musculoskeletal system to develop a condition known as stiff person syndrome. Today’s articles focus on what stiff person syndrome is, the symptoms it is associated with, and how non-surgical treatments can help alleviate the symptoms of stiff person syndrome. We discuss with certified associated medical providers who consolidate our patients’ information to assess stiff person syndrome and its associated symptoms affecting the musculoskeletal system. We also inform and guide patients while asking their associated medical provider intricate questions to integrate non-surgical treatments to reduce the overlapping symptoms correlating with stiff person syndrome. Dr. Jimenez, D.C., includes this information as an academic service. Disclaimer.
What Is Stiff Person Syndrome
Have you been dealing with muscle stiffness in your lower extremities affecting your mobility? Have you noticed that your posture is rigid due to ongoing muscle spasms in your lower back? Or have you felt tightness in your back muscles? Many pain-like symptoms are associated with back pain, a common musculoskeletal condition; however, they can also correlate with a rare condition known as stiff person syndrome. Stiff person syndrome is a rare autoimmune disorder that is progressive and is characterized by rigidity and stimulus-triggered painful muscle spasms that affect the lower body and extremities. (Muranova & Shanina, 2024) There are three classifications that a person is experiencing with stiff person syndrome, and they are:
Classic Stiff Person Syndrome
Partial Stiff Person Syndrome
Stiff Person Syndrome Plus
Since stiff person syndrome is a rare condition, many individuals may not exhibit any objective findings early on, which then causes a delayed diagnosis that can impact a person’s quality of life (Newsome & Johnson, 2022). At the same time, since stiff person syndrome is a rare autoimmune disease, it can affect the musculoskeletal system with associated pain-like symptoms.
The Symptoms
Some symptoms associated with stiff person syndrome that can develop over time are muscle stiffness and painful muscle spasms. This is because the neuron receptors from the central nervous system can become haywire and cause non-specific somatic symptoms that make the individuals deal with comorbid chronic pain and myofascial tenderness in the muscles. (Chia et al., 2023) This is because stiff person syndrome can spread into different areas of the musculoskeletal system and can gradually develop over time. For muscle stiffness associated with stiff person syndrome, the muscles can become stiff over time, causing pain and discomfort, thus leading to many individuals developing abnormal posture, making it difficult to be mobile. Muscle spasms can affect the entire body itself or in a specific location and cause intense pain that lasts for hours. However, many individuals can incorporate non-surgical treatments to reduce the pain-like symptoms in the musculoskeletal system.
Movement Medicine: Chiropractic Care- Video
Non-Surgical Treatments For Stiff Person Syndrome
When it comes to reducing the musculoskeletal pain symptoms of stiff person syndrome, many individuals can begin to go to their primary doctor for early diagnosis and develop a customized treatment plan to manage the pain-like symptoms and provide a positive impact in creating awareness of this rare condition. (Elsalti et al., 2023) By assessing the pain-like symptoms of stiff person syndrome, many people can incorporate non-surgical treatments to manage the musculoskeletal pain symptoms and improve a person’s quality of life. Non-surgical treatments are cost-effective and can be combined with other therapies to restore mobility. One of the primary goals for managing stiff person syndrome is through pain management, symptom relief, and improved quality of life. (Cirnigliaro et al., 2021)
Chiropractic Care For Stiff Person Syndrome
One of the non-surgical treatments that can help reduce symptoms of muscle spasms and muscle stiffness is chiropractic care. Chiropractic care incorporates mechanical and manual manipulation to stretch and mobilize the joint-muscle function while reducing pain and discomfort. (Coulter et al., 2018) For individuals suffering from stiff person syndrome, chiropractic care can help reduce muscle stiffness and muscle spasms in the upper and lower extremities and relieve the pain. Additionally, incorporating non-surgical treatments like chiropractic care and combined therapies can help manage the musculoskeletal pain associated with stiff person syndrome and improve a person’s quality of life.
References
Chia, N. H., McKeon, A., Dalakas, M. C., Flanagan, E. P., Bower, J. H., Klassen, B. T., Dubey, D., Zalewski, N. L., Duffy, D., Pittock, S. J., & Zekeridou, A. (2023). Stiff person spectrum disorder diagnosis, misdiagnosis, and suggested diagnostic criteria. Ann Clin Transl Neurol, 10(7), 1083-1094. https://doi.org/10.1002/acn3.51791
Cirnigliaro, F. A., Gauthier, N., & Rush, M. (2021). Management of refractory pain in Stiff-Person syndrome. BMJ Case Rep, 14(1). https://doi.org/10.1136/bcr-2020-237814
Coulter, I. D., Crawford, C., Hurwitz, E. L., Vernon, H., Khorsan, R., Suttorp Booth, M., & Herman, P. M. (2018). Manipulation and mobilization for treating chronic low back pain: a systematic review and meta-analysis. Spine J, 18(5), 866-879. https://doi.org/10.1016/j.spinee.2018.01.013
Elsalti, A., Darkhabani, M., Alrifaai, M. A., & Mahroum, N. (2023). Celebrities and Medical Awareness-The Case of Celine Dion and Stiff-Person Syndrome. Int J Environ Res Public Health, 20(3). https://doi.org/10.3390/ijerph20031936
When muscle pains and aches present from health conditions, work, exercise, housework, etc., many individuals turn to topical sprays, creams, ointments, and gels to bring relief. Can magnesium spray be beneficial in the fight against neuromusculoskeletal pain?
Magnesium Spray
Magnesium spray is a liquid form of magnesium applied externally to the skin that has been marketed to promote muscle relaxation, improve sleep, and manage migraines. However, studies of its effectiveness have had mixed results. Some studies have shown that topical use can:
Improve chronic muscle and joint pain. Example: fibromyalgia.
Decrease the frequency and severity of nerve pain symptoms. Example: peripheral neuropathy.
Reduce the incidence and severity of an intubation-related sore throat after surgery.
Further studies of various groups are necessary to clarify the optimal dose for each condition and to determine how topical magnesium affects magnesium blood levels.
What is It?
Magnesium is a mineral that has an important role in many of the body’s processes and is essential for the following (Gröber U. et al., 2017)
Nerve transmission
Muscle contraction
Blood pressure regulation
Blood sugar regulation
Protein production
DNA and RNA production
Currently, there is no recommended dosage for topical magnesium use. However, some major health institutions have established a recommended daily amount taken by mouth. Listed are the recommended daily magnesium intake based on age and other factors. (National Institutes of Health Office of Dietary Supplements, 2022)
14 to 18 years old: 410 mg for males, 360 mg for females and when lactating, and 400 mg when pregnant.
19 to 30 years old: 400 mg for males, 310 mg for females and when lactating, and 350 mg when pregnant.
31 to 50 years old: 420 mg for males, 320 mg for females and when lactating, and 360 mg when pregnant.
51 years old and above: 420 mg for males and 320 mg for females.
Although self-care is appropriate for minor injuries or exercise, individuals are encouraged to see their healthcare provider for severe musculoskeletal pain symptoms.
Benefits
Though taking oral magnesium supplements is common, there is limited research on using magnesium on the skin to improve magnesium levels. Studies comparing the absorption of magnesium taken by mouth with the spray applied to the skin require further research. However, some studies look at the localized effect of magnesium spray on improving a sore throat after surgery and nerve, muscle, and joint pain.
Intubation-Related Sore Throat
Topical magnesium reduced the severity of sore throat after surgery in individuals undergoing tracheal intubation compared to a placebo. (Kuriyama, A. et al., 2019) However, further studies are necessary to clarify the optimal dose.
Nerve Pain
Peripheral neuropathy is nerve damage that causes a tingling and numbing sensation in the arms or legs. In a study of individuals with chronic kidney disease, the daily application of magnesium sprays to limbs affected by peripheral neuropathy for twelve weeks decreased the frequency and severity of nerve pain symptoms. However, one limitation was that it was performed mostly in females. (Athavale, A. et al., 2023)
Chronic Muscle and Joint Pain
A small study assessed whether applying magnesium to the skin could improve the quality of life of female participants with fibromyalgia – a chronic condition that causes muscle and joint pain, fatigue, and other symptoms. The study found that four sprays of magnesium chloride applied twice daily to the upper and lower limbs for four weeks could benefit those with fibromyalgia. However, further research with larger studies is needed to confirm the results. (Engen D. J. et al., 2015)
Does The Spray Increase Overall Magnesium Levels?
Magnesium is transported into cells through magnesium transporters. The outer layer of the skin does not contain these transporters, so absorption occurs in the small areas of the sweat glands and hair follicles. (Gröber U. et al., 2017) One study suggested that applying magnesium to the skin can help with magnesium deficiency within four to six weeks, compared to four to 12 months in the case of oral magnesium supplementation. However, there is minimal research on topical magnesium and its impact on magnesium levels. Another study suggested that 56 mg of magnesium cream applied daily on the skin for 14 days had no statistically significant effect on magnesium blood levels. Although the results were statistically insignificant, a clinically relevant increase in magnesium blood levels was observed. (Kass, L. et al., 2017) Because it remains unclear if magnesium absorption via the skin is more effective than by mouth, further studies are necessary to confirm the amount of magnesium absorbed into the skin.
Using The Spray
In one study, a magnesium chloride solution was poured into a spray bottle and applied as follows (Engen D. J. et al., 2015)
The solution was sprayed into the palm and applied evenly on the affected area.
There is a four-hour wait time between spray dose applications.
Individuals should wait at least one hour after application before showering or washing the product off.
Leave the product on the skin throughout the day and wash it off before bed.
Rinse the solution off with water if the skin becomes irritated.
Avoid applying to open wounds.
Precautions
Avoid magnesium chloride sprays if you are allergic to them or their components. If you have a severe allergic reaction, such as itching, hives, or shortness of breath, seek immediate medical attention. Topically applied magnesium solution has no known side effects other than skin irritation. (Engen D. J. et al., 2015)
Injury Medical Chiropractic and Functional Medicine Clinic works with primary healthcare providers and specialists to develop a personalized treatment plan through an integrated approach to treating injuries and chronic pain syndromes, improving flexibility, mobility, and agility programs to relieve pain and help individuals return to optimal function. If other treatments are needed, Dr. Jimenez has teamed up with top surgeons, clinical specialists, medical researchers, and rehabilitation providers to provide the most effective treatments.
Why Choose Chiropractic?
References
Gröber, U., Werner, T., Vormann, J., & Kisters, K. (2017). Myth or Reality-Transdermal Magnesium?. Nutrients, 9(8), 813. https://doi.org/10.3390/nu9080813
National Institutes of Health Office of Dietary Supplements. (2022). Magnesium. Retrieved from https://ods.od.nih.gov/factsheets/Magnesium-HealthProfessional/#h2
Kuriyama, A., Maeda, H., & Sun, R. (2019). Topical application of magnesium to prevent intubation-related sore throat in adult surgical patients: a systematic review and meta-analysis. Application topique de magnésium pour prévenir les maux de gorge liés à l’intubation chez les patients chirurgicaux adultes: revue systématique et méta-analyse. Canadian journal of anaesthesia = Journal canadien d’anesthesie, 66(9), 1082–1094. https://doi.org/10.1007/s12630-019-01396-7
Athavale, A., Miles, N., Pais, R., Snelling, P., & Chadban, S. J. (2023). Transdermal Magnesium for the Treatment of Peripheral Neuropathy in Chronic Kidney Disease: A Single-Arm, Open-Label Pilot Study. Journal of palliative medicine, 26(12), 1654–1661. https://doi.org/10.1089/jpm.2023.0229
Engen, D. J., McAllister, S. J., Whipple, M. O., Cha, S. S., Dion, L. J., Vincent, A., Bauer, B. A., & Wahner-Roedler, D. L. (2015). Effects of transdermal magnesium chloride on quality of life for patients with fibromyalgia: a feasibility study. Journal of integrative medicine, 13(5), 306–313. https://doi.org/10.1016/S2095-4964(15)60195-9
Kass, L., Rosanoff, A., Tanner, A., Sullivan, K., McAuley, W., & Plesset, M. (2017). Effect of transdermal magnesium cream on serum and urinary magnesium levels in humans: A pilot study. PloS one, 12(4), e0174817. https://doi.org/10.1371/journal.pone.0174817
Do individuals with muscle pain know the difference between heat stroke and heat exhaustion and can find ways to stay cool?
Introduction
As the temperature rises worldwide, many individuals are enjoying their time outside and getting more sun in their lives. However, rising temperatures also mean the rise of heat-related illnesses. The two most common heat-related illnesses are heat stroke and heat exhaustion, which can impact an individual’s musculoskeletal system and have different symptoms in terms of severity. Today’s article focuses on the differences between these two heat-related illnesses, how they affect the musculoskeletal system and treatments to stay cool while reducing muscle pain. We discuss with certified associated medical providers who consolidate our patients’ information to assess heat-related illnesses associated with muscle pain. We also inform and guide patients while asking their associated medical provider intricate questions to integrate treatments and ways to stay cool when temperatures rise and reduce muscle pain. Dr. Jimenez, D.C., includes this information as an academic service. Disclaimer.
Heat Exhaustion VS Heat Stroke
By understanding the differences between heat stroke and heat exhaustion is crucial. Do you often feel overheated after simple activities? Have you experienced muscle pain or cramps? Or do you struggle to cool down? These are all signs of heat-related illnesses. Heat-related illnesses often occur when the body cannot dissipate heat, leading to dysfunctional thermoregulation. (Gauer & Meyers, 2019) The two most common types are heat exhaustion and heat stroke. While they share similar causes, they differ significantly in terms of severity, symptoms, and treatment. (Prevention, 2022)
Heat exhaustion is a mild condition that often occurs when the human body loses excessive water and salt from profusely sweating. This causes the external temperatures to be more moderate when associated with intense physical activity. (Leiva & Church, 2024) Additionally, when a person is dealing with heat exhaustion, some of the symptoms that they will experience include:
Heavy sweating
Fatigue
Headaches
Muscle cramps
Pale, cool, moist skin
Fast, weak pulse
Even though heat exhaustion is a mild heat-related condition, it can develop into severe heat-related conditions like heat stroke if not treated immediately. Heat stroke is a severe heat-related illness that is not only life-threatening buthas two forms that can affect a person’s body temperature: classic and exertional. Classic heat stroke often affects elderly individuals who have chronic medical conditions, while exertional heat stroke affects healthy individuals who are doing strenuous physical activities. (Morris & Patel, 2024) Some of the symptoms associated with heat stroke include:
High body temperature (104°F or higher)
Hot, red, dry skin
Rapid, strong pulse
Confusion
Seizures
Loss of consciousness
How Do Both Conditions Affect The Muscles?
Both heat-related illnesses can have a significant effect on the musculoskeletal system and cause muscle pain to not only the extremities but also the entire body system. The issue affects the musculoskeletal system and can lead to painful muscle cramps, involuntary muscle contractions, and muscle pain. Since muscle pain is a multi-factorial condition, heat-related illnesses like heat stroke and exhaustion can influence a person’s lifestyle and comorbid health factors. (Caneiro et al., 2021) When that happens, many individuals can seek treatments to stay cool from heat exhaustion and heat stroke and reduce muscle pain.
Secrets Of Optimal Wellness-Video
Treatments For Staying Cool & Reduce Muscle Pain
While it is important to understand the difference between heat stroke and heat exhaustion due to the crucial timing and effective interventions, finding various treatments to reduce muscle pain and find ways to stay cool is important. Many individuals can wear technology to monitor the person’s physiological status actively and prevent injuries while providing early detection for heat-related illnesses. (Dolson et al., 2022) This can reduce the chances of muscle pain and help regulate body temperature. For individuals dealing with heat exhaustion, they can:
Move to a cooler environment
Be well-hydrated with water and electrolyte-rich drinks
Rest
Wear cool clothes to lower body temperature
For individuals dealing with heat stroke, they can:
Call emergency services immediately
Apply cool clothes or ice packs to the body
Monitor vital signs
Both treatments can ensure positive results in preventing life-threatening situations that can affect the musculoskeletal system.
Conclusion
Given the significant impact both heat stroke and heat exhaustion can have on the musculoskeletal system, it’s essential to take proactive measures. Proper hydration, cooling, and rest can help manage and alleviate muscle pain associated with these heat-related illnesses. By staying informed, maintaining hydration, and taking proactive steps to protect yourself from excessive heat, you can significantly reduce the chances of these heat-related illnesses affecting your outdoor activities.
References
Caneiro, J. P., Bunzli, S., & O’Sullivan, P. (2021). Beliefs about the body and pain: the critical role in musculoskeletal pain management. Braz J Phys Ther, 25(1), 17-29. https://doi.org/10.1016/j.bjpt.2020.06.003
Dolson, C. M., Harlow, E. R., Phelan, D. M., Gabbett, T. J., Gaal, B., McMellen, C., Geletka, B. J., Calcei, J. G., Voos, J. E., & Seshadri, D. R. (2022). Wearable Sensor Technology to Predict Core Body Temperature: A Systematic Review. Sensors (Basel), 22(19). https://doi.org/10.3390/s22197639
Can physical therapies help relieve muscle contractures in individuals who have endured prolonged bed rest, inactivity, or lack of use of certain muscle groups?
Muscle Contracture
A muscle contracture, or contracture deformity, is caused when a muscle loses elasticity. This causes permanent shortening and tightening of muscle fibers, which reduces flexibility and makes movement difficult. Muscles that cannot move and stretch cause the surrounding joints to lose mobility and develop pain symptoms. When trying to stretch the contracted muscle, the individual will feel the muscle become very rigid, which can increase pain. (Lieber, R. L., and Fridén, J. 2019) Delaying treatment can potentially cause irreversible and chronic symptoms.
Commonly Affected Muscles
Flexor muscles bend the joints and are those most affected by contractures. The stiffening and tightening prevent the body parts from moving out and away. The most common include:
Wrist and Finger Flexors
Muscle groups that bend the wrist and fingers.
Biceps
The primary elbow flexor that bends the arm.
Gastrocnemius and Soleus
The calf muscles which allow the ankle to point the foot/plantarflexion.
Hamstrings
A group of three muscles behind the thigh that bend the knee.
Causes
The permanent shortening of muscle fibers and changes in muscle structure cause muscle contractures or stiffer-than-normal tissue that is difficult to stretch. Sarcomeres are structural units of muscles that cause fibers to contract.
With contractures, the sarcomeres overly lengthen when the muscle fibers tighten. This increase in sarcomere length prevents the muscle from contracting normally, resulting in weakness. Muscle fibers are encased in an extracellular matrix, a mesh composed of collagen and other proteins that help transmit force and provide muscle contraction. Muscle contractures cause the amount of collagen within the extracellular matrix to increase, causing a stiffening of fibers that restricts movement. (Lieber, R. L., and Fridén, J. 2019)
Muscle contractures also form from decreased satellite cells. Satellite cells are specialized stem cells that can rebuild muscle and are necessary for muscle regeneration and repair. Without the proper amount of satellite cells, other cells like fibroblasts significantly increase in the muscle tissue, causing the fibers to become stiff and fibrotic or more fibrous. These changes to the sarcomeres, collagen within the extracellular matrix, and decreased satellite cells all result from conditions in which neurological input to the brain and spinal cord muscles becomes reduced. This is caused by lack of use, injury, or neurological and neuromuscular conditions. (Lieber, R. L., and Fridén, J. 2019)
Cerebral Palsy
Contractures often occur from upper motor neuron lesions, which prevent signals from the brain and spinal cord from reaching the motor neurons that control muscle contraction. When these signals are weakened or blocked, muscles become stiff and weak from lack of stimulation. (Lieber, R. L., and Fridén, J. 2019)
Cerebral palsy is a group of disorders affecting mobility caused by an upper motor neuron lesion that is present at birth and is the most common motor disability in children. It causes:
Cognitive impairment
Decreased muscle strength
Problems with movement, coordination, and functional motions.
Because cerebral palsy prevents the muscles of the legs from being sufficiently stimulated, contractures commonly develop in the hips, knees, and ankles. Individuals can have a 75% decrease in satellite cells to repair muscle tissue and prevent muscle fibrosis or stiffening. Specific genes linked to collagen production are also altered, causing irregular changes to the extracellular matrix of muscles. (Lieber, R. L., and Fridén, J. 2019)
Muscular Dystrophy
Muscular dystrophy is a group of inherited neuromuscular disorders characterized by muscle weakness and wasting. Deficient nerve supply to muscles causes them to become stiff and tight, inhibiting the functional range of motion needed to move joints and activate muscles to move. Clinical research suggests that individuals with muscular dystrophy have decreased levels of satellite cells to repair, increasing the risk of developing muscle contracture. (Lieber, R. L., and Fridén, J. 2019)
Disuse-induced Muscle Wasting or Disuse Atrophy
When muscles are not used for some time because of hospitalization, prolonged bed rest, or immobilization from wearing braces, splints, or casts after injuries, the blood circulation and electrical signaling from nerves to muscles decreases. This results in weakness, increased muscle tightness and stiffness, and muscle wasting/atrophy. Over time, stiff and tight muscles can progress to contractures that become extremely difficult to stretch.
Trauma or Injury
Muscle or tendon injuries can cause contractures as scar tissue develops, joining muscle fibers and joints together. This can significantly restrict movement. Large burns can also cause skin, muscles, and joint contractures. The range of motion can become significantly limited, and the changes can become irreversible if not aggressively treated.
Other Causes
Other forms of upper motor neuron lesions that can cause contractures because of weak or blocked electrical input to muscles as a result of brain or spinal cord damage include:
Neuromuscular disorders like spinal muscular atrophy – SMA.
Conditions that cause inflammation and joint stiffening, like juvenile rheumatoid arthritis.
A history of diabetes also increases the risk of developing contractures affecting finger flexors, like Dupuytren’s contractures and stenosing tenosynovitis
or trigger finger. (Lieber, R. L., and Fridén, J. 2019)
Symptoms
Symptoms include:
Extremely stiff and tight muscles resistant to stretching.
Pain from the inability to stretch.
Loss of range of motion.
Impaired joint mobility.
Severe contractures can interfere with the functional range of motion needed to move joints to complete normal tasks and movements, such as standing up from a chair and walking.
Treatment
Physical Therapy
Physical therapies can help reduce the severity through stretching and soft tissue mobilization to decrease tightness. (Lieber, R. L., and Fridén, J. 2019)
Specialized braces or splints can be custom-made to fit different body parts.
These provide a prolonged low-intensity stretch over a period of time to increase muscle length.
Once the muscle has stretched, a new brace or splint may be needed to adjust to the increased range of motion. (Lieber, R. L., and Fridén, J. 2019)
Surgery
In severe cases where muscle contractures limit the functional range of motion needed for activities of daily living or ADLs, surgical release of the contracted tissue may be recommended. This surgery can improve functional movements like walking, getting in and out of bed, and standing up from chairs. The tight muscles can be surgically cut, and the tendons can be lengthened to allow more mobility. (Lieber, R. L., and Fridén, J. 2019)
The causes of muscle contracture are not always avoidable, but various treatment options are available to help loosen up tight muscles and preserve or restore the range of motion. It’s important to move daily and stretch common areas like the fingers, arms, and legs to reduce the risk of muscle tightness and prevent contractures from developing. It is imperative to seek medical treatment for severe contractures resulting from neuromuscular disorders, including physical and occupational therapy, to prevent contractures from worsening and regaining as much functional range as possible.
Injury Medical Chiropractic and Functional Medicine Clinic uses an integrated approach personalized to the individual that focuses on what works for them and treats injuries and chronic pain syndromes through personalized care plans that improve ability through flexibility, mobility, and agility programs to relieve pain. Our providers use an integrated approach to create personalized care plans for each patient, including Functional Medicine, Acupuncture, Electro-Acupuncture, and Sports Medicine principles. Our goal is to relieve pain naturally by restoring health and function to the body. If other treatment is needed, Dr. Jimenez has teamed up with top surgeons, clinical specialists, medical researchers, and rehabilitation providers to provide the most effective treatments.
Chiropractic Treatment for Cerebral Palsy
References
Lieber, R. L., & Fridén, J. (2019). Muscle contracture and passive mechanics in cerebral palsy. Journal of applied physiology (Bethesda, Md. : 1985), 126(5), 1492–1501. https://doi.org/10.1152/japplphysiol.00278.2018
Can incorporating electrical muscle stimulation help control pain, strengthen muscles, increase physical function, retrain lost movements, and/or manage inflammation for individuals experiencing neck and back pain?
Female doctor placing myostimulation physical therapy equipment on patient’s back
Electric Muscle Stimulation
Electrical muscle stimulation or E-stim is a physical therapy used to reactivate the muscles’ ability to contract. E-stim uses devices that transmit electrical impulses through the skin to target nerves and/or muscles. The most common forms include
Transcutaneous electric nerve stimulation, or TENS, is the most well-known type of electrical stimulation that offers devices that can be used at home or on the go.
Electrical muscle stimulation or EMS.
In physical therapy, E-stim stimulates muscles to contract, strengthening them and encouraging blood circulation.
Blood circulation can directly affect the condition of muscle tissue.
Electrical muscle stimulation is also used in spinal cord injury and other neuromuscular conditions. (Ho, C. H. et al., 2014)
E-stim
During treatment, electrodes are hooked to an electric stimulation machine and placed around the affected neck or back area.
The electrodes will be placed on the skin for most neck or back injuries.
The placement of the electrodes depends on the reason for treatment and the depth or superficiality of the electrical stimulation.
The electrodes are often placed near a motor point of a muscle to ensure the correct contraction.
The therapist will adjust the controls of the stimulation machine to achieve thorough muscle contraction with minimal discomfort.
Stimulation can last 5 – 15 minutes, depending on the treatment plan and injury severity.
Spinal Joint Stabilization
Activation of the muscles may help increase spinal joint stability, improving problems with spinal instability. (Ho, C. H. et al., 2014) Electric muscle stimulation is thought to enhance the exercise program a therapist prescribes to help maintain joint stability. Electrical stimulation may also help build muscle strength and endurance. (Veldman, M. P. et al., 2016) Muscle endurance is the repetitions a muscle can contract before it fatigues.
Healing and Pain Management
Electric muscle stimulation therapy can enhance tissue healing and help manage inflammation by reducing swelling and increasing circulation. It can reduce pain sensations by blocking nerve transmission at the spinal cord. (Johnson, M. I. et al., 2019) A healthcare professional may suggest a TENS or take-home electric stimulation unit to manage symptoms. (Johnson, M. I. et al., 2019)
Treatment
Interdisciplinary therapies tailored to an individual’s specific back or neck pain have been found to provide positive results. Exercise, yoga, short-term cognitive behavioral therapy, biofeedback, progressive relaxation, massage, manual therapy, and acupuncture are recommended for neck or back pain. (Chou, R. et al., 2018) Taking non-steroidal anti-inflammatory medications may also help. Electrical muscle stimulation could be an effective neck or back treatment.
Individuals unsure whether they need or would benefit from electrical should discuss symptoms and conditions with a primary physician, healthcare provider, or specialist to guide them in the right direction and determine the best treatment. Injury Medical Chiropractic and Functional Medicine Clinic focuses on what works for the patient and strives to better the body through researched methods and total wellness programs. Using an integrated approach, we treat injuries and chronic pain syndromes through personalized care plans that improve ability through flexibility, mobility, and agility programs personalized to the individual to relieve pain. If other treatment is needed, Dr. Jimenez has teamed up with the top surgeons, clinical specialists, medical researchers, and premier rehabilitation providers to provide the most effective treatments.
Thoracic Spine Pain
References
Ho, C. H., Triolo, R. J., Elias, A. L., Kilgore, K. L., DiMarco, A. F., Bogie, K., Vette, A. H., Audu, M. L., Kobetic, R., Chang, S. R., Chan, K. M., Dukelow, S., Bourbeau, D. J., Brose, S. W., Gustafson, K. J., Kiss, Z. H., & Mushahwar, V. K. (2014). Functional electrical stimulation and spinal cord injury. Physical medicine and rehabilitation clinics of North America, 25(3), 631–ix. https://doi.org/10.1016/j.pmr.2014.05.001
Veldman, M. P., Gondin, J., Place, N., & Maffiuletti, N. A. (2016). Effects of Neuromuscular Electrical Stimulation Training on Endurance Performance. Frontiers in physiology, 7, 544. https://doi.org/10.3389/fphys.2016.00544
Johnson, M. I., Jones, G., Paley, C. A., & Wittkopf, P. G. (2019). The clinical efficacy of transcutaneous electrical nerve stimulation (TENS) for acute and chronic pain: a protocol for a meta-analysis of randomised controlled trials (RCTs). BMJ open, 9(10), e029999. https://doi.org/10.1136/bmjopen-2019-029999
Chou, R., Côté, P., Randhawa, K., Torres, P., Yu, H., Nordin, M., Hurwitz, E. L., Haldeman, S., & Cedraschi, C. (2018). The Global Spine Care Initiative: applying evidence-based guidelines on the non-invasive management of back and neck pain to low- and middle-income communities. European spine journal : official publication of the European Spine Society, the European Spinal Deformity Society, and the European Section of the Cervical Spine Research Society, 27(Suppl 6), 851–860. https://doi.org/10.1007/s00586-017-5433-8
Can athletic individuals incorporate MET (muscle energy techniques) therapy to reduce the pain-like effects of adductor strain?
Introduction
The body’s lower extremities have an important role as they provide stability and mobility to the individual. Many athletes utilize their lower extremities by adding much power to exert the energy to win matches or competitions. The various muscles, soft tissues, ligaments, and joints help support the body’s skeletal structure and can succumb to injuries from repetitive motions or environmental factors. One of the muscles that can be affected by constant repetitive motions and environmental factors is the adductor muscles, which can cause many athletes to be in continuous pain and affect their performance during competitions. Luckily, there is a technique that many treatments offer to reduce muscle strain in the adductors and provide relief to the lower extremities. Today’s article looks at how adductor strain can affect many individuals, how MET therapy can help with an adductor strain, and its positive effect on athletic individuals. We discuss with certified medical providers who consolidate our patients’ information to assess the pain-like effects of an adductor strain in the lower extremities. We also inform and guide patients on how MET therapy can help stretch and strengthen tight adductor muscles to reduce strain and provide relief. We also encourage our patients to ask their associated medical providers many intricate and important questions about incorporating MET and other non-surgical therapies into their personalized treatment plan for a healthier lifestyle. Dr. Jimenez, D.C., includes this information as an academic service. Disclaimer.
How Does Adductor Strain Affect Individuals?
Do you feel tightness along your thighs and legs after a long day at work? Do you experience instability when walking from one location to another? Or do you feel pain when stretching your thighs that causes temporary relief? Many individuals experiencing pain in their lower extremities will often think it is hip pain, but their adductor muscles are in pain. The adductor muscles consist of three muscles that provide torque to the lower extremities by allowing them to move inward when a person is walking and help keep the trunk muscles steady. So, when many athletes begin to make constant repetitive motions while performing, it can cause issues for the adductors. As a common injury to many athletes, adductor strain can put exaggerated stress on the actual tendon, leading to biomechanical abnormalities affecting the musculoskeletal system. (Kiel & Kaiser, 2024a) Also, when athletes start to use constant repetitive motions during an increased volume or intensity of the training workload, it can cause stress factors in the lower extremities. (Kiel & Kaiser, 2024b) This, in turn, can have many individuals feel like they are experiencing hip and groin pain when it is, in fact, stress fractures in the adductor muscles causing myofascial pain.
So, for athletic individuals dealing with adductor strain, primary doctors need to differentiate between adductor strain and regular muscle strain in the lower extremities, as the pain symptoms sometimes have overlapping risk profiles with acute onset pain symptoms associated with distinct injury mechanisms. (McHugh et al., 2023) This is because when athletes overuse their adductor muscles, it causes pain, as many injuries within the adductors are associated with the hips and groin region. (Koscso et al., 2022) However, there are ways for athletes to find the relief they seek to reduce adductor strain and return to their routine.
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How MET Therapy Helps With Adductor Strain
For athletes and individuals engaged in physical activity, MET therapy can be a valuable part of the recovery process for adductor strain. MET (muscle energy technique) therapy, a form of osteopathic manipulative medicine, is used by pain specialists such as chiropractors, massage therapists, and sports physicians to alleviate pain symptoms in the musculoskeletal system. By using gentle, controlled muscle contractions, these specialists can improve musculoskeletal function by mobilizing joints, stretching tight muscles and fascia, and improving circulation and lymphatic flow. (Waxenbaum et al., 2024) Many pain specialists, including chiropractors and massage therapists, incorporate MET therapy into their practices due to its effectiveness in addressing muscular imbalances and alignment issues that contribute to pain and limited mobility in the lower extremities.
The Positive Effect Of MET Therapy
One of the positive effects of MET therapy for adductor strain is that when athletes and individuals start to utilize it as part of their recovery, their pain is reduced, and muscle mobility is increased since there are changes in the viscoelastic properties in the soft tissue. (Thomas et al., 2019) For the adductor muscles, MET therapy helps with:
Increasing muscle length & flexibility
Reduce muscle tension
Improving blood flow and promoting healing
Enhance joint function
MET therapy, when incorporated for pain relief for adductor strain, can put many individuals at ease as it actively focuses on muscle relaxation, lengthening, and strengthening the affected muscles. MET therapy can be combined with other therapies in a person’s personalized treatment plan to enhance mobility, be mindful of what is causing pain and discomfort to their bodies, and live a healthier lifestyle.
Koscso, J. M., McElheny, K., Carr, J. B., 2nd, & Hippensteel, K. J. (2022). Lower Extremity Muscle Injuries in the Overhead Athlete. Curr Rev Musculoskelet Med, 15(6), 500-512. https://doi.org/10.1007/s12178-022-09786-z
McHugh, M. P., Nicholas, S. J., & Tyler, T. F. (2023). Adductor Strains in Athletes. Int J Sports Phys Ther, 18(2), 288-292. https://doi.org/10.26603/001c.72626
Thomas, E., Cavallaro, A. R., Mani, D., Bianco, A., & Palma, A. (2019). The efficacy of muscle energy techniques in symptomatic and asymptomatic subjects: a systematic review. Chiropr Man Therap, 27, 35. https://doi.org/10.1186/s12998-019-0258-7
Can individuals dealing with muscle pain find relief from acupuncture therapy to get back to their daily activities and well-being?
Introduction
Many people worldwide have dealt with pain in their musculoskeletal system that has affected their daily routine. Some of the most common factors that people have experienced muscle pain include sedentary lifestyles from working at a desk job or physical demands from an active lifestyle. The muscles, tendons, ligaments, and soft tissues can become overstretched and overworked, causing the muscles to become weak. At the same time, visceral somatic issues in the neck, shoulders, and back can affect the upper and lower extremities, leading to a life of disability. Many factors that can contribute to the development of muscle pain can impact a person’s routine and cause them to find various techniques to reduce the muscle pain in their bodies. Since muscle pain can be in acute or chronic form, many individuals who are seeking treatment for their ailments can look into non-surgical therapies like acupuncture to not only reduce muscle pain but also find the relief they are looking for. Today’s article focuses on how muscle pain can affect a person’s well-being, how the essence of acupuncture can be beneficial for muscle pain, and how people can integrate acupuncture therapy as part of a wellness routine. We talk with certified medical providers who consolidate our patients’ information to assess how muscle pain can impact a person’s well-being. We also inform and guide patients on how acupuncture therapy can benefit the body by reducing the effects of muscle pain. We encourage our patients to ask their associated medical providers intricate and important questions about incorporating acupuncture therapy into a wellness routine to reduce muscle pain and its referred symptoms. Dr. Jimenez, D.C., includes this information as an academic service. Disclaimer.
How Muscle Pain Can Affect A Person’s Well-Being
Do you feel the effects of tiredness and weakness in your upper and lower extremity muscles? Have you experienced general soreness or aches in your neck, shoulders, or back? Or does twisting and turning your body cause temporary relief to your body, only for it to be worse throughout the day? When it comes to muscle pain can be a multi-factorial condition where that can involve complex interactions on a person’s structure, physical, social, lifestyle, and comorbid health factors that can come into play as contributing factors for people to experience long-term pain and disability. (Caneiro et al., 2021) As many individuals start to do repetitive motions or stay in sedentary positions, muscle pain can develop when they stretch or try to move their muscles while doing their routine. The burden of muscle pain often correlates with socioeconomic factors that can cause many people, both young and old, to substantially limit their mobility and engagement in their routine, which predisposes increased risk factors to other chronic conditions they may have. (Dzakpasu et al., 2021)
When many individuals are dealing with muscle pain in its acute or chronic form, many often don’t realize that when the affected muscles in the upper and lower body quadrants are coping with pain, there is associated pain and stiffness from how active or inactive the muscles are can affect the soft tissue causing high mechanical stress to the affect the skeletal joints. (Wilke & Behringer, 2021) When this happens, many people will start to experience referred muscle pain in their bodies, causing issues with their mobility, flexibility, and stability. Coincidentally, muscle pain can also be a symptom of many people who have various pains in their bodies that have impacted their lives prior; seeking treatment can reduce the effects of muscle pain and help them take back their routine to lead a healthier lifestyle.
Movement Medicine- Video
The Essence Of Acupuncture For Muscle Pain
When many people are dealing with muscle pain, they are seeking treatments that are not only affordable but also can be effective in reducing the overlapping risk profiles that are affecting the body, causing muscle pain. Many treatments like chiropractic care, decompression, and massage therapy are non-surgical and are effective through consecutive sessions. One of the oldest and most effective treatments that can help reduce muscle pain in the body is acupuncture therapy. Acupuncture is a holistic treatment derived from Traditional Chinese Medicine that utilizes small, solid, thin needles inserted by professional acupuncturists to various acupoints. The main philosophy is that acupuncture provides relief to the body as it helps improve the body’s energy flow while maintaining a person’s overall health and vitality. (Zhang et al., 2022) When a person is dealing with muscle pain, the muscle fibers can develop tiny nodules known as trigger points that can induce pain in the affected muscle quadrants. With acupuncture needles placed in the affected area, local and referred pain is reduced, muscle blood flow and oxygen are returned to the body, and the muscle’s range of motion is improved. (Pourahmadi et al., 2019) Some of the benefits that acupuncture therapy provides include:
Increased circulation
Inflammation reduction
Endorphin release
Relaxing muscle tension
Integrating Acupuncture As Part Of A Wellness Routine
Many individuals who are seeking acupuncture therapy as part of their wellness journey can see the positive benefits of acupuncture and can combine it with other therapies to reduce the chances of muscle pain from returning. While acupuncture can help stimulate the nerves and restore motor function, treatments like joint mobilization can help stretch the affected muscles and joints to improve the body’s range of motion. (Lee et al., 2023) With many individuals seeking acupuncture treatment to reduce muscle pain, many can make small changes in their routine to prevent the pain from causing overlapping risk profiles to their bodies. When addressing the root causes of pain and promoting the body’s innate healing abilities, acupuncture can help restore balance, alleviate discomfort, and enhance overall well-being.
References
Caneiro, J. P., Bunzli, S., & O’Sullivan, P. (2021). Beliefs about the body and pain: the critical role in musculoskeletal pain management. Braz J Phys Ther, 25(1), 17-29. https://doi.org/10.1016/j.bjpt.2020.06.003
Dzakpasu, F. Q. S., Carver, A., Brakenridge, C. J., Cicuttini, F., Urquhart, D. M., Owen, N., & Dunstan, D. W. (2021). Musculoskeletal pain and sedentary behaviour in occupational and non-occupational settings: a systematic review with meta-analysis. Int J Behav Nutr Phys Act, 18(1), 159. https://doi.org/10.1186/s12966-021-01191-y
Lee, J. E., Akimoto, T., Chang, J., & Lee, H. S. (2023). Effects of joint mobilization combined with acupuncture on pain, physical function, and depression in stroke patients with chronic neuropathic pain: A randomized controlled trial. PLOS ONE, 18(8), e0281968. https://doi.org/10.1371/journal.pone.0281968
Pourahmadi, M., Mohseni-Bandpei, M. A., Keshtkar, A., Koes, B. W., Fernandez-de-Las-Penas, C., Dommerholt, J., & Bahramian, M. (2019). Effectiveness of dry needling for improving pain and disability in adults with tension-type, cervicogenic, or migraine headaches: protocol for a systematic review. Chiropr Man Therap, 27, 43. https://doi.org/10.1186/s12998-019-0266-7
Wilke, J., & Behringer, M. (2021). Is “Delayed Onset Muscle Soreness” a False Friend? The Potential Implication of the Fascial Connective Tissue in Post-Exercise Discomfort. Int J Mol Sci, 22(17). https://doi.org/10.3390/ijms22179482
Zhang, B., Shi, H., Cao, S., Xie, L., Ren, P., Wang, J., & Shi, B. (2022). Revealing the magic of acupuncture based on biological mechanisms: A literature review. Biosci Trends, 16(1), 73-90. https://doi.org/10.5582/bst.2022.01039
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With contractures, the sarcomeres overly lengthen when the muscle fibers tighten. This increase in sarcomere length prevents the muscle from contracting normally, resulting in weakness. Muscle fibers are encased in an extracellular matrix, a mesh composed of collagen and other proteins that help transmit force and provide muscle contraction. Muscle contractures cause the amount of collagen within the extracellular matrix to increase, causing a stiffening of fibers that restricts movement. (
