Lying down on the couch or bed when the lower leg seizes with intense sensations and pain that doesn’t stop, and the muscle could be hard to the touch. When trying to move the leg, it feels paralyzed. Nocturnal leg cramps, called muscle spasms or Charley horses, occur when one or more leg muscles tighten involuntarily. Individuals can be awake or asleep when a leg cramp strikes. Chiropractic treatment, decompression, and massage therapies can help relieve symptoms, stretch and relax the muscles, and restore function and health.
Nocturnal Leg Cramps
Nocturnal leg cramps most often affect the gastrocnemius/calf muscle. However, they can also affect the muscles in the front of the thigh/quadriceps and the back of the thigh/hamstrings.
Often, the tight muscle relaxes in less than 10 minutes.
The leg and area can feel sore and tender afterward.
Frequent calf cramps at night can cause sleep problems.
Nocturnal leg cramps are more common among women and older adults.
Causes
There are no known exact cause/s, making most cases idiopathic. However, there are known factors that can increase the risk. These can include:
Prolonged Sitting and Position
Sitting with the legs crossed or the toes pointed for long periods shortens/pulls the calf muscles, which can cause cramping.
Prolonged Standing and Posture
Individuals standing for long periods are likelier to experience nocturnal cramps from the stressed muscles.
Muscle Overexertion
Too much exercise can create an overworked muscle and can contribute to cramps.
Muscles need to be stretched regularly to function correctly.
Lack of physical activity for long periods weakens the muscles, making them more susceptible to injury.
Shortening The Tendons
The tendons, which connect muscles and bones, shorten naturally over time.
Without stretching, this could lead to cramping.
Cramps may be related to foot position when sleeping, with the feet and toes extending away from the body, known as plantar flexion.
This shortens the calf muscles, making them more susceptible to cramping.
Leg cramps at night are unlikely a sign of a more serious medical condition, but they are associated with the following conditions:
Musculoskeletal disorders.
Structural issues – flat feet or spinal stenosis.
Metabolic disorders like diabetes.
Pregnancy.
Medications – statins and diuretics.
Neurological disorders, like motor neuron disease or peripheral neuropathy.
Neurodegenerative disorders.
Liver, kidney, and thyroid conditions.
Cardiovascular conditions.
Chiropractic and Physical Therapy
Rehabilitation with chiropractic, massage, and physical therapy depends on the severity of the injury and condition. A chiropractic treatment plan can include the following:
Calf muscle stretching.
Targeted Stretch Exercises.
Progressive calf stretching exercises – a regular stretching and flexibility program will increase the range of motion and prevent future calf injuries.
Foam rolling – gentle self-massage with a foam roller can help reduce spasms and improve blood circulation.
Percussive massage.
Muscle strengthening exercises will build muscle strength and coordination to prevent future strain injuries.
At-home therapy can include:
Maintain Hydration
Fluids allow for normal muscle function.
Individuals may need to adjust how much fluid is drunk based on weather, age, activity level, and medications.
Change Sleeping Position
Individuals should avoid sleeping in positions in which the feet are pointing downward.
Try sleeping on the back with a pillow behind the knees.
Self Massage
Massaging the affected muscles will help them relax.
Use one or both hands or a massage gun to knead and loosen the muscles gently.
Stretching
Various stretches will maintain the treatment, help keep the muscles relaxed and retrain the muscles.
Stationary Cycle
A few minutes of easy pedaling can help loosen the leg muscles before bed.
Walking on the Heels
This will activate the muscles on the other side of the calf, allowing the calves to relax.
Supportive Footwear
Poor footwear can aggravate issues with the nerves and muscles in the feet and legs.
Orthotics may help.
Heat Application
Heat can soothe tight muscles and increases blood flow to the area.
Apply a hot towel, water bottle, heating pad, or muscle topical cream to the affected area.
A warm bath or shower (if available, shower massage setting) can also help.
Sciatica Secrets Revealed
References
Allen, Richard E, and Karl A Kirby. “Nocturnal leg cramps.” American family physician vol. 86,4 (2012): 350-5.
Butler, J V et al. “Nocturnal leg cramps in older people.” Postgraduate medical journal vol. 78,924 (2002): 596-8. doi:10.1136/pmj.78.924.596
Garrison, Scott R et al. “Magnesium for skeletal muscle cramps.” The Cochrane Database of systematic reviews vol. 2012,9 CD009402. Sep 12, 2012, doi:10.1002/14651858.CD009402.pub2
Giuffre BA, Black AC, Jeanmonod R. Anatomy, Sciatic Nerve. [Updated 2023 May 4]. In: StatPearls [Internet]. Treasure Island (FL): StatPearls Publishing; 2023 Jan-. Available from: www.ncbi.nlm.nih.gov/books/NBK482431/
Handa, Junichi, et al. “Nocturnal Leg Cramps and Lumbar Spinal Stenosis: A Cross-Sectional Study in the Community.” International Journal of general medicine vol. 15 7985-7993. Nov 1 2022, doi:10.2147/IJGM.S383425
Hsu D, Chang KV. Gastrocnemius Strain. [Updated 2022 Aug 22]. In: StatPearls [Internet]. Treasure Island (FL): StatPearls Publishing; 2023 Jan-. Available from: www.ncbi.nlm.nih.gov/books/NBK534766/
Mayo Clinic Staff. (2019). Night leg cramps. mayoclinic.org/symptoms/night-leg-cramps/basics/causes/sym-20050813
Monderer, Renee S et al. “Nocturnal leg cramps.” Current Neurology and Neuroscience report vol. 10,1 (2010): 53-9. doi:10.1007/s11910-009-0079-5
Regular exercise and physical activity help with cardiovascular health, improved mood, better management of chronic conditions, and can help digestion. For individuals with any GI distress or inflammatory bowel disease that has caused digestive enzyme deficiencies, exercise, and physical movement have been found to provide digestive aid. Here we look at activities to help digestion.
Exercises To Help Digestion
When exercising the body, the cardiac output/volume of blood the heart pumps every minute increases as the demand for oxygenated blood throughout the body increases, particularly in the working muscles. During exercise, the same increase in blood circulation happens within the digestive system’s muscle groups. The blood flow to digestive organs causes peristalsis, which is involuntary constriction and relaxation of the muscles in the digestive tract. This process helps move food efficiently through the gastrointestinal tract. Exercise supports the growth of beneficial gut bacteria to maintain a healthy digestive system.
Exercise helps relieves stress which means lower amounts of cortisol.
Research has found that elevated cortisol levels are associated with compromised digestive function.
Tai chi has been shown to improve immune function and inflammation of the gut and is a helpful tool for maintaining homeostasis/gut balance.
This is a form of moderate-intensity exercise and meditative practice.
The emphasis is on slow controlled movements and deep breathing.
This makes it recommended for individuals looking to improve digestion and those with gastrointestinal conditions.
Pilates
Pilates is the practice that targets abdominal muscles and utilizes diaphragmatic breathing to help individuals perform a series of movements to strengthen and elongate the body’s muscles.
Individuals who perform this exercise often report relief from bloating and gas.
Whether new to exercise or returning, a plan can help you get there. Meeting with a fitness trainer or sports chiropractor is a great place to begin if you have limited knowledge about what works best for your body and schedule.
A certified trainer can help guide you toward an achievable program that focuses on gut health.
Individuals with a GI disorder should talk with their doctors before starting a new exercise plan.
This does not mean you can’t do intense exercises like running; you’ll want to work with a doctor to set up a program that doesn’t cause flare-ups.
Aim for roughly three hours of moderate-intensity weekly exercise to support a healthy digestive system.
Sit less and move more.
Do at least two or more muscle-strengthening activities of moderate intensity every week.
Cherpak, Christine E. “Mindful Eating: A Review Of How The Stress-Digestion-Mindfulness Triad May Modulate And Improve Gastrointestinal And Digestive Function.” Integrative medicine (Encinitas, Calif.) vol. 18,4 (2019): 48-53.
Drouin, Jacqueline S et al. “Comparisons between Manual Lymph Drainage, Abdominal Massage, and Electrical Stimulation on Functional Constipation Outcomes: A Randomized, Controlled Trial.” International Journal of environmental research and public health vol. 17,11 3924. June 1. 2020, doi:10.3390/ijerph17113924
Hamasaki, Hidetaka. “Exercise and gut microbiota: clinical implications for the feasibility of Tai Chi.” Journal of integrative medicine vol. 15,4 (2017): 270-281. doi:10.1016/S2095-4964(17)60342-X
Joyner, Michael J, and Darren P Casey. “Regulation of increased blood flow (hyperemia) to muscles during exercise: a hierarchy of competing physiological needs.” Physiological Reviews vol. 95,2 (2015): 549-601. doi:10.1152/physrev.00035.2013
LeBouef T, Yaker Z, Whited L. Physiology, Autonomic Nervous System. [Updated 2023 May 1]. In: StatPearls [Internet]. Treasure Island (FL): StatPearls Publishing; 2023 Jan-. Available from: www.ncbi.nlm.nih.gov/books/NBK538516/
Singhal, Rashi, and Yatrik M Shah. “Oxygen battle in the gut: Hypoxia and hypoxia-inducible factors in metabolic and inflammatory responses in the intestine.” The Journal of biological chemistry vol. 295,30 (2020): 10493-10505. doi:10.1074/jbc.REV120.011188
van Wijck, Kim, et al. “Physiology and pathophysiology of splanchnic hypoperfusion and intestinal injury during exercise: strategies for evaluation and prevention.” American Journal of Physiology. Gastrointestinal and liver physiology vol. 303,2 (2012): G155-68. doi:10.1152/ajpgi.00066.2012
The musculoskeletal system, comprising muscles, tissues, and ligaments, works with the brain from the central nervous system to provide mobility, stability, and function to the upper and lower extremities. However, pathogens, injuries, or traumas related to environmental factors can lead to overlapping risk profiles and musculoskeletal pain, causing disability and discomfort to individuals. Fortunately, many people opt for non-surgical treatments to alleviate pain and restore their bodies. This article delves into how pain affects muscles and tissues, how chronic conditions related to muscle and tissue pain, and how non-surgical treatments can ease such pain. We work with certified medical providers who use our patients’ valuable information to provide non-surgical treatments for muscle and tissue pain affecting the musculoskeletal system. We encourage patients to ask essential questions and seek education from our associated medical providers about their condition. Dr. Jimenez, D.C., provides this information as an educational service. Disclaimer
How Does Pain Affect The Muscles & Tissues
Do you experience muscle or tissue strain from reaching high places or neck and back pain from prolonged phone or computer use? Have you recently lifted a heavy object and now feel discomfort in your back muscles? These are all common forms of musculoskeletal pain that can affect various body parts. Symptoms can often vary depending on the severity of the pain, and research studies revealed that chronic musculoskeletal pain can be complex and either nociceptive or neuropathic. When muscle and tissue pain occurs, it can misalign the upper and lower regions of the body and cause muscle groups to work harder to alleviate the discomfort. This can lead to spinal subluxation and haywire nerve roots.
Now research studies mentioned that many individuals dealing with musculoskeletal pain often report decreased productivity or have to change or quit their jobs due to the pain. The symptoms that are correlated with muscle and tissue pain include:
Tenderness and weakness
Steady aches
Random sharp pains
Inflammation
Fatigue
Tingling
Numbness
Joint issues
Various symptoms similar to pain can affect the muscles and tissues throughout the body. These symptoms can be widespread or localized to specific areas associated with the musculoskeletal system. The central nervous system is also impacted since the nerve roots are connected to the muscles and tissues in the musculoskeletal system. The nerve roots originate from the spinal cord and intertwine with muscle and tissue fibers, which can cause them to become trapped. This can result in stiff and contracted muscles, leading to chronic muscle and tissue pain.
Chronic Conditions Associated With Muscle & Tissue Pain
Experience muscle and tissue pain that affects the nerve roots. It may be due to chronic conditions like myofascial pain, sciatic nerve pain, herniated disc, or other musculoskeletal-related issues. Research studies suggest that this type of pain can be localized, regional, or widespread and can move from one spot to another, leading to sensory abnormalities and chronic conditions. Environmental factors like occupational hazards can also cause chronic muscle and tissue pain. For instance, desk jobs, truck drivers, and construction workers may experience pain due to overworking or overstretched muscle and tissue fibers, poor posture, and excessive sitting. This discomfort and pain in the extremities can be relieved with proper care and treatment.
From Injury To Recovery With Chiropractic Care- Video
Musculoskeletal pain can affect the muscle, tissue fibers, and nerve roots. If you experience this type of pain due to environmental factors, treatments are available to help alleviate the pain and reduce symptoms in your upper and lower extremities. While surgical or invasive treatments like spinal surgery or nerve root blocker injections are options, they can be costly and cause stress for some individuals. However, some non-invasive treatments, like chiropractic care, use gentle manual manipulation to stretch affected muscles and release pain, providing relief and allowing for natural healing. The video above talks more about non-invasive treatments for musculoskeletal pain.
Non-Surgical Treatments For Muscle & Tissue Pain
Research studies revealed that non-surgical treatments are crucial for enhancing recovery and overall well-being, as musculoskeletal pain can significantly impact one’s quality of life. Non-surgical treatments are safe, gentle, and cost-effective for those experiencing musculoskeletal pain affecting their muscles and tissue fibers. These treatments can also be personalized and combined with other corresponding therapies to reduce pain and restore muscle and tissue function. Here are some non-surgical treatments that may be helpful.
Therapeutic Wavelengths
Dr. Perry Bard, D.C., and Dr. Eric Kaplan, D.C., FIAMA, explained in their book “The Ultimate Spinal Decompression” that therapeutic wavelengths are a safe and non-invasive way to provide deficient muscles and tissue fibers with necessary nutrients and to relax affected surrounding muscles. The book also highlights that therapeutic wavelengths can promote healing in aging, sick, injured, or malfunctioning tissues and muscles. There are several benefits to therapeutic wavelengths, including:
Water retention
Hemoglobin absorption
Regulating melanin
Restoring connective tissue
Laser Therapy
Research studies have revealed that low-level laser therapy can alleviate the effects of overused muscles and tissues by reducing inflammation and oxidative stress. This therapy emits a gentle, warming light that stimulates the body’s natural healing process by promoting effective cellular function. Benefits of low-level laser therapy include:
Accelerate tissue repair
Increased reduction of fibrous tissue formation
Increase anti-inflammatory response
Improve nerve function
Restore muscle tone
Spinal Decompression
If you’re experiencing musculoskeletal pain due to nerve root compression between muscle and tissue fibers, spinal decompression could be a non-surgical solution that helps. This treatment involves gentle traction that stretches the spine, which can help to reduce fatigue in your muscles and tissues. Research shows that spinal decompression can help rehydrate your spine, relieve pain in your upper and lower extremities, and allow your muscle and tissue fibers to stretch and feel relief from the effects of musculoskeletal pain.
Conclusion
Various environmental factors can affect the muscles and tissues in the musculoskeletal system, resulting in pain-like symptoms. These can be caused by injuries, trauma, or overlapping risk profiles, making individuals unable to work. Fortunately, non-surgical treatments can help alleviate the affected muscles and tissue fibers, providing a safe, gentle, and cost-effective means of restoring the body and promoting healing. These treatments can also be combined with other therapies to enhance an individual’s health and wellness journey.
Healthy aging has been linked to a lifestyle consisting of proper nutrition and exercise. However, even with a healthy lifestyle, the body undergoes changes that include conditions, disease, and compromises in physical performance. Because of the effects of aging on muscle and joint tissue, cardiovascular fitness, and other physical parameters, older athletes need to take consideration, but this doesn’t mean slowing down. Injury Medical Chiropractic and Functional Medicine Clinic can develop a training and treatment plan to build and maintain musculoskeletal system health, flexibility, and optimal function.
Older Athletes
Research has shown that the physical and mental declines that go with aging can be reduced with fitness and nutrition programs and that it is not too late to start improving fitness, no matter what age. Systemic changes that happen to an aging body include:
Nervous System
Imbalances happen more easily and more often.
Sensation changes.
Musculoskeletal System
Bone Strength Decreases.
Muscle Strength Decreases.
Flexibility issues occur more frequently.
Respiratory System
Decreased Vital or Breathing Capacity of Lungs – The maximum amount of air that can be exhaled after a full inhalation.
Cardiovascular System
Maximum Heart Rate slows down.
A slower return to resting heart rate after and during physical activity and exercise.
Maintaining Endurance
Common aging fitness declines include:
Changes in body composition.
Increased body fat.
Decreased muscle mass.
Loss of height – can be brought on by osteoporosis.
Diminished cardiorespiratory capacity.
Muscle atrophy.
Research has found that when seniors start to exercise, their health improves quickly. It’s estimated that the physical declines associated with aging are not necessarily inevitable but can also happen by losing fitness/deconditioning effects from reduced exercise levels, frequency, and/or intensity. Despite the losses, older athletes are often able to compete and excel in endurance activities because they tend to have higher proportions of slow twitch fibers.
Memory and Fitness
Evidence suggests that seniors who exercise reduce the physical effects of aging and prevent their brain/memory from advanced degeneration.
Physical fitness has been linked with reduced memory decline in middle-aged adults.
Training Options
Training methods to maintain athletic performance.
Hill Running or Interval Training
This type of training can improve fitness and condition the aerobic and anaerobic systems.
Weight Training
Weight training maintains muscle tone, fast twitch muscle fibers, and strength.
Supplements may help improve performance during repetitive, intense exercise sessions.
Nutrition
Aging causes the joints to become less flexible, resulting in a range of motion loss leading to limitations and compromised physical abilities. Proper nutrition in older athletes can protect the joints and prevent advanced degeneration. The following nutrients are recommended:
Omega-3’s – nuts, seeds, and fatty fish provide anti-inflammatory effects.
Vitamin C for collagen production.
Sulfur amino acids – certain vegetables, meat, poultry, fish, and dairy products improve joint cartilage health.
Bioflavonoids – all fruit and vegetables provide anti-inflammatory effects and improved circulation.
Antioxidants – selenium and vitamin E protect against free radicals that multiply with age.
Supplements may also be helpful but check with a doctor before beginning a program.
Move Better, Live Better
References
Gillis, Angela, and Brenda MacDonald. “Deconditioning in the hospitalized elderly.” The Canadian nurse vol. 101,6 (2005): 16-20.
Lexell, J. “Human aging, muscle mass, and fiber type composition.” The Journal of Gerontology. Series A, Biological Sciences and medical sciences vol. 50 Spec No (1995): 11-6. doi:10.1093/gerona/50a.special_issue.11
Marriott, Catherine F S, et al. “High-Intensity Interval Training in Older Adults: a Scoping Review.” Sports medicine – open vol. 7,1 49. 19 Jul. 2021, doi:10.1186/s40798-021-00344-4
Rogers, Michael E et al. “Balance training for the older athlete.” International Journal of sports physical therapy vol. 8,4 (2013): 517-30.
Tayrose, Gregory A et al. “The Master’s Athlete: A Review of Current Exercise and Treatment Recommendations.” Sports Health vol. 7,3 (2015): 270-6. doi:10.1177/1941738114548999
Townsend, Danyelle M et al. “Sulfur-containing amino acids and human disease.” Biomedicine & pharmacotherapy = Biomedicine & pharmacotherapy vol. 58,1 (2004): 47-55. doi:10.1016/j.biopha.2003.11.005
Van Roie, Evelien, et al. “An age-adapted plyometric exercise program improves dynamic strength, jump performance and functional capacity in older men either similarly or more than traditional resistance training.” PloS one vol. 15,8 e0237921. 25 Aug. 2020, doi:10.1371/journal.pone.0237921
Wu, Tingting, and Yanan Zhao. “Associations between functional fitness and walking speed in older adults.” Geriatric nursing (New York, N.Y.) vol. 42,2 (2021): 540-543. doi:10.1016/j.gerinurse.2020.10.003
Breathing nourishes the whole body and regulates important functions like heart rate and blood pressure. It also reinforces proper body mechanics to lessen the stress on the body when moving. Busy lives combined with sedentary work and lifestyle can condition the body to take only quick, shallow breaths, which can weaken lung muscles and cause tension to build, worsening posture and leading to other adverse symptoms and conditions. Learning deep breathing can positively affect heart rate, mental alertness, and blood pressure and improve posture. Injury Medical Chiropractic and Functional Medicine Clinic can create personalized postural treatment and training plans.
Breathing and Posture
Inhalation causes the lungs to get filled with air, and exhalation releases and empties the lungs. For the lungs to work optimally, the rib cage needs to expand constantly in a gentle, rhythmic way. The respiratory muscle/diaphragm muscle needs to go up and down with each breath cycle. This can only happen when the muscle is not contracted or tense. Tension in the upper body can increase unhealthy postures and undermine health. Continued unhealthy postures at school, work, and home will compress the ribs, intercostal muscles, diaphragm, and base of the neck. This prevents the ribcage from expanding fully, which impairs optimal breathing. Over time, the strength of the respiratory muscles weakens.
Healthy Posture
Proper body alignment reduces strain on supportive structures like ligaments, muscles, joints, and discs. A healthy posture allows individuals to breathe more easily, move more efficiently, relax, and sleep better.
Symptoms Of Unhealthy Posture
Research shows that prolonged practice of unhealthy posture can lead to health problems, including:
Aching and chronic pain in the back, neck, and shoulders.
Tight, sore muscle knots/trigger points.
Tension headaches, limited sleep, and digestive problems.
Brain fog.
Shifting moods.
Digestive problems.
Breathing from the chest relies on secondary muscles around the neck and collarbone instead of the diaphragm. Shallow breathing patterns accompanied by unhealthy postures cause muscles in the upper body to function improperly. The longer the body sits, the less the body can resist the force of gravity and maintain a stable core. Tight muscles around the chest cause rounded shoulders and forward head posture, further weakening the muscles that help maintain an upright posture. Chest and rib discomfort symptoms can result from the tight intercostal muscles and inadequate expansion of the ribs.
Chiropractic Treatment
Shallow breathing can be reversed by regular physical activity, and sessions of respiratory muscle training will help to improve posture and quality of life. Deep or belly breathing involves learning to use the abdominal muscles. Inhaling slowly and deeply through the nose fills the lungs with air and expands the stomach. Learning to breathe deep regularly provides benefits like stress reduction, improved cardiovascular health, stronger lungs, and improved cognitive performance.
Posture correction techniques relieve back and neck pain, improve muscle and joint function, maintain brain health, increase mood stability, and improve spinal health.
Learning how to breathe deeply takes practice.
One beginning technique is to breathe deeply and count to 4 before slowly releasing the breath with another count to 4.
Individuals will notice their abdomen, ribs, and chest push forward as they breathe.
The shoulders, neck, and spine properly align during this action.
Place a hand on the abdomen to check for correct breathing.
It should move outwards slightly as air fills the lungs.
Real Patients, Real Results
References
Albarrati, Ali, et al. “Effect of Upright and Slouched Sitting Postures on the Respiratory Muscle Strength in Healthy Young Males.” BioMed research international vol. 2018 3058970. 25 Feb. 2018, doi:10.1155/2018/3058970
Aliverti, Andrea. “The respiratory muscles during exercise.” Breathe (Sheffield, England) vol. 12,2 (2016): 165-8. doi:10.1183/20734735.008116
Pickering, Mark, and James F X Jones. “The diaphragm: two physiological muscles in one.” Journal of Anatomy vol. 201,4 (2002): 305-12. doi:10.1046/j.1469-7580.2002.00095.x
Sheel, A William. “Respiratory muscle training in healthy individuals: physiological rationale and implications for exercise performance.” Sports medicine (Auckland, N.Z.) vol. 32,9 (2002): 567-81. doi:10.2165/00007256-200232090-00003
When the body sustains an injury or a virus, the immune system springs into action by sending out cytokines to the affected area and causes a process known as inflammation. Inflammation in the body is good for eliminating numerous pathogens, damaged cellular structures, viruses, or infections. Inflammation causes the affected area to be warm to the touch and causes swelling that will decrease in the recovery state. However, inflammation in the body can be positive and negative depending on the severity of the injury. When inflammation is in its chronic form, it can cause muscle and tissue damage to the musculoskeletal system while being associated with other conditions in the body’s system, like the gastrointestinal, nervous, and reproductive systems. In today’s article, we will focus on how chronic inflammation affects the body’s muscles and how the MET technique can help relieve muscle inflammation in soft tissues. We utilize valuable information about our patients to certified medical providers who use methods like MET combined with manual stretching therapy to reduce inflammation associated with musculoskeletal conditions. We encourage patients by referring them to our associated medical providers based on their findings. We support that education is a marvelous way to ask our providers the most interesting questions at the patient’s acknowledgment. Dr. Alex Jimenez, D.C., incorporates this information as an educational service. Disclaimer
How Inflammation Works In The Body
Have you been experiencing pain in different muscle areas in your body? What about dealing with aches and pains in the morning? Or do your muscles feel tight and hurt more when you bend to pick up an object? Many of these issues affecting the musculoskeletal system are associated with inflammation. As stated earlier, inflammation can positively and negatively impact the body depending on the severity of the injury. Inflammation is a natural healing process for the body that is characterized by redness, swelling, and heat to the soft tissues so that they can be repaired within a few days to weeks. Studies reveal that when the body deals with various pathogenic factors, the immune system releases inflammatory cytokines to the pathogenic factor and starts to heal the affected area.
Inflammation helps the sprained muscle tissues heal naturally and can be healed within 2-3 days to a few weeks in its acute stage. However, when inflammation is in a chronic state of the body, it causes damage to not only the affected muscle and tissue areas but can even affect the surrounding ligaments, joints, and vital organs. A great example is when a person has a sprained ankle, the affected area swells up, becomes red, and is tender to the touch when its acute inflammation. For chronic inflammation, the body is in constant pain that can be slow and long, and it takes several months to years to heal. Another great example would be gut disorders associated with chronic muscle inflammation.
What Does Chronic Inflammation Do To The Body’s Muscles?
So what does chronic inflammation do to the body’s muscles, and how does it affect the surrounding structures? According to research studies, chronic inflammation has been associated with musculoskeletal disorders that can cause an impact in reducing muscle strength and muscle mass. When this happens, it can cause the muscles to weaken and generate the surrounding muscle groups to compensate by working harder. This leads to misalignment in the body and causes overlapping risk profiles in the various muscle groups. In “Clinical Applications of Neuromuscular Techniques,” Dr. Leon Chaitow, N.D., D.O., and Dr. Judith Walker DeLany, L.M.T., stated that numerous factors associated with inflammation could impact how a person sleeps, eat, and function throughout the day. The book also noted that when pathogens can disrupt the natural cycling between the defensive and repair modes of inflammation correlating with the immune system can be disrupted in ill health. A chronic inflammatory cytokine shift could lock the body into a pro-inflammatory state.
Reducing Inflammation In The Body- Video
Have you been dealing with constant inflammation in your muscles? Do you feel muscle weakness or strain when you are in motion? Or do other portions of your body starts to feel aches or pains? Many of these issues are associated with chronic inflammation affecting the musculoskeletal system. Inflammation is part of the immune system’s natural defense that sends cytokines to the affected area and starts the healing process. Inflammation has two patterns: acute and chronic. Acute inflammation is associated with sprains from a twisted ankle or wrist, a sore throat, or an infection. While at the same time, chronic inflammation is associated with muscle pain, sleep disorders, or rashes that affect the skin. When the body is suffering from chronic inflammation, it can be due to many overlapping factors that can cause the body to be in pain. Luckily numerous treatments can help the body and reduce the effects of inflammation. The video above explains how incorporating an anti-inflammatory diet and chiropractic care can help reduce chronic inflammation effects in the body.
The MET Technique & Muscle Inflammation
Regarding chronic muscle inflammation, the musculoskeletal system deals with numerous symptoms like pain, stiffness, and weakness associated with various pathological factors. Chronic inflammation can develop from insufficient sleep, eating high-cholesterol foods, not getting enough exercise, and being stressed, which can affect the body and its systems. Fortunately, numerous available treatments can reduce inflammation. Studies reveal that treatments like MET therapy can help reduce pain correlated with muscle inflammation and increase the range of motion to the joints. The body can reduce the effects of chronic inflammation and keep it under control when MET therapy is combined with an anti-inflammatory diet. Also, practicing mindfulness can help reduce the stress contributing to chronic inflammation, which can help relax the body and naturally heal itself. Making these small changes can benefit many individuals trying to be healthier.
Conclusion
When it comes to inflammation in the musculoskeletal system, it can lead to overlapping risk profiles that can cause the body to be misaligned and have many pain-like symptoms that can make a person’s life miserable. Since inflammation is part of the immune system’s natural response to fight off infections, incorporating anti-inflammatory diets and MET stretching can help reduce the effects of inflammation and help the body heal itself from the inside out.
References
Chaitow, Leon, and Judith Walker DeLany. Clinical Applications of Neuromuscular Techniques. Churchill Livingstone, 2003.
Chen, Linlin, et al. “Inflammatory Responses and Inflammation-Associated Diseases in Organs.” Oncotarget, U.S. National Library of Medicine, 14 Dec. 2017, www.ncbi.nlm.nih.gov/pmc/articles/PMC5805548/.
Thomas, Ewan, et al. “The Efficacy of Muscle Energy Techniques in Symptomatic and Asymptomatic Subjects: A Systematic Review.” Chiropractic & Manual Therapies, U.S. National Library of Medicine, 27 Aug. 2019, www.ncbi.nlm.nih.gov/pmc/articles/PMC6710873/.
Tuttle, Camilla S L, et al. “Markers of Inflammation and Their Association with Muscle Strength and Mass: A Systematic Review and Meta-Analysis.” Ageing Research Reviews, U.S. National Library of Medicine, 26 Sept. 2020, pubmed.ncbi.nlm.nih.gov/32992047/.
Pretty much everyone experiences a muscle cramp at some point. A muscle cramp is an involuntarily contracted muscle that does not relax, similar to a spasm, but a cramp lasts longer and is usually a forcible contraction. During a cramp, the muscles tighten without voluntary input from the brain and over-tighten. They can last anywhere from a few seconds to an hour or longer. They can be prevented through adequate nutrition and hydration, attention to safety when engaged in physical activity or exercise, and attention to posture and ergonomics. Injury Medical Chiropractic and Functional Medicine Clinic can develop personalized treatment plans for individuals experiencing musculoskeletal issues.
Muscle Cramp
Muscle cramps can occur in any muscle. The cramp may involve a portion of a muscle, the entire muscle, or several muscles that function together. A muscle or a few tissue fibers that involuntarily contracts is in a spasm. If the spasm is forcefully sustained, it turns into a cramp. They can cause a noticeable and/or hardening of the involved muscle/s. They can be experienced as mild twitches or can be excruciatingly painful. Some can involve the simultaneous contraction of muscles that normally move body parts in opposite directions. It is not uncommon for a cramp to flare up multiple times until it finally stops.
Causes
They can occur during physical activity, exercise, rest, or night, depending on the cause. There are various causes that, include:
Most times, they are not a cause for alarm; however, depending on the individual, their age, type of physical activity, and medical history, cramps could indicate a more serious underlying problem such as a thyroid disorder, liver cirrhosis, atherosclerosis, ALS, or a problem or condition of the spine or spinal nerves.
Muscles Involved
The muscles involved can indicate the mechanism and cause.
If the cramp is triggered by fatigue, a drop in muscle glycogen, dehydration, or an electrolyte imbalance, it’s most frequently to the calf muscles, feet, or back of the thigh/hamstring muscles.
This is typically due to a combination of fatigue and dehydration.
If it is triggered by nerve irritation, like a spinal disc injury, cramps tend to present in the forearm, hand, calf, and foot, depending on whether the disc injury is in the neck or lower back.
If there is a joint sprain in the neck, mid-back, or lower back, the cramp will present where the injury is and around the surrounding muscles.
A calf cramp happens when lying down because the foot points down, shortening the calf muscles.
A shortened muscle is more likely to go into spasm, especially if it is exhausted from activities and if the body is dehydrated, which is pretty common.
For two muscles that work together performing the same movement, called agonists, and the one muscle is weaker, the secondary muscle has to work harder, often going into a spasm or cramp from the added stress.
For example, if the buttock/gluteal muscles are weak, the hamstrings eventually spasm when exhausted.
Chiropractic
First, the cause needs to be identified through medical history and examination. There can be an underlying nerve irritation and interference, restricting the muscle or muscle group, which needs to be dealt with for the therapy to be effective. Chiropractic care, combined with therapeutic stretching and massage therapy, can:
Relieve muscle cramping
Improve blood circulation
Increase muscle movement
Improve musculoskeletal function
All help to diminish and prevent muscle cramping.
Adjustments will restore proper alignment and restore nerve communication. These treatments help to release toxins, loosen and relax the muscle tissues, and provide relief.
Say Goodbye to Pain With Chiropractic
References
Blyton, Fiona, et al. “Non-drug therapies for lower limb muscle cramps.” The Cochrane Database of systematic reviews vol. 1,1 CD008496. 18 Jan. 2012, doi:10.1002/14651858.CD008496.pub2
FIELDS, A. “Leg cramps.” California Medicine vol. 92,3 (1960): 204-6.
Garrison, Scott R et al. “Magnesium for skeletal muscle cramps.” The Cochrane Database of systematic reviews vol. 9,9 CD009402. 21 Sep. 2020, doi:10.1002/14651858.CD009402.pub3
Katzberg, Hans D. “Case Studies in Management of Muscle Cramps.” Neurologic clinics vol. 38,3 (2020): 679-696. doi:10.1016/j.ncl.2020.03.011
Miller, Kevin C et al. “An Evidence-Based Review of the Pathophysiology, Treatment, and Prevention of Exercise-Associated Muscle Cramps.” Journal of athletic training vol. 57,1 (2022): 5-15. doi:10.4085/1062-6050-0696.20
Miller, Timothy M, and Robert B Layzer. “Muscle cramps.” Muscle & nerve vol. 32,4 (2005): 431-42. doi:10.1002/mus.20341
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