Skeletal muscles attached to the arms, legs, neck, back, and trunk bones are voluntary and consciously controlled. Weakness or inability to control these muscles can signal a health issue like a neuromuscular disorder or electrolyte imbalance. Can recognizing the symptoms can help healthcare providers develop effective treatment programs?
Voluntary Muscles
Voluntary muscles are the skeletal muscles that attach to bones and control movement of the limbs, head, neck, and body under an individual’s conscious control. Skeletal muscles are controlled by neuromuscular signals from the brain that communicate with individual muscle fibers and cause them to contract.
Difference
Voluntary muscles are skeletal muscles that contract and relax under conscious control.
These muscles attach to bones and regulate movement of the body.
Involuntary muscles are not under conscious control.
Involuntary muscles involve automatic internal processes needed for survival, like controlling blood vessels and organs like the heart, lungs, and digestive system.
They contract and relax automatically and receive signals from the autonomic nervous system, which regulates internal bodily functions.
Voluntary
Voluntary muscles are skeletal muscles that comprise 40% of the body’s weight and 50% to 75% of the body’s proteins. These muscles can convert chemical and mechanical energy to cause voluntary muscle contraction and movement. (Trovato F.M. et al., 2016) Skeletal muscle comprises fascicles or bundled units of multiple muscle fibers or muscle cells. Each muscle fiber consists of a cross-banded structure further divided into myofibrils containing thick myosin and thin actin myofilaments, which give the muscle its stripe appearance, and the structure gives the characteristic striated structure. (Trovato F.M. et al., 2016) Muscle contraction occurs when these myofilaments move closer together, stimulated by the release of the neurotransmitter acetylcholine from nerve cells that communicate with the muscle fiber.
Involuntary
The autonomic nervous system controls involuntary muscles, regulating their contraction and relaxation. This system also controls the activity of organs and blood vessels for essential daily functions, including breathing, circulation, digestion, heartbeat regulation, and urination. Most involuntary muscles are composed of smooth muscles. Smooth muscles do not have the striated structure of skeletal muscles and consist of sheets or layers of smooth muscle cells. When the autonomic nervous system stimulates these muscle cells to contract by releasing hormones or other chemical signals, smooth muscle cells shorten through the movement of actin and myosin myofilaments. Involuntary smooth muscles include the blood vessel walls, diaphragm, intestines, and bladder. (Webb R. C. 2003) One exception of an involuntary muscle is the myocardium, or heart muscle. The myocardium comprises a specialized cardiac muscle cell found only in the heart. Cardiac muscle is striated like skeletal muscle but is controlled by the autonomic nervous system and pacemaker cells, causing it to contract automatically and rhythmically.
Weakened Voluntary Muscles
Skeletal muscle diseases, neuromuscular disorders, and other causes can weaken muscles. Neuromuscular or skeletal muscle disorders affect the nerves that send electrical signals to voluntary skeletal muscles to control movement. When the nerves are damaged, communication between the nerves and muscles becomes disrupted. This can result in significant muscle weakness, atrophy, and loss of function. Most neuromuscular disorders are genetic or caused by issues with the immune system. Nerves communicate with muscles through the release of neurotransmitters at the neuromuscular junction, which is the space between a nerve cell and muscle fiber. Neuromuscular disorders can damage the nerve or the neuromuscular junction. Neuromuscular disorder symptoms can include: (Cleveland Clinic, 2023)
Numbness and tingling
Muscle weakness
Muscle twitches, cramps, or spasms
Muscle pain
Muscle atrophy
Decreased coordination
Balance problems
Drooping eyelids and double vision from eye muscle weakness.
Difficulty swallowing due to weakness of the pharynx.
Difficulty breathing due to weakness of the diaphragm.
Common Neuromuscular Disorders
Amyotrophic Lateral Sclerosis – ALS
More commonly known as Lou Gehrig’s disease, it is a genetic disorder that results from hardening of the spinal cord.
It causes damage to the nerves that control muscles and voluntary movement.
Charcot-Marie-Tooth Disease
This is a class of peripheral nerve disorders that cause muscle weakness, atrophy, and loss of sensation, most commonly in the legs and feet.
It is a genetic disorder caused by a gene mutation that damages myelin, or the insulating sheath that surrounds all nerves and supports the conduction of electrical signals.
Multiple Sclerosis – MS
MS causes degeneration of the myelin sheath surrounding nerves, decreasing the impulses along the nerves to muscles.
It can result in muscle weakness, which is often more severe on the dominant side of the body.
There are different forms of MS, but the condition is often progressive and gets worse over time if left untreated.
Muscular Dystrophies
These are genetic diseases characterized by gradual loss of motor function, muscle weakness and atrophy, walking gait problems, progressive respiratory failure, and cardiomyopathy.
There are nine types of muscular dystrophy, all caused by genetic mutations.
Myasthenia Gravis
This is an autoimmune disease that causes inflammation throughout the body.
An autoimmune disease occurs when the immune system attacks healthy cells by mistake.
With myasthenia gravis, the body produces antibodies that attack the receptors for acetylcholine, reducing the body’s ability to contract muscles.
This leads to muscle weakness, atrophy, and fatigue.
Myopathies
These are diseases of muscles that cause muscle weakness and atrophy.
Depending on the type, they may progress and get worse over time.
Electrolyte Imbalances
Muscle weakness can result from altered sodium, potassium, calcium, or magnesium levels.
Always seek immediate medical attention for any sudden, unexplained muscle weakness. Individuals who experience skeletal muscle weakness should discuss the type and duration of symptoms with their doctor, specialist, physical therapist, or chiropractor, as this might be a sign of a medical condition such as a neuromuscular disorder. Working with a chiropractic team can help expedite healing. Injury Medical Chiropractic and Functional Medicine Clinic works with primary healthcare providers and specialists to develop a personalized treatment program through an integrated approach to treat injuries and chronic pain syndromes, improving flexibility, mobility, and agility, relieving pain, and helping individuals return to normal activities. 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.
Chiropractic Massage Therapy
References
Trovato FM, I. M., Conway N, Castrogiovanni P. (2016). Morphological and functional aspects of human skeletal muscle. J Funct Morphol Kinesiol., 1(3), 289-302. https://doi.org/https://doi.org/10.3390/jfmk1030289
Webb R. C. (2003). Smooth muscle contraction and relaxation. Advances in physiology education, 27(1-4), 201–206. https://doi.org/10.1152/advan.00025.2003
For individuals who are dealing with constant constipation due to medications, stress, or lack of fiber, can walking exercise help encourage regular bowel movements?
Walking For Constipation Assistance
Constipation is a common condition. Too much sitting, medications, stress, or not getting enough fiber can result in infrequent bowel movements. Lifestyle adjustments can regulate most cases. One of the most effective ways is to incorporate regular moderate-vigorous exercise, encouraging the bowel muscles to contract naturally (Huang, R., et al., 2014). This includes jogging, yoga, water aerobics, and power or brisk walking for constipation alleviation.
The Research
A study analyzed middle-aged obese women who had chronic constipation over a 12-week period. (Tantawy, S. A., et al., 2017)
The first group walked on a treadmill 3 times a week for 60 minutes.
The second group did not engage in any physical activity.
The first group had greater improvement in their constipation symptoms and quality of life assessments.
A gut bacteria imbalance is also linked to constipation issues. Another study focused on the effect of brisk walking versus exercises that strengthened core muscles like planks on intestinal microbiota composition. (Morita, E., et al., 2019) The results showed that aerobic exercises like power/brisk walking can help increase intestinal Bacteroides, an essential part of healthy gut bacteria. Studies have shown a positive effect when individuals engage in at least 20 minutes of brisk walking daily. (Morita, E., et al., 2019)
Exercise Can Help Decrease Colon Cancer Risks
Physical activity can be a significant protective factor in decreasing colon cancer. (National Cancer Institute. 2023) Some estimate the risk reduction to be 50%, and exercise can even help prevent recurrence after a colon cancer diagnosis, also 50% in some studies for patients with stage II or stage III colon cancer. (Schoenberg M. H. 2016)
The best effects were obtained through moderate-intensity exercise, such as power/brisk walking, about six hours per week.
Mortality was reduced by 23% in individuals who were physically active for at least 20 minutes several times a week.
Inactive colon cancer patients who began exercising after their diagnosis had significantly improved outcomes than individuals who remained sedentary, showing that it is never too late to start exercising.(Schoenberg M. H. 2016)
The most active patients had the best outcomes.
Exercise-Related Diarrhea Prevention
Some runners and walkers experience an overly active colon, resulting in exercise-related diarrhea or loose stools, known as runner’s trots. Up to 50% of endurance athletes experience gastrointestinal problems during intense physical activity. (de Oliveira, E. P. et al., 2014) Prevention steps that can be taken include.
Not eating within two hours of exercising.
Avoid caffeine and warm fluids before exercising.
If sensitive to lactose, avoid milk products or use Lactase.
Ensure the body is well-hydrated before exercise.
Hydrating during exercise.
If exercising in the morning:
Drink about 2.5 cups of fluids or a sports drink before bed.
Drink about 2.5 cups of fluids after waking up.
Drink another 1.5 – 2.5 cups of fluids 20-30 minutes before exercising.
Drink 12-16 fluid ounces every 5-15 minutes during exercise.
If exercising for over 90 minutes:
Drink a 12 – 16 fluid-ounce solution containing 30-60 grams of carbohydrates, sodium, potassium, and magnesium every 5-15 minutes.
Professional Help
Periodic constipation may resolve with lifestyle adjustments like increased fiber intake, physical activity, and fluids. Individuals who are experiencing bloody stools or hematochezia, have recently lost 10 pounds or more, have iron deficiency anemia, have positive fecal occult/hidden blood tests, or have a family history of colon cancer need to see a healthcare provider or specialist to perform specific diagnostic tests to ensure there aren’t any underlying issues or serious conditions. (Jamshed, N. et al., 2011) Before engaging in walking for constipation assistance, individuals should consult their healthcare provider to see if it is safe for them.
At Injury Medical Chiropractic and Functional Medicine Clinic, our areas of practice include Wellness & Nutrition, Chronic Pain, Personal Injury, Auto Accident Care, Work Injuries, Back Injury, Low Back Pain, Neck Pain, Migraine Headaches, Sports Injuries, Severe Sciatica, Scoliosis, Complex Herniated Discs, Fibromyalgia, Chronic Pain, Complex Injuries, Stress Management, Functional Medicine Treatments, and in-scope care protocols. We focus on what works for you to achieve improvement goals and create an improved body through research methods and total wellness programs. If other treatment is needed, individuals will be referred to a clinic or physician best suited to their injury, condition, and/or ailment.
Poop Testing: What? Why? and How?
References
Huang, R., Ho, S. Y., Lo, W. S., & Lam, T. H. (2014). Physical activity and constipation in Hong Kong adolescents. PloS one, 9(2), e90193. https://doi.org/10.1371/journal.pone.0090193
Tantawy, S. A., Kamel, D. M., Abdelbasset, W. K., & Elgohary, H. M. (2017). Effects of a proposed physical activity and diet control to manage constipation in middle-aged obese women. Diabetes, metabolic syndrome and obesity : targets and therapy, 10, 513–519. https://doi.org/10.2147/DMSO.S140250
Morita, E., Yokoyama, H., Imai, D., Takeda, R., Ota, A., Kawai, E., Hisada, T., Emoto, M., Suzuki, Y., & Okazaki, K. (2019). Aerobic Exercise Training with Brisk Walking Increases Intestinal Bacteroides in Healthy Elderly Women. Nutrients, 11(4), 868. https://doi.org/10.3390/nu11040868
National Cancer Institute. (2023). Colorectal Cancer Prevention (PDQ(R)): Patient Version. In PDQ Cancer Information Summaries. https://www.cancer.gov/types/colorectal/patient/colorectal-prevention-pdq
https://www.ncbi.nlm.nih.gov/pubmed/26389376
Schoenberg M. H. (2016). Physical Activity and Nutrition in Primary and Tertiary Prevention of Colorectal Cancer. Visceral medicine, 32(3), 199–204. https://doi.org/10.1159/000446492
de Oliveira, E. P., Burini, R. C., & Jeukendrup, A. (2014). Gastrointestinal complaints during exercise: prevalence, etiology, and nutritional recommendations. Sports medicine (Auckland, N.Z.), 44 Suppl 1(Suppl 1), S79–S85. https://doi.org/10.1007/s40279-014-0153-2
Jamshed, N., Lee, Z. E., & Olden, K. W. (2011). Diagnostic approach to chronic constipation in adults. American family physician, 84(3), 299–306.
Individuals that have experienced a muscle strain, pull, spasm, etc., that has healed can begin to behave overly cautious, avoiding putting full weight on the area or using full motion out of fear of re-injuring it. This can and does strain other body areas because of the imbalance and awkward positioning. It also leads to anxiety, emotional distress, and decreased self-confidence in everyday movement. Adjustments, massage, and decompression therapy can maintain musculoskeletal health, and a chiropractor can help retrain individuals on healthy posture and confident movement.
Muscle Guarding
Muscles can be held in a position of readiness to act, like the stress response of fight or flight. When this happens, the muscles are partially contracted in preparation for action and is a form of muscle-guarding. But once the fight or flight passes, the muscles relax into their normal position. With injury muscle guarding, the fears and stresses after recovering from an injury can cause the injured and non-injured muscles to stay in the guarded/semi-contracted position. The longer the muscle guarding continues, fatigue begins to set in, decreasing function, restricting mobility, and making the body more vulnerable to damage and injury.
The Brain
The discomfort, pain, or just the thought reinforces the need to guard the area. The brain will find a way to move without causing pain and create compensating but unhealthy movement patterns that strain the other areas of the body. The body adapts to not using the formerly injured muscles and now relies on the other muscles to perform the functions in a non-relaxed state that can become normal, causing stiffness, soreness, tenderness, tendon tension, and pain.
An example is a hip strain, pull or spasm that has been treated and has healed, but the individual is fearful of another injury or going through the painful experience again and begins walking by shifting all their weight to the other side and steps with a limp or some abnormal motion that strains and/or injures the rest of the body.
Chiropractic Treatment and Retraining
Individuals experiencing muscle guarding can find help through chiropractic to retrain their muscles to return to their normal position and regain confidence in their movements. The body will be rebalanced by releasing and relaxing the tight muscles. Then therapeutic repetitive movements, specialized exercises, stretches, and relaxation techniques will help the individual relearn to use the muscles without fear.
Protective Muscle Guarding
References
Hanlon, Shawn et al. “Examining Ankle-Joint Laxity Using 2 Knee Positions and With Simulated Muscle Guarding.” Journal of athletic training vol. 51,2 (2016): 111-7. doi:10.4085/1062-6050-51.3.06
Olugbade, Temitayo et al. “The relationship between guarding, pain, and emotion.” Pain reports vol. 4,4 e770. 22 Jul. 2019, doi:10.1097/PR9.0000000000000770
Prkachin, Kenneth M et al. “Pain behavior and the development of pain-related disability: the importance of guarding.” The Clinical journal of pain vol. 23,3 (2007): 270-7. doi:10.1097/AJP.0b013e3180308d28
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