A joint is where two bones meet. The two sacroiliac or SI joints connect the spine, pelvis, and hips. This strong joint balances and transmits stress from the upper body to the pelvis and legs. The joints can suffer a sprain causing pain and discomfort symptoms. There can also be the feeling of tightness wrapping around the waist and dull aching across the low back as the surrounding muscles tighten up as a form of protection, also known as muscle guarding. A correct diagnosis is vital to avoid any potentially serious complications. Chiropractors are experts on neuromusculoskeletal problems and can treat, heal, and strengthen the body through various MET, mobilization, and manipulation techniques.
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Sacroiliac Sprain
The main function is to balance the upper and lower body forces. The sacroiliac joints are surrounded by muscle, connective tissue, nerves designed to withstand large stresses and a complex system of ligaments, further strengthening the joints.
Injury Causes
Sacroiliac sprains can be caused by direct trauma to the pelvis from a fall or automobile collision or jobs and sports that involve a lot of bending and twisting. However, sometimes there is no distinct cause. Common causes include:
Repetitive microtrauma is excessive/repetitive movements like prolonged twisting, bending, or lifting at work, home, physical activities, and sports.
The joint can be pushed out of alignment.
Muscular imbalance or weakness in the muscles surrounding the sacroiliac joints can cause problems to develop over time, presenting little or no symptoms.
The tissues around a sacroiliac joint also can be stretched or torn.
Trauma such as a fall or road traffic accidents
Problems with the hips, knees, and feet can generate increased pressure on the joint, which can become painful over time due to repetitive strain.
Pregnancy hormones released to promote pelvis relaxation can increase the risk of SI sprain injury.
Excessive stress on the joint can cause microscopic damage to the ligaments surrounding the joint. The joint then becomes inflamed and presents with pain and sensations of discomfort. The body responds by contracting the muscles to prevent further damage. However, the muscle spasms may not stop, resulting in more pain. Referred pain is common from the muscles that go into spasm, with the most affected being the piriformis, gluteal/buttock, and psoas muscles.
Signs and Symptoms
Tenderness over the affected joint and area.
Pain symptoms on one or both sides above the joints and into the buttocks.
Standing or working with increased weight on one leg increases pain symptoms.
Pain after lifting or twisting that develops a little while later.
Pain travels to the back of the leg, front of the thigh, and the groin.
Pain gets worse when sitting and bending forward.
Lying down eases the symptoms.
Most cases report no loss of strength, tingling, or numbing sensations.
Chiropractic Treatment
Chiropractic treatment will relieve the pain symptoms, but there are stages of treatment, each with specific goals before moving to the next.
The objective of the initial stage is to decrease pain and inflammation.
The second stage is stabilizing and restoring proper musculoskeletal function.
Rehabilitation and targeted stretches and exercises will be introduced as the treatment continues.
In the maintenance stage, there should be no pain, and the individual should be able to perform normal daily activities and return to normal life.
Recovery time for a sacroiliac sprain can be 4-6 weeks but can take months to heal completely.
Chiropractic Approach for Pain Relief
References
BIDWELL, A M. “Treatment of sacroiliac sprain by manipulation.” The Medical World vol. 65,1 (1947): 14-6.
Evans, P. “Sacroiliac sprain.” American family physician vol. 48,8 (1993): 1388; author replies 1390.
LeBlanc, K E. “Sacroiliac sprain: an overlooked cause of back pain.” American family physician vol. 46,5 (1992): 1459-63.
Sun, Chao, et al. “Cost and outcome analyses on the timing of first independent medical evaluation in patients with a work-related lumbosacral sprain.” Journal of Occupational and environmental medicine vol. 49,11 (2007): 1264-8. doi:10.1097/JOM.0b013e318156ecdb
The musculoskeletal system allows the various muscle groups to surround the bones and joints through ligaments and muscle tissues that help with mobility and stabilizes the skeletal structure from pain. As the body ages naturally, the muscles, bones, and joints get affected as numerous factors begin to cause the body to be dysfunctional. Many of these factors could take a toll on the body and cause bone mass density loss, leading to osteoporosis. A person experiencing osteoporosis can generate overlapping risk profiles affecting the body’s muscles and joints, leading to painful symptoms. Today’s article looks at osteoporosis, how it affects the muscles and joints, and how numerous treatments can help reduce osteoporosis symptoms. We utilize information about our patients to certified medical providers using MET therapy to mitigate the effects of osteoporosis on the musculoskeletal system. We encourage patients by referring them to associated medical providers based on their diagnosis while supporting that education is a remarkable way to ask our providers the most interesting and essential questions at the patient’s acknowledgment. Dr. Alex Jimenez, D.C., comprises this information as an educational service. Disclaimer
What Is Osteoporosis?
If you’ve been experiencing severe back or hip pain or struggling to breathe, you may be experiencing osteoporosis. This condition causes bones to become porous, making them brittle and weak, and it affects around 200 million people worldwide, with women being more commonly affected than men, as studies revealed. Many risk factors can cause bones to deteriorate quickly and become weaker, leading to an increased risk of fragility, fracture, and muscle and joint pain. Additional studies have revealed that some risk factors that can lead to osteoporosis development include:
Race
Ethnicity
Age
Sex
Metabolic syndrome
Osteoporosis can often go undetected for a long time, with individuals only noticing symptoms such as a forward-curved upper back or a broken bone.
Osteoporosis Affecting The Muscles & Joints
Osteoporosis can affect the body’s bones, muscles, and joints, especially major skeletal portions like the spine, hips, wrists, and shoulders. Studies have shown that individuals with or without trauma can experience symptoms like pain due to osteoporosis caused by hormone deficiency. “Clinical Applications of Neuromuscular Techniques” by Dr. Leon Chaitow, N.D., D.O., and Dr. Judith Walker DeLany, L.M.T., explain that bone density can decrease when bone resorption happens faster than bone formation. This decrease in bone density could lead to joint fractures and cause musculoskeletal disorders that affect a person’s stability and mobility, leading to complaints in the upper and lower body extremities.
An Overview Of Osteoporosis-Video
Are you experiencing pain in your arms or legs? Do your joints ache more than usual or do you have persistent back pain? These symptoms are often associated with osteoporosis, a chronic condition where bones become weak and brittle due to fractures or trauma. Osteoporosis can go undetected for an extended time, and when it affects bone density, it can also impact surrounding muscles and joints, leading to various musculoskeletal conditions. The video above explains osteoporosis, including risk factors and treatment options such as chiropractic care to reduce its effects.
Treatments To Reduce Osteoporosis Symptoms
If you risk developing osteoporosis, it’s best to consult your primary doctor for confirmation. Once confirmed, you have several options for your next steps, such as incorporating exercises, vitamins, minerals, and supplements for bone health, lifestyle changes, and utilizing treatments like MET therapy or chiropractic treatments. MET therapy can help restore bone density and promote a mindful approach to one’s body and lifestyle when combined with proper nutrition and exercise. Studies show that individuals with osteoporosis can use MET therapy to reduce pain and improve range of motion in affected joints. Pain specialists often use MET to stretch and shorten muscles to help restore the body to normal.
Conclusion
Osteoporosis is a chronic silent disease that affects the bones silently, causing pain and correlating with numerous factors that can increase its progression. When bones become porous, weak, and brittle, it can lead to pain-like symptoms in the musculoskeletal system. This can cause chronic issues that misalign the body, leading to mobility and stability problems. Fortunately, numerous ways exist to prevent and reduce the effects of osteoporosis. Some effective measures include incorporating vitamins and supplements for bone health, exercising for 30 minutes to an hour, and getting MET therapy to restore the body’s range of motion. These small changes can greatly impact an individual’s health and wellness journey.
References
Chaitow, Leon, and Judith Walker DeLany. Clinical Applications of Neuromuscular Techniques. Churchill Livingstone, 2003.
Porter, Joann L, and Matthew Varacallo. “Osteoporosis.” In: StatPearls [Internet]. Treasure Island (FL), 4 Sept. 2022, www.ncbi.nlm.nih.gov/books/NBK441901/.
Pouresmaeili, Farkhondeh, et al. “A Comprehensive Overview on Osteoporosis and Its Risk Factors.” Therapeutics and Clinical Risk Management, 6 Nov. 2018, www.ncbi.nlm.nih.gov/pmc/articles/PMC6225907/.
Sözen, Tümay, et al. “An Overview and Management of Osteoporosis.” European Journal of Rheumatology, Mar. 2017, www.ncbi.nlm.nih.gov/pmc/articles/PMC5335887/.
Thomas, Ewan, et al. “The Efficacy of Muscle Energy Techniques in Symptomatic and Asymptomatic Subjects: A Systematic Review.” Chiropractic & Manual Therapies, 27 Aug. 2019, www.ncbi.nlm.nih.gov/pmc/articles/PMC6710873/.
Gymnastics is a demanding and challenging sport. Gymnasts train to be powerful and graceful. Today’s moves have become increasingly technical acrobatic moves with a much higher degree of risk and difficulty. All the stretching, bending, twisting, jumping, flipping, etc., increases the risk of neuromusculoskeletal injuries. Gymnastics injuries are inevitable. Bruises, cuts, and scrapes are common, as are overuse strains and sprains, but severe and traumatic injuries can occur. Injury Medical Chiropractic and Functional Medicine Team can treat and rehabilitate injuries and help to strengthen and prevent injuries. The therapy team will thoroughly evaluate the individual to determine the injury/s severity, identify any weaknesses or limitations, and develop a personalized plan for optimal recovery, stability, and strength.
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Gymnastic Injuries
One of the main reasons injuries are more prevalent is because today’s athletes start earlier, spend more time practicing, perform more complex skill sets, and have higher levels of competition. Gymnasts learn to perfect a skill and then train to make their bodies look elegant while executing the routine. These moves require precision, timing, and hours of practice.
Injury Types
Sports injuries are classified as:
Chronic Overuse injuries: These cumulative aches and pains occur over time.
They can be treated with chiropractic and physical therapy and prevented with targeted training and recovery.
Acute Traumatic injuries: These are typically accidents that happen suddenly without warning.
These require immediate first aid.
Most Common Injuries
Gymnasts are taught how to fall and land to lessen the impact on the spine, head, neck, knees, ankles, and wrists.
Back
Common back injuries include muscle strains and spondylolysis.
Bruises and Contusions
Tumbling, twisting, and flipping can result in various bruises and contusions.
Muscle Soreness
This is the sort of muscle soreness experienced 12 to 48 hours after a workout or competition.
Proper rest is necessary for the body to recover fully.
Overtraining Syndrome
Overtraining syndrome happens when individuals train beyond the body’s ability to recover.
Strength and/or flexibility imbalances – one side is stronger.
Chiropractic Care
Our therapists will start with an evaluation and a biomechanical assessment to identify all the factors contributing to the injury. This will consist of a thorough medical history to understand overall health status, training schedule, and the physical demands on the body. The chiropractor will develop a comprehensive program that includes manual and tool-assisted pain relief techniques, mobilization work, MET, core strengthening, targeted exercises, and injury prevention strategies.
Facet Syndrome Chiropractic Treatment
References
Armstrong, Ross, and Nicola Relph. “Screening Tools as a Predictor of Injury in Gymnastics: Systematic Literature Review.” Sports medicine – open vol. 7,1 73. 11 Oct. 2021, doi:10.1186/s40798-021-00361-3
Farì, Giacomo, et al. “Musculoskeletal Pain in Gymnasts: A Retrospective Analysis on a Cohort of Professional Athletes.” International journal of environmental research and public health vol. 18,10 5460. 20 May. 2021, doi:10.3390/ijerph18105460
Kreher, Jeffrey B, and Jennifer B Schwartz. “Overtraining syndrome: a practical guide.” Sports Health vol. 4,2 (2012): 128-38. doi:10.1177/1941738111434406
Meeusen, R, and J Borms. “Gymnastic injuries.” Sports medicine (Auckland, N.Z.) vol. 13,5 (1992): 337-56. doi:10.2165/00007256-199213050-00004
Sweeney, Emily A et al. “Returning to Sport After Gymnastics Injuries.” Current sports medicine reports vol. 17,11 (2018): 376-390. doi:10.1249/JSR.0000000000000533
Westermann, Robert W et al. “Evaluation of Men’s and Women’s Gymnastics Injuries: A 10-Year Observational Study.” Sports Health vol. 7,2 (2015): 161-5. doi:10.1177/1941738114559705
When it comes to our bodies, many functioning systems help the body regulate its temperature, provide mobility and stability when in motion, and protect the host from pathogens that enter inside to cause havoc. One of the systems that helps the body is the endocrine system, which produces many hormones to keep the body functioning properly. The thyroid, a small, butterfly-shaped organ at the base of the neck, produces the hormones in the body. The thyroid helps regulate hormone production; however, when pathogen factors affect the body’s hormonal production, it can lead to musculoskeletal pain and dysfunction. Today’s article examines how the thyroid produces hormones, how hormone imbalances are connected with musculoskeletal pain, and how MET therapy can help restore hormone imbalances from affecting the body in the future. We utilize information about our patients to certified medical providers using soft tissue therapies like MET to reduce musculoskeletal pain associated with hormonal imbalances. We encourage patients by referring them to associated medical providers based on their diagnosis while supporting the fact 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 Does The Thyroid Produce Hormones?
Do you feel muscle weakness or pain in certain parts of your body? Do you feel out of breath after walking for a short distance? Or do you feel sluggish throughout the entire day? When many individuals are dealing with these numerous issues, it could be due to their hormones being imbalanced from their thyroids. When it comes to the body, the endocrine system is the mastermind of producing different hormones for the body to help regulate all the biological processes. One of the vital organs of the endocrine system is the thyroid. Studies reveal that the thyroid is an endocrine gland located in the inferior anterior neck of the body and produces T4 and T3 hormones for the body to function properly. The thyroid hormones affect many of the vital organs and body tissues as they help with the following:
Cardio output and increased resting heart rate
Increases BMR (basal metabolic rate), heat production, and oxygen consumption
Stimulates resting respiratory rate and the nervous system
Plays a role in reproductive health and other endocrine organ function
Additional studies have revealed that thyroid hormones help control the body’s metabolism, growth, and other bodily functions while having a casual relationship with the HPT (hypothalamic-pituitary-thyroid) axis. What this relationship does is that it makes sure that the body is working properly in any environment. However, when unwanted pathogens start to affect thyroid hormone production, it can cause a hormone imbalance and lead to unwanted pain-like symptoms in the vital organs and musculoskeletal tissues.
Hormone Imbalances & Musculoskeletal Pain
When unwanted pathogens are associated with environmental factors affecting the body, it can lead to pain-like symptoms that can lead to musculoskeletal pain. In the book, “Clinical Applications of Neuromuscular Techniques,” written by Dr. Judith Walker DeLany, L.M.T., and Leon Chaitow, N.D., D.O., stated that there is a connection between hormonal imbalances and musculoskeletal pain as there are many environmental factors that can influence how much or how little hormone production is being produced from the thyroid. The book also mentions that some of the clinical signs of thyroid hormone deficiency include:
Dry skin and thinning hair
Unnatural fatigue
Unexplained weight increase
Aching muscles
Mental confusion
When the body is dealing with hormone imbalances associated with musculoskeletal pain, studies reveal that symptoms of fatigue, anxiety, irritability, and increased oxidative stress can cause the muscular tissues and ligaments to be weak and cause overlapping risk profiles when the body is in motion. To that point, hormone imbalances could lead to muscle and joint pain associated with myofascial trigger points and muscle shortness.
Finding Hormonal Harmony- Video
Have you been experiencing muscle or joint pain? Do you often feel anxious or irritable constantly? Or have you noticed that you are extremely sensitive to the cold? Many of these pain-like issues are signs and symptoms associated with hormone imbalances in the body and can lead to musculoskeletal pain. The body needs hormones to help regulate body temperature, control the body’s metabolism, and help stimulate the endocrine and body systems. Hormones are secreted from the thyroid and travel to the important muscles, organs, and tissues through the bloodstream to assist and help each body section function properly. When pathogens start to disrupt hormone production, the thyroid can overproduce or underproduce hormone secretion and cause many overlapping risk profiles to the body and musculoskeletal system. Fortunately, there are many ways to regulate hormones and reduce the effects of musculoskeletal pain. The video above explains that increasing certain vitamin intake, eating healthy, whole-nutritional foods, and getting adequate exercise and sleep can regulate hormone production and reduce the effects of musculoskeletal pain. These various treatments can be combined with therapy to help realign the body and restore it naturally.
MET Therapy Restoring Hormone Imbalances
Many available therapies can reduce the effects of hormonal imbalances associated with musculoskeletal pain. Treatments like MET (muscle energy techniques) allow many pain specialists to use soft tissue techniques to reduce pain-like symptoms and will enable the body to restore itself naturally. Research studies have revealed that soft tissue therapies like MET can reduce pain, improve body function, and reduce disability. MET therapy can be combined with nutritional foods, hormone therapies, and bodywork strategies that can help regulate hormone production in the thyroid. When a person starts to go to treatment for any ailments affecting their body, it allows these individuals to be more mindful of what is happening to their bodies and make small meaningful changes to their health and wellness.
Conclusion
When it comes to maintaining the body’s health and wellness, it’s important to ensure that unwanted pathogens don’t start affecting thyroid hormone production. The thyroid is a small gland located at the base of the neck that secretes out hormones to the rest of the body. When the thyroid over or under-produces hormones in the organs, muscles, and tissues, it can lead to pain-like symptoms that affect the body’s system and potentially lead to musculoskeletal disorders. Treatments like MET therapy combined with nutritional whole foods and exercises can reduce the effects of hormone imbalances associated with musculoskeletal disorders. This amazing combination allows the body to heal naturally and allows the individual to be pain-free.
References
Armstrong, Maggie, et al. “Physiology, Thyroid Function – Statpearls – NCBI Bookshelf.” In: StatPearls [Internet]. Treasure Island (FL), 13 Mar. 2023, www.ncbi.nlm.nih.gov/books/NBK537039/.
Chaitow, Leon, and Judith Walker DeLany. Clinical Applications of Neuromuscular Techniques. Churchill Livingstone, 2003.
Day, Joseph M, and Arthur J Nitz. “The Effect of Muscle Energy Techniques on Disability and Pain Scores in Individuals with Low Back Pain.” Journal of Sport Rehabilitation, May 2012, pubmed.ncbi.nlm.nih.gov/22622384/.
Shahid, Muhammad A, et al. “Physiology, Thyroid Hormone – StatPearls – NCBI Bookshelf.” In: StatPearls [Internet]. Treasure Island (FL), 8 May 2022, www.ncbi.nlm.nih.gov/books/NBK500006/.
VandeVord, Pamela J, et al. “Chronic Hormonal Imbalance and Adipose Redistribution Is Associated with Hypothalamic Neuropathology Following Blast Exposure.” Journal of Neurotrauma, 1 Jan. 2016, www.ncbi.nlm.nih.gov/pmc/articles/PMC4700394/.
The body’s core muscles are used for stability, balance, lifting, pushing, pulling, and movement. Engaging the core muscles means bracing and tightening the abdominal muscles, which include the latissimus dorsi/lats, paraspinal muscles, gluteus maximus/glutes, and trapezius/traps. When engaged, the trunk muscles help maintain spinal stability, support the spine and pelvis in sitting and resting positions and during dynamic movements, and help prevent injury.
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Engaging The Core
To know how to engage the core, individuals need to understand what the core is. The most important muscles for engaging the core include: These muscles are involved every time the body inhales and exhales, in posture control, and when using the bathroom, they start and stop the process.
Rectus Abdominis
The rectus abdominis muscle is responsible for the six-pack.
It’s a long, flat muscle that extends from the pubic bone to the sixth and seventh ribs.
The rectus abdominis is primarily responsible for bending the spine.
External Obliques
These are the muscles on either side of the rectus abdominis.
The external obliques allow the torso to twist, bend sideways, flex the spine, and compress the abdomen.
Internal Obliques
The internal obliques lie below the external obliques.
They work with the external obliques in the same functions.
Transverse Abdominis
This is the deepest layer of muscle in the abdomen.
It completely wraps around the torso and extends from the ribs to the pelvis.
The transverse abdominis are not responsible for spine or hip movement but for stabilizing the spine, compressing the organs, and supporting the abdominal wall.
Latissimus Dorsi
Commonly known as the lats, these muscles run along both sides of the spine from just below the shoulder blades to the pelvis.
The lats help stabilize the back, especially when extending the shoulders.
They also contribute to body ability when twisting from side to side.
Erector Spinae
The erector spinae muscles are on each side of the spine and extend down the back.
These muscles are responsible for extending and rotating the back and side-to-side movement.
These are considered postural muscles and are almost always working.
What Not To Do
Individuals learn from mistakes, which might make learning how to engage the core easier by understanding what not to do. Common examples of failing to or not engaging the core correctly.
The back slumps when sitting down – the upper body lacks strength and stability.
When bending, the stomach sticks out more.
Swaying or leaning far to one side when walking – lack of lower body strength causes balance and stability problems.
The lower abdomen and back present with discomfort and pain symptoms.
Training
Engaging the core decreases the chance of sustaining an injury at home, work, or exercising and can help with chronic back pain. It creates a stable musculature around the spine that keeps the vertebrae from over-flexing, over-extending, and bending too far to one side. Engaging the core muscles can mean different things, depending on what is trying to be achieved.
For example, if doing bending work, the muscles needed, and the order in which they contract differs from when trying to maintain balance while standing on one leg.
The muscles engaged will differ in their movement depending on whether an individual is:
Trying to move the spine or stabilize it.
Pushing or pulling weight.
Standing, sitting, or lying down.
For a strong and functional core, the objective is to be able to engage the core in any situation. Engaging the core can be challenging, but with training and practice, the body becomes stronger. Practice engaging the core throughout daily activities that include.
Bracing the core while standing, sitting at a workstation or desk, and walking.
Day-to-day activities, like reaching for something from a high shelf, grocery shopping, and taking the stairs.
Injury Medical Chiropractic and Functional Medicine Clinic can create a personalized program to address musculoskeletal issues, core training, targeted exercise, stretching, nutrition, massage, and adjustments to get the body to optimal health and maintain health.
The Non-Surgical Solution
References
Eickmeyer, Sarah M. “Anatomy and Physiology of the Pelvic Floor.” Physical Medicine and rehabilitation clinics of North America vol. 28,3 (2017): 455-460. doi:10.1016/j.pmr.2017.03.003
Lawson, Samantha, and Ashley Sacks. “Pelvic Floor Physical Therapy and Women’s Health Promotion.” Journal of Midwifery & Women’s Health vol. 63,4 (2018): 410-417. doi:10.1111/jmwh.12736
Seaman, Austin P et al. “Building a Center for Abdominal Core Health: The Importance of a Holistic Multidisciplinary Approach.” Journal of gastrointestinal surgery: official journal of the Society for Surgery of the Alimentary Tract vol. 26,3 (2022): 693-701. doi:10.1007/s11605-021-05241-5
Vining, Robert, et al. “Effects of Chiropractic Care on Strength, Balance, and Endurance in Active-Duty U.S. Military Personnel with Low Back Pain: A Randomized Controlled Trial.” Journal of Alternative and complementary medicine (New York, N.Y.) vol. 26,7 (2020): 592-601. doi:10.1089/acm.2020.0107
Weis, Carol Ann, et al. “Chiropractic Care for Adults With Pregnancy-Related Low Back, Pelvic Girdle Pain, or Combination Pain: A Systematic Review.” Journal of Manipulative and physiological therapeutics vol. 43,7 (2020): 714-731. doi:10.1016/j.jmpt.2020.05.005
Zachovajeviene, B et al. “Effect of the diaphragm and abdominal muscle training on pelvic floor strength and endurance: results of a prospective randomized trial.” Scientific Reports vol. 9,1 19192. 16 Dec. 2019, doi:10.1038/s41598-019-55724-4
When the body shifts out of homeostasis or when something in the body is out of balance, the body sweats. Sweating is a process known as perspiration that releases salt-based fluids from the body’s sweat glands to help the body stay cool and regulate body temperature. Sweat is commonly found under the arms, on the feet, and on the palms of the hands. Body temperature, outdoor temperature, or emotional state changes can cause sweating.
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Sweating
An individual has around 2-4 million sweat glands, which begin to become fully active during puberty. There are two types of sweat glands: eccrine and apocrine. The most common areas of sweating include:
Face.
Armpits.
Palms of the hands.
Soles of the feet.
Sweating in normal amounts is an essential bodily process.
Not sweating enough or sweating too much can cause problems.
Sweat is mostly water but contains small amounts of salt.
Sweat also contains electrolytes and minerals – including potassium, chloride, magnesium, zinc, copper, proteins, urea, and ammonia.
Electrolyte levels need to be replenished after heavy sweating.
Causes
Sweating is normal. However, a variety of causes can stimulate increased sweating.
High Temperature
Elevated body temperature.
Elevated outdoor temperature.
Are the primary cause of increased sweating.
Emotions and stress
Emotions and conditions can also make the body break out in a heavy sweat.
Emotional stress
Anxiety
Anger
Fear
Embarrassment
Foods
Sweating may be a response to certain foods. This type of sweat is known as gustatory sweating, which can be caused by:
Spicy foods
Caffeinated drinks – like soda, coffee, and tea.
Alcoholic beverages.
Medications
Illness and Medications
Sweating may be caused by medication use and certain illnesses:
Individuals can become dehydrated and have an increased risk of heatstroke.
Chiropractic Adjustments
The nervous system coordinates and oversees all functions of the body. Some can be consciously controlled, and others are automatic. The autonomic nervous system– ANS regulates involuntary processes, including blood pressure, heart rate, digestion, respiration, gland function, sweating, etc. The ANS is divided into the sympathetic and parasympathetic systems.
The sympathetic nervous system – when activated, creates a state of elevated activity and attention or the fight or flight response.
This process increases blood pressure and heart rate, preparing the body to respond to various stressors.
The parasympathetic nervous system promotes resting and digesting processes that lower heart rate and blood pressure.
The parasympathetic calms the body.
Chiropractic adjustments have been known to affect the autonomic nervous system. This is achieved by increasing parasympathetic activity/relaxation and down-shifting the sympathetic/fight or flight response and inflammation. A chiropractic adjustment can remove subluxations, which cause interferences in the nervous system. Chiropractic restores and improves the brain and body system communication.
Thoracic Spine Pain
References
Baker, Lindsay B. “Physiology of sweat gland function: The roles of sweating and sweat composition in human health.” Temperature (Austin, Tex.) vol. 6,3 211-259. 17 Jul. 2019, doi:10.1080/23328940.2019.1632145
Cabanac, M. “Temperature regulation.” Annual Review of Physiology vol. 37 (1975): 415-39. doi:10.1146/annurev.ph.37.030175.002215
Cui, Chang-Yi, and David Schlessinger. “Eccrine sweat gland development and sweat secretion.” Experimental dermatology vol. 24,9 (2015): 644-50. doi:10.1111/exd.12773
Kiani, Aysha Karim, et al. “Neurobiological basis of chiropractic manipulative treatment of the spine in the care of major depression.” Acta bio-medica : Atenei Parmensis vol. 91,13-S e2020006. 9 Nov. 2020, doi:10.23750/abm.v91i13-S.10536
McCutcheon, L J, and R J Geor. “Sweating. Fluid and ion losses and replacement.” The Veterinary clinics of North America. Equine practice vol. 14,1 (1998): 75-95. doi:10.1016/s0749-0739(17)30213-4
It’s not unusual for runners to experience tingling, pins and needles, and numbness in their feet while running. Running foot numbness is a relatively common problem for runners and can be easily remedied. Numbness will present in one part of the foot or just the toes. Sometimes it can spread throughout the whole foot. Different causes, most of which are not serious, can be easily dealt with. Serious causes can be treated with chiropractic, massage, decompression therapy, and functional medicine.
Contents
Running Foot Numbness
Reasons, why the feet experience numbing sensations when running, include:
Improper footwear.
Laces that are tied too tightly.
Foot strike pattern.
Foot structure.
Training schedule.
Muscle tightness.
Compressed nerve.
Medical conditions like neuromas or peripheral neuropathy.
Footwear
A common cause of running foot numbness is having overly tight shoes that place added pressure on nerves.
If this could be the reason, the remedy is to get new shoes.
Try to find a store that specializes in running shoes and ask for help.
Footwear professionals look at the size of the foot, the shape, and running gait.
For example, individuals with a wide foot may need a style with a wider/larger toebox or the front of the shoe that houses the forefoot.
Get a pair that’s one-half to a full size larger than a regular everyday shoe size.
This is because when running, the feet swell, especially in hot and humid weather.
Going up a half or whole size will also accommodate thicker socks for individuals that run in cold weather.
Sometimes numbness can result from biomechanical issues that can be corrected with the proper shoe.
Tight Laces
Sometimes it’s not the shoes but the laces that are too tight.
Pulling a little tighter to get a firm fit around the ankle is common, but this can entrap nerves on top of the foot at the ankle/anterior tarsal tunnel, similar to the carpal tunnel in the wrist.
This can be problematic for individuals with high arches.
Loosening the laces are recommended.
However, runners may feel insecure with looser laces.
Experimenting with different lacing techniques is recommended to find one that keeps the shoes comfortable without creating undue pressure over the top of the foot.
Using padding under the tongue of the shoe can help.
Foot Fall Pattern
Sometimes running form can put pressure on nerves that, lead to numbness.
Overstriding– Landing heel first with the foot ahead of the body’s center of gravity places the feet on the ground for too long.
Correcting this issue can be achieved by shortening the stride and focusing on landing on the midsole.
This way, the feet will land directly under the body.
Running like stepping on hot coals is recommended, keeping the movements light and quick.
Correcting overstriding saves energy and lowers the risk of shin splints.
A sports chiropractor, physical therapist, or running coach can help fine-tune form for specific guidance.
Foot Structure
The anatomy of the feet, specifically the arches, can contribute to running foot numbness.
Flat feet mean the entire bottom of each foot is in contact with the floor when barefoot.
Overly flexible feet are more likely to experience nerve compression.
This can be corrected with shoe orthotic inserts.
Over-the-counter orthotics may work, but custom orthotics are another option if they don’t.
Muscle Tightness
Stiff, inflexible muscles can lead to anatomical conditions that generate nerve pressure.
Warm-up exercises before running will get the muscles loose and ready.
Stretching is very important before and after running.
Individuals prone to muscle tightness should include flexibility exercises.
Yoga can improve flexibility and body alignment.
Foam rollers and other massage tools will work out kinks in areas where tightness forms and affects nerves, like the quadriceps, calves, hamstrings, and I.T. band.
Regular sports massage and chiropractic can help keep the body pliable.
Sciatic Nerve Issues
A compressed nerve causes a decrease in the sensation to the areas the nerve supplies.
Foot numbness, especially around the heel or the sole, can be caused by sciatic nerve compression.
The pain from sciatica might originate in the back but can end up causing numbness in the feet and/or toes.
Poor posture, tight piriformis muscles, or other back injuries can also cause sciatica.
A chiropractor or physical therapist can prescribe decompression therapy, MET stretches, and rehabilitative exercises.
Prevention
Most of the time, running foot numbness can be treated by adjusting footwear or technique. Here are a few tips for injury prevention:
Evaluate Shoes
First, make sure the shoelaces are not overly tight.
If the shoes are uncomfortable when running, look for another set and get a custom fitting.
Running Form
Avoid overstriding by focusing on landing on the midsole instead of the heel.
This will take the pressure off of the feet.
Foot Orthotics
Individuals with flat feet, high arches, or overly flexible feet should consider orthotics.
Avoid Overtraining
Work rest days into the training schedule and gradually build up to avoid overuse injuries.
Stretch to prevent muscle imbalances, keep muscles loose, and improve the range of motion.
Chiropractic and Physical Therapy
If symptoms don’t improve, see a doctor, podiatrist, or chiropractor so they can rule out conditions and develop a personalized treatment plan.
Benefits of Custom Foot Orthotics
References
Aldridge, Tracy. “Diagnosing heel pain in adults.” American family physician vol. 70,2 (2004): 332-8.
Atik, Aziz, and Selahattin Ozyurek. “Flexible flatfoot.” Northern Clinics of Istanbul vol. 1,1 57-64. 3 Aug. 2014, doi:10.14744/nci.2014.29292
Jackson, D L, and B L Haglund. “Tarsal tunnel syndrome in runners.” Sports medicine (Auckland, N.Z.) vol. 13,2 (1992): 146-9. doi:10.2165/00007256-199213020-00010
Souza, Richard B. “An Evidence-Based Videotaped Running Biomechanics Analysis.” Physical Medicine and rehabilitation clinics of North America vol. 27,1 (2016): 217-36. doi:10.1016/j.pmr.2015.08.006
Sridhara, C R, and K L Izzo. “Terminal sensory branches of the superficial peroneal nerve: an entrapment syndrome.” Archives of physical medicine and Rehabilitation vol. 66,11 (1985): 789-91.
Supplements To Ease Headaches: Individuals dealing with headaches or migraines should consider incorporating supplements to ease headaches’ severity and frequency. Nutrition and food habits affect all systems in the body. Although slower to take effect than medications, if a diet is used correctly to heal the body and maintain health, other treatments may not be necessary or require less. Many health providers understand that food is a medicine that can assist healing therapies like massage and chiropractic care, which makes the treatment more effective when used with dietary adjustments.
Contents
Supplements To Ease Headaches
An unhealthy lifestyle and diet are not the only contributing factor to headaches. Others include:
The goal of functional medicine is to help individuals reach their health and wellness goals that, include:
Regularly active lifestyle.
Optimal breathing patterns.
Quality sleep patterns.
Thorough hydration.
Healthy nutrition.
Improved digestive health.
Improved mental health.
Improved musculoskeletal health.
Pain Receptors – Headache
Pain and discomfort symptoms present when various head structures become inflamed or irritated. These structures include:
Nerves of the head and neck.
Muscles of the neck and head.
The skin of the head.
Arteries that lead to the brain.
Membranes of the ear, nose, and throat.
Sinuses that form part of the respiratory system.
The pain can also be referred, meaning that pain in one area can spread to nearby areas. An example is headache pain developed from neck stiffness and tightness.
Causes
Foods
Determining whether food sensitivities cause or contribute to headaches or migraines can be challenging. Nutritionists and dieticians recommend keeping a food journal to keep track of foods, snacks, drinks, alcohol intake, how the body reacts, and how the individual feels.
This process can help recognize foods or eating patterns that may contribute to headaches.
An integrative health practitioner can support this process and help identify sensitivities.
By eliminating and avoiding processed foods, headaches may be alleviated. This includes limited exposure to artificial colors, sweeteners, flavors, and other unnatural additives.
Foods naturally high in magnesium include legumes, almonds, broccoli, spinach, avocados, dried figs, and bananas.
Ginger Root
Ginger root is a natural remedy for nausea, diarrhea, upset stomach, and indigestion.
Ginger root extract can be taken in supplement form or fresh ginger added to meals and teas.
Coriander Seeds
Coriander syrup is effective against migraine pain.
A method to relieve a headache is to pour hot water over fresh seeds and inhale the steam.
To increase the effectiveness, place a towel over your head.
Celery or Celery Seed Oil
Celery can reduce inflammation and lower blood pressure.
However, pregnant women or individuals with kidney conditions, low blood pressure, taking thyroid medication, blood thinners, lithium, or diuretics should not use celery seed.
Peppermint and Lavender Essential Oils
Both have a natural numbing and cooling effect that helps relieve headache pain.
Peppermint oil has also been found to be a natural antibacterial, antiviral, antifungal, antiparasitic, and pain reliever.
Lavender oil can eliminate nervous tension, enhance blood circulation, and relieve pain.
Both are effective pain relief tools for headache and migraine sufferers.
Butterbur
This shrub grows in Europe, some parts of Asia, and North America.
A study found that individuals who consumed 75 mg of the extract twice daily reduced migraine attacks’ frequency.
Feverfew
A herb plant whose dried leaves have been found to relieve symptoms associated with headaches, migraines, menstrual cramps, asthma, dizziness, and arthritis.
Feverfew can be found in supplements.
It can alter the effects of certain prescription and non-prescription medications.
There is plenty of evidence to support the benefits of healthy nutrition. Combined with a healthy diet and lifestyle, these supplements can help relieve headaches. As with any supplement, talk to a doctor before starting a supplement regimen.
Chiropractic Care For Migraines
References
Ariyanfar, Shadi, et al. “Review on Headache Related to Dietary Supplements.” Current Pain and headache report vol. 26,3 (2022): 193-218. doi:10.1007/s11916-022-01019-9
Bryans, Roland, et al. “Evidence-based guidelines for the chiropractic treatment of adults with headache.” Journal of Manipulative and physiological therapeutics vol. 34,5 (2011): 274-89. doi:10.1016/j.jmpt.2011.04.008
Diener, H C et al. “The first placebo-controlled trial of a special butterbur root extract for the prevention of migraine: reanalysis of efficacy criteria.” European Neurology vol. 51,2 (2004): 89-97. doi:10.1159/000076535
Kajjari, Shweta, et al. “The Effects of Lavender Essential Oil and its Clinical Implications in Dentistry: A Review.” International Journal of clinical pediatric dentistry vol. 15,3 (2022): 385-388. doi:10.5005/jp-journals-10005-2378
Maier, Jeanette A et al. “Headaches and Magnesium: Mechanisms, Bioavailability, Therapeutic Efficacy and Potential Advantage of Magnesium Pidolate.” Nutrients vol. 12,9 2660. 31 Aug. 2020, doi:10.3390/nu12092660
Mansouri, Samaneh, et al. “Evaluating the effect of Coriandrum sativum syrup on being migraine-free using mixture models.” Medical Journal of the Islamic Republic of Iran vol. 34 44. 6 May. 2020, doi:10.34171/mjiri.34.44
Pareek, Anil, et al. “Feverfew (Tanacetum parthenium L.): A systematic review.” Pharmacognosy Reviews vol. 5,9 (2011): 103-10. doi:10.4103/0973-7847.79105
Skypala, Isabel J et al. “Sensitivity to food additives, vaso-active amines and salicylates: a review of the evidence.” Clinical and translational allergy vol. 5 34. 13 Oct. 2015, doi:10.1186/s13601-015-0078-3
A big part of sports is avoiding and preventing injuries, as injury prevention is far better than rehabilitation and recovery. This is where prehabilitation comes in. Prehabilitation is a personalized, constantly evolving, and developing strengthening exercise program. The program aims to provide sports-specific targeted exercises and activities to maintain athletes’ physical abilities and mental preparedness for their sport. The first step is for an athletic trainer, sports chiropractor, and physical therapist to examine the individual.
Contents
Prehabilitation
Everybody is different when it comes to developing an effective prehabilitation program. Every individual’s program should be progressive and re-evaluated to adapt and adjust to the athlete’s needs. The first step is learning to prevent injuries and following basic injury prevention protocols. Knowing what to do when the body sustains an injury, like home treatment and when it’s time to see a doctor.
Athletes
Athletes of all levels are recommended to incorporate a prehabilitation program into their training. As athletes engage in their sport, their bodies adjust to the physical demands of practicing, playing, and training. Imbalances can happen naturally with normal activity but become more pronounced with each practice, game, and training session and often are the cause of injury. The repetitive movements and regular stresses can cause neuromusculoskeletal symptoms to present. This includes:
Tightness of muscle groups.
Pain and discomfort symptoms.
Stabilization issues.
Strength imbalances.
Program
A chiropractic therapist will measure the individual’s range of motion and strength, biomechanics, evaluate medical history, and present health status. Individuals with an injury or a condition can also benefit from prehabilitation.
Each program is personalized and will address total body balance, sports-specific needs, and weaknesses.
The exercises will balance strength, coordination, range of motion, and stabilization.
The premise is looking at and comparing movements from left to right, front to back, and upper to lower body.
Activities can be subtle, focused exercises or a complex movement sequence to stabilize or improve a specific skill.
Programs focus on strengthening and stabilizing the core, abdominals, hips, and back.
Instability is common and often presents from a lack of core training, as athletes tend to focus on what parts of the body their specific sport utilizes, leaving the core without a regular training routine.
A prehabilitation program has to be constantly updated to adjust to the individual’s progress.
Tools like foam rollers, balance boards, weights, and exercise balls are used.
Training
Prehabilitation should start before any acute or chronic injury occurs, but often it takes a few injuries for individuals to decide to get into a prehabilitation program. Depending on an athlete’s training cycle, prehabilitation can be incorporated into practice or as an independent workout and become part of an athlete’s training routine. A session can include the following:
Warm-up and cool-down exercises.
Exercises to perform while resting or waiting during practice.
A targeted workout on specific weaknesses.
A complete workout for days off or active rest days.
Mini workouts for when traveling and recovery days.
For athletes, feeling challenged and motivated can be the difference between success and failure. Working with a trainer, sports chiropractor, and therapists who know sports, understand athletic needs, and communicate well, will contribute to a successful prehabilitation program.
Improving Athletic Performance
References
Durrand, James et al. “Prehabilitation.” Clinical medicine (London, England) vol. 19,6 (2019): 458-464. doi:10.7861/clinmed.2019-0257
Giesche, Florian, et al. “Evidence for the effects of prehabilitation before ACL-reconstruction on return to sport-related and self-reported knee function: A systematic review.” PloS one vol. 15,10 e0240192. 28 Oct. 2020, doi:10.1371/journal.pone.0240192
Halloway S, Buchholz SW, Wilbur J, Schoeny ME. Prehabilitation Interventions for Older Adults: An Integrative Review. Western Journal of Nursing Research. 2015;37(1):103-123. doi:10.1177/0193945914551006
Smith-Ryan, Abbie E et al. “Nutritional Considerations and Strategies to Facilitate Injury Recovery and Rehabilitation.” Journal of athletic training vol. 55,9 (2020): 918-930. doi:10.4085/1062-6050-550-19
Vincent, Heather K, and Kevin R Vincent. “Rehabilitation and Prehabilitation for Upper Extremity in Throwing Sports: Emphasis on Lacrosse.” Current sports medicine reports vol. 18,6 (2019): 229-238. doi:10.1249/JSR.0000000000000606
Vincent, Heather K et al. “Injury Prevention, Safe Training Techniques, Rehabilitation, and Return to Sport in Trail Runners.” Arthroscopy, sports medicine, and rehabilitation vol. 4,1 e151-e162. 28 Jan. 2022, doi:10.1016/j.asmr.2021.09.032
Gelatin is a stabilizer and thickener used to make desserts like fruit gelatin, pudding, mousse, marshmallows, candy, cakes, ice cream, and certain yogurts. It is also used in some shampoos and skincare products. Because animal products are used to make gelatin, it is not a vegan-friendly food, and even some non-vegans choose not to eat it. However, there are gelatin alternatives that are made from non-animal sources. The use of gelatin may provide certain health benefits, and there are some medical uses for pharmaceutical-grade gelatin.
Contents
Gelatin Health
Gelatin is affirmed as generally recognized as safe/GRAS by the U.S. Food and Drug Administration. Gelatin is made by boiling the skin, tendons, ligaments, or bones of animals – cows or pigs in water. This process releases collagen, a protein that provides structure and is the most abundant in the human body. Once the collagen is extracted, it is:
Concentrated
Filtered
Cooled
Extruded
Dried
Alternatives
Thickening agents can be made from different ingredients. These include:
Agar-agar
Also called agar, this thickener is made from cooked and pressed seaweed.
This gelling agent is available online and in some supermarkets in powdered, flaked, and bar form.
When cooking with it, substitute agar for gelatin using equal amounts if using the powder.
If using flakes, a tablespoon equals about a teaspoon of the powder.
Certain citrus fruits require more agar when substituting.
Agar does not gel well for recipes that include uncooked mangoes, papaya, and pineapple.
Pectin
Pectin is a gelling agent found naturally in apples and citrus fruits.
Food manufacturers use pectin to make some yogurts and candies and enhance fruit-based beverages.
It can also thicken jams, jellies, and other foods.
This thickener is usually for making softer gels and puddings.
Benefits
Improved Bone Health
A benefit of gelatin is the protection of bones; however, evidence supporting its use is limited.
An early study found that hydrolyzed gelatin, such as pharmaceutical grade, may help reduce pain symptoms in individuals with knee or hip osteoarthritis.
Researchers thought that it could have a beneficial effect on cartilage metabolism.
A study found that adding gelatin to an intermittent exercise program improved collagen synthesis and could aid in injury prevention and tissue repair.
Treatment of Diarrhea
Some studies have suggested that gelatin tannate, which contains tannic acid, can reduce chronic diarrhea.
One study found that using gelatin tannate and other products like probiotics could be effective.
However, further research is needed.
Recipe Alternative
Individuals following specific diets or nutritional plans can use gelatin to thicken foods instead of ingredients that they are avoiding or removing from their eating plan.
It can be used by those following low or no – carb or grain-free diets.
Individuals with wheat allergies, celiac disease, non-celiac gluten sensitivity, or who follow a gluten-free diet can use gelatin or other thickeners instead of flour.
Adding flour to foods like soups and stews can increase the carbohydrate count.
Cornstarch is one replacement that thickens when food is heated, like flour; however, gelatin thickens when food is cooled.
For example, some chefs use 1 ½ teaspoons of gelatin per cup of stock to thicken soups.
Nutrition
The USDA provides the following nutrition information for a single envelope or around one tablespoon/7 grams of gelatin.
Carbohydrates
There are about 30 calories per tablespoon, and none of the calories are from carbohydrates.
There are 0 grams of total carbohydrates, 0 grams of sugar, and 0 grams of fiber.
Because there are no carbohydrates, it will not impact blood sugar levels.
However, it is not usually consumed by itself.
It is commonly used to thicken desserts with sugar and carbohydrates that can elevate blood sugar levels.
Fats
There is no fat in a tablespoon serving of gelatin.
A 100-gram serving contains less than a gram of fat.
Protein
Gelatin provides about 6 grams of protein in one tablespoon serving.
It should not be considered a high-protein food.
Vitamins and Minerals
The powder does not contribute any significant micronutrients.
Does not provide vitamins or minerals.
Storage and Safety
It should be kept in a sealed container and stored in a cool, dry place.
It should stay fresh for about three years when unopened and stored correctly.
It should not be frozen.
Chiropractic Success Story
References
Blanco, Francisco J, and Ronald K June 2nd. “Cartilage Metabolism, Mitochondria, and Osteoarthritis.” The Journal of the American Academy of Orthopaedic Surgeons vol. 28,6 (2020): e242-e244. doi:10.5435/JAAOS-D-19-00442
Daneault, Audrey, et al. “Biological effect of hydrolyzed collagen on bone metabolism.” Critical Reviews in food science and Nutrition vol. 57,9 (2017): 1922-1937. doi:10.1080/10408398.2015.1038377
Florez, Ivan D et al. “Gelatin tannate for acute diarrhea and gastroenteritis in children: a systematic review and meta-analysis.” Archives of Disease in Childhood vol. 105,2 (2020): 141-146. doi:10.1136/arch dis child-2018-316385
Hölzl, Katja, et al. “Gelatin methacryloyl as an environment for chondrocytes and cell delivery to superficial cartilage defects.” Journal of tissue engineering and regenerative medicine vol. 16,2 (2022): 207-222. doi:10.1002/term.3273
Lopetuso, L et al. “Gelatin tannate and tyndallized probiotics: a novel approach for the treatment of diarrhea.” European Review for Medical and pharmacological sciences vol. 21,4 (2017): 873-883.
Shaw, Gregory, et al. “Vitamin C-enriched gelatin supplementation before intermittent activity augments collagen synthesis.” The American Journal of clinical nutrition vol. 105,1 (2017): 136-143. doi:10.3945/ajcn.116.138594
Tehranzadeh, J et al. “Cartilage metabolism in osteoarthritis and the influence of viscosupplementation and steroid: a review.” Acta radiologica (Stockholm, Sweden : 1987) vol. 46,3 (2005): 288-96. doi:10.1080/02841850510016027
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