Psoriatic arthritis can develop in individuals who have psoriasis, affecting various joints, especially the knees. Psoriasis is a skin condition that causes skin cells to build up and form patches of itchy, dry skin known as plaques. Psoriatic arthritis is a long-term inflammatory disease that can cause inflammation, stiffness, and pain. Symptoms can progressively worsen over time without treatment. Early diagnosis is vital to minimize damage to the joints and slow the condition’s progress with treatment.
Psoriatic Arthritis
Psoriatic arthritis symptoms like stiffness and swelling can present differently from person to person. For example, some individuals with psoriatic knee arthritis will experience stiffness or pain in one knee, while others experience symptoms in both knees. Psoriatic arthritis in the knee can also cause swelling in the surrounding:
Ligaments
Tendons
Synovial membranes
Symptoms can also present in the:
Elbows
Feet
Hands
Symptoms
Symptoms usually begin between the ages of 30 and 50. Common symptoms include:
Stiffness after resting or sleeping.
Swelling.
Inflammation in the knee and surrounding area.
Warm or hot skin on the knee from the inflammation.
Pain in and around the joints, tendons, or ligaments.
Joint sticking, difficulty moving, or reduced range of motion.
Other symptoms include:
Back pain
Fatigue
Pain and redness in the eyes
Swollen fingers or toes
Difficulty walking from pain in the feet or Achilles tendon.
The severity of psoriasis does not determine psoriatic arthritis symptoms. Symptoms can go through a pattern of relapses and remissions. Individuals can have a sudden attack where symptoms get worse over a short time. After the flare-up, symptoms can improve as the condition goes into remission. Symptoms may not present for a long time until another flare-up. For example, an individual may have severe psoriasis but only mild psoriatic arthritis.
Causes
Psoriatic arthritis develops when the body’s immune system mistakenly attacks healthy cells and tissues. The faulty immune response causes the body to quickly generate new skin cells that stack on top of each other forming plaques. When the condition affects the joints, it leads to inflammation. While there is no apparent cause for psoriatic arthritis, researchers have found connections to genetics and the environment, as well as, individuals with close relatives that have psoriatic arthritis could be more likely to develop the condition. Other factors that could influence the development include:
Severe psoriasis
Traumatic injury/s
Obesity
Nail disease
Smoking
The condition can happen at any age, but according to the National Psoriasis Foundation, most individuals first notice symptoms about ten years after their psoriasis begins. However, only 30% of individuals with psoriasis develop psoriatic arthritis.
Diagnosis
Doctors use imaging tools to diagnose psoriatic arthritis in the knee. They will use:
MRI
X-rays
Ultrasound
To help them check for irregularities or signs of inflammation in the joint and surrounding tissues.
Additional tests are used to rule out other common forms of arthritis like rheumatoid and osteoarthritis.
Blood tests check for inflammation and specific antibodies.
In some cases, a small amount of fluid from the joint is taken to help eliminate the possibility of other underlying conditions like an infection.
Treatment
There is currently no cure for psoriatic arthritis, but treatments are being developed and show promise for long-term management. Current treatments focus on managing symptoms and improving the quality of life for the individual.
Biologics
Biologic medications like tumor necrosis factor or TNF inhibitors are recommended as the first-line therapy for most individuals with a new diagnosis of psoriatic arthritis. These meds help block TNF, which plays a crucial role in inflammation. They have shown to be effective at reducing the severity of symptoms and the frequency of flare-ups. Biologics can cause unwanted side effects, especially in individuals that experience frequent infections and need routine monitoring.
Small Molecule Medications
Individuals that cannot use biologic medications may be recommended a new class of medication called oral small molecules or OSMs. Examples include apremilast – Otezla and tofacitinib – Xeljanz.
Disease-modifying Antirheumatic Drugs
Disease-modifying antirheumatic drugs – DMARDs are a long-term option. They are used to slow the progression of psoriatic arthritis, and examples include methotrexate and cyclosporine. DMARDs work best when an individual begins taking them as early as they can take time to work. However, individuals are encouraged to continue taking them, even if symptoms do not improve right away.
Easing Inflammation
A doctor may prescribe nonsteroidal anti-inflammatory drugs – NSAIDs and corticosteroid injections when knee symptoms flare-up. These are short-term treatments that provide immediate relief, as long-term use can lead to side effects. Individuals can find relief with combined self-care that includes:
Taking over-the-counter NSAIDs like ibuprofen/Advil or naproxen/Aleve.
Applying ice and heat packs.
Gentle exercise to promote a full range of motion.
Gentle stretching or yoga can help relax tight muscles.
However, chiropractic is not the primary treatment for arthritis but is intended to be used in combination to relieve pain, loosen and stretch the muscles and balance the body.
InBody
Strength, Balance, and Improved Body Composition
Functional fitness is the ability to move comfortably every day. The benefits of physical activity also contribute to improved body composition. Working to reach a certain level of functional fitness can help the aging process that has been shown to reduce metabolic rate. Inactivity is why individuals lose Lean Body Mass as they age, leading to increased body fat. Lean Body Mass contributes to the body’s overall Basal Metabolic Rate or BMR, also known as metabolism. This is the number of calories the body needs to support essential functions. Everyone is encouraged to engage in strength training or resistance exercises, but specifically older adults. This can help regain muscle loss which can lead to an increase in lean body mass. The increase in Lean Body Mass increases BMR, which helps prevent fat gain.
References
Chang, K. L., et al. (2015). Chronic pain management: Nonpharmacological therapies for chronic pain [Abstract]. https://www.ncbi.nlm.nih.gov/pubmed/25970869
Chiropractic care for arthritis. (n.d.). arthritis.org/health-wellness/treatment/complementary-therapies/physical-therapies/chiropractic-care-for-arthritis
The previous article talked about how photobiomodulation or low laser therapy can help improve the gut microbiome. Today’s article gives an in-depth look at how photobiomics can provide the therapeutic potential to the gut. When it comes to the gut, an individual must take care of it. Supplying it with wholesome, nutritional food feeding the good bacteria will provide outstanding results like more energy throughout the day, the feeling of being full, weight loss, and healthy brain function. By eating these nutritional foods, the body can feel good; however, when harmful bacteria come into play and starts attacking the gut, it causes the gut microbiome to have all sorts of problems that can turn into chronic pain. Some of the ailments can be leaky gut, IBS, and inflammation, to name a few. When these harmful pathogens affect the gut, it can cause the body not to function correctly and dampen a person’s ability to go about their everyday life.
Photobiomodulation Works With The Gut
So how does photobiomodulation work with the gut microbiota? Research studies show that when photobiomics are being applied to the gut, the low laser wavelength can help rebalance what is happening to the gut and maintain diversity in the gut microbiota. It can sustain a healthy production of vital metabolites, and the diversity can help the gut from getting many harmful bacteria from causing too much trouble in the gut. Not only that, but photobiomodulation therapy affecting the gut, directly and indirectly, gives it a mimicry of the circadian clock from the brain. Since the brain and gut are connected with the brain giving signals to the gut microbiota to regulate and produce the bacterial metabolites.
The Brain-Gut Connection
The brain and gut connection is more of consistent bidirectional communication between the brain and gut. Studies show that the gut and brain connection ensures the proper maintenance of gastrointestinal homeostasis and has multiple effects on motivation and cognitive functions in the body. When inflammation comes to play in the gut; however, it can affect the gut to not work properly and disrupt the signals it is receiving from the brain and vice versa. When there is a disruption in the bacterial diversity in the gut, it can decrease the brain’s circadian rhythm. The disruption of the bacterial diversity of the gut can even reduce vitamin D absorption in the gastrointestinal tract, causing inflammation and heightening the effects of autoimmune properties that the body is experiencing.
Vitamin D and Photobiomics
Studies have shown that vitamin D plays an essential role in bone health and regulating gastrointestinal inflammation. This is huge since vitamin D has anti-inflammatory properties and can dampen the effects of Crohn’s disease, ulcerative colitis, and IBD or inflammatory bowel diseases. Vitamin D has many beneficial properties since it can help improve the body’s immune system and has anti-inflammatory properties. Anyone who takes vitamin D in supplement form or food form as part of their daily ritual will notice that they have more energy in their system and feel good overall. That is because vitamin D can modify the integrity of the epithelial cell in the gut and increase the composition and immune response to the gut microbiome. When vitamin D and photobiomics are combined, it can restore the vitamin D receptors in the gut and cause improvements to body immunity and bone health and dampen the inflammatory effects that were causing harm to the body.
The Vagus Nerve
Another unique fact that photobiomodulation can help is that it can improve low vagus nerves in the brain. Since the brain and gut are connected, it shows that photobiomics can help the brain by decreasing the inflammation receptors that are disrupting the brain-gut connection and causing problems to the body. The vagus nerve is a part of this connection since it sends the information back and forth from the brain to the gut. Studies show that the vagus nerve is represented as the main component of the parasympathetic nervous system. This means that the vagus nerve can oversee many crucial bodily functions, including sending information between the brain and gut. Not only that, but the vagus nerve represents an essential link to neurological and inflammatory responses to the body. When inflammation affects the gut and the vagus nerves, it can disrupt the signals to the brain, causing the inflammation to become worse and hurting the body. Treatments like photobiomodulation can target the vagus nerve and help increase the vagal tone in the body and inhibit cytokine productions.
The 4 R’s
When the body is being affected by inflammation, treatments can help the body feel a bit better and start recovering. With photobiomodulation therapy and natural foods that are beneficial to the gut can bring the balance of a healthy lifestyle back to a person. For a better gut, doctors have recommended the 4’s for gut health.
The First R: Remove
REMOVE– Removing foods that a person has a food sensitivity or allergic reaction to can help dampen the effects of inflammation to the gut. These can be common foods like dairy and wheat or processed food containing high fats and added sugars.
The Second R: Replace
REPLACE– By replacing processed food with wholesome, nutritional food that is chalked up with the necessary vitamins and minerals can give the body more energy and put the person in a good mood. Thus, helping the gut produce more enzymes to digest the nutritional foods.
The Third R: Reinoculate
REINOCULATE– Adding prebiotics and probiotics into your recovery process can help improve the beneficial bacteria in the gut. Fermented food is a great way to get the necessary probiotics and prebiotics into the gut.
The Fourth R: Repair
REPAIR– Eating certain food that can help repair the gut lining in the gut microbiota ensures that inflammation won’t flare up due to gut stress. Adding fermented foods, butyric acid, L-glutamine, and aloe vera into a person’s diet is excellent in gut repair.
Conclusion
Overall, gut health is essential to the human body as it helps the body function properly. With the help of photobiomodulation, it can help the recovery process. Since photobiomics are still providing excellent results to treat patients with inflammation, it is necessary to combine whole, nutritional foods and the proper supplements into the everyday lifestyle so the body doesn’t have specific ailments like inflammation. This new combination has opened the doors to many new avenues of effective treatments for inflammation and improving overall body health and wellness.
References:
Breit, Sigrid, et al. “Vagus Nerve as Modulator of the Brain-Gut Axis in Psychiatric and Inflammatory Disorders.” Frontiers in Psychiatry, Frontiers Media S.A., 13 Mar. 2018, https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5859128/.
Carabotti, Marilia, et al. “The Gut-Brain Axis: Interactions between Enteric Microbiota, Central and Enteric Nervous Systems.” Annals of Gastroenterology, Hellenic Society of Gastroenterology, 2015, https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4367209/.
Craig, Ian. “The 4 R’s of Gut Health.” The Nutritional Institute, 28 May 2018, https://thenutritionalinstitute.com/resources/blog/292-the-4-r-s-of-gut-health.
Silverman, Robert G. “Photobiomics: A Look to the Future of Combined Laser and Nutrition Therapy.” Chiropractic Economics, 5 Oct. 2021, https://www.chiroeco.com/photobiomics/.
Tabatabaeizadeh, Seyed-Amir, et al. “Vitamin D, the Gut Microbiome and Inflammatory Bowel Disease.” Journal of Research in Medical Sciences: The Official Journal of Isfahan University of Medical Sciences, Medknow Publications & Media Pvt Ltd, 23 Aug. 2018, https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6116667/.
Video gaming has grown to over 150 million individuals in the United States playing. Around 60% of Americans play video games every day, with the average gamer being 34 years old. Playing video games for an extended amount of time takes a toll on the body. Individuals are experiencing the same kind of pains and aches from sitting and standing all day at work or school. Sitting positions, holding the controllers, and the different accessories can impact the nerves, muscles, and Posture. E-sports professionals understand the physical toll their bodies take with constant practice, tournaments, clinics, etc. They do cardiovascular conditioning, strength train, and stretch to improve their gaming abilities and also take into account:
Taking steps can prevent strain, injuries and minimize the risk of long-term damage. If strain and injuries are present, professional chiropractic treatment can help alleviate the pain, rehabilitate/strengthen the muscles, ligaments, tendons, and recommend exercises and stretches.
Video Gaming Posture
Proper Posture is vital to maintaining spinal as well as overall health. Poor Posture is the most common cause of back and neck pain.
Video Gaming Positions
Common gaming positions include the couch slouch where the gamer is slumped back into the couch with their feet up. This can lead to low back pain and sciatica. The full-on position is where the individual leans forward, elbows on their knees, head tilted forward, and staring up at the screen. Hours in these positions cause the neck, back, and other body areas to stiffen, generating soreness from the restricted movement. Many gamers use ergonomic gaming chairs. They have found that using the gaming chair improves Posture, eliminating the forward head and rounded shoulders. Gaming chairs can provide the health benefit of sitting correctly, reducing and eliminating neck and back tension or strain.
Injuries and Health Issues
Common musculoskeletal issues caused by excessive gaming and lack of movement include:
Eyestrain
Headaches
Neck pain
Elbow, arm, wrist pain
Thumb pain
General hand pain
Carpal tunnel syndrome
Postural stress
Back pain
Chiropractic Treatment
Shoulder Massage
The intensity of gaming can cause the shoulders to tense up and stiffen. When using the controller, the shoulders can slightly lift, building up lactic acid, interrupting blood circulation, causing an accumulation of unwanted toxins inflaming trigger points. A chiropractic massage will release tightened muscles, provide relaxation, and increase the blood flow.
Hand and Wrist Treatment
The most used body parts for video games include the hands and wrist. Individuals grip the controllers or constantly use the keyboard and mouse. No matter what form of input is used, prolonged use can cause hand and wrist injuries. Injuries include:
Inflammation
Hand muscle aches
Chiropractic focuses on specific areas to help treat the body through a hand and wrist massage. Advanced techniques include electrical muscle stimulation to help stimulate and loosen the muscles. A chiropractor will recommend stretches and exercises, and hand/wrist supports, guards, or special gloves to alleviate muscle pains while still playing.
Neck and Back Adjustments
Poor posture can result in a misaligned spine or back muscle spasms. During extended game sessions, pain and fatigue can begin to present. A chiropractic adjustment can realign the muscles and set them back in place. The tissue surrounding the neck may thicken and focus on a specific area. Leaning too far forward or using a heavy gaming headset can result in a forward head posture placing a constant strain on the neck. Chiropractic adjustments will loosen the tissue and release any tension. Stretches and exercises will be recommended as well.
Body composition refers to how various substances in the body are proportioned. A few examples of the components that make up the body include:
Water
Protein
Fat
Minerals
All of these components generate balance in the body. When individuals exercise, they begin to notice changes in their body composition. For individuals that exercise regularly, it is vital to track weight gain, weight loss, and changes in body composition. This is to ensure that they aren’t losing muscle mass. As individuals exercise, muscle fibers are torn. During the recovery process, muscles are rebuilt. Overtraining can lead to muscle mass reduction because the body cannot catch up and rebuild the number of muscle fibers, eventually leading to lost muscle.
References
Emara, Ahmed K et al. “Gamer’s Health Guide: Optimizing Performance, Recognizing Hazards, and Promoting Wellness in Esports.” Current sports medicine reports vol. 19,12 (2020): 537-545. doi:10.1249/JSR.0000000000000787
Geoghegan, Luke, and Justin C R Wormald. “Sport-related hand injury: a new perspective of e-sports.” The Journal of hand surgery, European volume vol. 44,2 (2019): 219-220. doi:10.1177/1753193418799607
McGee, Caitlin, et al. “More Than a Game: Musculoskeletal Injuries and a Key Role for the Physical Therapist in Esports.” The Journal of orthopedic and sports physical therapy vol. 51,9 (2021): 415-417. doi:10.2519/jospt.2021.0109
McGee, Caitlin, and Kevin Ho. “Tendinopathies in Video Gaming and Esports.” Frontiers in sports and active living vol. 3 689371. 28 May. 2021, doi:10.3389/fspor.2021.689371
Zwibel, Hallie et al. “An Osteopathic Physician’s Approach to the Esports Athlete.” The Journal of the American Osteopathic Association vol. 119,11 (2019): 756-762. doi:10.7556/jaoa.2019.125
The body has a variety of functions that work simultaneously to make sure that it’s working correctly. From the musculoskeletal system all the way to the endocrine system, the body has good bacteria that cause each system to work as it should be. However, sometimes an injury or autoimmune factor comes to play when it affects the body, causing a person to feel pain or not function properly. Many remedies and treatments can help the body by dampening the harmful effects that trigger various problems like inflammation, IBS, leaky gut, and much more. One of the treatments that physicians have used to help patients is photobiomodulation or low laser therapy.
Photobiomodulation Explained
Low laser therapy or photobiomodulation is when the body is exposed to a cold laser in the affected area. The laser wavelength targets the area through the skin to the mitochondrial. Studies have shown that photobiomodulation mechanics can help the body at the molecular, cellular, and tissue-based level causing therapeutic relief. When exposed through treatment, the laser wavelength can help give the injured area of the body relief that can last for hours to months with regular treatment.
Photobiomodulation Benefits
Another study found that photobiomodulation can heal and stimulate body tissue, thus relieving pain and inflammation, causing the microbiome to alter in the body. The study also mentions that photobiomics can indirectly affect the microbiome and cause harmful bacteria or inflammation to halt, causing the body to boot its immune system. One study has even found that even though photobiomodulation has been widely accepted to treat low-back pain, it can be highly effective when modulating the gut microbiome. This means that when photobiomodulation and nutritional therapy are combined, they can help treat gut issues, low vagal tone, and autoimmunity in the body.
The Gut System
The gut microbiome is one of the important biomes in the body that plays a huge role. The gut microbiota can help the body internally by regulating its metabolism and protecting itself from harmful pathogens; thus, a healthy gut flora is mainly responsible for an individual’s overall health. Studies have shown that the gut microbiota comprises two significant phyla, which are Bacteroidetes and Firmicutes. The study also mentions that a normal gut microbiome can help maintain the structural integrity of the gut mucosal barrier, immunomodulation, and metabolize xenobiotics.
The Microbiome of the Gut
Since the gut microbiome makes sure that the body is healthy, sometimes unwanted pathogens can affect the gut, disrupting the body. Studies show that the gut microbiota can ensure homeostasis while recognizing bacterial epitopes in intestinal epithelial and the mucosal immune cells. But when harmful bacterias invade the gut, either by food sensitivity or autoimmune factors, the gut takes a heavy toll, causing the body to feel unwell. These factors can cause body inflammation, leaky gut, or IBS, thus making the individual feel pain if it’s not treated, causing more problems.
Conclusion
Overall, doctors using photobiomodulation on the gut is beneficial in the overall wellness of the body. The photobiomics have proven extraordinary therapeutic effects by targeting the inflamed area and improving the area by raising the antibodies to combat the inflammation and reducing gastrointestinal wall damage. By utilizing photobiomodulation and natural food therapy together, the body can recover quickly and achieve overall wellness.
References:
Hamblin, Michael R. “Photobiomodulation or Low-Level Laser Therapy.” Journal of Biophotonics, U.S. National Library of Medicine, Dec. 2016, https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5215795/.
Jandhyala, Sai Manasa, et al. “Role of the Normal Gut Microbiota.” World Journal of Gastroenterology, U.S. National Library of Medicine, 7 Aug. 2015, https://pubmed.ncbi.nlm.nih.gov/26269668/.
Liebert, Ann, et al. “‘Photobiomics’: Can Light, Including Photobiomodulation, Alter the Microbiome?” Photobiomodulation, Photomedicine, and Laser Surgery, Mary Ann Liebert, Inc., Publishers, Nov. 2019, https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6859693/.
Sekirov, Inna, et al. “Gut Microbiota in Health and Disease.” Physiological Reviews, U.S. National Library of Medicine, 9 July 2010, https://pubmed.ncbi.nlm.nih.gov/20664075/.
Silverman, Robert G. “Photobiomics: A Look to the Future of Combined Laser and Nutrition Therapy.” Chiropractic Economics, 5 Oct. 2021, https://www.chiroeco.com/photobiomics/.
All of these can deplete the body of nutrients and drain the body’s energy. As a result, individuals can be distracted throughout the day, unable to leave the house, and unable to accomplish regular tasks. Gastrointestinal stress can be caused by a variety of factors, including:
Unhealthy diet
Interrupted sleep patterns
Work/school changes
Headaches
Medications
Fibromyalgia
Digestive issues are commonly associated with poor nutrition, but there could be an underlying cause in the spine and nervous system. Chiropractic can help manage gastrointestinal stress and stomach problems.
Spinal Subluxation and Gastrointestinal Stress
The nervous system controls every function that the body performs, including digestion. The spine communicates with the stomach directly. The thoracic mid-back and lumbar low-back regions of the spine are responsible for regulating the rate of how food is physically broken down and digested. A subluxation or spinal misalignment can interfere with vital information transmissions from the brain to the digestive tract compromising digestive function.
Subluxation
Subluxation refers to a misalignment of the vertebrae that can cause health issues with the nerves in the spine, directly affecting digestion. If the vertebrae are out of alignment, this causes a misfire in the signals being sent to the nerves of the digestive system. This can cause problems for the body absorbing nutrients, vitamins, and minerals from food. Because of this, no matter how healthy the diet is, individuals can still suffer from digestive issues.
Chiropractic
Many individuals deal with stress through meditation, breathing exercises, physical activity/exercise, and diet adjustments.
Lifestyle adjustments help counter the effects of stress, but if the nervous system is blocked from spinal misalignment, disrupting vital nerve flow through the body, specifically the digestive tract, gastrointestinal stress will continue to cause damage and malfunction. Individuals with:
Have experienced how chiropractic treatment corrects and helps manage symptoms.
Body Composition
Viscous and Nonviscous Fiber
Another way of classifying fiber is by its viscosity or thickness. Certain types of soluble fiber are thicker and are more likely to form firmer, stickier gels when mixed with water. When digesting food that consists of thick fiber it increases the thickness of the gel substance that passes through the gut. As a result, it reduces appetite because it makes the body feel fuller longer. Viscous fibers include:
Angus, Katherine et al. “What effect does chiropractic treatment have on gastrointestinal (GI) disorders: a narrative review of the literature.” The Journal of the Canadian Chiropractic Association vol. 59,2 (2015): 122-33.
Qu, Liuxin et al. “Irritable bowel syndrome treated by traditional Chinese spinal orthopedic manipulation.” Journal of traditional Chinese medicine = Chung i tsa chih ying wen pan vol. 32,4 (2012): 565-70. doi:10.1016/s0254-6272(13)60072-2
Walking for a healthy back. This simple form of exercise can:
Trim the waistline.
Elevate mood.
Reduce the risk of chronic disease.
Improve back health.
Chiropractors recommend walking because of the ease of the workout and the health benefits it provides. It is a simple, low-impact exercise that can significantly improve the body’s overall health in a short amount of time. It improves back health by:
Strengthening the muscles that support the spine.
Improves posture.
Facilitates strong circulation.
Improves bone strength.
Walking For A Healthy Back
Strengthens Muscles
Walking engages all of the muscles which keep the body upright, including the core, leg, and back muscles. Muscle strength increases, providing optimal support of the spine.
Optimize Bone Health
Bone is living tissue like the muscles, and exercise stimulates bone the same way as muscle, gradually increasing strength.
Studies have found that walking improves bone density and reduces bone loss.
Poor posture is one of the most common reasons why individuals have back pain.
Poor posture affects mobility and places a significant amount of strain on the back.
Walking a few times each week engages and strengthens the back muscles keeping the body straight.
Reduces Weight
Many individuals have lower back pain that is caused by excess weight.
The added weight causes the front of the body to shift forward, placing additional strain on the lower back.
Walking reduces the load on the lower back.
Improves Flexibility and Range of Motion
Combined with stretching, walking improves flexibility and range of motion, making it easier to perform everyday activities reducing the risk of back injuries.
Improves Circulation to the Spinal structures
Walking improves blood circulation, delivers nutrients to the soft tissues, and removes toxins.
Added Benefits include:
Stress relief.
Better sleep.
Improved skin tone.
Lower risk of diabetes.
Reduced risk of depression.
Improved cardiovascular health that lowers the risk of:
High blood pressure.
Heart disease.
Stroke.
Before Exercising
Before beginning an exercise program, it’s essential to consult a doctor or chiropractor for individuals that have not exercised for a while or are dealing with underlying condition/s. They will educate and recommend how much exercise is appropriate given their current fitness level and overall health. To maximize the benefits of walking and prevent injuries:
Use High-Quality Tennis or Walking Shoes
Walking is much more enjoyable and safer when the body is comfortable.
Improving comfort levels is by using a pair of high-quality walking shoes or trainers.
They will provide proper support, cushioning, and adequate traction.
Maintain Proper Posture
Stay aware of body position when walking. A few key points to keep in mind:
Place the heel down first.
Then roll through each part of the foot, ending on the point of the toes.
Keep the shoulders back and head up.
Lift from the hips to reduce the impact on the lower joints.
Keep a slight bend in the arms and smoothly swing them back and forth.
Turn Walking Into a Healthy Habit
In the beginning, aim for at least 5 to 7 walks each week that last 25 minutes.
Speed does not matter as the objective is to get out and walk.
Once walking starts turning into a healthy habit with improvements in health, then start walking faster and longer.
Interval Walking
Interval walking involves short periods of high-intensity walking followed by alonger period of slow walking.
This increases cardiovascular fitness and muscle strength.
Begin with a 1-minute interval of fast walking.
This is followed by 2 minutes of slower walking.
Take On Easy Obstacles
Makes the walks more challenging by walking up or down a hill.
They will help strengthen the arms, shoulders, and upper back.
Body Composition
Building Lean Body Mass
Lean Body Mass is the body’s total weight minus the fat. This includes all the weight of the muscles, organs, and total body water. The best way to develop muscle and Lean Body Mass is to adopt a resistance training program. As stronger muscles are developed, the size and amount of the muscle cells increases. The muscles then require more intracellular water, which allows them to function at optimal levels. As the muscles grow and take in more water, Lean Body Mass increases.
References
Morris, J N, and A E Hardman. “Walking to health.” Sports medicine (Auckland, N.Z.) vol. 23,5 (1997): 306-32. doi:10.2165/00007256-199723050-00004
Nauman, Javaid et al. “Walking in the Fast Lane: High-Intensity Walking for Improved Fitness and Health Outcomes.” Mayo Clinic proceedings vol. 94,12 (2019): 2378-2380. doi:10.1016/j.mayocp.2019.10.020
Vanti, Carla et al. “The effectiveness of walking versus exercise on pain and function in chronic low back pain: a systematic review and meta-analysis of randomized trials.” Disability and rehabilitation vol. 41,6 (2019): 622-632. doi:10.1080/09638288.2017.1410730
Around the world, pain, especially chronic pain, is widespread to an individual. When the body goes through a tremendous amount of activity, the muscle tissues will rip and tear to strengthen the body for the next activity it overcomes. But when the muscle tissues tear and cause pain to the body, it can take a week or even months for the tissue to recover. Many recovery treatments can help alleviate the pain that a person is in, and one of the recovery treatments that most physicians use is low laser therapy.
Low Laser Therapy & Musculoskeletal Pain
Doctors have used low laser therapy to help patients alleviate pain and repair muscle tissue in the affected area of the body. Studies have found that the effects of low laser therapy had a positive impact on the treated area. The study showed that the low laser treatment has helped with relieving pain and has promoted tissue repair. The effects of the low laser wavelength have enhanced the healing process by promoting cell proliferation, causing pain relief. One of the efficient ways that low laser therapy is beneficial to the body is to alleviate musculoskeletal pain.
Musculoskeletal pain is a variety of issues in the body. From muscle pain to fibromyalgia, it can render a person miss out on everyday activities, causing them to miss work or school. Studies have shown that when a patient is going in for low laser therapy, the effects from the laser wavelength can reduce inflammation and edema in the affected area. The studies even show that the laser light effects are photochemical and not thermal. The laser light will trigger a biochemical change in the body, causing the photons from the affected area to be absorbed, thus triggering a chemical change in the area.
Efficient Uses of Low Laser Therapy
Other studies even show that the low laser wavelength triggers chemical alterations and potential biochemical benefits to the human body. This means that if a person is suffering from chronic pain when going for low laser treatment, the laser can relieve chronic pain symptoms and even osteoarthritic conditions. Another efficient use of low laser therapy is that it can suppress the MMP or mitochondrial membrane potential in the DRG neutron while reducing adenosine triphosphate or ATP production in the body. In other words, the effects of low laser therapy can suppress and reduce inflammation receptors in the body, thus causing long-term results that last for years, improving tissue healing.
Another efficient way low laser therapy is beneficial is that it can be combined with light exercises as a staple of rehabilitation. Studies have found that the combination of low laser therapy and exercise has merit. When an individual combines stretches and low laser therapy as part of their rehabilitation, the data shows a reduction in pain symptoms and fatigue in the body.
Conclusion
All in all, the efficient effects of low laser therapy are beneficial by reducing inflammation and damping the pain receptors in the body. Since chronic pain is worldwide and can cause harmful effects to the body, using low laser therapy can dampen the pain receptors. Having low laser therapy treatments as part of their daily regime and light exercises for anyone with chronic pain can get their body moving pain-free. Since the body goes through so much, having low laser therapy is one of the many recovery treatments that can provide long-lasting results and promote overall wellness.
References:
Cotler, Howard B., et al. “The Use of Low Level Laser Therapy (LLLT) for Musculoskeletal Pain.” MOJ Orthopedics & Rheumatology, U.S. National Library of Medicine, 9 June 2015, https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4743666/.
Dima, Robert, et al. “Review of Literature on Low-Level Laser Therapy Benefits for Nonpharmacological Pain Control in Chronic Pain and Osteoarthritis.” Alternative Therapies in Health and Medicine, U.S. National Library of Medicine, 24 Sept. 2018, https://pubmed.ncbi.nlm.nih.gov/28987080/.
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