Athletic individuals must train regularly, eat healthy, and rest properly to recover and perform their best. Is sleep different for athletes?
Athletes and Sleep
Physical activity is an important component of a healthy lifestyle. Regular exercise increases longevity and can also reduce the risk of anxiety and depression and improve sleep (Centers for Disease Control and Prevention, 2024). When one area is lacking for athletes, overall performance can suffer. Evidence shows that more or extended sleep can benefit athletes and their recovery and performance. (Bird, Stephen P. 2013) Recommendations for athletes range between seven and nine hours nightly, and elite athletes are encouraged to get at least nine hours of sleep nightly and to treat sleep as much as athletic training and diet.
Sleep is essential for overall health and well-being for both athletes and non-athletes. Everyone needs sleep to feel restored and function their best daily. (Richard J. Schwab, 2024) Other physical benefits include:
Cardiovascular Recovery
This allows the heart to rest and cells and tissue to be repaired. (MedlinePlus, 2017) This can help the body recover after physical exertion. As an individual progresses through the stages of sleep, the changes in heart rate and breathing throughout the night promote cardiovascular health (National Heart, Lung, and Blood Institute, 2011)
Illness Prevention
The proper amount of sleep helps the body recover from illness. During sleep, the body produces cytokines/hormones that help the immune system fight off infections. These therapeutic effects are important for an athlete’s recovery and performance.
Lack of Sleep Affects Performance
Poor quality and quantity of sleep can lead to several negative effects. Sleep deprivation reduces the ability to react quickly and think clearly. A lack of sleep also increases irritability and risk for anxiety and depression. Sleep-deprived individuals are more likely to make poor decisions and take unnecessary risks. From a physical standpoint, a lack of sleep increases the risk for medical concerns, including type 2 diabetes, high blood pressure, kidney disease, and stroke. When athletes do not receive adequate sleep, it can:
Inhibit Ability
In a study of sleep-deprived male team athletes, average and total sprint times decreased. (Skein, M. et al., 2011)
Decrease Accuracy
In a study, male and female sleep-deprived tennis players had decreased serve accuracy by up to 53% compared to performance after normal sleep. (Reyner L. A. & Horne J. A. 2013)
Cause Quicker Exhaustion
A study of male runners and volleyball players found that both athletes exhausted faster after sleep deprivation. (Azboy O. & Kaygisiz Z. 2009)
Decrease Reaction Time
A study found that lack of sleep adversely affected reaction time in a group of male collegiate athletes. (Taheri M. & Arabameri E. 2012)
Difficulty Learning and Decision Making
A lack of sleep negatively impacts cognitive skills and functions.
Athletes can become distracted, and decisions like passing the ball or going for the smash can be difficult or made too late.
Increases Risk of Injury
Research on middle—and high-school athletes showed that chronic lack of sleep was associated with increased rates of injury. (Milewski M. D. et al., 2014)
Increases The Risk of Illness or Immunosuppression
Poor sleep habits are associated with lower resistance to illness like a cold. (Prather A. A. et al., 2015)
Athletic Sleep Hygiene
Common components to sleep well include:
Avoid alcohol and Caffeine
Before bedtime, these can interrupt sleep or lead to more disturbed sleep.
Have a Wind-Down Routine
Activities such as reading, bathing, or meditating can help the body relax and get ready for sleep.
Reduce Stressors
Not only do mental stressors affect sleep quality, but they also impact performance overall.
Create an Optimal Sleep Environment
A sleeping space should be dark and cool with little to no noise.
The environment should be used only for sleep and sex.
No Electronics Before Bed
This includes TVs, cell phones, and computers.
The blue light that these devices emit can affect circadian rhythm.
Don’t Stay Awake In Bed
If you can’t fall asleep after 20 minutes of trying, get out of bed.
Do a quiet activity in another space until you feel sleepy.
Avoid Overtraining
Keep a consistent training schedule so as not to overexert yourself.
Quick Naps
Keep naps brief. Naps should be longer than an hour and not after 3 p.m.
Injury Medical Chiropractic and Functional Medicine Clinic
The right bed and mattress contribute to overall health and can improve one’s quality of life. Doctor Alexander Jimenez, DC, at Injury Medical Chiropractic and Functional Medicine Clinic, says a healthy mattress can improve sleep, reduce pain, increase energy levels, and elevate mood. Injury Medical Chiropractic and Functional Medicine Clinic works with primary healthcare providers and specialists to develop an optimal health and wellness solution. We focus on what works for you to relieve pain, restore function, prevent injury, and help mitigate the pain through spinal adjustments that help the body realign itself. They can also work with other medical professionals to integrate a treatment plan to resolve musculoskeletal issues.
Bird, Stephen P. PhD. (2013). Sleep, Recovery, and Athletic Performance: A Brief Review and Recommendations. Strength and Conditioning Journal, 35(5), 43-47. doi.org/DOI: 10.1519/SSC.0b013e3182a62e2f
Skein, M., Duffield, R., Edge, J., Short, M. J., & Mündel, T. (2011). Intermittent-sprint performance and muscle glycogen after 30 h of sleep deprivation. Medicine and science in sports and exercise, 43(7), 1301–1311. doi.org/10.1249/MSS.0b013e31820abc5a
Reyner, L. A., & Horne, J. A. (2013). Sleep restriction and serving accuracy in performance tennis players, and effects of caffeine. Physiology & behavior, 120, 93–96. doi.org/10.1016/j.physbeh.2013.07.002
Azboy, O., & Kaygisiz, Z. (2009). Effects of sleep deprivation on cardiorespiratory functions of the runners and volleyball players during rest and exercise. Acta physiologica Hungarica, 96(1), 29–36. doi.org/10.1556/APhysiol.96.2009.1.3
Taheri, M., & Arabameri, E. (2012). The effect of sleep deprivation on choice reaction time and anaerobic power of college student athletes. Asian journal of sports medicine, 3(1), 15–20. doi.org/10.5812/asjsm.34719
Milewski, M. D., Skaggs, D. L., Bishop, G. A., Pace, J. L., Ibrahim, D. A., Wren, T. A., & Barzdukas, A. (2014). Chronic lack of sleep is associated with increased sports injuries in adolescent athletes. Journal of pediatric orthopedics, 34(2), 129–133. doi.org/10.1097/BPO.0000000000000151
Prather, A. A., Janicki-Deverts, D., Hall, M. H., & Cohen, S. (2015). Behaviorally Assessed Sleep and Susceptibility to the Common Cold. Sleep, 38(9), 1353–1359. doi.org/10.5665/sleep.4968
For individuals who don’t have time for a full workout, could incorporating sprint exercise training be an option to improve their cardiovascular and overall health?
Sprint Exercise Training
Most think of running when they hear the word sprinting. However, sprinting can be performed in any aerobic activity, whether swimming, cycling, rollerblading, or exercising on an elliptical machine. Sprint exercise training means varying the intensity levels of the activity. It is also known as sprint interval training or speed drills. It targets cardiovascular endurance and is suitable for all fitness levels, from beginners to advanced. This type of training is demanding and requires high motivation, but it can lead to significant improvements and help achieve fitness goals faster.
Sprint workouts are a time saver. Many exercise guidelines recommend up to 60 minutes of moderate exercise 3 times a week; however, many people don’t have the time. Studies have shown that short, high-intensity sprint exercise training improves aerobic capacity and endurance in half the time of traditional endurance exercise. Sprint exercise training burns calories, improves cardiovascular health, builds muscle, and increases speed and power. Sprint workouts are great for individuals who lack time for traditional steady endurance exercise but want to improve cardiovascular health. (Vollaard, N. B. J., and Metcalfe, R. S. 2017) Adding them to a workout routine can take training to a new level.
Training
The key to sprint training is performing an activity at a certain percentage of all-out effort to increase heart rate. Sprint exercise training is recommended three times a week, with at least one to two days of rest or other easy exercises between sprint workouts. How to do.
Warm-up
Warm up with easy exercise for five to 10 minutes.
Slowly perform the exercise that will be done for the sprints to prepare the body for the intense sprint.
Do the First Sprint
Perform the first sprint at around 60% intensity.
Slow down and continue warming up if there is muscle tightness or joint pain.
Rest
Recover for four minutes by slowing to a comfortable pace, but continue moving.
Do the Second Sprint
Perform the next sprint at 80% max intensity.
Rest
Rest for four minutes.
Do the Third Sprint
Perform the remainder of the sprints at 100% intensity or all-out efforts for 30 seconds.
Push to the maximum for each exercise.
Rest
Recover for four minutes after each sprint to slow down breathing and heart rate, and can hold a conversation without gasping.
Repeat
Repeat the sprint/recovery routine four to eight times, depending on fitness level and ability.
For the first workout, stop at four sprints.
Gradually build up to eight.
Benefits
Sprint exercise training enhances endurance performance and can be effectively used by athletes, fitness enthusiasts, and individuals who want to improve their fitness and health. (Litleskare, S. et al., 2020) In one study, participants who completed eight weeks of sprint training saw improvements in maximal oxygen uptake or VO2 max. The test is one way to measure cardiovascular fitness. (Litleskare, S. et al., 2020) These short bursts of intense exercise improve muscle health and performance comparable to several weeks of traditional training. (Gunnarsson, T. P. et al., 2013) Other studies have found that short, high-intensity exercise burns more calories than the same amount of moderate-level cardiovascular exercise. (Vollaard, N. B. J., and Metcalfe, R. S. 2017)
Variations
There are different ways to structure a sprinting routine, and different fitness goals will determine the intensity, duration, and number of sprints that should be performed.
Beginners
Those new to sprinting should start slow, as overdoing it can lead to injury. Work on building up a base level of fitness before introducing sprinting into an exercise routine. Start with one set of four sprint/rest cycles when trying sprints. As fitness goals are achieved, add more sprints to each set or different sprints.
Intermediate
Once a sprinting exercise routine is begun, it may only be a few weeks before one is ready to advance to an intermediate level. Try increasing the number of sprints at different intensity levels. However, avoid sprint exercises too often weekly as the body needs adequate rest.
Advanced
Advanced athletes can intensify the routine by increasing intensity and adding reps. One way is by adding resistance. For example, for those running or cycling, try sprinting hills, or if rollerblading, try wearing wrist and ankle weights to increase the load. Swimmers can use strength-building techniques to focus on specific body areas or add resistance. The intensity of any sprinting activity can be intensified by wearing a weighted vest.
Beginner Errors
A few common starting mistakes include going too hard, advancing too quickly, and doing too many for too long. Sprints are not meant to replace moderate-intensity exercise. The goal is to modulate the intensity of aerobic activities. A study showed that not getting enough rest between sprints led to an inability to perform as well during sprinting. (Selmi, M. A. et al., 2016)
Safety
Sprint workouts can be done with running, swimming, cycling, or other aerobic cardiovascular exercises. The following precautions should be considered before adding sprint training to a workout schedule:
Safety
Because sprinting is a high-intensity exercise, it is recommended that individuals consult with a healthcare professional and review the physical activity readiness questionnaire (PAR-Q) before beginning a sprint training workout.
Base Fitness
A strong fitness base in the sprint activity is also important.
To build a fitness base, follow the 10% rule and gradually increase training volume.
Frequency
Because of the intensity, sprint workouts should not be done more than three times a week.
Muscle Soreness
Launching into a sprint program can cause delayed-onset muscle soreness.
Experts recommend having about three to four weeks of base fitness before beginning.
Injuries are more likely if the body isn’t properly prepared.
The goal is to do a sprint workout six times in two weeks, then only perform 2 times a week for maintenance for six to eight weeks before changing the workout. On the days following a sprint workout, aim for 20–30 minutes of the same aerobic activity at an easier pace to help recover but maintain results. If pleased with the results, continue with the routine longer, but it is recommended to vary the workouts every few months and throughout the year. Modify the routine to find what works best.
Military Training and Chiropractic Care: Maximizing Performance
References
Vollaard, N. B. J., & Metcalfe, R. S. (2017). Research into the Health Benefits of Sprint Interval Training Should Focus on Protocols with Fewer and Shorter Sprints. Sports medicine (Auckland, N.Z.), 47(12), 2443–2451. doi.org/10.1007/s40279-017-0727-x
Litleskare, S., Enoksen, E., Sandvei, M., Støen, L., Stensrud, T., Johansen, E., & Jensen, J. (2020). Sprint Interval Running and Continuous Running Produce Training Specific Adaptations, Despite a Similar Improvement of Aerobic Endurance Capacity-A Randomized Trial of Healthy Adults. International journal of environmental research and public health, 17(11), 3865. doi.org/10.3390/ijerph17113865
Gunnarsson, T. P., Christensen, P. M., Thomassen, M., Nielsen, L. R., & Bangsbo, J. (2013). Effect of intensified training on muscle ion kinetics, fatigue development, and repeated short-term performance in endurance-trained cyclists. American journal of physiology. Regulatory, integrative and comparative physiology, 305(7), R811–R821. doi.org/10.1152/ajpregu.00467.2012
Selmi, M. A., Haj, S. R., Haj, Y. M., Moalla, W., & Elloumi, M. (2016). Effect of between-set recovery durations on repeated sprint ability in young soccer players. Biology of sport, 33(2), 165–172. doi.org/10.5604/20831862.1198636
Can incorporating electrical muscle stimulation help control pain, strengthen muscles, increase physical function, retrain lost movements, and/or manage inflammation for individuals experiencing neck and back pain?
Female doctor placing myostimulation physical therapy equipment on patient’s back
Electric Muscle Stimulation
Electrical muscle stimulation or E-stim is a physical therapy used to reactivate the muscles’ ability to contract. E-stim uses devices that transmit electrical impulses through the skin to target nerves and/or muscles. The most common forms include
Transcutaneous electric nerve stimulation, or TENS, is the most well-known type of electrical stimulation that offers devices that can be used at home or on the go.
Electrical muscle stimulation or EMS.
In physical therapy, E-stim stimulates muscles to contract, strengthening them and encouraging blood circulation.
Blood circulation can directly affect the condition of muscle tissue.
Electrical muscle stimulation is also used in spinal cord injury and other neuromuscular conditions. (Ho, C. H. et al., 2014)
E-stim
During treatment, electrodes are hooked to an electric stimulation machine and placed around the affected neck or back area.
The electrodes will be placed on the skin for most neck or back injuries.
The placement of the electrodes depends on the reason for treatment and the depth or superficiality of the electrical stimulation.
The electrodes are often placed near a motor point of a muscle to ensure the correct contraction.
The therapist will adjust the controls of the stimulation machine to achieve thorough muscle contraction with minimal discomfort.
Stimulation can last 5 – 15 minutes, depending on the treatment plan and injury severity.
Spinal Joint Stabilization
Activation of the muscles may help increase spinal joint stability, improving problems with spinal instability. (Ho, C. H. et al., 2014) Electric muscle stimulation is thought to enhance the exercise program a therapist prescribes to help maintain joint stability. Electrical stimulation may also help build muscle strength and endurance. (Veldman, M. P. et al., 2016) Muscle endurance is the repetitions a muscle can contract before it fatigues.
Healing and Pain Management
Electric muscle stimulation therapy can enhance tissue healing and help manage inflammation by reducing swelling and increasing circulation. It can reduce pain sensations by blocking nerve transmission at the spinal cord. (Johnson, M. I. et al., 2019) A healthcare professional may suggest a TENS or take-home electric stimulation unit to manage symptoms. (Johnson, M. I. et al., 2019)
Treatment
Interdisciplinary therapies tailored to an individual’s specific back or neck pain have been found to provide positive results. Exercise, yoga, short-term cognitive behavioral therapy, biofeedback, progressive relaxation, massage, manual therapy, and acupuncture are recommended for neck or back pain. (Chou, R. et al., 2018) Taking non-steroidal anti-inflammatory medications may also help. Electrical muscle stimulation could be an effective neck or back treatment.
Individuals unsure whether they need or would benefit from electrical should discuss symptoms and conditions with a primary physician, healthcare provider, or specialist to guide them in the right direction and determine the best treatment. Injury Medical Chiropractic and Functional Medicine Clinic focuses on what works for the patient and strives to better the body through researched methods and total wellness programs. Using an integrated approach, we treat injuries and chronic pain syndromes through personalized care plans that improve ability through flexibility, mobility, and agility programs personalized to the individual to relieve pain. If other treatment is needed, Dr. Jimenez has teamed up with the top surgeons, clinical specialists, medical researchers, and premier rehabilitation providers to provide the most effective treatments.
Thoracic Spine Pain
References
Ho, C. H., Triolo, R. J., Elias, A. L., Kilgore, K. L., DiMarco, A. F., Bogie, K., Vette, A. H., Audu, M. L., Kobetic, R., Chang, S. R., Chan, K. M., Dukelow, S., Bourbeau, D. J., Brose, S. W., Gustafson, K. J., Kiss, Z. H., & Mushahwar, V. K. (2014). Functional electrical stimulation and spinal cord injury. Physical medicine and rehabilitation clinics of North America, 25(3), 631–ix. doi.org/10.1016/j.pmr.2014.05.001
Veldman, M. P., Gondin, J., Place, N., & Maffiuletti, N. A. (2016). Effects of Neuromuscular Electrical Stimulation Training on Endurance Performance. Frontiers in physiology, 7, 544. doi.org/10.3389/fphys.2016.00544
Johnson, M. I., Jones, G., Paley, C. A., & Wittkopf, P. G. (2019). The clinical efficacy of transcutaneous electrical nerve stimulation (TENS) for acute and chronic pain: a protocol for a meta-analysis of randomised controlled trials (RCTs). BMJ open, 9(10), e029999. doi.org/10.1136/bmjopen-2019-029999
Chou, R., Côté, P., Randhawa, K., Torres, P., Yu, H., Nordin, M., Hurwitz, E. L., Haldeman, S., & Cedraschi, C. (2018). The Global Spine Care Initiative: applying evidence-based guidelines on the non-invasive management of back and neck pain to low- and middle-income communities. European spine journal : official publication of the European Spine Society, the European Spinal Deformity Society, and the European Section of the Cervical Spine Research Society, 27(Suppl 6), 851–860. doi.org/10.1007/s00586-017-5433-8
For individuals who are getting older, can increasing bone strength help prevent fractures and optimize bone health?
Bone Strength
Bone strength is important, as a fractured hip can be serious for older individuals. A study found that for individuals in their 60s who had a hip fracture, 6.5% of women and 9.4% of men died within a year. Among individuals in their 80s, 13.1% of women and 19.6% of men died within a year. (Dimet-Wiley, et al., 2022)
Increasing bone strength can help prevent various issues. A small increase in bone mineral density has been shown to help reduce the risk of fractures, especially hip fractures. A decades-long study found that just a 3% increase in bone strength helps lower the chance of breaking a hip. Researchers enrolled two groups of individuals aged 60 and older, one in 1989 and the second in 1999.
The bone mineral density of each subject’s femoral neck joint at the top of the thigh bone near the hip was measured.
They then followed the subjects for years to see who experienced hip fractures.
While the bone mineral density of the second group was only 3% higher than the first group, these subjects experienced a 46% reduction in hip fractures. (Tran, T. et al., 2023)
Bone Loss
Bone loss is progressive in men and women and increases as the body ages. Osteoporosis is a condition in which bone tissue deteriorates. (Department of Health and Human Services Office of Disease Prevention and Health Promotion. 2020) Bones constantly break down and reform as a normal remodeling process. If the balance of this process is impaired, osteoporosis develops, resulting in more bone breakdown than formation. While men and women experience bone loss, it’s more common in females. (National Institute of Arthritis and Musculoskeletal Diseases. 2022) Menopause is a risk factor because of the decline of estrogen (National Library of Medicine, Medline Plus, 2022). Estrogen reinforces bone strength by protecting against bone breakdown; with estrogen loss, bone breakdown increases. However, anyone of any age or background can experience bone loss due to the following:
While some loss of bone strength is common, several strategies exist to maintain bone health. Exercise, specifically weight-bearing activities, can increase bone strength. When bones and muscles are used to hold a position against gravity, this mechanically stresses the bone, causing it to reform stronger. Movement and physical exercise as medicine and the forces transmitted through the bones generate mechanical signals that tell the cells to increase bone formation relative to breakdown. Exercises focusing on posture, balance, gait, and coordination are recommended for individuals with osteoporosis to strengthen the core, quadriceps, and hip flexors. Different types of exercises can include:
Walking to strengthen the spine and hips.
Walking outside or on a treadmill provides more loading force to the bone.
Planks and push-ups can strengthen the forearm and wrist bones.
Holding a water bottle in each hand and lifting up and down 10 times together or alternating a few times a day.
Side leg lifts can strengthen the hip and forearm bones simultaneously.
Weight training provides the bones with a workout by having them support a weight load.
Any exercise therapy program should be designed by a healthcare provider, physical therapist, and trainer according to the individual’s condition and appropriate for them.
Diet
What goes into the body definitely affects bone health. Calcium and vitamin D are key to bone building, but both are needed as vitamin D is needed to absorb the calcium ingested. Calcium can be found in:
Dairy
Dairy products and non-dairy alternatives are fortified with calcium.
Leafy greens.
Beans.
Almonds.
The recommended daily calcium intake for adults over 50 is 1,200 milligrams.
Vitamin D can come from:
Sunlight
Fish.
Mushrooms.
Fortified milk.
Supplements.
The recommended daily vitamin D intake for adults aged 70 is 15 micrograms and 20 micrograms for individuals over 70.
Studies have found that increasing calcium and vitamin D intake with supplements can help maintain bone health. Talk to a healthcare provider about whether supplements could be beneficial.
Hormone Therapy
Females also naturally produce testosterone, which promotes bone formation. As levels drop with age and negatively impact bone strength, hormone therapy could be recommended. Declining testosterone levels start with women in their 20s and men in their 30s. The typical drop in women is 1% to 3% yearly before menopause and stabilizes somewhat afterward. Female patients at risk of bone loss may be prescribed testosterone in various forms that continuously emit the hormone. The dosage is low, so patients do not experience unwanted hair growth or skin changes. Combined with estrogen, testosterone effectively increases bone growth in female patients. Not everyone is a candidate for hormone therapy, like individuals with a history of breast cancer, heart disease, blood clots, or liver disease. (National Library of Medicine. Medline Plus, 2019)
Making small adjustments can optimize bone health and overall well-being
At Injury Medical Chiropractic and Functional Medicine Clinic, we passionately focus on treating patients’ injuries and chronic pain syndromes to create personalized care plans that improve ability through flexibility, mobility, and agility programs tailored to the individual. Using an integrated approach, our goal is to relieve pain naturally by restoring health and function to the body through Functional Medicine, Acupuncture, Electro-Acupuncture, and Sports Medicine protocols. If the individual needs other treatment, they will be referred to a clinic or physician best suited for them, as Dr. Jimenez has teamed up with the top surgeons, clinical specialists, medical researchers, and premier rehabilitation providers to provide the most effective clinical treatments. We focus on what works for you and strive to better the body through researched methods and total wellness programs.
Chiropractic Care: Movement Medicine
References
Dimet-Wiley, A., Golovko, G., & Watowich, S. J. (2022). One-Year Postfracture Mortality Rate in Older Adults With Hip Fractures Relative to Other Lower Extremity Fractures: Retrospective Cohort Study. JMIR aging, 5(1), e32683. doi.org/10.2196/32683
Tran, T. S., Ho-Le, T. P., Bliuc, D., Center, J. R., Blank, R. D., & Nguyen, T. V. (2023). Prevention of Hip Fractures: Trade-off between Minor Benefits to Individuals and Large Benefits to the Community. Journal of bone and mineral research : the official journal of the American Society for Bone and Mineral Research, 38(11), 1594–1602. doi.org/10.1002/jbmr.4907
For individuals with aches and pains throughout their body, can a foot detox help bring relief?
Foot Detox
A foot detox involves soaking the feet in an ionic bath to help remove toxins from the body. They can also be performed using acupressure, scrubs, foot masks, and pads. Combined with eliminating toxins, detox is also believed to help enhance blood circulation and provide body pain and discomfort relief. However, current evidence is limited and there has been no evidence to support that toxins can be released from the feet using an ionic bath. However, they have been found to provide other benefits, which include:
Relaxation
Lower stress levels
Enhanced skin health and hydration.
Reduced inflammation in individuals with skin disorders.
Foot detoxes are considered generally safe, but individuals are recommended to speak to their healthcare provider.
Potential Benefits
The potential health benefits include:
Reduces inflammation and swelling.
Improves stress levels and mood.
Can help with weight management.
Can help with heart health and increased blood circulation.
However, most reports surrounding the benefits of foot detox are not proven by research investigating whether the health claims are scientifically accurate. One study in 2012 found that foot detoxes did not produce the intended results and could not help remove toxins from the body. (Deborah A. Kennedy, et al., 2012) Other research surrounding foot baths and massages showed that they could help reduce symptoms of mood disorders like schizophrenia because of the relaxing effect they produce. (Kazuko Kito, Keiko Suzuki. 2016)
Ways Toxins are Removed From the Body
Toxins are filtered out of the body in a variety of ways. Breathing out expels carbon dioxide from the body. Another way is through the body’s natural processes. The body has organs and other systems to filter out and release toxins.
Specific organs, such as the liver, kidneys, and lymph nodes, filter and remove harmful and unneeded substances. (UW Integrative Health. 2021)
The health claims surrounding toxin removal through the feet are currently insubstantial because no evidence supports the effectiveness and the anecdotal evidence is not based on science.
Foot detoxes can be an enjoyable experience that can help relieve sore feet, relax the body, and offer relief for certain foot ailments. They could be an excellent addition to a self-care routine. Some of the most commonly used natural foot detoxes include the following.
Epsom Salt Foot Bath
Combining Epsom salts with warm water and soaking the feet for 20–30 minutes can help promote relaxation.
Apple cider vinegar foot baths are made by diluting 1 cup of vinegar in warm water and soaking the feet for 20–30 minutes.
There is limited research available to confirm the health claims.
The studies that have been done have found the reverse effect, that bathing the feet in apple cider vinegar and water can irritate the skin. (Lydia A Luu, et al., 2021)
Baking Soda and Sea Salt
Sea salt combined with baking soda dissolved in a bath and soak the feet for up to 30 minutes. While research is limited, some evidence supports the health benefits associated with sea salt that include: (Ehrhardt Proksch, et al., 2005)
Reduces inflammation in skin conditions, like atopic dermatitis.
Foot baths should be avoided for the following:
There are open sores on the feet that could be irritated by salt and other foot bath ingredients.
Individuals with a pacemaker or any electrical body implant.
Pregnant women.
Consult a healthcare provider before trying any new health protocols.
Foot Orthotics Benefits
References
Kennedy, D. A., Cooley, K., Einarson, T. R., & Seely, D. (2012). Objective assessment of an ionic footbath (IonCleanse): testing its ability to remove potentially toxic elements from the body. Journal of environmental and public health, 2012, 258968. doi.org/10.1155/2012/258968
Kito, K., & Suzuki, K. (2016). Research on the Effect of the Foot Bath and Foot Massage on Residual Schizophrenia Patients. Archives of psychiatric nursing, 30(3), 375–381. doi.org/10.1016/j.apnu.2016.01.002
UW Integrative Health. Improving your health by removing toxins from your body.
Akyuz Ozdemir, F., & Can, G. (2021). The effect of warm salt water foot bath on the management of chemotherapy-induced fatigue. European journal of oncology nursing: the official journal of European Oncology Nursing Society, 52, 101954. doi.org/10.1016/j.ejon.2021.101954
Vakilinia, S. R., Vaghasloo, M. A., Aliasl, F., Mohammadbeigi, A., Bitarafan, B., Etripoor, G., & Asghari, M. (2020). Evaluation of the efficacy of warm salt water foot-bath on patients with painful diabetic peripheral neuropathy: A randomized clinical trial. Complementary therapies in medicine, 49, 102325. doi.org/10.1016/j.ctim.2020.102325
Luu, L. A., Flowers, R. H., Gao, Y., Wu, M., Gasperino, S., Kellams, A. L., Preston, D. C., Zlotoff, B. J., Wisniewski, J. A., & Zeichner, S. L. (2021). Apple cider vinegar soaks do not alter the skin bacterial microbiome in atopic dermatitis. PloS one, 16(6), e0252272. doi.org/10.1371/journal.pone.0252272
Proksch, E., Nissen, H. P., Bremgartner, M., & Urquhart, C. (2005). Bathing in a magnesium-rich Dead Sea salt solution improves skin barrier function, enhances skin hydration, and reduces inflammation in atopic dry skin. International journal of dermatology, 44(2), 151–157. doi.org/10.1111/j.1365-4632.2005.02079.x
Kanwar A. J. (2018). Skin barrier function. The Indian Journal of Medical Research, 147(1), 117–118. doi.org/10.4103/0971-5916.232013
Should individuals increase their intake of black pepper to help with various health issues like fighting inflammation, strengthening the immune system, and improving digestion?
Black Pepper
One of the most popular spices, black pepper offers anti-inflammatory and pain-reducing effects. Piperine is the compound that gives black pepper its flavor, helps prevent inflammation, (Gorgani Leila, et al., 2016), and helps to increase the absorption of selenium, vitamin B12, and turmeric. (Dudhatra GB, et al., 2012) Piperine has been found to be almost as effective as prednisolone – a common medication for arthritis – in reducing symptoms.
Black pepper has been used in ancient Ayurvedic medicine for thousands of years because of its concentration of beneficial plant compounds. (Johns Hopkins Medicine, 2023)
Pepper is made by grinding peppercorns, which are dried berries from the vine Piper nigrum.
The plant is a tall woody plant with small flowers that bloom a yellowish-red color.
It has a sharp and mildly spicy flavor that goes with all kinds of dishes.
Inflammation is the immune system’s response to injury, illness, or any mental or physical stressor, that triggers the body’s healing and repair process. However, long-term inflammation can lead to various health problems and, in individuals that begin to develop arthritis, joint degeneration. Damage to the body’s pain processors can exacerbate pain and other uncomfortable symptoms.
Chronic inflammation can be a cause of diabetes, arthritis, asthma, and heart disease.
While the anti-inflammatory effects have not been extensively studied in humans, there are several mouse studies that show promising results.
In one study, treatment for arthritis with piperine resulted in less joint swelling and decreased inflammation markers. (Bang JS, Oh DH, Choi HM, et al., 2009)
Antioxidants
The active compound, piperine is rich in antioxidants, which prevent or delay the free radical damaging effects from exposure to pollution, smoke, and the sun.
In one study, rats with a diet of concentrated black pepper had less free radical damage than a group that did not ingest concentrated black pepper. (Vijayakumar RS, Surya D, Nalini N. 2004)
Brain Function Improvement
Piperine has been shown to decrease symptoms associated with Parkinson’s and Alzheimer’s and improve brain function. (Ramaswamy Kannappan, et al., 2011)
Studies show piperine increased memory as well as the ability to decrease the production of amyloid plaques, which are damaging proteins associated with Alzheimer’s disease.
Blood Sugar Control Improvement
Studies suggest that piperine can improve blood sugar and improve insulin sensitivity.
In one study, individuals with insulin resistance took a piperine supplement for 8 weeks.
After 8 weeks, improvements were seen in the response to the insulin hormone to remove glucose from the blood (Rondanelli M, et al., 2013)
Improved Nutrient Absorption
Black pepper is considered to have the ability to bind and activate with other foods for improved positive health effects.
It increases the absorption of certain nutrients such as calcium, turmeric, selenium, and green tea.
It is often recommended to consume calcium or selenium with a source of black pepper and to ensure any turmeric supplement you take contains black pepper. (Shoba G, et al., 1998)
Storage
Whole peppercorns sealed in a container and stored in a cool, dry place can last up to a year.
Over time ground black pepper loses its flavor, therefore it is recommended to use within 4 to 6 months.
Allergic Reactions
If you believe you are allergic to black pepper, see a healthcare professional who can perform testing to determine the root cause of symptoms.
Allergies can present as tingling or itching in the mouth, hives, abdominal pain, and possible nausea and vomiting.
Symptoms can also include wheezing, congestion, and/or swelling of the lips, tongue, mouth, and throat.
Black pepper can be substituted with spices like chili powder, cayenne pepper, and allspice.
The Healing Diet
References
Gorgani, L., Mohammadi, M., Najafpour, G. D., & Nikzad, M. (2017). Piperine-The Bioactive Compound of Black Pepper: From Isolation to Medicinal Formulations. Comprehensive reviews in food science and food safety, 16(1), 124–140. doi.org/10.1111/1541-4337.12246
Dudhatra, G. B., Mody, S. K., Awale, M. M., Patel, H. B., Modi, C. M., Kumar, A., Kamani, D. R., & Chauhan, B. N. (2012). A comprehensive review on pharmacotherapeutics of herbal bio-enhancers. TheScientificWorldJournal, 2012, 637953. doi.org/10.1100/2012/637953
Platel, K., & Srinivasan, K. (2016). Bioavailability of Micronutrients from Plant Foods: An Update. Critical reviews in food science and nutrition, 56(10), 1608–1619. doi.org/10.1080/10408398.2013.781011
Kunnumakkara, A. B., Sailo, B. L., Banik, K., Harsha, C., Prasad, S., Gupta, S. C., Bharti, A. C., & Aggarwal, B. B. (2018). Chronic diseases, inflammation, and spices: how are they linked? Journal of translational medicine, 16(1), 14. doi.org/10.1186/s12967-018-1381-2
Bang, J. S., Oh, D. H., Choi, H. M., Sur, B. J., Lim, S. J., Kim, J. Y., Yang, H. I., Yoo, M. C., Hahm, D. H., & Kim, K. S. (2009). Anti-inflammatory and antiarthritic effects of piperine in human interleukin 1beta-stimulated fibroblast-like synoviocytes and in rat arthritis models. Arthritis research & therapy, 11(2), R49. doi.org/10.1186/ar2662
Lobo, V., Patil, A., Phatak, A., & Chandra, N. (2010). Free radicals, antioxidants, and functional foods: Impact on human health. Pharmacognosy reviews, 4(8), 118–126. doi.org/10.4103/0973-7847.70902
Vijayakumar, R. S., Surya, D., & Nalini, N. (2004). Antioxidant efficacy of black pepper (Piper nigrum L.) and piperine in rats with high-fat diet-induced oxidative stress. Redox report: communications in free radical research, 9(2), 105–110. doi.org/10.1179/135100004225004742
Kannappan, R., Gupta, S. C., Kim, J. H., Reuter, S., & Aggarwal, B. B. (2011). Neuroprotection by spice-derived nutraceuticals: you are what you eat! Molecular neurobiology, 44(2), 142–159. doi.org/10.1007/s12035-011-8168-2
Rondanelli, M., Opizzi, A., Perna, S., Faliva, M., Solerte, S. B., Fioravanti, M., Klersy, C., Cava, E., Paolini, M., Scavone, L., Ceccarelli, P., Castellaneta, E., Savina, C., & Donini, L. M. (2013). Improvement in insulin resistance and favorable changes in plasma inflammatory adipokines after weight loss associated with two months’ consumption of a combination of bioactive food ingredients in overweight subjects. Endocrine, 44(2), 391–401. doi.org/10.1007/s12020-012-9863-0
Shoba, G., Joy, D., Joseph, T., Majeed, M., Rajendran, R., & Srinivas, P. S. (1998). Influence of piperine on the pharmacokinetics of curcumin in animals and human volunteers. Planta medica, 64(4), 353–356. doi.org/10.1055/s-2006-957450
Chiropractic treatment focuses on the musculoskeletal and nervous systems. As with all body systems, specific nutrients protect and increase their functional strength. Various chiropractic-recommended supplements can help in the treatment of musculoskeletal issues and help transform an individual’s health.
Chiropractic Education
Chiropractors study food-based supplements that are bio-available to cells and are easily absorbed by the body. These food-based supplements and vitamins are seen as food by the body. Supplements are used in detoxification to overcome nutritional deficiencies and enhance an individual’s diet by taking nutrients to optimum levels. Immune system health can also be strengthened by keeping the body resistant to diseases.
Functional Nutrition
Chiropractic medicine study’s all the building blocks of the body that, include:
Holistic nutrition teaches that the body heals from within, which is why healing the gut first, is essential to healing the rest of the body and maintaining health.
Recommended Chiropractic Supplements
Dietary supplements that directly impact the health of the musculoskeletal and the nervous system.
Potassium
Potassium is an important regulator of nerve impulses.
Electrochemical signals or action potentials use potassium and sodium to generate responses from cells in the nervous system.
Potassium is necessary for turning off nerve impulses and preventing the uncontrolled signaling of nerves.
Uncontrolled signaling can lead to movement disorders.
Calcium
Calcium is necessary for the regulation of the action potentials throughout the body.
Calcium helps initiate action potentials and helps the cells return to a normal state afterward.
Calcium contributes to the development of the nervous system helping guide the nerve cells.
Calcium is a major element of bone health to repair bones’ and facilitate regrowth.
The body will take the calcium from the bones if there is a calcium deficiency.
Vitamin D
One of the most important nutrients for bone health.
Vitamin D helps promote bone development and growth.
Facilitates calcium absorption helping the body process and absorb the calcium.
B12 is essential to the function of the nervous system and the body’s metabolism.
B12 breaks complex carbohydrates into more simplistic glucose for basic functions.
B12 helps maintain the nerve insulator myelin, which is necessary for nerve transmission.
B12 deficiency has been linked to the loss of myelin and can lead to serious conditions like Alzheimer’s.
B12 shots deliver the nutrient directly to the bloodstream bypassing the absorption process necessary for oral supplements.
Vitamin K
Vitamin K helps balance and facilitate calcium absorption.
Vitamin K helps strengthen bones and increase bone density.
Often recommended for individuals with osteopenia and osteoporosis to help prevent fractures.
How To Choose Supplements
References
Lee, Mi Kyung, et al. “The use of nutritional guidance within chiropractic patient management: a survey of 333 chiropractors from the ACORN practice-based research network.” Chiropractic & manual therapies vol. 26 7. 20 Feb. 2018, doi:10.1186/s12998-018-0175-1
Nguyen, Douglas L. “Guidance for supplemental enteral nutrition across patient populations.” The American journal of managed care vol. 23,12 Suppl (2017): S210-S219.
Pludowski, Pawel, et al. “Vitamin D effects on musculoskeletal health, immunity, autoimmunity, cardiovascular disease, cancer, fertility, pregnancy, dementia and mortality-a review of recent evidence.” Autoimmunity reviews vol. 12,10 (2013): 976-89. doi:10.1016/j.autrev.2013.02.004
Song, Yong-Ak, et al. “Electrochemical activation and inhibition of neuromuscular systems through modulation of ion concentrations with ion-selective membranes.” Nature materials vol. 10,12 980-6. 23 Oct. 2011, doi:10.1038/nmat3146
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