For individuals experiencing a turf toe injury, can knowing the symptoms help athletes and non-athletes with treatment, recovery time, and returning to activities?
Turf Toe Injury
A turf toe injury affects the soft tissue ligaments and tendons at the base of the big toe under the foot. This condition usually occurs when the toe is hyperextended/forced upward, such as when the ball of the foot is on the ground and the heel is lifted. (American Academy of Orthopaedic Surgeons. 2021) The injury is common among athletes who play sports on artificial turf, which is how the injury got its name. However, it can also affect non-athletes, like individuals working on their feet all day.
Recovery time after turf toe injury depends on the severity and the type of activities the individual plans to return to.
Returning to high-level sports activities after a severe injury can take six months.
These injuries vary in severity but usually improve with conservative treatment. In severe cases, surgery could be required.
Pain is the primary issue that stops physical activities after a grade 1 injury, while grades 2 and 3 can take weeks to months to heal completely.
Meaning
A turf toe injury refers to a metatarsophalangeal joint strain. This joint comprises ligaments that connect the bone on the sole of the foot, below the big toe/proximal phalanx, to the bones that connect the toes to the larger bones in the feet/metatarsals. The injury is usually caused by hyperextension that often results from a pushing-off motion, like running or jumping.
If experiencing turf toe symptoms, see a healthcare provider for a proper diagnosis so they can develop a personalized treatment plan. They will perform a physical exam to assess pain, swelling, and range of motion. (American Academy of Orthopaedic Surgeons. 2021) If the healthcare provider suspects tissue damage, they may recommend imaging with X-rays and (MRI) to grade the injury and determine the proper course of action.
Grades 2 and 3 come with partial or complete tissue tearing, severe pain, and swelling. Treatments for more severe turf toe can include: (Ali-Asgar Najefi et al., 2018)
Limited weight bearing
Using assistive devices like crutches, a walking boot, or a cast.
Physical therapy also includes proprioception and agility training exercises, orthotics, and wearing recommended shoes for specific physical activities. (Lisa Chinn, Jay Hertel. 2010)
A physical therapist can also help ensure that the individual does not return to physical activities before the injury is fully healed and prevent the risk of re-injury.
Grade 1 – Subjective as it varies depending on the individual’s pain tolerance.
Grade 2 – Four to six weeks of immobilization.
Grade 3 – Eight weeks minimum of immobilization.
It can take up to six months to return to normal function.
Returning To Normal Activities
After a grade 1 turf toe injury, individuals can return to normal activities once the pain is under control. Grades 2 and 3 take longer to heal. Returning to sports activities after a grade 2 injury can take around two or three months, while grade 3 injuries and cases that require surgery can take up to six months. (Ali-Asgar Najefi et al., 2018)
Sports Chiropractic Treatment
References
American Academy of Orthopaedic Surgeons. (2021). Turf toe.
American College of Foot and Ankle Surgeons. Foot Health Facts. (2023). RICE protocol.
Najefi, A. A., Jeyaseelan, L., & Welck, M. (2018). Turf toe: A clinical update. EFORT open reviews, 3(9), 501–506. doi.org/10.1302/2058-5241.3.180012
Pinter, Z. W., Farnell, C. G., Huntley, S., Patel, H. A., Peng, J., McMurtrie, J., Ray, J. L., Naranje, S., & Shah, A. B. (2020). Outcomes of Chronic Turf Toe Repair in Non-athlete Population: A Retrospective Study. Indian journal of orthopaedics, 54(1), 43–48. doi.org/10.1007/s43465-019-00010-8
Chinn, L., & Hertel, J. (2010). Rehabilitation of ankle and foot injuries in athletes. Clinics in sports medicine, 29(1), 157–167. doi.org/10.1016/j.csm.2009.09.006
For individuals trying to optimize muscle growth, protein intake is essential. However, the body is limited by how much protein can synthesize to repair and grow muscles. Can knowing protein intake timing, amount, and how to best stimulate muscle growth help achieve better results?
Muscle Protein Synthesis
Muscle protein synthesis is a physiological process of producing new muscle protein and is an important component of how the body maintains and builds muscle. Muscle growth is achieved with resistance training and protein intake. (Tanner Stokes, et al., 2018)
How Protein Synthesis Works
Protein is the building block of muscles, while protein synthesis is a natural metabolic process in which protein is produced to repair muscle damage caused by exercise. This happens from amino acids binding to skeletal muscle proteins, increasing muscle size. It counteracts muscle protein breakdown (MPB) due to protein loss during exercise. The breakdown of muscles is a necessary part of building muscle. When damaged, muscles will build back larger, so long as enough calories and protein are consumed to repair and grow the muscles. Muscle protein synthesis can be enhanced by increasing protein intake immediately following exercise. Learning to stimulate muscle protein synthesis through exercise and diet can help accelerate muscle growth, expedite recovery, improve physical performance, and increase overall endurance. (Cameron J. Mitchell et al., 2014)
Effects of Exercise
Protein balance describes the relationship between muscle protein breakdown and muscle protein synthesis. When the body is in protein balance, no muscle growth or wasting occurs, and the individual is considered in a healthy state of biological equilibrium/homeostasis, also known as maintenance. To stimulate muscle growth, individuals need to shake up the protein balance. Although it may seem counter-intuitive, exercise can break down muscle protein, but not more than the amount of protein the body can synthesize. (Felipe Damas, et al., 2015) The more intense the workout, the greater the muscle protein synthesis, as the muscle breakdown stimulates the repair and growth of tissues. Scientists measure intensity by the one-repetition maximum – 1-RM – meaning the maximum weight an individual can lift for one repetition. According to a research study, workout intensities of under 40% of the 1-RM will not affect muscle protein synthesis. And intensities greater than 60% will double or triple muscle protein synthesis. (P. J. Atherton, K Smith. 2012)
Food Impact
The relationship between diet and protein balance is not so straightforward. Even with increased protein intake, muscle protein synthesis occurs for a specific period. This is because the body can only utilize a certain amount of the essential amino acids it receives, with anything more being broken down and excreted by the liver. Nutritionists recommend about 1.4 to 2.0 grams of protein per kilogram of body weight per day for building muscle and strength. (Ralf Jäger, et al., 2017) Enough protein can be obtained by focusing on dairy, eggs, lean meats, nuts, and legumes. It is also recommended to consume enough whole grains, healthy fats, fruits, and vegetables to help the body perform and repair properly. For example, carbohydrates are necessary for muscle building as they stimulate insulin release that supports muscle cell protein absorption. (Vandré Casagrande Figueiredo, David Cameron-Smith. 2013) A study looked into response rates in men prescribed 10, 20, or 40 grams of whey protein immediately following resistance training. Researchers noted the following results: (Oliver C. Witard et al., 2014)
10 grams of whey protein – No effect on muscle protein synthesis.
20 grams – Increased muscle protein synthesis by 49%.
40 grams – Increased the muscle protein synthesis by 56% but also caused the excessive accumulation of urea.
Consuming 20 grams to 40 grams of whey protein after resistance training also increased other essential amino acids associated with lean muscle growth. (Lindsay S. Macnaughton et al., 2016)
Whey protein is a fast-digesting protein.
Increased results can be obtained by consuming slower-digesting protein throughout the day.
Muscle gains vary from person to person as everyone’s body is different. Individuals considering consuming protein beyond the recommended dietary intake should consult their doctor or a registered nutritionist to understand the potential benefits and risks.
Building A Stronger Body
References
Stokes, T., Hector, A. J., Morton, R. W., McGlory, C., & Phillips, S. M. (2018). Recent Perspectives Regarding the Role of Dietary Protein for the Promotion of Muscle Hypertrophy with Resistance Exercise Training. Nutrients, 10(2), 180. doi.org/10.3390/nu10020180
Mitchell, C. J., Churchward-Venne, T. A., Parise, G., Bellamy, L., Baker, S. K., Smith, K., Atherton, P. J., & Phillips, S. M. (2014). Acute post-exercise myofibrillar protein synthesis is not correlated with resistance training-induced muscle hypertrophy in young men. PloS one, 9(2), e89431. doi.org/10.1371/journal.pone.0089431
Damas, F., Phillips, S., Vechin, F. C., & Ugrinowitsch, C. (2015). A review of resistance training-induced changes in skeletal muscle protein synthesis and their contribution to hypertrophy. Sports medicine (Auckland, N.Z.), 45(6), 801–807. doi.org/10.1007/s40279-015-0320-0
Atherton, P. J., & Smith, K. (2012). Muscle protein synthesis in response to nutrition and exercise. The Journal of physiology, 590(5), 1049–1057. doi.org/10.1113/jphysiol.2011.225003
Jäger, R., Kerksick, C. M., Campbell, B. I., Cribb, P. J., Wells, S. D., Skwiat, T. M., Purpura, M., Ziegenfuss, T. N., Ferrando, A. A., Arent, S. M., Smith-Ryan, A. E., Stout, J. R., Arciero, P. J., Ormsbee, M. J., Taylor, L. W., Wilborn, C. D., Kalman, D. S., Kreider, R. B., Willoughby, D. S., Hoffman, J. R., … Antonio, J. (2017). International Society of Sports Nutrition Position Stand: protein and exercise. Journal of the International Society of Sports Nutrition, 14, 20. doi.org/10.1186/s12970-017-0177-8
Figueiredo, V. C., & Cameron-Smith, D. (2013). Is carbohydrate needed to further stimulate muscle protein synthesis/hypertrophy following resistance exercise?. Journal of the International Society of Sports Nutrition, 10(1), 42. doi.org/10.1186/1550-2783-10-42
Witard, O. C., Jackman, S. R., Breen, L., Smith, K., Selby, A., & Tipton, K. D. (2014). Myofibrillar muscle protein synthesis rates subsequent to a meal in response to increasing doses of whey protein at rest and after resistance exercise. The American journal of clinical nutrition, 99(1), 86–95. doi.org/10.3945/ajcn.112.055517
Macnaughton, L. S., Wardle, S. L., Witard, O. C., McGlory, C., Hamilton, D. L., Jeromson, S., Lawrence, C. E., Wallis, G. A., & Tipton, K. D. (2016). The response of muscle protein synthesis following whole-body resistance exercise is greater following 40 g than 20 g of ingested whey protein. Physiological reports, 4(15), e12893. doi.org/10.14814/phy2.12893
For individuals wanting to eat pancakes regularly, are there ways to increase pancake nutrition and lower the calorie and carb counts so they can be included in a balanced diet?
Pancake Nutrition
This high-carbohydrate meal can provide enough energy to fuel a day’s physical activity.
Nutrition
The following nutrition information is provided for:
Pancakes made with whole-wheat flour offer more fiber and protein. The following is nutrition info for two or three whole-wheat pancakes (150g) made from a mix. (Child Nutrition Recipe Box. 2023)
Calories – 348
Fat – 15g
Sodium – 594mg
Carbohydrates – 45g
Fiber – 6g
Sugars – 6g
Protein – 12g
Carbohydrates
Pancakes will increase carbohydrate intake. The body uses carbohydrates as a primary fuel source, making them an important nutrient. However, most nutritionists suggest that individuals get their daily carbohydrates from nutrient-dense sources. Pancakes typically don’t fall into this category. White flour pancakes do not provide much fiber, and around 60 grams of carbohydrates are consumed in this meal. Substituting whole-wheat flour changes the amount to around 6g of fiber or 20% of the daily recommended value.
Fat
Pancakes can include dairy and eggs and are topped with butter that contributes a significant amount of fat. Pancake mix may contain trans fat. Some brands include partially hydrogenated oils. Health experts recommend that individuals limit or completely avoid foods containing trans fat. If the label ingredient list contains partially hydrogenated ingredients, it is recommended to avoid it. (MedlinePlus. 2022)
Protein
Pancakes may provide some protein, which varies based on the type of flour used. Some brands add protein powder to increase intake.
Vitamins and Minerals
Pancakes and ready mixes are generally made from enriched flour. Enriched foods are those that have had nutrients added during the manufacturing process. In most cases, the nutrients, vitamins, and minerals are stripped away, and then some are added back in during processing. Constantly eating enriched bread products limits diet-friendly fiber and nutrients. The enriched flour in pancakes and added sugar and syrup raise blood sugar levels rapidly and then generate hunger shortly afterward.
Calories
Total nutrition numbers also depend on serving size. The numbers on the label only apply to a single serving which is just two medium pancakes. Many individuals consume 3-4 medium pancakes and double the amount of butter and syrup as well. This can add up to more than 1,000 calories.
Benefits
Whole-wheat pancakes made with whole-grain flour are more nutritious than pancakes made with white flour and can be a delicious way to eat more whole grains. They can be topped with berries or other fruits for added fiber and nutrients.
Digestion
Whole-wheat pancakes made with whole-grain flour provide significant fiber for healthy digestion. Fiber helps with waste evacuation and has prebiotic compounds that fuel beneficial gut bacteria. (Joanne Slavin. 2013)
Improves Hunger Satisfaction
Whole-grain pancakes taste heartier and include fiber that keeps the body fuller longer than pancakes made with faster-digesting refined flour.
Decreases Risk of Heart Disease
A review of studies examining whole grain consumption and heart disease found that eating whole grains was associated with a reduced risk of heart disease. (Dagfinn Aune, et al., 2016)
Reduces Risk of Obesity
Research suggests that whole grain intake reduces the risk of obesity and could help individuals maintain a stable weight. (Katrina R. Kissock et al., 2021) The fiber will also help keep the fuller longer after the meal.
Slavin J. (2013). Fiber and prebiotics: mechanisms and health benefits. Nutrients, 5(4), 1417–1435. doi.org/10.3390/nu5041417
Aune, D., Keum, N., Giovannucci, E., Fadnes, L. T., Boffetta, P., Greenwood, D. C., Tonstad, S., Vatten, L. J., Riboli, E., & Norat, T. (2016). Whole grain consumption and risk of cardiovascular disease, cancer, and all cause and cause specific mortality: systematic review and dose-response meta-analysis of prospective studies. BMJ (Clinical research ed.), 353, i2716. doi.org/10.1136/bmj.i2716
Kissock, K. R., Neale, E. P., & Beck, E. J. (2021). Whole Grain Food Definition Effects on Determining Associations of Whole Grain Intake and Body Weight Changes: A Systematic Review. Advances in nutrition (Bethesda, Md.), 12(3), 693–707. doi.org/10.1093/advances/nmaa122
Centers for Disease Control and Prevention. (2022). Folic acid.
Can individuals with sensory nerve dysfunction incorporate nonsurgical decompression to restore sensory-mobility function to their bodies?
Introduction
The spinal column in the musculoskeletal system comprises bones, joints, and nerves that work together with various muscles and tissues to ensure that the spinal cord is protected. The spinal cord is part of the central nervous system where the nerve roots are spread out to the upper and lower body parts that supply sensory-motor functions. This allows the body to move and function without pain or discomfort. However, when the body and spine ages or when a person is dealing with injuries, the nerve roots can become irritated and cause weird sensations like numbness or tingling, often correlating with body pain. This can cause a socio-economic burden on many individuals and, if not treated right away, can lead to chronic pain. To that point, it can lead to many individuals dealing with body extremity pain associated with sensory nerve dysfunction. This causes many individuals dealing with musculoskeletal disorders to start looking for treatment. Today’s article examines how nerve dysfunction affects the extremities and how nonsurgical decompression can help reduce nerve dysfunction to allow mobility back to the upper and lower limbs. We speak with certified medical providers who incorporate our patients’ information to provide nonsurgical solutions like decompression to help individuals with nerve dysfunction. We also inform patients how nonsurgical decompression can restore mobility-sensory to the upper and lower extremities. We encourage our patients to ask intricated and educational questions to our associated medical providers about the pain-like symptoms they are experiencing correlating with the sensory nerve dysfunction. Dr. Alex Jimenez, D.C., utilizes this information as an academic service. Disclaimer.
How Nerve Dysfunction Affects The Extremities
Do you experience tingling or numb sensations in your hands or feet that don’t want to go away? Do you feel pain in different back portions that can only be relieved through stretching or resting? Or does it hurt to walk for long distances that you feel like you need to rest constantly? Many pain-like scenarios are associated with sensory nerve dysfunction that can affect the upper and lower extremities. When many individuals experience sensory nerve dysfunction and deal with weird sensations in their extremities, many think it is due to musculoskeletal pain in their neck, shoulders, or back. This is only part of the issue, as many environmental factors can be associated with sensory nerve pain, as the nerve roots are being compressed and agitated, causing sensory nerve dysfunction in the extremities. Since the nerve roots are spread out from the spinal cord, the brain sends the neuron information to the nerve roots to allow sensory-mobility function in the upper and lower extremities. This allows the body to be mobile without discomfort or pain and functional through daily activities. However, when many individuals start to do repetitive motions that cause the spinal disc to be compressed constantly, it can lead to potential disc herniation and musculoskeletal disorders. Since numerous nerve roots are spread to the different extremities, when the main nerve roots are aggravated, it can send pain signals to each extremity. Hence, many people are dealing with nerve entrapment that leads to lower back, buttock, and leg pain that can affect their daily routine. (Karl et al., 2022) At the same time, many people with sciatica are dealing with sensory nerve dysfunction that affects their walking ability. With sciatica, it can be associated with spinal disc pathology and causes many individuals to seek treatment. (Bush et al., 1992)
Sciatica Secrets Revealed-Video
When it comes to looking for treatment to reduce sensory nerve dysfunction, many individuals will opt for nonsurgical solutions to minimize the pain-like symptoms and reduce the pain signals that are causing the upper and lower extremities to suffer. Nonsurgical treatment solutions like decompression can help restore sensory nerve function through gentle traction by causing the spinal disc to lay off the aggravated nerve root and start the body’s natural healing process. At the same time, it helps reduce musculoskeletal disorders from returning. The video above shows how sciatica associated with sensory nerve dysfunction can be decreased through nonsurgical treatments to allow the body’s extremities to feel better.
Nonsurgical treatments can help reduce low back pain associated with sensory nerve dysfunction to restore sensory-motor function to the upper and lower extremities. Many individuals who incorporate nonsurgical treatments like decompression as part of their health and wellness routine can see improvement after consecutive treatment. (Chou et al., 2007) Since many healthcare practitioners incorporate nonsurgical treatments like decompression into their practices, there has been quite an improvement in pain management. (Bronfort et al., 2008)
When many individuals start to use nonsurgical decompression for sensory nerve dysfunction, many will see improvement in their pain, mobility, and activities of their daily living. (Gose et al., 1998). What spinal decompression does for the nerve roots is that it helps the affected disc that is aggravating the nerve root, pulls the disc back to its original position, and rehydrates it. (Ramos & Martin, 1994) When many individuals start thinking about their health and wellness, nonsurgical treatments can be effective for them due to their affordable cost and how they can be combined with other therapies to manage better the pain associated with nerve dysfunction affecting their body extremities.
References
Bronfort, G., Haas, M., Evans, R., Kawchuk, G., & Dagenais, S. (2008). Evidence-informed management of chronic low back pain with spinal manipulation and mobilization. Spine J, 8(1), 213-225. doi.org/10.1016/j.spinee.2007.10.023
Bush, K., Cowan, N., Katz, D. E., & Gishen, P. (1992). The natural history of sciatica associated with disc pathology. A prospective study with clinical and independent radiologic follow-up. Spine (Phila Pa 1976), 17(10), 1205-1212. doi.org/10.1097/00007632-199210000-00013
Chou, R., Huffman, L. H., American Pain, S., & American College of, P. (2007). Nonpharmacologic therapies for acute and chronic low back pain: a review of the evidence for an American Pain Society/American College of Physicians clinical practice guideline. Ann Intern Med, 147(7), 492-504. doi.org/10.7326/0003-4819-147-7-200710020-00007
Gose, E. E., Naguszewski, W. K., & Naguszewski, R. K. (1998). Vertebral axial decompression therapy for pain associated with herniated or degenerated discs or facet syndrome: an outcome study. Neurol Res, 20(3), 186-190. doi.org/10.1080/01616412.1998.11740504
Karl, H. W., Helm, S., & Trescot, A. M. (2022). Superior and Middle Cluneal Nerve Entrapment: A Cause of Low Back and Radicular Pain. Pain Physician, 25(4), E503-E521. www.ncbi.nlm.nih.gov/pubmed/35793175
Ramos, G., & Martin, W. (1994). Effects of vertebral axial decompression on intradiscal pressure. J Neurosurg, 81(3), 350-353. doi.org/10.3171/jns.1994.81.3.0350
Individuals in post-surgery recovery or dealing with illness or an injury can experience weakened muscles and endurance that can cause temporary loss of sleeping mobility and not being able to move around normally because of weakness, decreased range of motion, or pain. Can they benefit from physical therapy to help get back to normal functional mobility?
Sleeping Mobility
For individuals who are hospitalized or homebound from injury, illness, or surgical recovery, a physical therapist will assess various areas of functional mobility. These include transfers – from sitting to standing positions, walking, and sleeping mobility. Sleeping mobility is the ability to perform specific motions while in bed. A therapist can assess sleeping or bed mobility and recommend strategies and exercises to improve movements. (O’Sullivan, S. B., Schmitz, T. J. 2016) A therapist may have the individual use specific devices, like an over-the-bed trapeze or a sliding board, to help move around.
All of these movements require strength in different muscle groups. By checking out individual motions in sleeping mobility, a therapist can work out specific muscle groups that may be weak and require targeted exercises and stretches to restore mobility to normal. (O’Sullivan, S. B., Schmitz, T. J. 2016) Individuals visiting a therapist in an outpatient clinic or rehabilitation area may have the individual work on sleeping mobility on a treatment table. The same motions on the treatment table can be done in the bed.
Importance
The body is meant to move.
For individuals who cannot move comfortably on their bed, the body may suffer disuse atrophy or the wasting away of muscular strength, which can lead to increased difficulties. Not being able to move can also lead to pressure ulcers, especially for individuals who are severely deconditioned and/or remain in one position for a long period. Skin health may start to break down, leading to painful wounds that require specialized care. Being able to move around in bed can help prevent pressure ulcers. (Surajit Bhattacharya, R. K. Mishra. 2015)
Improvement
A physical therapist can prescribe specific exercises to strengthen muscle groups and improve sleeping mobility. The muscles include:
Shoulder and rotator cuff muscles.
Triceps and biceps in the arms.
Gluteus muscles of the hips.
Hamstrings
Quadriceps
Calf muscles
The shoulders, arms, hips, and legs work together when moving the body around the bed.
Various Exercises
To improve bed movement, physical therapy exercises can include:
Physical therapists are trained to assess these motions and functions and prescribe treatments to improve body movement. (O’Sullivan, S. B., Schmitz, T. J. 2016) Maintaining appropriate physical fitness can help the body stay active and mobile. Performing mobility exercises prescribed by a physical therapist can keep the right muscle groups working properly, and working with a physical therapist can ensure the exercises are correct for the condition and are performed properly.
Bhattacharya, S., & Mishra, R. K. (2015). Pressure ulcers: Current understanding and newer modalities of treatment. Indian journal of plastic surgery : official publication of the Association of Plastic Surgeons of India, 48(1), 4–16. doi.org/10.4103/0970-0358.155260
For individuals wanting to improve their fitness routine can incorporating wearable weights and knowing how to use them effectively help achieve health goals?
Wearable Weights
Adding wearable weights allows individuals to use their body weight with added resistance. This can add strength training to a routine but can also be used during walks or runs to increase cardiovascular health and aid in weight loss. Research studies have found that wearing a weighted vest reduces body weight and fat mass. This is because heavier loads increase energy expenditure for the increase in physical workload. (Claes Ohlsson, et al., 2020)
Benefits
Wearable weights are easy to use.
Depending on the type, they are compact and can be taken on the go.
Wearing weights is an option for individuals with injuries or degenerative joint disease like arthritis that makes it difficult to hold or move weights.
Because many are only a few pounds, they are available to anyone from adolescents to the elderly.
Anyone can benefit from the different types of wearable weights.
Types
Three main types of wearable weights include wrist weights, ankle weights, and weighted vests.
Wrist weights can replace dumbbells in some cases.
They are typically between 1 to 10 pounds.
Ankle weights can provide extra resistance to leg motions.
They can be found from 1 pound up to 20 pounds.
Weighted vests provide a full-body challenge.
The weight choices for them vary, as most contain pockets where weight can be increased or decreased.
Using The Weights
Individuals can use wearable weights as a complement to strength and cardiovascular regimens. Beginners will want to start with lighter weights worn for less time. As the body becomes stronger, it’s important to increase the weight to see results.
Ankle Weights
Ankle weights can be used during a strength training workout to add resistance to lower body exercises.
As the body ages, it becomes more important to decrease the risk of falls by increasing lower limb and trunk strength.
Wearing weights on the wrists generates a higher energy expenditure, which allows one to add intensity to a walk or run without having to increase speed. (Catherine T. Campaña, Pablo B Costa. 2017)
Weighted Vests
Wearing a weighted vest during workouts will create a full-body challenge.
They can be used while walking or running and automatically add more difficulty.
Another way to utilize a weighted vest is to wear it while completing a regular workout.
Whether doing HITT, strength training, etc, individuals can wear a weighted vest.
The weight should be evenly distributed to prevent any injuries or functional disorders to the lower body.
Individuals want to talk to a healthcare provider before beginning a new fitness program, and adding weights is no different, especially if there are any current or past injuries.
Is Motion Key To Healing?
References
Ohlsson, C., Gidestrand, E., Bellman, J., Larsson, C., Palsdottir, V., Hägg, D., Jansson, P. A., & Jansson, J. O. (2020). Increased weight loading reduces body weight and body fat in obese subjects – A proof of concept randomized clinical trial. EClinicalMedicine, 22, 100338. doi.org/10.1016/j.eclinm.2020.100338
Chen, L., & Yu, Y. (2020). Exercise and Osteoarthritis. Advances in experimental medicine and biology, 1228, 219–231. doi.org/10.1007/978-981-15-1792-1_15
Akatsu, H., Manabe, T., Kawade, Y., Masaki, Y., Hoshino, S., Jo, T., Kobayashi, S., Hayakawa, T., & Ohara, H. (2022). Effect of Ankle Weights as a Frailty Prevention Strategy in the Community-Dwelling Elderly: A Preliminary Report. International journal of environmental research and public health, 19(12), 7350. doi.org/10.3390/ijerph19127350
Yang, H. S., James, C. R., Atkins, L. T., Sawyer, S. F., Sizer, P. S., Jr, Kumar, N. A., & Kim, J. (2018). Effects of arm weight on gait performance in healthy subjects. Human movement science, 60, 40–47. doi.org/10.1016/j.humov.2018.05.003
Campaña, C. T., & Costa, P. B. (2017). Effects of walking with hand-held weights on energy expenditure and excess postexercise oxygen consumption. Journal of exercise rehabilitation, 13(6), 641–646. doi.org/10.12965/jer.1735100.550
Gaffney, C. J., Cunnington, J., Rattley, K., Wrench, E., Dyche, C., & Bampouras, T. M. (2022). Weighted vests in CrossFit increase physiological stress during walking and running without changes in spatiotemporal gait parameters. Ergonomics, 65(1), 147–158. doi.org/10.1080/00140139.2021.1961876
Many individuals attribute to some degree, their neck or back pain to unhealthy posture. Can knowing the causes and underlying factors help guide lifestyle adjustments and seeking medical rehabilitative treatment?
Unhealthy Posture Causes
Numerous factors can cause individuals to practice unhealthy postures regularly.
Unhealthy posture can also be brought on by an injury, illness, or genetics.
A combination of these factors is also common.
Practicing healthy posture is a form of exercise where the muscles support the skeleton in stable and efficient alignment that is present in stillness and movement.
Injury and Muscle Guarding
After an injury, muscles can spasm to protect the body and help stabilize injuries and protect against further injury.
However, movements become limited and can lead to pain symptoms.
Prolonged muscle spasms lead to weakened muscles over time.
The imbalance between muscles guarding the injury and those still operating normally can lead to posture problems.
Musculoskeletal treatment with massage, chiropractic, and physical therapy can help restore optimal functioning.
Muscle Tension and Weakness
If certain muscle groups become weak or tense, posture can be affected, and pain symptoms can develop.
Muscle weakness or tension can develop when individuals hold a prolonged position day after day or when performing routine tasks and chores in a way that places tension on the muscles or uses them in an unbalanced way.
Postural retraining and physical therapy adjustments can help strengthen the muscles and relieve pain symptoms.
Daily Habits
As individuals find ways to accommodate muscle spasms, weakness, tension, and/or imbalances, the mind and body can forget and abandon healthy posture.
The body then begins compensating using alternate, awkward, and counterproductive muscle contractions and stretching that compromise body and spinal alignment.
Use of Technology
Technology – whether sitting at a desk/workstation, using a tablet or cell phone, or working with several devices can gradually shift the body out of alignment. (Parisa Nejati, et al., 2015)
Individuals constantly looking down at their phone may develop a text neck, a condition in which the neck is held in flexion or forward tilting too long, which can lead to pain.
Mental Attitude and Stress
Individuals under stress or are experiencing stressful situations can begin to have posture problems. (Shwetha Nair et al., 2015)
Stress can contribute to over-contracting muscles, which can cause muscle tension, shallow breathing, posture problems, and pain symptoms.
Being aware of body position and correcting and adjusting posture can help to counteract stress. (Shwetha Nair et al., 2015)
Wearing down the outside or inside of the shoes faster from things like weight-bearing habits will imbalance kinetic forces that translate up the ankle, knee, hip, and lower back leading to pain symptoms in any or all of these joints.
Heredity and Genetics
Sometimes the cause is hereditary.
For example, Scheuermann’s disease is a condition in which adolescent males develop a pronounced kyphosis curve in the thoracic spine. (Nemours. KidsHealth. 2022)
Consult Injury Medical Chiropractic and Functional Medicine Clinic for an evaluation, and let us help you by developing a personalized treatment and rehabilitation program.
The Path To Healing
References
Czaprowski, D., Stoliński, Ł., Tyrakowski, M., Kozinoga, M., & Kotwicki, T. (2018). Non-structural misalignments of body posture in the sagittal plane. Scoliosis and spinal disorders, 13, 6. doi.org/10.1186/s13013-018-0151-5
Nejati, P., Lotfian, S., Moezy, A., & Nejati, M. (2015). The study of correlation between forward head posture and neck pain in Iranian office workers. International journal of occupational medicine and environmental health, 28(2), 295–303. doi.org/10.13075/ijomeh.1896.00352
Nair, S., Sagar, M., Sollers, J., 3rd, Consedine, N., & Broadbent, E. (2015). Do slumped and upright postures affect stress responses? A randomized trial. Health psychology : official journal of the Division of Health Psychology, American Psychological Association, 34(6), 632–641. doi.org/10.1037/hea0000146
Silva, A. M., de Siqueira, G. R., & da Silva, G. A. (2013). Implications of high-heeled shoes on body posture of adolescents. Revista paulista de pediatria : orgao oficial da Sociedade de Pediatria de Sao Paulo, 31(2), 265–271. doi.org/10.1590/s0103-05822013000200020
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