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Athletes

Sports Spine Specialist Chiropractic Team: Athletes strive to achieve their body’s maximum performance by participating in numerous training regimens consisting of strenuous exercises and physical activity and ensuring they meet all of their body’s nutritional requirements. Through proper fitness and nutrition, many individuals can condition themselves to excel in their specific sport. Our training programs are designed for athletes that look to gain a competitive edge in their sport.

We provide sport-specific services to help increase an athlete’s performance through mobility, strength, and endurance. Occasionally, however, the excess workouts can lead many to suffer injuries or develop underlying conditions. Dr. Alex Jimenez’s chronicle of articles for athletes displays in detail the many forms of complications affecting these professionals while focusing on the possible solutions and treatments to follow to achieve overall well-being.


Boost Muscle Protein Synthesis: Understand The Process

Boost Muscle Protein Synthesis: Understand The Process

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?

Boost Muscle Protein Synthesis: Understand The Process

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

Sleep Better with These Tips for Bed Mobility

Sleep Better with These Tips for Bed Mobility

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?

Sleep Better with These Tips for Bed 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.

Bed and Sleeping Mobility

When a physical therapist checks mobility, they will assess various motions that include: (O’Sullivan, S. B., Schmitz, T. J. 2016)

  • Moving from sitting to lying down.
  • Moving from lying down to sitting up.
  • Rolling over.
  • Scooting or sliding up or down.
  • Scooting or sliding sideways.
  • Twisting.
  • Reaching.
  • Raising the hips.

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:

  • Upper extremity exercises
  • Lower trunk rotation
  • Glute exercises
  • Bridges
  • Leg raises
  • Short arc quads
  • Ankle pumps

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.


Optimizing Your Wellness


References

O’Sullivan, S. B., Schmitz, T. J. (2016). Improving Functional Outcomes in Physical Rehabilitation. United States: F.A. Davis Company.

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

Get Stronger with Wearable Weights: All You Need To Know

Get Stronger with Wearable Weights: All You Need To Know

For individuals wanting to improve their fitness routine can incorporating wearable weights and knowing how to use them effectively help achieve health goals?

Get Stronger with Wearable Weights: All You Need To Know

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.
  • Exercise has been proven to be a useful tool for treating osteoarthritis. (Lei Chen, Yan Yu. 2020)
  • There is no age limit for wearable 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 ankle weights is recommended to build strength, especially in older adults. (Hiroyasu Akatsu, et al., 2022)
  • Individuals can wear them during a walk or run to increase the challenge.
  • They can be used for a high-level core workout.

Wrist Weights

  • Wrist weights can be used like dumbbells and worn during a walk or a run.
  • Research shows that walking with wrist weights can improve walking gait. (Hyung Suk Yang, et al., 2018)
  • 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.
  • Studies show no change in gait or an increased risk of injury when used correctly. (Christopher J. Gaffney, et al., 2022)

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

Nutritional Mistakes to Avoid for Muscle Building

Nutritional Mistakes to Avoid for Muscle Building

For individuals trying to build muscle but are not seeing results, can knowing factors like what foods to eat, how to work out, and genetics help achieve meaningful muscle gains?

Nutritional Mistakes to Avoid for Muscle Building

Muscle Growth Nutritional Mistakes

Muscle growth is an important element of overall fitness and health. Individuals can make nutritional mistakes like not eating enough protein or carbohydrates and not properly hydrating themselves which can prevent them from gaining muscle. Factors that contribute to muscle building, include:

  • Nutrition
  • Genetics
  • Training

Individuals who want to increase muscle mass more efficiently can rework these issues to maintain consistency and commitment to exercise and nutrition. Benefits include:

  • Building muscle helps strengthen bones
  • Improves balance
  • Decreases the risk of cardiovascular disease and diabetes.

Building muscle enhances strength and speed and can also reduce the risk of injuries or falls as you age. (American College of Sports Medicine. 2017)

Factors

Experts point out some common mistakes that can hinder muscle growth, like not eating enough protein, not consuming enough calories, overtraining, or practicing improper form and technique. As everybody is different there is no one-size-fits-all approach to building muscle or hypertrophy. These include:

Genetics

  • An individual’s genes contribute to how easy or difficult it can be to build muscle.
  • Some individuals have a higher proportion of fast-twitch muscle fibers, which increases growth potential.
  • The natural distribution of muscle and body fat also varies and can affect the rate and location of muscle growth.
  • There are also differences in individual recovery capabilities that can influence the frequency and intensity of training sessions.

Nutrition

  • Nutrition matters when trying to build muscle. Individuals need to eat enough protein for muscle repair and growth.
  • Individuals may need to consume more calories than they burn to create energy stores.
  • At the same time, individuals need to consume enough carbohydrates and healthy fats to fuel workouts and recovery.

Training

  • Gaining muscle requires regular resistance or strength training exercises.
  • These exercises cause micro tears in muscle fibers, which then repair and grow back stronger and larger.
  • Effective resistance training includes – consistency, intensity, recovery, and progressive overload.
  • Progressive overload means gradually increasing the weight, frequency, or number of repetitions in an exercise routine to challenge the muscles.

Muscle Strength for Healthy Aging

  • Research shows that performing exercises that build muscle mass can slow age-related cognitive decline and decrease the risk of neurodegenerative diseases like Alzheimer’s disease and dementia. (Joseph Michael Northey, et al., 2018)
  • Muscle-building exercise can also improve heart health and lower the risk of cardiovascular diseases. (Johns Hopkins Medicine. 2023)

Nutritional Mistakes

When trying to gain muscle, challenges can affect progress. Some of the most common mistakes that can delay or set back muscle growth and recommendations include.

Not Enough Protein

  • Eating protein like lean meats, dairy products, and seafood, is crucial for muscle repair and growth.
  • Not consuming enough protein makes the body unable to grow muscles, and you’ll see suboptimal improvements.
  • Get enough protein from various sources like beef, lamb, chicken, turkey, fish, eggs, dairy, legumes, and plant-based proteins.
  • However, there is a limit to how much protein the body can use effectively at one time for muscle protein synthesis.
  • It is recommended to distribute protein intake evenly throughout the day, aiming for about 20 to 30 grams of high-quality protein in each meal.

Not Enough Calories

  • Muscles need calories to grow.
  • If the body is in a caloric deficit, the ability to grow muscle is limited.
  • Insufficient calorie intake can create energy deficits, making the body use muscle for energy instead of growing.
  • To fix this, individuals need to consume more calories than calories burned.
  • It can be helpful to track calorie intake with an application to make adjustments as needed.
  • Individuals having trouble increasing their calorie intake or there are questions about what the body needs, consult with a registered dietitian or nutritionist.

Not Enough Carbs

  • Carbohydrates are the body’s main energy source during high-intensity workouts.
  • Not consuming enough can lead to decreased performance and slower recovery.
  • Recommendations include consuming a variety of whole grains and minimally processed carbohydrates, such as brown rice, potatoes, sweet potatoes, oats, and quinoa.
  • For individuals doing regular, moderate-to-intense training, carbohydrate recommendations can range from 3 to 7 grams per kilogram of body weight per day.
  • For individuals doing endurance or intense frequency training routines may need to increase this range.

Not Hydrating Enough

  • Water is necessary for all bodily functions, including muscle contraction and repair.
  • Dehydration comes with symptoms like muscle cramps, fatigue, and decreased exercise performance. (Centers for Disease Control and Prevention. 2022)
  • For individuals who are not sure how much water they need? Recommendations include using half of an individual’s body weight as a starting point to figure out how many ounces to drink per day.
  • For example, individuals who weigh 140 pounds can set a baseline hydration goal of 70 ounces of water/8 cups per day which can be adjusted according to activities.

Water Intake Recommendations

  • The recommended total fluid intake from food and drink varies by age and sex. The general recommendations are around:
  • 11.5 cups per day for women
  • 15.5 cups for adult men
  • For just water, women need around 9 cups of fluid per day, and men need around 13 cups to replace fluids that are lost throughout the day.
  • However, the exact amount of water needed to stay properly hydrated also depends on an individual’s activity level and overall health. (Academy of Nutrition and Dietetics. 2022)
  • To prevent dehydration, sip water consistently throughout the day, especially before, during, and after workouts.
  • Foods with a high water content like certain fruits can help achieve daily hydration goals.

Not Enough Healthy Fats

  • Not consuming enough healthy fats can cause the body to not be able to produce enough hormones that support muscle growth.
  • Relying on supplements instead of getting nutrients from whole foods can also lead to nutritional deficiencies and imbalances.
  • Eating too many protein bars or shakes can also cause gastrointestinal side effects. (National Capital Poison Center. 2023)
  • Recommendations are to add more healthy fats, like avocados, nuts, seeds, fatty fish, and olive oil.

Forgetting Post-Workout Nutrition

  • After working out, the body is ready to absorb nutrients and start the process of muscle repair and growth.
  • The body needs nutrients to activate the recovery post-exercise
  • When the body lacks nutrition after a workout it can slow muscle growth and cause fatigue.
  • Recommendations are to pack a balance of protein and carbohydrates to refuel right after a workout.

Training Mistakes

  • Undertraining or performing low-intensity workouts can also slow down muscle growth.
  • Individuals who are not overloading their muscles – for example, using weights that are too light – will not break them down so they can grow bigger and stronger.
  • A lack of microdamage means muscle growth will be slower.
  • Muscle overload also requires rest.
  • Recommendations are to take at least one day of rest per week and avoid strength training in the same muscle group two days in a row.
  • When creating a lifting plan, be sure to include compound exercises like squats, deadlifts, and bench presses.
  • These exercises work with multiple muscle groups and are recommended for building strength and muscle.
  • A training routine should include a variety of compound movements, like lunges, split squats, leg presses, pull-downs, upright rows, and push-ups.
  • If unsure of which compound exercises to include, consult a personal trainer, physical therapist, or sports chiropractor.

Military Training and Chiropractic Care


References

American College of Sports Medicine. (2017). Resistance training and injury prevention.

Northey, J. M., Cherbuin, N., Pumpa, K. L., Smee, D. J., & Rattray, B. (2018). Exercise interventions for cognitive function in adults older than 50: a systematic review with meta-analysis. British journal of sports medicine, 52(3), 154–160. doi.org/10.1136/bjsports-2016-096587

Johns Hopkins Medicine. (2023). Exercise and the heart.

Centers for Disease Control and Prevention. (2022). Water and healthier drinks.

Academy of Nutrition and Dietetics. (2022). How much water do you need?

National Capital Poison Center. (2023). Do protein bars give you gas?

Unhealthy Posture – Is Your Rib Cage Compressing Your Pelvis?

Unhealthy Posture – Is Your Rib Cage Compressing Your Pelvis?

For older individuals experiencing posture problems, slumping, slouching, and upper back pain, could adding rib cage exercises help bring relief and prevent the condition from worsening?

Unhealthy Posture - Is Your Rib Cage Compressing Your Pelvis?

Improved Posture

It’s common to associate a collapsed upper back posture with age, but other factors can also contribute to the problems. (Justyna Drzał-Grabiec, et al., 2013) The rib cage and the pelvis are important to body structure and comprise much of the core. If these bone structures become misaligned due to unhealthy posture, the muscles that attach to them become tight, weak, or both, and the surrounding muscles have to compensate, causing a worsening of the condition and further injury.

  • Unhealthy postures can be caused by a rib cage that compresses down onto the pelvic bone.
  • As the upper back slumps or compresses, height can begin to decrease.
  • Posture awareness exercises can help lift the rib cage off the pelvic bone.

Rib Cage Exercises

This exercise can be done sitting or standing. A daily routine can help improve posture and relieve back problems and pain.

  • The sitting version helps keep the focus on doing the exercise right.
  • The standing version challenges body awareness, allowing the individual to feel how the rib cage and upper back movements affect pelvic and lower back posture.
  • To begin, it is recommended to start in a sitting position.
  • Once the basics are learned, then certainly progress to standing.

Exercise

  1. Position the pelvis so it is in a slight forward tilt.
  2. This forward tilt will exaggerate the low back curve slightly while tightening the lower back muscles in a good way.
  3. Establishing and maintaining this curve in the sitting position should feel natural.
  4. Inhale and exaggerate the upward lift of the rib cage.
  5. Inhaling causes the spine and ribs to extend slightly.
  6. Exhale and allow the rib cage and upper back to return to their natural position.
  7. Repeat up to 10 times once or twice a day.
  • For this exercise, use breathing to develop the rib cage’s lift and carriage incrementally.
  • Don’t max out on the spinal extension.
  • Instead, focus on how breathing/inhaling supports the movement of the ribs and upper back and develops the muscles from there.
  • Try to lift the rib cage equally on both sides as the body allows.

With practice, individuals will realize the healthy posture changes and increased distance between the ribs and pelvis.

Guidance and Variation

  • Perform the exercise with the back against a wall for upper back guidance.
  • Another variation of the pelvis and rib cage posture training exercise is to raise the arms.
  • This will create a different posture awareness training perspective.
  • Focus on rib cage movement when the arms are raised.
  • Does lifting the arms make the exercise easier, harder, or different?
  • To enhance posture improvement, stretch the pectoral muscles.

Yoga

Individuals looking for more ways to strengthen healthy posture should consider yoga.

A study published in the International Journal of Yoga suggests that a great way to activate the core may be to include a variety of yoga postures into the routine. (Mrithunjay Rathore et al., 2017) The ab muscles attach to various places on the rib cage and play a role in posture, alignment, and balance. The researchers identified two muscles, the external obliques, and the transverse abdominal, as key to a healthily aligned posture.


Core Strength


References

Drzał-Grabiec, J., Snela, S., Rykała, J., Podgórska, J., & Banaś, A. (2013). Changes in the body posture of women occurring with age. BMC geriatrics, 13, 108. doi.org/10.1186/1471-2318-13-108

Rathore, M., Trivedi, S., Abraham, J., & Sinha, M. B. (2017). Anatomical Correlation of Core Muscle Activation in Different Yogic Postures. International journal of yoga, 10(2), 59–66. doi.org/10.4103/0973-6131.205515

Papegaaij, S., Taube, W., Baudry, S., Otten, E., & Hortobágyi, T. (2014). Aging causes a reorganization of cortical and spinal control of posture. Frontiers in aging neuroscience, 6, 28. doi.org/10.3389/fnagi.2014.00028

Your Pelvic Health: A Guide To Pelvic Floor Physical Therapy

Your Pelvic Health: A Guide To Pelvic Floor Physical Therapy

For individuals experiencing pelvis pain symptoms and associated problems, can integrating pelvic floor physical therapy exercises help with treatment and prevention?

Your Pelvic Health: A Guide To Pelvic Floor Physical Therapy

Pelvic Floor Physical Therapy

When the muscles fail to function correctly, individuals can experience symptoms like:

  1. Painful intercourse
  2. Prolapse – when an organ or tissue drops or shifts out of place.
  3. Urinary incontinence
  4. Constipation problems
  5. These conditions are common in pregnant individuals or older women.

These symptoms can be treated with pelvic floor physical therapy to alleviate discomfort. Pelvic floor physical therapy can help women and individuals with vaginas:

  • Alleviate issues like painful sex, urinary leakage, and prolapse.
  • In physical therapy, individuals work on breathing, relaxation, and lengthening and strengthening techniques to train their muscles to function optimally.

Causes of Pelvic Floor Issues

Pelvic floor dysfunction tends to happen with age, during pregnancy, or in combination with events like the postpartum period and menopause, which can lower hormone levels.

  • Individuals who are pregnant are especially prone to pelvic floor issues but might not know they have a problem.
  • The pregnancy weight of a uterus can pressure and strain the muscles.
  • Vaginal childbirth can also stretch or weaken the muscles. (Ilaria Soave, et al., 2019)

Symptoms

Symptoms can include: (Columbia Surgery. 2022)

  • Pain in the pelvis region
  • Back pain
  • Painful urination
  • Constipation
  • Urinary leakage or incontinence
  • Stool leakage or incontinence
  • Painful intercourse
  • If left untreated, these symptoms can worsen over time.

Pelvic Floor Physical Therapy

An individual will meet with a specialist to discuss symptoms and undergo a physical examination that includes:

  1. Pelvic floor exam.
  2. Evaluation of posture, mobility, and core strength.
  3. Once the initial exams and evaluation are complete, the practitioner will go over pelvic floor exercises and provide a treatment plan.
  4. Recommended exercises vary based on symptoms but focus on relaxing, stretching, and/or strengthening muscles.

Muscle Relaxation

  • To relax the muscles, a therapist may recommend breathing exercises.
  • For pregnant individuals, this means timing breaths with contractions.
  • For individuals experiencing constipation, breathing exercises can help the body relax and reduce strain.

Stretching Muscles

  • Stretching can help relieve muscle tightness and stiffness.
  • A therapist may help stretch the pelvic floor through various therapy modalities.
  • This type of physical therapy can help loosen tight muscles or help gently reset dislocated organs back into place.

Strengthening Muscles

  • After the pelvic floor is loose and relaxed, the focus typically switches to strengthening the muscles.
  • Strength work may target abdominal muscles or the pelvic floor muscles themselves.

With time, commitment, and targeted treatment, individuals can use pelvic floor physical therapy to loosen tissues, strengthen muscles, and restore function.


Spinal Decompression In Depth


References

U.S. Food and Drug Administration. (2019). Pelvic organ prolapse (pop).

Sartori, D. V. B., Kawano, P. R., Yamamoto, H. A., Guerra, R., Pajolli, P. R., & Amaro, J. L. (2021). Pelvic floor muscle strength is correlated with sexual function. Investigative and clinical urology, 62(1), 79–84. doi.org/10.4111/icu.20190248

Raizada, V., & Mittal, R. K. (2008). Pelvic floor anatomy and applied physiology. Gastroenterology clinics of North America, 37(3), 493–vii. doi.org/10.1016/j.gtc.2008.06.003

Soave, I., Scarani, S., Mallozzi, M., Nobili, F., Marci, R., & Caserta, D. (2019). Pelvic floor muscle training for prevention and treatment of urinary incontinence during pregnancy and after childbirth and its effect on urinary system and supportive structures assessed by objective measurement techniques. Archives of gynecology and obstetrics, 299(3), 609–623. doi.org/10.1007/s00404-018-5036-6

Columbia Surgery. (2022). Pelvic floor disorders: frequently asked questions.

Creating an Effective Workout with the FITT Principle

Creating an Effective Workout with the FITT Principle

For individuals trying to get into a regular fitness regimen, could using the FITT Principle help structure exercise, track progress, and achieve fitness goals?

Creating an Effective Workout with the FITT Principle

FITT Principle

The FITT principle is a set of guidelines for adjusting, revising, and improving exercise workouts. FITT is an acronym for:

  • Frequency
  • Intensity
  • Time
  • Type of exercise
  • Individuals take these elements to create and adjust workouts that fit their goals and fitness levels.

For example, this could be a workout of 3 to 5 days combined with low, medium, and high-intensity exercises for 30 to 60 minutes each session that incorporates cardio and strength training. Focusing on these details and progressing over time helps create an effective program.

Frequency

Workout frequency and how often the individual is going to exercise is the first thing to look at.

  • Frequency depends on various factors, including the type of workout being done, how hard the workout is, fitness levels, and exercise goals.
  • General exercise guidelines developed by the American College of Sports Medicine offer recommendations. (Carol Ewing Garber, et al., 2011)

Cardiovascular Workouts

  • Cardio workouts are usually scheduled more often.
  • Depending on goals, guidelines recommend moderate cardio exercise five or more days a week or intense cardio three days a week to improve health.
  • Individuals can adjust the exercise intensity level easily on a treadmill to provide excellent and convenient cardiovascular workouts.
  • Individuals who want to lose weight may want to work up to more workouts gradually.
  • However, more is not always better, and recovery time is essential. (Pete McCall. 2018)

Strength Training

  • The recommended frequency for strength training is two to three non-consecutive days a week. (National Strength and Conditioning Association. 2017)
  • Individuals should have at least one to two days of rest and recovery between sessions.
  • Workout frequency will often depend on the type of training sessions being performed as well as health goals.
  • For example, individuals want to work on each muscle group at least two times a week if their goal is to build muscle. (Brad J. Schoenfeld, Dan Ogborn, James W. Krieger. 2016)
  • For individuals following a split routine, like upper body one day and lower body the next, workouts can be more frequent than total body workouts.

Intensity

Workout intensity involves how hard the individual is pushing themselves during exercise. How it is increased or decreased depends on the type of workout. (Carol Ewing Garber, et al., 2011)

Cardiovascular Workouts

For cardio, individuals will monitor workout intensity by:

  • Heart rate
  • Perceived exertion
  • Talk test
  • Heart rate monitor
  • A combination of these measures.
  1. The general recommendation is to work at a moderate intensity for steady workouts.
  2. Interval training is done at a higher intensity for a shorter period.
  3. It’s recommended to mix up low, medium, and high-intensity cardio exercises to stimulate different energy systems and prevent overtraining. (Nathan Cardoos. 2015)

Strength Training

  • Individual intensity comprises the amount of weight being lifted and the number of reps and sets done.
  • The intensity can change based on health goals.
  1. Beginners looking to build stability, endurance, and muscle are recommended to use a lighter weight and do fewer sets with high repetitions – for example, two or three sets of 12 to 20 reps.
  2. Individuals wanting to grow muscle are recommended to do more sets with a moderate amount of reps – for example, four sets of 10 to 12 reps each.
  3. Individuals who want to build strength are recommended to use heavy weights and do more sets with fewer reps – for example, five sets of three reps each.
  4. Building muscle can be done with a wide range of repetitions and weights. (Brad J. Schoenfeld, Dan Ogborn, James W. Krieger. 2016)

Time

The next element of the plan is how long the exercise will be during each session. Exercise length depends on individual fitness level and the type of workout being done.

Cardiovascular Workouts

The exercise guidelines suggest 30 to 60 minutes of cardio, but workout duration will depend on fitness level and type of exercise. ((Carol Ewing Garber, et al., 2011)

  • Beginners are recommended to start with a 15- to 20-minute workout.
  • Individuals with some workout experience and are doing steady-state cardio, like jogging or using a cardio machine, might exercise for 30 to 60 minutes.
  • For individuals doing interval training and working at very high intensity, the workout will be shorter, around 10 to 15 minutes of high-intensity interval training.
  • Having a variety of workouts of different intensities and durations will provide a solid, balanced cardiovascular program.

Strength Training

  • How long an individual strength trains will depend on the type of workout and schedule.
  • A total body workout can take over an hour.
  • A split routine can take less time by working fewer muscle groups in one session.

Type

The type of exercise you do is the last part of the FIIT principle.
It is easy to manipulate to avoid overuse injuries or weight loss plateaus.

Cardiovascular Workouts

  • Cardio is easy to adjust and change because any activity that increases heart rate counts.
  1. Walking, dancing, running, cycling, swimming, and using an elliptical trainer are a few activities that can be incorporated.
  2. Having multiple cardio activities is recommended to reduce burnout and keep workouts fresh.

Strength Training

  • Strength training workouts can also be varied.
  • They include any exercise where some type of resistance  –  bands, dumbbells, machines, etc. are used to work the muscles.
  • Bodyweight exercises can also be considered a form of strength training.
  • Strength workouts can be changed from total body training to adding, for example, supersets or pyramid training.
  • Incorporating new exercises for each body area is another way to vary the type of workouts.
  • Spending a few weeks working on functional strength movements, then switching to hypertrophy or strength-based training.
  • Each modality includes various alternative types of strength-based exercises.

Using FITT

The FITT principle outlines how to adjust workout programs to achieve better results. It also helps figure out how to change workouts to avoid burnout, overuse injuries, and plateaus.

For example, walking three times a week for 30 minutes at a moderate pace is recommended for a beginner to start out with. After a few weeks, the body adapts to the workout. This results in burning fewer calories, burnout, or weight management efforts, and goals are put on hold. This is where the FITT principles come in. For example, a change-up could include:

  • Changing frequency by adding another day of walking or jogging.
  • Changing intensity by walking faster, adding more challenging terrain like a hill, or jogging at certain intervals.
  • Walking for a longer time each workout day.
  • Changing the type of workout by swapping one or more of the walk sessions for cycling or aerobics.
  1. Even just changing one element can make a big difference in the workout and how the body responds to exercise.
  2. It’s important to change things up regularly to keep the body healthy and mind engaged.

Injury Prevention

One of the best things about using FITT is that it allows individuals to monitor the length and intensity of their workouts. When individuals work out too frequently or don’t get enough rest, they run the risk of overuse injuries, burnout, and muscle strains. The FITT principle encourages adding variety to workouts. When following this practice, it allows the body to rest and recover properly. Because individuals are not working the same muscle groups over and over again, better results are achieved.


Fighting Inflammation Naturally


References

Garber, C. E., Blissmer, B., Deschenes, M. R., Franklin, B. A., Lamonte, M. J., Lee, I. M., Nieman, D. C., Swain, D. P., & American College of Sports Medicine (2011). American College of Sports Medicine position stand. Quantity and quality of exercise for developing and maintaining cardiorespiratory, musculoskeletal, and neuromotor fitness in apparently healthy adults: guidance for prescribing exercise. Medicine and science in sports and exercise, 43(7), 1334–1359. doi.org/10.1249/MSS.0b013e318213fefb

McCall Pete. 8 reasons to take a rest day. (2018) American Council on Exercise.

National Strength and Conditioning Association. (2017) Determination of resistance training frequency.

Schoenfeld, B. J., Ogborn, D., & Krieger, J. W. (2016). Effects of Resistance Training Frequency on Measures of Muscle Hypertrophy: A Systematic Review and Meta-Analysis. Sports medicine (Auckland, N.Z.), 46(11), 1689–1697. doi.org/10.1007/s40279-016-0543-8

Cardoos, Nathan MD. Overtraining Syndrome. (May/June 2015). Current Sports Medicine Reports 14(3):p 157-158. DOI: 10.1249/JSR.0000000000000145