Clinic Wellness Team. A key factor to spine or back pain conditions is staying healthy. Overall wellness involves a balanced diet, appropriate exercise, physical activity, restful sleep, and a healthy lifestyle. The term has been applied in many ways. But overall, the definition is as follows.
It is a conscious, self-directed, and evolving process of achieving full potential. It is multidimensional, bringing together lifestyles both mental/spiritual and the environment in which one lives. It is positive and affirms that what we do is, in fact, correct.
It is an active process where people become aware and make choices towards a more successful lifestyle. This includes how a person contributes to their environment/community. They aim to build healthier living spaces and social networks. It helps in creating a person’s belief systems, values, and a positive world perspective.
Along with this comes the benefits of regular exercise, a healthy diet, personal self-care, and knowing when to seek medical attention. Dr. Jimenez’s message is to work towards being fit, being healthy, and staying aware of our collection of articles, blogs, and videos.
Postural orthostatic tachycardia syndrome is a medical condition that causes lightheadedness and palpitations after standing. Can lifestyle adjustments and multidisciplinary strategies help reduce and manage symptoms?
Postural Orthostatic Tachycardia Syndrome – POTS
Postural orthostatic tachycardia syndrome, or POTS, is a condition that varies in severity from relatively mild to incapacitating. With POTS:
The heart rate increases dramatically with body position.
This condition often affects young individuals.
Most individuals with postural orthostatic tachycardia syndrome are women between the ages of 13 and 50.
Some individuals have a family history of POTS; some individuals report POTS began after an illness or stressor, and others report it began gradually.
It usually resolves over time.
Treatment can be beneficial.
Diagnosis is based on assessing blood pressure and pulse/heart rate.
Symptoms
Postural orthostatic tachycardia syndrome can affect young individuals who are otherwise healthy and can begin suddenly. It usually happens between the ages of 15 and 50, and women are more likely to develop it than men. Individuals can experience various symptoms within a few minutes of standing up from a lying or seated position. The symptoms can occur regularly and daily. The most common symptoms include: (National Institutes of Health. National Center for Advancing Translational Sciences. Genetic and Rare Diseases Information Center. 2023)
Anxiety
Lightheadedness
A feeling like you’re about to pass out.
Palpitations – sensing rapid or irregular heart rate.
Dizziness
Headaches
Blurred vision
Legs turn to reddish-purple.
Weakness
Tremors
Fatigue
Sleep problems
Trouble concentrating/brain fog.
Individuals may also experience recurrent episodes of fainting, usually without any trigger/s other than standing up.
Individuals can experience any combination of these symptoms.
Sometimes, individuals cannot handle sports or exercise and may feel light-headed and dizzy in response to mild or moderate physical activity, which can be described as exercise intolerance.
Associated Effects
Postural orthostatic tachycardia syndrome can be associated with other dysautonomia or nervous system syndromes, like neurocardiogenic syncope.
Individuals are often co-diagnosed with other conditions like:
Chronic fatigue syndrome
Ehlers-Danlos syndrome
Fibromyalgia
Migraines
Other autoimmune conditions.
Bowel conditions.
Causes
Usually, standing up causes blood to rush from the torso to the legs. The sudden change means less blood is available for the heart to pump. To compensate, the autonomic nervous system sends signals to the blood vessels to constrict to push more blood to the heart and maintain blood pressure and a normal heart rate. Most individuals do not experience significant changes in blood pressure or pulse when standing up. Sometimes, the body is unable to perform this function correctly.
If blood pressure drops from standing and causes symptoms like lightheadness, it is known as orthostatic hypotension.
If the blood pressure remains normal, but the heart rate gets faster, it is POTS.
The exact factors that cause postural orthostatic tachycardia syndrome are different in individuals but are related to changes in:
The autonomic nervous system, adrenal hormone levels, total blood volume, and poor exercise tolerance. (Robert S. Sheldon et al., 2015)
Autonomic Nervous System
The autonomic nervous system controls blood pressure and heart rate, which are the areas of the nervous system that manage internal bodily functions like digestion, respiration, and heart rate. It is normal for blood pressure to drop slightly and the heart rate to speed up a little when standing. With POTS, these changes are more pronounced.
POTS is considered a type of dysautonomia, which is diminished regulation of the autonomic nervous system.
Several other syndromes are also thought to be related to dysautonomia, like fibromyalgia, irritable bowel syndrome, and chronic fatigue syndrome.
It isn’t clear why the syndrome or any of the other types of dysautonomia develop, but there seems to be a familial predisposition.
Sometimes the first episode of POTS manifests after a health event like:
Pregnancy
Acute infectious illness, for example, a severe case of influenza.
An episode of trauma or concussion.
Major surgery
Diagnosis
A diagnostic evaluation will include a medical history, a physical examination, and diagnostic tests.
The healthcare provider will take blood pressure and pulse at least twice. Once while lying down and once while standing.
Blood pressure measurements and pulse rate lying down, sitting, and standing are orthostatic vitals.
Typically, standing up increases the heart rate by 10 beats per minute or less.
With POTS, heart rate increases by 30 beats per minute while blood pressure remains unchanged. (Dysautonomia International. 2019)
The heart rate stays elevated for over a few seconds upon standing/usually 10 minutes or more.
Symptoms happen frequently.
Lasts more than a few days.
Positional pulse changes are not the only diagnostic consideration for postural orthostatic tachycardia syndrome, as individuals can experience this change with other conditions.
During this test, blood pressure and pulse are measured several times when lying on a table and when the table is moved to an upright position.
Differential Diagnosis
There are various causes of dysautonomia, syncope, and orthostatic hypotension.
Throughout the evaluation, the healthcare provider may look at other conditions, like dehydration, deconditioning from prolonged bed rest, and diabetic neuropathy.
Medications like diuretics or blood pressure medication can cause similar effects.
Treatment
Several approaches are used in managing POTS, and individuals may require a multidisciplinary approach. The healthcare provider will advise regularly checking blood pressure and pulse at home to discuss the results when going in for medical checkups.
Fluids and Diet
Drinking non-caffeinated fluids can keep the body hydrated.
A healthcare provider can calculate the right amount of fluids that are needed each day.
Overnight dehydration is common, so it is especially important to drink fluids first thing in the morning, preferably before getting out of bed and standing.
Exercise and physical therapy can help the body learn to adjust to an upright position.
Because it can be challenging to exercise when dealing with POTS, a targeted exercise program under supervision may be required.
An exercise program may begin with swimming or using rowing machines, which do not require upright posture. (Dysautonomia International. 2019)
After a month or two, walking, running, or cycling may be added.
Studies have shown that individuals with POTS, on average, have smaller cardiac chambers than individuals who don’t have the condition.
Regular aerobic exercise has been shown to increase cardiac chamber size, slow heart rate, and improve symptoms. (Qi Fu, Benjamin D. Levine. 2018)
Individuals must continue an exercise program for the long term to keep symptoms from returning.
Medication
Prescription medications to manage POTS include midodrine, beta-blockers, pyridostigmine – Mestinon, and fludrocortisone. (Dysautonomia International. 2019)
Ivabradine, used for the heart condition of sinus tachycardia, has also been used effectively in some individuals.
Conservative Interventions
Other ways to help prevent symptoms include:
Sleeping in the head-up position by elevating the head of the bed off the ground 4 to 6 inches utilizing an adjustable bed, blocks of wood, or risers.
This increases the blood volume in circulation.
Performing countermeasure maneuvers like squatting, squeezing a ball, or crossing the legs. (Qi Fu, Benjamin D. Levine. 2018)
Wearing compression stockings to prevent too much blood from flowing into the legs when standing can help avoid orthostatic hypotension. (Dysautonomia International. 2019)
Conquering Congestive Heart Failure
References
National Institutes of Health. National Center for Advancing Translational Sciences. Genetic and Rare Diseases Information Center (GARD). (2023). Postural orthostatic tachycardia syndrome.
Sheldon, R. S., Grubb, B. P., 2nd, Olshansky, B., Shen, W. K., Calkins, H., Brignole, M., Raj, S. R., Krahn, A. D., Morillo, C. A., Stewart, J. M., Sutton, R., Sandroni, P., Friday, K. J., Hachul, D. T., Cohen, M. I., Lau, D. H., Mayuga, K. A., Moak, J. P., Sandhu, R. K., & Kanjwal, K. (2015). 2015 heart rhythm society expert consensus statement on the diagnosis and treatment of postural tachycardia syndrome, inappropriate sinus tachycardia, and vasovagal syncope. Heart rhythm, 12(6), e41–e63. doi.org/10.1016/j.hrthm.2015.03.029
For athletes, fitness enthusiasts, and individuals getting into regular exercise, can taking a workout break be beneficial if structured properly?
Workout Break
Giving oneself permission to take a break from exercising is necessary, especially to maintain a current fitness level. To stay fit at every level and injury-free, the body needs rest and recovery, especially to progress in performance levels. Regular exercise is important for:
Building endurance
Improving strength
Losing and maintaining weight
Relieving stress
What Is It?
A voluntary pause/workout break is a dedicated amount of time when the individual chooses not to work out. It is typically a response to individual body cues when the person knows their mind and body need to take a break from exercising. A workout break is different than a rest day as it may last one or two weeks from the regular training routine. Individuals may need to take a break because the workouts are becoming boring and/or the possibility of burning out or overtraining.
Fitness Impact
Studies on recreational soccer players showed that three to six weeks of inactivity did not change aerobic capacity and muscle strength. (Chang Hwa Joo. 2018)
Extremely fit individuals will experience a rapid drop in fitness during the first three weeks of inactivity before leveling off. (Chang Hwa Joo. 2018)
Medical experts provide terms for individuals who may be doing too much:
Overreaching is when the training becomes excessive, and performance begins to fall. It can be short- or long-term.
Overtraining occurs when overreaching is not addressed.
Overtraining syndrome/OTS lasts longer and results in more serious performance setbacks along with symptoms like hormone changes, depression, fatigue, and systemic inflammation. (Jeffrey B. Kreher. 2016)
Overreaching or overtraining feels like fitness progress is moving backward instead of forward. The more training, the slower and more fatigued the body becomes.
Endurance athletes have an increased risk of overreaching and overtraining. (Jeffrey B. Kreher. 2016)
The endurance mindset encourages pushing more hours of training to get stronger and faster. However, at a certain point, performance suffers.
Taking a break allows the restoration of balance to focus on work or school, manage various life events, and enjoy friends and family time. Studies have suggested that achieving a better work/life balance can improve:
Overtraining usually results from training too much and insufficient recovery.
Fitness and training experts recommend rest and light training as therapy for overtraining. (Jeffrey B. Kreher. 2016)
Signs The Body Needs A Break
A few signs and common symptoms may indicate a workout break may be needed.
Constantly unmotivated or bored
Not looking forward to working out
Poor performance
Physical exhaustion
Fatigue
Soreness that does not resolve
Lack of progress in workouts
Alternate Activities
During the workout break, engage in other active things that work the body differently, like playing table tennis, for example, or activities that are fun but keep the body moving without doing hard workouts. Remember, the body doesn’t have to be completely inactive. Individuals can try out:
Leisurely bike riding
Dancing
Climbing
Easy yardwork
Yoga or Pilates
Stretching
Returning To Working Out
It could feel like starting over, but it won’t take long for the body to remember how to exercise. It just needs to get used to working out again. It can be tempting to jump into an all-out workout routine, but that is not recommended because of the risk of injury. Here are a few basic principles to keep the body strong and healthy while easing back into a regular workout routine.
Start Simple
Start with a lighter version of the regular routine using lighter weights and less intensity.
Give The Body Time
Use the first two weeks for the body to get used to the workouts.
It can take up to three weeks to get back, depending on workouts before and how much relaxation time has passed.
Take Extra Rest Days
Returning to exercise means the body is going to be extra sore.
Plan extra recovery days so the body can heal and gain strength.
Each week, gradually increase the intensity until it is back to regular performance.
Revolutionizing Healthcare
References
Joo C. H. (2018). The effects of short term detraining and retraining on physical fitness in elite soccer players. PloS one, 13(5), e0196212. doi.org/10.1371/journal.pone.0196212
St-Amand, J., Yoshioka, M., Nishida, Y., Tobina, T., Shono, N., & Tanaka, H. (2012). Effects of mild-exercise training cessation in human skeletal muscle. European journal of applied physiology, 112(3), 853–869. doi.org/10.1007/s00421-011-2036-7
Kreher J. B. (2016). Diagnosis and prevention of overtraining syndrome: an opinion on education strategies. Open access journal of sports medicine, 7, 115–122. doi.org/10.2147/OAJSM.S91657
Cadegiani, F. A., & Kater, C. E. (2019). Novel insights of overtraining syndrome discovered from the EROS study. BMJ open sport & exercise medicine, 5(1), e000542. doi.org/10.1136/bmjsem-2019-000542
Gragnano, A., Simbula, S., & Miglioretti, M. (2020). Work-Life Balance: Weighing the Importance of Work-Family and Work-Health Balance. International journal of environmental research and public health, 17(3), 907. doi.org/10.3390/ijerph17030907
For individuals looking for a quick healthy snack, can adding sunflower seeds to one’s diet provide health benefits?
Sunflower Seeds
Sunflower seeds are the fruit of the sunflower plant. They have been found to contain antioxidants, vitamins, and minerals, which can help maintain immune system health, heart health, and more. Regularly grabbing a handful as a snack or adding to salads, oatmeal, baked goods, tuna salad, pasta, and vegetable toppings can help increase energy levels, reduce inflammation, and support general body health.
The seed’s high vitamin E value, combined with flavonoids and various plant compounds, can help reduce inflammation.
Research suggests that eating seeds at least five times a week may reduce inflammation and lower the risk of developing certain diseases. (Rui Jiang et al., 2006)
Heart Health
They are high in healthy fats, like polyunsaturated and monounsaturated fats.
Plant sterols, or the natural compounds in sunflower seeds, are recommended for their cholesterol-lowering properties. (University of Wisconsin Health. 2023)
Data show sunflower and other seeds consumption may lower rates of heart disease, high blood pressure, and high cholesterol.
Energy
The seeds contain vitamin B, selenium, and protein, which can help energize the body throughout the day.
These nutrients support blood circulation, oxygen delivery, and food conversion into energy.
Immune System Support
Sunflower seeds contain minerals and nutrients like zinc and selenium that help the body’s natural ability to defend against viruses and bacteria.
These minerals translate into benefits like immune cell maintenance, inflammation reduction, infection protection, and an overall increase in immunity.
Nutrition
Individuals don’t need to consume a lot of sunflower seeds to gain the nutritional benefits. Inside is a well-rounded mix of healthy fats, antioxidants, and other nutrients. Inside a 1-ounce portion of roasted sunflower seeds/without salt: (U.S. Department of Agriculture. 2018)
Calories – 165
Carbohydrates – 7 grams
Fiber – 3 grams
Sugar – 1 grams
Protein – 5.5 grams
Total fat – 14 grams
Sodium – 1 milligrams
Iron – 1 milligram
Vitamin E – 7.5 milligrams
Zinc – 1.5 milligrams
Folate – 67 micrograms
Female Health
When it comes to female reproductive health, there are aspects that the seeds may be able to help support.
The seed’s rich amounts of vitamin E, folate, phosphorus, and healthy fats are crucial for fetal development and maternal health.
Sunflower seeds naturally do not contain high amounts of sodium, but they are often packaged with added salt that can potentially sabotage their nutritional benefits.
The shells are usually coated in salt for flavor, as much as 70 milligrams for every 1 ounce of seeds.
High in calories, individuals should consider moderating portions to one-quarter cup and eating the unsalted varieties. (U.S. Department of Agriculture. 2018)
Other Ways To Incorporate Seeds Into Meals
Other ways to add sunflower seeds to meals include:
Sprinkling them on chicken or a tuna salad.
Salad topping.
Topping for cereal and oatmeal.
Mixing them into batter for baked goods, like cookies.
Adding them to homemade or grocery store trail mix.
Grinding the seeds for a flour coating for meat or fish.
Sprinkling them into vegetable dishes, casseroles, stir-fries, and pasta.
Sunflower butter can be an alternative to peanut or other nut butters.
Sports Injury Rehabilitation
References
Adeleke, B. S., & Babalola, O. O. (2020). Oilseed crop sunflower (Helianthus annuus) as a source of food: Nutritional and health benefits. Food science & nutrition, 8(9), 4666–4684. doi.org/10.1002/fsn3.1783
Petraru, A., Ursachi, F., & Amariei, S. (2021). Nutritional Characteristics Assessment of Sunflower Seeds, Oil and Cake. Perspective of Using Sunflower Oilcakes as a Functional Ingredient. Plants (Basel, Switzerland), 10(11), 2487. doi.org/10.3390/plants10112487
Jiang, R., Jacobs, D. R., Jr, Mayer-Davis, E., Szklo, M., Herrington, D., Jenny, N. S., Kronmal, R., & Barr, R. G. (2006). Nut and seed consumption and inflammatory markers in the multi-ethnic study of atherosclerosis. American journal of epidemiology, 163(3), 222–231. doi.org/10.1093/aje/kwj033
For individuals looking to spice up their diet, can jalapeño peppers provide nutrition, and be a good source of vitamins?
Jalapeño Pepper Nutrition
Jalapeños are one of many types of chili peppers that are used to accent or garnish and add heat to a dish. This pepper variety is generally harvested and sold when it is a glossy dark green but turns red as it matures. The following nutrition information for one 14-gram jalapeño pepper. (FoodData Central. U.S. Department of Agriculture. 2018)
Jalapeño peppers contain very little carbohydrates and cannot be tested with the standard GI methodology. (Fiona S. Atkinson et al., 2008)
6 grams of carbohydrates in 1-cup serving has an extremely low glycemic load, meaning the peppers do not raise blood sugar levels rapidly or provoke an insulin response. (Mary-Jon Ludy et al., 2012)
Fat
Jalapeños have a trace amount of fat that is mostly unsaturated.
Protein
The peppers are not a recommended source of protein, as they contain less than a gram of protein in a full cup of sliced jalapeños.
Vitamins and Minerals
One pepper contains about 16 milligrams of vitamin C, about 18% of the recommended daily allowance/RDA.
Jalapeños are a good source of vitamin A, which supports skin and eye health.
In 1/4 cup sliced jalapeño peppers, individuals acquire around 8% of the recommended daily amount of vitamin A for men and 12% for women.
Jalapeños are also a source of vitamins B6, K, and E.
Health Benefits
Many health benefits have been attributed to capsaicin which is the substance that generates the heat in the peppers, including alleviating pain and itching by blocking a neuropeptide that transmits those signals to the brain. (Andrew Chang et al., 2023)
Pain Relief
Research shows capsaicin – supplements or topical ointments/creams – can relieve nerve and joint pain. (Andrew Chang et al., 2023)
Lower the Risk of Heart Disease
A study of individuals with low levels of healthy HDL cholesterol, who are at risk of coronary heart disease/CHD, showed that capsaicin supplements improved risk factors for CHD. (Yu Qin et al., 2017)
Reduce Inflammation
The vitamin C in the peppers acts as an antioxidant, which means it can repair cells damaged by oxidative stress and reduce inflammation.
They can be consumed raw, pickled, canned, or smoked/chipotle peppers and are hotter than fresh or canned because they are dried and treated.
Storage and Safety
Fresh jalapeños can be stored at room temperature for a few days or in the refrigerator for about a week.
Once a jar is opened, keep it in the refrigerator.
For an open can of peppers, transfer to a glass or plastic container for refrigerator storage.
Peppers can be frozen after preparing by cutting off the stems and scooping out the seeds.
Frozen jalapeños are best within 6 months for the best quality, but can be kept for much longer.
Preparation
Removing the seeds can help reduce the heat.
Jalapeños can be eaten whole or sliced and added to salads, marinades, salsa, or cheeses.
Some add jalapeños to smoothies for a spicy kick.
They can be used in various recipes for added heat and tanginess.
Chiropractic, Fitness, and Nutrition
References
FoodData Central. U.S. Department of Agriculture. (2018). Peppers, jalapeno, raw.
Atkinson, F. S., Foster-Powell, K., & Brand-Miller, J. C. (2008). International tables of glycemic index and glycemic load values: 2008. Diabetes care, 31(12), 2281–2283. doi.org/10.2337/dc08-1239
Ludy, M. J., Moore, G. E., & Mattes, R. D. (2012). The effects of capsaicin and capsiate on energy balance: critical review and meta-analyses of studies in humans. Chemical senses, 37(2), 103–121. doi.org/10.1093/chemse/bjr100
National Institutes of Health Office of Dietary Supplements. (2021). Vitamin C: Fact Sheet for Health Professionals.
Chang A, Rosani A, Quick J. Capsaicin. [Updated 2023 May 23]. In: StatPearls [Internet]. Treasure Island (FL): StatPearls Publishing; 2023 Jan-. Available from: www.ncbi.nlm.nih.gov/books/NBK459168/
Qin, Y., Ran, L., Wang, J., Yu, L., Lang, H. D., Wang, X. L., Mi, M. T., & Zhu, J. D. (2017). Capsaicin Supplementation Improved Risk Factors of Coronary Heart Disease in Individuals with Low HDL-C Levels. Nutrients, 9(9), 1037. doi.org/10.3390/nu9091037
American Academy of Allergy Asthma and Immunology. (2017). Ask the Expert: Pepper Allergy.
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.
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
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