Could pita bread be a possible option for individuals trying to eat healthier?
Pita Bread
Pita bread is a yeast-leavened, round flatbread made with wheat flour. When baked, the dough turns into two layers. These layers create a pocket that can be filled with vegetables, meats, or vegetarian proteins. Pita bread offers health benefits because of its low carbohydrate count, the amount of nutrients in one serving, and the use of wheat flour.
The carbohydrate count for pita bread is 17 grams per serving or a little more than one carb count – 15 grams, used in meal planning for individuals with diabetes.
Non-keto bread is around 20 grams of carbohydrates per serving or slice.
Pita bread has a lower carbohydrate count than most breads.
Fats
Pita breads are relatively low in fat content.
The total lipid fat is under 2 grams, only 2% of the recommended daily amount or RDA.
The bread contains no fatty acids or trans or saturated fat.
Protein
Four grams of protein are in one serving of pita bread.
The protein content is found in the wheat flour.
Vitamins and Minerals
Other minerals in pita bread include:
Calcium, with 60.1 milligrams per serving.
Iron with 1.08 milligrams per serving – helps the body create hemoglobin, a protein in red blood cells that carries oxygen from the lungs. (National Institute of Health, 2023)
Sodium with 120 milligrams.
According to the Federal Drug Administration, this is a low amount of sodium. However, individuals should stay aware of sodium intake and limit it to no more than 2,300 milligrams per day.
Pita bread for a sandwich contains fewer calories than two slices of regular bread.
Benefits
Potential health benefits include the following:
Glucose Levels Lowered
Whole wheat can be beneficial to glucose levels.
The American Diabetes Association suggests that choosing bread with whole wheat grains, like pita bread, instead of white bread, can work to keep blood sugar levels from spiking. (American Diabetes Association 2024)
Digestion Support
Whole-grain pita bread fiber content can benefit the digestive system by regulating bowel movements.
Complex carbohydrates are digested slower than simple carbohydrates, keeping the body fuller for longer and assisting in weight management. (Harvard Health 2022)
Protein Source
Pita bread provides a healthy amount of protein.
A serving contains around 8% of protein.
Consuming the proper amount of protein helps in muscle repair. (Harvard Health 2024)
Allergies
Major allergies or intolerances can cause individuals to pass on the bread. What individuals need to know.
Celiac Disease
Celiac disease is a heredity autoimmune disease that occurs in genetically predisposed individuals.
Individuals with the disease cannot ingest gluten – a protein found in wheat – which can lead to small intestinal damage.
Individuals who experience gastrointestinal distress when eating wheat should consult a healthcare professional to get tested. (Celiac Disease Foundation 2023)
Wheat Allergy
A wheat allergy may mimic celiac disease symptoms, but they are different allergies.
The allergy occurs when the body produces antibodies to wheat proteins.
USDA. Pita Bread. (2021). Pita Bread. Retrieved from https://fdc.nal.usda.gov/fdc-app.html#/food-details/2134834/nutrients
National Institute of Health, Office of Dietary Supplements. (2023). Iron. Retrieved from https://ods.od.nih.gov/factsheets/Iron-HealthProfessional/
Food and Drug Administration. (2022). Sodium in your diet. Retrieved from https://www.fda.gov/food/nutrition-education-resources-materials/sodium-your-diet
American Diabetes Association. (2024). Types of carbohydrates (Food and Nutrition, Issue. https://diabetes.org/food-nutrition/understanding-carbs/types-carbohydrates
Harvard Health. (2022). Fiber (The Nutrition Source, Issue. https://www.hsph.harvard.edu/nutritionsource/carbohydrates/fiber/
Harvard Health. (2024). Protein (The Nutrition Source, Issue. https://www.hsph.harvard.edu/nutritionsource/what-should-you-eat/protein/
Celiac Disease Foundation. (2023). What is celiac disease? (About Celiac Disease, Issue. https://celiac.org/about-celiac-disease/what-is-celiac-disease/
American College of Allergy, Asthma, and Immunology. (2024). Wheat (Allergic Conditions, Issue. https://acaai.org/allergies/allergic-conditions/food/wheat-gluten/
For individuals experiencing musculoskeletal issues and pain symptoms, can learning about biomechanics and how it applies to movement, physical training, and performance, help in injury treatment and prevention?
Biomechanics
Biomechanics studies all life forms and their mechanical workings. Many think of biomechanics in sports and athletic performance, but biomechanics helps create and improve technologies, equipment, and injury rehabilitation techniques. (Tung-Wu Lu, Chu-Fen Chang 2012) Scientists, sports medicine doctors, physiotherapists, chiropractors, and conditioning specialists utilize biomechanics to help develop training protocols and techniques to improve therapy outcomes.
Body Movement
Biomechanics studies the movement of the body, including how muscles, bones, tendons, and ligaments work together, especially when movement is not optimal or correct. It is part of the larger field of kinesiology, specifically focusing on motion mechanics and analysis of how all the individual parts of the body work together to make up athletic and normal movements. (José M Vilar et al., 2013) Biomechanics includes:
Structure of bones and muscles.
Movement ability.
Mechanics of blood circulation, renal function, and other functions.
The study of forces and the effects of these forces on the tissues, fluid, or materials used for diagnosis, treatment, or research. (Jose I. Priego-Quesada 2021)
Sports
Sports biomechanics studies motion in exercising, training, and sports, which incorporates physics and the laws of mechanics. For example, the biomechanics of a specific exercise looks at:
Body position.
Movement of the feet, hips, knees, back, shoulders, and arms.
Knowing the correct movement patterns helps make the most of the exercise while preventing injuries, correcting form mistakes, informing training protocols, and increasing positive results. Understanding how the body moves and why it moves the way it does helps medical professionals prevent and treat injuries, alleviate pain symptoms, and improve performance.
Equipment
Biomechanics is used in the development of physical and sports equipment to improve performance. For example, a shoe can be designed for optimal performance for a skateboarder, long-distance runner, or soccer player. Playing surfaces are also studied for this purpose, such as how the surface stiffness of artificial turf affects athletic performance. (Jose I. Priego-Quesada 2021)
Individuals
Biomechanics can analyze an individual’s movements for more effective movement during training and games.
For example, an individual’s running gait or swing can be filmed with recommendations on what to change to improve.
Injuries
The science studies the causes, treatment, and prevention of neuromusculoskeletal injuries.
The research can analyze the forces that cause injuries and provide information for medical professionals on how to reduce the risk of injury.
Training
Biomechanics studies sports techniques and training systems to develop ways to improve efficiency.
This can include research on positioning, release, follow-through, etc.
It can analyze and help design new training techniques based on the mechanical demands of the sport, aimed at resulting in better performance.
For example, muscle activation is measured in cycling using electromyography and kinematics, which helps researchers analyze factors like posture, components, or exercise intensity that affect activation. (Jose I. Priego-Quesada 2021)
Motions
In biomechanics, the body’s motions are referred to from anatomical positioning:
Standing upright, with the gaze straight ahead
Arms at the sides
Palms facing forward
Feet spaced slightly apart, toes forward.
The three anatomical planes include:
Sagittal – median – Dividing the body into right and left halves is the sagittal/median plane. Flexion and extension occur in the sagittal plane.
Frontal – The frontal plane divides the body into front and back sides but also includes abduction, or moving a limb away from the center, and adduction, or moving a limb towards the center in the frontal plane.
Transverse – horizontal. – The upper and lower parts of the body are divided by the transverse/horizontal plane. Rotating movements occur here. (American Council on Exercise 2017)
Moving the body in all three planes occurs with daily activity. This is why performing exercises in each plane of motion to build strength, function, and stability is recommended.
Tools
Various tools are used to study biomechanics. Studies are usually performed using a device known as electromyography or EMG sensors. Sensors are placed on the skin and measure the amount and degree of muscle fiber activation in certain muscles during test exercises. EMGs can help:
Researchers understand which exercises are more effective than others.
Therapists know whether patients’ muscles are properly operating and functioning.
Dynamometers are another tool that helps measure muscle strength.
They measure the force output generated during muscle contractions to see if the muscles are sufficiently strong.
They are used to measure grip strength, which can be an indicator of overall strength, health, and longevity. (Li Huang et al., 2022)
Beyond Adjustments: Chiropractic and Integrative Healthcare
References
Lu, T. W., & Chang, C. F. (2012). Biomechanics of human movement and its clinical applications. The Kaohsiung journal of medical sciences, 28(2 Suppl), S13–S25. https://doi.org/10.1016/j.kjms.2011.08.004
Vilar, J. M., Miró, F., Rivero, M. A., & Spinella, G. (2013). Biomechanics. BioMed research international, 2013, 271543. https://doi.org/10.1155/2013/271543
Priego-Quesada J. I. (2021). Exercise Biomechanics and Physiology. Life (Basel, Switzerland), 11(2), 159. https://doi.org/10.3390/life11020159
American Council on Exercise. Makeba Edwards. (2017). Planes of Motion Explained (Exercise Science, Issue. https://www.acefitness.org/fitness-certifications/ace-answers/exam-preparation-blog/2863/the-planes-of-motion-explained/
Huang, L., Liu, Y., Lin, T., Hou, L., Song, Q., Ge, N., & Yue, J. (2022). Reliability and validity of two hand dynamometers when used by community-dwelling adults aged over 50 years. BMC geriatrics, 22(1), 580. https://doi.org/10.1186/s12877-022-03270-6
Can weight and strength training increase speed and power in athletes that participate in throwing sports?
Throwing Sports
Top-throwing athletes have amazing arm speed. To succeed in throwing sports athletes need to be able to generate quick explosive power. This means the ability to propel the arm forward with substantial velocity for maximum object delivery like a baseball, javelin, hammer throw, shot put, discus, etc. Combined with sports technique training, throwing strength and power can be increased by training with weights. Here is a three-phase training plan to improve throwing performance.
Full Body
The arm provides only one part of the delivery process.
The legs, core, shoulders, and general flexibility need to work cooperatively to exert maximum thrust and achieve maximum object speed.
The natural ability to throw fast with power is largely determined by an individual’s muscle type, joint structure, and biomechanics. (Alexander E Weber, et al., 2014)
Preparation
Preparation should provide all-around muscle and strength conditioning for early pre-season conditioning.
Athletes will be doing throwing training as well, so fieldwork will need to be able to fit in.
It is recommended not to do weight training prior to throwing practice.
This leads to the start of competition and tournament play.
Frequency
2 to 3 sessions per week
Type
Strength and power – 60% to 70% for one-rep max/1RM
The one-repetition maximum test, known as a one-rep max or 1RM, is used to find out the heaviest weight you can lift once.
When designing a resistance training program, individuals use different percentages of their 1RM, depending on whether they’re lifting to improve muscular strength, endurance, hypertrophy, or power. (Dong-Il Seo, et al., 2012)
Throwing practice and competition are the priorities.
Before competition begins, take a 7- to 10-day break from heavyweight sessions while maintaining throwing workouts.
Weight training during competition should provide maintenance.
Frequency
1 to 2 sessions per week
Type
Power – lighter loads and faster execution than in the preparation stage.
Exercises
3 sets of 10
Rapid movement, 40% to 60% of 1RM.
Squats
Power hang clean and press
Romanian deadlift
Lat pulldown
Incline bench press
Crunches
Rest
Between sets 1 to 2 minutes.
Training Tips
Athletes have individual needs, so a general program like this needs modification based on age, sex, goals, skills, competitions, etc.
A certified strength and conditioning coach or trainer could help develop a fitness plan that can be adjusted as the athlete progresses.
Be sure to warm up prior to weight training and cool down afterward.
Don’t try to train through injuries or try to progress too fast – it is recommended not to throw or do weights when treating or recovering from an injury. (Terrance A Sgroi, John M Zajac. 2018)
Focus on the fundamentals and practice proper form.
Take a few weeks off at the end of the season to recover after hard training and competition.
Body Transformation
References
Weber, A. E., Kontaxis, A., O’Brien, S. J., & Bedi, A. (2014). The biomechanics of throwing: simplified and cogent. Sports medicine and arthroscopy review, 22(2), 72–79. https://doi.org/10.1097/JSA.0000000000000019
American College of Sports Medicine (2009). American College of Sports Medicine position stand. Progression models in resistance training for healthy adults. Medicine and science in sports and exercise, 41(3), 687–708. https://doi.org/10.1249/MSS.0b013e3181915670
Zaras, N., Spengos, K., Methenitis, S., Papadopoulos, C., Karampatsos, G., Georgiadis, G., Stasinaki, A., Manta, P., & Terzis, G. (2013). Effects of Strength vs. Ballistic-Power Training on Throwing Performance. Journal of sports science & medicine, 12(1), 130–137.
Seo, D. I., Kim, E., Fahs, C. A., Rossow, L., Young, K., Ferguson, S. L., Thiebaud, R., Sherk, V. D., Loenneke, J. P., Kim, D., Lee, M. K., Choi, K. H., Bemben, D. A., Bemben, M. G., & So, W. Y. (2012). Reliability of the one-repetition maximum test based on muscle group and gender. Journal of sports science & medicine, 11(2), 221–225.
Sakamoto, A., Kuroda, A., Sinclair, P. J., Naito, H., & Sakuma, K. (2018). The effectiveness of bench press training with or without throws on strength and shot put distance of competitive university athletes. European journal of applied physiology, 118(9), 1821–1830. https://doi.org/10.1007/s00421-018-3917-9
Sgroi, T. A., & Zajac, J. M. (2018). Return to Throwing after Shoulder or Elbow Injury. Current reviews in musculoskeletal medicine, 11(1), 12–18. https://doi.org/10.1007/s12178-018-9454-7
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