Dr. Geoff Lecovin joins us for a 3 part series on healthy diet and nutrition for rehabilitation.
Nutrition for Sports Injuries & Healing: Part 2 of 3
Nutrition for Sports Injuries & Healing: 2 of 3
Dr. Geoff Lecovin
MS, DC, ND, L.Ac, CSCS, CISSN
Naturopathic Physician, Chiropractor, Acupuncturist, Nutritionist, & Personal Trainer
“Unleashing the Power of Food”
The key points to consider with the pyramid of nutritional
Prioritization:
Consume adequate calories to ensure energy balance
Ensure optimal intake of macronutrients (Carbohydrates, proteins and fats) for energy, repair and reducing inflammation
Eat enough nutrient dense foods to avoid micronutrient deficiencies (vitamins, minerals and phytonutrients)
Strategic timing of nutrients for energy and repair
Select nutrient supplementation for inflammation, muscle, tendon and bone repair
Energy
Adequate calories (energy) are essential for maintaining ideal body weight, fueling activities (e.g. rehabilitation) and promoting healing/recovery. Determining one’s energy requirements can be done using online calculators that take into account one's metabolic rate (BMR) and activity energy expenditure (i.e. rehabilitation, exercise, healing requirements and non exercise activity thermogenesis). Many individuals reduce their calorie intake during injury recovery out of fear that they will gain weight. While consuming excessive simple carbohydrates could lead to unwanted weight gain, supporting the healing process with adequate calories is essential. In addition, some weight gain may be favorable for optimal healing. Also, during recovery, the use of crutches or other ambulation aids can substantially increase one’s energy requirements.
Macronutrients
There are three macronutrients:
Carbohydrates
Proteins
Fats
Each macronutrient plays an important role in the healing process and will be discussed in the context of the three T’s: Total, Type and Timing.
Carbohydrates
Carbohydrates include sugars (simple) and starches (complex). Their primary function is to provide energy for moderate-intense activity. They are also important in keeping the body in an anabolic state by helping to mediate cortisol levels, a main catabolic hormone. Carbohydrates also spare protein, which further aids in maintaining an anabolic state. During injury healing, one should consider meeting carbohydrate requirements for both the healing process as well as rehabilitation. This could be in the range of 3-5g/kg Body Mass, with the focus on low glycemic carbohydrates (e.g. whole grains, vegetables and fruits) as the primary sources.
Proteins
Proteins are essential for muscle growth and repair as well as keeping the body in an anabolic state. They can be categorized as:
Complete - Animal sources, such as beef, poultry, pork, lamb, fish, eggs, dairy and plants such as quinoa and soy
Incomplete - Plants, such as grains, legumes, nuts and vegetables
The general dose for protein to help support healing is 1.5-2.5 g/kg Body Mass. Include some protein with each meal (about 0.4 g/kg Body Mass or about 20-40g). If you are vegetarian, make sure to balance complementary protein sources throughout the day, e.g. Rice and beans, and aim for intakes towards the higher end. Protein needs can be higher in older adults as well as in disuse atrophy, where there can be anabolic resistance.
Fats
Fats and oils can be categorized according to their saturation. The degree of saturation determines the melting point and stability of a fat. Fats are important as an energy source (low intensity activity), hormone production and in controlling inflammation.
Sources of fats include:
Saturated fats- Animal fats and coconut Monounsaturated- Avocados, olive oil, macadamia nuts
Polyunsaturated:
Omega 6 (Proinflammatory if out of balance)- Seed and vegetable oils, e.g. canola, corn, peanut, sunflower, safflower
Omega 3 (anti-inflammatory)- Dark green leafy vegetables, flax/hemp seeds, walnuts, cold water fish, grass-fed beef, omega-3 eggs
In general, fats should make up anywhere from 15-20% of one’s diet, with the emphasis on omega 3 polyunsaturated fatty acids and monounsaturated sources. Diets high in saturated fats and omega 6 polyunsaturated fatty acids can put the body in a more inflammatory state.
Micronutrients
Micronutrients include vitamins, minerals and phytonutrients. They are required in small quantities to ensure normal metabolism, growth and physical well-being. They also help to reduce inflammation and support the healing process. When it comes to micronutrients, avoiding nutrient deficiencies is the key and this can be done by eating a well balanced, varied, whole foods and unprocessed diet. Supraphysiologic vitamin and mineral supplementation beyond what a balanced diet can provide, is not recommended and in the case of antioxidants (e.g. Vitamins A,C,E,Beta carotene, Zinc and Selenium) can adversely affect healing by disrupting the beneficial aspects of inflammation.
References:
Areestion during prolta, J. L., Burke, L. M., Ross, M. L., Camera, D. M., West, D. W., Broad, E. M., ... & Hawley, J. A. (2013).
Timing and distribution of protein ingonged recovery from resistance exercise alters myofibrillar protein synthesis. The Journal of physiology , 591 (9), 2319-2331 Louise M. Burke, John A. Hawley, Stephen H. S. Wong & Asker E. Jeukendrup (2011)
Carbohydrates for training and competition, Journal of Sports Sciences, 29:sup1, S17-S27, DOI: 10.1080/02640414.2011.585473 Clifford, T., Bell, O., West, D. J., Howatson, G., & Stevenson, E. J. (2016).
The effects of beetroot juice supplementation on indices of muscle damage following eccentric exercise. European journal of applied physiology , 116 (2), 353-362. Close, G. L., Sale, C., Baar, K., & Bermon, S. (2019).
Nutrition for the prevention and treatment of injuries in track and field athletes. International journal of sport nutrition and exercise metabolism , 29 (2), 189-197 Currell , Kevin. Performance Nutrition . Crowood Press (April 1, 2017)
Farup, J., Rahbek, S. K., Knudsen, I. S., de Paoli, F., Mackey, A. L., & Vissing, K. (2014). Whey protein supplementation accelerates satellite cell proliferation during recovery from eccentric exercise. Amino Acids , 46 (11), 2503-2516 Frankenfield, D. (2006).
Energy expenditure and protein requirements after traumatic injury. Nutrition in Clinical Practice , 21 (5), 430-437 Glover, E. I., Phillips, S. M., Oates, B. R., Tang, J. E., Tarnopolsky, M. A., Selby, A., ... & Rennie, M. J. (2008).
Immobilization induces anabolic resistance in human myofibrillar protein synthesis with low and high dose amino acid infusion. The Journal of physiology , 586 (24), 6049-6061 Guo, S., & Dipietro, L. A. (2010).
Factors affecting wound healing. Journal of dental research , 89 (3), 219–229. https://doi.org/10.1177/0022034509359125 Juhasz, I., Kopkane, J. P., Hajdu, P., Szalay, G., Kopper, B., & Tihanyi, J. (2018).
Creatine Supplementation Supports the Rehabilitation of Adolescent Fin Swimmers in Tendon Overuse Injury Cases. Journal of sports science & medicine , 17 (2), 279–288 Kelley, D. S., Adkins, Y., & Laugero, K. D. (2018).
A Review of the Health Benefits of Cherries. Nutrients , 10 (3), 368. https://doi.org/10.3390/nu10030368 Kerksick, C. M., Arent, S., Schoenfeld, B. J., Stout, J. R., Campbell, B., Wilborn, C. D., Taylor, L., Kalman, D., Smith-Ryan, A. E., Kreider, R. B., Willoughby, D., Arciero, P. J., VanDusseldorp, T. A., Ormsbee, M. J., Wildman, R., Greenwood, M., Ziegenfuss, T. N., Aragon, A. A., & Antonio, J. (2017).
International society of sports nutrition position stand: nutrient timing. Journal of the International Society of Sports Nutrition , 14 , 33. https://doi.org/10.1186/s12970-017-0189-4 Laumonier, T., & Menetrey, J. (2016).
Muscle injuries and strategies for improving their repair. Journal of experimental orthopaedics , 3 (1), 15. https://doi.org/10.1186/s40634-016-0051-7 Logue, D. M., Madigan, S. M., Melin, A., Delahunt, E., Heinen, M., Donnell, S. M., & Corish, C. A. (2020). Low Energy Availability in Athletes 2020:
An Updated Narrative Review of Prevalence, Risk, Within-Day Energy Balance, Knowledge, and Impact on Sports Performance. Nutrients , 12 (3), 835. https://doi.org/10.3390/nu12030835 Phillips, C. M., Chen, L. W., Heude, B., Bernard, J. Y., Harvey, N. C., Duijts, L., ... & Shivappa, N. (2019).
Dietary inflammatory index and non-communicable disease risk: a narrative review. Nutrients , 11 (8), 1873. Maughan, R. J., Burke, L. M., Dvorak, J., Larson-Meyer, D. E., Peeling, P., Phillips, S. M., ... & Meeusen, R. (2018).
IOC consensus statement: dietary supplements and the high-performance athlete. International journal of sport nutrition and exercise metabolism , 28 (2), 104-125 Myer, G. D., Kushner, A. M., Brent, J. L., Schoenfeld, B. J., Hugentobler, J., Lloyd, R. S., Vermeil, A., Chu, D. A., Harbin, J., & McGill, S. M. (2014).
The back squat: A proposed assessment of functional deficits and technical factors that limit performance. Strength and conditioning journal , 36 (6), 4–27. https://doi.org/10.1519/SSC.0000000000000103 Mountjoy, M., Sundgot-Borgen, J., Burke, L., Carter, S., Constantini, N., Lebrun, C., ... & Ljungqvist, A. (2014).
The IOC consensus statement: beyond the female athlete triad—Relative Energy Deficiency in Sport (RED-S). Br J Sports Med , 48 (7), 491-497 Pence, B. D., & Woods, J. A. (2014). Exercise, obesity, and cutaneous wound healing: evidence from rodent and human studies. Advances in wound care , 3 (1), 71-79. Quintero, K. J., de Sá Resende, A., Leite, G. S. F., & Junior, A. H. L. (2018).
An overview of nutritional strategies for recovery process in sports-related muscle injuries. Nutrire , 43 (1), 27 Sale, C., & Elliott-Sale, K. J. (2019). Nutrition and athlete bone health. Sports Medicine , 1-13 Shaw, G., Lee-Barthel, A., Ross, M. L., Wang, B., & Baar, K. (2017).
Vitamin C–enriched gelatin supplementation before intermittent activity augments collagen synthesis. The American journal of clinical nutrition , 105 (1), 136-143 Smith, Stephen, MSc, PHd, (Cand), NUTRITION FOR INJURY PREVENTION & REHABILITATION applied in an elite powerlifter.2019.
IOPN Performance Nutrition DiplomaTipton, K. D. (2015).
Nutritional support for exercise-induced injuries. Sports Medicine , 45 (1), 93-104 Van Vliet, S., Shy, E. L., Abou Sawan, S., Beals, J. W., West, D. W., Skinner, S. K., ... & Moore, D. R. (2017).
Consumption of whole eggs promotes greater stimulation of postexercise muscle protein synthesis than consumption of isonitrogenous amounts of egg whites in young men. The American journal of clinical nutrition , 106 (6), 1401-1412 Wall, B. T., Snijders, T., Senden, J. M., Ottenbros, C. L., Gijsen, A. P., Verdijk, L. B., & van Loon, L. J. (2013). Disuse impairs the muscle protein synthetic response to protein ingestion in healthy men. The Journal of Clinical Endocrinology & Metabolism , 98 (12), 4872-4881 Yang, D. F., Shen, Y. L., Wu, C., Huang, Y. S., Lee, P. Y., Er, N.X., ... & Tung, Y. T. (2019).
Sleep deprivation reduces the recovery of muscle injury induced by high-intensity exercise in a mouse model. Life sciences , 235 , 116835 Precision Nutrition, Nutrition for Injury Recovery Infographic. https://www.precisionnutrition.com/ http://www.sportsrd.org/wp-content/uploads/2016/08/Nutrition- Support-for-Inury-Recovery-Return-to-Play.pdf
Questions and Contact Info: www.drgeofflecovin.com or email: geoff@drgeofflecovin.com
Nutrition for Sports Injuries & Healing
Nutrition for Sports Injuries & Healing: 1 of 3
Dr. Geoff Lecovin
MS, DC, ND, L.Ac, CSCS, CISSN
Naturopathic Physician, Chiropractor, Acupuncturist, Nutritionist, & Personal Trainer
“Unleashing the Power of Food”
Healing after an Injury occurs in three stages
1. Inflammation - Occurs immediately and continues up to 5 days post-injury. It is the body's way of signaling the immune system to heal and repair damaged tissue, as well as defend itself against viruses and bacteria.
2. Proliferation (regeneration) - From 5 days to 3 weeks post-injury. In this phase, tissue rebuilding and repairing occurs.
3. Maturation (fibrosis) - From 3 weeks to 2 years. In this phase, remodeling of tissue structure occurs. Each stage must occur sequentially in order for optimal healing to occur. By understanding the stages of healing, one can more effectively focus specific nutrition and rehabilitation interventions. Should you use ice and/or anti-inflammatory medications after an injury?
Healing after an Injury occurs in three stages
1. Inflammation - Occurs immediately and continues up to 5 days post-injury. It is the body's way of signaling the immune system to heal and repair damaged tissue, as well as defend itself against viruses and bacteria.
2. Proliferation (regeneration) - From 5 days to 3 weeks post-injury. In this phase, tissue rebuilding and repairing occurs.
3. Maturation (fibrosis) - From 3 weeks to 2 years. In this phase, remodeling of tissue structure occurs. Each stage must occur sequentially in order for optimal healing to occur. By understanding the stages of healing, one can more effectively focus specific nutrition and rehabilitation interventions. Should you use ice and/or anti-inflammatory medications after an injury?
During the inflammatory stage, numerous chemicals are released, some of which can irritate pain receptors called nociceptors. Many people turn to Non Steroidal Anti-inflammatory Drugs, such as Ibuprofen and Naproxen, to reduce the pain. Unfortunately, while these medications can be effective at blocking pain, they can also disrupt the healing process. Fortunately, there are a number of alternative physical and nutritional interventions that can help reduce the pain associated with inflammation, while at the same time supporting the healing process.
MEAT vs RICE?
Move, Exercise, Analgesics, Treatment
Rest, Ice, Compression, Elevation
MEAT supports the healing process, whereas certain aspects of RICE may impede it, depending upon the injury. I generally recommend contrast hydrotherapy as follows: Three minutes of heat alternating with one minute cold, three times, several times throughout the day. This serves to pump nutrition into the injured area and pump waste products out. Ice is generally reserved for right after surgery or briefly after an injury, depending on the severity of the inflammation. You should consult your doctor or therapist to determine which approach best suits your injury.
References:
Areestion during prolta, J. L., Burke, L. M., Ross, M. L., Camera, D. M., West, D. W., Broad, E. M., ... & Hawley, J. A. (2013).
Timing and distribution of protein ingonged recovery from resistance exercise alters myofibrillar protein synthesis. The Journal of physiology , 591 (9), 2319-2331 Louise M. Burke, John A. Hawley, Stephen H. S. Wong & Asker E. Jeukendrup (2011)
Carbohydrates for training and competition, Journal of Sports Sciences, 29:sup1, S17-S27, DOI: 10.1080/02640414.2011.585473 Clifford, T., Bell, O., West, D. J., Howatson, G., & Stevenson, E. J. (2016).
The effects of beetroot juice supplementation on indices of muscle damage following eccentric exercise. European journal of applied physiology , 116 (2), 353-362. Close, G. L., Sale, C., Baar, K., & Bermon, S. (2019).
Nutrition for the prevention and treatment of injuries in track and field athletes. International journal of sport nutrition and exercise metabolism , 29 (2), 189-197 Currell , Kevin. Performance Nutrition . Crowood Press (April 1, 2017)
Farup, J., Rahbek, S. K., Knudsen, I. S., de Paoli, F., Mackey, A. L., & Vissing, K. (2014). Whey protein supplementation accelerates satellite cell proliferation during recovery from eccentric exercise. Amino Acids , 46 (11), 2503-2516 Frankenfield, D. (2006).
Energy expenditure and protein requirements after traumatic injury. Nutrition in Clinical Practice , 21 (5), 430-437 Glover, E. I., Phillips, S. M., Oates, B. R., Tang, J. E., Tarnopolsky, M. A., Selby, A., ... & Rennie, M. J. (2008).
Immobilization induces anabolic resistance in human myofibrillar protein synthesis with low and high dose amino acid infusion. The Journal of physiology , 586 (24), 6049-6061 Guo, S., & Dipietro, L. A. (2010).
Factors affecting wound healing. Journal of dental research , 89 (3), 219–229. https://doi.org/10.1177/0022034509359125 Juhasz, I., Kopkane, J. P., Hajdu, P., Szalay, G., Kopper, B., & Tihanyi, J. (2018).
Creatine Supplementation Supports the Rehabilitation of Adolescent Fin Swimmers in Tendon Overuse Injury Cases. Journal of sports science & medicine , 17 (2), 279–288 Kelley, D. S., Adkins, Y., & Laugero, K. D. (2018).
A Review of the Health Benefits of Cherries. Nutrients , 10 (3), 368. https://doi.org/10.3390/nu10030368 Kerksick, C. M., Arent, S., Schoenfeld, B. J., Stout, J. R., Campbell, B., Wilborn, C. D., Taylor, L., Kalman, D., Smith-Ryan, A. E., Kreider, R. B., Willoughby, D., Arciero, P. J., VanDusseldorp, T. A., Ormsbee, M. J., Wildman, R., Greenwood, M., Ziegenfuss, T. N., Aragon, A. A., & Antonio, J. (2017).
International society of sports nutrition position stand: nutrient timing. Journal of the International Society of Sports Nutrition , 14 , 33. https://doi.org/10.1186/s12970-017-0189-4 Laumonier, T., & Menetrey, J. (2016).
Muscle injuries and strategies for improving their repair. Journal of experimental orthopaedics , 3 (1), 15. https://doi.org/10.1186/s40634-016-0051-7 Logue, D. M., Madigan, S. M., Melin, A., Delahunt, E., Heinen, M., Donnell, S. M., & Corish, C. A. (2020). Low Energy Availability in Athletes 2020:
An Updated Narrative Review of Prevalence, Risk, Within-Day Energy Balance, Knowledge, and Impact on Sports Performance. Nutrients , 12 (3), 835. https://doi.org/10.3390/nu12030835 Phillips, C. M., Chen, L. W., Heude, B., Bernard, J. Y., Harvey, N. C., Duijts, L., ... & Shivappa, N. (2019).
Dietary inflammatory index and non-communicable disease risk: a narrative review. Nutrients , 11 (8), 1873. Maughan, R. J., Burke, L. M., Dvorak, J., Larson-Meyer, D. E., Peeling, P., Phillips, S. M., ... & Meeusen, R. (2018).
IOC consensus statement: dietary supplements and the high-performance athlete. International journal of sport nutrition and exercise metabolism , 28 (2), 104-125 Myer, G. D., Kushner, A. M., Brent, J. L., Schoenfeld, B. J., Hugentobler, J., Lloyd, R. S., Vermeil, A., Chu, D. A., Harbin, J., & McGill, S. M. (2014).
The back squat: A proposed assessment of functional deficits and technical factors that limit performance. Strength and conditioning journal , 36 (6), 4–27. https://doi.org/10.1519/SSC.0000000000000103 Mountjoy, M., Sundgot-Borgen, J., Burke, L., Carter, S., Constantini, N., Lebrun, C., ... & Ljungqvist, A. (2014).
The IOC consensus statement: beyond the female athlete triad—Relative Energy Deficiency in Sport (RED-S). Br J Sports Med , 48 (7), 491-497 Pence, B. D., & Woods, J. A. (2014). Exercise, obesity, and cutaneous wound healing: evidence from rodent and human studies. Advances in wound care , 3 (1), 71-79. Quintero, K. J., de Sá Resende, A., Leite, G. S. F., & Junior, A. H. L. (2018).
An overview of nutritional strategies for recovery process in sports-related muscle injuries. Nutrire , 43 (1), 27 Sale, C., & Elliott-Sale, K. J. (2019). Nutrition and athlete bone health. Sports Medicine , 1-13 Shaw, G., Lee-Barthel, A., Ross, M. L., Wang, B., & Baar, K. (2017).
Vitamin C–enriched gelatin supplementation before intermittent activity augments collagen synthesis. The American journal of clinical nutrition , 105 (1), 136-143 Smith, Stephen, MSc, PHd, (Cand), NUTRITION FOR INJURY PREVENTION & REHABILITATION applied in an elite powerlifter.2019.
IOPN Performance Nutrition DiplomaTipton, K. D. (2015).
Nutritional support for exercise-induced injuries. Sports Medicine , 45 (1), 93-104 Van Vliet, S., Shy, E. L., Abou Sawan, S., Beals, J. W., West, D. W., Skinner, S. K., ... & Moore, D. R. (2017).
Consumption of whole eggs promotes greater stimulation of postexercise muscle protein synthesis than consumption of isonitrogenous amounts of egg whites in young men. The American journal of clinical nutrition , 106 (6), 1401-1412 Wall, B. T., Snijders, T., Senden, J. M., Ottenbros, C. L., Gijsen, A. P., Verdijk, L. B., & van Loon, L. J. (2013). Disuse impairs the muscle protein synthetic response to protein ingestion in healthy men. The Journal of Clinical Endocrinology & Metabolism , 98 (12), 4872-4881 Yang, D. F., Shen, Y. L., Wu, C., Huang, Y. S., Lee, P. Y., Er, N.X., ... & Tung, Y. T. (2019).
Sleep deprivation reduces the recovery of muscle injury induced by high-intensity exercise in a mouse model. Life sciences , 235 , 116835 Precision Nutrition, Nutrition for Injury Recovery Infographic. https://www.precisionnutrition.com/ http://www.sportsrd.org/wp-content/uploads/2016/08/Nutrition- Support-for-Inury-Recovery-Return-to-Play.pdf
Questions and Contact Info: www.drgeofflecovin.com or email: geoff@drgeofflecovin.com
Blood Flow Restriction (Copy)
“Speed kills” is a phrase often heard in the athletic world to emphasize the idea that the faster the athlete is, the more successful he or she will be. As a health professional and a performance coach, it is important to teach athletes that being fast does not always have to rely on genetic background. There are plenty of specific mechanics that can turn speed into a skill.
Progressive Performance Q & A
Progressive Performance Q&A
By Justin Ho PT, DPT, CSCS
I had a chance to sit down with Jimmy McCurry, head coach and owner of Progressive Performance Strength and Fitness in Woodinville, WA. I've had the pleasure of working with Jimmy in the past, helping our mutual clients and patients rehab from their aches and pains and return to lifting heavy and safely at his gym. Here is our conversation talking about Progressive Performance and how his community is adjusting with the pandemic.
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Me: Jimmy thanks for taking the time to sit down and chat with me today. I'm sure you've been busy adapting to the ever changing environment due to COVID-19. To get started, please tell us a little about what makes Progressive Performance different.
Jimmy: Glad we could find a time to chat! Progressive Performance is for people who don't know what they should be doing for their fitness journey and don't really know where to start. Maybe they've tried different forms of training that hasn't worked for them, or they've been battling with nagging injuries. We work with people who are interested in strength training and those who are looking for a personalized custom approach to their fitness that’s tailored to their specific needs. We do this in a small group environment that is community based. We take pride in meeting people where they are at fitness-wise, getting them stronger, helping them lose fat, and getting them the body of their dreams while also feeling great doing it.
Me: I understand you emphasize your programs around resistance training. Can you speak on that?
Jimmy: Our program is, as you mentioned, resistance training based. What we found is that when you focus on the resistance element, you can get really great results in body control, injury prevention, metabolism, and the ability to gain muscle. Our typical age demographic is between age 40-65, where resistance training to compete against sarcopenia and osteopenia is important. No matter where our clients start from, we can position them with a custom training program that's going to work with them specifically and progress their exercises appropriately so they'll continue to see improved strength and performance.
Me: That's fantastic. There is such a negative stigma behind strength training, but it's so important for individuals entering their 4th and 5th decade because of sarcopenia and osteopenia (muscle wasting and losing bone strength). When working with new clients, I'm sure you have many people coming in from different walks of life and fitness history. Tell us how you find a person's starting point.
Jimmy: With every new member, we sit them down with a coach for 1 hour to start. The first half hour is centered around goal setting and understanding their movement background and then during the second half of the hour we do a general movement screen. From gross moments to individual joint ranges of motions and strength. We formulate a custom warm up routine to address any limitations that we find so they can be as successful as possible with their lifts in the safest way possible.
Me: I understand during the first few months of the pandemic, you quickly switched your platform to online coaching and are still offering that to many of your members. As we are continually adjusting to the new normal due to the pandemic, I anticipate you're making a great effort to make your gym a safe and clean space. Can you expand a little more on this?
Jimmy: We have 5 clients to one trainer. In our facility, we set up specific boxes where people would train in. We have protocols in place where higher-touched surfaces are only in contact with our coaches. All of our coaches are required to wear masks. We open the facility, clients come in wash their hands and then go to the area they are assigned. All the equipment for that session will be already set up in the box the client will occupy for the entirety of the session. Nobody shares the equipment. We have 45 minutes of the session and a 15 minute cleansing time. We're doing whatever it takes to make our clients feel safe while they train.
Me: One of my patients mentioned that you were at the helm of getting smaller gyms like yours to open up earlier than originally planned. How did this transpire?
Jimmy: Yeah we actually spearheaded this effort to get small group fitness gyms into the earlier phases of re-opening. Originally we, gyms, were placed in phase 3; however we knew that with our set up we could definitely operate in an earlier phase while following all the precautions and limitations. We submitted a petition with 6500 signatures and sent it to the governor. We were actually broadcasted on local news and on a local radio station. So we thankfully were successful in sharing our message to the government that people are missing and needing their fitness. This ultimately resulted in getting smaller gyms into what we'll call phase 2.
Me: That's some incredible work. Well done!
Jimmy: For us it was more about what makes sense by science. Okay if you can sell a car or open a casino within a phase 1 situation, why can't you do something that's healthy for people. Why can't we let people invest in their fitness and help their immune system versus doing other things that would degrade their immune system. We are also invested in our clients results and invested in bringing greater health in the greater Seattle area. For us to do that, we had to fight the fight and get people back into the gym.
Me: I'm so glad that you had great success with this. Switching gears, I want to share one of my concerns as a physical therapist. You have people who have been either doing home workouts or not exercising at all for a few months. I am concerned that when they return or start up exercising again that they'll injure themselves simply because they've lost some conditioning. How do you plan on approaching this with your returning and new members?
Jimmy: When you're coming back to the gym, we are paying particular attention to the training stimulus. Understand that lifting 40-50% of your maximum ability is where you're going to start. You'll likely also be very sore after that first session back. The main theme is thinking light and easy. This applies both to decreased volume within the workout session and less frequency per week. The muscles remember where they were before, they'll eventually get back to their previous state in 3-4 weeks with steady progressive load. Our clients will be focusing on more full body workouts including pull, push, legs before focusing on individual groups per training session.
Me: That makes a lot of sense to me. Getting people more conditioned first before getting into strength work seems like a great recipe. Say that I wanted to get into strength training with Progressive Performance now, but I don't have any experience in any of those lifts or even the terminology, how do I start?
Jimmy: This is what we have our Jump Start program for. We have everything laid out in a 28 day program. New clients will come in for a movement evaluation, a nutrition evaluation, and they can come in as many times as they want to our small group sessions over those 28 days. Through our interaction we curate that program that's most appropriate for the new member. We'd recommend starting 2-3x/week and then building up to 4x/week. Here we discuss lifting form and make sure you receive live feedback on how to perform each of the exercises safely. After those 28 days, obviously we'd love to keep you as members, but for those who want to lift on their own at their gym, this is still a great gateway to understanding how to lift properly and safely.
Me: That sounds like a great way to get people who are interested in resistance training to do it right and safely. I really do believe your gym provides such a unique opportunity and gateway for individuals who may otherwise never think they’d be able to engage in weight lifting. Jimmy, it was great to chat with you today. Thanks so much for taking the time to sit down and work with me here!
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You can find more information on Jimmy and Progressive Performance Strength and Fitness at https://www.progressiveperformance.com/
Woodinville, WA 98072
Squat Depth
By: Jordan Bork, PT, DPT, CSCS
Squat Depth: A Physical Therapist’s Perspective
One of the most debated topics in the weight lifting world is that of squat depth. At most gyms you will see everything from mini-knee bends, to “A*s to Grass” squatting. So how do you know how deep is deep enough?
Anatomy and Biomechanics:
As per usual, let’s cover a quick lesson in anatomy and biomechanics before we dive into the debate.
The classic barbell squat primarily works your gluteal and quadriceps muscle groups. Together with the hamstrings, calves, abductors and adductors, the body works to control the weight as you descend and ascend throughout the lift. Because of its large compound movement the squat it is often considered a full body work out and one of the 3 major lifts (along with deadlifts and bench press).
During the lowering (eccentric) phase of a squat several of your muscles contract as they elongate to control the speed at which you descend. At the hips, the gluteals and hamstrings work to prevent rapid hip flexion. At the knees, the quadriceps serve to slow down the amount of knee bend you have, and at your feet the calf muscles work to control how much dorsiflexion occurs at your ankles. During the upward (concentric) phase of a squat the same muscles are engaged again. This time they activate in the opposite manor, meaning that they shorten as you stand up. The gluteals and hamstrings work to straighten your hips, the quadriceps activate to extend the knees, and the calf muscles work to push into the ground.
In addition to muscular activation and strength, several anatomic factors impact the squat. Core strength, hip mobility and bone structure all dictate your ideal form. You must be able to correctly stabilize the spine as you move through your squat by keeping the low back in a neutral position. This means the low back should be relatively straight and not rounded, curved or arched. Hip mobility plays a key role in achieving lower positions at the bottom of a squat. The amount of rotation throughout your lower leg dictates how wide your stance should be and ankle mobility affects how far down you can move before your heels come off the ground.
Personal Differences: So what do you do?
Your body is the only one that can truly answer the question of how far down you should be squatting. Don’t get too caught up when someone tells you to never go past 90 degrees or to always squat butt to the ground. You should be squatting as low as you can while maintaining a tight core and a neutral back. Once you feel your pelvis tilt backwards and your lower back flatten, you have gone too far. Everyone’s breaking point may be slightly different. For example, individuals with relatively long legs compared to their torso will have a difficult time keeping their weight on their heels, making it harder to go past parallel without rounding the back.
As for those who advocate squatting to the floor, I would caution that you should go as low as your form allows. Studies have found that the quadriceps muscle contracts with high levels of activity at 90 degrees of knee bend. This means that if you are going excessively deep in hopes of working a larger range of motion (ROM), the potential gains might not be much more than stopping at parallel. It certainly means that the risk vs. the reward of squatting lower than your form allows probably isn’t worth it.
You should also be aware that even if your form is perfect, squatting greatly increases the stress and compression placed upon your knees and spine. This is because the nature of the movement redirects force vectors and places your muscles at a mechanical disadvantage, requiring them to overcome forces much greater than the poundage on the bar. Individuals with hip, knee, or low back conditions should place extra consideration into whether or not squatting is the ideal form of strengthening for them.
Bottom Line
Squat as low as your form allows. There is no single correct depth that everyone should be squatting to. Personal factors such as hip mobility and core strength impact the ideal squat depth. If you are unsure how to analyze your squat form than keep a couple things in mind. Throughout the motion you should keep a tight core and maintain a neutral spine position. This means having no curve or bend in the low back. If you feel your hips/pelvis dipping forward or backward you likely have gone too far. If you are reading this in attempt to find a quick guideline for your lifts, without assessment of your technique then I would recommend you squat to 90 degrees of knee bend. This will help prevent form breakdown and avoid placing excessive stress through the low back while still providing you adequate ROM for significant strength gains.
Side Notes:
Common Technique pitfalls while squatting:
Valgus Collapse of the Knees:
Valgus collapse is the inward bending of the knees as if they were moving together into a “knock- kneed” position. This often occurs when the lateral hip muscles are not strong enough to stabilize the weight you are squatting and as a result your knees tip inward while the gluteus medius is overpower. I often see this technical error at the sticking point (or bottom) of a squat right as the person is pushing into the ground to return to the standing position.
Anterior Translation of the Knees:
Translation of the knees over the toes means that your knees are moving too far forward out over your toes as you go into the low position of a squat. This usually occurs when you are not sitting your buttock backward enough or you are placing too much weight through the balls of your feet. Keep your heels on the ground and your weight placed through the back half of your foot throughout your squats.
Overall, you should be putting those gym mirrors to good use. Don’t just admire your biceps in between sets; observe your knees as you go down into the squat. Don’t let them dive inwards or move out past your toes. If you are unable to consistently do this than lower your weight to a resistance level you can.
To learn more on weight lifting and strength training keep an eye out for upcoming articles on the Lake Washington Physical Therapy website.
Weight Lifting Belts: A Physical Therapist’s Perspective
By: Jordan Bork, PT, DPT, CSCS
It is no secret that spinal health can make or break (pun intended) an individual’s overall life quality. I believe if you are investing precious time in the gym you should be doing it safely and in the most efficient way possible. For this reason I set out to answer two questions: Do you need a weight lifting belt, and if so, when should you use it?
Anatomy And Biomechanics:
Before we discuss the concept of a lifting belt you should have a brief understanding of the human body and the biomechanics behind spinal stabilization.
Functionally the human “core” is made up of several muscles that act to stabilize the spine throughout movement. For simplicities sake, we will focus on the group as a whole with an emphasis on the deep core muscles such as the Transversus Abdominis (TA). Attaching to the tissue at the center of your stomach near the belly button, the TA runs down towards your groin and then out and around your back. You can picture it as a corset or a wide belt. When contracted the TA functions to provide stability to the lower segments of your spine by compressing the contents of the abdominal cavity and increasing the tension throughout the muscular fascia that runs along the base of your spine. This is important because as you lift weights you want your spine to sit still, and not slide around under the external force of your work out. If you have weak core musculature than your spine is at an increased risk of excessive curvatures and harmful intervertebral movement.
Similar to other muscles, the Trasnversus Abdominis can be strengthened by actively contracting it. Just as doing bicep curls helps to grow your biceps, abdominal contraction while lifting, moving and during everyday life can help to grow your core strength.
Pro’s And Con’s of the Weight Lifting Belt
The good, The bad, and the strong.
Pro’s Include:
Supplying the core muscles with external assistance in their contraction towards the spine
Providing proprioceptive feedback to the muscles of the core, enhancing their contraction
Preventing excessive spinal curving or arching during a lift
Con’s Include:
Overuse resulting in:
Reduced training of the abdominal musculature that occurs with self-bracing and helps to improve overall core strength
Physical/Mental reliance on an external support system that will not always be accessible in life outside of the gym
Decreased contraction of your bodies own stabilizing belt, the core musculature
Bottom Line
My personal suggestions for who should wear a weight lifting belt, and when they should wear it.
WHO Should use it?
Beginning weight lifters: No.
Novice lifters should focus on technique. You should not be maxing out or performing exercises to fatigue that will result in form breakdown
You have lots to gain from focusing on core stability throughout all workouts, therefore providing your abdominal muscles with the stimulus they need for growth
Moderately experienced lifters: No.(For the most part)
You too have more to gain from focusing on core stability throughout the lift than by belting up for 1 or 2 extra reps
Experienced weight lifters: Yes. (If lifting heavy)
By now you are likely lifting at or near your max and will benefit from the supplemental stability of a belt
You can improve your heavy lifts by focusing more intently on form and specific muscle activation rather than focusing on solid core contraction
WHEN you should use it:
When performing maximal or near maximal lifts for muscle groups that directly impact the spine
Examples: Squats, Dead Lifts, Power Cleans, Snatches
Caveat: Some may benefit from wearing a belt even when performing a lift that does not directly impact the spine, such as while benching (see the side note section below)
When performing lifts for duration where fatigue and form break down are inevitable. Yes, that means you cross fitters!!!
If the WOD has you performing high volume exercises with little rest such as squats and deadlifts you should be wearing a belt. This is because even the most experienced lifters who are conscious of technique will begin to have decreased core contraction and form breakdown with endurance related activities and AMRAP exercises
When advised by your medical professional due to issues with spinal instability
Common Sense!
When you DO NOT need it:
When lifting accessory muscle groups
Simply put, the further away the target muscle is from the center of your body, the less you need a belt
Examples: Training of the biceps, triceps, shoulders and calves
When specifically targeting work outs for the back musculature
The core functions to stabilize your spine, AKA the back. So why not train the entire back and get a core work out while performing those lat pull downs?
Side Notes:
Bench Pressing and Belts:
Some would argue that if you are attempting your max during a bench press you should be utilizing an arched back in order to shorten the bench stroke, decrease the required range of motion and to prevent excessive internal rotation of the shoulders
If you are utilizing this technique, you may benefit from a lifting belt to help stabilize the lower spine as it arches backward toward the bench
No Belt, No Problem:
Individuals lifting heavy weight may reasonably choose to never wear a lifting belt if they have built up enough core strength to properly stabilize the spine throughout their exercise. Many successful Olympic style weightlifters choose to never wear a belt
In Conclusion:
A weight lifting belt serves to stabilize the spine throughout movement by enhancing your core contraction and increasing the pressure around your low back. It does not completely replace the need for active core contraction.
A lifting belt is a tool, and like many tools it can be used or misused. If you are training muscle groups that directly impact your spine at close to maximal weight or high volume, than you should wear a weight lifting belt.
If you aren’t doing either of those, then do yourself a favor and put those precious gym hours to their maximal use. Don’t use a belt, keep your abdominals tight, and get your arms and legs ready for beach season while simultaneously training your core!
To learn more on the core musculature, how to contract/strengthen it, and on topics such as the valsavla maneuver keep an eye out for our upcoming articles.