Sports Spine Specialist Chiropractic Team: Athletes strive to achieve their body’s maximum performance by participating in numerous training regimens consisting of strenuous exercises and physical activity and ensuring they meet all of their body’s nutritional requirements. Through proper fitness and nutrition, many individuals can condition themselves to excel in their specific sport. Our training programs are designed for athletes that look to gain a competitive edge in their sport.
We provide sport-specific services to help increase an athlete’s performance through mobility, strength, and endurance. Occasionally, however, the excess workouts can lead many to suffer injuries or develop underlying conditions. Dr. Alex Jimenez’s chronicle of articles for athletes displays in detail the many forms of complications affecting these professionals while focusing on the possible solutions and treatments to follow to achieve overall well-being.
Individuals trying to get and stay in shape can find it difficult to get a regular workout. Can jumping rope help when there is no time?
Jumping Rope
Jumping rope can be a highly cost-effective exercise to incorporate high-intensity cardiovascular fitness into a workout routine. It is inexpensive, efficient, and done properly can improve cardiovascular health, improve balance and agility, increase muscular strength and endurance, and burn calories. (Athos Trecroci, et al., 2015)
Jumping rope can be utilized in interval training to keep the heart rate elevated and allow the muscles to rest in between weight lifting and other intense exercises.
A jump rope can be used when traveling as its portability makes it a top piece of workout gear.
It can be combined with bodyweight exercises for a dependable and portable exercise routine.
Benefits
Jumping rope is a medium-impact exercise with benefits that include:
Improves balance, agility, and coordination
Builds stamina and foot speed for coordination, agility, and quick reflexes.
Variations include one-leg jumping and double unders or with each jump, the rope goes around twice to add difficulty.
Builds Fitness Fast
Burns calories
Depending on skill level and jumping rate, individuals can burn 10 to 15 calories a minute by jumping rope.
Faster rope jumping can burn calories similar to running.
Precautions
For individuals who have high blood pressure, jumping rope may not be recommended. The downward arm position can reduce blood circulation back to the heart which can further increase blood pressure. Studies have shown that jumping at a moderate intensity is beneficial for individuals who are pre-hypertensive. (Lisa Baumgartner, et al., 2020) Individuals with hypertension and/or a heart condition, are recommended to discuss the potential risks with their doctor before beginning a new exercise routine.
Choosing a Rope
Jump ropes are available and made from various materials and come with different handles.
Some of these materials help jump ropes spin faster with a smooth motion.
Some options have a swivel action between the cords and handles.
The rope you buy should be comfortable to hold and have a smooth spin.
Weighted jump ropes can help develop upper body muscle tone and endurance. (D. Ozer, et al., 2011) These ropes are not for beginners and are not necessary for an agility workout.
For individuals who want a weighted rope, be sure the weight is in the rope and not the handles to prevent straining the wrists, elbows, and/or shoulders.
Size the rope by standing on the center of the rope
Pull the handles up along the sides of the body.
For beginners, the handles should just reach the armpits.
As the individual’s skills and fitness develop, the rope can be shortened.
A shorter rope spins faster, forcing more jumps.
Technique
Following proper technique will ensure a more safe and effective workout.
Start slowly.
The proper jumping form keeps the shoulders relaxed, elbows in, and slightly bent.
There should be very few upper-body movements.
The majority of the turning power and motion come from the wrists, not the arms.
During jumping, keep the knees slightly bent.
Bounce softly.
The feet should leave the floor just enough to allow the rope to pass.
Land softly on the balls of the feet to avoid knee injuries.
It is not recommended to jump high and/or land hard.
Jump on a surface that is smooth and free of obstacles.
Wood, a sports court, or a rubberized mat are recommended.
Warming Up
Before beginning jumping rope, do a light, 5 to 10-minute warm-up.
This can include walking or jogging in place, or slow-paced jumping.
Increase Time and Intensity Gradually
The exercise can be relatively intense and high-level.
Start slowly and increase gradually.
An individual might try three 30-second sets at the end of a routine workout for the first week.
Depending upon fitness level, individuals may feel nothing or some slight soreness in the calf muscles.
This can help determine how much to do for the next jump rope session.
Gradually increase the number of sets, or the duration, over several weeks until the body can go for about ten minutes of continuous jumping.
One way is to jump after each weight-lifting set or other circuit exercise – like adding jumping for 30 to 90 seconds in between exercise sets.
Both feet slightly lift off from the ground and land together.
Alternate foot jump
This uses a skipping step.
This allows landing more prominently on one foot after each spin.
Running step
A slight jog is incorporated while jumping.
High step
A moderate pace with a high knee raise increases intensity.
Rope jumping is a great addition to an interval training or cross-training routine that creates an efficient whole-body workout that incorporates both cardiovascular endurance and muscular strength.
Overcoming ACL Injury
References
Trecroci, A., Cavaggioni, L., Caccia, R., & Alberti, G. (2015). Jump Rope Training: Balance and Motor Coordination in Preadolescent Soccer Players. Journal of sports science & medicine, 14(4), 792–798.
Baumgartner, L., Weberruß, H., Oberhoffer-Fritz, R., & Schulz, T. (2020). Vascular Structure and Function in Children and Adolescents: What Impact Do Physical Activity, Health-Related Physical Fitness, and Exercise Have?. Frontiers in pediatrics, 8, 103. doi.org/10.3389/fped.2020.00103
Ozer, D., Duzgun, I., Baltaci, G., Karacan, S., & Colakoglu, F. (2011). The effects of rope or weighted rope jump training on strength, coordination and proprioception in adolescent female volleyball players. The Journal of sports medicine and physical fitness, 51(2), 211–219.
Van Hooren, B., & Peake, J. M. (2018). Do We Need a Cool-Down After Exercise? A Narrative Review of the Psychophysiological Effects and the Effects on Performance, Injuries and the Long-Term Adaptive Response. Sports medicine (Auckland, N.Z.), 48(7), 1575–1595. doi.org/10.1007/s40279-018-0916-2
How can spinal decompression reduce pain while restoring spinal flexibility in many individuals with lumbar degenerative disorders?
Introduction
As we naturally age, so do our spines and spinal discs, as the natural fluids and nutrients stop hydrating the discs and cause them to degenerate. When disc degeneration starts to affect the spine, it can cause pain-like symptoms in the lumbar regions, which then develop into lower back pain or other musculoskeletal disorders that affect the lower extremities. When disc degeneration starts to affect the lumbar region, many individuals will notice that they are not as flexible as when they were younger. The physical signs of straining their muscles from improper lifting, falling, or carrying heavy objects can cause muscle strain and pain. When this happens, many individuals will treat the pain with home remedies, which can provide temporary relief but can aggravate it more when people make repetitive motions to their lumbar spine, which can result in injuries. Fortunately, non-surgical treatments that can help slow down the process of disc degeneration while rehydrating the spinal disc. Today’s article looks at why disc degeneration affects lumbar flexibility and how treatments like spinal decompression reduce disc degeneration while restoring lumbar flexibility. Coincidentally, we communicate with certified medical providers who incorporate our patients’ information to provide various treatment plans to reduce the disc degeneration process and provide pain relief. We also inform them that there are non-surgical options to reduce the pain-like symptoms associated with disc degeneration and help restore lumbar flexibility. We encourage our patients to ask amazing educational questions to our associated medical providers about their symptoms correlating with body pain in a safe and positive environment. Dr. Alex Jimenez, D.C., incorporates this information as an academic service. Disclaimer
How Does DDD Affect Lumbar Flexibility?
Have you been experiencing stiffness in your back when you wake up in the morning? Do you feel muscle aches and pains when bending down and picking up heavy objects? Or do you feel radiating pain in your legs and back? When many individuals are in excruciating pain, many don’t often realize that their lower back pain could also be associated with their spinal disc degenerating. Since the spinal disc and the body can degenerate naturally, it can lead to the development of musculoskeletal disorders. DDD, or degenerative disc disease, is a common disabling condition that can greatly impact the musculoskeletal system and is the main cause of individuals missing out on their daily activities. (Cao et al., 2022) When normal or traumatic factors begin to cause repetitive motions to the spine, it can cause the spinal disc to be compressed and, over time, degenerate. This, in turn, causes the spine to be less flexible and becomes a socio-economic challenge.
When disc degeneration starts to cause spinal inflexibility, it can lead to the development of low back pain. Since low back pain is a common health concern, it can affect many individuals worldwide, as disc degeneration is a common factor. (Samanta et al., 2023) Since disc degeneration is a multi-factorial disorder, the musculoskeletal and organ systems are also affected as it can cause referred pain to different body locations. Luckily, many individuals can find the treatment they are looking for, as many seek relief from the many pain issues that disc degeneration has caused.
Lumbar Spine Injuries In Athletes- Video
Since disc degeneration is a multi-factorial cause of disability, it can become a primary source of back pain. When normal factors contribute to back pain, it likely correlates with disc degeneration and can cause cellular, structural, compositional, and mechanical changes throughout the spine. (Ashinsky et al., 2021) However, many individuals seeking treatment can look into non-surgical therapies as they are cost-effective and safe on the spine. Non-surgical treatments are safe and gentle on the spine as they can be customizable to the person’s pain and combined with other treatment forms. One of the non-surgical treatments is spinal decompression, which uses gentle traction on the spine to rehydrate the spinal disc from degeneration and help kick-start the body’s natural healing process. The video above shows how disc degeneration is correlated with disc herniation and how these treatments can reduce its pain-like effects on the spine.
Spinal Decompression Reducing DDD
When many individuals are going in for treatment for disc degeneration, many will often try spinal decompression as it is affordable. Many healthcare professionals will assess the individual by creating a personalized plan before entering the traction machine. Many individuals will get a CT scan to assess the changes caused by DDD. (Dullerud & Nakstad, 1994) This determines how severe the disc space is. The traction machine for spinal decompression determines the optimal treatment duration, frequency, and mode of administrating traction to the spine to reduce DDD. (Pellecchia, 1994) Additionally, the efficiency of traction from spinal decompression can help many people with low back and provide relief. (Beurskens et al., 1995)
References
Ashinsky, B., Smith, H. E., Mauck, R. L., & Gullbrand, S. E. (2021). Intervertebral disc degeneration and regeneration: a motion segment perspective. Eur Cell Mater, 41, 370-380. doi.org/10.22203/eCM.v041a24
Beurskens, A. J., de Vet, H. C., Koke, A. J., Lindeman, E., Regtop, W., van der Heijden, G. J., & Knipschild, P. G. (1995). Efficacy of traction for non-specific low back pain: a randomised clinical trial. Lancet, 346(8990), 1596-1600. doi.org/10.1016/s0140-6736(95)91930-9
Cao, G., Yang, S., Cao, J., Tan, Z., Wu, L., Dong, F., Ding, W., & Zhang, F. (2022). The Role of Oxidative Stress in Intervertebral Disc Degeneration. Oxid Med Cell Longev, 2022, 2166817. doi.org/10.1155/2022/2166817
Dullerud, R., & Nakstad, P. H. (1994). CT changes after conservative treatment for lumbar disk herniation. Acta Radiol, 35(5), 415-419. www.ncbi.nlm.nih.gov/pubmed/8086244
Pellecchia, G. L. (1994). Lumbar traction: a review of the literature. J Orthop Sports Phys Ther, 20(5), 262-267. doi.org/10.2519/jospt.1994.20.5.262
Samanta, A., Lufkin, T., & Kraus, P. (2023). Intervertebral disc degeneration-Current therapeutic options and challenges. Front Public Health, 11, 1156749. doi.org/10.3389/fpubh.2023.1156749
Can healthcare professionals help individuals with spinal pain by incorporating non-surgical spinal decompression to restore mobility?
Introduction
Many individuals don’t realize that putting unwanted pressure on their spines can lead to chronic pain within their spinal discs that is affecting their spinal mobility. This usually happens with demanding jobs requiring individuals to carry heavy objects, step wrong, or be physically inactive, which causes the surrounding back muscles to be overstretched and leads to referred pain that affects the upper and lower body portions. This can cause individuals to go to their primary doctors to get treated for back pain. This leads to them missing out on their busy work schedules and paying a high price to get treated. Back pain correlating with spinal issues can be a huge problem and make them feel miserable. Fortunately, numerous clinical options are cost-effective and personalized to many individuals dealing with spinal pain that is causing them to find the relief they deserve. Today’s article focuses on why spinal pain affects many people and how spinal decompression can help reduce spinal pain and restore spinal mobility. Coincidentally, we communicate with certified medical providers who incorporate our patients’ information to provide various treatment plans to reduce spinal pain affecting their backs. We also inform them that there are non-surgical options to reduce the pain-like symptoms associated with spinal issues in the body. We encourage our patients to ask amazing educational questions to our associated medical providers about their symptoms correlating with body pain in a safe and positive environment. Dr. Alex Jimenez, D.C., incorporates this information as an academic service. Disclaimer
Why Spinal Pain Is Affecting Many People?
Have you often experienced pain from your back muscles that seem to ache after bending down constantly to pick up objects? Do you or your loved ones feel muscle stiffness in the back and experience numbness in your upper or lower body portions? Or are you experiencing temporary relief after stretching your back muscles, only for the pain to return? Many individuals with back pain never realize that their pain is within their spinal column. Since the spine is an S-curve shape with three different regions in the body, the spinal discs within each spinal segment can become compressed and become misaligned over time. This causes degenerative changes within the spine and can cause the three different spinal regions to develop pain-like issues in the body. When several environmental factors start to be the causes of degeneration of the spinal discs, it can affect the spinal structure. It can become a strong influence affecting their function, predisposing the disc to injuries. (Choi, 2009) At the same time, this can cause a significant impact when getting treated due to its high cost and can start normal age-related changes that cause pathophysiological issues to the vertebral body. (Gallucci et al., 2005)
When many individuals are dealing with spinal pain associated with herniated discs, it can not only cause discomfort but also mimic other musculoskeletal disorders that can cause radiating pain to different locations in the body. (Deyo et al., 1990) This, in turn, causes individuals to suffer constantly and research various treatments to reduce the pain they are experiencing. When spinal pain affects most individuals, many will seek cost-effective therapies to ease the pain they are experiencing and to be mindful of the daily habits they adopt over time and correct them.
Spinal Decompression In-Depth- Video
Do you often feel constant muscle aches and pains in your body that are your general areas of complaint? Do you feel your muscles pull uncomfortably after lifting or carrying a heavy object? Or do you feel constant stress in your neck, shoulders, or back? When many individuals are dealing with general pain, they often assume that it is just back pain when it could be a spinal issue that can be the root cause of the pain they are experiencing. When this happens, many individuals opt for non-surgical treatments due to its cost-effectiveness and how it can be personalized depending on the severity of the pain. One of the non-surgical treatments is spinal decompression/traction therapy. The video above gives an in-depth look at how spinal decompression can help reduce spinal pain associated with low back pain. Spinal pain can increase with age and be provoked by extreme lumbar extension, so incorporating spinal decompression can help reduce pain in the upper and lower extremities. (Katz et al., 2022)
How Spinal Decompression Can Reduce Spinal Pain
When individuals develop spinal issues, spinal decompression can help restore the spine to its original position and help the body naturally heal itself. When something is out of place within the spine, it is important to naturally restore it to its proper place to allow the affected muscles to heal. (Cyriax, 1950) Spinal decompression uses gentle traction to pull the spinal joints to let the spinal disc back in its original position and help increase fluid intake back in the spine. When people start incorporating spinal decompression into their health and wellness routine, they can reduce their spinal pain after a few consecutive treatments.
Spinal Decompression Restoring Spinal Mobility
Spinal decompression can also be incorporated with other non-surgical treatments to restore spinal mobility. When pain specialists utilize spinal decompression within their practices, they can help treat various musculoskeletal conditions, including spinal disorders, to allow the individual to regain spinal mobility. (Pettman, 2007) At the same time, pain specialists can use mechanical and manual manipulation to reduce the pain the individual feels. When spinal decompression starts to use gentle traction on the spine, it can help minimize radical pain correlated with nerve entrapment, create negative pressure within the spinal sections, and relieve musculoskeletal disorders causing pain. (Daniel, 2007) When people start thinking more about their health and wellness to reduce their pain, spinal decompression can be the answer through a personalized plan and can help many individuals find the relief they deserve.
References
Choi, Y. S. (2009). Pathophysiology of degenerative disc disease. Asian Spine Journal, 3(1), 39-44. doi.org/10.4184/asj.2009.3.1.39
Daniel, D. M. (2007). Non-surgical spinal decompression therapy: does the scientific literature support efficacy claims made in the advertising media? Chiropr Osteopat, 15, 7. doi.org/10.1186/1746-1340-15-7
Deyo, R. A., Loeser, J. D., & Bigos, S. J. (1990). Herniated lumbar intervertebral disk. Ann Intern Med, 112(8), 598-603. doi.org/10.7326/0003-4819-112-8-598
Gallucci, M., Puglielli, E., Splendiani, A., Pistoia, F., & Spacca, G. (2005). Degenerative disorders of the spine. Eur Radiol, 15(3), 591-598. doi.org/10.1007/s00330-004-2618-4
Katz, J. N., Zimmerman, Z. E., Mass, H., & Makhni, M. C. (2022). Diagnosis and Management of Lumbar Spinal Stenosis: A Review. JAMA, 327(17), 1688-1699. doi.org/10.1001/jama.2022.5921
For individuals with a broken collarbone, can conservative treatment help in the rehabilitation process?
Broken Collarbone
Broken collarbones are very common orthopedic injuries that can occur in any age group. Also known as the clavicle, it is the bone over the top of the chest, between the breastbone/sternum and the shoulder blade/scapula. The clavicle can be easily seen because only skin covers a large part of the bone. Clavicle fractures are extremely common, and account for 2% – 5% of all fractures. (Radiopaedia. 2023) Broken collarbones occur in:
Babies – usually during birth.
Children and adolescents – because the clavicle does not fully develop until the late teens.
Athletes – because of the risks of being hit or falling.
Through various types of accidents and falls.
The majority of broken collarbones can be treated with nonsurgical treatments, usually, with a sling to let the bone heal and physical therapy and rehabilitation.
Sometimes, when clavicle fractures are significantly shifted out of alignment, surgical treatment may be recommended.
There are treatment options that should be discussed with an orthopedic surgeon, physical therapist, and/or a chiropractor.
A broken collarbone is not more serious than other broken bones.
Once the broken bone heals, most individuals have a full range of motion and can return to the activities before the fracture. (Johns Hopkins Medicine. 2023)
Types
Broken clavicle injuries are separated into three types depending on the location of the fracture. (Radiopaedia. 2023)
Mid-Shaft Clavicle Fractures
These occur in the central area which can be a simple crack, separation, and/or fractured into many pieces.
Multiple breaks – segmental fractures.
Significant displacement – separation.
Shortened length of the bone.
Distal Clavicle Fractures
These happen close to the end of the collarbone at the shoulder joint.
This part of the shoulder is called the acromioclavicular/AC joint.
Distal clavicle fractures can have similar treatment options as an AC joint injury.
Medial Clavicle Fractures
These are less common and often related to injury to the sternoclavicular joint.
The sternoclavicular joint supports the shoulder and is the only joint that connects the arm to the body.
Growth plate fractures of the clavicle can be seen into the late teens and early 20s.
The bruising can extend down to the chest and armpit.
Numbness and tingling down the arm.
Deformity of the collarbone.
In addition to swelling, some individuals may have a bump in the place where the fracture occurred.
It can take several months for this bump to fully heal, but this is normal.
If the bump appears inflamed or irritated, inform a healthcare provider.
Clavicular Swelling
When the sternoclavicular joint swells up or gets bigger, it is referred to as clavicular swelling.
It is commonly caused by trauma, disease, or an infection that affects the fluid found in the joints. (John Edwin, et al., 2018)
Diagnosis
At the healthcare clinic or emergency room, an X-ray will be obtained to assess for the specific type of fracture.
They will perform an examination to ensure the nerves and blood vessels surrounding the broken collarbone are unsevered.
The nerves and vessels are rarely injured, but in severe cases, these injuries can occur.
Treatment
Treatment is accomplished either by allowing the bone to heal or by surgical procedures to restore the proper alignment. Some common treatments for broken bones are not used for clavicle fractures.
For example, casting a broken collarbone is not done.
In addition, resetting the bone or a closed reduction is not done because there is no way to hold the broken bone in proper alignment without surgery.
If surgery is an option the healthcare provider looks at the following factors: (UpToDate. 2023)
Location of Fracture and Degree of Displacement
Nondisplaced or minimally displaced fractures are usually managed without surgery.
Age
Younger individuals have an increased ability to recover from fractures without surgery.
Shortening of the Fracture Fragment
Displaced fractures can heal, but when there is a pronounced shortening of the collarbone, surgery is probably necessary.
Other Injuries
Individuals with head injuries or multiple fractures can be treated without surgery.
Patient Expectations
When the injury involves an athlete, heavy job occupation, or the arm is the dominant extremity, there can be more reason for surgery.
Dominant Arm
When fractures occur in the dominant arm, the effects are more likely to be noticeable.
The majority of these fractures can be managed without surgery, but there are situations where surgery can produce better results.
Supports for Non-surgical Treatment
A sling or figure-8 clavicle brace.
The figure-8 brace has not been shown to affect fracture alignment, and many individuals generally find a sling more comfortable. (UpToDate. 2023)
Broken collarbones should heal within 6–12 weeks in adults
3–6 weeks in children
Younger patients are usually back to full activities before 12 weeks.
The pain usually subsides within a few weeks. (UpToDate. 2023)
Immobilization is rarely needed beyond a few weeks, and with a doctor’s clearance light activity and gentle motion rehabilitation usually begins.
Edwin, J., Ahmed, S., Verma, S., Tytherleigh-Strong, G., Karuppaiah, K., & Sinha, J. (2018). Swellings of the sternoclavicular joint: review of traumatic and non-traumatic pathologies. EFORT open reviews, 3(8), 471–484. doi.org/10.1302/2058-5241.3.170078
Tennis requires strength, power, and endurance. Can combining tennis weight training into a player’s fitness regimen that is broken up into phases achieve optimal results?
Tennis Weight Training
In professional sports that utilize weight lifting, the training is often broken up into seasonal phases. (Daniel S Lorenz, Michael P Reiman, John C Walker. 2010) Each phase consists of specific objectives that contribute to and build upon the previous phase. This is known as periodization. Tennis is played year-round indoors and outdoors. This is an example of a tennis weight training program to build up strength.
Pre-Season
In the early pre-season, players prepare to rebuild their strength after a break.
The emphasis is on building functional strength and some muscle.
Late Pre-Season
In late pre-season, players workout to get ready for the start of the season.
Here, the emphasis is on building maximum power.
In Season
In season, regular practice, play, and competition get underway and players are in top condition.
In this phase, strength and power maintenance is the focus.
Season Break
This is when players need to relax for a while.
However, players need to keep active if they want to maintain some level of fitness.
The emphasis is on rest and recovery with the maintenance of light activity, like cross-training and light gym workouts.
Research has shown that taking a break from serious strength training does help the body recover and rebuild. (Daniel Lorenz, Scot Morrison. 2015)
This is a three-phase all-around program.
The first phase concentrates on building basic strength and muscle
The second phase on power delivery.
Players who play year-round can continue with the power program once they build the basics.
Players who take a break for longer than six weeks should start again with the strength program.
Pre-Season – Phase One
Strength and Muscle
The focus is on lifting heavy weights, but not going full force to begin training the nervous system to work with the muscle fibers.
Some muscle building or hypertrophy/building muscle size will happen during strength development.
Strength is the foundation for the power development phase.
Exercises:
Duration: 6-8 weeks
Workout Days: 2-3, with at least one day, however, two are recommended between sessions.
Reps: 8-10
Sets: 2-4
Rest between sets: 1-2 minutes
Barbell squat, dumbbell squat, or sled hack squat
Romanian deadlift
Dumbbell bent-over row
Dumbbell triceps extension or machine pushdown
Cable wood chop
Lat pulldown to the front with a wide grip
Reverse crunch
Things to Remember
Use the Proper Weight
Adjust the weight so that the last reps are heavy but don’t cause a complete failure.
Balance the Lower Half
The posterior chain of the hips, the gluteals/buttocks, the upper legs, and the abdominals are of equal importance and require equal attention. (Eline Md De Ridder, et al., 2013)
Squats and deadlifts build strength and power in this region.
Follow Proper Form
For upper body exercises like the dumbbell press, lat pulldown, and wood chops the proper form needs to be followed.
Keep the forearms in a vertical plane with the upper arms.
Do not extend excessively at the bottom of the movement.
Remember to protect the vulnerable shoulder joint.
Listen to The Body
Strength training is physically and mentally challenging.
Individuals who are not able to recover from a session with only one rest day are recommended to move the program to two sessions per week.
Muscle soreness or delayed onset muscle soreness – DOMS – is normal, however, joint pain is not.
Monitor arm and shoulder reactions during this phase.
Stop if any joint pain or discomfort is felt.
Late Pre-Season – In-Season – Phase Two
Power
Power is the ability to move the heaviest loads in the shortest time and is the combination of strength and speed. In this phase, the player builds on the strength developed in phase one with tennis weight training that will increase the ability to move a load at high velocity.
Power training requires lifting weights at high velocity and with explosiveness.
The body needs to rest adequately between repetitions and sets so that each movement is done as fast as possible.
The number of sets can be less than phase one because there is no point in training at this level when the body is fatigued.
Exercises
Duration: Ongoing
Days per week: 2
Reps: 8 to 10
Sets: 2-4
Rest between repetitions: 10 to 15 seconds
Rest between sets: at least 1 minute or until recovered
Barbell or dumbbell hang clean
Cable push-pull
Cable wood chop
One arm cable raises
Medicine ball push press
Medicine ball standing twist with a partner or alone – 6×15 repetitions fast and recover between sets.
Reminders When Preparing For the Season
Recovery Time
In power training, it’s important that the body has relatively recovered for each repetition and set so that the individual can maximize the movement.
The weights should not be as heavy and the rest periods sufficient.
Push When Possible
Rest is important, at the same time, the player needs to push through reasonably heavy loads to develop power against significant resistance.
When doing medicine ball twists, do a full set at maximum, then sufficiently rest before the next one.
If doing the medicine ball exercises alone, use a lighter ball and keep the ball in your hands while twisting.
In Season – Phase Three
When the season begins training does not stop in order to help maintain strength and power.
Strength and Power Maintenance
Alternate phase one and phase two for a total of two sessions each week.
Every fifth week, skip weight training to achieve optimal recovery.
Key Points
Things to keep in mind during the season.
Avoid Overscheduling
Avoid strength training on the same day when practicing on the court.
If the weight training has to be both on the same day, try to separate the workouts into morning and afternoon sessions.
Plan Time
Rest completely from strength training one week out of every six.
Light gym work is fine.
During the season, use intuition when it comes to working out at the gym.
Individuals with limited time, stick to court skills training instead of tennis weight training.
Off Season
If there is an off-season, this is the time for emotional and physical decompression and full-body recovery.
For several weeks, forget about weight training and do other things.
Stay fit and active with cross-training or other physical activities but keep it light to prevent injuries.
It is recommended to consult a coach, trainer, sports chiropractor, and/or physical therapist to develop a program specific to an individual’s needs, fitness goals, and access to resources.
Spine Injuries In Sports
References
Lorenz, D. S., Reiman, M. P., & Walker, J. C. (2010). Periodization: current review and suggested implementation for athletic rehabilitation. Sports health, 2(6), 509–518. doi.org/10.1177/1941738110375910
Lorenz, D., & Morrison, S. (2015). CURRENT CONCEPTS IN PERIODIZATION OF STRENGTH AND CONDITIONING FOR THE SPORTS PHYSICAL THERAPIST. International journal of sports physical therapy, 10(6), 734–747.
De Ridder, E. M., Van Oosterwijck, J. O., Vleeming, A., Vanderstraeten, G. G., & Danneels, L. A. (2013). Posterior muscle chain activity during various extension exercises: an observational study. BMC musculoskeletal disorders, 14, 204. doi.org/10.1186/1471-2474-14-204
The Q or quadriceps angle is a measurement of pelvic width that is believed to contribute to the risk of sports injuries in women athletes. Can non-surgical therapies and exercises help rehabilitate injuries?
Quadriceps Q – Angle Injuries
The Q angle is the angle where the femur/upper leg bone meets the tibia/lower leg bone. It is measured by two intersecting lines:
One from the center of the patella/kneecap to the anterior superior iliac spine of the pelvis.
The other is from the patella to the tibial tubercle.
On average the angle is three degrees higher in women than men.
Women have biomechanical differences that include a wider pelvis, making it easier to give birth. However, this difference can contribute to knee injuries when playing sports, as an increased Q angle generates more stress on the knee joint, as well as leading to increased foot pronation.
Injuries
Various factors can increase the risk of injury, but a wider Q angle has been linked to the following conditions.
Patellofemoral Pain Syndrome
An increased Q angle can cause the quadriceps to pull on the kneecap, shifting it out of place and causing dysfunctional patellar tracking.
With time, this can cause knee pain (under and around the kneecap), and muscle imbalance.
Foot orthotics and arch supports could be recommended.
Some researchers have found a link, while others have not found the same association. (Wolf Petersen, et al., 2014)
Chondromalacia of the Knee
This is the wearing down of the cartilage on the underside of the kneecap.
An increased Q angle can be a factor that increases stress and causes the knee to lose its stability.
However, this remains controversial, as some studies have found no association between the Q angle and knee injuries.
Chiropractic Treatment
Strengthening Exercises
ACL injury prevention programs designed for women have resulted in reduced injuries. (Trent Nessler, et al., 2017)
The vastus medialis obliquus or VMO is a teardrop-shaped muscle that helps move the knee joint and stabilize the kneecap.
Strengthening the muscle can increase the stability of the knee joint.
Strengthening may require a specific focus on muscle contraction timing.
Closed-chain exercises like wall squats are recommended.
Glute strengthening will improve stability.
Stretching Exercises
Stretching tight muscles will help relax the injured area, increase circulation, and restore range of motion and function.
Muscles commonly found to be tight include the quadriceps, hamstrings, iliotibial band, and gastrocnemius.
Foot Orthotics
Custom-made, flexible orthotics decrease the Q angle and reduce pronation, relieving the added stress on the knee.
A custom orthotic ensures that the foot and leg dynamics are accounted for and corrected.
Motion-control shoes can also help correct overpronation.
Knee Rehabilitation
References
Khasawneh, R. R., Allouh, M. Z., & Abu-El-Rub, E. (2019). Measurement of the quadriceps (Q) angle with respect to various body parameters in young Arab population. PloS one, 14(6), e0218387. doi.org/10.1371/journal.pone.0218387
Petersen, W., Ellermann, A., Gösele-Koppenburg, A., Best, R., Rembitzki, I. V., Brüggemann, G. P., & Liebau, C. (2014). Patellofemoral pain syndrome. Knee surgery, sports traumatology, arthroscopy: Official journal of the ESSKA, 22(10), 2264–2274. doi.org/10.1007/s00167-013-2759-6
Vaienti, E., Scita, G., Ceccarelli, F., & Pogliacomi, F. (2017). Understanding the human knee and its relationship to total knee replacement. Acta bio-medica : Atenei Parmensis, 88(2S), 6–16. doi.org/10.23750/abm.v88i2-S.6507
Mitani Y. (2017). Gender-related differences in lower limb alignment, range of joint motion, and the incidence of sports injuries in Japanese university athletes. Journal of Physical Therapy Science, 29(1), 12–15. doi.org/10.1589/jpts.29.12
Nessler, T., Denney, L., & Sampley, J. (2017). ACL Injury Prevention: What Does Research Tell Us? Current reviews in musculoskeletal medicine, 10(3), 281–288. doi.org/10.1007/s12178-017-9416-5
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. 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. 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. 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. doi.org/10.1007/s12178-018-9454-7
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