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Transverse plane etiketine sahip kayıtlar gösteriliyor. Tüm kayıtları göster
Transverse plane etiketine sahip kayıtlar gösteriliyor. Tüm kayıtları göster

Channel Your Inner Athlete with Agility Training



Whether you're an athlete, or just someone who wants to get in shape, fitness is, to me, about adaptability. Our workouts should help us become more resilient to the world around us. A potentially injurious situation can be avoided when you have the adequate strength and stability. Agility is one such trait that prepares us better for multiplanar movement.

This little guy is quite the athlete...

By definition, the word "agility" connotes changing directions with ease. An athlete who is particularly agile can more easily bob and weave around his opponents on the field. For others, someone who is more agile can avoid injuries like knee and ankle sprains, or broken bones. Adding more agility work into your training can improve overall athletic skills and minimize traumatic injuries.

Sports require that an athlete can cut corners, accelerate and decelerate quickly. Football, soccer, and tennis are just a few sports where agility is exceptionally helpful. Successful athletes need to move well in all three planes of motion (as depicted in the photo on the left). Developing movement in the transverse plane is especially important in sport.

One study on male college students found that agility training increased muscular power. "To enhance explosive muscle power and dynamic athletic performance, complex agility training can be used. Therefore, in addition to the well known training methods such as resistance training and plyometric training, strength and conditioning professionals may efficiently incorporate agility training into an overall conditioning programme of athletes striving to achieve a high level of explosive leg power and dynamic athletic performance." In order to excel in any sport, developing your agility is a must!

Injury prevention routines ensure that athletes don't miss out on weeks or months of training. Agility protocols are effective in avoiding contact injuries like ACL or MCL tears, which could potentially keep you benched for an entire season. "Multifaceted intervention studies that have included balance training along with jumping, landing and agility exercises have resulted in a significant decrease in ankle or knee injuries in team handball, volleyball and recreational athletes."

The benefits of agility training are not limited to the athletic population. For example, Liu-Ambrose et. al. performed a study on "98 women aged 75–85 years with low bone mass." The goal of the study was to improve balance, and hopefully reduce the incidence of falling, in geriatric women who suffer from osteopenia (which precedes osteoporosis). The ladies were either assigned to do resistance training, stretching, or agility training. "Both resistance training and agility training significantly improved balance confidence by 6% from baseline after 13 weeks ... This change in balance confidence was significantly correlated with change in general physical function." Once these women developed the requisite strength and agility, they were able to improve proprioception (limb awareness), and, thus, find a new sense of confidence in balancing-related tasks.

If you're looking for some exercise ideas to help you become more agile, here are a few of my favorites:
  1. Diagonal sprints
  2. High knee carioca (ideal for warm-ups)
  3. SAQ ladder drills
  4. T-drill or 4 cone drill
  5. Speed skaters
  6. Hurdle drills
  7. Rebound jumps
  8. Pro agility drill
Overall, shuffling, back pedaling, twisting, and cutting movements are great tools to improve your agility level.

Becoming more agile can minimize your risk of falling, while simultaneously maximizing your athletic performance.


Works Cited:

  1. Griffin, Letha Y. Etty. "Neuromuscular Training and Injury Prevention in Sports." Clinical Orthopaedics and Related Research 409 (2003): 53-60. Web.
  2. Hrysomallis, Con. "Relationship Between Balance Ability, Training and Sports Injury Risk." Sports Medicine 37.6 (2007): 547-56. Web.
  3. Jukić, Igor, Luka Milanović, Javier Sampedro Molinuevo, Darija Omrčen, and Goran Sporiš. "THE EFFECT OF AGILITY TRAINING ON ATHLETIC POWER PERFORMANCE." (2010): n. pag. Print.
  4. Liu-Ambrose, T., K.m. Khan, J.j. Eng, S.r. Lord, and H.a. Mckay. "Balance Confidence Improves with Resistance or Agility Training." Gerontology 50.6 (2004): 373-82. Web.
  5. Wojtys, E. M., L. J. Huston, P. D. Taylor, and S. D. Bastian. "Neuromuscular Adaptations in Isokinetic, Isotonic, and Agility Training Programs." The American Journal of Sports Medicine 24.2 (1996): 187-92. Web.

A Guide to Better Oblique Training: The Transverse Plane

Humans have the capacity to move freely and seamlessly through three different planes of motion: the sagittal plane, the frontal plane, and the transverse plane. Many strength programs utilize several different exercises in the first two (sagittal and frontal) planes, but neglect the transverse plane altogether. In order to perform well across a broad range of tasks, we must prepare our bodies for movements in all three planes. The transverse plane employs the smaller, stabilizer muscles, rather than the big prime movers. It is is equally important (if not more important) to focus on the development of these stabilizer muscles as that of the bigger muscle groups.

Chill with the side raises and try some new exercises.
CrossFitters, bodybuilders, Strongmen weightlifters and powerlifters become tremendously strong in the sagittal and frontal planes as the result of their training, but movements like burpees or barbell curls will do virtually nothing to strengthen rotational movements. The obliques, and their synergists, work to laterally flex the spine. The prime action of the internal and external obliques, however, is spinal rotation. A thrower of any sort will have extremely powerful obliques (on one side, at least). An athlete who predominantly participates in one of the aforementioned sports should incorporate more exercises in the transverse plane into his routine.

Enter the transverse plane. Rotational movements are very common in everyday life and in sport. Anytime we stop short and turn around, or any time we have to stabilize ourselves on one side (e.g. single leg Romanian deadlift) we are moving in the transverse plane. For athletes who participate in sports like tennis, soccer, baseball or tennis, adequate training in the transverse plane is crucial in order to perform well and prevent injury.

A study in 2008 published in the Journal of Orthopaedic Sports Physical Therapy found that individuals who had decreased function in the muscles responsible for movement in the transverse plane experienced a greater strain on their achilles tendons while running.

Training in the transverse plane may also be beneficial in preventing ACL (anterior cruciate ligament) injuries. According to orthopedist Dr. Boden, "young women are two to eight times more likely than their male counterparts to injure [the ACL]." A study in 2003 attempted to find out why this is the case. Researchers carefully analyzed the gaits and knee angles 20 female recreational runners. They found that the female group's hip and knee mechanics in the transverse plane were vastly different from those of the male group. The necessary protocol, researchers concluded, was a training program to develop strength of the lower extremities, with particular focus on strengthening external rotation.

Image of the Functional Line from Thomas Myers's "Anatomy Trains"


While squats, deadlifts, and shoulder presses are all fabulous exercises for increasing strength, those will only get you so far. If you're serious about improving your athletic performance and you want to avoid injury (which I would imagine you do), then add some exercises in the transverse plane into your routine. So what type of exercise can you do in the transverse plane? Any single limb exercise will work wonders: single arm shoulder presses, single leg Romanian deadlifts, single leg squats, single arm push-ups, and so on. In all of these exercises, your stabilizer muscles are working hard to prevent you from rotating or falling over. Jumps in which the athlete much change direction in the air are also beneficial, as this directly mirrors the demands of many sports. Last, but not least, are the "chopping" movements. Get creative here! You can use cables to resemble chopping wood, or you can actually chop some wood! Use a sledgehammer and hit a tire or stand sideways and throw a medicine ball at a wall. All of these exercises will make your stabilizer muscles (your obliques, your gluteus medius, your piriformis, and so on) fire like crazy.

Now, you might be wondering what type of movements you can do in this plane. Here are some of my favorites:

  1. Single leg Romanian deadlifts (preferably barefoot)
  2. Turkish get-ups
  3. Cable chop (upper to lower)
  4. Cable chop (lower to upper)
  5. Sledge hammer chops
  6. Lateral medicine ball throws
  7. Single arm overhead squats
  8. Punches or kicks on a punching bag
  9. Zig zag sprints
  10. Single leg 180 degree jumps


A good training program is one that is all inclusive, and machines can only get you so far. If you utilize exercises in the transverse plane at least 1-2 times you week will you take your training to the next level and simultaneously prevent injury. Remember: just because you can't see a muscle in the mirror doesn't mean you don't need to activate it and strengthen it!



Works Cited:

  1. Lafiandra, M., K.g Holt, R.c Wagenaar, and J.p Obusek. "Transverse Plane Kinetics during Treadmill Walking with and without a Load." Clinical Biomechanics 17.2 (2002): 116-22. Web.
  2. Myers, Thomas W. Anatomy Trains: Myofascial Meridians for Manual and Movement Therapists. Edinburgh: Churchill Livingstone, 2001. Print.
  3. Nyland, J. A., D. N. M. Caborn, R. Shapiro, and D. L. Johnson. "Fatigue after Eccentric Quadriceps Femoris Work Produces Earlier Gastrocnemius and Delayed Quadriceps Femoris Activation during Crossover Cutting among Normal Athletic Women." Knee Surgery, Sports Traumatology, Arthroscopy 5.3 (1997): 162-67. Web.
  4. Shimokochi, Yohei, and Sandra J. Shultz. "Mechanisms of Noncontact Anterior Cruciate Ligament Injury." Journal of Athletic Training 43.4 (2008): 396-408. Web.