Central Effects of Dry Needling

Running is one of the most common and popular methods of fitness in the world, with many cities and communities taking part in establishment of running events from 5k to marathon level and above, to smaller running cohorts, and for social events. However, while running has a high link to overall improved cardiovascular wellbeing, it is also one of the most injury prone athletic populations in world with injury incidence of up to 80%! Fortunately, there are many strategies to help combat and prevent running related injuries for any skill level. TRAIN APPROPRIATELY! As with any other sport, training for the specific demands of running can greatly reduce the risk of injury. The World Health Organization (WHO) recommends a minimum of 150 minutes of moderate-intensity aerobic physical activity or 75 minutes of vigorous-intensity physical activity throughout the week, based on strong evidence of health benefits and reductions upon mortality rates. While many factors influence risk of injury, there are a few significant ones for any running athlete: Type of exercise Find the aerobic exercise that you are passionate about! However, limiting yourself to the same route and same type of run could increase your risk for injury. Cross training with other modes of exercise including strength training or different types of runs could help reduce risk of chronic and acute injury! Exercise frequency and progression Novice runners may benefit from having more days of recovery, especially in the beginning. However, knowing when to progress overall speed, distance, or number of training days can be tricky! Remembering to increase only one variable at a time can help mitigate risk of injury. Exercise intensity and duration Having trouble with determining how intense your run is? Heart rate is an excellent measure of overall cardiovascular output. An easy calculation for determining your Heart Rate maximum is: 220-age As stated prior, recommended minimums for health benefits are 150-300 minutes of moderate intensity, or 75-150 minutes of vigorous intensity per week that typically are broken up into 3-5 days during the week. However, do not let these recommendations deter you from running if you cannot reach them! Calculate using % of Maximum Heart rate, Moderate intensity for aerobic exercise 60-75% of your calculated Heart Rate max; vigorous intensity 75-90% of maximum Heart Rate Equipment Matters! In a recent systematic review of 15 studies there was moderate to strong evidence of higher injury prevalence with persons who had sustained a previous injury, as well as the use of orthotics and the same pair of running shoes for longer than 4-6 months. While there are many different brands and trends within the running shoe and orthotic industry, it is important to note that finding the right pair of shoes for you may take time! Additionally, according to a study on use of multiple shoes during training, results found that there was a 39% decrease in running related injuries over a 22-week period when athletes used at least one more pair of running shoes during the week. Rehab potential 80% of all running injuries are result of overuse or chronic pathology, which may be a result from overtraining or limited tissue adaptations from the amount of load produced on the body during activity. Different types or locations of injury require methods of individualized rehabilitation, and the therapy experts at Evolution Sports Physiotherapy are well versed in the appropriate rehabilitation and progression of any running related injuries. So, whether you are a seasoned runner looking for a full evaluation of running form, or a beginner working towards your first 5K, our approach towards integration of best available evidence within clinical practice and dedication to patient care provides our patients with optimal rehabilitation potential. If you or anyone you know has suffered a running related injury, please contact us via phone at 410-628-0520 or email at chris.mooney@evolutionsportspt.com. We look forward to answering any of your questions and assisting with all of your rehab needs! References 1. Kozlovskaia M, Vlahovich N, Rathbone E, Manzanero S, Keogh J, Hughes DC. A profile of health, lifestyle and training habits of 4720 Australian recreational runners-The case for promoting running for health benefits. Health Promot J Austr. 2019 Apr;30(2):172-179. 2. van der Worp MP, ten Haaf DS, van Cingel R, de Wijer A, Nijhuis-van der Sanden MW, Staal JB. Injuries in runners; a systematic review on risk factors and sex differences. PLoS One. 2015;10(2):e0114937. Published 2015 Feb 23 3. Francis P, Whatman C, Sheerin K, Hume P, Johnson MI. The Proportion of Lower Limb Running Injuries by Gender, Anatomical Location and Specific Pathology: A Systematic Review. J Sports Sci Med. 2019;18(1):21-31. Published 2019 Feb 11 4. Malisoux L, Ramesh J, Mann R, Seil R, Urhausen A, Theisen D. Can parallel use of different running shoes decrease running-related injury risk?. Scand J Med Sci Sports. 2015;25(1):110-115.

Musculoskeletal Diagnostic Ultrasound (DU) is a powerful tool that can be utilized by Physical Therapists to identify tendonopathies. Furthermore, DU can be utilized with Dry Needling in order to visualize the needle which has been shown to significanlty improve the accuracy of the user to target the affected area compared to relying solely on palpation and anatomical landmarks.

A brief review of the "active" phase in running mechanics

The first installment in our running mechanics series discussed the importance of stability and striking your support leg under your hips. This Pose position will allow the runner to absorb forces more readily and prepare more efficiently for the next movement. The next movement in the Pose Method is the Fall. The purpose of this phase is to increase speed and since the Pose Method is all about “effortless running,” optimal body alignment will allow gravity to do the brunt force of the work.

The Pose Method of running allows one to identify and promote a running form that maximizes gravity along with the body’s effort and stored energy (elasticity) to create efficient movement. In essence, it makes running easier and less physically stressful to the body. There is a lot of debate surrounding running form. Some even question if it’s necessary to promote a particular way of running. However, it is a universally accepted foundation that every activity has a “best practice” - from changing a tire to playing basketball to cooking. As able-bodied individuals, we are all physically capable of performing such activities, but how long it will take to complete? How many unnecessary steps do we take? How much additional effort and load do we put on our bodies mentally and physically? These questions can be addressed by learning and PRACTICING ideal mechanics. Sure, you can go out on a 1-mile run in a recommended shoe to begin your fitness journey but would you start your golf journey on the tee box of Hole 1 with your newly purchased clubs? No, likely you would work with a knowledgeable person on how to hold the club, general swing mechanics and practice several range balls before venturing to the course. Why should running be any different? Particularly in a sport where “novice” runners have a much higher risk of running related injuries (RRI) compared to experienced runners. In a study completed in 2018, authors found a 2x-injury rate in novice runners compared to experienced runners over a 4-yr period. Secondly, running is the cornerstone of several other sports so as you go out to shoot 100 free throws every day to practice your form, why wouldn’t you add drills to improve the form of getting from Point A to Point B on the court? It makes sense to make use of the studies on running form and body mechanics to begin a new fitness goal in order to give us an advantage - how many YouTube videos do you watch before endeavoring to fix the washing machine? Knowledge is power. The Pose Method works by identifying repetitive “poses” during a running cycle through which every runner must pass: they have been described as Pose (the typical running “picture”), Pull and Fall. For the next few weeks, we will be breaking down each phase. We will start with “the Pose.”

Have you been told you need to stretch? Do you know how to stretch? Do you know how long to stretch? Let Evolution Sports guide you through these questions!

Medial Hop testing may better measure for safe return to sport participation following and ACL repair.

This is probably the most common question asked by patients when dry needling is presented to them as a viable treatment option. The answer to this question is multifaceted. In this post, I will review the peripheral indications and effects of dry needling and will break down and discuss multiple attributes of the treatment. Dry needling is much more than simply inserting an acupuncture needle into a painful trigger point, tight muscular knot, or muscle spasm. Before we understand how the needle itself effects healing and pain levels, it is important to understand the body’s mechanisms that allow these conditions to form in the first place. Trigger points, or knots, can form for a variety of reasons to include acute trauma, repetitive micro-trauma, overuse, and stress. All of these conditions elicit an inflammatory healing response from the body, which creates compression of local blood vessels and decreases circulation and oxygen delivery to the area. This impaired circulation combined with the increased metabolic demands of the hypertonic muscle leads to the depletion of Adenosine Triphosphate (ATP), the cells energy source used to fuel metabolic processes. The “energy crisis” created via the decrease in available ATP creates compensations at the neuromuscular end plate, both pre- and post-synaptically . Pre-synaptically, in the nerve terminal, ATP is directly responsible for the inhibition of acetylcholine (ACh) release. Acetylcholine is a neurotransmitter used at the motor end plate to elicit a muscle’s action potential and therefore a muscle contraction. The depletion of ATP perpetuates the release of ACh, thus perpetuating a muscle contraction in an already hypertonic muscle. Post-synaptically, ATP fuels the calcium (Ca2+) pump, which is responsible for maintaining the electrochemical gradient required to signal skeletal muscle cells to contract. The calcium pump is utilized by opening to allow a stimulus signal to pass and thus allow Ca2+ to flood they cytosol, but also to immediately pump ca2+ out of the cytosol when muscle activation is no longer required. The depletion of ATP mentioned above allows these channels to remain open, therefore, the muscles continually receive the signal to contract. Both of these actions compound upon one another to create a vicious cycle of muscle hypertonicity. When the increased metabolic demands of the hypertonic muscle cell are not met, the cells begin to panic and essentially yell for help. This is achieved by releasing algogenic chemicals such as bradykinins, cytokines, serotonin, histamine, potassium, prostaglandins, leukotrienes, somatostatins, and substance P in order to activiate local nocicepors, to elicit a healing response from the body. Thus, we have the development of a trigger point and the subsequent tenderness and pain associated with it. The effects of prolonged exposure to algogenic substances have been shown to lead to demyelination of local nerves and abnormal nociceptive impulses, which perpetuate the pain cycle. One of the key components of the dry needling treatment is often the aim of eliciting a “twitch response” by inserting the needle directly into a trigger point and tapping onto a sensitive loci. Although this effect is not required for a successful dry needling treatment it is a key component in clearing the excessive build up of ACh from the synaptic cleft and returning the motor end plate to a homeostatic state. Needle manipulation also plays a key role in the effects of dry needling. Multiple techniques are used to achieve a variety of goals. The techniques of pistoning or fanning of the needle are often utilized to create microtrauma and to elicit twitch responses by tapping onto multiple sensitive loci in the desired area. Periosteal pecking is a technique often used at the teno-osseous junction to achieve small amounts of bleeding and microtrauma to a tendon that normally has very little blood supply, in order to elicit a healing response. This technique is performed by a series of rapid tapping motions through the tendon and onto a bony backdrop. Lastly, the needle manipulation technique of twisting the needle has been shown to have numerous effects on local tissues as well as pain relieving properties. Of all of the techniques discussed, only rotation of the needle has been shown to definitively change the appearance of the local connective tissue surrounding the insertion point. Marked thickening of the subcutaneous connective tissue along with deformation of the extracellular matrix have been observed in tissue samples taken after dry needling treatments with needle rotation. Deformation of the extracellular matrix is believed to signal therapeutic effects via the alignment of collagen fibers and fibroblasts. This technique has also been shown to be the only technique that elicits an endogenous opioid release creating true pain reduction from the treatment. If you have any further questions about Dry Needling or feel you could benefit from this treatment technique, please contact Morgan or call our office to speak with one of the therapists at 410-628-0820. Stay tuned for our next newsletter where we will discuss the impact of Dry Needling on the Central Nervous System. References Chu, J. "Does EMG (dry needling) reduce myofascial pain symptoms due to cervical nerve root irritation?." Electromyography and clinical neurophysiology 37.5 (1997): 259-272. Chu, Jennifer. "Twitch-obtaining intramuscular stimulation: observations in the management of radiculopathic chronic low back pain." Journal of Musculoskelatal Pain 7.4 (1999): 131-146. Langevin, Helene M., David L. Churchill, and Marilyn J. Cipolla. "Mechanical signaling through connective tissue: a mechanism for the therapeutic effect of acupuncture." The FASEB Journal 15.12 (2001): 2275-2282. http://www.acupmedvet.com/artigos%20cient%C3%ADficos/Langevin%20et%20al.,%202001b.pdf Langevin, Helene M., David L. Churchill, and Marilyn J. Cipolla. "Mechanical signaling through connective tissue: a mechanism for the therapeutic effect of acupuncture." The FASEB Journal 15.12 (2001): 2275-2282. http://jap.physiology.org/content/91/6/2471.short Langevin, Helene M., et al. "Dynamic fibroblast cytoskeletal response to subcutaneous tissue stretch ex vivo and in vivo." American Journal of Physiology-Cell Physiology 288.3 (2005): C747-C756. http://ajpcell.physiology.org/content/288/3/C747.short Langevin, Helene M., et al. "Subcutaneous tissue fibroblast cytoskeletal remodeling induced by acupuncture: Evidence for a mechanotransduction‐based mechanism." Journal of cellular physiology 207.3 (2006): 767-774. Shah, Jay P., et al. "Biochemicals associated with pain and inflammation are elevated in sites near to and remote from active myofascial trigger points." Archives of physical medicine and rehabilitation 89.1 (2008): 16-23. http://triggerpoint-tutorial.com/pdf/Shah_Biological_milieu_of_MTP.pdf

Evolution Sports is Hosting the 2019 Olympic Lifting Camps on December 7th, 2019