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SpiderTech News & Blogs

KINESIOLOGY TAPE FOR RECOVERY / PERFORMANCE / PREVENTION

  • Antony Galvan

    As an elite masters cyclist with a degree in kinesiology, I am doubly convinced in the efficacy of SpiderTech’s technology. I recently won the Manhattan Beach Grand Prix, one of the most prestigious one-day races in California, for the fourth year in a row (and second year in a row in the jersey of California State Criterium Champion) using almost every lower extremity spider on offer! My experience was that my legs felt completely ‘supported’ throughout the race. Even during extreme efforts, the recovery and stability experienced was unquestionably the secret to my success this year. I will be using SpiderTech for every race I do going forward!

    B.S. Kinesiology Cal State Hayward
    California State Masters Criterium Champion
    U.S. Masters National Champion
    Masters World Silver Medallist
    4-time winner Manhattan Beach Grand Prix

  • Amber Neben

    The SpiderTech tape is amazing. It is super easy to use. Anyone can apply it and get the maximum benefit. It is a very simple process. Most importantly, however, the tape has done wonders for my shoulder, lower back, and posture. I crashed hard in Italy at the Giro d’Italia last July, and right now my shoulder is sitting 3/4 out of socket. With the SpiderTech tape applied, more of my humerus actually sits in the socket. The pain I typically feel on the bike and in my daily activities is basically gone. I do not think about my shoulder when it is taped, while without the spider, my shoulder hurts, I constantly feel like I need to pull my arm back into the shoulder socket, and I wake up at night because of the pain. In addition to eliminating the pain, my ROM is significantly increased with the tape. The lower back tape has also worked wonders for me! Lastly, as a cyclist, I am in a perpetual state of bad posture, and the postural tape is helping to restore me to a healthier position. Thank you SpiderTech for supporting my natural healing process while also allowing me to continue to train.

    — Amber Neben, 2008 World Time Trial Champion, 2012 and 2008 Olympian

  • Joe Gambles

    SpiderTech has been an integral part of my rehabilitation from an Achilles injury I sustained earlier this season.

    The calf and ankle pre-cut tape has allowed me to come back training quicker with the support and activation it provides to my problem area.

    I race with tape on my shin as it acts as a reminder to my body to activate this muscle which is crucial to maintain muscle balance and tension and prevent injury.

    3 Time Ironman 70.3 Champion

  • Li Na

    SpiderTech kinesiology therapy tape products provide me the comfort and support that I need to perform my best on the court. SpiderTech’s superior materials and adhesives give a better feel, last longer, and retain the physical integrity that I need to keep playing harder, longer.

    2011 French Open Champion

  • Jordan Rapp

    SpiderTech Tape is credited with helping 2-time Ironman winner, Jordan Rapp, compete again after a life-threatening biking accident.

    As Rapp prepared for the 2010 Ironman season, his life suddenly changed on March 23 of that year when he was struck by a car while training on his bicycle.

    Rapp suffered numerous broken bones including his clavicle and scapula, as well as contusions and lacerations to his head and neck. Rapp remained in the intensive care unit for days in a sedated state and on a ventilator. Jordan was fighting for his life, not Ironman titles.

    He began using SpiderTech during his painful recovery as he started training again.

    On August 12, 2012, Rapp defied the medical odds and won the 2012 U.S. Ironman Championship by an incredible 13 minutes and 14 seconds over the second-place finisher.

    Learn more about Rapp’s amazing story in the video below.

  • New advances in musculoskeletal pain

    Bove SE, Flatters SJ, Inglis JJ, Mantyh PW. New advances in musculoskeletal pain. Brain Res Rev. 2009 Apr;60(1):187-201.

    Non-malignant musculoskeletal pain is the most common clinical symptom that causes patients to seek medical attention and is a major cause of disability in the world. Musculoskeletal pain can arise from a variety of common conditions including osteoarthritis, rheumatoid arthritis, osteoporosis, surgery, low back pain and bone fracture. A major problem in designing new therapies to treat musculoskeletal pain is that the underlying mechanisms driving musculoskeletal pain are not well understood. This lack of knowledge is largely due to the scarcity of animal models that closely mirror the human condition which would allow the development of a mechanistic understanding and novel therapies to treat this pain. To begin to develop a mechanism-based understanding of the factors involved in generating musculoskeletal pain, in this review we present recent advances in preclinical models of osteoarthritis, post-surgical pain and bone fracture pain. The models discussed appear to offer an attractive platform for understanding the factors that drive this pain and the preclinical screening of novel therapies to treat musculoskeletal pain. Developing both an understanding of the mechanisms that drive persistent musculoskeletal pain and novel mechanism-based therapies to treat these unique pain states would address a major unmet clinical need and have significant clinical, economic and societal benefits.

  • Towards a theory of chronic pain

    Apkarian AV, Baliki MN, Geha PY. Towards a theory of chronic pain. Prog Neurobiol. 2009 Feb;87(2):81-97.

    In this review, we integrate recent human and animal studies from the viewpoint of chronic pain. First, we briefly review the impact of chronic pain on society and address current pitfalls of its definition and clinical management. Second, we examine pain mechanisms via nociceptive information transmission cephalad and its impact and interaction with the cortex. Third, we present recent discoveries on the active role of the cortex in chronic pain, with findings indicating that the human cortex continuously reorganizes as it lives in chronic pain. We also introduce data emphasizing that distinct chronic pain conditions impact on the cortex in unique patterns. Fourth, animal studies regarding nociceptive transmission, recent evidence for supraspinal reorganization during pain, the necessity of descending modulation for maintenance of neuropathic behavior, and the impact of cortical manipulations on neuropathic pain is also reviewed. We further expound on the notion that chronic pain can be reformulated within the context of learning and memory, and demonstrate the relevance of the idea in the design of novel pharmacotherapies. Lastly, we integrate the human and animal data into a unified working model outlining the mechanism by which acute pain transitions into a chronic state. It incorporates knowledge of underlying brain structures and their reorganization, and also includes specific variations as a function of pain persistence and injury type, thereby providing mechanistic descriptions of several unique chronic pain conditions within a single model.

  • Clinical efficacy of kinesiology taping in reducing edema of the lower limbs in patients treated with the ilizarov method–preliminary report

    Białoszewski D, Woźniak W, Zarek S. Clinical efficacy of kinesiology taping in reducing edema of the lower limbs in patients treated with the ilizarov method–preliminary report. Ortop Traumatol Rehabil. 2009 Jan-Feb;11(1):46-54.

    INTRODUCTION: Postoperative edema of predominantly lymphatic origin is a significant hindrance to physiotherapy in patients subjected to limb lengthening by the Ilizarov method. New treatment methods are being sought, and Kinesiology Taping is one of them. MATERIAL AND METHODS: The study involved 24 patients of both sexes subjected to lower limb lengthening using the Ilizarov method who had developed edema of the thigh or crus of the lengthened extremity. The mean age of the patients was 21 years. The patients were randomized into two groups of twelve, which were then subjected to 10 days of standard physiotherapy. The study group was additionally treated with Kinesiology Taping (lymphatic application), while the control group received standard lymphatic drainage. Treatment results were assessed by comparing the linear circumferences of the lower limbs before and after the treatment. RESULTS: The application of Kinesiology Taping in the study group produced a decrease in the circumference of the thigh and crus statistically more significant than that following lymphatic drainage. CONCLUSIONS: 1. Both standard edema-reducing treatment in the form of lymphatic massage and Kinesiology Taping significantly reduced lower limb edema in patients treated by the Ilizarov method. 2. The application of Kinesiology Taping in the study group produced a significantly faster reduction of the edema compared to standard lymphatic massage.

  • Pain perception in relation to emotional learning

    Apkarian AV. Pain perception in relation to emotional learning. Curr Opin Neurobiol. 2008 Aug;18(4):464-8.

    Noninvasive brain imaging has established the participation of the cortex in pain perception and identified a long list of brain structures involved. More recent studies show the interaction between clinical chronic pain conditions and the reorganization of the brain functionally, anatomically, and chemically. Mechanisms underlying this reorganization hint to essential links between pain, especially its affective component with emotional learning and memory. This review is a discussion of the rationale and evidence for the interaction between these modalities, emphasizing underlying mechanisms.

  • Muscle pain: sensory implications and interaction with motor control

    Arendt-Nielsen L, Graven-Nielsen T. Muscle pain: sensory implications and interaction with motor control. Clin J Pain. 2008 May;24(4):291-8.

    Muscle hyperalgesia and referred pain plays an important role in chronic musculoskeletal pain. New knowledge on the involved basic mechanisms and better methods to assess muscle pain in the clinic are needed to revise and optimize the treatment regimes. Increased muscle sensitivity is manifested as (1) pain evoked by a normally non-nociceptive stimulus (allodynia), (2) increased pain intensity evoked by nociceptive stimuli (hyperalgesia), or (3) increased referred pain areas with associated somatosensory changes. Quantitative sensory testing provides the possibility to evaluate these manifestations in a standardized way in patients suffering from musculoskeletal pain or in healthy volunteers. Some manifestations of sensitisation, such as expanded referred muscle pain areas in chronic musculoskeletal pain patients, can be explained from animal experiments showing extrasegmental spread of sensitisation. An important part of the pain manifestations (eg, tenderness and referred pain) related to chronic musculoskeletal disorders may be due to peripheral and central sensitization, which play a role in the transition from acute to chronic pain. In recent years, it has become evident that muscle pain can interfere with motor control strategies and different patterns of interaction are seen during rest, static contractions, and dynamic conditions.