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Newsletter

Whole Body Vibration Therapy

With the New Year heading our way, we, at Hopkins Chiropractic, have opened our practice to a new and exciting type of chiropractic care…Whole Body Vibration Therapy or put simply, WBV.  WBV is one of the latest trends in rehabilitative and preventative medicine with recent studies showing fantastic results for wide array of patients.  While accelerating the body's natural healing process, WBV helps with injuries, illness and even exercise.  Working twice as fast as traditional physical therapies, WBV can offer both patient and practitioner improved feedback, and therefore, improved performance and results.

More specifically, WBV causes stimulation of the living cells within our bodies.  This stimulation helps with cellular regrowth, increases in the oxygen levels in cells, improved uptake of nutrients within the cells, as well as improved cellular waste removal.  What does this mean for you?  Well, without these important cellular processes our bodies are prone to disease and/or injury, both of which can accelerate the aging process.

While working with astronauts, Russian scientist ,Vladimir Nazarov, wanted to come up with a solution to some of the adverse health effects that astronauts experience while in space, most notably: the loss of muscle and bone mass, often times resulting in bone fractures.  His solution was to subject the astronauts to WBV sessions during their rigorous pre-liftoff space training sessions.  His results were astounding and showed improvement in bone density, as well as muscle strength. 

Current research shows that WBV is indicated for a broad range of therapeutic and clinical applications, such as the following:

 

Balance, Coordination & Fall Prevention

  • Study:  To investigate the efficacy of high-frequency whole-body vibration (WBV) on balancing ability in elderly women [Cheung WH, Mok HW, Qin L, Sze PC, Lee KM, Leung KS. Department of Orthopaedics and Traumatology, Chinese University of Hong Kong, Shatin, Hong Kong SAR, China.]
  • Conclusion:  WBV was effective in improving the balancing ability in elderly women. This also provides evidence to support our user-friendly WBV treatment protocol of 3 minutes a day for the elderly to maintain their balancing ability and reduce risks of fall.

 

Flexibility & Range of Motion

  • Study:  Flexibility Enhancement with Vibration: Acute and Long-Term [Flexibility Enhancement with Vibration: Acute and Long-Term. Med. Sci. Sports Exerc., Vol. 38, No. 4, pp. 720-725, 2006.]
  • Conclusion:  Vibration can be a promising means of increasing range of motion beyond that obtained with static stretching in highly trained male gymnasts.

 

Bone & Joint Rehabilitation, especially Knee Rehab

  • Study:  Whole-Body Vibration Induced Adaptation in Knee Extensors; Consequences of Initial Strength, Vibration Frequency, and Joint Angle [Savelberg HH, Keizer HA, Meijer K. Department of Human Movement Science, Faculty of Health Sciences, Universiteit Maastricht, Maastricht, The Netherlands.]
  • Conclusion:  Muscle length during training affects the angle of knee joint at which the maximal extension moment was generated. Moreover, in weaker subjects WBV resulted in higher maximal knee joint extension moments. Vibration frequency and muscle length during vibration did not affect this joint moment gain.

 

Lower Back Pain & Pelvic Instability

  • Study:  The Effect of Weight-Bearing Exercise with Low Frequency, Whole Body Vibration on Lumbosacral Proprioception: A Pilot Study on Normal Subjects [Fontana TL, Richardson CA, Stanton WR. School of Health and Rehabilitation Science, The University of Queensland, St Lucia, QLD 4072, Australia.]
  • Conclusion:  WBV, and the reflexive muscle contraction it provokes, has the potential to induce strength gain in the knee extensors of previously untrained females to the same extent as resistance training at moderate intensity.  It was clearly shown the strength increases after WBV training are not attributable to a placebo effect.

Osteoporosis, Arthritis & Rheumatism

  • Study:  The incidence of osteoporosis, a disease that manifests in the elderly, may be reduced by increasing peak bone mass in the young women. [J Bone Miner Res 2006;21:1464-1474. Published online on June 26, 2006; doi: 10.1359/JBMR.060612.]
  • Conclusions: Short bouts of extremely low-level mechanical signals, several orders of magnitude below that associated with vigorous exercise, increased bone and muscle mass in the weight-bearing skeleton of young adult females with low BMD. Should these musculoskeletal enhancements be preserved through adulthood, this intervention may prove to be a deterrent to osteoporosis in the elderly.

 

 

Other Benefits

  • Stress & Pain Reduction
  • Neuromuscular Re-Education
  • Circulatory Functioning
  • General Health & Wellness

 

 

Regardless of age, WBV provides a low impact vertical exercise solution that can work the entire body or specific body parts.  The reduction of pain and discomfort can dramatically improve flexibility and range of motion.  As a standalone exercise program, or even as a pre/post workout addition, provides many muscular benefits in a fraction of the time.  One of the major perks of WBV is its ability to allow individuals with debilitating illnesses or restrictive conditions to enhance their quality of life, which is something we strive to achieve at Hopkins Chiropractic.  Have we piqued your interest?  If so, call us and schedule an appointment to see what Whole Body Vibration Therapy can do for you.

 

Have You Been Suffering From Chronic Knee Pain?

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Chiropractic Care and Chronic Pain

Chiropractic care is an essential component of a broad-based approach to the treatment of chronic musculoskeletal pain. Medication alone is never an effective solution to chronic pain as it does not address the root causes of the problem. On the other hand, if biomechanical issues are part of the overall cause, chiropractic care is able to provide a great deal of benefit.

Chronic musculoskeletal pain often has its origins in spinal misalignments. These restrictions in spinal joint mobility may be due to long-term postural inefficiencies or to an old injury - a fall, a motor vehicle accident, or a bending-and-lifting back spasm that took a long time to heal. If spinal misalignments persist, other structures begin to compensate. Sacroiliac joints and ligaments get tight. Hip joints lose some mobility. Knee and ankle motion are compromised, and eventually chronic back pain, hip pain, and/or knee pain develops.

Chiropractic care addresses the cause of these many problems by analyzing, identifying, and correcting spinal alignments. As the biomechanical function of your spine improves, so does the mobility of all other weight-bearing joint such as your hips, knees, and ankles. As a direct result, chronic pain begins to reduce and resolve.

Chronic knee pain is notoriously difficult to treat successfully. Persons with these problems often become discouraged as they shuttle from specialist to specialist, from rheumatologist to orthopedic surgeon to physical therapist to acupuncturist and back again. Lack of progress and improvement becomes understandable when one considers that typical evaluation and treatment are directed at the symptoms. But with chronic knee pain, and many other pain syndromes, actual benefits may be obtained by addressing underlying biomechanical problems.

Faulty biomechanics are at the root of many ongoing knee problems. Of course, various other diseases and orthopedic conditions may cause the same type of chronic pain. The most likely of these possibilities need to be considered and ruled out before a diagnosis of biomechanical knee pain is established. Osteochondritis dissecans, a torn meniscus, and synovial effusion are all frequently encountered in persons over age 40 with chronic knee pain. Rheumatoid arthritis, lupus, and ankylosing spondylitis are a few rheumatologic conditions which may result in sporadic or chronic knee pain.1

When these medical entities have been eliminated as possibilities, a biomechanical causation becomes probable. How does a person develop "faulty biomechanics"? In fact, most of us have never received effective instruction in how to use our bodies. We stand and sit in all kinds of unsound postures, slouching and slumping and generally giving in to every available force of gravity. We stand with all our body weight on one leg, neck and shoulder muscles gripped tightly and abdominal muscles sagging and protruding. When we sit we slump down, stressing the lower back with poorly tolerated mechanical forces, or sit for hours with legs crossed, stressing the lower back, hips, and knees.

Over the course of a lifetime, our bodies have continually tried to adapt to a range of inefficient and stressful postures and habits. But eventually no more adaptation is possible.2 As a result joints, muscles, ligaments, and tendons break down and fail. We experience this failure as pain. And once this type of pain has started, it is not going to go away unless the underlying causes are corrected. Specifically, the person's biomechanics need to be restored closer to normal.

Correction of posture takes time and can only be accomplished gradually. The key is to learn what to do, learn how to do it, and to be working on posture every day.3 The most important thing is to begin. Three basic biomechanical corrections are as follows: (1) When standing, be sure to have your weight over the balls of your feet and to have your weight evenly distributed on both legs. (2) Activate your deep abdominal muscles by visualizing an "inner lift". (3) Have straight lines of force running down your legs (rather than lines of force crossing at your knee, creating torsion and tension). Visualize "straight energy" flowing from your hip sockets, straight down through the center of your knees, straight down to your feet, between your first and second toes.

Visualizing and implementing these three biomechanical corrections on a daily basis represents the first series of steps toward improving knee mechanics and reducing chronic knee pain.

1Yusuf E, et al: Do knee abnormalities visualised on MRI explain knee pain in knee osteoarthritis? A systematic review. Ann Rheum Dis 70(1):60-67, 2011
2Suri P, et al: Low back pain and other musculoskeletal pain comorbidities in individuals with symptomatic osteoarthritis of the knee: data from the osteoarthritis initiative. Arthritis Care Res (Hoboken) 62(12):1715-1723, 2010
3Bennell KL, Hinman RS: A review of the clinical evidence for exercise in osteoarthritis of the hip and knee. J Sci Med Sport 14(1):4-9, 2011
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