PUSH Fitness & Rehabiliation
Welcome !! PUSH-as-Rx ®™ is leading the field with laser focus supporting our youth sport programs. The PUSH-as-Rx ®™ System is a sport specific athletic program designed by a strength-agility coach and physiology doctor with a combined 40 years of experience working with extreme athletes. At its core, the program is the multidisciplinary study of reactive agility, body mechanics and extreme motion dynamics. Through continuous and detailed assessments of the athletes in motion and while under direct supervised stress loads, a clear quantitative picture of body dynamics emerges. Exposure to the biomechanical vulnerabilities are presented to our team. Immediately, we adjust our methods for our athletes in order to optimize performance. This highly adaptive system with continual dynamic adjustments has helped many of our athletes come back faster, stronger, and ready post injury while safely minimizing recovery times. Results demonstrate clear improved agility, speed, decreased reaction time with greatly improved postural-torque mechanics. PUSH-as-Rx ®™ offers specialized extreme performance enhancements to our athletes no matter the age.

Permanent Ligament Damage from Whiplash Injuries

When the aberrant sequela to victims in car crashes has been investigated, providers often overlook and concurrently underestimate the tissue pathology and resultant biomechanical failures of spinal ligamentous damages commonly known as “strain – sprain.” In addition, the courts have been “blinded” by rhetoric in allowing this pathology to be deemed transient. There is an ever growing body of scientific literature that verifies strain – sprain as permanent pathology, which is the standard being taught in today’s medical and chiropractic academia.

 

In addition, strain – sprain as sequela to whiplash, renders a 25% whole person impairment based upon the American Medical Association’s Guide to the Evaluation of Permanent Impairment fifth and sixth editions.

 

Whiplash Associated Disorder Sequela Injuries

 

Juamard, Welch and Winkelstein (2011) reported:

“…Rear end accelerations have been used to study the response of a variety of soft tissues in the cervical spine, including the facet capsular ligament. For simulations of whiplash exposures, the strains in the capsular ligament were found to be two – five times greater than those sustained during physiological motions of the cervical spine. In a similar but separate study, the facet joints of the cervical spine’s that were previously exposed to a whiplash injury ridden exercise under low – level tension and found to undergo elongations nearly 3 times greater than on exposed ligaments for the same tensile loads. Those capsular ligaments were also found to exhibit greater laxity after the purported injury. Since increased laxity may be linked to a reduction in the joints ability to stabilize the motion segment during sagittal motion, this finding suggests that whiplash exposure may alter the structure of the individual’s tissues of the facet, such as the capsular ligament, and/or the mechanotransduction processes that could maintain and repair the ligamentous structure. Accordingly, such an injury exposure could initiate a variety of signaling cascades that prevent a full recovery of the mechanical properties of the tissues of the facet joint.” (Pg 15)

 

 

Simply put, if we focus on the last sentence above, this “prevents a full recovery of the mechanical properties of the tissues of the facet joint,” which is referencing the ligaments of the spine that make up the tissues of the facet joint. In lay terms; it means that once injured, a joint is permanently damaged and it is demonstrable on x-rays with an extension and flexion view that does not have to show a full dislocation. Therein lies the core of the issue. Most radiologists are not trained in the latest literature on biomechanical tissue failures and therefore underreport the pathology.

 

Last month I attended a presentation by Michael Modic MD, Neuroradiology, a nationally renowned educator in neuroradiology who focuses on spondylolisthesis (vertebral segmental abnormal movements) and I asked a simple question “why don’t radiologist report more on abnormal positioning due to biomechanical failure as a result of ligament pathology” and his answer was “because their training focuses more on disease pathology.” Although I agree that is critical, so are biomechanical failures that lead to chronic degeneration, which is epidemic in our society. Simply look at the posture of our elderly for verification and much of that started with a simple “fender bender” years ago where the strain-sprain was either undiagnosed or deemed transient and not treated.

 

Ligament Pathology Diagnosis and Prognosis

 

The above scenario is why the American Medical Association values ligament pathology at 25% whole body impairment. There is also a growing body of doctors who are trained and credentialed in Spinal Biomechanical Engineering that understand how to create a diagnosis and prognosis, along with treatment plans around ligament pathology and fully understand the long-term effects of damaged facet joint tissues. These doctors are currently educating, based upon the current scientific literature their respective radiology communities to be able to diagnose and document the full extent of the injuries sustained.

 

We must also recognize that there is a significant amount of evidence in the scientific literature that verifies ligamentous damage as permanent and refutes the rhetorical claim of “transient.” In the end, it must be the facts of human physiology verified by science that sets the standards of healthcare and not deceptive rhetoric at any level.

 

The scope of our information is limited to chiropractic and spinal injuries and conditions. To discuss options on the subject matter, please feel free to ask Dr. Jimenez or contact us at 915-850-0900Green-Call-Now-Button-24H-150x150-2.png

 

References:

Cocchiarella L., Anderson G., (2001) Guides to the Evaluation of Permanent Impairment, 5th Edition, Chicago IL, AMA Press
Juamard N., Welch W., Winkelstein B. (July 2011) Spinal Facet Joint Biomechanics and Mechanotransduction in Normal, Injury and Degenerative Conditions, Journal of Biomechanical Engineering, 133, 1-31

 

Additional Topics: Weakened Ligaments After Whiplash

 

Whiplash is a commonly reported injury after an individual has been involved in an automobile accident. During an auto accident, the sheer force of the impact often causes the head and neck of the victim to jerk abruptly, back-and-forth, causing damage to the complex structures surrounding the cervical spine. Chiropractic care is a safe and effective, alternative treatment option utilized to help decrease the symptoms of whiplash.

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TRENDING TOPIC: EXTRA EXTRA: New PUSH 24/7®️ Fitness Center

 

 

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