SURGICAL ALTERNATIVES​

LCD Spinal Care Systems​

Finally a new revolutionary therapy has helped thousands of people nationwide in relieving back and neck pain caused by herniated or bulging discs, facet syndrome, degenerative joint disease, pinched nerves or other spinal afflictions.

LCD Spinal Care Systems is a leading drug ­free alternative to surgery that we use here at Shepherd Chiropractic.

This system gently distracts the bones of the low back or neck with a decompression therapy increasing circulation into the spinal discs and joint thus virtually eliminating the symptoms that cause pain.

The Benefits of Spinal Decompression – Rich Smith

The following article is from the Orthopedic Technology Review Vol7 No4, May/June 2005

Time was that a patient with back pain caused by a herniated disc or other disc deformity could look forward only to expensive major spine surgery for relief. Now, of course, he has options, such as minimally invasive endoscopic discectomy or, if a more conservative approach is merited, spinal decompression therapy.

Endoscopic discectomy entails use of an imaging­ guided probe inserted between the vertebrae and into the herniated disc space. Microsurgical attachments routed through the endoscope remove a portion of the nucleus tissue of the compromised disc; the amount excised depends on various circumstances but never affects the disc’s support structure. It is also possible to use the instrument to manipulate a distorted disc back into place or to purge fragmented disc material and bone spurs.

Upon completion of the work and subsequent extraction of the endoscope, the tiny wound site is covered with a small plastic bandage ­ no stitches involved. Because it is minimally invasive (and requires only a local anesthetic), an endoscopic discectomy takes only about an hour to complete. Moreover, patients can expect little or no pain. Risk of complications associated with conventional lumbar surgery is drastically reduced ­ in many instances, altogether eliminated.

Locked and Loaded

Then there is spinal decompression therapy, which has garnered considerable attention in recent years. It is a non surgical treatment for low ­back pain and pain in the leg, neck or arm that works by reducing loading of the spine. Researchers note that many adults suffer from excessive spinal loading, which is problematic because it promotes premature degeneration of intervertebral discs and leads to a tendency for repeated injury of the disc annulus.

Spinal decompression therapy to address loading customarily involves near ­daily, hour ­long sessions over a span of roughly 2 to 7 weeks during which spinal stabilization exercises are a regular component.

A consideration in spinal decompression therapy sometimes given short shrift is osmotic diffusion of collagen precursors ­in other words, disc nutrition. Without good osmotic diffusion of collagen precursors, a vascular disc nutrition will not occur and that makes healing in the disc segment an iffy proposition. In a healthy spine, 30% of the collagen precursors ­proline, nutrients, and oxygen ­diffuse into the a vascular disc via the annulus (that is the direct route), while 70% pass through the overhead ­and underneath ­vertebrae hyaline end­plate; if a single cycle of this diffusion takes roughly 500 days in a normal disc, imagine how much longer and less reliable the process will be for an abnormal disk. Fortunately, however, diffusion is helped by lowering intradiscal pressures, precisely what spinal decompression therapy accomplishes.

Giving encouragement to the proponents of spinal decompression therapy are numerous clinical studies demonstrating that the therapy does indeed cause disc space to decompress, generally by producing and sustaining negative intradiscal pressure. One such study looking at patients with herniated and degenerative disc disease found that 86% of 219 subjects who completed decompression therapy reported immediate disappearance of symptoms, while 84% of the total remained pain-free for 3 months afterward; 92% of the cohort showed varying degrees of physical improvement ­those gains were locked in for the vast majority of them 90 days after treatment.

Naturally, spinal decompression therapy is not for everybody. Conditions helped by it are largely confined to sciatica, disc hernia, disc protrusion, spinal stenosis, and radiculopathy. Still, that doesn’t stop doctors (and payors) from wishing it could be for everybody: spinal decompression therapy is economical, with costs only about 10% those of lumbar surgery.

Turning the Tables

A common approach to administering spinal decompression therapy finds the patient placed comfortably atop a specially designed table that cycles distraction tension to the lumbar spine in concert with brief relaxation respites. The goal here is to safely isolate the deformed spinal disc and mechanically induce unloading without also triggering counterproductive reflex paravertebral muscle contractions. Most spinal decompression therapy tables do a fine job of meeting that objective.
More and more, though, these tables are going high-tech. For example, among the market leaders is a computerized table system that employs no harnesses, straps, belts, ropes, or pulleys, yet is able to generate ample force to the spine in a remarkably efficient manner. With this increased efficiency, a patient typically requires only about a third as much distraction tension as would otherwise be necessary. According to the manufacturer, this substantially reduced tension requirement improves patient comfort, but also allows a broader base of patients to qualify as candidates for spinal decompression therapy.

Apart from use of tables, yet another way to achieve unloading is with the aid of FDA-approved spinal orthoses, those that work on the intervertebral discs.

There are flexible, rigid, and semi-rigid spinal orthoses made of everything from metal and fabric to lightweight thermoplastics. But regardless of what goes into their construction, they all share in common the objective of delivering an immobilizing three-point force to stabilize weak or injured structures and thereby provide damage correction or, at the very least, put a halt to further progression of the problem.
Recently, researchers in Italy reported favorable outcomes from a pneumatic custom-made lumbar vest that draws upon the principle of three-point force. Their clinical study involved 41 patients (all with emanations of radicular pain from degenerative discopathy) wearing the pneumatic vest thrice daily for periods of an hour each over the course of 5 weeks. The results showed 32 patients­78% of the cohort­ experienced significant subjective and clinical improvement. Quality of life went up for them, and not a one failed to enjoy at least some diminishment of radicular pain.
For more information and references please see the original article.