Breakthrough in the Relief of Chronic Pain Without Drugs!October 2008
By Julius Goepp, MD
Pharmaceutical companies have deceived the public into believing that the solution for chronic pain is to take drugs.
Millions of people have perished from the side effects of these drugs, and their effectiveness in relieving pain is only temporary at best.
In a landmark discovery, a technology utilizing low-level laser light therapy is providing safe and long-lasting relief for the most common types of chronic pain.
As this novel approach slowly winds its way through clinical studies in the United States, a pioneering doctor in The Bahamas is making this therapy available right now!
Imagine a man so hobbled by degenerative arthritis that he could scarcely walk 30 yards before his pain overcame him. Then envision that through a combi-nation of good fortune and brilliant thinking, that man became able to relieve his own pain and return to normal activity levels—a fairy tale or a modern miracle? Neither—instead, this is just part of the true story of Dr. Robert Nordquist and his journey from pain to performance, as he learned about the astonishing powers of low-level laser therapy (LLLT).
We’ll start with Dr. Nordquist’s heart-warming personal story, and more about his extensive experience in treating people suffering from chronic pain. We’ll also provide some independent details about how LLLT works, and its worldwide track record in relieving chronic pain of many kinds. Finally, we’ll make a “virtual visit” to the new chronic pain treatment center, offering a first-hand view of what a new patient might expect in the quest for lasting pain relief.
Light has been a metaphor for goodness, health, wisdom, and healing in human culture for as long as there’s been human culture. By the mid-20th century, phototherapy was available for various skin conditions, and with the invention of the medical laser light, it became accepted by the mainstream.
It was a medical laser that led Dr. Nordquist to make his own first foray into the world of laser treatment for chronic pain. We asked him to tell us what happened.
“It was very simple, really,” Dr. Nordquist replied. “Having been active in sports my knees had taken some serious punishment. I had severe osteoarthritis (degenerative arthritis) in both knees—so bad that I literally couldn’t walk more than 30 yards before it was just too painful to walk. I’d already had knee surgery once to remove a meniscus (the cartilage “shock absorber” that lines the knee joint), so I literally had ‘bone grinding on bone.’ Finally, I decided to get some help, and I spoke to an orthopedic surgeon who was a friend of mine. He suggested that I should join him in the operating room to watch a knee-replacement surgery, and I went along with it. Frankly, what I saw in that operating room was the last resort, and I went away feeling that I needed to find a better way!”
Dr. Nordquist obtained a relatively low-powered, FDA-approved surgical laser to tinker with, having read early reports from Eastern Europe about success with laser light therapy for pain. “No one really knew why the treatment worked at that time,” he reports. “To some extent they may simply have been desperate to find alternatives to medications and surgical procedures they couldn’t afford. At any rate, the initial reports, while encouraging, were all over the place in terms of their results. A lot of that probably had to do with differences in what kinds of lasers they were using, how much power they were delivering to the tissues, how long they were treating, and what sites on the body were being treated. I decided to go about it in a more rigorous fashion.” Indeed, despite early reports of success,1 when one examines the literature on low-level laser therapy (LLLT) up through the mid-1980s, one finds a wide variety of results, and many strong calls for better studies and more clearly-defined outcomes.2
“I had to modify the laser I was going to use,” Dr. Nordquist went on, “because since it was a surgical laser, it was still capable of cutting or injuring skin—definitely not the effect I was looking for. Once I cut the power down to size, I just started making my own protocols to treat the knee pain. Many of the first reports I had read referred to ‘laser acupuncture,’ in which the laser beam is applied to known acupuncture points,3 but that approach wasn’t always entirely successful.4,5 With my professional knowledge of the anatomy of the human nervous system [Dr. Nordquist is a trained pathologist], I was able to combine the acupuncture points with other anatomical sites that my orthopedic colleague and I knew were involved in pain perception. So my first attempts were really well-educated guesses about treatment zones and times.”
While those early attempts may have been educated guesses, they produced dramatic results. “When I stepped down off that treatment table the first day,” Dr. Nordquist remembers, “it was the first time in years that I set foot on the ground without feeling like knives were going through my knees!” Dr. Nordquist repeated his home-grown treatment a total of ten times—and walked entirely pain-free for the next three years. There have been some additional health benefits as well: “Within months of my first treatment I found I was losing weight—in fact, I went from just over 220 pounds to my present weight of just about 180. I know it was because I was finally able to walk without pain, so I could engage in some normal, healthy activity,” Dr. Nordquist reflects. In a nation with a growing epidemic of obesity,6 that’s no small success itself—particularly since people who are overweight or obese are much more likely than others to develop osteo-arthritis and other bone and joint problems.7,8 Weight loss itself is also known to improve both pain and function in people with arthritis, so pain relief leading to weight loss has excellent potential for preventing further painful joint injury.9
Armed with his modified laser, his professional anatomical knowledge, and his life-changing personal experience, Dr. Nordquist set out to bring the benefits of his program to other sufferers of chronic pain. “I’ve treated more than 300 patients using that same original modified laser,” he notes. But the treatment protocol itself has undergone many revisions and fine-tunings along the way. “Our current system uses a proprietary computer program,” Dr. Nordquist said. “We enter in a host of patient-related variables such as age, gender, weight, general health status, and so forth, as well as what specific body area is involved.
Based on a specialized database that includes the acupuncture points and known locations of nerve ganglions [“relay nodes” in the nervous system] as well as other information, the computer then generates a customized, unique treatment regimen for each patient.” That computer-generated plan includes directions for the laser operator about sites, or zones, on the body where the laser is to be applied, duration of treatment at each zone, and energy levels for the laser beam to deliver. In other words, Dr. Nordquist has taken his “home-made” low-level laser treatment and turned it into exactly the kind of rigorous, scientifically based method with well-documented outcomes that pain experts had been demanding for years.2,10
But is it effective? “I know it may sound hard to believe, but of those 300 patients, more than 90% have reported total pain relief,” he adds. “And more than half of the others have experienced at least partial relief of their pain after 10 full treatments. Really only about 2-3% of my patients have truly had no beneficial effects.”
For the past five years, the FDA has approved several lasers for the treatment of pain. FDA approval is important in getting insurance programs to cover the therapy. “We’ve found that several private insurance companies do offer coverage now,” Dr. Nordquist reports. (These include Blue Cross Blue Shield, Workmen’s Compensation, and others.)
We asked about which areas of the body seem most amenable to pain relief using Dr. Nordquist’s newly FDA-approved system. “We get results that can only be called spectacular when we work with people who have osteoarthritis of the knees and ankles,” Dr. Nordquist said. “One case in particular sticks in my mind because it again involves a physician as a patient—in this case an internist colleague of mine. We had just finished her first treatment for severe pain in the knees and ankles, and she didn’t say much as she stood up and prepared to leave. But as she went out the door I remember that she turned with a big smile and said, ‘oh wait—I’m leaving something behind here. I’m leaving my pain behind!’”
But Dr. Nordquist hastened to point out that his LLLT system is effective in many other areas of the body as well, in particular for neck pain and low back pain—two areas that are notoriously difficult to treat with standard medical therapies.11,12 In fact, a clinic in The Bahamas is offering treatment at a total of 16 distinct anatomical sites on the body; patients with pain in other areas may well be able to work out a unique and completely customized plan for themselves (LLLT has been used to treat everything from carpal tunnel syndrome and tennis elbow to chronic dental and jaw pain).13-16
Low-Level Laser Treatment—How It Works
Dr. Nordquist and his colleagues at the Bahamas Anti-Aging Medical Institute are launching a program to offer low level laser therapy. But we at Life Extension wanted to dig a little deeper to try to learn first how it is that such low-intensity light can have any real effect on human tissues, and also to review the published evidence that has accumulated since those first reports from Eastern Europe in the 1960s. Here’s a summary.
Lasers used in surgery, of course, literally burn through tissue—but the very low-intensity of the light beams used in LLLT have a constructive, rather than a destructive, effect. It turns out that LLLT probably has its most profound effects on the microscopic intracellular structures called mitochondria.17 When the gentle but penetrating beams of the LLLT laser illuminate cellular mitochondria, mitochondrial energy production is increased, which may help relieve local inflammation and pain.17 Low-level laser therapy may also assist in the process of wound and tissue healing through boosting microcirculation, promoting cellular proliferation, and reducing inflammatory activity that contributes to the cycle of chronic pain.18,19
Most dramatically and recently, Australian researchers have identified a direct effect on the flow of cellular materials down the long axon that makes up the “wiring” of nerve cells.20 In essence, the low-level light basically “stuns” the nerve cells. In their own words these researchers have discovered that “laser-induced neural blockade is a consequence of such changes and provides a mechanism for… laser-induced pain relief. The repeated application of laser in a clinical setting modulates nociception [pain perception] and reduces pain. The application of laser therapy for chronic pain may provide a non-drug alternative for the management of chronic pain.”
It’s good to know how it works—but even better is knowing that it works. Fortunately for those who suffer from chronic pain, there’s a massive body of literature on LLLT’s effectiveness—so long as it is delivered by skilled, knowledgeable, and experienced practitioners.
LLLT—Treatment with a Global Track Record
After the first few early reports from then-Soviet Eastern Europe that first caught Dr. Nordquist’s attention, there was a long period during which fairly poor quality research was being performed. Said Dr. Nordquist, “Those early researchers weren’t at all sure how the therapy worked, they were using many different sites for applying the lasers, and they were all using different kinds of lasers at a whole range of power settings and treatment times. It’s hardly surprising that their results were not consistent.” But as more and more scientists from around the world became interested in trying to understand LLLT and its effects, there were growing calls for better and more organized research.2 By the first years of the new millennium, there had been a small explosion of well-designed and rigorous studies, exploring various treatment regimens and, increasingly, combining age-old acupuncture wisdom with modern knowledge about neuroanatomy and physiology. Here are just a few of the specific areas in which rigorous methods have been used to define the effectiveness of LLLT for pain at various body sites.
Mouth and Jaw Pain
Pain in the oral cavity and jaw can be debilitating, and dentists and orthodontists have always been deeply concerned about pain management in their patients. The temporomandibular joint (TMJ), or jaw joint, is the most common site of chronic orofacial (mouth and face) pain, with as many as one-third of adults reporting one or more symptoms.21,22
LLLT is emerging as a promising approach to this painful group of disorders. Turkish orofacial surgeons led the way with a study of 39 patients with TMJ pain, treating 24 with LLLT and 15 with a placebo laser treatment daily for two weeks, excluding weekends.14 The LLLT patients had significant improvements in their maximal mouth opening ability (which is typically limited in TMJ syndrome), pain, and chewing difficulty compared with the placebo group. Similar findings have now come from the Czech Institute for Biophysics in Prague,23 and the Department of Restorative Dentistry at the University of Sao Paulo, Brazil.24 The Czech researchers reported finding more pronounced results in the people who had had the longest-lasting pain.23 Finally, orthodontists in both Japan and Austria have reported powerful pain-relieving effects of LLLT in young adults treated immediately following application of braces, further demonstrating the speed with which LLLT can take effect.16,25