Sep
5
2023
Learn advanced orthopedic tests & soft tissue treatments: nerve entrapment syndromes, muscle strains, ligament sprains, postural dysfunctions, joint pathologies, myofascial trigger point pain & other conditions!
Soft-tissue practitioners have been asking Whitney for a DVD on his Orthopedic Massage system for a long time. Well, we are happy to say they are finally within site. This DVD series demonstrates Lowe’s assessment and treatment methods for soft-tissue conditions. Designed to complement Lowe’s texts, these DVDs show exactly how to perform evaluation procedures that illuminate the nature of your client’s condition. They then offer you detailed demonstrations of the most effective treatment methods for both common and complex soft-tissue complaints.
Whitney applied his highly developed teaching skills to these DVDs, making them easy to follow and understand, and easy to navigate with detailed menus. Also, while Whitney has packed these DVDs full of information, they are filmed with efficiency and time considerations in mind so that practitioners may utilize their time effectively.
Use these great informational gems along with Whitney’s texts for additional visuals and active demonstration.
This DVD is now available from: http://www.terrarosa.com.au/dvd/orthopedic_massage_dvd.htm
Sep
5
2023
A once-mysterious neural pathway may have a crucial role in making injured areas overly sensitive to touch, a study in mice suggests.
When a person has any kind of injury — a broken shin, for example, or a sunburn — the pain system becomes hypersensitized, firing up in response to normally painless sensations induced by, for instance, walking or a gentle massage. Normally, this tenderness protects the vulnerable tissue as it heals. But occasionally the pain can overstay its usefulness, becoming chronic in conditions such as arthritis.
Now, neuroscientists Robert Edwards and Allan Basbaum from the University of California, San Francisco, and their colleagues have found that a small subset of nerve fibres, the function of which remained a puzzle since their discovery decades ago1, could be routing innocuous touch sensations to the pain pathway when there’s an injury.
“Surprise would be an understatement,” says Basbaum, referring to the findings. “No one knew anything about what these fibres were doing.”
The team’s findings are published by Nature2.
Getting touchy
The researchers found that the fibres, called unmyelinated low-threshold mechanoreceptors (C-LTMRs), are easily stimulated, unlike classic pain fibres, which respond only when the sensation is intense. But C-LTMRs aren’t usually used to detect light touch — this falls to another another major group of sensory neurons — so their role was unclear. The small population of cells have remained enigmatic because they have been difficult to target specifically.
The authors cleared that hurdle when they discovered that these fibres express VGLUT3, a protein necessary for the cells to send signals to other neurons. Because all of the other sensory neurons going to the spinal cord use a different protein — VGLUT1 or VGLUT2 — the authors could engineer mice lacking VGLUT3 to render all the C-LTMRs silent.
“Surprise would be an understatement. No one knew anything about what these fibres were doing.”
Allan Basbaum UCSF
Mice without functional C-LTMRs responded in exactly the same way as normal mice when exposed to light touch and to most painful stimuli, including extreme cold or heat or being poked in the paw with thin wires. But then the authors tested how the mice responded after being injured in three other ways: by a chemical that causes inflammation, which occurs in situations ranging from muscle injuries to a misaligned back; an incision, mimicking pain after surgery; and nerve damage.
In all three types of injury, normal mice became much more sensitive to wires poking their paws, quickly flicking the wires away. But mice with silent C-LTMRs showed much the same responses as before they were injured. All mice, however, became more sensitive to heat, suggesting that the C-LTMRs were hypersensitizing the animals to touch rather than to temperature.
There was one type of pain that, without injury, the engineered mice were less sensitive to than normal mice: intense, persistent pain, such as that caused by a clip pinching the tail. The finding seems contradictory, because C-LTMRs are easily stimulated. One possibility is that a small minority of neurons with VGLUT3 respond to pain, Basbaum says.
Paths to pain
Before this study, researchers had demonstrated two ways for animals to become hypersensitive after injury. First, sensory fibres can become more sensitive to stimulation; this is thought to lead to temperature hypersensitization, as happens when sunburn makes a warm shower feel excruciatingly hot. Second, another set of fibres that, like C-LTMRs, have a low threshold and are important for detecting light touch, are believed to be recruited into the spinal cord’s pain circuit — any sensation they transmit is then perceived as painful.
“This paper says hold on, there’s a whole other population. It’s another circuit, a potential target from a clinical perspective,” says Basbaum. Basbaum thinks that injury also leads to these fibres’ recruitment into the pain circuitry; they may work with the other low-threshold touch fibres or be important for hypersensitivity to different stimuli.
“We knew these fibres existed, but their function was not at all clear until now,” says neuroscientist Clifford Woolf at Harvard Medical School in Boston, Massachusetts. “The data show that recruitment of these fibres is a new way of producing mechanical hypersensitivity. It’s an exciting example of the specific functions of different sets of sensory neurons.
http://www.nature.com/news/2009/091115/full/news.2009.1084.html
Sep
5
2023
Results from the 13th annual consumer survey conducted by the American Massage Therapy Association® (AMTA®) indicate that 32 percent of Americans are seeking massage for medical and health
reasons, tying relaxation and stress reduction for the first time as the top reasons people get massages.
Additionally, 25 percent of Americans ages 35-44 have talked to their doctor or healthcare provider about massage therapy this year, compared to 14 percent in 2008. Of those who discussed massage therapy with their doctors, 52 percent say their doctor strongly recommended/encouraged them to get a massage. These survey results are announced in conjunction with National Massage Therapy
Awareness Week®, October 25-31.
A vast majority of Americans, 86 percent, agree that massage can be effective in reducing pain, and 85 percent agree that massage can be beneficial for
health and wellness. “Even with the ongoing economic crisis, people are not willing to compromise their health,” says Judy Stahl, AMTA president. “It’s a clear signal of massage’s value when those making less than $35,000 a year are the second most active income bracket getting massage therapy.”
For the second year in a row, the survey results showed that massage therapy use is fairly steady, despite the lagging economy. Thirty-two percent of stressed out Americans are getting massages to relieve their stress and 57 percent of Americans say they feel more stressed this year than last year, particularly among females (61 percent) and those ages 18-24 (66 percent).
“Consumers understand that massage therapy is essential to a healthy balance between stress and relaxation,” said Stahl. “We are pleased to see that consumers are prioritizing massage to help them through these difficult times.”
