F.R.P. Gives The Athlete The Competitive Edge And Helps Restore Function Quicker With Less Pain For the Injured Athlete.
The process of achieving the competitive edge over another competitor, or of restoration of full function, is a dual process of exercise and electrical stimulation in concert with each other. Electrical stimulation of muscle nerves has an ultimate outcome of increased torque or power. This process is achieved by volitional contractions accompanied by muscle fiber recruitment with electrical stimulation.
The Infrex FRM actually excites the closest and largest muscle fibers first, while exercising, and with the intensity increased during exercise recruits more distant and smaller muscle fibers. This process aids in function restoration and increased range of motion for higher torque. The targeted fibers are stimulated by the 8,000+ frequency of the Infrex FRM thus allowing stimulation not available with other stimulation devices.
The FRP video below ( coming soon) explains how the world class athlete, weekend golfer, professional tennis player or NBA star
We all need to know the visual signs that a skin eruption may or may not be melanoma. We are providing information on the melanoma widget below to educate you on what to look for if you have a skin eruption, rash, mole. This is only to help you identify potential problems and seek professional help from a medical doctor. If after reading you have any doubts then favor overawareness not underawareness and seek professional help from a dermatologist.
The below article from http://www.dailymail.co.uk explains how a new electropulse therapy may be producing holes in actual tumors resulting in the death of the cancerous tumor cells. The process, IRE - Irreversible electroporation operates on a principle of opening the cancer cell membrane by using higher intensity and greater pulse width duration of the electrical charge which results in keeping open molecules, inside the cancer cells, and death results. The process is invasive and the application electrode is inserted inside the body.
According to the work of Dr. Albert Szent-Gyorgi, Nobel Prize Medicine 1937 for Szent-Gyorgi/Krebs Citric Acid Cycle, any "opening" from a submolecular level is the supplementing of excess electrons into the molecules, which are collections of atoms with stable and unstable electron rings around the nucleus. The flow or feeding of electrons disrupts cycles of growth, especially in cancer cells which are growing unnaturally and rapidly. The growth process of the cancer cells exposes them to the constant rearrangment of electrons in the shells surrounding the nucleus and this may be what is atomically known as "keeping open the molecule". Because many healthy tissues in the body are not in some super growth state the effects are only on rapid growth cells, not healthy normal cells.
The below article is a new technique intended to be used in high risk areas where cancer resides and other therapies pose additional risk to the patient with conventional treatments. The use of high frequency interferential type currents do decrease external resistances which should result in the lack of need for physical surgery and internal intervention. By decreasing resistances the current can now be directed to the actual targeted cancer cells. More work needs to be done in this area but with the introduction of the Infrex FRM we feel the instrument is here that can target the cancer cells.
Cancer treatment that PUNCHES HOLES in tumours could be latest weapon in war against disease
New treatment uses millions of electric pulses per second to make holes in cancer cells and kill them
Therapy does not damage surrounding healthy tissue
Now experts want to carry out larger clinical trials
A minimally invasive cancer treatment that punches microscopic holes in tumours - without harming surrounding healthy tissue - could be the latest weapon in the war against cancer.
Irreversible electroporation (IRE) uses millions of electrical pulses per second to kill cancer cells but spare nearby tissue.
‘IRE may be especially beneficial in treating liver, lung, pancreatic and other cancers that are close to blood vessels, nerves and other sensitive structures,’ said the researchers who conducted the study.
New hope: IRE uses electric pulses to kills tumours at a cellular level
Treatment of cancers near sensitive sites usually involves surgery and a technique known as thermoablation, which heats and then freezes the tumour.
But this can damage healthy tissue, posing a risk to nearby major blood vessels, nerves, ducts and other vital structures.
The study involved 25 patients who suffered with cancer that had spread to various parts of their body. The average size of the tumour was two centimeters.
IRE was used due to the location of the lesions – all were near vulnerable sites that would be affected by thermoablation.
Dr Constantinos Sofocleous, an interventional radiologist at Memorial Sloan-Kettering Cancer Center in New York, completed all 30 treatment sessions with no major complications, showing IRE to be safe enough for further investigation in larger clinical trials.
Until now, the main method of removing tumours that had spread was by surgery and thermoablation
He presented his findings at the Society of Interventional Radiology's 38th Annual Scientific Meeting in New Orleans.
He said: ‘The treatment appears to be especially beneficial in people with cancer that has spread and who do not have good treatment options.'
IRE involves making an incision the size of a pencil tip and feeding a tiny instrument to target the tumours.
Strong electric fields are then generated to create tiny holes in the cancer cell membranes.
This kills them by disrupting the balance of molecules inside and outside the cell.
Because IRE does not generate heat or cold, it stops surrounding cells becoming damaged.
This makes IRE ideal for treating tumors close to tissues that are vulnerable to damage.
By increasing the strength, and duration of the electric pulses, the pores in the cancer cells remain open permanently.
This causes microscopic damage to the cells, and they die.
The combination of minimally invasive surgery and IRE allows for faster recovery with less tissue injury, and it is hoped, a better long-term outcome than with traditional surgery.
At a minimum, said Dr Sofocleous, the treatment offers the the patient an improved quality of life.
This is a list of diagnosis that Medicare does not cover for the cost of a tens machine as of July 19, 2013 ( subject to change without notice).
For you to get a tens unit in the United States and have Medicare purchase it, you will need to get a prescription from your doctor (must be an MD, not PA or nurse practitioner) that is not related to back pain. Medicare has changed its policy and will not cover a tens units for several diagnoses. Once we get the doctor’s prescription along with your basic information, we can ship the unit to you. You will then need to re-visit your doctor after 31 days but before sixty days for a re-evaluation and the doctor must complete a Certificate of Medical Necessity and return it to us. Once the unit is purchased by Medicare, at the present time, they will cover two supplies per month. The supplies can be topical pain lotions, skin creams, tens electrodes, tens cables, and those products ( no drugs ) related to relieving your chronic pain. Most of the topicals are Tiger Balm patches & lotions, BioFreeze, hot/cold packs, Flex-all, and Vit. E/Aloe lotions.
Please call (800-937-3993) or
if we can be of additional service.
The diagnoses that Medicare will not cover are listed below:
353.4 Lumbosacral root lesions, not elsewhere classified
· 720.2 Sacroiliitis, not elsewhere classified
· 721.3 Lumbosacral spondylosis without myelopathy
· 721.42 Thoracic or lumbar spondylosis with myelopathy – lumbar region
· 722.10 Lumbar intervertebral disc without myelopathy
· 722.52 Lumbosacral intervertebral disc
· 722.73 Intervertebral disc disorder myelopathy – lumbar region
· 722.83 Post laminectomy syndrome – lumbar region
· 722.93 Other and unspecified disc disorders, lumbar region
· 724.02 Spinal stenosis, lumbar region without neurogenic claudication
· 724.03 Spinal stenosis, lumbar region with neurogenic claudication
· 724.2 Lumbago
· 724.3 Sciatica
· 724.4 Thoracic or lumbosacral neuritis or radiculitis, unspecified, radicular syndrome of lower extremities
· 738.4 Acquired spondylolysthesis
· 739.3 Non-allopathetic lesions NEC (not elsewhere classified)-lumbar region
· 756.11 Spondylosysis, lumbosacral region
· 756.12 Spondylolisthesis
· 805.4 Fracture of vertebral column without mention of spinal cord injury,lumbar,closed
· 806.4 Fracture of vertebral column with mention of spinal cord injury, lumbar, closed
· 846.0 Sprains and strains of sacroiliac region – lumbosacral (joint) (ligament)
· 846.1 Sprains and strains of sacroiliac ligament
· 847.2 Sprains and strains of other and unspecified parts of back, lumbar
· 953.2 Injury to nerve roots and spinal plexus, lumbar root
It can really get confusing when one has a muscle strain, sprained ankle and other similar maladies and is told to use "cold therapy" and "heat therapy". The mantras are "only use cold", "use cold for first 24-48 hours", "don't use cold use warm moist heat to stop your pain". How is one to know what to do? Well let's examine what to use but more importantly why to use the hot or cold therapy.
Generally speaking immediately following acute injury the body goes into what is called an "inflammatory response" and the area gets red, gets hot and swells. During this time you don't want to inflame an inflammatory reaction and make it worse so the general rule is use cold therapy (cryotherapy). The cold actually:
reduces the edema,
lessens the pain,
cools the temperature of the injured area, and
stops the inflammatory response.
The inflammatory response is natural and helpful but it can cause more injury especially in cases such as spinal cord damage, or brain injury where the swelling causes additional injury to healthy tissues.
After the swelling has stopped, the pain subsided some, and the area cooled down, then warm, moist heat is indicated ( not dry heat ) and that occurs generally when a patient is trying to regain motion, function, movement yet, due to damaged tissues, range of motion is restricted. As the patient tries to regain full range pain inhibits it and it is now that heat helps:
increase blood flow for faster healing
helps extend range of motion when used complemetary with exercise
Now here's the "sleight of hand" that is often confusing to injured patients. Each time a patient goes through an exercise routine then new/old tissues are actually reinjured. That in and of itself re-excites the body's inflammatory response so in essence the patient now has a "new injury" brought on by the rehabilitation process. So immediately after exercising it's best to use cold therapy, not warm moist, as the area being exercised is now in a new "acute" injury process.