• One Health
  • Pain Management
  • Oncology
  • Anesthesia
  • Geriatric & Palliative Medicine
  • Ophthalmology
  • Anatomic Pathology
  • Poultry Medicine
  • Infectious Diseases
  • Dermatology
  • Theriogenology
  • Nutrition
  • Animal Welfare
  • Radiology
  • Internal Medicine
  • Small Ruminant
  • Cardiology
  • Dentistry
  • Feline Medicine
  • Soft Tissue Surgery
  • Urology/Nephrology
  • Avian & Exotic
  • Preventive Medicine
  • Anesthesiology & Pain Management
  • Integrative & Holistic Medicine
  • Food Animals
  • Behavior
  • Zoo Medicine
  • Toxicology
  • Orthopedics
  • Emergency & Critical Care
  • Equine Medicine
  • Pharmacology
  • Pediatrics
  • Respiratory Medicine
  • Shelter Medicine
  • Parasitology
  • Clinical Pathology
  • Virtual Care
  • Rehabilitation
  • Epidemiology
  • Fish Medicine
  • Diabetes
  • Livestock
  • Endocrinology

How Are Electroceuticals Used to Treat Pain?

Video

Ava Frick, DVM, CVC, FAIS, chief of staff at Pet Rehab & Pain Clinic in Eureka, Missouri, explains how electroceuticals are used to treat pain and instances where it is most effective.

Ava Frick, DVM, CVC, FAIS, chief of staff at Pet Rehab & Pain Clinic in Eureka, Missouri, explains how electroceuticals are used to treat pain and instances where it is most effective.

Electroceuticals, and microcurrent therapy, is also approved for use as a pain device. Some specific cases would be chronic arthritis, we could actually use it through a degenerative arthritic joint, one that has a lot of exostosis— that bone that's laid down where it shouldn't be. We can use it in referred pain like, a radiculopathy where there might be pain in the neck that is radiating down the leg. We've used it for phantom limb pain. Just like with people if you lose an arm, animals can lose a leg it still feels like it's there, which initially creates a real problem in figuring out how to walk, because they want to use that leg, which then they're going to stumble because the legs not there. And that happens because there's body mapping on the cerebral cortex and it didn't go away just because the leg got amputated. And there's pain at that site and that creates a whole syndrome of issues as well. So, I've used it for those. Just any situation you can have post-operative pain, we can have it from a arcuate repair, you can have from chronic pain. And the reason that chronic anything exists—so you could have chronic pain in your liver, you could have chronic lung problems, you can have the chronic arthritis—the reason that it persists is because when it stays there for a long time there's a lot of resistance built up in that tissue. You get extra layers built around it, there's scar tissue, there's adhesions, and electricity is like a lazy person, it's going to take the path of least resistance.

So now, the electricity just goes around that damaged area, and if we cannot get electricity through somewhere you cannot get new cells to proliferate, you cannot get healing, you can't get nutrients in, you can't get medicinals in there. So, what the microcurrent then does is to allow then this easy flow of an electrical waveform, and this is very important when we look at microcurrent devices is the waveform. And if it's of the right waveform, meaning the right intensity, also the right frequency, the body accepts it and it moves through the tissue, it breaks up that blockage. Instead of being like a two-by-four it turns it into a screen and now you can get healing to happen. So, microcurrent devices, part of the ability to address pain is that it actually does change the parameters of that environment.

Related Videos
© 2024 MJH Life Sciences

All rights reserved.