Exciting News: Just Submitted my Blood Clot & FSM Case

FSM & BLOOD CLOT RESOLUTION

Dr. Jessie here and I am thrilled to announce that I just hit SUBMIT on a Poster Presentation abstract that I hope will give me the opportunity to share with the greater scientific community the quite remarkable effects of FSM on treating deep vein thrombosis (blood clot). Wish me luck as the reviewers decide if this is something they are willing to host at an upcoming conference! I can't give all the details of the case at this time but you better believe you'll be hearing all about it once published!

THE FUTURE OF MEDICINE

It feels like our small but mighty (and growing) community of FSM Practitioners (at this point, I believe Dr. McMakin has trained over 4,000 practitioners worldwide) is making headway in the realms of research publications ... and it's about time! Dr. McMakin resurrected FSM in the early 1990's, has trained thousands of dedicated practitioners, has contributed to the research, and because of the brilliance of the interdisciplinary FSM community sharing approaches, perspectives and ideas, we've made tremendous progress clinically in our field. In our small community, we share FSM clinical cases and stores that are nothing short of miraculous to the point that it has become the norm. But in the famous words of Dr. McMakin herself, "If it doesn't get published, it never happened."

Listen to my all-time favorite interview with Dr. McMakin at the link below:

MICROCURRENT STIMULATION OF THE PERIPHERAL NERVES IN A RAT MODEL DEMONSTRATE NEUROPROTECTIVE EFFECTS

Nothing excites me more than seeing research come out that may begin to help us further understand the clinical results we are getting with Frequency Specific Microcurrent! In a 2024 study published in the International Journal of Molecular Sciences, a research team found that by stimulating the peripheral femoral nerve in rats with microcurrent below 1000 microamps, Middle Cerebral Artery Occlusion (another more specific word for a stroke) healing is optimized. Further, microcurrent stimulation even demonstrates a protective effect in the group of rats treated prior to being given the stroke.

The authors recognize that the basic science mechanisms for why this therapy works are poorly understood, but pose some potential rationale including the following:

1. CELLULAR LEVEL ENHANCEMENT - microcurrent has been used clinically and demonstrated in the literature to increase ATP, stimulate protein synthesis and amino acid transport, and enhance cellular energy. These factors have the potential to reduce inflammation and repair tissue.

2. NEURAL & HUMORAL PATHWAY ENHANCEMENT - microcurrent stimulation of peripheral nerves or the spinal cord may promote the release of molecules and neurotrophic factors that throughout the body.

3. NEURAL PATHWAY ACTIVATION - by microcurrent may indirectly modulate CNS processes.

This study utilized micro amperage current below 1000μA, a millionth of an amp, one thousand times lower than the standard TENS Unit that is commonly used in chiropractic, physical therapy, massage therapy, and some acupuncture treatments. It is notable that from an FSM perspective, we know that keeping the microamps below 500μA results in more optimal tissue response (so even lower current than what was utilized in this study).

Check out this figure from the study, demonstrating the visible differences in brain tissue in the experimental groups of the rats. Group A was intact as the control. Group B did not receive treatment. Group C and D both received treatment. Remarkable!

I was thrilled to find this research because it supports what I have found clinical in the several blood clot cases I have been able to successfully treat over the past few years.

There's much more work to do, but we're making excellent headway. Stay tuned on our Research channel to keep updated on the latest research in Frequency Medicine.

RESOURCES

Lee Y-J, Kwon ES, Moon YS, Jo J-R, Kwon DR. The Neuroprotective Effects of Peripheral Nerve Microcurrent Stimulation Therapy in a Rat Model of Middle Cerebral Artery Occlusion. International Journal of Molecular Sciences. 2024; 25(18):10034.

Kim, EH; Lee, WS; Kwon, DR. Microcurrent therapy mitigates neuronal damage and cognitive decline in an Alzheimer’s disease mouse model: Insights into mechanisms and therapeutic potential. International Journal of Molecular Sciences. 2024; 25: 6088.

Kim, EH; Lee, WS; Lee, JH; Kwon, DR. Microcurrent therapy as the nonpharmacological new protocol against Alzheimer’s disease. Frontiers in Aging Neuroscience. 2024; 16: 1344072.