FSM in the Treatment of Dense Breast Tissue

FSM & TREATMENT OF DENSE BREAST CONNECTIVE TISSUE

This case report, published in the Journal of Womens Health, Issues & Care in 2023, details a case report by Perry & Elliott following a 54-year old woman with dense breast tissue and the effects of FSM Treatment on her condition.

CASE ABSTRACT

This case report follows the use of Frequency Specific Microcurrent (FSM) to treat a 54-year-old woman with dense breast tissue. Mammograms which were performed in 2018 and 2021 showed heterogeneously dense breast tissue, category C. The 2021 mammogram procedure was excruciatingly painful for the patient during the breast compression. FSM treatment involved using frequencies resurrected from the 1920’s applied with a modern microcurrent device. The current and frequencies were applied through the breast tissue. The most effective frequencies used were described as working to remove calcifications and oxalate crystals from the breast tissue. This treatment caused immediate softening of the involved tissue and less pain with palpation of the breast tissue. Mammogram in 2023 post FSM treatment showed the patient did not have dense tissue, and rated the breast tissue at a category B. The mammogram performed in 2023 was pain free on one side and only mildly painful on the other side. This study suggests that FSM is potentially a useful therapy to decrease breast tissue density and calcification and should be studied in a larger sample.

WHAT ARE SOME OF THE POSSIBLE MECHANISMS FOR FSM SUPPORTING DENSE BREAST TISSUE?

The premise of FSM for breast tissue, as shared in this case, operates from the understanding that every tissue in the body has an optimal resonant frequency (Hz), and every condition or pathology has a frequency to neutralize it. When two frequencies are paired, for example, the frequency instruction "remove calcium oxalate crystals" / "from the mammary gland," therapeutic benefits result. The authors selected various frequency instructions, including "reduce calcification," "reboot trauma," and many others (see the complete paper for each frequency used in this case) and included target tissues including lymph, artery, connective tissue, adipose, fascia, capillary, tendon, and nerve in order to treat this individual.

The fact that this client experienced such benefit is important, and publishing a case like this enables other FSM practitioners to potentially create protocols for their patients based off these results. The next natural question is: How does it work? The basic science behind frequency mechanisms is not well-established, but here are some potential rationale:

1. CELLULAR ENHANCEMENT

We know from the literature that microcurrent has been used clinically and has been demonstrated to increase ATP, stimulate protein and collagen synthesis, enhance amino acid transport, and intensify cellular energy. These factors also have the potential to reduce inflammation and repair tissues. By running microcurrent through the dense breast tissue, there theoretically may be an innate improvement in cell metabolism, detoxification, function, and other related cell-level effects.

2. CALCFICATION & OXALATE ACCUMULATION AS A ROOT CAUSE OF FIBROCYSTIC BREAST TISSUE

As explained above, dual-channel Frequency Specific (rather than simple microcurrent stimulation) operates under certain assumptions that frequencies are capable of eliciting cell membrane changes or changes in cell signaling, eliciting tissue changes. It is taught that the frequencies--both instruction and target tissues--have to be the correct root causes in order for FSM to work. Perry, in this case, asserted that calcification, scar tissue, calcium deposits, and oxalate crystals were a potential root cause of the fibrocystic tissues, and applied the corresponding frequencies to the various breast tissues that were impacted. This correct frequency pairing helped elicit the beneficial change.

3. ? THERE MAY BE OTHER, YET UNKNOWN MECHANISMS

Since this is such an under-researched field of medicine, there are likely other mechanisms that have not been explored. This is why publishing case reports is so important: to stimulate interest in the exploration of the basic mechanisms behind this intervention.

FSM: THE FUTURE OF MEDICINE

As I have said before, there's much more work to do in the realm of Frequency Medicine Research, but we're making headway as a field, and each case that gets published is worth celebration! You can be sure I'm tracking advancements in our important, burgeoning field, and if you'd like to follow along, subscribe to the blog on our our Research channel to keep up to date on the latest research & publication news in Frequency Medicine.

PERSONAL STORY

Candace Elliott, co-author of this important Case Report, is a personal mentor of mine. We are pictured at right, at the Frequency Specific Microcurrent Symposium.

Candace has always enthusiastically supported my own FSM endeavors, especially when I was a new practitioner, helping me to achieve my Certification in FSM and supporting my training as a Practicum Instructor. Candace has paved the way and demonstrated--both through leading by example and via her multiple presentations at FSM Conferences--that publication is not something to be intimidated by and in fact, this route of disseminating clinical findings is in fact an important part of our role as healthcare providers. I continue to be deeply inspired by her generative heart, her absolute love of her patients and being of service, and to her true dedication to the field of Frequency Medicine.

Thank you Candace for all that you do!

RESOURCES

Perry C and Elliott C. Frequency Specific Microcurrent in the Treatment of Dense Breast Tissue: A Case Report. J Womens Health. 2023(12:6).