Science Documentation Denver
- Zerona Article Download PDF
- Cosmetic Surgery Times-Alternative Energy Download PDF
- Body Contouring With a Multiple Diode Laser System Download PDF
- Fatty Acid Oxidation Download PDF
- Low Level Laser Therapy as a Non-Invasive Approach for Body Contouring Download PDF
- Anti-Aging Medical News A new Non-invasive Approach for Body Contouring Download PDF
- Maloney Shanks Removes Fat Debris Download PDF
PILOT STUDY FINDS LOW-LEVEL LASER IRRADIATION SIGNIFICANTLY REDUCES CHOLESTEROL AND TRIGLYCERIDE SERUM LEVELS
Wausau, Wisconsin – April 1, 2009. Recent studies demonstrating that laser irradiation has the ability to alter the function of certain transcription (i.e., communication) factors involved in the expression of specific genes prompted researchers to evaluate the efficacy of laser therapy in the reduction of cholesterol and triglyceride serum levels, according to ground breaking scientific data presented at the 29th Annual Conference of the American Society for Laser Medicine and Surgery (ASLMS) in National Harbor, Maryland.
Lead researcher, Ryan Maloney, Medical Director of Erchonia Medical Inc., McKinney, Texas, explained that his clinical study was originally designed to investigate how dissolved fat affects body chemistry. However, while monitoring lipid and cholesterol levels, the research team discovered a trend indicating that laser use could disrupt cholesterol formation.
Science of Zerona
Cold Laser & Low Level Treatment Technology
The following is another example of scientific proof of the Erchonia lasers effect on adipocytes. All of the SEM, TEM, MRI and all other research of this website was done using an Erchonia laser.
The research represented below was done in the US using an Erchonia laser and shows time released photography of one fat cell and its contents being emptied. Please note the cell is still alive. Erchonia only uses its own research to prove its patent pending applications.
Zerona is the first non-invasive body contouring procedure to effectively remove excess fat without the negative side effects associated with surgical methods. Zerona utilizes the same cold laser technology developed by Erchonia, which has been shown to emulsify fat and allow it to move to interstitial space. Although this technology was originally utilized to help assist tumescent liposuction procedures, it was found that the cold laser treatment alone helped patients to reduce inches from their waist, hip and thighs.
The cold laser technology behind the Zerona procedure was shown to exclusively release the cellular contents of fat cells while leaving the capillaries and other cells within the interstitial space intact. The release of the fat cell contents is the result of the disruption of the cell’s membrane. This membrane disruption, called a transitory pore, is the result of low-level laser stimulation.
Prior to laser exposure, fat cells have a regular, cluster shape, as seen in Figure 4. Within minutes of low level laser exposure, fat cells begin to develop transitory pores as indicated by arrows in Figures 6-9. This pore allows the evacuation of the cell’s contents into extracellular space (see Figure 7). Once the contents of the fat cell have been emptied (Fig. 10), they are released into interstitial space where it can be passed through the body during its normal course of detoxification.
Through a double blind, randomized, multi-site and placebo-controlled study, the Zerona procedure is proven to be an effective non-invasive cold laser weight loss and body contouring procedure. On average, patients lost on average 3.64 inches from the circumference of their waist, hip and thighs, whereas the placebo group only lost an average of a half of an inch.
The Zerona cold lasers provide patients with a safer alternative to surgical procedures, which can result in bruising, swelling, and damage to other tissues. There is no need to wear compression garments or bandages with Zerona and since there is no pain, there is no need for anesthesia. Unlike other non-invasive approaches, Zerona low-level lasers do not rely on heating tissue, which can cause discomfort. There is no downtime, so patients can resume their normal activities immediately.