Microcurrent (A Facelift Alternative)

Skincare Benefits of Microcurrent & the Science Behind It…

 

Microcurrent
Microcurrent is a form of electrot­herapy in which the device delivers between 10 to 500 micro-amps (millionth of one amp) of electric current to the body. Fun fact: The amount of electricity generated by these devices is so low, it would take 2,000 microcurrent machines connected together to light up a single light bulb. The body perceives this low-level stimulus as natural and therapeutic. Therefore, microcurrent can be regarded as an auxiliary electrom­agnetic energy source to replenish the body’s energy deficits.

Research shows proper microcurrent application can promote homeostasis by increasing adenosine triphosphate (ATP), a basic source of energy synthesized from nutrients through the process of cellular respiration. This increase in ATP facilitates ionic exchange across the cell membrane and improves nerve conduction. It is also shown that microcurrent increases fibroblast production, affecting both collagen and elastin levels.

 

Skin Benefits of Microcurrent
Since all cells communicate through electrical signals, it makes sense that these signals will increase energy within skin cells allowing for a more youthful appearance.

Wrinkle reduction. Microcurrent increases the production of fibroblasts, which are cells responsible for building collagen and elastin. This action has shown its ability to not only reduce fine lines and wrinkles, but also firm sagging skin and improve skin integrity. For this reason, micro current has been successfully used for wound healing by trauma clinics and in sports medicine.

Skin firming. Microcurrent is most commonly known as a workout for facial muscles, which it does achieve, but not in the way most people think. The low level electrot­herapy can be used in specific sequences to help strengthen and lengthen specific muscles beneath the skin to allow for a firmer appearance. Many clients and technicians alike believe results are only achieved when the muscle contracts, but it is quite the contrary. When the muscle contracts, it is likely due to a stronger current being delivered and can be counter-productive. The purpose is to retrain the muscles by delivering low-levels of electrical current in varying ways with repeated movements. The treatment is frequently performed with probes, placed at the insertion and origin of the muscles. When the probes are moved toward each other, they work to strengthen the muscles. When the probes are moved away from each other, they work to elongate the muscles (see images below).

Reduced inflammation. In a medical setting, microcurrent can be used pre- and post-operatively to promote natural healing and to reduce swelling by stimulating lymphatic drainage.

Improve tone. Microcurrent also increases circulation, making the skin look more vibrant and youthful as it is increasing the supply of nutrients to cells.

 

Treatment Time
There are several devices on the market and varying ways of using these devices to obtain results. Results are dependent on the device used, the treatment technique by the technician and the condition of the client’s skin. Most clients see an immediate lifting following an in-office treatment; however, long-term results are seen after a series of treatments. A series of six-to-12 treatments are often needed and can be spaced anywhere from twice a week to once a month and eventually quarterly for maintenance.

 

Biology and Electrom­agnetism
The human body relies on the continuous flow of electrom­agnetic signals to function. Electric current flow is always accompanied by a magnetic field and vice versa—one cannot exist without the other. Therefore, the proper name for electrical current flow is electrom­agnetic current flow. For the sake of simplicity and ease of reading, electrom­agnetic current flow may be referred to as electrical current in parts of this article.

Electrom­agnetic energy is the foundation upon which chemistry is built—all atoms and ions have either a positive or a negative electric charge. Their charge allows them to bond to the opposite charge and form complex molecules. Amino acids and proteins are large structures of such chemical compounds, and cells are built from these structures. Therefore, biology depends on electrom­agnetism, and without electricity and magnetism, life cannot be sustained.

All cells in the human body communicate with each other through electrical signals. As the membrane potential (voltage across the lipid layer) varies due to ionic concentr­ations, the resulting change in the cellular electrom­agnetic field affects the neighboring cells.

 

The Nervous System
There is a special group of cells called neurons or nerve cells. These elongated cells can transmit electrical impulses over long distances. This phenomenon is called an action potential. Action potentials are created by rapid exchange between intracellular and extracellular ions (mostly sodium and potassium). All cell membranes, including neurons, have multiple channels or gates that allow the flow of ions into and out of the cell. As humans age, the ionic transport across the cell membrane diminishes, and this affects one’s health.

The nervous system can be likened to a complex electrical network with multitudes of inputs and outputs. Although there are differences between how the nerves transmit electricity versus copper wires used in electrical circuits, the basic premise is the same: a command is initiated from a central location (the brain); it is translated into an electrical signal traveling down the neural pathways (spinal cord and periphery nerves); and it arrives at a destination to perform the desired task (e.​g. contract a muscle). Unlike man-made electrical circuits, the human body transmits signals utilizing both chemicals and electricity (and magnetic field). Each neural pathway has several synapses in which electrical current is translated into chemical exchange of neurotra­nsmitters. These special messengers travel across the synaptic cleft and are received by receptor proteins, where they trigger subsequent action potentials. As humans age, neurotra­nsmitters and their corresponding neurorec­eptors deteriorate and do not perform as efficiently. The consequences are both internal and external; as organ functions are reduced, visible signs of aging become apparent, etc.

 

Microcurrent Treatment – $150/session