11/02/2023
Correcting electrical parameters in the human body can play a role in the healing process, Healing thru Correcting Cells parameters, Correcting Frequencies, and Infusing Microcurrent
The human body is composed of many types of cells, each of which has its own unique electrical charge. The electrical charge of a cell, also known as its membrane potential, is determined by the balance of ions (charged particles) inside and outside the cell.
In general, the inside of a cell is negatively charged compared to the outside due to an excess of negatively charged ions, such as chloride and proteins, inside the cell. The membrane of a cell acts as a barrier to prevent ions from freely moving in and out, creating a difference in electrical charge across the membrane. This difference in charge is referred to as the membrane potential, and it is an important aspect of cell physiology, playing a role in processes such as nerve impulse transmission and muscle contraction.
It's worth noting that the exact electrical charge of a cell can vary widely depending on the type of cell and the conditions it is exposed to, so there is no one "cell charge of the human body, The cells that make up the various organs in the human body are called "parenchymal cells." Parenchymal cells are the functional cells of an organ, responsible for carrying out the specific functions of that organ.
For example, in the liver, the parenchymal cells are called hepatocytes and are responsible for producing bile and processing toxins. In the pancreas, the parenchymal cells are called islet cells and are responsible for producing hormones such as insulin.
Each organ in the human body is composed of a unique type of parenchymal cell, specialized to perform the specific functions of that organ. The parenchymal cells of different organs are also surrounded by supportive cells called "stromal cells," which provide structural support and help regulate the function of the parenchymal cells.
The exact cell charge of each organ in the human body can vary widely, depending on the type of cell and the conditions it is exposed to. However, in general, the inside of a cell is negatively charged compared to the outside due to an excess of negatively charged ions, such as chloride and proteins, inside the cell. This difference in charge is referred to as the membrane potential, and it plays a crucial role in cell physiology.
The frequency of the human body refers to the rhythmic patterns of electrical and chemical activity that occur in our cells, tissues, and organs. These patterns are driven by the interactions of various electrical and chemical signals that regulate physiological processes such as the heartbeat, muscle contraction, and hormone secretion.
One example of a frequency in the human body is the heart rate, which is the number of heartbeats per minute. The normal heart rate for an adult at rest is typically between 60 and 100 beats per minute.
Another example of a frequency in the human body is the alpha wave frequency, which is a type of brain wave that is associated with a relaxed and awake state. Alpha waves typically have a frequency of 8 to 13 Hz (cycles per second).
There are many other examples of frequencies in the human body, ranging from the slow and steady rhythms of breathing and digestion to the fast and dynamic signals that drive nerve impulses and muscle contractions. These frequencies are essential for maintaining the health and proper functioning of the human body.
Healing thru microcurrents very small electrical currents to the body, it can stimulate cellular processes and help improve the flow of energy and nutrients to damaged or injured tissues. This, in turn, can help promote healing and reduce symptoms such as pain, and inflammation. reducing fat deposits in blood vessels and arteries
