eMedica

eMedica Key Features

eMedica is a unique, state-of-the-art, smart, drug-free micro medical therapeutic device that brings multiple alternative therapies on a single platform to treat illnesses, specific disorders, and various medical treatments with a suitable operating system. The device is available in wearable, portable form and can be customized to be as big as a hospital bed.

“An innovative method of monitoring and treatment methods on a single platform, connected to a cloud server using an IoT platform.”

eMedica device is capable of monitoring the health condition in real-time and is integrated with IoT and the ‘Intelligent Decision’ support system. In case of emergency, an alert notification will be sent to the Physician and/or to the registered hospital/caretaker.

With the IoT platform, the concerned doctor can monitor the critical as well as routine patients remotely. The system is capable of integrating with the Hospital’s Patient Management/ Health Records System. It is also proposed to create and run a back office to monitor patients round the clock using robotic process automation.

What is eMedica?

eMedica is an electronic medical device that modulates the electro-magnetic frequency of a human body to its optimal frequency. It generates a specific frequency, voltages, and current combinations of the same to cure the targeted disease within a human body.

The World of Frequencies: Every disease and Virus works on its own optimal Frequency, eMedica works on particular frequencies dedicated to diseases. It also improves the charge of your blood cell. The very first thing that gets impacted in your body when you fall sick is your cell’s potential. The minute the person is sick because of any disease, the potential of their cell drops. eMedica improves the membrane potential of each cell hence improving the immune system.

“An Innovative method of treating blood diseases by correcting the cell voltage, using optimal frequencies for every treatment, and using the optimal temperature of the blood for natural healing.”

eMedica increases the blood temperature to its optimal levels. A fever fights infection by helping immune cells to crawl along the blood-vessel. The temperature of these cells from the normal mouse body temperature of 37°C to X°C. The method could help to reveal human organ functions in health and disease.

eMedica also delivers negative ions (electrons). When the human body is ill or infected with any diseases or virus, the blood gets ionized by giving negative electrons. We can deionize blood by using the eMedica wellness device.

Basic Science Behind The Treatment

Communication by neurons depends on two things. One of them is an electrical voltage known as the Resting Membrane Potential (RMP) across the membrane. Since the inside of a cell is negative relative to the outside, a voltage across the membrane results. The voltage across the plasma membrane of cells in the body is usually between −20 to −200 millivolts (mV). The negative sign means that the inside is negative relative to the outside. The greater the difference in charge across the membrane, the larger the voltage. The resting membrane potential (RMP) for nerve cells is from −50 mV to −90 mV. The most common value is −70 mV, and the membrane is said to be polarized.

Ions carrying most of the current, flow across the membrane through ion channels. Two factors contribute to the Resting Membrane Potential, the distribution of ions across the plasma membrane and the relative permeability of the membrane to Na (Sodium) and K (Potassium). This voltage is established when the Na that diffuses in, is pumped out and the K that diffuses out is pumped back in.

“Negativity is the natural resting state of your cells.”

When an action potential occurs, two voltage-gated ion channels open and close, one for Na and one for K. When the voltage-gated channel of Na opens, depolarization occurs. And the opening of the K voltage-gated channels and closing of the Na voltage-gated channels cause repolarization. Both of these phases occur in only a few milliseconds. During an action potential, the internal voltage of the cell goes from its resting potential (−70 mV) to a positive value. However, it goes back to its resting potential right away.

Negativity is the natural resting state of your cells. It’s related to a slight imbalance between potassium and sodium ions inside and outside the cell, and this imbalance sets the stage for your electrical capacity. Your cell membranes practice a trick often referred to as the sodium-potassium gate. It’s a very complex mechanism, but the simple explanation of these gates, and how they generate electrical charges, goes like this:
At rest, your cells have more potassium ions inside than sodium ions, and there are more sodium ions outside the cell. Potassium ions are negative, so the inside of a cell has a slightly negative charge. Sodium ions are positive, so the area immediately outside the cell membrane is positive. There isn’t a strong enough charge difference to generate electricity, though, in this resting state.

When the body needs to send a message from one point to another, it opens the gate. When the membrane gate opens, sodium and potassium ions move freely into and out of the cell. Negatively charged potassium ions leave the cell, attracted to the positivity outside the membrane, and positively charged sodium ions enter it, moving toward the negative charge. The result is a switch in the concentrations of the two types of ions and a rapid switch in charge. It’s kind of like switching between a 1 and 0. This flip between positive and negative generates an electrical impulse. This impulse triggers the gate on the next cell to open, creating another charge, and so on. In this way, an electrical impulse moves from a nerve in your stubbed toe to the part of your brain that senses pain.