Patrick BAILEY
“From depression to inflammation, bioelectricity is transforming medicine.”
New advances allow scientists to use bioelectricity to treat dozens of diseases affecting millions of people. In the case of Parkinson’s disease, producing the electric potentials of the substantia nigra to deliver bioelectric signals, like a pacemaker, can stimulate the remaining neurons to release more dopamine than they typically would to offset the loss and help ease symptoms.
“All cells use their bioelectric potentials to assist or control metabolic processes, but some cells make specialized use of bioelectric potentials and currents for distinctive physiological functions. Examples of such uses are found in nerve and muscle cells. Similar pulses in muscle cells accompany muscular contraction. In nerve and muscle cells, chemical or electrochemical stimulation results in temporary changes in the permeability of cell membranes, allowing the electric potential between inside and outside to discharge as a current that is propagated along nerve fibres or that activates the contractile mechanism of muscle fibres.” – The Editors of Encyclopædia Britannica .
In cancer research there were also several recent discoveries and experiments that show the importance of cells bioelectric state, in particular the cell membrane electric potential and the ion channels conductivity, in cancer initiation and therapy1. A relevant work2 shows, using the Xenopus laevis model, that gap junctions are important in long-range regulation of tumor formation. In3 the authors report on relationships between ion channel dysfunction and cancer hallmarks.
Patrick Bailey
Founder of BioElectricals.com
Our team of experts
Our physicians, physicists, biologists and philosophers share our wide array of research and experiences together to create a core concept of discipline in our field of research that combines biology and cellular electrophysiology that involves the use of biological materials and architectures for information processing systems within living organisms to learn how electrophysiological principles and technologies can be applied to human health.
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Jimmie Lambert
Laboratory technician
Abby Russo
Microbiologist
Tamzin McCray
Biomedical engineer
Lori Kerr
Research scientist
Over 12 years in pharmaceutical research
Dysfunctional neural circuits give rise to dysfunctional organs. Our goal is to restore healthy patterns of electrical impulses—adjusting how neurons fire and, thereby, changing the concentrations of neurotransmitters traveling through those circuits.
Wound Healing
Electrical stimulation acts on all levels of tissues and organs, and at each stage of wound healing and promotes regeneration of the cells
Improved Heart Health
Promotes heart health by maintaining normal heartbeat and enhancing cardiovascular health by normalizing an irregular heartbeat
Protect against diseases
We use bioelectricity in pathologies such as epilepsy cardiac arrythmias autoimmune diseases, diabetes, and cancer to promote healing
Bright Sparks
Bioelectricity has the potential to revolutionize medicine. Electrical stimulation has been found to almost double the healing rate of wounds and improve health
Growing Rapidly
Bioelectricity has emerged as important regulators of cell death, cell cycle regulation, cell polarity, migration, and canonical developmental signaling pathways.
Bioelectricals.com
They work by altering the bioelectric fields of cells and tissues playing a vital role in wound healing and even potentially fighting diseases like cancer.
electrical signals underpin the communication of the world
The spark of life:
Our proprietary algorithm recreates your spark and arches the connections between pathways causing cellular self-assembly, remodeling and regeneration abilities. These include production of energy within the mitochondria of individual cells to communication within cellular networks enabling our hearts to beat and our nerves to sense the environment (internal and external). Bioelectric signaling enables us to feel pain and take evasive action, if necessary, to survive.
Embryonic development and patterning, including stem cells, as well as the functioning of our immune system, and “wound healing” (in plants and animals) depend on coordinated bioelectric signaling across groups of cells, so we work with your body, not against you.
Scientifically proven to protect against disease
Improve your physical and psychological health
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Biotechnology is the spark of life in every individual, improving health outcomes and expanding humanity.