Abstract: The embodiments herein disclose a non-invasive method of using bursts of energies/electromagnetic field energies from cells to reduce or arrest the growth rate, proliferation of cancer cells/neoplastic cells. The energy from cells induces apoptosis in cancer cells, without harming normal cells beyond their physiologic threshold of survival are provided. The embodiments herein disclose a method for treatment of cancer/neoplastic cell in human or animals within the context of cancer therapeutics. A cell culture plate is incubated. This plate serves as the source of bursts energies/electromagnetic field energies. Further with a device the bursts of energies are targeted to another plate having cells for one week. After one week the microscopic examination is done. The rate of growth of cell is six to seven pulsatile cells per square centimetre. The energy from cells kills cancer cells, induce apoptosis, stimulate growth phase in cell culture and enables harmonics therapy.

Abstract: The present invention is directed to a contractible and expandable jacket configured to encase at least a portion of a patient's heart. The jacket has a plurality of individual contractile cells with each of the cells having a first electrically conductive coil and a second electrically conductive coil spaced from the first coil. The first coil preferably defines at least in part a first periphery of an inner nucleus of the cell and the second coil preferably defining at least in part an outer portion of the cell spaced outwardly from the inner nucleus. When electrical current passes through the first and second coils in opposite directions, the cell contracts and when electrical current passes through the first and second coils in the same direction the cell expands. Each of the individual cells has conductive appendages for conducting information to and from the individual cells.

Abstract: The present invention is directed to a contractible and expandable jacket configured to encase at least a portion of a patient's heart. The jacket has a plurality of individual contractile cells with each of the cells having a first electrically conductive coil and a second electrically conductive coil spaced from the first coil. The first coil preferably defines at least in part a first periphery of an inner nucleus of the cell and the second coil preferably defining at least in part an outer portion of the cell spaced outwardly from the inner nucleus. When electrical current passes through the first and second coils in opposite directions, the cell contracts and when electrical current passes through the first and second coils in the same direction the cell expands. Each of the individual cells has conductive appendages for conducting information to and from the individual cells.

Abstract: The present invention is directed to a contractible and expandable jacket configured to encase at least a portion of a patient's heart. The jacket has a plurality of individual contractile cells with each of the cells having a first electrically conductive coil and a second electrically conductive coil spaced from the first coil. The first coil preferably defines at least in part a first periphery of an inner nucleus of the cell and the second coil preferably defining at least in part an outer portion of the cell spaced outwardly from the inner nucleus. When electrical current passes through the first and second coils in opposite directions, the cell contracts and when electrical current passes through the first and second coils in the same direction the cell expands. Each of the individual cells has conductive appendages for conducting information to and from the individual cells.