摘要:
The present invention provides compositions comprising antisense nucleic acids that reduce miR-126 levels in an endothelial cell. The present invention provides compositions comprising a target protector nucleic acid. The present invention provides methods of modulating angiogenesis in an individual, the methods generally involving administering to the individual an effective amount of an agent that increases or that decreases the level of miR-126 in endothelial cells of the individual.
摘要:
The present invention relates to an artificial intelligence based smart hand sanitization system (100) for elderly is provided. The system (100) comprises an inlet pipe (102), a liquid chamber (104), a washing model (110), a collection chamber (106), and an outlet pipe (108). The washing model (110) comprises a plurality of sensors (112), a first scanner unit (116), and a plurality of moveable nozzles (114), a second scanner unit (118), a central processing unit (120), and an alert generating unit (122). The smart portable system (100) for hand-wash has a plurality of moveable nozzles (114) to wash the hands of the user without wetting the accessories and cloth of the user. The present invention is a detachable smart portable system (100) for hand wash that can detach from the wall and be re-fixed on the wall according to the user requirement.
摘要:
Provided are methods and computer programs for predicting lithium battery properties. One method includes operations for selecting candidate structures for the battery, and for obtaining a plurality of delithiated structures of the candidate structures with different lithium concentrations. The quantum mechanical (QM) energies of the delithiated structures are calculated, and a functional form is developed to obtain the voltage of the lithium battery. The functional form is a function of the lithium concentration and is based on the QM energies of the delithiated structures. Further, the capacity of the lithium battery is calculated based on a selected lithium concentration, where the functional form returns a cut-off voltage of the lithium battery when the lithium concentration is equal to the selected lithium concentration.
摘要:
Methods and systems for predicting lithium battery properties are presented. In one embodiment, a method includes an operation for creating an equivalent circuit of a battery cell, where the equivalent circuit includes a cathode equivalent circuit and a remainder equivalent circuit. Further, parameters for the cathode equivalent circuit are calculated using Quantum Mechanical (QM) simulation. Also included in the method are operations for obtaining parameters for the remainder equivalent circuit via experimentation, and for calculating the lithium battery properties using the equivalent circuit.
摘要:
A method of treatment for treating, preventing, inhibiting or reducing damage to coronary tissue includes inducing at least one of a physiological function selected from: up-regulation of or increasing ILK activity in the coronary tissue, up-regulation of or increasing Akt activity in the coronary tissue, down-regulation of or reducing cardiomyocyte cell death in the coronary tissue and hibernation of cardiomyocytes in the coronary tissue. An induction agent capable of inducing such physiological function in a subject is administered to a subject in need of such treatment.
摘要:
Hypoxic tissue is preserved by prophylactically administering Stromal Derived Factor 1 Alpha (SDF-1α) before hypoxia induces cell death in the tissue.
摘要:
The present disclosure provides methods for increasing self-renewal/expansion of stem cells. The present disclosure provides methods of reducing uncontrolled cell proliferation. The present disclosure provides methods of identifying agents that modulate Notch1/-catenin binding, and methods of identifying agents that inhibit enzyme-mediated cleavage of Notch1 intracellular domain from Notch1 transmembrane domain.
摘要:
Hypoxic tissue is preserved by prophylactically administering Stromal Derived Factor 1 Alpha (SDF-1α) before hypoxia induces cell death in the tissue.