Abstract: The present invention includes compositions and methods preventing or reversing the symptoms of aging in a subject in need thereof comprising administering to the subject an amount of a composition comprising pterostilbene, nicotinamide, and optionally vitamin A (retinol), and one or more retinoids effective to prevent or reverse the symptoms of aging.

Abstract: The present invention includes compositions and methods preventing or reversing the symptoms of aging in a subject in need thereof comprising administering to the subject an amount of a composition comprising pterostilbene, nicotinamide, and optionally vitamin A (retinol), and one or more retinoids effective to prevent or reverse the symptoms of aging.

Abstract: The present invention includes compositions and methods preventing or reversing the symptoms of aging in a subject in need thereof comprising administering to the subject an amount of a composition comprising pterostilbene, nicotinamide, and optionally vitamin A (retinol), and one or more retinoids effective to prevent or reverse the symptoms of aging.

Abstract: A method and battery charger for charging two or more batteries includes a pulse generator, a detector and a processor communicably coupled to the pulse generator and the detector. A charging series time period, a charging time period and a rest time period are determined based on one or more battery parameters using the processor and the detector. The charging time period is approximately equal to the charging series time period divided by the number of batteries and the rest time period is approximately equal to the charging series time period minus the charging time period. A charging pulse group having a positive pulse for the charging time period and a rest period for the rest time period is generated using the pulse generator, and sequentially applied to each of the batteries. The battery parameters are monitored and the charging pulse group may be adjusted.

Abstract: The present invention includes compositions and methods preventing or reversing the symptoms of aging in a subject in need thereof comprising administering to the subject an amount of a composition comprising pterostilbene, nicotinamide, and optionally vitamin A (retinol), and one or more retinoids effective to prevent or reverse the symptoms of aging.

Abstract: A method and battery charger for charging one or more batteries includes a pulse generator, a detector and a processor communicably coupled to the pulse generator and the detector. A recovery/discharge circuit is electrically connected to each battery, and one or more energy storage devices are electrically connected to each of the recovery/discharge circuits. A charging pulse group, which includes a positive pulse, a rest period and a negative pulse, is determined based on one or more battery parameters using the processor and the detector. The charging pulse group is generated using the pulse generator, and sequentially applied to each of the batteries. Energy is recovered from each of the one or more batteries using the recovery/discharge circuits during the negative pulse, and the energy is stored in the one or more energy storage devices. The battery parameters are monitored and the charging pulse group may be adjusted.

Abstract: A method and battery charger for charging two or more batteries includes a pulse generator, a detector and a processor communicably coupled to the pulse generator and the detector. A charging series time period, a charging time period and a rest time period are determined based on one or more battery parameters using the processor and the detector. The charging time period is approximately equal to the charging series time period divided by the number of batteries and the rest time period is approximately equal to the charging series time period minus the charging time period. A charging pulse group having a positive pulse for the charging time period and a rest period for the rest time period is generated using the pulse generator, and sequentially applied to each of the batteries. The battery parameters are monitored and the charging pulse group may be adjusted.

Abstract: A method and battery charger for charging two or more batteries includes a pulse generator, a detector and a processor communicably coupled to the pulse generator and the detector. A charging series time period, a charging time period and a rest time period are determined based on one or more battery parameters using the processor and the detector. The charging time period is approximately equal to the charging series time period divided by the number of batteries and the rest time period is approximately equal to the charging series time period minus the charging time period. A charging pulse group having a positive pulse for the charging time period and a rest period for the rest time period is generated using the pulse generator, and sequentially applied to each of the batteries. The battery parameters are monitored and the charging pulse group may be adjusted.

Abstract: A method and battery charger for charging two or more batteries includes a pulse generator, a detector and a processor communicably coupled to the pulse generator and the detector. A charging series time period, a charging time period and a rest time period are determined based on one or more battery parameters using the processor and the detector. The charging time period is approximately equal to the charging series time period divided by the number of batteries and the rest time period is approximately equal to the charging series time period minus the charging time period. A charging pulse group having a positive pulse for the charging time period and a rest period for the rest time period is generated using the pulse generator, and sequentially applied to each of the batteries. The battery parameters are monitored and the charging pulse group may be adjusted.

Abstract: A method and battery charger for charging one or more batteries includes a pulse generator, a detector and a processor communicably coupled to the pulse generator and the detector. A recovery/discharge circuit is electrically connected to each battery, and one or more energy storage devices are electrically connected to each of the recovery/discharge circuits. A charging pulse group, which includes a positive pulse, a rest period and a negative pulse, is determined based on one or more battery parameters using the processor and the detector. The charging pulse group is generated using the pulse generator, and sequentially applied to each of the batteries. Energy is recovered from each of the one or more batteries using the recovery/discharge circuits during the negative pulse, and the energy is stored in the one or more energy storage devices. The battery parameters are monitored and the charging pulse group may be adjusted.