A biochemical scaffold for regulating mammalian cell function. The biochemical scaffold includes a base liquid medium, a bioenergetic platform and a vibrational platform. The bioenergetic platform includes at least one Krebs cycle modulator and the vibrational platform includes at least one energy signature component, e.g., an herb. The biochemical scaffold is subjected to sequential harmonic oscillation at defined frequency ranges for a defined, predetermined period of time, wherein the energy signature of the energy signature component is imparted to, captured, replicated, and retained by liquid medium, and, when the biochemical scaffold is delivered to and, thus, in communication with biological tissue, the biochemical scaffold induces specific biochemical activities via the resonant transfer of the retained energy signature to the biological tissue and, hence, endogenous cells thereof, the biochemical activities including increased bioavailability of ATP.

A biochemical scaffold for regulating mammalian cell function. The biochemical scaffold includes a base liquid medium, a bioenergetic platform and a vibrational platform. The bioenergetic platform includes at least one Krebs cycle modulator and the vibrational platform includes at least one energy signature component, e.g., an herb. The biochemical scaffold is subjected to sequential harmonic oscillation at defined frequency ranges for a defined, predetermined period of time, wherein the energy signature of the energy signature component is imparted to, captured, replicated, and retained by liquid medium, and, when the biochemical scaffold is delivered to and, thus, in communication with biological tissue, the biochemical scaffold induces specific biochemical activities via the resonant transfer of the retained energy signature to the biological tissue and, hence, endogenous cells thereof, the biochemical activities including increased bioavailability of ATP.

A biochemical scaffold for regulating mammalian cell function. The biochemical scaffold includes a base liquid medium, a bioenergetic platform and a vibrational platform. The bioenergetic platform includes at least one Krebs cycle modulator and the vibrational platform includes at least one energy signature component, e.g., an herb. The biochemical scaffold is subjected to sequential harmonic oscillation at defined frequency ranges for a defined, predetermined period of time, wherein the energy signature of the energy signature component is imparted to, captured, replicated, and retained by liquid medium, and, when the biochemical scaffold is delivered to and, thus, in communication with biological tissue, the biochemical scaffold induces specific biochemical activities via the resonant transfer of the retained energy signature to the biological tissue and, hence, endogenous cells thereof, the biochemical activities including increased bioavailability of ATP.

Embodiments described herein provide for uses of grape products, such as Chardonnay grape products and grape seed flour, for use in promoting a healthy liver, promoting healthy fat content in a liver, for treating or preventing NAFLD, and other embodiments and uses as described herein.

Embodiments described herein provide for uses of grape products, such as Chardonnay grape products and grape seed flour, for use in promoting a healthy liver, promoting healthy fat content in a liver, for treating or preventing NAFLD, and other embodiments and uses as described herein.

Embodiments described herein provide for uses of grape products, such as Chardonnay grape products and grape seed flour, for use in promoting a healthy liver, promoting healthy fat content in a liver, for treating or preventing NAFLD, and other embodiments and uses as described herein.

The present disclosure relates to a method of treating or delaying onset of a disease associated with the accumulation of senescent cells in a subject comprising administering to the subject a therapeutically effective amount of a senosuppressor that modulates a number of ATRX foci per cell.

The present disclosure relates to a method of treating or delaying onset of a disease associated with the accumulation of senescent cells in a subject comprising administering to the subject a therapeutically effective amount of a senosuppressor that modulates a number of ATRX foci per cell.

The present invention relates to an improved wound product that is equivocal to manuka honey in antimicrobial and wound healing effectiveness, but may be mixed with a therapeutic anesthetic, may have a fragrance, may be stored in a spray dispenser, may be used with a straw, and is applied as a foam. This provides the option of a straw being attached to the dispenser hole for dispensing honey foam for deep tunneling wound. It may also be sprayed directly on the wound or burn, or be sprayed on a sterile sponge for application.

The present invention relates to an improved wound product that is equivocal to manuka honey in antimicrobial and wound healing effectiveness, but may be mixed with a therapeutic anesthetic, may have a fragrance, may be stored in a spray dispenser, may be used with a straw, and is applied as a foam. This provides the option of a straw being attached to the dispenser hole for dispensing honey foam for deep tunneling wound. It may also be sprayed directly on the wound or burn, or be sprayed on a sterile sponge for application.