The invention generally relates to a liquid topical pharmaceutical composition used in treating various skin wounds. The composition is characterized by strong moisture absorption and retention capabilities and being able to quickly seal the wound. The composition can resist oxidation, effectively inhibit bacteria and sterilization, protect germinal cells from further damage, eliminate wound swelling and promote wound healing. The pharmaceutical composition can be widely used in the treatment of burn, skin abrasion, laceration, infectious skin ulcer and wound exposure, save dressing and be used in a convenient and highly effective way.

The invention generally relates to a liquid topical pharmaceutical composition used in treating various skin wounds. The composition is characterized by strong moisture absorption and retention capabilities and being able to quickly seal the wound. The composition can resist oxidation, effectively inhibit bacteria and sterilization, protect germinal cells from further damage, eliminate wound swelling and promote wound healing. The pharmaceutical composition can be widely used in the treatment of burn, skin abrasion, laceration, infectious skin ulcer and wound exposure, save dressing and be used in a convenient and highly effective way.

Embodiments of the present invention provide plant-derived extracts as a replacement for traditional cryoprotectants used to freeze tissue and cells providing a method to decrease post-thaw damage as created by the cryoprotectant. For example, extracts from the genus Hippophae or other plant sources or compositions may be used as a cryoprotectant or may even be used to replace at least some of a traditional cryoprotectant.

Embodiments of the present invention provide plant-derived extracts as a replacement for traditional cryoprotectants used to freeze tissue and cells providing a method to decrease post-thaw damage as created by the cryoprotectant. For example, extracts from the genus Hippophae or other plant sources or compositions may be used as a cryoprotectant or may even be used to replace at least some of a traditional cryoprotectant.

A micronutrient composition is highly effective in controlling high blood pressure while given to mammal for treating with or without prescribed pharmaceutical drug. The micronutrient composition comprises of vitamin C, vitamin D3, vitamin B1, vitamin B2, vitamin B3, vitamin B6, vitamin B9 and vitamin B12 and calcium and magnesium, clove extract, grape extract, celery extract and L-arginine. This micronutrient composition supports critical cellular mechanisms involved in the relaxation of vascular smooth muscle cells important in maintaining healthy blood pressure. The combined effects of the micronutrients contained in the micronutrient composition include increased production of NO “relaxing factor” and decreased activity of Angiotensin converting enzyme 1 (ACE1). ACE1 inhibitory effect of this natural formula was more pronounced than obtained with the pharmaceutical ACE1 inhibitor—Lisinopril—the commonly prescribed high blood pressure medication.

A micronutrient composition is highly effective in controlling high blood pressure while given to mammal for treating with or without prescribed pharmaceutical drug. The micronutrient composition comprises of vitamin C, vitamin D3, vitamin B1, vitamin B2, vitamin B3, vitamin B6, vitamin B9 and vitamin B12 and calcium and magnesium, clove extract, grape extract, celery extract and L-arginine. This micronutrient composition supports critical cellular mechanisms involved in the relaxation of vascular smooth muscle cells important in maintaining healthy blood pressure. The combined effects of the micronutrients contained in the micronutrient composition include increased production of NO “relaxing factor” and decreased activity of Angiotensin converting enzyme 1 (ACE1). ACE1 inhibitory effect of this natural formula was more pronounced than obtained with the pharmaceutical ACE1 inhibitor—Lisinopril—the commonly prescribed high blood pressure medication.

A micronutrient composition is highly effective in controlling high blood pressure while given to mammal for treating with or without prescribed pharmaceutical drug. The micronutrient composition comprises of vitamin C, vitamin D3, vitamin B1, vitamin B2, vitamin B3, vitamin B6, vitamin B9 and vitamin B12 and calcium and magnesium, clove extract, grape extract, celery extract and L-arginine. This micronutrient composition supports critical cellular mechanisms involved in the relaxation of vascular smooth muscle cells important in maintaining healthy blood pressure. The combined effects of the micronutrients contained in the micronutrient composition include increased production of NO “relaxing factor” and decreased activity of Angiotensin converting enzyme 1 (ACE1). ACE1 inhibitory effect of this natural formula was more pronounced than obtained with the pharmaceutical ACE1 inhibitor—Lisinopril—the commonly prescribed high blood pressure medication.

The invention provides compositions and methods to treat prediabetes. In particular, the invention has discovered that particular combinations of diverse types of antioxidants have synergistic and surprising effects for use against prediabetes. The diverse types of antioxidants include: antioxidants that comprise stabilizing heteroatoms; antioxidants with conjugated segments of alternating single and double bonds; antioxidants with disulfides; and antioxidants with phenolic groups. In particularly useful embodiments one or more of the antioxidants that comprise stabilizing heteroatoms have pro-oxidant effects, e.g., in the liver.

The invention provides compositions and methods to treat prediabetes. In particular, the invention has discovered that particular combinations of diverse types of antioxidants have synergistic and surprising effects for use against prediabetes. The diverse types of antioxidants include: antioxidants that comprise stabilizing heteroatoms; antioxidants with conjugated segments of alternating single and double bonds; antioxidants with disulfides; and antioxidants with phenolic groups. In particularly useful embodiments one or more of the antioxidants that comprise stabilizing heteroatoms have pro-oxidant effects, e.g., in the liver.

The invention provides compositions and methods to treat prediabetes. In particular, the invention has discovered that particular combinations of diverse types of antioxidants have synergistic and surprising effects for use against prediabetes. The diverse types of antioxidants include: antioxidants that comprise stabilizing heteroatoms; antioxidants with conjugated segments of alternating single and double bonds; antioxidants with disulfides; and antioxidants with phenolic groups. In particularly useful embodiments one or more of the antioxidants that comprise stabilizing heteroatoms have pro-oxidant effects, e.g., in the liver.