The most frequent and dangerous conditions that diabetes individuals experience are wound infections.1 One of the main causes of physical disability is injury.2 The Wound Healing Society defines wounds as physical injuries that result in a break in the skin or an opening in the skin that disturbs the normal functioning and structure of the skin.3 The intricate interplay of cellular and biochemical processes leading to the recovery of wounded tissues' strength and structural and functional integrity is known as wound healing. Inflammation, wound contraction, reepithelialization of the tissue, remodelling, and the creation of granulation tissue with angiogenesis are among the many overlapping phases and processes involved.4 entails an acute phase of inflammation at first, which is followed by the formation of extracellular macromolecules such as collagen, and eventually creates a scar. Spongomorpha india is a macroalgae belonging to the family ulotrichaceae.5 Literature review reveals the presence of antibacterial, antifungal, antiviral, anti-inflammatory activities. The macroalgae Spongomorpha india is a member of the ulotrichaceae family. A study of the literature indicates the existence of antiviral, antibacterial, antifungal, and anti-inflammatory properties. The research also suggests that there isn't any scientific proof for Spongomorpha indica's anti-diabetic model or its ability to repair wounds in delayed-onset diabetes models. In order to determine the scientific foundation for the use of algae in the treatment of antidiabetic activity and wound healing impact on rats induced with diabetes, the current study examines the action of hydroalcoholic Spongomorpha indica (HASI) extract in several rat models.