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Biomare GTR Device is intended for the management of wounds including: partial and full-thickness wounds, pressure ulcers, venous ulcers, diabetic ulcers, chronic vascular ulcers, tunneled/undermined wounds, surgical wounds (donor sites/grafts, post-Mohs surgery, post-laser surgery, podiatric, wound dehiscence), trauma wounds (abrasions, lacerations, second-degree burns, skin tears), and draining wounds.
VIEW DETAILSBiomare GTR Device is intended for the management of wounds including: partial and full-thickness wounds, pressure ulcers, venous ulcers, diabetic ulcers, chronic vascular ulcers, tunneled/undermined wounds, surgical wounds (donor sites/grafts, post-Mohs surgery, post-laser surgery, podiatric, wound dehiscence), trauma wounds (abrasions, lacerations, second-degree burns, skin tears), and draining wounds.
VIEW DETAILSBiomare-Nano is intended for the management of conditions associated to diabetes, such as chronic and long-healing wounds. Biomare-Nano combines the well-known regenerative properties of echinoderm collagen, promoting fast wound healing and new tissue growth, with those of standardized herbal extracts providing a synergistic environment of antimicrobial agents and nutrients for a proper managing of wound infection.
VIEW DETAILSBiomare-Nano is intended for the management of conditions associated to diabetes, such as chronic and long-healing wounds. Biomare-Nano combines the well-known regenerative properties of echinoderm collagen, promoting fast wound healing and new tissue growth, with those of standardized herbal extracts providing a synergistic environment of antimicrobial agents and nutrients for a proper managing of wound infection.
VIEW DETAILSSeallagen provides most native-like collagen available as of today. Microstructure of collagen type-I extracted from echinoderms bears resemblance to the connective tissues of humans. Seallagen shows outstanding properties for applications in biomedical research due to its improved biocompatibility and safety, creating the optimal environment for new collagen biosynthesis and promoting integrin binding.
VIEW DETAILSSeallagen provides most native-like collagen available as of today. Microstructure of collagen type-I extracted from echinoderms bears resemblance to the connective tissues of humans. Seallagen shows outstanding properties for applications in biomedical research due to its improved biocompatibility and safety, creating the optimal environment for new collagen biosynthesis and promoting integrin binding.
VIEW DETAILSSeallagen provides most native-like collagen available as of today. Microstructure of collagen type-I extracted from echinoderms bears resemblance to the connective tissues of humans. Seallagen shows outstanding properties for applications in biomedical research due to its improved biocompatibility and safety, creating the optimal environment for new collagen biosynthesis and promoting integrin binding.
VIEW DETAILSSeallagen provides most native-like collagen available as of today. Microstructure of collagen type-I extracted from echinoderms bears resemblance to the connective tissues of humans. Seallagen shows outstanding properties for applications in biomedical research due to its improved biocompatibility and safety, creating the optimal environment for new collagen biosynthesis and promoting integrin binding.
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