US20250339091
2025-11-06
Human necessities
A61B5/445
The invention introduces an advanced bioengineered wound dressing system that leverages honey bee-derived compounds for enhanced wound care. It integrates therapeutic elements such as honey, propolis, and beeswax into a multi-layered hydrogel matrix. This design ensures sustained antimicrobial release and dynamic modulation of the healing process. The system employs biosensors to monitor wound conditions and adjust therapeutic delivery based on real-time data, enhancing healing outcomes and reducing the need for frequent dressing changes.
This innovative device falls within the biomedical field, specifically focusing on wound care systems. It combines natural honey bee-derived components with a sophisticated delivery mechanism to provide continuous antimicrobial protection and dynamic healing monitoring. The dressing is engineered to adapt to various wound conditions, offering a comprehensive solution for both acute and chronic wound management.
Traditional honey-based dressings often lack the ability to deliver therapeutic agents consistently over time, leading to unpredictable healing outcomes. These conventional systems do not incorporate feedback mechanisms or control over release kinetics, resulting in premature depletion of active agents. The new device addresses these limitations by ensuring sustained release and integrating intelligent features that respond to wound-specific biomarkers.
The invention utilizes microencapsulation techniques to protect and control the release of honey-derived compounds. Unlike previous systems that rely on passive diffusion, this device incorporates intelligent regulation based on environmental triggers like pH and temperature. Additionally, it includes a logic control unit capable of adaptive learning, remote data transmission, and precise therapeutic delivery tailored to patient-specific needs.
The system is designed to seamlessly integrate into modern clinical workflows, providing real-time monitoring and data interoperability. This enhances clinical oversight and supports telemedicine applications by enabling effective therapeutic tracking and decision-making. By combining natural bioactivity with intelligent technology, the invention offers a transformative approach to wound care that optimizes healing trajectories through proactive management.