Invention:
This technology is an innovative method and system for streamlining the production of therapeutic delivery systems. Central to this innovation is the integration of various stages of production, from raw material collection to final product delivery, within a mobile infrastructure. A key embodiment involves the utilization of a container-like structure equipped with advanced automation capabilities. This infrastructure enables seamless workflow management, encompassing vertical plant farming, vesicle isolation, purification, loading with therapeutic agents (both natural and synthetic), integration of biological materials (such as genes or proteins), sterilization, packaging, and direct delivery to clinical settings or points of care. This adaptable infrastructure holds immense potential for revolutionizing healthcare delivery, particularly in settings lacking dedicated facilities for advanced therapies, and offers promise for applications in global and space health contexts. Furthermore, it serves as a self-sustainable resource, addressing various life necessities ranging from nutrition to medication and energy production.
Background:
The background leading to the development of this invention stems from the growing demand for efficient and accessible therapeutic delivery systems in healthcare. Traditional methods often involve fragmented workflows and reliance on centralized production facilities, posing challenges in delivering timely treatments to patients, particularly in remote or underserved areas. Moreover, the emergence of advanced therapies, including gene and cellular treatments, necessitates sophisticated manufacturing processes that may not be readily available in many clinical settings. Recognizing these limitations, there has been a pressing need for innovative solutions that integrate various stages of production and enable on-site delivery of customized therapies. Additionally, the increasing focus on regulatory compliance and quality control underscores the importance of developing infrastructure capable of meeting stringent standards while remaining adaptable to diverse healthcare environments. This technology seeks to address these challenges by introducing a mobile, self-sustainable infrastructure that revolutionize the workflow preparation of therapeutic delivery systems, thereby enhancing accessibility and efficiency in healthcare delivery.
Applications:
- Container therapeutics
- Health care infrastructure and delivery
- Pharmaceutical manufacturing
- Expansion of therapeutic delivery systems to rural areas, globally, and in space
Advantages:
- Increased accessibility
- Cost effective solutions
- All-in-one production solution
- Seamless workflow
- Can be used in diverse settings