Bioprinting drug delivery: Difference between revisions
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== Bioprinting_drug_delivery == | |||
<gallery> | |||
File:Schematic_illustration_of_different_material_jetting_bioprinting_processes.png|Schematic illustration of different material jetting bioprinting processes | |||
File:Illustration_of_mechanical_extrusion.png|Illustration of mechanical extrusion | |||
File:Illustration_of_VPP.png|Illustration of VPP | |||
File:Alginate_bioink.png|Alginate bioink | |||
File:Schematic_representation_of_peptide-based_bioink.png|Schematic representation of peptide-based bioink | |||
File:Nanocellulose_cross-linked_with_calcium_chloride_printed_on_a_nanocellulose_hydrogel_film.png|Nanocellulose cross-linked with calcium chloride printed on a nanocellulose hydrogel film | |||
</gallery> | |||
Latest revision as of 23:51, 24 February 2025
Bioprinting Drug Delivery is a novel approach in the field of Pharmacology and Biomedical Engineering that utilizes 3D Bioprinting technology to fabricate personalized drug delivery systems. This technology has the potential to revolutionize the pharmaceutical industry by providing precise, patient-specific drug delivery solutions.
Overview[edit]
Bioprinting is a process that uses 3D Printing technology to create living tissue, such as organs and skin. In the context of drug delivery, bioprinting can be used to create personalized drug delivery systems. These systems can be designed to deliver drugs at a specific rate, to a specific location in the body, or in response to specific triggers.
Process[edit]
The process of bioprinting drug delivery systems involves several steps. First, a digital model of the drug delivery system is created using Computer-Aided Design (CAD) software. This model is then converted into a series of thin layers, which are printed one on top of the other using a bioprinter. The bioprinter uses a bioink, which is a material that can be printed and that contains living cells. The bioink is deposited layer by layer to build up the drug delivery system.
Applications[edit]
Bioprinting drug delivery has a wide range of potential applications. It could be used to create personalized drug delivery systems for patients with chronic diseases, such as Diabetes or Cancer. It could also be used to create drug delivery systems for targeted drug delivery, where the drug is delivered directly to the site of a disease or injury.
Challenges[edit]
Despite its potential, there are several challenges that need to be overcome before bioprinting drug delivery can be widely adopted. These include the development of suitable bioinks, the creation of bioprinters that can print at the required resolution, and the development of methods for accurately controlling the release of drugs from the printed drug delivery systems.
Future Directions[edit]
Research in the field of bioprinting drug delivery is ongoing, and it is expected that this technology will continue to evolve and improve in the coming years. Future developments may include the creation of more sophisticated drug delivery systems, the development of new bioinks, and improvements in bioprinting technology.
Bioprinting_drug_delivery[edit]
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Schematic illustration of different material jetting bioprinting processes -
Illustration of mechanical extrusion -
Illustration of VPP -
Alginate bioink -
Schematic representation of peptide-based bioink -
Nanocellulose cross-linked with calcium chloride printed on a nanocellulose hydrogel film
