3D Bioplotter Research Papers

Sutures are one of the most widely used medical devices with employment in over 12 million procedures per year globally.1 Yet, the ideal suture material does not exist. Over the years scientists and surgeons alike have set out to find a suture material that is biocompatible, easy to handle, does not cause unnecessary tissue damage and creates an optimal environment for wound healing.2 This has led to the discovery of numerous suture materials ranging from silk and catgut in the early 1800s to synthetic polymers such as polylactic acid and polyglycolide that are currently in use.3 Sutures on the market…

Purpose A 3D-Bioplotter® was employed to 3D print (3DP) a humic acid-polyquaternium 10 (HA-PQ10) controlled release fixed dose combination (FDC) tablet comprising of the anti-HIV-1 drugs, efavirenz (EFV), tenofovir disoproxil fumarate (TDF) and emtricitabine (FTC). Methods Chemical interactions, surface morphology and mechanical strength of the FDC were ascertained. In vitro drug release studies were conducted in biorelevant media followed by in vivo study in the large white pigs, in comparison with a market formulation, Atripla®. In vitro-in vivo correlation of results was undertaken. Results EFV, TDF and FTC were successfully entrapped in the 24-layered rectangular prism-shaped 3DP FDC with a…

There is a demand for progressive approaches in bone tissue engineering to repair and regenerate bone defects resulting from trauma or disease. This investigation sought to engineer a single‐step in situ conjugated polymeric scaffold employing 3D printing technology as an innovative fabricating tool. A polymeric scaffold was engineered in situ employing sodium alginate as a bio‐ink which interacted with a poly(ethyleneimine) solution on bioprinting to form a polyelectrolyte complex through ionic bond formation. Silica gel was included in the bio‐ink as temporal inorganic support component and for ultimate enhancement of osteoinduction. Characterization of the biorelevant properties of the scaffold was…