Abstract
Bioprinting is an emerging field in regenerative medicine. Producing cell-laden, three-dimensional structures to mimic bodily tissues has an important role not only in tissue engineering, but also in drug delivery and cancer studies. Bioprinting can provide patient-specific spatial geometry, controlled microstructures and the positioning of different cell types for the fabrication of tissue engineering scaffolds. In this brief review, the different fabrication techniques: laser-based, extrusion-based and inkjet-based bioprinting, are defined, elaborated and compared. Advantages and challenges of each technique are addressed as well as the current research status of each technique towards various tissue types. Nozzle-based techniques, like inkjet and extrusion printing, and laser-based techniques, like stereolithography and laser-assisted bioprinting, are all capable of producing successful bioprinted scaffolds. These four techniques were found to have diverse effects on cell viability, resolution and print fidelity. Additionally, the choice of materials and their concentrations were also found to impact the printing characteristics. Each technique has demonstrated individual advantages and disadvantages with more recent research conduct involving multiple techniques to combine the advantages of each technique.
Highlights
Bioprinting is a subcategory of additive manufacturing (AM), known as three-dimensional (3D) printing
Mechanical stability and promote cell ingrowth whilst considering the impact of manufacture on cell viability; forfor instance, chemical cytotoxicity caused on cell viability; instance, chemical cytotoxicity causedbybythe theuse useofofsolvents solventsor orpressure-induced pressure-induced apoptotic effect produced during the extrusion of material
Human mesenchymal stem cells, poly (ethylene glycol) dimethacrylate (PEGDMA) with hydroxyapatite (HA) and/or bioglass such high temperatures would damage the cells [51], research has shown that the high (BG) nanoparticles were bioprinted into bone tissue scaffolds
Summary
Bioprinting is a subcategory of additive manufacturing (AM), known as three-dimensional (3D) printing. A selection of materials, cell types and bioactive molecules, can be used to fabricate a structures manufactured using bioprinting technology and arebioprinting placed either in and cell bioink for are printing. Additive manufactured scaffolds have shown satisfactory accuracy matching the Different types ofDifferent tissues and organs haveand beenorgans produced for instance; blood designs [15,16,17]. The main properties of a bioink that need to be considered before printing include its viscosity, gelation and crosslinking capabilities These properties can significantly affect print fidelity (construct stability and print deviation from the computer aided designs) as well as cell viability, proliferation and morphology after printing [25]. The hydrogel properties need to be balanced between structural fidelity and cell suspension
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