Keywords
vascularized organoid,liver microtissue,liver organoid,microtissue,organoid,human,human liver,3d,three-dimensional,3d cell culture,cell culture,co-culture,culture model,in vitro,multi-cell,spherical,sphere,microtissue sphere,hepatocyte,Kupffer cell,liver endothelial cell,LEC,stellate cell,bile canaliculi,liver cell,liver tissue,tissue,liver,hepatic,digestive system,stem cell,organ progenitor,induced pluripotent stem cell,iPSC,liver biology,liver function,liver disease,fibrosis,cirrhosis,drug toxicity,drug metabolism,metabolic disease,drug-induced liver injury,DILI,in vitro toxicology,3D bioprinting,bioprinting,biomedical research,medical research,regenerative medicine,disease model,organoid vasculature,vascular organoid,vascularized organoid,blood vessel,vessel organoid,3D culture,tissue culture,tissue engineering,biomedical engineering,medical engineering,3D cell culture,organoid culture,perfusion,tissue perfusion,tissue regeneration,organ on a chip,organ,co-differentiation,model system,angiogenesis,angiorganoid,vessel sprouting,vascular,vasculature,vascularization,vasculogenesis,microvasculature,vascular network,cardiovascular system,cardiovascular,circulatory system,circulatory,artery,vein,capillary,oxygenation,oxygen delivery,nutrient supply,waste removal,circulation,blood vessel development,blood vessel repair,blood vessel model,in vitro model,in vitro testing,endothelial cell,vascular disease,diabetic vasculopathy,therapeutic target,atherosclerosis,hypertension,blood pressure,drug testing,drug discovery,personalized medicine,developmental biology,cardiovascular research,cancer research,proj-icon-gaps-23q3,proj-icon-gaps-23q3-biomedical-engineering