2020
Hydrogel‐based 3D bioprints repair rat small intestine injuries and integrate into native intestinal tissue
Maina RM, Barahona MJ, Geibel P, Lysyy T, Finotti M, Isaji T, Wengerter B, Mentone S, Dardik A, Geibel JP. Hydrogel‐based 3D bioprints repair rat small intestine injuries and integrate into native intestinal tissue. Journal Of Tissue Engineering And Regenerative Medicine 2020, 15: 129-138. PMID: 33197151, DOI: 10.1002/term.3157.Peer-Reviewed Original ResearchConceptsIntestinal segmentsPost-operative day 7Male Sprague-Dawley ratsMale Wistar ratsSmall intestine injurySprague-Dawley ratsNative intestineBlinded histopathological analysisIntestinal failureStool outputNative intestinal tissueIntestine injuryIntraluminal perfusionRat vascular cellsHistopathological analysisIleocecal junctionWistar ratsIntestinal integrityIntestinal tissueDay 7Small intestineGenetic malformationsNormal activityWeight gainEnterotomy
2016
Three-dimensional Printing in the Intestine
Wengerter BC, Emre G, Park JY, Geibel J. Three-dimensional Printing in the Intestine. Clinical Gastroenterology And Hepatology 2016, 14: 1081-1085. PMID: 27189913, DOI: 10.1016/j.cgh.2016.05.008.Peer-Reviewed Original ResearchConceptsThree-dimensional printingReplacement tissueTransplant-related complicationsFinal clinical outcomeLife-saving optionSevere intestinal failureTissue engineering techniquesRapid manufactureScaffold materialsIntestinal failureIntestinal transplantationClinical outcomesFull clinical implementationAdvanced tissue engineering techniquesSupport materialClinical useClinical implementationPrintingCell populationsEngineering techniquesComplex scaffoldsIntestineTissueMaterialsOrgans