about
Bioengineered tumoral microtissues recapitulate desmoplastic reaction of pancreatic cancer.3D stromal tissue equivalent affects intestinal epithelium morphogenesis in vitro.The role of microscaffold properties in controlling the collagen assembly in 3D dermis equivalent using modular tissue engineering.3D is not enough: Building up a cell instructive microenvironment for tumoral stroma microtissues.PCL-HA microscaffolds for in vitro modular bone tissue engineering.An Engineered Breast Cancer Model on a Chip to Replicate ECM-Activation In Vitro during Tumor Progression.In vitro activation of the neuro-transduction mechanism in sensitive organotypic human skin model.Time and space evolution of transport properties in agarose-chondrocyte constructs.Endogenous human skin equivalent promotes in vitro morphogenesis of follicle-like structures.Engineered cardiac micromodules for the in vitro fabrication of 3D endogenous macro-tissues.A micro-perfusion bioreactor for on line investigation of ECM remodeling under hydrodynamic and biochemical stimulation.Biophysical properties of dermal building-blocks affects extra cellular matrix assembly in 3D endogenous macrotissue.Novel strategies to engineering biological tissue in vitro.A novel engineered dermis for in vitro photodamage research.Engineered dermal equivalent tissue in vitro by assembly of microtissue precursors.Effect of Process Conditions on the Growth of Three-Dimensional Dermal-Equivalent Tissue Obtained by Microtissue Precursor AssemblyComplementary therapeutic effects of dual delivery of insulin-like growth factor-1 and vascular endothelial growth factor by gelatin microspheres in experimental heart failureA three-dimensional microfluidized liver system to assess hepatic drug metabolism and hepatotoxicityIntestine-on-chip device increases ECM remodeling inducing faster epithelial cell differentiationIn Vitro Organotypic Systems to Model Tumor Microenvironment in Human Papillomavirus (HPV)-Related CancersIntrinsic Abnormalities of Cystic Fibrosis Airway Connective Tissue Revealed by an In Vitro 3D Stromal Model
P50
Q38787361-36AA1C46-052C-46B8-8591-D6B3B2669D2BQ47240535-476C6B87-C16F-4640-8EA7-39C03FBB1983Q47923495-80D4FEBB-D7D8-4E4A-8694-6F96F35B10B3Q48594267-ACFA61C4-DEFA-45BC-BAE7-FA361CF8FA00Q50205576-BA0F3A32-5729-4566-AEC3-E2A7A39DE6FDQ51024540-D52A5714-664B-4663-BAA5-5F7AE74EBF9CQ51105794-D84DD942-32AE-4A63-95C2-77D781C9A145Q51134071-A6176B48-65D4-47CB-87E6-9694CD0CC204Q51302576-BBBB5F49-BCEE-48A8-BA34-C369221CD75CQ51321270-15C8E89A-7BEF-424E-ADC3-83674D858ECEQ51469742-96678690-ADA4-40E8-A2D8-EA8472BFFA20Q51470732-E05E22AB-72A5-4697-8DB6-6C3D06DDAFFCQ51507163-F92882E2-39B9-4E39-9F47-FC6E67773B88Q51531623-261AE6F2-5251-4397-8CB0-EAB3BF9C46D2Q54444791-8EB66066-4FE5-4272-82F3-9889A05BDADBQ62470720-690196DD-9196-49F4-BBAD-1A85A2C3DCF6Q62470721-8640A093-EA05-4ACB-BB61-C28C6184C06DQ90533619-E385EA15-ECCF-4217-8DAE-12A2A0D52F03Q90623303-7065CED4-3439-419A-8C12-82BBD55CBBB7Q94582007-537DAB82-1BB9-4E64-8C62-3457F01AB052Q96125711-88D7E185-D46E-44B6-B47E-5D85339CD319
P50
description
hulumtuese
@sq
researcher
@en
wetenschapper
@nl
հետազոտող
@hy
name
Giorgia Imparato
@ast
Giorgia Imparato
@en
Giorgia Imparato
@es
Giorgia Imparato
@nl
Giorgia Imparato
@sl
type
label
Giorgia Imparato
@ast
Giorgia Imparato
@en
Giorgia Imparato
@es
Giorgia Imparato
@nl
Giorgia Imparato
@sl
prefLabel
Giorgia Imparato
@ast
Giorgia Imparato
@en
Giorgia Imparato
@es
Giorgia Imparato
@nl
Giorgia Imparato
@sl
P106
P1153
15061384500
P21
P31
P496
0000-0002-3500-0380