Home › Forums › *Journal Club › 3D Culture Models and Hot Off The Press Research
Tagged: ADME/Tox, Cancer, Immunology, Infectious Disease, Neuroscience
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Stephen Riffle 11/04/2022 at 7:01 pm
Hi All,
Evidently this past week was the time to publish reviews! We’ve got a long list of what seems like great research below, so let’s just cut straight to it:
Reminder: If you haven’t already done it, be sure to check out our Water Cooler Chat forum as well as our Perspectives forum for some general discussions from the industry.
Organ-Chips and MPS
- Organs-on-Chips: Trends and Challenges in Advanced Systems Integration
- Organ-On-A-Chip Technology: An In-depth Review of Recent Advancements and Future of Whole Body-on-chip
- Neuron(s)-on-a-chip: A review of the design and use of microfluidic systems for neural tissue culture
- Skin-on-a-chip strategies for human hair follicle regeneration
- Kidney-on-a-Chip
- Human Brain Organoids-on-Chip: Advances, Challenges, and Perspectives for Preclinical Applications
- Tumor-on-a-chip: new strategies of in-vitro cancer cell culture.
- Microfluidic Biotechnology for “Bone-on-a-Chip”
- Heart-on-a-chip platforms and biosensor integration for disease modeling and phenotypic drug screening
- Novel Silicone Elastomers for extrusion-based 3D printing for organ-on-a-chip applications
- Testing of drugs using human feto-maternal interface organ-on-chips provide insights into pharmacokinetics and efficacy
- On-chip analysis of glycolysis and mitochondrial respiration in human induced pluripotent stem cells
- Precise and fast control of the dissolved oxygen level for tumor-on-chip
- Design of a flexing organ-chip to model in situ loading of the intervertebral disc
- An Engineered Paper-Based 3D Co-Culture Model of Pancreatic Cancer to Study the Impact of Tissue Architecture and Microenvironmental Gradients on Cell Phenotype
- Culturing Caco-2 cells on a microfluidic device
- Developmental biology-inspired tissue engineering by combining organoids and 3D bioprinting
- Vascular Transcriptomics: Investigating Endothelial Activation and Vascular Dysfunction Using Blood Outgrowth Endothelial Cells, Organ-Chips, and RNA Sequencing
- Microfabricated Polymer-Metal Biosensors For Multifarious Data Collection From Electrogenic Cellular Models
- Deformation but not convection induced by intraluminal pressure enhances transport through barrier tissues
- Bioengineered Pancreas–Liver Crosstalk in a Microfluidic Coculture Chip Identifies Human Metabolic Response Signatures in Prediabetic Hyperglycemia
Organoids, MCTS, and 3D Suspension Cultures
- Strategies for 3D bioprinting of spheroids: A comprehensive review
- Translating Organoids into Artificial Kidneys
- A High-Throughput Platform for Culture and 3D Imaging of Organoids.
- Learning About Blast Injuries from Brain Organoids: A New Frontier
- Advanced in vitro models: Microglia in action
- Three-Dimensional Culture of Murine Colonic Crypts to Study Intestinal Stem Cell Function Ex Vivo.
- Mechanical stretching boosts expansion and regeneration of intestinal organoids through fueling stem cell self-renewal
- Moving beyond the moral status of organoid-entities
- Fabrication of Cell Spheroids for 3D Cell Culture and Biomedical Applications
- A rapid high throughput bioprinted colorectal cancer spheroid platform for in vitro drug- and radiation-response
- Pancreas organoid models of development and regeneration
- Mesenchymal stromal cell spheroids in sulfated alginate enhance muscle regeneration
- Abstract 14641: Diastolic Dysfunction “In a Dish“- A Novel Organoid Model of Heart Failure With Preserved Ejection Fraction
- Abstract 14625: Strategies for Maturation of Cardiovascular Organoids for Modeling Acquired and Inherited Adult-Onset Cardiomyopathies
- Critical growth of cerebral tissue in organoids: theory and experiments
- Developmental biology-inspired tissue engineering by combining organoids and 3D bioprinting
- Chondrogenesis of Adipose-Derived Stem Cells Using an Arrayed Spheroid Format
- Stress Relaxation-Induced Colon Tumor Multicellular Spheroid Culture Based on Biomimetic Hydrogel for Nanoenzyme Ferroptosis Sensitization Evaluation
- Organoid research on human early development and beyond
- Single-cell transcriptional and functional analysis of dopaminergic neurons in organoid-like cultures derived from human fetal midbrain
- High content screening of ovarian organoid models to accelerate anti-cancer drug discovery
- Organoid models of heart diseases: find a new channel in improvements of cardiac regenerative medicine.
- Development of bioinformatics and multi-omics analyses in organoids.
- Standardization of viability assays and high-content live-cell imaging protocols for large-scale drug testing in prostate cancer PDX-derived organoids
- Stress and viral insults do not trigger E200K PrP conversion in human cerebral organoids
- Advancing Intestinal Organoid Technology to DecipherNano-Intestine Interactions and Treat Intestinal Disease
- Organoid Technologies for SARS-CoV-2 Research
- 3D imaging analysis on an organoid-based platform guides personalized treatment in pancreatic ductal adenocarcinoma
- The rearrangement of co-cultured cellular model systems via collective cell migration
- Assessment of Antitumor and Antiproliferative Efficacy and Detection of Protein-Protein Interactions in Cancer Cells from 3D Tumor Spheroids
Hydrogels and biomaterial scaffolds
- Abstract 15845: Microfabricated Anisotropic Tissue Bundles for the Production of 3D Cardiac Tissue at Scale
- Bioprinted and manual human epidermis production: A compared performance for skin irritation tests
- Galactose Tethered Decellularized Liver Matrix: Toward a Biomimetic and Biofunctional Matrix for Liver Tissue Engineering
- Techniques for Biofabrication of Vascular and Vascularized Tissue
Miscellaneous but no less relevant
- Advances in 3D culture systems for therapeutic discovery and development in brain cancer
- Three-Dimensional in Vitro Models: A Promising Tool To Scale-Up Breast Cancer Research
- In Vivo, Ex Vivo, and In Vitro Models Systems for Liver Cancer Research
- Configurable Models of the Neurovascular Unit
- Bioactivity and toxicity evaluation of nutraceuticals using in vitro cell-based models: A review
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