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https://www.readbyqxmd.com/read/29782142/projection-based-3d-printing-of-cell-patterning-scaffolds-with-multi-scale-channels
#1
Dai Xue, Yancheng Wang, Jiaxin Zhang, Deqing Mei, Yue Wang, Shaochen Chen
To fully actualize artificial, cell-laden biological models in tissue engineering, such as 3D organoids and organs-on-a-chip systems, cells need to be patterned such that they can precisely mimic natural microenvironments in vitro. Despite increasing interest in this area, patterning cells at multiscales (~10 μm - 10 mm) remains a significant challenge in bioengineering. Here we report a projection-based 3D printing system that achieves rapid and high-resolution fabrication of hydrogel scaffolds featuring intricate channels for multi-scale cell patterning...
May 21, 2018: ACS Applied Materials & Interfaces
https://www.readbyqxmd.com/read/29777757/stem-cell-based-retina-models
#2
Kevin Achberger, Jasmin C Haderspeck, Alexander Kleger, Stefan Liebau
From the early days of cell biological research, the eye-especially the retina-has evoked broad interest among scientists. The retina has since been thoroughly investigated and numerous models have been exploited to shed light on its development, morphology, and function. Apart from various animal models and human clinical and anatomical research, stem cell-based models of animal and human cells of origin have entered the field, especially during the last decade. Despite the observation that the retina of different species comprises endogenous stem cells, most stem cell-related research in the human retina is now based on pluripotent stem cell models...
May 16, 2018: Advanced Drug Delivery Reviews
https://www.readbyqxmd.com/read/29771306/drug-screening-for-human-genetic-diseases-using-ipsc-models
#3
Matthew S Elitt, Lilianne Barbar, Paul J Tesar
Induced pluripotent stem cells (iPSCs) enable the generation of previously unattainable, scalable quantities of disease-relevant tissues from patients suffering from essentially any genetic disorder. This cellular material has proven instrumental for drug screening efforts on these disorders, and has facilitated the identification of novel therapeutics for patients. Here we will review the foundational technologies that have enabled iPSCs, the power and limitations of iPSC-based compound screens along with screening guidelines, and recent examples of screening efforts...
May 16, 2018: Human Molecular Genetics
https://www.readbyqxmd.com/read/29770526/current-status-of-3-d-organoids-as-pre-clinical-models
#4
REVIEW
Garima Kaushik, Moorthy P Ponnusamy, Surinder K Batra
Three-dimensional (3D) cultures use the property of some cells to self-organize in matrices and generate structures that can be programmed to represent an organ or a pathology. Organoid cultures are the 3D cultivation of source tissue (ranging from cells to tissue fragments) in a support matrix and specialized media that nearly resembles the physiological environment. Depending on the source tissue, growth factors, and inhibitors provided, organoids can be programmed to recapitulate the biology of a system and progression of pathology...
May 17, 2018: Stem Cells
https://www.readbyqxmd.com/read/29760729/ceramic-hollow-fibre-constructs-for-continuous-perfusion-and-cell-harvest-from-3d-hematopoietic-organoids
#5
Mark C Allenby, Asma Tahlawi, José C F Morais, Kang Li, Nicki Panoskaltsis, Athanasios Mantalaris
Tissue vasculature efficiently distributes nutrients, removes metabolites, and possesses selective cellular permeability for tissue growth and function. Engineered tissue models have been limited by small volumes, low cell densities, and invasive cell extraction due to ineffective nutrient diffusion and cell-biomaterial attachment. Herein, we describe the fabrication and testing of ceramic hollow fibre membranes (HFs) able to separate red blood cells (RBCs) and mononuclear cells (MNCs) and be incorporated into 3D tissue models to improve nutrient and metabolite exchange...
2018: Stem Cells International
https://www.readbyqxmd.com/read/29755963/environmental-toxin-screening-using-human-derived-3d-bioengineered-liver-and-cardiac-organoids
#6
Steven D Forsythe, Mahesh Devarasetty, Thomas Shupe, Colin Bishop, Anthony Atala, Shay Soker, Aleksander Skardal
Introduction: Environmental toxins, such as lead and other heavy metals, pesticides, and other compounds, represent a significant health concern within the USA and around the world. Even in the twenty-first century, a plethora of cities and towns in the U.S. have suffered from exposures to lead in drinking water or other heavy metals in food or the earth, while there is a high possibility of further places to suffer such exposures in the near future. Methods: We employed bioengineered 3D human liver and cardiac organoids to screen a panel of environmental toxins (lead, mercury, thallium, and glyphosate), and charted the response of the organoids to these compounds...
2018: Frontiers in Public Health
https://www.readbyqxmd.com/read/29754563/new-synthetic-3d-culture-systems-to-unlock-the-future-of-organoids-in-research-and-therapy
#7
Colin Sanctuary
No abstract text is available yet for this article.
September 2017: Personalized Medicine
https://www.readbyqxmd.com/read/29743549/human-cortex-spheroid-with-a-functional-blood-brain-barrier-for-high-throughput-neurotoxicity-screening-and-disease-modeling
#8
Goodwell Nzou, R T Wicks, E E Wicks, S A Seale, C H Sane, A Chen, S V Murphy, J D Jackson, A J Atala
The integral selectivity characteristic of the blood brain barrier (BBB) limits therapeutic options for many neurologic diseases and disorders. Currently, very little is known about the mechanisms that govern the dynamic nature of the BBB. Recent reports have focused on the development and application of human brain organoids developed from neuro-progenitor cells. While these models provide an excellent platform to study the effects of disease and genetic aberrances on brain development, they may not model the microvasculature and BBB of the adult human cortex...
May 9, 2018: Scientific Reports
https://www.readbyqxmd.com/read/29742420/self-condensation-culture-enables-vascularization-of-tissue-fragments-for-efficient-therapeutic-transplantation
#9
Yoshinobu Takahashi, Keisuke Sekine, Tatsuya Kin, Takanori Takebe, Hideki Taniguchi
Clinical transplantation of tissue fragments, including islets, faces a critical challenge because of a lack of effective strategies that ensure efficient engraftment through the timely integration of vascular networks. We recently developed a complex organoid engineering method by "self-condensation" culture based on mesenchymal cell-dependent contraction, thereby enabling dissociated heterotypic lineages including endothelial cells to self-organize in a spatiotemporal manner. Here, we report the successful adaptation of this method for generating complex tissues from diverse tissue fragments derived from various organs, including pancreatic islets...
May 8, 2018: Cell Reports
https://www.readbyqxmd.com/read/29741670/cadmium-exposure-inhibits-branching-morphogenesis-and-causes-alterations-consistent-with-hif-1%C3%AE-inhibition-in-human-primary-breast-organoids
#10
Sabrina A Rocco, Lada Koneva, Lauren Y M Middleton, Tasha Thong, Sumeet Solanki, Sarah Karram, Kowit Nambunmee, Craig Harris, Laura S Rozek, Maureen A Sartor, Yatrik M Shah, Justin A Colacino
Developmental cadmium exposure in vivo disrupts mammary gland differentiation, while exposure of breast cell lines to cadmium causes invasion consistent with the epithelial-mesenchymal transition (EMT). The effects of cadmium on normal human breast stem cells have not been measured. Here, we quantified the effects of cadmium exposure on reduction mammoplasty patient-derived breast stem cell proliferation and differentiation. Using the mammosphere assay and organoid formation in 3D hydrogels, we tested two physiologically relevant doses of cadmium, 0...
May 7, 2018: Toxicological Sciences: An Official Journal of the Society of Toxicology
https://www.readbyqxmd.com/read/29736724/testing-susceptibility-of-patient-derived-organoid-cultures-to-therapies-pharmacotyping
#11
Richard A Burkhart, Lindsey A Baker, Hervé Tiriac
Increasingly, patient models of disease are being utilized to facilitate precision medicine approaches through molecular characterization or direct chemotherapeutic testing. Organoids, 3-dimensional (3D) cultures of neoplastic cells derived from primary tumor specimens, represent an ideal platform for these types of studies because benchtop protocols previously developed for 2-dimensional cell lines can be adapted for use. These protocols include directly testing the survival of these organoid cultures when exposed to clinically relevant chemotherapeutic agents, a process we have called pharmacotyping...
2018: Methods in Molecular Biology
https://www.readbyqxmd.com/read/29713660/esophageal-3d-culture-systems-as-modeling-tools-in-esophageal-epithelial-pathobiology-and-personalized-medicine
#12
REVIEW
Kelly A Whelan, Amanda B Muir, Hiroshi Nakagawa
The stratified squamous epithelium of the esophagus shows a proliferative basal layer of keratinocytes that undergo terminal differentiation in overlying suprabasal layers. Esophageal pathologies, including eosinophilic esophagitis, gastroesophageal reflux disease, Barrett's esophagus, squamous cell carcinoma, and adenocarcinoma, cause perturbations in the esophageal epithelial proliferation-differentiation gradient. Three-dimensional (3D) culture platforms mimicking in vivo esophageal epithelial tissue architecture ex vivo have emerged as powerful experimental tools for the investigation of esophageal biology in the context of homeostasis and pathology...
2018: Cellular and Molecular Gastroenterology and Hepatology
https://www.readbyqxmd.com/read/29693604/adult-stem-cells-spheroids-to-optimize-cell-colonization-in-scaffolds-for-cartilage-and-bone-tissue-engineering
#13
REVIEW
Leandra Santos Baptista, Gabriela Soares Kronemberger, Isis Côrtes, Letícia Emiliano Charelli, Renata Akemi Morais Matsui, Thiago Nunes Palhares, Jerome Sohier, Alexandre Malta Rossi, José Mauro Granjeiro
Top-down tissue engineering aims to produce functional tissues using biomaterials as scaffolds, thus providing cues for cell proliferation and differentiation. Conversely, the bottom-up approach aims to precondition cells to form modular tissues units (building-blocks) represented by spheroids. In spheroid culture, adult stem cells are responsible for their extracellular matrix synthesis, re-creating structures at the tissue level. Spheroids from adult stem cells can be considered as organoids, since stem cells recapitulate differentiation pathways and also represent a promising approach for identifying new molecular targets (biomarkers) for diagnosis and therapy...
April 25, 2018: International Journal of Molecular Sciences
https://www.readbyqxmd.com/read/29692415/organoids-in-cancer-research
#14
REVIEW
Jarno Drost, Hans Clevers
The recent advances in in vitro 3D culture technologies, such as organoids, have opened new avenues for the development of novel, more physiological human cancer models. Such preclinical models are essential for more efficient translation of basic cancer research into novel treatment regimens for patients with cancer. Wild-type organoids can be grown from embryonic and adult stem cells and display self-organizing capacities, phenocopying essential aspects of the organs they are derived from. Genetic modification of organoids allows disease modelling in a setting that approaches the physiological environment...
April 24, 2018: Nature Reviews. Cancer
https://www.readbyqxmd.com/read/29687599/mass-spectrometry-imaging-of-3d-tissue-models
#15
Cristina Russo, Emily E L Lewis, Lucy Flint, Malcolm R Clench
A 3D cell culture is an artificially created environment in which cells are permitted to grow/interact with their surroundings in all three dimensions. Derived from 3D cell culture, organoids are generally small-scale constructs of cells that are fabricated in the laboratory to serve as 3D representations of in vivo tissues and organs. Due to regulatory, economic and societal issues concerning the use of animals in scientific research it seems clear that the use of 3D cell culture and organoids in for example early stage studies of drug efficacy and toxicity will increase...
April 24, 2018: Proteomics
https://www.readbyqxmd.com/read/29687387/three-dimensional-magnetic-levitation-culture-system-simulating-white-adipose-tissue
#16
Hubert Tseng, Alexes C Daquinag, Glauco R Souza, Mikhail G Kolonin
White adipose tissue (WAT) has attracted interest for tissue engineering and cell-based therapies as an abundant source of adipose stem/stromal cells (ASC). However, technical challenges in WAT cell culture have limited its applications in regenerative medicine. Traditional two-dimensional (2D) cell culture models, which are essentially monolayers of cells on glass or plastic substrates, inadequately represent tissue architecture, biochemical concentration gradients, substrate stiffness, and most importantly for WAT research, cell phenotypic heterogeneity...
2018: Methods in Molecular Biology
https://www.readbyqxmd.com/read/29673279/advanced-development-of-primary-pancreatic-organoid-tumor-models-for-high-throughput-phenotypic-drug-screening
#17
Shurong Hou, Hervé Tiriac, Banu Priya Sridharan, Louis Scampavia, Franck Madoux, Jan Seldin, Glauco R Souza, Donald Watson, David Tuveson, Timothy P Spicer
Traditional high-throughput drug screening in oncology routinely relies on two-dimensional (2D) cell models, which inadequately recapitulate the physiologic context of cancer. Three-dimensional (3D) cell models are thought to better mimic the complexity of in vivo tumors. Numerous methods to culture 3D organoids have been described, but most are nonhomogeneous and expensive, and hence impractical for high-throughput screening (HTS) purposes. Here we describe an HTS-compatible method that enables the consistent production of organoids in standard flat-bottom 384- and 1536-well plates by combining the use of a cell-repellent surface with a bioprinting technology incorporating magnetic force...
April 1, 2018: SLAS Discovery
https://www.readbyqxmd.com/read/29670173/overexpression-of-her2-in-the-pancreas-promotes-development-of-intraductal-papillary-mucinous-neoplasms-in-mice
#18
Wataru Shibata, Hiroto Kinoshita, Yohko Hikiba, Takeshi Sato, Yasuaki Ishii, Soichiro Sue, Makoto Sugimori, Nobumi Suzuki, Kosuke Sakitani, Hideaki Ijichi, Ryutaro Mori, Itaru Endo, Shin Maeda
Pancreatic ductal adenocarcinoma (PDA) has a 5-year survival rate of less than 5% and is the sixth leading cause of cancer death. Although KRAS mutations are one of the major driver mutations in PDA, KRAS mutation alone is not sufficient to induce invasive pancreatic cancer in mice model. HER2, also known as ERBB2, is a receptor tyrosine kinase, and overexpression of HER2 is associated with poor clinical outcomes in pancreatic cancer. However, no report has shown whether HER2 and its downstream signaling contributes to the pancreatic cancer development...
April 18, 2018: Scientific Reports
https://www.readbyqxmd.com/read/29669293/three-dimensional-human-ipsc-derived-artificial-skeletal-muscles-model-muscular-dystrophies-and-enable-multilineage-tissue-engineering
#19
Sara Martina Maffioletti, Shilpita Sarcar, Alexander B H Henderson, Ingra Mannhardt, Luca Pinton, Louise Anne Moyle, Heather Steele-Stallard, Ornella Cappellari, Kim E Wells, Giulia Ferrari, Jamie S Mitchell, Giulia E Tyzack, Vassilios N Kotiadis, Moustafa Khedr, Martina Ragazzi, Weixin Wang, Michael R Duchen, Rickie Patani, Peter S Zammit, Dominic J Wells, Thomas Eschenhagen, Francesco Saverio Tedesco
Generating human skeletal muscle models is instrumental for investigating muscle pathology and therapy. Here, we report the generation of three-dimensional (3D) artificial skeletal muscle tissue from human pluripotent stem cells, including induced pluripotent stem cells (iPSCs) from patients with Duchenne, limb-girdle, and congenital muscular dystrophies. 3D skeletal myogenic differentiation of pluripotent cells was induced within hydrogels under tension to provide myofiber alignment. Artificial muscles recapitulated characteristics of human skeletal muscle tissue and could be implanted into immunodeficient mice...
April 17, 2018: Cell Reports
https://www.readbyqxmd.com/read/29656237/vascularized-microfluidic-organ-chips-for-drug-screening-disease-models-and-tissue-engineering
#20
REVIEW
Tatsuya Osaki, Vivek Sivathanu, Roger D Kamm
Vascularization of micro-tissues in vitro has enabled formation of tissues larger than those limited by diffusion with appropriate nutrient/gas exchange as well as waste elimination. Furthermore, angiocrine signaling from the vasculature may be essential in mimicking organ-level functions in these micro-tissues. In drug screening applications, the presence of an appropriate blood-organ barrier in the form of a vasculature and its supporting cells (pericytes, appropriate stromal cells) may be essential to reproducing organ-scale drug delivery pharmacokinetics...
April 12, 2018: Current Opinion in Biotechnology
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