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Application Note Nana-Fatima Haruna, Bhavya Shah,John Huang TheWell Bioscience, North Brunswick, NJ 08902 Introduction There is an increasing need for the generation of data that accurately reflects the biological systems of patients 1-3. To achieve this goal, researchers need to study disease models in microenvironments that depict the complex human extracellular matrix and support the […]
Application Note Nana-Fatima Haruna, Bhavya Shah, John Huang TheWell Bioscience, North Brunswick, NJ 08902 Introduction Cancer is a very meticulous disease that involves heterogeneous solid tumors subjected to complex extracellular conditions. These conditions, such as hypoxia and extracellular compositions, contribute to the pathogenesis of the disease. The functional activity and gene expression patterns of the […]
Application Note Nana-Fatima Haruna, John Huang TheWell Bioscience, North Brunswick, NJ 08902 Introduction Glioblastoma is the most common primary tumor in the central nervous system. With an incidence of 3–5 out of 100,000 persons in Western countries, glioblastoma is one of the most deadly forms of malignant tumors, which has a median survival time of […]
Application Note Nana-Fatima Haruna, Atsuo Ochi, John Huang TheWell Bioscience, North Brunswick, NJ 08902 Introduction Invasion studies have been crucial in identifying key intracellular signaling pathways and membrane-bound and soluble enzymes that influence cellular movement through a three dimensional (3D) extracellular matrix (ECM)1,2. Such information has been used to investigate mechanisms governing the infiltration of […]
Poster Presentation TheWell Bioscience Inc. Aragaw Gebeyehu1, Sunil Surapaneni1, John Huang2, Arindam Mondal1, Vivian Wang2, Nana-Fatima Haruna2, Peggy Arthur1, Shallu Kutlehria1, Nil Patel1, Mandip Sachdeva1 1College of Pharmacy and Pharmaceutical Sciences, Florida A&M University, Tallahassee, FL3230; 2TheWell Bioscience, Inc., North Brunswick NJ 08902 Abstract 3D bioprinting is intended for regenerative medicine and disease model development […]
Poster Presentation TheWell Bioscience Inc. Nana Fatima Haruna, Ziwen Vivian Wang, John Huang TheWell Bioscience, Inc., North Brunswick NJ 08902 Abstract The hydrogel-based 3D cell culture model more accurately depicts the microenvironment of cells in vivo than the traditional 2D cell culture system, which enables cells to grow, develop, operate, and produce feedback as if […]
Application Note TheWell Bioscience Inc. Introduction Glioblastoma is an aggressive type of cancer that occurs in the brain or spinal cord. Over the years, various models of glioblastoma have been developed to help understand the mechanism initiation and progression1,2. However, this has been complicated by the diverse and complex genetic and environmental factors that promote […]
Application Note TheWell Bioscience Inc. Introduction Mesenchymal stem cells are a type of adult multipotent stem cell that gives rise to bone, cartilage, adipose, and connective tissue. Over the last two decades, they have become a wildly popular potential alternative to embryonic stem cells for regenerative medicine because of their broad plasticity, immunomodulatory, and anti-inflammatory […]
A comparison study of VitroGel® and Matrigel® for long-term neuron maturation and survival in vitro Comparison Study Martin L. Tomov Stanley Center; Broad Institute of MIT and Harvard Introduction Three dimensional (3D) tissue cultures have numerous advantages compared to traditional two dimensional (2D) cultures [1; 5]. Minimizing exposure to hard surfaces can improve cell maturation […]
Application Note TheWell Bioscience Inc. Introduction In vitro assays have become increasingly popular in drug discovery applications because of their high throughput functionality and cost-effectiveness in conducting optimization and preclinical validation. Three-dimensional (3D) culture assays have become especially popular because compared to traditional two-dimensional (2D) cell culture, 3D culture provides a more physiologically relevant environment […]
Application Note TheWell Bioscience Inc. Introduction 3D culture has become the standard for studying complex systems, such as the tumor microenvironment (TME), in an in vitro setting. These systems allow for insight into the cell-cell interactions and communications that occur in vivo. Use of 3D matrices mimic the complex TME (2) and are even beginning […]
APPLICATION NOTES
Advanced 3D Luminal Breast Cancer Model in VitroGel® System: Long-term 3D Cell Culture and Co-culture with Fibroblast Cells
APPLICATION NOTES
Long Term 3D Tumor Spheroid Culture in VitroGel Hydrogel Matrix
APPLICATION NOTES
3D Invasion of Glioblastoma Cells in VitroGel Hydrogel System
APPLICATION NOTES
Using the VitroGel Hydrogel System as a Versatile Platform for Invasion Assay
APPLICATION NOTES
3D Printed Tumor Spheroids for Disease Modeling and Chemotherapeutic Drug Screening
APPLICATION NOTES
Characterizing the Biophysical Properties of a Tunable Hydrogel System for 3D Cell Culture
APPLICATION NOTES
3D Cell Culture of Glioblastoma Cell (U-87 MG) in VitroGel® Hydrogel System
APPLICATION NOTES
3D Cell Culture of Bone Marrow Stroma Cells (OP9) on VitroGel® Hydrogel System
APPLICATION NOTES
Long-Term Neuron Culture Maturation in 3D Hydrogel Constructs
APPLICATION NOTES
3D Cell Culture of Human Colon Cancer Cells (HCT116) on VitroGel® System
APPLICATION NOTES
3D Cell Culture of Human Pancreatic Cancer Cells (PANC-1) on VitroGel® System
