Lecture

Biowall: electronic skin

Related lectures (21)

Cell Plasticity: Transcription Factors & Chromatin State

Delves into pioneer transcription factors, chromatin organization, and cell fate transitions, showcasing examples of reprogramming and discussing the potential applications in regenerative medicine.

Genomics: Transcription Factors and Reprogramming

Explores transcription factors in reprogramming somatic cells to induced pluripotent stem cells and the correlation between Hox gene expression and morphological boundaries.

Stem Cell Biology: Essentials and Applications

Covers the essentials of stem cell biology, including major types, properties, and applications, as well as challenges in research.

Stem Cell Applications: Models, Therapy, and Cloning

Explores the applications of embryonic stem cells in biomedical research, disease modeling, and potential therapeutic interventions, including the types of stem cells and the challenges they face.

Cell Plasticity: Transcription Factors and Chromatin State

Explores cell plasticity, transcription factors, and chromatin state in determining cell fate.

Neural Control of Movement: Sensorimotor Systems

Explores the neural control of movement, focusing on sensorimotor systems, spinal cord circuitry, and muscle stretch reflexes.

Stem Cell Biology Tools

Explores early embryogenesis, ES cell differentiation, disease modeling, neuronal function, genome editing, 'minibrains', in vitro retina and intestine, single-cell analysis, and lineage tracing.

Stem Cells: Types, Regulation, and Applications

Covers the basic notions about stem cells, their types, regulation, and potential applications in regenerative medicine.

Tissue Engineering: Stem Cells and Organoids

Explores tissue engineering with stem cells, organoids, and 3D printing technology for regenerative medicine.

Neural Stem Cells: Brain Development

Explores neural stem cells, brain development, adult neurogenesis, and tools for studying neurogenesis.

Organoids: Model Systems in Tissue Engineering

Explores the development and applications of organoids in tissue engineering and disease modeling using miniature in vitro constructs.

Stem Cells: Types, Regulation, and Lineage Tracing

Explores stem cell basics, regulation, lineage tracing methods, therapeutic potential, and ethical considerations.

Tailoring Biomaterials for Stem Cell Biology

Explores engineering artificial stem cell niches, biomaterial screening, and microarrayed niche fabrication.

Embryonic Development: Stem Cells and Tissue Engineering

Explores animal embryo development, focusing on stem cells and tissue engineering applications.

Stem Cell Niches: Regulation and Anatomy

Explores stem cell niches, focusing on regulation, anatomy, and therapeutic potential, shedding light on the complexity of stem cell regulation.

Stem Cells and Organoids

Covers stem cells, organoids, and their applications in healthcare and engineering.

Organoids: Miniature Multicellular Tissue Constructs

Explores organoids, miniature tissue constructs mimicking living tissues, covering derivation methods, applications, and bridging in vitro and in vivo models.

Stem Cells and Organoid Engineering

Delves into the rise of organoids and gastruloids through stem cell cultivation, exploring the potential applications of human stem cells.

Organoid Mechanobiology

Covers the formation and applications of organoids, including brain, skin, and intestinal organoids, as well as the engineering of tissues and the concept of organ-on-a-chip.

Hematopoietic Stem Cells: Clinical Applications & Assays

Explores the clinical relevance of hematopoietic stem cells, including transplantation procedures, assays, and clinical applications.