Lecture

Neural Stem Cells: Brain Development

Related lectures (32)

Neurodevelopment: Early Days in Human Embryonic Development

Explores neurodevelopment in human embryos, from neurulation to adult neurogenesis, highlighting the influence of environmental factors and the connection to depression.

Brain Development and Neurogenesis

Explores brain development, from neurulation to adult neurogenesis, emphasizing the influence of environmental factors and the potential impact on memory and brain recovery.

Embryonic Development: Stem Cells and Tissue Engineering

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

Stem Cells: Types, Regulation, and Applications

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

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.

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.

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.

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.

Adult Neurogenesis: Regulation & Significance

Delves into adult neurogenesis, covering its regulation, significance, and tools for study, with a focus on neural stem cell research for neurological diseases.

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: Basics and Applications

Explores the basics of stem cells, their types, applications, and challenges in research.

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.

Morphogenesis: Tissue-Level Phenomena

Explores tissue-level phenomena in morphogenesis, including cell sorting, migration, tissue boundaries, and morphogen gradients.

Airway Tissue Engineering: Anatomy, Physiology, and Future Developments

Explores airway anatomy, clinical conditions, ideal replacements, available options, and future developments in tissue engineering.

Tailoring Biomaterials for Stem Cell Biology

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

Tissue Engineering: Biomaterials and Stem Cells

Explores the requirements of materials for tissue engineering, focusing on stem cells and biomaterials' role in controlling stem-cell fate and tissue regeneration.

Stem Cells and Organoids

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

Organs and Organoids: Engineering and Applications

Explores the formation and applications of organs and organoids, highlighting their potential to revolutionize medical research.