Tag: Glial Cells

Delve into the fundamental architecture of the human brain by exploring the distinct roles of gray matter and white matter, as revealed in a cadaveric brain section. This article explains how gray matter forms the brain's outer cortex, responsible for processing information, while white matter facilitates rapid communication across different brain regions. Gain crucial insights into these critical components for a deeper understanding of neurological function and health.

Glial cells, often overshadowed by neurons, are indispensable components of the central nervous system (CNS), outnumbering neurons and providing critical support for neural function, maintenance, and protection. This diagram illustrates the four main types of glial cells in the CNS—astrocytes, oligodendrocytes, microglia, and ependymal cells—depicted in their typical interactions with neurons, highlighting how they insulate axons, regulate the extracellular environment, defend against pathogens, and facilitate fluid movement. Understanding these cells reveals their dynamic roles beyond mere support, including active participation in synaptic signaling and response to injury, essential for overall brain health and spinal cord integrity.

Neurons are the fundamental units of the nervous system, responsible for transmitting signals throughout the body. This article delves into the anatomical structure of a neuron, highlighting its key components such as the soma, dendrites, and axon, as illustrated in a detailed diagram and micrograph. By exploring the neuron's structure and physical characteristics, we uncover its critical role in facilitating communication within the nervous system, supported by a labeled illustration and a microscopic view at 1600x magnification.

The human body is composed of four primary types of tissues—nervous, epithelial, muscle, and connective—each playing a distinct role in maintaining structure and function. This article examines a micrograph set from the Regents of University of Michigan Medical School, showcasing nervous tissue, stratified squamous epithelial tissue, cardiac muscle tissue, and connective tissue. By exploring these tissues through detailed images, we gain insight into their unique characteristics and contributions to overall physiology.

The image offers a detailed depiction of a neuron, highlighting the Node of Ranvier and its role within the peripheral nervous system (PNS). This illustration provides a clear view of the neuron’s structure, including the cell body, axon, and supporting Schwann cells, which are essential for nerve impulse transmission.