Histology Collection (page 5)

Alveoli
Medicine - Human Histology - Respiratory system - Lungs - Alveoli under microscope

Lung tissue specimen
Medicine - Human Histology - Respiratory system - Lungs - Microscopic view of a lung tissue specimen

Endocardium with red blood cells
Medicine - Human Histology - Circulatory system - Heart - Endocardium with red blood cells under the microscope

Animal cells, neuron
Biology - Histology - Animal cells - Neuron

Bones, Osseous tissue of femur, extreme close-up
Medicine - Human Histology - Bones - Osseous tissue of a femur under microscope

Biology, Anatomy, Human Histology, Muscle tissue
Biology - Anatomy - Human Histology - Muscle tissue

Biology, Anatomy, Human Histology, Nervous tissue, pyramidal cells of the brain
Biology - Anatomy - Human Histology - Nervous tissue, pyramidal cells of the brain

Human skin section, light micrograph
Human skin. Light micrograph of a section through healthy human skin. The outer surface of the skin is at top. The uppermost surface is the epidermis

Human skin section, light micrograph P710 / 0472
Human skin. Light micrograph of a section through healthy human skin. The outer surface of the skin is at top. The uppermost surface is the epidermis

Scalp skin showing hair follicles, LM
Scalp skin. Light micrograph of a section through skin from the scalp. Numerous hair shafts are seen (purple rings), which are surrounded by connective tissue (dark blue)

Eosinophil white blood cell, TEM C014 / 1438
Eosinophil white blood cell. Transmission electron micrograph (TEM) of a section through an eosinophil. Eosinophils, like all white blood cells, are part of the bodys immune system

Bladder lining, TEM C014 / 1473
Bladder lining. Transmission electron micrograph (TEM) of a section through the epithelial cells that line of a human bladder, showing large flat vesicles (large, blue)

Intestinal gland cell, TEM C014 / 1441
Intestinal gland cell. Transmission electron micrograph (TEM) of a section through an undifferentiated cell from the intestinal tract, showing extensive rough endoplasmic reticulum (ER)

Cotton stem, confocal micrograph C014 / 4636
Cotton stem. Laser scanning confocal micrograph (LSCM) of a section through the stem of a cotton (Gossypium sp.) plant

Stem cell-derived retinal cells. Fluorescence light micrograph of retinal pigment epithelium (RPE) cells that have been derived from human embryonic stem cells (HESC)

Small intestine, light micrograph
Small intestine. Light micrograph of a section through the small intestine. The finger-like projections at left are the villi. These increase the surface area for the absorption of food

Stem cell-derived neurons, micrograph
Stem cell-derived neurons. Light micrograph of human nerve cells (neurons) that have been derived from induced pluripotent stem cells (IPS). Tuj1 proteins are cyan, and cell nuclei are red

Astrocyte brain cells, light micrograph
Astrocyte brain cells. Fluorescence light micrograph of primary astrocyte cells from the brain of a mouse. Astrocytes have numerous branches of connective tissue that provide support

Intestinal gland cell, TEM C014 / 1440
Intestinal gland cell. Transmission electron micrograph (TEM) of a section through an undifferentiated cell from the intestinal tract, showing extensive rough endoplasmic reticulum (ER)

Cartilage cell, TEM C014 / 1432
Cartilage cell. Transmission electron micrograph (TEM) of a section through a chondrocyte cell from hyaline cartilage of the trachea (windpipe)

Light microscope C014 / 1407
Light microscope, seen in silhouetted profile. This microscope has a binocular eyepiece (an eyepiece for each eye). The sample is placed on a glass slide on the mount below centre

Biopsy slides F007 / 0316
Biopsy slides

Eosinophil white blood cell, TEM C014 / 1437
Eosinophil white blood cell. Transmission electron micrograph (TEM) of a section through an eosinophil. Eosinophils, like all white blood cells, are part of the bodys immune system

Brain nerve cells, TEM C014 / 0357
Brain nerve cells. Transmission electron micrograph (TEM) of a section through brain tissue from the cerebral cortex, showing numerous neurons (nerve cells) surrounded by axons and dendrites

Eosinophil white blood cell, TEM C014 / 1439
Eosinophil white blood cell. Transmission electron micrograph (TEM) of a section through an eosinophil. Eosinophils, like all white blood cells, are part of the bodys immune system

Golgi apparatus, artwork F006 / 9211
Computer artwork of the Golgi apparatus of the human cell. This organelle functions as a central delivery system for the cell

Golgi apparatus, artwork F006 / 9199
Computer artwork of the Golgi apparatus of the human cell. This organelle functions as a central delivery system for the cell

Golgi apparatus, artwork F006 / 9189
Computer artwork of the Golgi apparatus of the human cell. This organelle functions as a central delivery system for the cell

Stem cell-derived astrocyte brain cells
Stem cell-derived nerve cells. Fluorescence light micrograph of astrocyte brain cells that have been derived from neural (nerve) stem cells from a mouse

Bamboo stem, SEM C015 / 5073
Bamboo stem. Coloured environmental scanning electron micrograph (ESEM) of a section through the stem of a bamboo plant (family Gramineae), showing a vascular bundle

Oocyte, light micrograph
Oocyte. Light micrograph of a section through an oocyte within a early antral follicle in an ovary. Oocytes are immature ova, or egg cells

Cardiac muscle, light micrograph
Cardiac muscle. Light micrograph of a section through muscle tissue from a heart, showing the cardiomyocyte cells. Heart muscle cells show central nuclei but the dominant feature is the abundance of

Colitis, light micrograph
Colitis. Light micrograph of a section through colon (large intestine) tissue affected by bacterial infection, causing injury to the mucosal lining, which has resulted in inflammation (colitis)

Hairy scalp skin, light micrograph
Hairy scalp skin. Light micrograph of a section through healthy skin from a human scalp, showing the numerous hair follicles. The scalp is an example of hairy skin

Oxalosis, light micrograph
Oxalosis. Light micrograph of a section through adult bone tissue affected by oxalosis (primary hyperoxaluria), showing mature bone (green)

Peripheral nerve, light micrograph
Peripheral nerve. Light micrograph of a section through a peripheral nerve. This is a mixed nerve with myelinated axons (dark blue circles)

Ischaemic bowel, light micrograph
Ischaemic bowel. Light micrograph of a section through a portion of intestine that has been damaged by an interruption of the blood supply, or ischaemia

Nerve ganglion, light micrograph
Nerve ganglion. Light micrograph of a section through a dorsal (sensory) spinal root ganglion associated with a sensory nerve root of the spinal cord. Sensory information from peripheral sites e.g

Myelinated nerve, light micrograph
Myelinated nerve. Light micrograph of a section through a peripheral myelinated nerve, showing many individual axons each covered with deep blue-staining myelin sheaths

Glial cells, light micrograph
Glial cells in the brain. Light micrograph of a section through glial cells (dark) in the grey matter of the brain. Due to their star shape these glial cells are called astrocytes

Algae cell wall, SEM
Algae cell wall. Coloured scanning electron micrograph (SEM) of cellulose microfibrils (strands) in a Chaetomorpha sp. algal cell wall

Cirrhosis of the liver, light micrograph
Cirrhosis of the liver. Light micrograph of a section through liver tissue affected by cirrhosis, showing a cluster of hepatocyte cells (orange)

Lassa virus particles, TEM C016 / 9409
Lassa virus particles. Transmission electron micrograph (TEM) of Lassa virus particles (virions, blue) amongst cell debris. This Arenavirus is the cause of Lassa fever

Acute haemorrhagic conjunctivitis, TEM C016 / 9387
Acute haemorrhagic conjunctivitis. Transmission electron micrograph (TEM) of a sample of tissue from the conjunctiva of a human eye that is infected by enterovirus particles (purple)

Eastern equine encephalitis, TEM C016 / 9390
Eastern equine encephalitis. Transmission electron micrograph (TEM) of a section through tissue from a human central nervous system (CNS)

Colorado tick fever virus infection, TEM C016 / 9384
Colorado tick fever virus infection. Transmission electron micrograph (TEM) of human tissue infected by Colorado tick fever virus (CTFV) particles (virions, dark circles)

Swine flu virus particles, TEM C016 / 9399
Swine flu virus particles. Transmission electron micrograph (TEM) of a section through H3N2 influenza A virus particles (virions)

Swine flu virus particles, TEM C016 / 9406
Influenza virus particles. Transmission electron micrograph (TEM) of influenza (flu) virus particles (virions). Each virion consists of ribonucleic acid (RNA, dark patches)

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Histology, the study of tissues at a microscopic level, unveils the intricate beauty and complexity of our body's structures. Through techniques like light micrography and transmission electron microscopy (TEM), scientists have been able to explore various tissues and unravel their secrets. One such tissue is the cerebellum, which plays a crucial role in coordinating movement and balance. By examining cerebellum tissue under a light microscope, we can observe its distinct layers and cell types. The synapse nerve junctions captured through TEM reveal the precise connections between neurons that allow for seamless communication. In 1894, Spanish histologist Santiago Ramon y Cajal created an exquisite drawing showcasing different cell types within the mammalian cerebellum. His meticulous work laid the foundation for understanding neural networks. Moving beyond just one region of the brain, histologists also delve into other fascinating areas like the hippocampus. Microscopic examination of hippocampus brain tissue provides insights into memory formation and spatial navigation. Purkinje nerve cells found within the cerebellum are particularly captivating under scrutiny. Their elaborate branching patterns give rise to their unique appearance when observed through a microscope slide. Histological studies extend beyond neurological tissues; they encompass organs throughout our body systems as well. For instance, kidney tubules in section offer glimpses into renal function while highlighting their structural organization. The human brain itself holds countless mysteries waiting to be unraveled by histologists examining microscope slides containing delicate slices of this complex organ. These slides provide glimpses into both healthy brains and those affected by diseases like Alzheimer's - offering valuable insights into neurodegenerative disorders. Exploring deeper with TEM reveals cellular components such as rough endoplasmic reticulum - an organelle involved in protein synthesis - providing detailed views at nanoscale resolution. Histology not only focuses on neurons but also encompasses glial cells that support neuronal functions. Light micrographs capturing glial stem cell cultures showcase the potential for regeneration and repair within the nervous system.