Schwann cell hi-res stock photography and images

Axon surrounded by its myelin sheath made up of differentiated Schwann cells. Stock Photo

RF2JKWRK1–Axon surrounded by its myelin sheath made up of differentiated Schwann cells.

$Nerve. Coloured scanning electron micrograph (SEM) of a freeze-fracture through a peripheral nerve. Schwann cells wraps their cell membrane around the nerve a number of times. In-between each cell membrane layer is a layer of myelin (pink), an electrically insulating fatty layer. A Schwann cell effectively thickens a nerve's membrane and increases the speed at which nerve impulses are relayed. The myelin surrounds the axons (cream). Endoneurial connective tissue (yellow) envelopes the nerve fibers. Magnification: x150 when printed at 10 centimetres wide. Stock Photo$

RF2BT3PHF–Nerve. Coloured scanning electron micrograph (SEM) of a freeze-fracture through a peripheral nerve. Schwann cells wraps their cell membrane around the nerve a number of times. In-between each cell membrane layer is a layer of myelin (pink), an electrically insulating fatty layer. A Schwann cell effectively thickens a nerve's membrane and increases the speed at which nerve impulses are relayed. The myelin surrounds the axons (cream). Endoneurial connective tissue (yellow) envelopes the nerve fibers. Magnification: x150 when printed at 10 centimetres wide.

Multiple sclerosis or MS autoimmune disease with healthy nerve and damaged myelin with exposed fibre with scarrred schwann cell sheath loss. Stock Photo

RFR9CMW3–Multiple sclerosis or MS autoimmune disease with healthy nerve and damaged myelin with exposed fibre with scarrred schwann cell sheath loss.

Anatomy of a typical neuron. Structure of nerve cell: axon, synapse, dendrite, myelin sheath, node Ranvier and Schwann cell. Vector diagram Stock Vector

RF2PEC79P–Anatomy of a typical neuron. Structure of nerve cell: axon, synapse, dendrite, myelin sheath, node Ranvier and Schwann cell. Vector diagram

False colour transmission electron microscope (TEM) micrograph showing several myelinated fibers (green) and a Schwann cell (in the center) containing Stock Photo

RF2E9GN6N–False colour transmission electron microscope (TEM) micrograph showing several myelinated fibers (green) and a Schwann cell (in the center) containing

Peripheral nerve. Light micrograph of a cross section through an osmium-fixed peripheral nerve fascicle. Stock Photo

RF2JA79PB–Peripheral nerve. Light micrograph of a cross section through an osmium-fixed peripheral nerve fascicle.

Theodor Schwann 1810-1882 German Physician Physiologist Stock Photo

RM2F2FAD7–Theodor Schwann 1810-1882 German Physician Physiologist

Neurons and glial cells (Neuroglia) in brain (oligodendrocyte, microglia, astrocytes and Schwann cells), ependymal cells (ependymocytes). Vector Stock Vector

RF2PM2ADD–Neurons and glial cells (Neuroglia) in brain (oligodendrocyte, microglia, astrocytes and Schwann cells), ependymal cells (ependymocytes). Vector

A diagram nerveus cell.Vector illustration. Stock Vector

RF2WKM629–A diagram nerveus cell.Vector illustration.

Neuron and Neuroglia. Structure and components of a neuron: dendrites, synapses, axon, myelin sheath, nodes of Ranvier, and Schwann cells. supportive Stock Vector

RF2PK53F5–Neuron and Neuroglia. Structure and components of a neuron: dendrites, synapses, axon, myelin sheath, nodes of Ranvier, and Schwann cells. supportive

3d rendering of Sensory neurons or afferent neurons, are nerve cells that receive stimuli from sensory organs and send messages to the nervous system Stock Photo

RF2XMNDAF–3d rendering of Sensory neurons or afferent neurons, are nerve cells that receive stimuli from sensory organs and send messages to the nervous system

Cells of human's brain. Neuron and glial cells (Microglia, astrocyte and oligodendrocyte). Vector diagram for educational, medical, biological use Stock Vector

RF2PM2A0A–Cells of human's brain. Neuron and glial cells (Microglia, astrocyte and oligodendrocyte). Vector diagram for educational, medical, biological use

RF2X84KHR–Vector black line icon for nerve entrapment

Multiple sclerosis. autoimmune disease. comparison of a healthy neuron and a neuron with a damaged myelin sheath. MS nerve damaged by immune system Stock Vector

RF2R3W70B–Multiple sclerosis. autoimmune disease. comparison of a healthy neuron and a neuron with a damaged myelin sheath. MS nerve damaged by immune system

Peripheral nervous system (PNS). Light micrograph of a cross section through an osmium-fixed peripheral nerve fascicle. Stock Photo

RF2J2C0T5–Peripheral nervous system (PNS). Light micrograph of a cross section through an osmium-fixed peripheral nerve fascicle.

3D image of Sulfatide skeletal formula - molecular chemical structure of 3-O-sulfogalactosylceramide isolated on white background Stock Photo

RF2K97D21–3D image of Sulfatide skeletal formula - molecular chemical structure of 3-O-sulfogalactosylceramide isolated on white background

Microscopic view of nerve fibers. A nerve fiber is a threadlike extension of a nerve cell in the nervous system. Stock Photo

RFE8P6CY–Microscopic view of nerve fibers. A nerve fiber is a threadlike extension of a nerve cell in the nervous system.

Matthias Jakob Schleiden (April 5, 1804 - June 23, 1881) was a German botanist and co-founder of cell theory, along with Theodor Schwann and Rudolf Virchow. While a professor of botany at the University of Jena, he wrote Contributions to our Knowledge of Phytogenesis (1838), in which he stated that all parts of the plant organism are composed of cells. Stock Photo

RMT96JK3–Matthias Jakob Schleiden (April 5, 1804 - June 23, 1881) was a German botanist and co-founder of cell theory, along with Theodor Schwann and Rudolf Virchow. While a professor of botany at the University of Jena, he wrote Contributions to our Knowledge of Phytogenesis (1838), in which he stated that all parts of the plant organism are composed of cells.

THEODOR SCHWANN (1810-1882) German physiologist Stock Photo

RMKCWF5X–THEODOR SCHWANN (1810-1882) German physiologist

RF2JKWRTK–Axon surrounded by its myelin sheath made up of differentiated Schwann cells.

$Nerve. Coloured scanning electron micrograph (SEM) of a freeze-fracture through a peripheral nerve. Schwann cells wraps their cell membrane around the nerve a number of times. In-between each cell membrane layer is a layer of myelin (brown), an electrically insulating fatty layer. A Schwann cell effectively thickens a nerve's membrane and increases the speed at which nerve impulses are relayed. The myelin surrounds the axons (purple). Endoneurial connective tissue (pink) envelopes the nerve fibers. Magnification: x150 when printed at 10 centimetres wide. Stock Photo$

RF2BT3PJ8–Nerve. Coloured scanning electron micrograph (SEM) of a freeze-fracture through a peripheral nerve. Schwann cells wraps their cell membrane around the nerve a number of times. In-between each cell membrane layer is a layer of myelin (brown), an electrically insulating fatty layer. A Schwann cell effectively thickens a nerve's membrane and increases the speed at which nerve impulses are relayed. The myelin surrounds the axons (purple). Endoneurial connective tissue (pink) envelopes the nerve fibers. Magnification: x150 when printed at 10 centimetres wide.

RMT2R1G0–Schwann cell

RF2NMMATA–Nerve cell, illustration

Multiple sclerosis diagram concept or MS autoimmune disease anatomy with healthy nerve and damaged myelin with exposed fibre with scarrred schwann. Stock Photo

RF2A17A2M–Multiple sclerosis diagram concept or MS autoimmune disease anatomy with healthy nerve and damaged myelin with exposed fibre with scarrred schwann.

RF2EA0TGA–Peripheral nerve, TEM

RM2F2FAD8–Theodor Schwann 1810-1882 German Physician Physiologist

Damaged Nerves regrow with Polymer tube and Protein - 3d illustration closeup view Stock Photo

RF2PH4775–Damaged Nerves regrow with Polymer tube and Protein - 3d illustration closeup view

RF2GTN6XF–Female Neuron

Damaged Nerves regrow with Polymer tube and Protein - 3d illustration isometric view Stock Photo

RF2PH477B–Damaged Nerves regrow with Polymer tube and Protein - 3d illustration isometric view

RF2XMNDB5–3d rendering of Sensory neurons or afferent neurons, are nerve cells that receive stimuli from sensory organs and send messages to the nervous system

Neuron cells in the human nervous system - 3d illustration closeup view Stock Photo

RF2M5W654–Neuron cells in the human nervous system - 3d illustration closeup view

RF2GX85NW–Human Neuron Anatomy

Scientific Designing of Neuron Structure. Colorful Symbols. Vector Illustration. Stock Vector

RF2K3CR6T–Scientific Designing of Neuron Structure. Colorful Symbols. Vector Illustration.

Glial cell (neuroglia). Six types of gliocytes in the central and the peripheral nervous system: oligodendrocyte, astrocyte, ependymal cell, microglia Stock Vector

RF2K433HE–Glial cell (neuroglia). Six types of gliocytes in the central and the peripheral nervous system: oligodendrocyte, astrocyte, ependymal cell, microglia

RFK65HK9–Simple neuron, nerve line icon. Symbol and sign vector illustration design. Editable Stroke. Isolated on white background

Neuron (Nerve Cell) anatomy black and white line art illustration. Labeled and unlabeled images for coloring and learning neuron structure. Stock Vector

RF2K6PXRF–Neuron (Nerve Cell) anatomy black and white line art illustration. Labeled and unlabeled images for coloring and learning neuron structure.

Nerve with myelin sheath, seen in lower right, connects with muscle. Blood vessel and immune cells are seen in the center and up Stock Photo

RME4F008–Nerve with myelin sheath, seen in lower right, connects with muscle. Blood vessel and immune cells are seen in the center and up

The duty is to treat the central nervous system, bringing food and oxygen to the nerve cells. Stock Vector

RFR7J467–The duty is to treat the central nervous system, bringing food and oxygen to the nerve cells.

Vector illustration of structure of human neuron. Cartoon educational picture for kids. Stock Vector

RFT7HJ4R–Vector illustration of structure of human neuron. Cartoon educational picture for kids.

Neurons communication. Transmission of the nerve signal between two neurons. Close-up of a Synaptic cleft, chemical synapse, synaptic vesicle, Neurotr Stock Vector

RF2XER211–Neurons communication. Transmission of the nerve signal between two neurons. Close-up of a Synaptic cleft, chemical synapse, synaptic vesicle, Neurotr

RMT2R1FE–Schwann cell

Multiple sclerosis. Autoimmune disease. Normal neuron and a neuron with a damaged myelin sheath. Nerve damage. Isometric Vector. Flat illustration Stock Vector

RF2WH6NRP–Multiple sclerosis. Autoimmune disease. Normal neuron and a neuron with a damaged myelin sheath. Nerve damage. Isometric Vector. Flat illustration

vector illustration of neuritis of the facial nerve Stock Vector

RFR93J7C–vector illustration of neuritis of the facial nerve

RF2EA0TGT–Peripheral nerve, TEM

Motor neuron. Structure and anatomy of a efferent neuron. Close-up of a Muscle fiber, and motoneuron with Dendrites, Synapse, Telodendria, Axon, Schwa Stock Vector

RF2T1HJK9–Motor neuron. Structure and anatomy of a efferent neuron. Close-up of a Muscle fiber, and motoneuron with Dendrites, Synapse, Telodendria, Axon, Schwa

Illustration of structure of neuron, vector of schematic details and branched dendrites of a neuron/ brain cell with multiple components to label Stock Vector

RFM1XMX2–Illustration of structure of neuron, vector of schematic details and branched dendrites of a neuron/ brain cell with multiple components to label

Multiple sclerosis. demyelinating disease. autoimmune disease. Vector illustration for poster or banner about World Multiple Sclerosis Day. Stock Vector

RF2PEBP8P–Multiple sclerosis. demyelinating disease. autoimmune disease. Vector illustration for poster or banner about World Multiple Sclerosis Day.

RF2GTB3B3–Myelin deterioration

RF2XMNDAN–3d rendering of Sensory neurons or afferent neurons, are nerve cells that receive stimuli from sensory organs and send messages to the nervous system

Neuron cells in the human nervous system - 3d illustration top view Stock Photo

RF2M5W66R–Neuron cells in the human nervous system - 3d illustration top view

RF2PNWDY6–pseudounipolar neuron

RF2K3CH6T–Scientific Designing of Neuron Structure. Colorful Symbols. Vector Illustration.

An interesting photo taken with a microscope. Unmyelinated fibers in peripheral nerves. Longitudinal section. Hematoxylin and Eosin Stainit. Stock Photo

RF2J2C0N4–An interesting photo taken with a microscope. Unmyelinated fibers in peripheral nerves. Longitudinal section. Hematoxylin and Eosin Stainit.

RFF2131H–Multiple Sclerosis Concept

An attempt at nerve fiber regeneration. Damage and degeneration of the nerve fiber. Stock Vector

RF2X2T5K6–An attempt at nerve fiber regeneration. Damage and degeneration of the nerve fiber.

RFCT278B–Motor neuron

Illustration of a neuron net Stock Photo

RFBHECAW–Illustration of a neuron net

RMDTYG09–Unipolar Neuron

medicine, anatomy, nerve cell, schematic diagram of a ganglion cell, drawing, 20th century, 20th century, graphic, graphics, neural, neuritic, nerve pathway, nerve tract, nerve pathways, nerve tracts, neuron, neurons, ganglion, ganglia, dendrite, dendrites, synapse, cell nuclei, nuclei, nucleuses, Nissl body, myelin sheath, myelin sheath gap, axon, Schwann cell, medicine, medicines, nerve cell, nerve cells, schematic diagram, scheme, schemes, historic, historical, Additional-Rights-Clearences-Not Available Stock Photo

RMDDY6MX–medicine, anatomy, nerve cell, schematic diagram of a ganglion cell, drawing, 20th century, 20th century, graphic, graphics, neural, neuritic, nerve pathway, nerve tract, nerve pathways, nerve tracts, neuron, neurons, ganglion, ganglia, dendrite, dendrites, synapse, cell nuclei, nuclei, nucleuses, Nissl body, myelin sheath, myelin sheath gap, axon, Schwann cell, medicine, medicines, nerve cell, nerve cells, schematic diagram, scheme, schemes, historic, historical, Additional-Rights-Clearences-Not Available

RMT2R1FH–Schwann cell

Neuron (Nerve Cell) anatomy colorful illustration. Labeled and unlabeled images for learning neuron structure. Stock Vector

RF2K6YDN4–Neuron (Nerve Cell) anatomy colorful illustration. Labeled and unlabeled images for learning neuron structure.

Schleiden, Matthias Jacob (Hamburg ,1804-Frankfurt am Main, 1881). German botanist. His research on embryonic stem cells opened the way for the Schwann cell theory. Stock Photo

RMPPB25C–Schleiden, Matthias Jacob (Hamburg ,1804-Frankfurt am Main, 1881). German botanist. His research on embryonic stem cells opened the way for the Schwann cell theory.

RF2EA0TG3–Peripheral nerve, TEM

Schwann cells in the peripheral nervous system produce the insulating myelin sheath that covers the axons of many neurons. Stock Photo

RMBCE63P–Schwann cells in the peripheral nervous system produce the insulating myelin sheath that covers the axons of many neurons.

Theodor Schwann (December 7, 1810 - January 11, 1882) was a German physiologist. His many contributions to biology include the development of cell theory, the discovery of Schwann cells in the peripheral nervous system, the discovery and study of pepsin, Stock Photo

RMG15D7X–Theodor Schwann (December 7, 1810 - January 11, 1882) was a German physiologist. His many contributions to biology include the development of cell theory, the discovery of Schwann cells in the peripheral nervous system, the discovery and study of pepsin,

Matthias Jakob Schleiden (5 April 1804 – 23 June 1881) was a German botanist and co-founder of the cell theory, along with Theodor Schwann and Rudolf Virchow. Stock Photo

RMKCEN3H–Matthias Jakob Schleiden (5 April 1804 – 23 June 1881) was a German botanist and co-founder of the cell theory, along with Theodor Schwann and Rudolf Virchow.

THEODOR SCHWANN (1810-1882) German physiologist from an 1857 lithograph Stock Photo

RMF60R4R–THEODOR SCHWANN (1810-1882) German physiologist from an 1857 lithograph

3d rendering of Multipolar neurons. Multipolar neurons are the most common type of neuron Stock Photo

RF2XMXNX8–3d rendering of Multipolar neurons. Multipolar neurons are the most common type of neuron

Neuron cells in the human nervous system - 3d illustration isometric view Stock Photo

RF2M5W65B–Neuron cells in the human nervous system - 3d illustration isometric view

Theodor Schwann (1810 – 1882) German physiologist. His many contributions to biology include the development of cell theory, the discovery of Schwann cells in the peripheral nervous system, the discovery and study of pepsin, the discovery of the organic nature of yeast, and the invention of the term metabolism. Stock Photo

RMKCEN77–Theodor Schwann (1810 – 1882) German physiologist. His many contributions to biology include the development of cell theory, the discovery of Schwann cells in the peripheral nervous system, the discovery and study of pepsin, the discovery of the organic nature of yeast, and the invention of the term metabolism.

Healthy human nerve fiber section (neuron fibres) - 3d illustration closeup view Stock Photo

RF2NY9T00–Healthy human nerve fiber section (neuron fibres) - 3d illustration closeup view

RF2K3CH3W–Scientific Designing of Neuron Structure. Colorful Symbols. Vector Illustration.

RF2J2C0NP–An interesting photo taken with a microscope. Unmyelinated fibers in peripheral nerves. Longitudinal section. Hematoxylin and Eosin Stainit.

RFF21325–Multiple Sclerosis Concept

RFCT278F–Motor neuron, labeled

supporting cells Oligodendrocytes and astrocytes. Stock Vector

RF2X2T3XE–supporting cells Oligodendrocytes and astrocytes.

RMDTYJ0D–Bipolar Neuron

Illustration of Human Neuron Anatomy Stock Vector

RFFW727B–Illustration of Human Neuron Anatomy

RMT2R1G1–Schwann cell

Schwann, Theodor (Neuss-am-Rhein 1810-Cologne, 1882). German physiologist. Stock Photo

RMBG8J1R–Schwann, Theodor (Neuss-am-Rhein 1810-Cologne, 1882). German physiologist.

Microscopy image of mouse sciatic nerves showing axons (red) enveloped by Schwann cells (green) with their nuclei shown in blue. Stock Photo

RM2JKFTNB–Microscopy image of mouse sciatic nerves showing axons (red) enveloped by Schwann cells (green) with their nuclei shown in blue.

RF2EA0TGX–Peripheral nerve, TEM

RMDA1K4F–NEURON

Illustration of an oligodendrocyte cell (yellow) forming a myelin sheath around a nerve cell (neuron, blue) axon. Stock Photo

RFJGN6HK–Illustration of an oligodendrocyte cell (yellow) forming a myelin sheath around a nerve cell (neuron, blue) axon.

RMCPNHC0–NERVE IMPULSE, DRAWING

Illustration of damaged nerve cells caused by the degenerative disease multiple sclerosis. Immune system cells (microglia, orange) have attacked the nerve cell sheaths (myelin), resulting in damaged myelin (red) and disturbed signalling function between the nerves cells (neurons, blue). Multiple sclerosis is a progressive disorder that can cause tingling, speech disorders, lack of coordination, paralysis and death. The microglia cells attack the oligodendrocytes that form the insulating myelin sheath around neuron axons, leading to the destruction of the myelin sheath. Stock Photo

RF2JW32MW–Illustration of damaged nerve cells caused by the degenerative disease multiple sclerosis. Immune system cells (microglia, orange) have attacked the nerve cell sheaths (myelin), resulting in damaged myelin (red) and disturbed signalling function between the nerves cells (neurons, blue). Multiple sclerosis is a progressive disorder that can cause tingling, speech disorders, lack of coordination, paralysis and death. The microglia cells attack the oligodendrocytes that form the insulating myelin sheath around neuron axons, leading to the destruction of the myelin sheath.

RF2XMXNXA–3d rendering of Multipolar neurons. Multipolar neurons are the most common type of neuron

Nerve damage in multiple sclerosis, illustration Stock Photo

RFT85G5J–Nerve damage in multiple sclerosis, illustration

RMKCEN70–Theodor Schwann (1810 – 1882) German physiologist. His many contributions to biology include the development of cell theory, the discovery of Schwann cells in the peripheral nervous system, the discovery and study of pepsin, the discovery of the organic nature of yeast, and the invention of the term metabolism.

Healthy human nerve fiber section (neuron fibres) - 3d illustration isometric view Stock Photo

RF2NY9T2N–Healthy human nerve fiber section (neuron fibres) - 3d illustration isometric view

RF2K3C3ER–Scientific Designing of Neuron Structure. Colorful Symbols. Vector Illustration.

RF2NP5WP8–Healthy human nerve fiber section (neuron fibres) - 3d illustration closeup view

RFF21324–Multiple Sclerosis Concept

Motor neuron with details of myelin and synapse Stock Photo

RFCTWNFN–Motor neuron with details of myelin and synapse

supporting cells Oligodendrocytes and astrocytes. Structure of a neuron. Stock Vector

RF2X2T4ER–supporting cells Oligodendrocytes and astrocytes. Structure of a neuron.

RMDTYJ5Y–Unipolar Neuron

Theodor Schwann, German Physiologist Stock Photo

RMHRNTFE–Theodor Schwann, German Physiologist

Colorful Neuron anatomy and myelin sheath formation on a white background Stock Vector

RF2K8B3Y5–Colorful Neuron anatomy and myelin sheath formation on a white background

Schwann, Theodor (Neuss-am-Rhein 1810-Cologne, 1882). German physiologist. He defined the cell as the structural unit of all living organisms (1839). Stock Photo

RMPPEX93–Schwann, Theodor (Neuss-am-Rhein 1810-Cologne, 1882). German physiologist. He defined the cell as the structural unit of all living organisms (1839).

Neurology, 19th century: cell of Schwann. Stock Photo

RM2H42HGB–Neurology, 19th century: cell of Schwann.

Schwann cell Stock Photos and Images

Schwann cell Stock Photos and Images

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