Main olfactory system and vomeronasal organ in rats. Stock Photohttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/main-olfactory-system-and-vomeronasal-organ-in-rats-image476926545.html
RF2JKWTJW–Main olfactory system and vomeronasal organ in rats.
Woman with rose, the sense of smell, detailed illustration of the olfactory region Stock Photohttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/woman-with-rose-the-sense-of-smell-detailed-illustration-of-the-olfactory-region-image381974323.html
RF2D5CC43–Woman with rose, the sense of smell, detailed illustration of the olfactory region
This illustration represents Olfactory Epithelium, vintage line drawing or engraving illustration. Stock Vectorhttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/this-illustration-represents-olfactory-epithelium-vintage-line-drawing-or-engraving-illustration-image348657086.html
RF2B76KJP–This illustration represents Olfactory Epithelium, vintage line drawing or engraving illustration.
Cross section of the head marsh frog (Pelophylax ridibundus). Nasal cavity and the vomeronasal organ. Hematoxylin and eosin stain (H&E). Stock Photohttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/cross-section-of-the-head-marsh-frog-pelophylax-ridibundus-nasal-cavity-and-the-vomeronasal-organ-hematoxylin-and-eosin-stain-he-image469857253.html
RF2J8BRM5–Cross section of the head marsh frog (Pelophylax ridibundus). Nasal cavity and the vomeronasal organ. Hematoxylin and eosin stain (H&E).
Frog development. Cross-sections through the head of the tadpole (Pelophylax ridibundus). Nasal cavity and oral cavity. Hematoxylin and eosin stain. Stock Photohttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/frog-development-cross-sections-through-the-head-of-the-tadpole-pelophylax-ridibundus-nasal-cavity-and-oral-cavity-hematoxylin-and-eosin-stain-image471226479.html
RF2JAJ653–Frog development. Cross-sections through the head of the tadpole (Pelophylax ridibundus). Nasal cavity and oral cavity. Hematoxylin and eosin stain.
Nasal epithelium. Ciliated columnar epithelium. epithelial cells forms the lining of the stomach and intestines, duodenum, fallopian tubes, uterus, ce Stock Vectorhttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/nasal-epithelium-ciliated-columnar-epithelium-epithelial-cells-forms-the-lining-of-the-stomach-and-intestines-duodenum-fallopian-tubes-uterus-ce-image596229796.html
RF2WJ0H58–Nasal epithelium. Ciliated columnar epithelium. epithelial cells forms the lining of the stomach and intestines, duodenum, fallopian tubes, uterus, ce
Human Olfactory Receptors and Pathway Stock Photohttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/human-olfactory-receptors-and-pathway-image540329937.html
RF2PB249N–Human Olfactory Receptors and Pathway
Human sense of smell system: olfactory bulb with mitral cells Stock Photohttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/human-sense-of-smell-system-olfactory-bulb-with-mitral-cells-image221914935.html
RFPW12NB–Human sense of smell system: olfactory bulb with mitral cells
Symbolic medical illustration of symptoms of hyposmia Stock Vectorhttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/symbolic-medical-illustration-of-symptoms-of-hyposmia-image230598182.html
RFRB4J9A–Symbolic medical illustration of symptoms of hyposmia
people, human beings, humans (Homo sapiens sapiens), Cross section of olfactory ephitelium in the nasal cavity Stock Photohttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/stock-photo-people-human-beings-humans-homo-sapiens-sapiens-cross-section-of-olfactory-47871649.html
RMCNTMNN–people, human beings, humans (Homo sapiens sapiens), Cross section of olfactory ephitelium in the nasal cavity
The section through the olfactory mucus membrane, with the parts labeled as zone of oval and round nuclei, basal cells, epithelium and so on, vintage Stock Vectorhttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/the-section-through-the-olfactory-mucus-membrane-with-the-parts-labeled-as-zone-of-oval-and-round-nuclei-basal-cells-epithelium-and-so-on-vintage-image359328932.html
RF2BTGRM4–The section through the olfactory mucus membrane, with the parts labeled as zone of oval and round nuclei, basal cells, epithelium and so on, vintage
Cross section of olfactory ephitelium in the nasal cavity. Stock Photohttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/cross-section-of-olfactory-ephitelium-in-the-nasal-cavity-image473923856.html
RM2JF12M0–Cross section of olfactory ephitelium in the nasal cavity.
Nasal mucosa cells and micro cilia vector scheme Stock Vectorhttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/stock-photo-nasal-mucosa-cells-and-micro-cilia-vector-scheme-114552551.html
RFGJA8XF–Nasal mucosa cells and micro cilia vector scheme
Anatomy of nasal sinuses. Stock Photohttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/stock-photo-anatomy-of-nasal-sinuses-57642203.html
RFD9NR63–Anatomy of nasal sinuses.
Smell (olfactory) receptor field in nasal lining - closeup view 3d illustration Stock Photohttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/smell-olfactory-receptor-field-in-nasal-lining-closeup-view-3d-illustration-image460595380.html
RF2HN9X30–Smell (olfactory) receptor field in nasal lining - closeup view 3d illustration
The organ of olfaction with the olfactory bulb, supporting cells. Stock Photohttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/the-organ-of-olfaction-with-the-olfactory-bulb-supporting-cells-image476926538.html
RF2JKWTJJ–The organ of olfaction with the olfactory bulb, supporting cells.
The sense of smell and detailed illustration of the olfactory region Stock Photohttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/the-sense-of-smell-and-detailed-illustration-of-the-olfactory-region-image381973483.html
RF2D5CB23–The sense of smell and detailed illustration of the olfactory region
Smell (olfactory) receptor field in nasal lining - isometric view 3d illustration Stock Photohttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/smell-olfactory-receptor-field-in-nasal-lining-isometric-view-3d-illustration-image460595383.html
RF2HN9X33–Smell (olfactory) receptor field in nasal lining - isometric view 3d illustration
Each nasal cavity encloses an olfactory epithelium, whose stimulation by odorous molecules generates nerve signals. These are routed to the brain, where the odors are analyzed and associated with emotions and memories. Stock Photohttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/each-nasal-cavity-encloses-an-olfactory-epithelium-whose-stimulation-image156173796.html
RMK2297G–Each nasal cavity encloses an olfactory epithelium, whose stimulation by odorous molecules generates nerve signals. These are routed to the brain, where the odors are analyzed and associated with emotions and memories.
Olfactory membrane dog Stock Photohttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/stock-photo-olfactory-membrane-dog-16111622.html
RFARR5WY–Olfactory membrane dog
Types of neurons: pyramidal cell from the cerebral cortex, Purkinje cell from the cerebral cortex, olfactory cells from the olfactory epithelium Stock Vectorhttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/types-of-neurons-pyramidal-cell-from-the-cerebral-cortex-purkinje-cell-from-the-cerebral-cortex-olfactory-cells-from-the-olfactory-epithelium-image469051628.html
RF2J7343T–Types of neurons: pyramidal cell from the cerebral cortex, Purkinje cell from the cerebral cortex, olfactory cells from the olfactory epithelium
Mature adult slow worm that has in the past shed its tail making its way through lawn meadow grass and daisy flowers Stock Photohttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/stock-photo-mature-adult-slow-worm-that-has-in-the-past-shed-its-tail-making-its-82720397.html
RMEPG6KW–Mature adult slow worm that has in the past shed its tail making its way through lawn meadow grass and daisy flowers
Medical diagram of anatomy of nose, mouth, larynx, and pharynx, with annotations. Stock Vectorhttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/medical-diagram-of-anatomy-of-nose-mouth-larynx-and-pharynx-with-annotations-image557016653.html
RF2RA68BW–Medical diagram of anatomy of nose, mouth, larynx, and pharynx, with annotations.
plastic bottle with a brine solution for oral use Stock Vectorhttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/plastic-bottle-with-a-brine-solution-for-oral-use-image188732357.html
RFMY1E19–plastic bottle with a brine solution for oral use
Nasal mucosa icon. Human olfactory system concept. Epithelium in the nose, gut, stomach or colon. Mucus, ciliated cells. Vector illustration. stock im Stock Vectorhttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/nasal-mucosa-icon-human-olfactory-system-concept-epithelium-in-the-nose-gut-stomach-or-colon-mucus-ciliated-cells-vector-illustration-stock-im-image594676259.html
RF2WFDRHR–Nasal mucosa icon. Human olfactory system concept. Epithelium in the nose, gut, stomach or colon. Mucus, ciliated cells. Vector illustration. stock im
Smell (olfactory) receptor field in nasal lining - top view 3d illustration Stock Photohttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/smell-olfactory-receptor-field-in-nasal-lining-top-view-3d-illustration-image460595387.html
RF2HN9X37–Smell (olfactory) receptor field in nasal lining - top view 3d illustration
Abstract illustration of a woman and the smell sense Stock Photohttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/abstract-illustration-of-a-woman-and-the-smell-sense-image594793635.html
RF2WFK59R–Abstract illustration of a woman and the smell sense
. A manual of elementary zoology . Zoology. Fig. 48.—Examples of different modes of ending of sensory nerve fibres of the frog. A, Cells from the olfactory epithelium. B, cells from the retina. C, cells from one of the patches of sensory epithelium in the labyrinth, with which the fibres of the auditory nerve are connected. £>, a portion of the epidermis, showing the ending of a nerve fibre. D is ordinary stratified epithelium. A, B, and C are true sensory epithelia—forms of columnar epithelium adapted to the purposes of special senses. In these latter there can be distinguished sense cells Stock Photohttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/a-manual-of-elementary-zoology-zoology-fig-48examples-of-different-modes-of-ending-of-sensory-nerve-fibres-of-the-frog-a-cells-from-the-olfactory-epithelium-b-cells-from-the-retina-c-cells-from-one-of-the-patches-of-sensory-epithelium-in-the-labyrinth-with-which-the-fibres-of-the-auditory-nerve-are-connected-gt-a-portion-of-the-epidermis-showing-the-ending-of-a-nerve-fibre-d-is-ordinary-stratified-epithelium-a-b-and-c-are-true-sensory-epitheliaforms-of-columnar-epithelium-adapted-to-the-purposes-of-special-senses-in-these-latter-there-can-be-distinguished-sense-cells-image232123940.html
RMRDJ4CM–. A manual of elementary zoology . Zoology. Fig. 48.—Examples of different modes of ending of sensory nerve fibres of the frog. A, Cells from the olfactory epithelium. B, cells from the retina. C, cells from one of the patches of sensory epithelium in the labyrinth, with which the fibres of the auditory nerve are connected. £>, a portion of the epidermis, showing the ending of a nerve fibre. D is ordinary stratified epithelium. A, B, and C are true sensory epithelia—forms of columnar epithelium adapted to the purposes of special senses. In these latter there can be distinguished sense cells
Archive image from page 534 of Cunningham's Text-book of anatomy (1914). Cunningham's Text-book of anatomy cunninghamstextb00cunn Year: 1914 ( Fig. 442.—Diagrams of Transverse Sections representing Three Stages (A, B, and C) in the development of a Sensory Ganglion from the Neural Crest ; and Two Diagrams (D and E) suggesting a Possible Homology of the Olfactory (D) and Visual (E) Epithelium with the Neural Crest. Ganglion geniculi Xervus facialis Epibranchial placode of facial nerve Ganglion acusticum Vesicula otica Ganglion petrosum Epibranchial placode L ., of glosso-pharyngeal !£•> Stock Photohttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/archive-image-from-page-534-of-cunninghams-text-book-of-anatomy-1914-cunninghams-text-book-of-anatomy-cunninghamstextb00cunn-year-1914-fig-442diagrams-of-transverse-sections-representing-three-stages-a-b-and-c-in-the-development-of-a-sensory-ganglion-from-the-neural-crest-and-two-diagrams-d-and-e-suggesting-a-possible-homology-of-the-olfactory-d-and-visual-e-epithelium-with-the-neural-crest-ganglion-geniculi-xervus-facialis-epibranchial-placode-of-facial-nerve-ganglion-acusticum-vesicula-otica-ganglion-petrosum-epibranchial-placode-l-of-glosso-pharyngeal-!gt-image264063473.html
RMW9H3J9–Archive image from page 534 of Cunningham's Text-book of anatomy (1914). Cunningham's Text-book of anatomy cunninghamstextb00cunn Year: 1914 ( Fig. 442.—Diagrams of Transverse Sections representing Three Stages (A, B, and C) in the development of a Sensory Ganglion from the Neural Crest ; and Two Diagrams (D and E) suggesting a Possible Homology of the Olfactory (D) and Visual (E) Epithelium with the Neural Crest. Ganglion geniculi Xervus facialis Epibranchial placode of facial nerve Ganglion acusticum Vesicula otica Ganglion petrosum Epibranchial placode L ., of glosso-pharyngeal !£•>
The organ of olfaction with the olfactory bulb, supporting cells. Stock Photohttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/the-organ-of-olfaction-with-the-olfactory-bulb-supporting-cells-image476926481.html
RF2JKWTGH–The organ of olfaction with the olfactory bulb, supporting cells.
The sense of smell and detailed illustration of the olfactory region Stock Photohttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/the-sense-of-smell-and-detailed-illustration-of-the-olfactory-region-image381975164.html
RF2D5CD64–The sense of smell and detailed illustration of the olfactory region
SENSE OF SMELL Stock Photohttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/sense-of-smell-image230680985.html
RMRB8BXH–SENSE OF SMELL
Each nasal cavity encloses an olfactory epithelium, whose stimulation by odorous molecules generates nerve signals. These are routed to the brain, where the odors are analyzed and associated with emotions and memories. Stock Photohttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/each-nasal-cavity-encloses-an-olfactory-epithelium-whose-stimulation-image156174471.html
RMK22A3K–Each nasal cavity encloses an olfactory epithelium, whose stimulation by odorous molecules generates nerve signals. These are routed to the brain, where the odors are analyzed and associated with emotions and memories.
Smell: nose and nasopharynx and zoom on the organ of olfaction. Stock Photohttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/smell-nose-and-nasopharynx-and-zoom-on-the-organ-of-olfaction-image442065615.html
RF2GK5R5K–Smell: nose and nasopharynx and zoom on the organ of olfaction.
The walls of the nasal cavities are covered with a mucous membrane that produces nasal mucus. The odorous molecules dissolve in the nasal mucus of the olfactory epithelium (or olfactory mucous membrane). Stock Photohttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/the-walls-of-the-nasal-cavities-are-covered-with-a-mucous-membrane-image156173701.html
RMK22945–The walls of the nasal cavities are covered with a mucous membrane that produces nasal mucus. The odorous molecules dissolve in the nasal mucus of the olfactory epithelium (or olfactory mucous membrane).
Mature adult slow worm that has in the past shed its tail making its way through lawn meadow grass and daisy flowers Stock Photohttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/stock-photo-mature-adult-slow-worm-that-has-in-the-past-shed-its-tail-making-its-82720160.html
RMEPG6BC–Mature adult slow worm that has in the past shed its tail making its way through lawn meadow grass and daisy flowers
. The development of the chick; an introduction to embryology. Birds -- Embryology. 264 THE DEVELOPMENT OF THE CHICK from the central ends of the neuroblasts and grow into the mesenchyme towards the fore-brain. At the same time groups of epithelial cells free themselves from the inner face of the olfactory epithelium, and come to lie between this and the fore- brain. The axones of the neuroblasts grow between these cells until they reach the base of the fore-brain over which they spread out, entering the olfactory lobe about the sixth day (Figs. 155 and 156). In the meantime the peripheral end Stock Photohttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/the-development-of-the-chick-an-introduction-to-embryology-birds-embryology-264-the-development-of-the-chick-from-the-central-ends-of-the-neuroblasts-and-grow-into-the-mesenchyme-towards-the-fore-brain-at-the-same-time-groups-of-epithelial-cells-free-themselves-from-the-inner-face-of-the-olfactory-epithelium-and-come-to-lie-between-this-and-the-fore-brain-the-axones-of-the-neuroblasts-grow-between-these-cells-until-they-reach-the-base-of-the-fore-brain-over-which-they-spread-out-entering-the-olfactory-lobe-about-the-sixth-day-figs-155-and-156-in-the-meantime-the-peripheral-end-image215969851.html
RMPFA7MY–. The development of the chick; an introduction to embryology. Birds -- Embryology. 264 THE DEVELOPMENT OF THE CHICK from the central ends of the neuroblasts and grow into the mesenchyme towards the fore-brain. At the same time groups of epithelial cells free themselves from the inner face of the olfactory epithelium, and come to lie between this and the fore- brain. The axones of the neuroblasts grow between these cells until they reach the base of the fore-brain over which they spread out, entering the olfactory lobe about the sixth day (Figs. 155 and 156). In the meantime the peripheral end
plastic bottle with a brine solution for oral use Stock Vectorhttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/plastic-bottle-with-a-brine-solution-for-oral-use-image188732356.html
RFMY1E18–plastic bottle with a brine solution for oral use
Inflamed and normal nasal mucosa cells and micro cilia vector scheme with nasal spray effect and bottle Stock Vectorhttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/stock-photo-inflamed-and-normal-nasal-mucosa-cells-and-micro-cilia-vector-scheme-81540310.html
RFEMJDDX–Inflamed and normal nasal mucosa cells and micro cilia vector scheme with nasal spray effect and bottle
Abstract illustration of a woman and the smell sense Stock Photohttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/abstract-illustration-of-a-woman-and-the-smell-sense-image594793537.html
RF2WFK569–Abstract illustration of a woman and the smell sense
The development of the human body; a manual of human embryology . i-nally derived from the olfactory epithelium but laterseparating from it (His), and, finally, that it was composedof the prolongations of certain cells situated and, for themost part at least, remaining permanently in the olfactoryepithelium (Disse). The most recent observations on thestructure of the olfactory epithelium and nerve indicatea greater amount of probability in the last result than inthe others, and the description which follows will be basedupon the observations of His, modified in conformity withthe results obtai Stock Photohttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/the-development-of-the-human-body-a-manual-of-human-embryology-i-nally-derived-from-the-olfactory-epithelium-but-laterseparating-from-it-his-and-finally-that-it-was-composedof-the-prolongations-of-certain-cells-situated-and-for-themost-part-at-least-remaining-permanently-in-the-olfactoryepithelium-disse-the-most-recent-observations-on-thestructure-of-the-olfactory-epithelium-and-nerve-indicatea-greater-amount-of-probability-in-the-last-result-than-inthe-others-and-the-description-which-follows-will-be-basedupon-the-observations-of-his-modified-in-conformity-withthe-results-obtai-image340306977.html
RM2ANJ90H–The development of the human body; a manual of human embryology . i-nally derived from the olfactory epithelium but laterseparating from it (His), and, finally, that it was composedof the prolongations of certain cells situated and, for themost part at least, remaining permanently in the olfactoryepithelium (Disse). The most recent observations on thestructure of the olfactory epithelium and nerve indicatea greater amount of probability in the last result than inthe others, and the description which follows will be basedupon the observations of His, modified in conformity withthe results obtai
While a woman sipping a caramel scheme of smell is displayed, and a taste bud and location of the flavors on the tongue described. [6259x4015]. Stock Photohttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/while-a-woman-sipping-a-caramel-scheme-of-smell-is-displayed-and-a-taste-bud-and-location-of-the-flavors-on-the-tongue-described-6259x4015-image525180856.html
RM2NEC1F4–While a woman sipping a caramel scheme of smell is displayed, and a taste bud and location of the flavors on the tongue described. [6259x4015].
Archive image from page 440 of The development of the human. The development of the human body : a manual of human embryology . developmentofhum00mcmu Year: 1914 THE OLFACTORY ORGANS 429 bipolar, their peripheral prolongations ending freely among the cells of the olfactory epithelium. These bipolar cells resemble closely in form and relations the cells of the embryonic posterior root ganglia, and thus form an interesting transition between these and the neuro- epithelial cells. The Organ of Jacohson.—In embryos of three or four months a Fig. 252.—Diagram Illustrating the Relations of the F Stock Photohttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/archive-image-from-page-440-of-the-development-of-the-human-the-development-of-the-human-body-a-manual-of-human-embryology-developmentofhum00mcmu-year-1914-the-olfactory-organs-429-bipolar-their-peripheral-prolongations-ending-freely-among-the-cells-of-the-olfactory-epithelium-these-bipolar-cells-resemble-closely-in-form-and-relations-the-cells-of-the-embryonic-posterior-root-ganglia-and-thus-form-an-interesting-transition-between-these-and-the-neuro-epithelial-cells-the-organ-of-jacohsonin-embryos-of-three-or-four-months-a-fig-252diagram-illustrating-the-relations-of-the-f-image259029310.html
RMW1BPEP–Archive image from page 440 of The development of the human. The development of the human body : a manual of human embryology . developmentofhum00mcmu Year: 1914 THE OLFACTORY ORGANS 429 bipolar, their peripheral prolongations ending freely among the cells of the olfactory epithelium. These bipolar cells resemble closely in form and relations the cells of the embryonic posterior root ganglia, and thus form an interesting transition between these and the neuro- epithelial cells. The Organ of Jacohson.—In embryos of three or four months a Fig. 252.—Diagram Illustrating the Relations of the F
The sense of smell and detailed illustration of the olactory region Stock Photohttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/the-sense-of-smell-and-detailed-illustration-of-the-olactory-region-image381972266.html
RF2D5C9EJ–The sense of smell and detailed illustration of the olactory region
Smell: nose and nasopharynx and zoom on the organ of olfaction. Stock Photohttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/smell-nose-and-nasopharynx-and-zoom-on-the-organ-of-olfaction-image442065599.html
RF2GK5R53–Smell: nose and nasopharynx and zoom on the organ of olfaction.
The walls of the nasal cavities are covered with a mucous membrane that produces nasal mucus. The odorous molecules dissolve in the nasal mucus of the olfactory epithelium (or olfactory mucous membrane). Stock Photohttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/the-walls-of-the-nasal-cavities-are-covered-with-a-mucous-membrane-image156174470.html
RMK22A3J–The walls of the nasal cavities are covered with a mucous membrane that produces nasal mucus. The odorous molecules dissolve in the nasal mucus of the olfactory epithelium (or olfactory mucous membrane).
Mature adult slow worm that has in the past shed its tail making its way through lawn meadow grass and daisy flowers Stock Photohttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/stock-photo-mature-adult-slow-worm-that-has-in-the-past-shed-its-tail-making-its-82720118.html
RMEPG69X–Mature adult slow worm that has in the past shed its tail making its way through lawn meadow grass and daisy flowers
. The development of the chick : an introduction to embryology. Embryology; Chickens -- Embryos. 264 THE DEVELOPMENT OF THE CHICK from the central ends of the neiirol^hxsts and grow into the mesenchyme towards the fore-brain. At the same time groups of epitheUal cells free themselves from the inner face of the olfactory epithelium, and come to lie between this and the fore- brain. The axones of the neuroblasts grow between these cells until they reach the base of the fore-brain over which they spread out, entering the olfactory lobe about the sixth day (Figs. 155 and 156). In the meantime the Stock Photohttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/the-development-of-the-chick-an-introduction-to-embryology-embryology-chickens-embryos-264-the-development-of-the-chick-from-the-central-ends-of-the-neiirolhxsts-and-grow-into-the-mesenchyme-towards-the-fore-brain-at-the-same-time-groups-of-epitheual-cells-free-themselves-from-the-inner-face-of-the-olfactory-epithelium-and-come-to-lie-between-this-and-the-fore-brain-the-axones-of-the-neuroblasts-grow-between-these-cells-until-they-reach-the-base-of-the-fore-brain-over-which-they-spread-out-entering-the-olfactory-lobe-about-the-sixth-day-figs-155-and-156-in-the-meantime-the-image215969749.html
RMPFA7H9–. The development of the chick : an introduction to embryology. Embryology; Chickens -- Embryos. 264 THE DEVELOPMENT OF THE CHICK from the central ends of the neiirol^hxsts and grow into the mesenchyme towards the fore-brain. At the same time groups of epitheUal cells free themselves from the inner face of the olfactory epithelium, and come to lie between this and the fore- brain. The axones of the neuroblasts grow between these cells until they reach the base of the fore-brain over which they spread out, entering the olfactory lobe about the sixth day (Figs. 155 and 156). In the meantime the
Mucociliary Transport System black and white simple vector icon, medical illustration Stock Vectorhttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/mucociliary-transport-system-black-and-white-simple-vector-icon-medical-illustration-image216675243.html
RFPGEBDF–Mucociliary Transport System black and white simple vector icon, medical illustration
RF2RD6ARW–Nasal mucosa lines (respiratory epihtelium) - isometric view 3d illustration
Abstract illustration of a woman and the smell sense Stock Photohttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/abstract-illustration-of-a-woman-and-the-smell-sense-image591953262.html
RF2WB1PBX–Abstract illustration of a woman and the smell sense
A text-book of physiology for medical students and physicians . ense is relatively rudimentary.f The peripheral end-organ of smell consists of the olfactory epithelium in the upperportion of the nasal chambers. The physiology of this organ willbe considered in the section on special senses. The epithelialcells of which it consists are comparable to bipolar ganglioncells. The processes or hairs that project into the nasal chamber * Flechsig, Localisation der geistigen Vorgrange, Leipzig, 1896. t See Barker, The Nervous System, 1899, for references to literature. SENSE AREAS AND ASSOCIATION AREA Stock Photohttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/a-text-book-of-physiology-for-medical-students-and-physicians-ense-is-relatively-rudimentaryf-the-peripheral-end-organ-of-smell-consists-of-the-olfactory-epithelium-in-the-upperportion-of-the-nasal-chambers-the-physiology-of-this-organ-willbe-considered-in-the-section-on-special-senses-the-epithelialcells-of-which-it-consists-are-comparable-to-bipolar-ganglioncells-the-processes-or-hairs-that-project-into-the-nasal-chamber-flechsig-localisation-der-geistigen-vorgrange-leipzig-1896-t-see-barker-the-nervous-system-1899-for-references-to-literature-sense-areas-and-association-area-image342794720.html
RM2AWKJ4G–A text-book of physiology for medical students and physicians . ense is relatively rudimentary.f The peripheral end-organ of smell consists of the olfactory epithelium in the upperportion of the nasal chambers. The physiology of this organ willbe considered in the section on special senses. The epithelialcells of which it consists are comparable to bipolar ganglioncells. The processes or hairs that project into the nasal chamber * Flechsig, Localisation der geistigen Vorgrange, Leipzig, 1896. t See Barker, The Nervous System, 1899, for references to literature. SENSE AREAS AND ASSOCIATION AREA
Elements of the comparative anatomy Elements of the comparative anatomy of vertebrates elementsofcompar00wied Year: 1886 THE SKULL. 55 forming thus a firm support for it, gives rise to the skeleton of the jaws, as well as, in higher types, to the main part of the facial skeleton. The arches lying posterior to this function primarily as gill-supports. JtnV FIG. 41.—DIAGRAM SHOWING THE PRIMITIVE METAMEKIC CONDITION OF THE HEAD. E, E, epiblast, which at N is invaginated to form the primitive olfactory pit, the epithelium of which is supplied by the olfactory nerve (Olf); JI, oral involu- tion Stock Photohttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/elements-of-the-comparative-anatomy-elements-of-the-comparative-anatomy-of-vertebrates-elementsofcompar00wied-year-1886-the-skull-55-forming-thus-a-firm-support-for-it-gives-rise-to-the-skeleton-of-the-jaws-as-well-as-in-higher-types-to-the-main-part-of-the-facial-skeleton-the-arches-lying-posterior-to-this-function-primarily-as-gill-supports-jtnv-fig-41diagram-showing-the-primitive-metamekic-condition-of-the-head-e-e-epiblast-which-at-n-is-invaginated-to-form-the-primitive-olfactory-pit-the-epithelium-of-which-is-supplied-by-the-olfactory-nerve-olf-ji-oral-involu-tion-image239579734.html
RMRWNPB2–Elements of the comparative anatomy Elements of the comparative anatomy of vertebrates elementsofcompar00wied Year: 1886 THE SKULL. 55 forming thus a firm support for it, gives rise to the skeleton of the jaws, as well as, in higher types, to the main part of the facial skeleton. The arches lying posterior to this function primarily as gill-supports. JtnV FIG. 41.—DIAGRAM SHOWING THE PRIMITIVE METAMEKIC CONDITION OF THE HEAD. E, E, epiblast, which at N is invaginated to form the primitive olfactory pit, the epithelium of which is supplied by the olfactory nerve (Olf); JI, oral involu- tion
The sense of smell and detailed illustration of the olactory region Stock Photohttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/the-sense-of-smell-and-detailed-illustration-of-the-olactory-region-image381972767.html
RF2D5CA4F–The sense of smell and detailed illustration of the olactory region
Smell: nose and nasopharynx and zoom on the organ of olfaction. Stock Photohttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/smell-nose-and-nasopharynx-and-zoom-on-the-organ-of-olfaction-image441937903.html
RF2GK008F–Smell: nose and nasopharynx and zoom on the organ of olfaction.
Mature adult slow worm that has in the past shed its tail making its way through lawn meadow grass and daisy flowers Stock Photohttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/stock-photo-mature-adult-slow-worm-that-has-in-the-past-shed-its-tail-making-its-82719749.html
RMEPG5TN–Mature adult slow worm that has in the past shed its tail making its way through lawn meadow grass and daisy flowers
. The development of the human body : a manual of human embryology. Embryology; Embryo, Non-Mammalian. THE OLFACTORY ORGANS 429 bipolar, their peripheral prolongations ending freely among the cells of the olfactory epithelium. These bipolar cells resemble closely in form and relations the cells of the embryonic posterior root ganglia, and thus form an interesting transition between these and the neuro- epithelial cells. The Organ of Jacohson.—In embryos of three or four months a. Fig. 252.—Diagram Illustrating the Relations of the Fibers of the Olfactory Nerve. Ep, Epithelium of the olfactory Stock Photohttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/the-development-of-the-human-body-a-manual-of-human-embryology-embryology-embryo-non-mammalian-the-olfactory-organs-429-bipolar-their-peripheral-prolongations-ending-freely-among-the-cells-of-the-olfactory-epithelium-these-bipolar-cells-resemble-closely-in-form-and-relations-the-cells-of-the-embryonic-posterior-root-ganglia-and-thus-form-an-interesting-transition-between-these-and-the-neuro-epithelial-cells-the-organ-of-jacohsonin-embryos-of-three-or-four-months-a-fig-252diagram-illustrating-the-relations-of-the-fibers-of-the-olfactory-nerve-ep-epithelium-of-the-olfactory-image215969298.html
RMPFA716–. The development of the human body : a manual of human embryology. Embryology; Embryo, Non-Mammalian. THE OLFACTORY ORGANS 429 bipolar, their peripheral prolongations ending freely among the cells of the olfactory epithelium. These bipolar cells resemble closely in form and relations the cells of the embryonic posterior root ganglia, and thus form an interesting transition between these and the neuro- epithelial cells. The Organ of Jacohson.—In embryos of three or four months a. Fig. 252.—Diagram Illustrating the Relations of the Fibers of the Olfactory Nerve. Ep, Epithelium of the olfactory
Hand drawn medical vector blue and orange vector icons. Nasal mucosa cell and micro cilia, shield, inflammation and pill Stock Vectorhttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/hand-drawn-medical-vector-blue-and-orange-vector-icons-nasal-mucosa-cell-and-micro-cilia-shield-inflammation-and-pill-image216675216.html
RFPGEBCG–Hand drawn medical vector blue and orange vector icons. Nasal mucosa cell and micro cilia, shield, inflammation and pill
Abstract illustration of a woman and the smell sense Stock Photohttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/abstract-illustration-of-a-woman-and-the-smell-sense-image594791733.html
RF2WFK2WW–Abstract illustration of a woman and the smell sense
A treatise on zoology . w outgrowths becomevery distinctly paired cerebral hemispheres passing far in front ofthe lamina terminalis. The corpus striatum is a thickening ontheir outer ventral wall. The communication of their cavities oneither side with the median 3rd ventricle (prosocoele) narrows into BRAIN 17 the foijimcii of Monro. Tlie loof of the prosencephala becomesthe palliiuu which acqnires snch an enormous development in thecerebral hemispheres of the highest ^^ertel)rates. From the olfactorylolies issue the nerves to the olfactory epithelium. The greatmodifications in the shape and r Stock Photohttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/a-treatise-on-zoology-w-outgrowths-becomevery-distinctly-paired-cerebral-hemispheres-passing-far-in-front-ofthe-lamina-terminalis-the-corpus-striatum-is-a-thickening-ontheir-outer-ventral-wall-the-communication-of-their-cavities-oneither-side-with-the-median-3rd-ventricle-prosocoele-narrows-into-brain-17-the-foijimcii-of-monro-tlie-loof-of-the-prosencephala-becomesthe-palliiuu-which-acqnires-snch-an-enormous-development-in-thecerebral-hemispheres-of-the-highest-ertelrates-from-the-olfactorylolies-issue-the-nerves-to-the-olfactory-epithelium-the-greatmodifications-in-the-shape-and-r-image338360347.html
RM2AJDJ23–A treatise on zoology . w outgrowths becomevery distinctly paired cerebral hemispheres passing far in front ofthe lamina terminalis. The corpus striatum is a thickening ontheir outer ventral wall. The communication of their cavities oneither side with the median 3rd ventricle (prosocoele) narrows into BRAIN 17 the foijimcii of Monro. Tlie loof of the prosencephala becomesthe palliiuu which acqnires snch an enormous development in thecerebral hemispheres of the highest ^^ertel)rates. From the olfactorylolies issue the nerves to the olfactory epithelium. The greatmodifications in the shape and r
Smell: nose and nasopharynx and zoom on the organ of olfaction. Stock Photohttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/smell-nose-and-nasopharynx-and-zoom-on-the-organ-of-olfaction-image441937966.html
RF2GK00AP–Smell: nose and nasopharynx and zoom on the organ of olfaction.
Transmission electron micrograph of SARS-CoV-2 virus particles (yellow) within endosomes of a heavily infected nasal Olfactory Epithelial Cell. Image Stock Photohttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/transmission-electron-micrograph-of-sars-cov-2-virus-particles-yellow-within-endosomes-of-a-heavily-infected-nasal-olfactory-epithelial-cell-image-image453671466.html
RM2HA2EGA–Transmission electron micrograph of SARS-CoV-2 virus particles (yellow) within endosomes of a heavily infected nasal Olfactory Epithelial Cell. Image
Mature adult slow worm that has in the past shed its tail making its way through lawn meadow grass and daisy flowers Stock Photohttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/stock-photo-mature-adult-slow-worm-that-has-in-the-past-shed-its-tail-making-its-82720428.html
RMEPG6N0–Mature adult slow worm that has in the past shed its tail making its way through lawn meadow grass and daisy flowers
. Smell, taste, and allied senses in the vertebrates . Senses and sensation; Vertebrates. VOMERONASAL ORGAN 93 IS ered with an epithelium that resembles histologically the respiratory epithehum of the nasal cavity. This lateral epithelium may even be ciliated. The median wall is cov- ered with an epithelium much Uke the olfactory epithelium of the nose except that differentiated olfactory cells are apparently not present. The cavity of the organ ' sometimes obliterated by excessive epithelial growth and calcareous con- cretions may occur in its walls. As it appears to be without nervous con- n Stock Photohttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/smell-taste-and-allied-senses-in-the-vertebrates-senses-and-sensation-vertebrates-vomeronasal-organ-93-is-ered-with-an-epithelium-that-resembles-histologically-the-respiratory-epithehum-of-the-nasal-cavity-this-lateral-epithelium-may-even-be-ciliated-the-median-wall-is-cov-ered-with-an-epithelium-much-uke-the-olfactory-epithelium-of-the-nose-except-that-differentiated-olfactory-cells-are-apparently-not-present-the-cavity-of-the-organ-sometimes-obliterated-by-excessive-epithelial-growth-and-calcareous-con-cretions-may-occur-in-its-walls-as-it-appears-to-be-without-nervous-con-n-image216456486.html
RMPG4CCP–. Smell, taste, and allied senses in the vertebrates . Senses and sensation; Vertebrates. VOMERONASAL ORGAN 93 IS ered with an epithelium that resembles histologically the respiratory epithehum of the nasal cavity. This lateral epithelium may even be ciliated. The median wall is cov- ered with an epithelium much Uke the olfactory epithelium of the nose except that differentiated olfactory cells are apparently not present. The cavity of the organ ' sometimes obliterated by excessive epithelial growth and calcareous con- cretions may occur in its walls. As it appears to be without nervous con- n
Mucociliary Transport System color simple vector icon, medical illustration Stock Vectorhttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/mucociliary-transport-system-color-simple-vector-icon-medical-illustration-image216675246.html
RFPGEBDJ–Mucociliary Transport System color simple vector icon, medical illustration
Abstract illustration of a woman and the smell sense Stock Photohttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/abstract-illustration-of-a-woman-and-the-smell-sense-image593714958.html
RF2WDX1DJ–Abstract illustration of a woman and the smell sense
. A text-book of physiology : for medical students and physicians . sense is relatively rudimentary.f The peripheral end-organ of smell consists of the olfactory epithelium in the upperportion of the nasal chambers. The physiology of this organ willbe considered in the section on special senses. The epithelialcells of which it consists are comparable to bipolar ganglioncells. The processes or hairs that project into the nasal chamber * Flechsig, Localisation der geistigen Vorgange, Leipzig, 1896. t See Barker, The Nervous System, 1899, for references to literature. SENSE AREAS AND ASSOCIATION Stock Photohttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/a-text-book-of-physiology-for-medical-students-and-physicians-sense-is-relatively-rudimentaryf-the-peripheral-end-organ-of-smell-consists-of-the-olfactory-epithelium-in-the-upperportion-of-the-nasal-chambers-the-physiology-of-this-organ-willbe-considered-in-the-section-on-special-senses-the-epithelialcells-of-which-it-consists-are-comparable-to-bipolar-ganglioncells-the-processes-or-hairs-that-project-into-the-nasal-chamber-flechsig-localisation-der-geistigen-vorgange-leipzig-1896-t-see-barker-the-nervous-system-1899-for-references-to-literature-sense-areas-and-association-image370188521.html
RM2CE7F6H–. A text-book of physiology : for medical students and physicians . sense is relatively rudimentary.f The peripheral end-organ of smell consists of the olfactory epithelium in the upperportion of the nasal chambers. The physiology of this organ willbe considered in the section on special senses. The epithelialcells of which it consists are comparable to bipolar ganglioncells. The processes or hairs that project into the nasal chamber * Flechsig, Localisation der geistigen Vorgange, Leipzig, 1896. t See Barker, The Nervous System, 1899, for references to literature. SENSE AREAS AND ASSOCIATION
Transmission electron micrograph of SARS-CoV-2 virus particles (gold) within endosomes of a heavily infected nasal Olfactory Epithelial Cell. Image ca Stock Photohttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/transmission-electron-micrograph-of-sars-cov-2-virus-particles-gold-within-endosomes-of-a-heavily-infected-nasal-olfactory-epithelial-cell-image-ca-image453671480.html
RM2HA2EGT–Transmission electron micrograph of SARS-CoV-2 virus particles (gold) within endosomes of a heavily infected nasal Olfactory Epithelial Cell. Image ca
. Smell, taste, and allied senses in the vertebrates . Senses and sensation; Vertebrates. 30 SMELL, TASTE, ALLIED SENSES Sehultze on this subject has been unquestionably and abundantly confirmed. The sustentacular cells are the chief supporting ele- ments of the olfactory epithelium. Each of these cells has a distal cylindrical portion that contains the yellowish or light brownish pigment so characteristic of the olfac-. Fia. 6.—Olfactory epithelium of a young mouse showing the olfactory cells and, to the right, two suatentacular cells. Golgi preparation. After Retzius, lS92a, Plate 10, Fig. 2 Stock Photohttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/smell-taste-and-allied-senses-in-the-vertebrates-senses-and-sensation-vertebrates-30-smell-taste-allied-senses-sehultze-on-this-subject-has-been-unquestionably-and-abundantly-confirmed-the-sustentacular-cells-are-the-chief-supporting-ele-ments-of-the-olfactory-epithelium-each-of-these-cells-has-a-distal-cylindrical-portion-that-contains-the-yellowish-or-light-brownish-pigment-so-characteristic-of-the-olfac-fia-6olfactory-epithelium-of-a-young-mouse-showing-the-olfactory-cells-and-to-the-right-two-suatentacular-cells-golgi-preparation-after-retzius-ls92a-plate-10-fig-2-image216456543.html
RMPG4CER–. Smell, taste, and allied senses in the vertebrates . Senses and sensation; Vertebrates. 30 SMELL, TASTE, ALLIED SENSES Sehultze on this subject has been unquestionably and abundantly confirmed. The sustentacular cells are the chief supporting ele- ments of the olfactory epithelium. Each of these cells has a distal cylindrical portion that contains the yellowish or light brownish pigment so characteristic of the olfac-. Fia. 6.—Olfactory epithelium of a young mouse showing the olfactory cells and, to the right, two suatentacular cells. Golgi preparation. After Retzius, lS92a, Plate 10, Fig. 2
Nasal mucosa cells and micro cilia vector scheme Stock Vectorhttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/stock-photo-nasal-mucosa-cells-and-micro-cilia-vector-scheme-81539941.html
RFEMJD0N–Nasal mucosa cells and micro cilia vector scheme
Abstract illustration of a woman and the smell sense Stock Photohttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/abstract-illustration-of-a-woman-and-the-smell-sense-image594793533.html
RF2WFK565–Abstract illustration of a woman and the smell sense
. The development of the chick; an introduction to embryology . reach the i^ase of the fore-brain over which they spieadout, entering the olfactory lobe about the sixth day (Figs. 155and 15G). In the meantime the peripheral ends of the olfactoryneuroblasts have extended out as broad protoplasmic processesto the surface of the olfactory epithelium, and thus form the i:!er-cipient ])art of the olfactory sense-cells.. Fig. 155. — Olfactory epithelium of a chick embryo of 5days, prepareil by the method of Ciolgi. (After Disse.)a, b, and c indicate different forms of neurobU^sts in theolfactory e|) Stock Photohttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/the-development-of-the-chick-an-introduction-to-embryology-reach-the-iase-of-the-fore-brain-over-which-they-spieadout-entering-the-olfactory-lobe-about-the-sixth-day-figs-155and-15g-in-the-meantime-the-peripheral-ends-of-the-olfactoryneuroblasts-have-extended-out-as-broad-protoplasmic-processesto-the-surface-of-the-olfactory-epithelium-and-thus-form-the-i!er-cipient-art-of-the-olfactory-sense-cells-fig-155-olfactory-epithelium-of-a-chick-embryo-of-5days-prepareil-by-the-method-of-ciolgi-after-dissea-b-and-c-indicate-different-forms-of-neurobusts-in-theolfactory-e-image375407835.html
RM2CPN8EK–. The development of the chick; an introduction to embryology . reach the i^ase of the fore-brain over which they spieadout, entering the olfactory lobe about the sixth day (Figs. 155and 15G). In the meantime the peripheral ends of the olfactoryneuroblasts have extended out as broad protoplasmic processesto the surface of the olfactory epithelium, and thus form the i:!er-cipient ])art of the olfactory sense-cells.. Fig. 155. — Olfactory epithelium of a chick embryo of 5days, prepareil by the method of Ciolgi. (After Disse.)a, b, and c indicate different forms of neurobU^sts in theolfactory e|)
Transmission electron micrograph of SARS-CoV-2 virus particles (green) within endosomes of a heavily infected nasal Olfactory Epithelial Cell. Image c Stock Photohttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/transmission-electron-micrograph-of-sars-cov-2-virus-particles-green-within-endosomes-of-a-heavily-infected-nasal-olfactory-epithelial-cell-image-c-image453671486.html
RM2HA2EH2–Transmission electron micrograph of SARS-CoV-2 virus particles (green) within endosomes of a heavily infected nasal Olfactory Epithelial Cell. Image c
. The development of the chick : an introduction to embryology. Embryology; Chickens -- Embryos. THE NERVOUS SYSTEM 265 nerve is entirely intramedullary, the retina being part of the wall of the embryonic brain; its development will therefore be considered in connection with the development of the eye.. Fig. 156. — Sagittal section through the head of a chick embryo of 5 days, showing the floor of fore-brain, olfactory pit, and developing olfactory nerve between. (After Disse.) a., Unipolar neuroblasts near the olfactory epithelium, b., Bipolar cell in the olfactory nerve, c, Unipolar cell nea Stock Photohttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/the-development-of-the-chick-an-introduction-to-embryology-embryology-chickens-embryos-the-nervous-system-265-nerve-is-entirely-intramedullary-the-retina-being-part-of-the-wall-of-the-embryonic-brain-its-development-will-therefore-be-considered-in-connection-with-the-development-of-the-eye-fig-156-sagittal-section-through-the-head-of-a-chick-embryo-of-5-days-showing-the-floor-of-fore-brain-olfactory-pit-and-developing-olfactory-nerve-between-after-disse-a-unipolar-neuroblasts-near-the-olfactory-epithelium-b-bipolar-cell-in-the-olfactory-nerve-c-unipolar-cell-nea-image215969745.html
RMPFA7H5–. The development of the chick : an introduction to embryology. Embryology; Chickens -- Embryos. THE NERVOUS SYSTEM 265 nerve is entirely intramedullary, the retina being part of the wall of the embryonic brain; its development will therefore be considered in connection with the development of the eye.. Fig. 156. — Sagittal section through the head of a chick embryo of 5 days, showing the floor of fore-brain, olfactory pit, and developing olfactory nerve between. (After Disse.) a., Unipolar neuroblasts near the olfactory epithelium, b., Bipolar cell in the olfactory nerve, c, Unipolar cell nea
Abstract illustration of a woman and the smell sense Stock Photohttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/abstract-illustration-of-a-woman-and-the-smell-sense-image591953270.html
RF2WB1PC6–Abstract illustration of a woman and the smell sense
. The development of the chick; an introduction to embryology . ts in theolfactory epithelium. The epithelial cells between fore-brain and olfactory pit, throughwhich the axones of the olfactory neuroblasts grow, are for themost part supporting and sheath-cells of the nerve, but they in-clude a few bipolar neuroblasts (Fig. 156). The latter are tobe considered as olfactory neuroblasts with elongated protoplas-mic processes. Rubaschkin finds a ganglion, which he calls ganglion olfactoriumnervi trigemini, situated beneath the olfactory epithelium in a nine-day chick. The bipolar cells send out p Stock Photohttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/the-development-of-the-chick-an-introduction-to-embryology-ts-in-theolfactory-epithelium-the-epithelial-cells-between-fore-brain-and-olfactory-pit-throughwhich-the-axones-of-the-olfactory-neuroblasts-grow-are-for-themost-part-supporting-and-sheath-cells-of-the-nerve-but-they-in-clude-a-few-bipolar-neuroblasts-fig-156-the-latter-are-tobe-considered-as-olfactory-neuroblasts-with-elongated-protoplas-mic-processes-rubaschkin-finds-a-ganglion-which-he-calls-ganglion-olfactoriumnervi-trigemini-situated-beneath-the-olfactory-epithelium-in-a-nine-day-chick-the-bipolar-cells-send-out-p-image374659616.html
RM2CNF64G–. The development of the chick; an introduction to embryology . ts in theolfactory epithelium. The epithelial cells between fore-brain and olfactory pit, throughwhich the axones of the olfactory neuroblasts grow, are for themost part supporting and sheath-cells of the nerve, but they in-clude a few bipolar neuroblasts (Fig. 156). The latter are tobe considered as olfactory neuroblasts with elongated protoplas-mic processes. Rubaschkin finds a ganglion, which he calls ganglion olfactoriumnervi trigemini, situated beneath the olfactory epithelium in a nine-day chick. The bipolar cells send out p
Transmission electron micrograph of SARS-CoV-2 virus particles (green) within endosomes of a heavily infected nasal Olfactory Epithelial Cell. Image c Stock Photohttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/transmission-electron-micrograph-of-sars-cov-2-virus-particles-green-within-endosomes-of-a-heavily-infected-nasal-olfactory-epithelial-cell-image-c-image453671484.html
RM2HA2EH0–Transmission electron micrograph of SARS-CoV-2 virus particles (green) within endosomes of a heavily infected nasal Olfactory Epithelial Cell. Image c
. Smell, taste, and allied senses in the vertebrates . Senses and sensation; Vertebrates. 36 SMELL, TASTE, ALLIED SENSES nasal epithelium must be their cells of origin, as in fact was shown to be the case for the chick by Disse (1896a, 1897). Here the olfactory nerve-fibers have been demon- strated to grow from certain olfactory epithelial cells into the olfactory bulb, the epithelial cells acting in all respects like neuroblasts Bedford (1904). The trigeminal fibers. Flo. 10.—Olfactory epithelium of an embryo chick (ninth day) showinR olfactory cells, su.stentacular cells, and free-nerve endi Stock Photohttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/smell-taste-and-allied-senses-in-the-vertebrates-senses-and-sensation-vertebrates-36-smell-taste-allied-senses-nasal-epithelium-must-be-their-cells-of-origin-as-in-fact-was-shown-to-be-the-case-for-the-chick-by-disse-1896a-1897-here-the-olfactory-nerve-fibers-have-been-demon-strated-to-grow-from-certain-olfactory-epithelial-cells-into-the-olfactory-bulb-the-epithelial-cells-acting-in-all-respects-like-neuroblasts-bedford-1904-the-trigeminal-fibers-flo-10olfactory-epithelium-of-an-embryo-chick-ninth-day-showinr-olfactory-cells-sustentacular-cells-and-free-nerve-endi-image216456523.html
RMPG4CE3–. Smell, taste, and allied senses in the vertebrates . Senses and sensation; Vertebrates. 36 SMELL, TASTE, ALLIED SENSES nasal epithelium must be their cells of origin, as in fact was shown to be the case for the chick by Disse (1896a, 1897). Here the olfactory nerve-fibers have been demon- strated to grow from certain olfactory epithelial cells into the olfactory bulb, the epithelial cells acting in all respects like neuroblasts Bedford (1904). The trigeminal fibers. Flo. 10.—Olfactory epithelium of an embryo chick (ninth day) showinR olfactory cells, su.stentacular cells, and free-nerve endi
Abstract illustration of a woman and the smell sense Stock Photohttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/abstract-illustration-of-a-woman-and-the-smell-sense-image594923504.html
RF2WFW300–Abstract illustration of a woman and the smell sense
. A laboratory manual and text-book of embryology. Embryology. 3io HISTOGENESIS nected with it are differentiated the nervous tissues, the single exception being the nerve cells and fibers of the olfactory epithelium. The Differentiation of the Neural Tube.—The cells of the neural tube dif- ferentiate along two fines: There are formed: (i) nerve cells and fibers, in which irritability and conductivity have become the predominant functions; (2) neu- roglia cells and fibers which form the supporting or skeletal tissue peculiar to the nervous system. The differentiation of these tissues has been Stock Photohttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/a-laboratory-manual-and-text-book-of-embryology-embryology-3io-histogenesis-nected-with-it-are-differentiated-the-nervous-tissues-the-single-exception-being-the-nerve-cells-and-fibers-of-the-olfactory-epithelium-the-differentiation-of-the-neural-tubethe-cells-of-the-neural-tube-dif-ferentiate-along-two-fines-there-are-formed-i-nerve-cells-and-fibers-in-which-irritability-and-conductivity-have-become-the-predominant-functions-2-neu-roglia-cells-and-fibers-which-form-the-supporting-or-skeletal-tissue-peculiar-to-the-nervous-system-the-differentiation-of-these-tissues-has-been-image232344500.html
RMRE05NT–. A laboratory manual and text-book of embryology. Embryology. 3io HISTOGENESIS nected with it are differentiated the nervous tissues, the single exception being the nerve cells and fibers of the olfactory epithelium. The Differentiation of the Neural Tube.—The cells of the neural tube dif- ferentiate along two fines: There are formed: (i) nerve cells and fibers, in which irritability and conductivity have become the predominant functions; (2) neu- roglia cells and fibers which form the supporting or skeletal tissue peculiar to the nervous system. The differentiation of these tissues has been
Download Confirmation
Please complete the form below. The information provided will be included in your download confirmation