RF2C12H8Y–Isolated human left sided temporal bone of skull .Lateral view monochrome
RMGE4GX0–Mechanical Engineer Michael Guerrero works on the Robot Brain Surgeon testbed in the NeuroEngineering Group at the Ames Research Center, Moffett Field, California. Principal investigator Dr. Robert W. Mah states that potentially the simple robot will be able to feel brain structures better than any human surgeon, making slow, very precise movements during an operation. The brain surgery robot that may give surgeons finer control of surgical instruments during delicate brain operations is still under development. Image # : ACD97-0063-2 Date: June 2, 1997
RMEX7H57–MRI of head showing normal brain structures.
RF2B1AEXK–Cranial bone structure line icon, concept sign, outline vector illustration, linear symbol.
RMK1FECR–This scanning electron micrograph (SEM) depicts a magnified view of a colony of the dematiaceous filamentous fungus Curvularia geniculata, revealing the morphologic details of the organism?s hyphae, and conidiophores topped with spore-containing conidia. Though normally found living in soil or decaying vegetation, Curvularia geniculata is pathogenic to humans, causing wound infections known as phaeohyphomycosis, which are fungal infections that can involve a number of bodily structures including the skin, respiratory tract, and brain, to name a few. Image courtesy CDC/Robert Simmons, Janice Ha
RMRE0E7E–. Human embryology and morphology. Embryology, Human; Morphology. CHAPTER II. THE NASAL CAVITIES AND OLFACTOEY STEUCTUEES. In tracing the development of structures subservient to the sense of smell, the following elements have to be dealt with: (1) The olfactory sense epithelium and olfactory nerves; (2) The parts of the brain concerned with the sense of smell, so far as we know them; (3) The capsule which contains the olfactory epithelium; (4) The respiratory tract of the nasal cavities.. lat. nas. proc. mes. nas. proc. olfactory pit and plate for Jacobson's organ stomodaeum Fig. 16.—The Olfa
RFME0GW2–Human brain, conceptual illustration.
RMRE072A–. Human embryology and morphology. Embryology, Human; Morphology. CHAPTEE XIV. DEVELOPMENT OF THE STRUCTURES CONCERNED IN THE SENSE OF SIGHT. The structures concerned in the sense of sight are: (1) The Eyeball and the Optic Nerve. (2) The Eyelids and Lachrymal Apparatus. (3) The Orbit, the Muscles, Nerves, and Vessels contained it. (4) The Nerve Centres and Tracts. The Eyeball.—The condition of the eye in the third week of etal life is shown diagrammatically in Fig. 141. The three fprebrain optic uesicle epiblast neuroblast mesobfast mid-brain hind-brain Fig. 141.—Diagram of the Elements which
RMRDW5HJ–. Human embryology and morphology. Embryology, Human; Morphology. 8 HUMAN EMBRYOLOGY AND MOBPHOLOGY. accompany the nerves from the descending palatine. The nasal nerve and anterior ethmoidal artery supply the process in Iron It will thus be seen that the chief nerves and arteries ol botn processes are derived from structures in the spheno-maxillary fossa. MAXILLARY PROCESSES. The Parts formed from each Maxillary Process.—The max- illary process springs from the base of the mandibular arch and sweeping forwards below the eye separates that structure from mid brain cerebral uesicle anterior nare
RMRE073D–. Human embryology and morphology. Embryology, Human; Morphology. periotio ^â ^Apetro-mast.) parach. cart. notoch. Fin. 135.âDiagram of the Trabeculae Cranii, Parachordal Cartilages, and Periotio Capsules. septum of nose lat. nas. cart. lat. mass, ethmoid cribriform pi. r small wing isphen. optic, for. pituitary trabecula. Periotio (petro-mast) great wing sphen. petro-mast. -parach. cartil. Fig. 136.â Diagram of the structures formed from the Trabeculae Cranii. membranous basis of the embryonic brain capsule in front of the notochord and on each side of the pituitary body. In Fig. 136 is shown
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