Cunningham's textbook of anatomyW. Wood, 1818 - 1577 pages |
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Page 36
... region , becomes permeated by nerve - fibres , which are merely processes of the nerve - cells , and it is thus converted into the white matter of the adult spinal medulla . In the brain region it is either transformed in the same way ...
... region , becomes permeated by nerve - fibres , which are merely processes of the nerve - cells , and it is thus converted into the white matter of the adult spinal medulla . In the brain region it is either transformed in the same way ...
Page 37
... region . embryonic area . Pericardial mesoderm Mesoderm of By the rapid proliferation entoderm vesicle of cells from the nodal grow- Entoderm Notochord Allantoic diverticulum from entoderm vesicle FIG . 48. - SCHEMA OF SAGITTAL SECTION ...
... region . embryonic area . Pericardial mesoderm Mesoderm of By the rapid proliferation entoderm vesicle of cells from the nodal grow- Entoderm Notochord Allantoic diverticulum from entoderm vesicle FIG . 48. - SCHEMA OF SAGITTAL SECTION ...
Page 59
... region of the uvula . As the ledges meet and fuse , the stomatodæum is separated into a Anterior nasal orifice Eye- Globular process . Maxillary process Palatine process cranial and a caudal portion . The cranial part is the nasal ...
... region of the uvula . As the ledges meet and fuse , the stomatodæum is separated into a Anterior nasal orifice Eye- Globular process . Maxillary process Palatine process cranial and a caudal portion . The cranial part is the nasal ...
Page 74
... region where the walls of the two inner vesicles lie in relation with one another , and it is 19 mm . long ( Fig ... region and indicating the position of the future cloacal membrane . The head fold has begun to form , and the ...
... region where the walls of the two inner vesicles lie in relation with one another , and it is 19 mm . long ( Fig ... region and indicating the position of the future cloacal membrane . The head fold has begun to form , and the ...
Page 75
... region begins to bend ventrally as the cervical flexure forms ( Fig . 98 ) . By the end of the first month the greatest length of the embryo is about 2.6 mm . , the head is bent at right angles to the body , the Wolffian ridges have ...
... region begins to bend ventrally as the cervical flexure forms ( Fig . 98 ) . By the end of the first month the greatest length of the embryo is about 2.6 mm . , the head is bent at right angles to the body , the Wolffian ridges have ...
Expressions et termes fréquents
adductor amnion angle arch artery articular surface articulation aspect attached backwards body bone border brain brevis calcaneus canal capsule carpi cartilage caudal cavity cells centre cerebellum cerebral cerebral hemisphere cervical chorion cœlom column condyle connexion corpus corpus callosum crest distal dorsal embryo entodermal ethmoid extensor external facet fascia fasciculus fibres fissure foramen fossa fourth ventricle front frontal funiculus gray matter groove head hemisphere humerus inferior insertion interosseous joint lamina lateral side lateralis layer ligament longus lumbar margin maxilla medial side median plane medulla oblongata membrane mesencephalon mesoderm muscle nasal nerve neural notch nucleus obliquely occipital occipital bone orbital origin passes pelvic plantar pollicis pons portion posterior posteriorly primitive proximal pterygoid radial rectus region separated septum sinus sphenoid spinal medulla spine Sulcus superior suture temporal tendon thalamus thoracic tract transverse processes trigeminal nerve trophoblast tube tubercle upper ventral ventricle vertebral vesicle volar wall whilst zygomatic