RM2GFD83M–Fracture in the first metatarsal bone of the right foot of a 3 year old male patient
RF2B74KRM–This illustration represents Metatarsal, vintage line drawing or engraving illustration.
RFD9NRC0–X-ray view of human foot.
RF2BTGXXN–It is composed of three series of groups of bones, the tarsal, or hindermost; the metatarsal, which occupy the middle portion; and the phalanges, whic
RFJHNK25–Film x-ray both normal human foots . 2 position ( front view and side view )
RFT5XPT3–Metatarsus of a Horse which are the combination of large metatarsal bone and Internal small metatarsal bone vintage line drawing or engraving illustra
RFR362W5–Vintage illustration of anatomy, right foot bones, dorsalis and sole view with Italian anatomical descriptions
RF2BTGMG0–Bones of human foot, these include cuneiform bones, the cuboid bone, metatarsal bone, phalange, and the navicular bone, vintage line drawing or engrav
RFDP30GP–Human foot bones, artwork
RF2B75A27–The Foot is that part of the lower extremity below the leg on which we stand and walk, vintage line drawing or engraving illustration.
RFDP4KWR–Human foot bones, artwork
RFJB7B2A–3d rendered illustration - foot anatomy
RMHBTR13–front view foot bones
RF2JMFHTE–X-ray of Fracture Ankle Bone
RF2M911YE–film x ray fracture of broken ankle
RF2HPABHW–Bones of the human foot, hand drawn vector illustration isolated on a white background, orthopedics medicine anatomy sketch
RF2WWYGP7–Human Foot Bones Front And Side View Anatomy, Vector Illustration
RF2HP0076–Bones of the human foot, vector hand drawn illustration isolated on a white background, orthopedics medicine anatomy sketch
RF2P12AMA–X-ray tarsal and ankle front
RF2E99B6M–Orthopedic Collage of Foot and Knee XRay
RMT3K9M6–Human foot. a) Metatarsal bone, b) Heel bone, c) Cube bone, d) Jump bone, e) Scaphoid bone, h) Cuneiform bone (two are designated by dotted lines), i) Toes, anonym 1877
RFD9NRBW–X-ray view of human foot.
RFJB7AGF–3d rendered illustration - foot anatomy
RMD0M8K7–Stylized bones of the lower left leg, ankle joint and foot.
RMHRJ3X1–Flat Foot
RM2AXHPH8–A manual of anatomy . ases of the five metatarsal bones, distally.There are three joints and they are of the arthrodial variety. The medial tarsometatarsal articulation comprises the internalcuneiform bone and the base of the first metatarsal bone (great toe).The ligaments are the capsule, and dorsal and plantar tarsometatarsalligaments. The intermediate tarsometatarsal joint comprises the threecuneiform bones and the bases of the second, third and a part of thefourth metatarsal bones. The ligaments are dorsal, plantar andinterosseous. The lateral tarsometatarsal articulation involves the cubo
RMAMM1AC–X ray transverse fracture of 5th distal phalanx
RF2JBXB79–Skeleton Human leg with pelvis hip silhouette body bones - Thighs, femur, patella, tibia, fibula side view flat black color concept Vector illustration of anatomy isolated on white background
RMPG1MF1–. Popular official guide to the New York Zoological Park. New York Zoological Park. 164 POPULAR OFFICIAL GITIDE.. CASSOWARY. its metatarsus, is distinctly bluish, and dark. This is the species of the southern half of Africa, now so successfully farmed in Cape Colony for its feathers that the annual crop is said to yield about $5,000,000. And it is this species which is kept on the ostricli farms of California and Arizona. The North African, or Sudan Ostrich, (S. caineliis), is the species first and longest known. Its neck, thighs and front metatarsal scales are of a decided pink color. Origina
RFDP4MN7–Human foot bones, artwork
RF2JDA86B–Human foot bones anatomy with descriptions. Foot parts structure. Human internal organ illustration.
RFDP4GFH–Human foot bones, artwork
RMHBTR18–above view foot bone
RFDP46E8–Human foot bones, artwork
RF2GH4451–Anatomical structure of the bones of the foot. Black silhouette. Vector illustration.
RF2A92RK4–Foot skeleton icon, isometric style
RMT2TJ42–Skeleton and internal organs of a cow. HW Cervical Vertebrae, BrW Thoracic Vertebrae, LW Lumbar Vertebrae, BW Pelvic Vertebrae, SW Cervical Vertebrae, OS Femoral Bones, US Lower Limb, FW Tarsal Bones, MK Metatarsal Bones, Z Toe Bones, 1 Esophagus, 2 Trachea, 2a Tracheal Fibula, 3 Heart, 4 Body Artery, 5 Liver, 6 Spleen (Outline dashed, obscured by the liver), 7 rumen, 8 leaves (mostly obscured), 9 reticulum, 10 abomasum, 11 small intestine, 12 cecum, 13 small intestine into the colon, 14 kidney, 15 bladder, 16 rectum. (Lungs not shown), 1941
RFJB7AHJ–3d rendered illustration - foot anatomy
RFJB5DKB–medical illustration of the skeletal foot
RM2AWFJK3–An introduction to the study of the comparative anatomy of animals . espond to theheel-bone (calcaneum) and ankle-bone (astragalus) in man.The further row of tarsals is very much reduced, consisting oftwo tiny pieces of calcified cartilage. One, a flat piece, liesbetween the common epiphysis of the astragalus and cal-caneum and the metatarsal bones of the foot, and is generallyconsidered to correspond to the cuboid of human anatomy.The other piece is a mere nodule on the inner or astragalarside, and is compared with the navicular bone of humananatomy. The foot has six toes. The first is minute
RMHRH5BJ–Flat Foot
RF2JBXBBF–Skeleton Human foot silhouette body bones - side lateral view. Feet, ankle, tarsals metatarsals phalanges flat black color concept Vector illustration of anatomy isolated on white background
RMPG3R60–. Popular official guide to the New York Zoological Park. New York Zoological Park. 164 POPULAR OFFICIAL GUIDE.. CASSOWARY. its metatarsus, is distinctly bluish, and dark. This is the species of the southern half of Africa, now so successfully farmed in Cape Colony for its feathers that the annual crop is said to yield about $5,000,000. And it is this species which is kept on the ostrich farms of California and Arizona. The North African, or Sudan Ostrich, (S. camelus), is the species first and longest known. Its neck, thighs and front metatarsal scales are of a decided pink color. Originally
RMHBTRC5–above view foot bone
RFDP48GC–Human foot bones, artwork
RF2GGTEKB–Anatomical structure of the bones of the foot. Black silhouette. Vector illustration.
RFDP3YEX–Human foot bones, artwork
RFDP3P96–Human leg bones, artwork
RFDP3KX0–Human foot bones, artwork
RMT4P5BT–Skeleton. 1) scalp part and base of the occipital bone, 2) parietal bone, 3) frontal half, 4) upper jawbone and Pflugscharbein, 5) temporal bone scales, * rock part of the temporal bone, 6) zygomatic bone, 7) nasal bone, 8) lower jaw, 9) cervical vertebrae, 10) thoracic vertebrae , 11) lumbar vertebrae, 12) sacral vertebrae, 13) clavicle, 14) scapula, 15) humeral bone, 16) elbow, 17) spinal bone, 18) cartilaginous carpal, 19) metacarpal bone, 20) bony bone, 21) hip bone, 22) femur, 23) Patellar attachment, 24) fibula, 24a) tibia, 25) tarsal root, 26) metatarsal bones, 28) sternum, anonym 1887
RFD6H7W3–Foot bones, artwork
RFJB5DKH–medical illustration of the skeletal foot
RM2AKRHRH–First lesson in zoology : adapted for use in schools . Fig. 305,A ),the tarsus is represented by twoshort bones, while the metatarsalbones are separate. This earlyseparation of the metatarsal bonesis retained in the fully-grown pen-guin (Fig. 206). In being thusconsolidated the fully-grown birdsankle is best adapted to supportthe toes, the birds body beingadapted both for flight and walk-ing or running. The tarsus (property tarso-meta-tarsus) may be covered with feath-ers, as in the owl, or with scales.When covered with a network ofnumerous scales, the tarsus is saidto be reticulate; when they
RMPG2JT2–. On the anatomy of vertebrates. Vertebrates; Anatomy, Comparative; 1866. ANATOMY OF VERTEBRATES. from the first to the fifth, and in length from the second to the fifth. In the Land tortoises, the fifth toe is reduced to a metatarsal rudiment: the others are short and thick, fig. 118, each with two phalanges, the second sup- porting a claw, and adapted, like those of the fore foot, for burrowing. The two extremes of modi- fication of the hind foot in the chelonian series are presented by the Turtle and Tortoise : the great comparative weight and bulk of the body to be supported on dry land in
RMHBTRBE–front view foot bones
RFD6H7W1–Foot bones, artwork
RFJB5DK9–medical illustration of the skeletal foot
RM2AXH3FX–A manual of anatomy . n the dorsal metatarsal arteries.(/) Artictdar branches to the tarsal joints, {g) The fifth metatarsalbranch supplies the outer side of the little toe, the joints and tendonsheathes along its course. The course of the medial plantar artery is indicated by a line drawnfrom the point midway between the medial malleolus and the promi-nence of the heel to a point at the middle of the under surface of thegreat toe. The cotirse of the lateral plantar artery is indicated by aline from the same starting point to a point about H 16 242 THE BLOOD-VASCULAR SYSTEM to the tuberosity o
RF2C2RJH6–Comparative table of the skeleton of the foot of a Japanese, a European and an Australian, vintage engraved illustration. From the Universe and Humani
RMPG2JJN–. On the anatomy of vertebrates. Vertebrates; Anatomy, Comparative; 1866. MYOLOGY OF REPTILES. OA] the ridge anterior to the outer femoral condyle, and is inserted into the distal phalanx of the hallux and into tlie proximal phalanges of the other toes. The tibialis unticus, figs. 150, 153, 109, arises from the antero-internal margin of the tihia, and is inserted into the til)ial side of the tarsus and first metatarsal. The peroneus, fig. 151, 10, arises li-om the fore part of the fihnla, and is inserted into the cuboid, and fourth and fifth metatarsals. The digit- extensor es breves, figs. 14
RMHBTRBM–foot muscles
RFD6H7W0–Foot bones, artwork
RFD7MK07–Foot bones, artwork
RM2AWEDYR–Applied anatomy and kinesiology, the mechanism of muscular movement . 109.—Bones of the foot. (Gray.) kept from spreading by ligaments and muscles, forming an effi-cient shock-absorbing mechanism to lessen the jar that wouldotherwise result in walking, running, and jumping. The bones areas follows: Seven tarsal bones: astragalus, calcaneum, scaphoid or navicu-lar, cuboid, and three cuneiform bones numbered from withinoutward; 1SS MOVEMENTS OF THE FOOT Five metatarsal bones, numbered from within outward, andFourteen phalanges, three for each toe except the first, which hastwo. The principal arc
RFDP2T1P–Bones of the foot, artwork
RMPFTP1G–. Points of the horse; a treatise on the conformation, movements, breeds and evolution of the horse. Horses. Fig. 379.—Left Fore Foot of H. Gracile (|th real height). Figs. 380 and 381.—Left Fore and Right Hind Leg of same H. Gracile (|th real height). metacarpal and metatarsal bones will become as rudimentary as the splint-bones of the horse. Even if it were objected that these facts do not warrant us in assuming that the ancestors of the horse had, on each foot, three toes, two of which were more or less rudimentary; we have the still stronger evidence afforded by fossils of horse-like anima
RMHBTR20–below view foot bones
RM2AJHGNA–Researches on the Structure, Organization, and Classification of the Fossil Reptilia VII Further Observations on Pareiasaurus . e relatively short.The first metatarsal is 2 inches long, 1^ inch wide proximally, and about 2 inches widedistally. The transverse measurement or thickness of the flattened articular ends ismore than an inch. The bone is flattened above, rounded at the sides, and at thedistal extremity in front, and concave in the middle. The first phalange is fully halfan inch long, the second more than three-quarters of an inch long. These bones have 358 PROFESSOR H. G. SEELEY OX TH
RFDP2T20–Bones of the foot, artwork
RMPG0A14–. Animal activities; a first book in zoo?logy. Zoology; Animal behavior. Fig. 146.—Various Stages of Tadpole. the two bones, the radius and ulna in man, the carpal or wrist-bones, the metacarpal or hand-bones, and the fingers or phalanges. In the leg are the femur or thigh-bone, the shin-bone corresponding to the tibia. Fig. 147.—Young Frogs. and fibula in man, the tarsal bones, two of which are much longer than the others, the metatarsal or ankle- bones and the//^a/a^^^^i'(Fig. 152). Controlling the organs of motion and extending into. Please note that these images are extracted from scanned
RMHBTR1J–lateral view foot bones
RM2AWEE46–Applied anatomy and kinesiology, the mechanism of muscular movement . Fig. 108 MIDDLE CUNEIFORM RST METATARSAL. Fig. 109Figs. 108 and 109.—Bones of the foot. (Gray.) kept from spreading by ligaments and muscles, forming an effi-cient shock-absorbing mechanism to lessen the jar that wouldotherwise result in walking, running, and jumping. The bones areas follows: Seven tarsal bones: astragalus, calcaneum, scaphoid or navicu-lar, cuboid, and three cuneiform bones numbered from withinoutward; 1SS MOVEMENTS OF THE FOOT Five metatarsal bones, numbered from within outward, andFourteen phalanges, thre
RFDP2T22–Bones of the foot, artwork
RF2T2PBCA–Healthy hand, X-ray
RMPG2JRR–. On the anatomy of vertebrates. Vertebrates; Anatomy, Comparative; 1866. )9-2 ANATOMY OF VERTEBRATES. 122 homology of their homotypes in the fore-foot, fig. J10. The first metatarsal supports two phalanges, fig. 123, i; the second, three ; the third and fourth, each four phalanges; and the fifth, three. The first and second toes are opposed to the other three in the hind foot, contrariwise to the arrangement in the fore foot. In the Pterodactyle, fig. Ill, the hind limb adhered closely to the lacertian type; the metatarsals were distinct; the phalanges in- creased in number from the first to
RMHBTRB9–below view foot bones
RM2AGBJ2T–. A manual on foot care and shoe fitting for officers of the U.S. Navy and U.S. Marine corps. Fig. 3.—Muscles con- Pig. 4.-e-Deep muscles of foot. Muscles trolling lateral toe action. and tendons controlling toe action. (C««-{Cunningham.) ningham.) metatarsal bone. (See illustration No. 2.) Thig is definitelyformed by the inherent structural concavity of the bones held 12 FOOT CARE AND SHOE FITTING among themselves by ligaments and supported from below bydeveloped muscle layers. The anterior arch is formed by the distal ends of the meta-tarsal bones. (SeeillustrationNo. s.) The muscular develo
RF2T2PBAH–Healthy hand, X-ray
RMPG3KPD–. The horse in health and disease : a text-book pertaining to veterinary science for agricultural students . Horses; Horses. 30 THE HORSE IN HEALTH AND DISEASE Cancellated bone tissue is porous in appearance and composed of great numbers of little bony plates and spicules surrounding. Fig. 2.—Sagittal section of right large metatarsal bone: S.c, Compact substance; S.s., spongy substance; C.m., medullary cavity; F.n., nutrient fora- men. Note the greater thickness of the compact substance of the anterior part of the shaft. (Sisson, Anatomy of Domestic Animals.) spaces that are filled with red m
RMHBTRCC–internal lateral view foot bones
RM2AGBFBF–. Outlines of zoology. alangesof third digit. Fig. 409. —Side view of ankleand foot of horse. fl., Astragalus; c, calcaneum;»., navicular; e.c,,, externalcuneiform; cub.., cuboid; w^s,third metatarsal; vtt.i,^ splintof fourth metatarsal; j,, sesa-moid ; ph. 1-3, phalanges ofthird digit. PERISSODACTVLA. 761 Families of Perissodadyla Family Tapiridse.—In the Tapirs (Tapirus) there are four digits inthe manus, bat the third finger is still practically median, as thefifth digit scarcely reaches the ground. The hind-foot has three digits. The dentition of the genus is ^-?y. The orbit and 3133tempor
RF2T2PBAW–Healthy hand, X-ray
RMPG0FWA–. The anatomy of the domestic fowl . Domestic animals; Veterinary medicine; Poultry. Fig. 66.—Blood-vessels and nerves of the posterior extremity. Outside view. i. Anterior tibial artery. 2, Metatarsal artery. 3, Digital arteries. 4, Vena cutaneous crurus. 5, Ischiadic artery. 6, Vena cruralis. 7, Lateral cutaneous branch of the ischiadic nerve. between two of the main lobes of the kidney. The continuation of the posterior aorta is called the sacralis media' (Fig. 64, No. 32). The ischiadic artery gives off a recurrent renalis on the. Fig. 67.—Blood-vessels and nerves of the fore limb. Outside
RMHBTR0X–foot muscles
RM2AKR8RK–First lesson in zoology : adapted for use in schools . Fig. 225.—TJnder-surface of hind-paw, n, HI, rv, V, the respec-tive four digits, a, pad beneaththe metatarsal bones; h, heel. Now observe the limbs (Figs. 224, 225). The front pairis shorter than the hind legs, and each limb consists of an 220 FIB8T LE8S0N8 IN ZOOLOGY. upper arm, a fore arm, and a paw, with five short toes. Thehind limbs each consist of a thigh, a leg, and a foot withbut four toes. The elbow and knee are close to the trunk.It is so with the dog. The legs of the ox and horse do notproject from the body above the knee or elb
RF2T2PBAG–Healthy hand, X-ray
RMPG0FWG–. The anatomy of the domestic fowl . Domestic animals; Veterinary medicine; Poultry. ANGIOLOGY 229 The ischiadic artery (Fig. 69, No. 9) forms the main artery of the posterior extremity. This artery, the largest vessel of that region, is given off from the posterior aorta and passes ventrally over and. Fig. 66.—Blood-vessels and nerves of the posterior extremity. Outside view. i. Anterior tibial artery. 2, Metatarsal artery. 3, Digital arteries. 4, Vena cutaneous crurus. 5, Ischiadic artery. 6, Vena cruralis. 7, Lateral cutaneous branch of the ischiadic nerve. between two of the main lobes of
RMHBTRBY–lateral view foot bones
RM2AGBHDP–. A manual on foot care and shoe fitting for officers of the U.S. Navy and U.S. Marine corps. etatarsal bones forming anterior arch. A shows formation of anterior arch by dit.tal ends of metatarsal bones.Note convexity of instep, dotted line indicating integrity of arch and con-cavity formed on the plane C. B shows fallen anterior arch. Note flat or convex instep, dotted line andabsence of concavity on the plane C. A tripod is formed by the structure of the foot; the apex ofwhich is the highest point of the heel bone (Os Calcis), theinner side of the ball of the foot at the base of the big toe
RF2T2PBBA–Healthy hand, X-ray
RMPG2274–. The surgical anatomy of the horse ... Horses. Plate VI. Superficial Dissection (continued). Hind Limb (right), Inner aspect.—22. Plantar nerves. 23. Sigmoid curve of posterior tibia! artery. 24. Summit of tuber calcis covered by perforatus tendon, 25. Superior annular band. 26. Cutaneous branch of posterior tibial nerve passing over seat of spavin. 27. Cunean tendon. 28. Tendon of perforans leaving tarsal sheath. 29. Internal metatarsal vein passing upwards to form anterior root of internal saphena vein. 30. Perforatus tendon, 31. Inferior annular band. 32. Internal plantar nerve. 33. Extens
RF2JBD9PF–Foot anatomy, illustration
RMHBTR1E–internal lateral view foot bones
RM2AGC15F–. Outlines of zoology. Fig. 355.—Fore-limb and hind-limb compared. H., Humerus; 7?., radius; U,, ulna; r,, radiale ; u., ulnare; C, distalcarpals united to carpo-metacarpus; CC, the whole carpal region;MC.I., metacarpal of the thumb; /., phalanx of the thumb ; MC.IF.^second metacarpus; //., second digit; MC.IIl., third metacarpus;///., third digit. P., femur; T.T., tihio-tarsus; Ft., fibula; Pi.,proximal tarsals united to lower end of tibia ,dt., distal tarsals unitedto upper end of tarso-metatarsus (T.MT.); T., entire tarsal region;MT.I., first metatarsal, free ; /.-/F.,toes. are usually wel
RMPG1H6B–. The surgical anatomy of the horse ... Horses. Plate XXVIII.—Metatarsal Region, showing Arteries, Tendons, Ligaments, Bones, etc. A.—INNER aspect I. Cunean tendon. 2. Cuneiform parvum. 3. Scaphoid. 4. Head of inner small metatarsal bone. 5. Cuneiform magnum. 6. Perforatus tendon. 7. Large metatarsal bone. 8. Perforans tendon. 9. Internal plantar interosseous artery. 10. Internal plantar nerve. 11. Suspensory ligament. 12. Large metatarsal artery. 13. Anastomosis of large metatarsal and internal plantar interosseous arteries. 14. Division of large metatarsal into the two digital arteries. B.—O
RMHBTR1M–leg muscles back
RM2AGBFFT–. Outlines of zoology. 7nc2> vU, 3.. Fig. 408.—Side view of lowerpart of ponys fore-leg, h.^ Distal end of humerus; «.,olecranon process of ulna; r.,radius; jc, scaphoid ; /., lunar ;c, cuneiform ; ?«., os magnum ;?un., unciform ; p., pisiform;7«c.4, splint of fourth metacar-pal ; inc. 3, third metacarpal;f., sesamoid ; i, 2, 3, phalangesof third digit. Fig. 409. —Side view of ankleand foot of horse. fl., Astragalus; c, calcaneum;»., navicular; e.c,,, externalcuneiform; cub.., cuboid; w^s,third metatarsal; vtt.i,^ splintof fourth metatarsal; j,, sesa-moid ; ph. 1-3, phalanges ofthird digit.
RMPG227C–. The surgical anatomy of the horse ... Horses. Plate IV. Superficial Dissection (continued). Hind Limb (right), Outer ASPECT.—15. Superior annular band. 17. Middle annular land. 19. Inferior annular band. 20. Tendon of gastrocnemius. 21. Large metatarsal artery. 22. Tendon of perforatus playing over summit of tuber calcis. 23. Tendon of peroneus. 24. Extensor brevis. 25. Branch of large metatarsal artery. 26. Perforatus tendon below hock. 27. Tendon of extensor pedis. 28. Tendon of perforans. 29. Outer small metatarsal bone. 30. Suspensory ligament. 31. Terminal filament of external saphenous
RMHBTRBG–leg muscles back
RM2CEPRXC–. On boneformation, its relation to tension and pressure;. Fig. 9. Ig. 10 19 instance, the bone elements running parallel to the jointsurface in the lower end of the tibia (see Figs. 7 and 44),in the bases of the metatarsal bones, the cuneiform andthe navicular bones (see Figs. 6, 7, 8 and 48), the upperend of the tibia (see Figs. 41 and 42), the patella (Fig.45), and the lower end of the femur (see Figs. 9 and 10). The thesis, according to which in elastic bodies thedirections of greatest tension are always at right anglesto those of greatest pressure, was simply reversed byMeyer when he stat
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