Cancellous and compact bone Stock Photos and Images
Scanning electron micrograph (SEM) of cancellous (spongy) bone of the human shin. Bone tissue is either compact or cancellous. Compact bone usually makes up the exterior of the bone, while cancellous bone is found in the interior. Cancellous bone is characterised by a honeycomb arrangement of trabeculae. These structures help to provide support and strength. The spaces within this tissue normally contain bone marrow, a blood forming substance. Stock Photohttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/scanning-electron-micrograph-sem-of-cancellous-spongy-bone-of-the-human-shin-bone-tissue-is-either-compact-or-cancellous-compact-bone-usually-makes-up-the-exterior-of-the-bone-while-cancellous-bone-is-found-in-the-interior-cancellous-bone-is-characterised-by-a-honeycomb-arrangement-of-trabeculae-these-structures-help-to-provide-support-and-strength-the-spaces-within-this-tissue-normally-contain-bone-marrow-a-blood-forming-substance-image352826869.html
RM2BE0J7H–Scanning electron micrograph (SEM) of cancellous (spongy) bone of the human shin. Bone tissue is either compact or cancellous. Compact bone usually makes up the exterior of the bone, while cancellous bone is found in the interior. Cancellous bone is characterised by a honeycomb arrangement of trabeculae. These structures help to provide support and strength. The spaces within this tissue normally contain bone marrow, a blood forming substance.
Bone structure: spongy bone showing the spongy and compact tissue. Stock Photohttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/bone-structure-spongy-bone-showing-the-spongy-and-compact-tissue-image476923596.html
RF2JKWMWG–Bone structure: spongy bone showing the spongy and compact tissue.
Bone tissue. Coloured scanning electron micrograph (SEM) of human cancellous (spongy) bone. Bone tissue can be either cortical (compact) or cancellous. Cortical bone usually makes up the exterior of the bone, while cancellous bone is found in the interior. Cancellous bone is characterised by a honeycomb arrangement, comprising a network of trabeculae (rod-shaped tissue). These structures provide support and strength to the bone. The spaces within this tissue contain bone marrow (not seen), a blood forming substance. Magnification: x13 when printed 10cm wide. Stock Photohttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/bone-tissue-coloured-scanning-electron-micrograph-sem-of-human-cancellous-spongy-bone-bone-tissue-can-be-either-cortical-compact-or-cancellous-cortical-bone-usually-makes-up-the-exterior-of-the-bone-while-cancellous-bone-is-found-in-the-interior-cancellous-bone-is-characterised-by-a-honeycomb-arrangement-comprising-a-network-of-trabeculae-rod-shaped-tissue-these-structures-provide-support-and-strength-to-the-bone-the-spaces-within-this-tissue-contain-bone-marrow-not-seen-a-blood-forming-substance-magnification-x13-when-printed-10cm-wide-image220702066.html
RFPR1RMJ–Bone tissue. Coloured scanning electron micrograph (SEM) of human cancellous (spongy) bone. Bone tissue can be either cortical (compact) or cancellous. Cortical bone usually makes up the exterior of the bone, while cancellous bone is found in the interior. Cancellous bone is characterised by a honeycomb arrangement, comprising a network of trabeculae (rod-shaped tissue). These structures provide support and strength to the bone. The spaces within this tissue contain bone marrow (not seen), a blood forming substance. Magnification: x13 when printed 10cm wide.
Compact bone consists of closely packed osteons or haversian systems Stock Photohttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/compact-bone-consists-of-closely-packed-osteons-or-haversian-systems-image432481689.html
RF2G3H6PH–Compact bone consists of closely packed osteons or haversian systems
Bone internal structure Stock Photohttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/stock-photo-bone-internal-structure-13185262.html
RFACM4ER–Bone internal structure
Marrow bone illustration Stock Photohttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/stock-photo-marrow-bone-illustration-36472094.html
RFC39CEP–Marrow bone illustration
Cross section of a femur bone showing the anatomical structure including cancellous bone and marrow. Stock Photohttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/stock-photo-cross-section-of-a-femur-bone-showing-the-anatomical-structure-including-52092891.html
RMD0N10B–Cross section of a femur bone showing the anatomical structure including cancellous bone and marrow.
A line drawing showing the structure in bone, including cancellous or spongy bone, Stock Photohttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/stock-photo-a-line-drawing-showing-the-structure-in-bone-including-cancellous-52115700.html
RMD0P230–A line drawing showing the structure in bone, including cancellous or spongy bone,
X-ray of the front leg of a young dog with enostosis or panosteitis with increased opacity and medullary sclerosis of the diaphysis Stock Photohttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/x-ray-of-the-front-leg-of-a-young-dog-with-enostosis-or-panosteitis-with-increased-opacity-and-medullary-sclerosis-of-the-diaphysis-image409770025.html
RF2EPJHRN–X-ray of the front leg of a young dog with enostosis or panosteitis with increased opacity and medullary sclerosis of the diaphysis
Injuries and diseases of the jaws . hole jaw seems expanded anteriorly,and the outer compact plate is perfect, except at the partimmediately below the infra-orbital foramen, where it hasgiven way, and the cancellous structure forming the interiorof the tumour is seen. Mr. Hancock, in referring to this 252 TUMOURS OF THE UPPER JAW. specimen [Lancet, Jan. 13th, 1855), specially calls attentionto the fact that the bone yielded to pressure to such anextent as to lead to some doubt as to its osseous nature. A still more remarkable specimen of the same kind ispreserved in the Musee Dupuytren at Pari Stock Photohttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/injuries-and-diseases-of-the-jaws-hole-jaw-seems-expanded-anteriorlyand-the-outer-compact-plate-is-perfect-except-at-the-partimmediately-below-the-infra-orbital-foramen-where-it-hasgiven-way-and-the-cancellous-structure-forming-the-interiorof-the-tumour-is-seen-mr-hancock-in-referring-to-this-252-tumours-of-the-upper-jaw-specimen-lancet-jan-13th-1855-specially-calls-attentionto-the-fact-that-the-bone-yielded-to-pressure-to-such-anextent-as-to-lead-to-some-doubt-as-to-its-osseous-nature-a-still-more-remarkable-specimen-of-the-same-kind-ispreserved-in-the-musee-dupuytren-at-pari-image343380882.html
RM2AXJ9PX–Injuries and diseases of the jaws . hole jaw seems expanded anteriorly,and the outer compact plate is perfect, except at the partimmediately below the infra-orbital foramen, where it hasgiven way, and the cancellous structure forming the interiorof the tumour is seen. Mr. Hancock, in referring to this 252 TUMOURS OF THE UPPER JAW. specimen [Lancet, Jan. 13th, 1855), specially calls attentionto the fact that the bone yielded to pressure to such anextent as to lead to some doubt as to its osseous nature. A still more remarkable specimen of the same kind ispreserved in the Musee Dupuytren at Pari
Scanning electron micrograph (SEM) of cancellous (spongy) bone of the human shin. Bone tissue is either compact or cancellous. Compact bone usually makes up the exterior of the bone, while cancellous bone is found in the interior. Cancellous bone is characterized by a honeycomb arrangement of trabeculae. These structures help to provide support and strength. The spaces within this tissue normally contain bone marrow, a blood forming substance. Stock Photohttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/scanning-electron-micrograph-sem-of-cancellous-spongy-bone-of-the-human-shin-bone-tissue-is-either-compact-or-cancellous-compact-bone-usually-makes-up-the-exterior-of-the-bone-while-cancellous-bone-is-found-in-the-interior-cancellous-bone-is-characterized-by-a-honeycomb-arrangement-of-trabeculae-these-structures-help-to-provide-support-and-strength-the-spaces-within-this-tissue-normally-contain-bone-marrow-a-blood-forming-substance-image352826904.html
RM2BE0J8T–Scanning electron micrograph (SEM) of cancellous (spongy) bone of the human shin. Bone tissue is either compact or cancellous. Compact bone usually makes up the exterior of the bone, while cancellous bone is found in the interior. Cancellous bone is characterized by a honeycomb arrangement of trabeculae. These structures help to provide support and strength. The spaces within this tissue normally contain bone marrow, a blood forming substance.
Bone structure: spongy bone showing the spongy and compact tissue. Stock Photohttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/bone-structure-spongy-bone-showing-the-spongy-and-compact-tissue-image476923655.html
RF2JKWMYK–Bone structure: spongy bone showing the spongy and compact tissue.
Bone tissue. Coloured scanning electron micrograph (SEM) of human cancellous (spongy) bone. Bone tissue can be either cortical (compact) or cancellous. Cortical bone usually makes up the exterior of the bone, while cancellous bone is found in the interior. Cancellous bone is characterised by a honeycomb arrangement, comprising a network of trabeculae (rod-shaped tissue). These structures provide support and strength to the bone. The spaces within this tissue contain bone marrow (not seen), a blood forming substance. Magnification: x13 when printed 10cm wide. Stock Photohttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/bone-tissue-coloured-scanning-electron-micrograph-sem-of-human-cancellous-spongy-bone-bone-tissue-can-be-either-cortical-compact-or-cancellous-cortical-bone-usually-makes-up-the-exterior-of-the-bone-while-cancellous-bone-is-found-in-the-interior-cancellous-bone-is-characterised-by-a-honeycomb-arrangement-comprising-a-network-of-trabeculae-rod-shaped-tissue-these-structures-provide-support-and-strength-to-the-bone-the-spaces-within-this-tissue-contain-bone-marrow-not-seen-a-blood-forming-substance-magnification-x13-when-printed-10cm-wide-image220702041.html
RFPR1RKN–Bone tissue. Coloured scanning electron micrograph (SEM) of human cancellous (spongy) bone. Bone tissue can be either cortical (compact) or cancellous. Cortical bone usually makes up the exterior of the bone, while cancellous bone is found in the interior. Cancellous bone is characterised by a honeycomb arrangement, comprising a network of trabeculae (rod-shaped tissue). These structures provide support and strength to the bone. The spaces within this tissue contain bone marrow (not seen), a blood forming substance. Magnification: x13 when printed 10cm wide.
Bone internal structure Stock Photohttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/stock-photo-bone-internal-structure-13185414.html
RFACM4YK–Bone internal structure
Marrow bone illustration Stock Photohttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/stock-photo-marrow-bone-illustration-36472095.html
RFC39CER–Marrow bone illustration
Cross section of a femur bone showing the anatomical structure including cancellous bone and marrow. Stock Photohttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/stock-photo-cross-section-of-a-femur-bone-showing-the-anatomical-structure-including-52091769.html
RMD0MYG9–Cross section of a femur bone showing the anatomical structure including cancellous bone and marrow.
X-ray of the front leg of a young dog with enostosis or panosteitis with increased opacity and medullary sclerosis of the diaphysis of the bones Stock Photohttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/x-ray-of-the-front-leg-of-a-young-dog-with-enostosis-or-panosteitis-with-increased-opacity-and-medullary-sclerosis-of-the-diaphysis-of-the-bones-image409770024.html
RF2EPJHRM–X-ray of the front leg of a young dog with enostosis or panosteitis with increased opacity and medullary sclerosis of the diaphysis of the bones
American practice of surgery : a complete system of the science and art of surgery . foot at the instep in the child and in the adult. The bones of the foot and ankle are made up of cancellous tissue, with buta very thin covering of compact tissue (vide Figs. 298 and 299). The articularsurface of each bone, too, is seen to be provided with quite a thick layer of 14 AMERICAN PRACTICE OF SURGERY. articular cartilage. Lastly, attention should be directed to the epiphyseal carti-lages. Those at the ankle are shown in section in Fig. 300. It will be observedthat the epiphysis of the fibula is place Stock Photohttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/american-practice-of-surgery-a-complete-system-of-the-science-and-art-of-surgery-foot-at-the-instep-in-the-child-and-in-the-adult-the-bones-of-the-foot-and-ankle-are-made-up-of-cancellous-tissue-with-buta-very-thin-covering-of-compact-tissue-vide-figs-298-and-299-the-articularsurface-of-each-bone-too-is-seen-to-be-provided-with-quite-a-thick-layer-of-14-american-practice-of-surgery-articular-cartilage-lastly-attention-should-be-directed-to-the-epiphyseal-carti-lages-those-at-the-ankle-are-shown-in-section-in-fig-300-it-will-be-observedthat-the-epiphysis-of-the-fibula-is-place-image339154502.html
RM2AKNR0P–American practice of surgery : a complete system of the science and art of surgery . foot at the instep in the child and in the adult. The bones of the foot and ankle are made up of cancellous tissue, with buta very thin covering of compact tissue (vide Figs. 298 and 299). The articularsurface of each bone, too, is seen to be provided with quite a thick layer of 14 AMERICAN PRACTICE OF SURGERY. articular cartilage. Lastly, attention should be directed to the epiphyseal carti-lages. Those at the ankle are shown in section in Fig. 300. It will be observedthat the epiphysis of the fibula is place
Bone structure: spongy bone showing the spongy and compact tissue. Stock Photohttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/bone-structure-spongy-bone-showing-the-spongy-and-compact-tissue-image476923647.html
RF2JKWMYB–Bone structure: spongy bone showing the spongy and compact tissue.
Bone tissue. Coloured scanning electron micrograph (SEM) of human cancellous (spongy) bone. Bone tissue can be either cortical (compact) or cancellous. Cortical bone usually makes up the exterior of the bone, while cancellous bone is found in the interior. Cancellous bone is characterised by a honeycomb arrangement, comprising a network of trabeculae (rod-shaped tissue). These structures provide support and strength to the bone. The spaces within this tissue contain bone marrow (not seen), a blood forming substance. Magnification: x13 when printed 10cm wide. Stock Photohttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/bone-tissue-coloured-scanning-electron-micrograph-sem-of-human-cancellous-spongy-bone-bone-tissue-can-be-either-cortical-compact-or-cancellous-cortical-bone-usually-makes-up-the-exterior-of-the-bone-while-cancellous-bone-is-found-in-the-interior-cancellous-bone-is-characterised-by-a-honeycomb-arrangement-comprising-a-network-of-trabeculae-rod-shaped-tissue-these-structures-provide-support-and-strength-to-the-bone-the-spaces-within-this-tissue-contain-bone-marrow-not-seen-a-blood-forming-substance-magnification-x13-when-printed-10cm-wide-image220702057.html
RFPR1RM9–Bone tissue. Coloured scanning electron micrograph (SEM) of human cancellous (spongy) bone. Bone tissue can be either cortical (compact) or cancellous. Cortical bone usually makes up the exterior of the bone, while cancellous bone is found in the interior. Cancellous bone is characterised by a honeycomb arrangement, comprising a network of trabeculae (rod-shaped tissue). These structures provide support and strength to the bone. The spaces within this tissue contain bone marrow (not seen), a blood forming substance. Magnification: x13 when printed 10cm wide.
Bone tissue. Coloured scanning electron micrograph (SEM) of cancellous (spongy) bone. Bone tissue can be either cortical (compact) or cancellous. Cortical bone usually makes up the exterior of the bone, while cancellous bone is found in the interior. Cancellous bone is characterised by a honeycomb arrangement, comprising a network of trabeculae (rod-shaped tissue). These structures provide support and strength to the bone. The spaces within this tissue contain bone marrow (not seen), a blood forming substance. Magnification: x40 when printed 10cm wide. Stock Photohttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/stock-photo-bone-tissue-coloured-scanning-electron-micrograph-sem-of-cancellous-102520717.html
RFFXP665–Bone tissue. Coloured scanning electron micrograph (SEM) of cancellous (spongy) bone. Bone tissue can be either cortical (compact) or cancellous. Cortical bone usually makes up the exterior of the bone, while cancellous bone is found in the interior. Cancellous bone is characterised by a honeycomb arrangement, comprising a network of trabeculae (rod-shaped tissue). These structures provide support and strength to the bone. The spaces within this tissue contain bone marrow (not seen), a blood forming substance. Magnification: x40 when printed 10cm wide.
Bone internal structure Stock Photohttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/stock-photo-bone-internal-structure-13185464.html
RFACM53N–Bone internal structure
Cross section of a femur bone showing the anatomical structure including cancellous bone and marrow. Stock Photohttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/stock-photo-cross-section-of-a-femur-bone-showing-the-anatomical-structure-including-52090436.html
RMD0MWTM–Cross section of a femur bone showing the anatomical structure including cancellous bone and marrow.
The essentials of healthA text-book of anatomy, physiology, hygiene, alcohol, and narcotics . Fig. 49. Longitudinal sectionof the femur. The spongy, orcancellous bone shows at the ends ;while the compact, hollow boneforms the shaft. 158 THE ESSENTIALS OF HEALTH. the cancellous tissue. The smaller bones and the flatbones are not hollow ; they have an outer layer of com-pact bone, within which is the spongy bone, or cancel-lated tissue.. Fig. 50. Transverse section of the femur. The section to the left is fromthe shaft; to the right is from the head or upper portion of the femur. The Marrow. The Stock Photohttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/the-essentials-of-healtha-text-book-of-anatomy-physiology-hygiene-alcohol-and-narcotics-fig-49-longitudinal-sectionof-the-femur-the-spongy-orcancellous-bone-shows-at-the-ends-while-the-compact-hollow-boneforms-the-shaft-158-the-essentials-of-health-the-cancellous-tissue-the-smaller-bones-and-the-flatbones-are-not-hollow-they-have-an-outer-layer-of-com-pact-bone-within-which-is-the-spongy-bone-or-cancel-lated-tissue-fig-50-transverse-section-of-the-femur-the-section-to-the-left-is-fromthe-shaft-to-the-right-is-from-the-head-or-upper-portion-of-the-femur-the-marrow-the-image342705777.html
RM2AWFGM1–The essentials of healthA text-book of anatomy, physiology, hygiene, alcohol, and narcotics . Fig. 49. Longitudinal sectionof the femur. The spongy, orcancellous bone shows at the ends ;while the compact, hollow boneforms the shaft. 158 THE ESSENTIALS OF HEALTH. the cancellous tissue. The smaller bones and the flatbones are not hollow ; they have an outer layer of com-pact bone, within which is the spongy bone, or cancel-lated tissue.. Fig. 50. Transverse section of the femur. The section to the left is fromthe shaft; to the right is from the head or upper portion of the femur. The Marrow. The
Bone structure: spongy bone showing the spongy and compact tissue. Stock Photohttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/bone-structure-spongy-bone-showing-the-spongy-and-compact-tissue-image476923628.html
RF2JKWMXM–Bone structure: spongy bone showing the spongy and compact tissue.
Bone tissue. Coloured scanning electron micrograph (SEM) of cancellous (spongy) bone. Bone tissue can be either cortical (compact) or cancellous. Cortical bone usually makes up the exterior of the bone, while cancellous bone is found in the interior. Cancellous bone is characterised by a honeycomb arrangement, comprising a network of trabeculae (rod-shaped tissue). These structures provide support and strength to the bone. The spaces within this tissue contain bone marrow (not seen), a blood forming substance. Magnification: x40 when printed 10cm wide. Stock Photohttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/stock-photo-bone-tissue-coloured-scanning-electron-micrograph-sem-of-cancellous-102520715.html
RFFXP663–Bone tissue. Coloured scanning electron micrograph (SEM) of cancellous (spongy) bone. Bone tissue can be either cortical (compact) or cancellous. Cortical bone usually makes up the exterior of the bone, while cancellous bone is found in the interior. Cancellous bone is characterised by a honeycomb arrangement, comprising a network of trabeculae (rod-shaped tissue). These structures provide support and strength to the bone. The spaces within this tissue contain bone marrow (not seen), a blood forming substance. Magnification: x40 when printed 10cm wide.
Bone internal structure Stock Photohttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/stock-photo-bone-internal-structure-13184281.html
RFACM1GX–Bone internal structure
Bone tissue. Coloured scanning electron micrograph (SEM) of cancellous (spongy) bone. Bone tissue can be either cortical (compact) or cancellous. Cortical bone usually makes up the exterior of the bone, while cancellous bone is found in the interior. Cancellous bone is characterised by a honeycomb arrangement, comprising a network of trabeculae (rod-shaped tissue). These structures provide support and strength to the bone. The spaces within this tissue contain bone marrow (not seen), a blood forming substance. Magnification: x35 when printed 10cm wide. Stock Photohttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/bone-tissue-coloured-scanning-electron-micrograph-sem-of-cancellous-spongy-bone-bone-tissue-can-be-either-cortical-compact-or-cancellous-cortical-bone-usually-makes-up-the-exterior-of-the-bone-while-cancellous-bone-is-found-in-the-interior-cancellous-bone-is-characterised-by-a-honeycomb-arrangement-comprising-a-network-of-trabeculae-rod-shaped-tissue-these-structures-provide-support-and-strength-to-the-bone-the-spaces-within-this-tissue-contain-bone-marrow-not-seen-a-blood-forming-substance-magnification-x35-when-printed-10cm-wide-image622879884.html
RF2Y5AHJ4–Bone tissue. Coloured scanning electron micrograph (SEM) of cancellous (spongy) bone. Bone tissue can be either cortical (compact) or cancellous. Cortical bone usually makes up the exterior of the bone, while cancellous bone is found in the interior. Cancellous bone is characterised by a honeycomb arrangement, comprising a network of trabeculae (rod-shaped tissue). These structures provide support and strength to the bone. The spaces within this tissue contain bone marrow (not seen), a blood forming substance. Magnification: x35 when printed 10cm wide.
Cross section of a femur bone showing the anatomical structure including cancellous bone and marrow. Stock Photohttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/stock-photo-cross-section-of-a-femur-bone-showing-the-anatomical-structure-including-52092551.html
RMD0N0G7–Cross section of a femur bone showing the anatomical structure including cancellous bone and marrow.
General surgery and pathology for dentists . sults of osteitis will begiven with the description of caries, suppuration of bone,and necrosis (which see). Caeies. Caries of bone is essentially the same process as ulcerationof soft parts. It is one of the terminations or results ofosteitis, and is prone to occur when the osteitis depends onstruma, tuberculosis or syphilis, or occurs in a person whois in a low state of general health from any other cause. Itis more common in cancellous than in compact bone,affecting especially the bodies of the vertebraa, the carpusand tarsus and the ends of the Stock Photohttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/general-surgery-and-pathology-for-dentists-sults-of-osteitis-will-begiven-with-the-description-of-caries-suppuration-of-boneand-necrosis-which-see-caeies-caries-of-bone-is-essentially-the-same-process-as-ulcerationof-soft-parts-it-is-one-of-the-terminations-or-results-ofosteitis-and-is-prone-to-occur-when-the-osteitis-depends-onstruma-tuberculosis-or-syphilis-or-occurs-in-a-person-whois-in-a-low-state-of-general-health-from-any-other-cause-itis-more-common-in-cancellous-than-in-compact-boneaffecting-especially-the-bodies-of-the-vertebraa-the-carpusand-tarsus-and-the-ends-of-the-image342769053.html
RM2AWJDBW–General surgery and pathology for dentists . sults of osteitis will begiven with the description of caries, suppuration of bone,and necrosis (which see). Caeies. Caries of bone is essentially the same process as ulcerationof soft parts. It is one of the terminations or results ofosteitis, and is prone to occur when the osteitis depends onstruma, tuberculosis or syphilis, or occurs in a person whois in a low state of general health from any other cause. Itis more common in cancellous than in compact bone,affecting especially the bodies of the vertebraa, the carpusand tarsus and the ends of the
Bone structure: humerus and a dorsal vertebra. Stock Photohttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/bone-structure-humerus-and-a-dorsal-vertebra-image476923561.html
RF2JKWMT9–Bone structure: humerus and a dorsal vertebra.
Bone tissue. Coloured scanning electron micrograph (SEM) of cancellous (spongy) bone. Bone tissue can be either cortical (compact) or cancellous. Cortical bone usually makes up the exterior of the bone, while cancellous bone is found in the interior. Cancellous bone is characterised by a honeycomb arrangement, comprising a network of trabeculae (rod-shaped tissue). These structures provide support and strength to the bone. The spaces within this tissue contain bone marrow (not seen), a blood forming substance. Magnification: x35 when printed 10cm wide. Stock Photohttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/bone-tissue-coloured-scanning-electron-micrograph-sem-of-cancellous-spongy-bone-bone-tissue-can-be-either-cortical-compact-or-cancellous-cortical-bone-usually-makes-up-the-exterior-of-the-bone-while-cancellous-bone-is-found-in-the-interior-cancellous-bone-is-characterised-by-a-honeycomb-arrangement-comprising-a-network-of-trabeculae-rod-shaped-tissue-these-structures-provide-support-and-strength-to-the-bone-the-spaces-within-this-tissue-contain-bone-marrow-not-seen-a-blood-forming-substance-magnification-x35-when-printed-10cm-wide-image622879839.html
RF2Y5AHGF–Bone tissue. Coloured scanning electron micrograph (SEM) of cancellous (spongy) bone. Bone tissue can be either cortical (compact) or cancellous. Cortical bone usually makes up the exterior of the bone, while cancellous bone is found in the interior. Cancellous bone is characterised by a honeycomb arrangement, comprising a network of trabeculae (rod-shaped tissue). These structures provide support and strength to the bone. The spaces within this tissue contain bone marrow (not seen), a blood forming substance. Magnification: x35 when printed 10cm wide.
Internal Anatomy Bone Femur) Stock Photohttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/stock-photo-internal-anatomy-bone-femur-56148931.html
RMD79PEY–Internal Anatomy Bone Femur)
Cross section through an model of an normal upper right femur or leg bone. Stock Photohttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/stock-photo-cross-section-through-an-model-of-an-normal-upper-right-femur-or-leg-85649292.html
RFEY9JF8–Cross section through an model of an normal upper right femur or leg bone.
Elements of animal physiology, chiefly human . skeleton of the veryyoung subjects. (2.) The bony matter goes on increasing byexternal addition, while the original internal cartilage becomesabsorbed. 137. Osseous Tissue.—Bony tissue is of two kinds—cancellous and compact. Cancellous bony tissue consists of a network of slenderfibres, minute bars, or lamellce of bone joined together soas to present somewhat the appearance of lattice-work,from which it derives its name. It constitutes the massof the irregularly shaped bones and the enlarged ends ofthe long bones. The interstices in cancellated ti Stock Photohttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/elements-of-animal-physiology-chiefly-human-skeleton-of-the-veryyoung-subjects-2-the-bony-matter-goes-on-increasing-byexternal-addition-while-the-original-internal-cartilage-becomesabsorbed-137-osseous-tissuebony-tissue-is-of-two-kindscancellous-and-compact-cancellous-bony-tissue-consists-of-a-network-of-slenderfibres-minute-bars-or-lamellce-of-bone-joined-together-soas-to-present-somewhat-the-appearance-of-lattice-workfrom-which-it-derives-its-name-it-constitutes-the-massof-the-irregularly-shaped-bones-and-the-enlarged-ends-ofthe-long-bones-the-interstices-in-cancellated-ti-image339017018.html
RM2AKFFJJ–Elements of animal physiology, chiefly human . skeleton of the veryyoung subjects. (2.) The bony matter goes on increasing byexternal addition, while the original internal cartilage becomesabsorbed. 137. Osseous Tissue.—Bony tissue is of two kinds—cancellous and compact. Cancellous bony tissue consists of a network of slenderfibres, minute bars, or lamellce of bone joined together soas to present somewhat the appearance of lattice-work,from which it derives its name. It constitutes the massof the irregularly shaped bones and the enlarged ends ofthe long bones. The interstices in cancellated ti
Bone structure: humerus and a dorsal vertebra. Stock Photohttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/bone-structure-humerus-and-a-dorsal-vertebra-image476923552.html
RF2JKWMT0–Bone structure: humerus and a dorsal vertebra.
Cross section through an model of an normal upper right femur or leg bone. Stock Photohttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/stock-photo-cross-section-through-an-model-of-an-normal-upper-right-femur-or-leg-85649285.html
RFEY9JF1–Cross section through an model of an normal upper right femur or leg bone.
Modern surgery, general and operative . Fig. 147.—Osteoma of femur. Osteomata 359 are similar in structure to cancellous bone. They spring from, and are crustedwith, cartilage; they may have fibrous capsules, and are often movable when. , i^.^^riS-iV- Fig. 148.—Osteoma of humerus. recent, but soon become fixed; they have broad bases, are angled, nodular,fiirm (but not so hard as are the compact osteomata), painless except whenpressed, occur particularly at the endsof long bones (Figs. 147 and 14S), maygrow to large size, and are commonest inyouth. Osteomata near joints becomeoverlaid by bursse Stock Photohttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/modern-surgery-general-and-operative-fig-147osteoma-of-femur-osteomata-359-are-similar-in-structure-to-cancellous-bone-they-spring-from-and-are-crustedwith-cartilage-they-may-have-fibrous-capsules-and-are-often-movable-when-iris-iv-fig-148osteoma-of-humerus-recent-but-soon-become-fixed-they-have-broad-bases-are-angled-nodularfiirm-but-not-so-hard-as-are-the-compact-osteomata-painless-except-whenpressed-occur-particularly-at-the-endsof-long-bones-figs-147-and-14s-maygrow-to-large-size-and-are-commonest-inyouth-osteomata-near-joints-becomeoverlaid-by-bursse-image339363358.html
RM2AM39BX–Modern surgery, general and operative . Fig. 147.—Osteoma of femur. Osteomata 359 are similar in structure to cancellous bone. They spring from, and are crustedwith, cartilage; they may have fibrous capsules, and are often movable when. , i^.^^riS-iV- Fig. 148.—Osteoma of humerus. recent, but soon become fixed; they have broad bases, are angled, nodular,fiirm (but not so hard as are the compact osteomata), painless except whenpressed, occur particularly at the endsof long bones (Figs. 147 and 14S), maygrow to large size, and are commonest inyouth. Osteomata near joints becomeoverlaid by bursse
Structure of a healthy dorsal vertebra with spongy and compact tissue. Stock Photohttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/structure-of-a-healthy-dorsal-vertebra-with-spongy-and-compact-tissue-image476923563.html
RF2JKWMTB–Structure of a healthy dorsal vertebra with spongy and compact tissue.
Cross section through an model of an fracture in the neck of the femur (thigh bone). Stock Photohttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/stock-photo-cross-section-through-an-model-of-an-fracture-in-the-neck-of-the-femur-85649303.html
RFEY9JFK–Cross section through an model of an fracture in the neck of the femur (thigh bone).
Modern surgery, general and operative . Fig. 327.—Colless fracture before reduction: A, Anteroposterior; B, lateral views. is sudden traction upon the anterior ligaments, which drag upon the bone andbreak it at a point where the cancellous end of the radius joins the compact shaft (Fig. 330). The fragmentsare not unusually impacted (Fig.328). In the authors experiencedislocation of the lower end of the. Fig. 328.—Impacted Colless fracture. Fig. 32g.—Bartons fracture. ulna is not a very imusual complication. It arises from a fracture of thevilnar styloid or tearing off of the internal lateral l Stock Photohttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/modern-surgery-general-and-operative-fig-327colless-fracture-before-reduction-a-anteroposterior-b-lateral-views-is-sudden-traction-upon-the-anterior-ligaments-which-drag-upon-the-bone-andbreak-it-at-a-point-where-the-cancellous-end-of-the-radius-joins-the-compact-shaft-fig-330-the-fragmentsare-not-unusually-impacted-fig328-in-the-authors-experiencedislocation-of-the-lower-end-of-the-fig-328impacted-colless-fracture-fig-32gbartons-fracture-ulna-is-not-a-very-imusual-complication-it-arises-from-a-fracture-of-thevilnar-styloid-or-tearing-off-of-the-internal-lateral-l-image339266604.html
RM2AKXX0C–Modern surgery, general and operative . Fig. 327.—Colless fracture before reduction: A, Anteroposterior; B, lateral views. is sudden traction upon the anterior ligaments, which drag upon the bone andbreak it at a point where the cancellous end of the radius joins the compact shaft (Fig. 330). The fragmentsare not unusually impacted (Fig.328). In the authors experiencedislocation of the lower end of the. Fig. 328.—Impacted Colless fracture. Fig. 32g.—Bartons fracture. ulna is not a very imusual complication. It arises from a fracture of thevilnar styloid or tearing off of the internal lateral l
Structure of a healthy dorsal vertebra with spongy and compact tissue. Stock Photohttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/structure-of-a-healthy-dorsal-vertebra-with-spongy-and-compact-tissue-image476923570.html
RF2JKWMTJ–Structure of a healthy dorsal vertebra with spongy and compact tissue.
Cross section through an model of an fracture in the neck of the femur (thigh bone). Stock Photohttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/stock-photo-cross-section-through-an-model-of-an-fracture-in-the-neck-of-the-femur-85649290.html
RFEY9JF6–Cross section through an model of an fracture in the neck of the femur (thigh bone).
General and dental pathology with special reference to etiology and pathologic anatomy; a treatise for students and practitioners . ata, a sharp distinction cannot always be drawn between the inflammatory outgrowths andthe true tumors, although the tumors are usually more rounded,more tumor-like in outline, and when large are apt to be lobu-lated. According to their density osteomata are (a) hard orcompact, resembling the outer layer of long bones, and (b) soft, 122 GENERAL PATHOLOGY cancellous or spongy, resembling- the inner cancellous bony tis-sue with a shell of compact bone on the exterio Stock Photohttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/general-and-dental-pathology-with-special-reference-to-etiology-and-pathologic-anatomy-a-treatise-for-students-and-practitioners-ata-a-sharp-distinction-cannot-always-be-drawn-between-the-inflammatory-outgrowths-andthe-true-tumors-although-the-tumors-are-usually-more-roundedmore-tumor-like-in-outline-and-when-large-are-apt-to-be-lobu-lated-according-to-their-density-osteomata-are-a-hard-orcompact-resembling-the-outer-layer-of-long-bones-and-b-soft-122-general-pathology-cancellous-or-spongy-resembling-the-inner-cancellous-bony-tis-sue-with-a-shell-of-compact-bone-on-the-exterio-image339124804.html
RM2AKMD44–General and dental pathology with special reference to etiology and pathologic anatomy; a treatise for students and practitioners . ata, a sharp distinction cannot always be drawn between the inflammatory outgrowths andthe true tumors, although the tumors are usually more rounded,more tumor-like in outline, and when large are apt to be lobu-lated. According to their density osteomata are (a) hard orcompact, resembling the outer layer of long bones, and (b) soft, 122 GENERAL PATHOLOGY cancellous or spongy, resembling- the inner cancellous bony tis-sue with a shell of compact bone on the exterio
Structure of a healthy dorsal vertebra with spongy and compact tissue. Stock Photohttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/structure-of-a-healthy-dorsal-vertebra-with-spongy-and-compact-tissue-image476923577.html
RF2JKWMTW–Structure of a healthy dorsal vertebra with spongy and compact tissue.
Cross section through an model of an fracture in the neck of the femur (thigh bone). Stock Photohttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/stock-photo-cross-section-through-an-model-of-an-fracture-in-the-neck-of-the-femur-85649288.html
RFEY9JF4–Cross section through an model of an fracture in the neck of the femur (thigh bone).
. Descriptive anatomy of the human teeth . inner plates linethe alveoli of the teeth. These latter are very thin, and sup-ported on all sides by the cancellous structure. In the lowerjaw the substance of the bone is more compact and stronger,than in the upper, especially about the molar teeth, where thealveoli are in the substance of the body of the bone. THE PERIDENTAL MEMBRANE. 206. The peridental membrane invests the roots ofthe teeth from the gingival line to the apexes of the roots likea sack. It lines every part of the alveoli, and, passing over thegingival margins, is continuous with th Stock Photohttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/descriptive-anatomy-of-the-human-teeth-inner-plates-linethe-alveoli-of-the-teeth-these-latter-are-very-thin-and-sup-ported-on-all-sides-by-the-cancellous-structure-in-the-lowerjaw-the-substance-of-the-bone-is-more-compact-and-strongerthan-in-the-upper-especially-about-the-molar-teeth-where-thealveoli-are-in-the-substance-of-the-body-of-the-bone-the-peridental-membrane-206-the-peridental-membrane-invests-the-roots-ofthe-teeth-from-the-gingival-line-to-the-apexes-of-the-roots-likea-sack-it-lines-every-part-of-the-alveoli-and-passing-over-thegingival-margins-is-continuous-with-th-image372578621.html
RM2CJ4BR9–. Descriptive anatomy of the human teeth . inner plates linethe alveoli of the teeth. These latter are very thin, and sup-ported on all sides by the cancellous structure. In the lowerjaw the substance of the bone is more compact and stronger,than in the upper, especially about the molar teeth, where thealveoli are in the substance of the body of the bone. THE PERIDENTAL MEMBRANE. 206. The peridental membrane invests the roots ofthe teeth from the gingival line to the apexes of the roots likea sack. It lines every part of the alveoli, and, passing over thegingival margins, is continuous with th
Structure of a healthy dorsal vertebra with spongy and compact tissue. Stock Photohttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/structure-of-a-healthy-dorsal-vertebra-with-spongy-and-compact-tissue-image476923567.html
RF2JKWMTF–Structure of a healthy dorsal vertebra with spongy and compact tissue.
Bone development Stock Photohttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/bone-development-image466107235.html
RM2J290EY–Bone development
Healthy bone structure made up of compact, spongy tissue. Stock Photohttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/healthy-bone-structure-made-up-of-compact-spongy-tissue-image476923584.html
RF2JKWMW4–Healthy bone structure made up of compact, spongy tissue.
Cross section through an model of an fracture in the neck of the femur (thigh bone). Stock Photohttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/stock-photo-cross-section-through-an-model-of-an-fracture-in-the-neck-of-the-femur-85649294.html
RFEY9JFA–Cross section through an model of an fracture in the neck of the femur (thigh bone).
. Quain's Elements of anatomy. Fi, 63.—Transverse section ofthe lower jaw, passingthrough the socket of thelast molar tooth. (g. d. t.) The lower jaw consists of a very thick shell of densecompact bone, enclosing cancellous tissue with slender tra-becule. The dental canal lies close to the inner compactlayer, and nearer to the lower than the upper border of thebody: it has a thin wall of compact tissue, which becomescribriform in the fore part of its extent. From the main passage small channels passupwards to the sockets of the hinder teeth ; and beyond the mental foramen a prolongationof the Stock Photohttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/quains-elements-of-anatomy-fi-63transverse-section-ofthe-lower-jaw-passingthrough-the-socket-of-thelast-molar-tooth-g-d-t-the-lower-jaw-consists-of-a-very-thick-shell-of-densecompact-bone-enclosing-cancellous-tissue-with-slender-tra-becule-the-dental-canal-lies-close-to-the-inner-compactlayer-and-nearer-to-the-lower-than-the-upper-border-of-thebody-it-has-a-thin-wall-of-compact-tissue-which-becomescribriform-in-the-fore-part-of-its-extent-from-the-main-passage-small-channels-passupwards-to-the-sockets-of-the-hinder-teeth-and-beyond-the-mental-foramen-a-prolongationof-the-image370379108.html
RM2CEG698–. Quain's Elements of anatomy. Fi, 63.—Transverse section ofthe lower jaw, passingthrough the socket of thelast molar tooth. (g. d. t.) The lower jaw consists of a very thick shell of densecompact bone, enclosing cancellous tissue with slender tra-becule. The dental canal lies close to the inner compactlayer, and nearer to the lower than the upper border of thebody: it has a thin wall of compact tissue, which becomescribriform in the fore part of its extent. From the main passage small channels passupwards to the sockets of the hinder teeth ; and beyond the mental foramen a prolongationof the
Healthy bone structure made up of compact, spongy tissue. Stock Photohttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/healthy-bone-structure-made-up-of-compact-spongy-tissue-image476923586.html
RF2JKWMW6–Healthy bone structure made up of compact, spongy tissue.
Cross section through an model of an fracture in the neck of the femur (thigh bone). Stock Photohttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/stock-photo-cross-section-through-an-model-of-an-fracture-in-the-neck-of-the-femur-85649301.html
RFEY9JFH–Cross section through an model of an fracture in the neck of the femur (thigh bone).
. Diseases of bones and joints . Fig. 78. Photomicrograph of section of skull, near inner surface. A. Looseconnective tissue. B. Osteoid tissue, slightly fibrillated (Ellis). defined patches of pale, dense and hard bone, look-ing as solid as a brick. In the compact covering of the articular endsof the long bones the increase of thickness wasdue to encroachment of the cancellous texture, asif by filling its spaces with compact porous new-formed bone. DISEASES OF BONES AND JOINTS 189 Packard, Steele and Kirkbride sum up the patho-logical changes thus: Osteitis deformans is adisease affecting the Stock Photohttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/diseases-of-bones-and-joints-fig-78-photomicrograph-of-section-of-skull-near-inner-surface-a-looseconnective-tissue-b-osteoid-tissue-slightly-fibrillated-ellis-defined-patches-of-pale-dense-and-hard-bone-look-ing-as-solid-as-a-brick-in-the-compact-covering-of-the-articular-endsof-the-long-bones-the-increase-of-thickness-wasdue-to-encroachment-of-the-cancellous-texture-asif-by-filling-its-spaces-with-compact-porous-new-formed-bone-diseases-of-bones-and-joints-189-packard-steele-and-kirkbride-sum-up-the-patho-logical-changes-thus-osteitis-deformans-is-adisease-affecting-the-image376017001.html
RM2CRN1EH–. Diseases of bones and joints . Fig. 78. Photomicrograph of section of skull, near inner surface. A. Looseconnective tissue. B. Osteoid tissue, slightly fibrillated (Ellis). defined patches of pale, dense and hard bone, look-ing as solid as a brick. In the compact covering of the articular endsof the long bones the increase of thickness wasdue to encroachment of the cancellous texture, asif by filling its spaces with compact porous new-formed bone. DISEASES OF BONES AND JOINTS 189 Packard, Steele and Kirkbride sum up the patho-logical changes thus: Osteitis deformans is adisease affecting the
Cross section through an model of an fracture in the neck of the femur (thigh bone). Stock Photohttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/stock-photo-cross-section-through-an-model-of-an-fracture-in-the-neck-of-the-femur-85649291.html
RFEY9JF7–Cross section through an model of an fracture in the neck of the femur (thigh bone).
. On boneformation, its relation to tension and pressure;. Fig. 32. Fig. 33 53 a thin layer of the periosteal bone in the periphery hasbeen better preserved, thus maintaining the externalform of tibia and femur. This phenomenon will be dealtwith later (see pp. 96-101). In the present only the transitionof cancellous tissue into compact bone is of interest—a process which we also observed more or less completelyin the ankylosed elbow of Fig. 34 and the ankylosed hip(Fig. 35, cf. Fig. i). It appears to go hand in hand witha reduction of the transverse sections conducting theforces acting upon th Stock Photohttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/on-boneformation-its-relation-to-tension-and-pressure-fig-32-fig-33-53-a-thin-layer-of-the-periosteal-bone-in-the-periphery-hasbeen-better-preserved-thus-maintaining-the-externalform-of-tibia-and-femur-this-phenomenon-will-be-dealtwith-later-see-pp-96-101-in-the-present-only-the-transitionof-cancellous-tissue-into-compact-bone-is-of-interesta-process-which-we-also-observed-more-or-less-completelyin-the-ankylosed-elbow-of-fig-34-and-the-ankylosed-hipfig-35-cf-fig-i-it-appears-to-go-hand-in-hand-witha-reduction-of-the-transverse-sections-conducting-theforces-acting-upon-th-image370523291.html
RM2CEPP6K–. On boneformation, its relation to tension and pressure;. Fig. 32. Fig. 33 53 a thin layer of the periosteal bone in the periphery hasbeen better preserved, thus maintaining the externalform of tibia and femur. This phenomenon will be dealtwith later (see pp. 96-101). In the present only the transitionof cancellous tissue into compact bone is of interest—a process which we also observed more or less completelyin the ankylosed elbow of Fig. 34 and the ankylosed hip(Fig. 35, cf. Fig. i). It appears to go hand in hand witha reduction of the transverse sections conducting theforces acting upon th
Cross sections through models of a normal (left) and and fractured femur (right) thigh bone. Stock Photohttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/stock-photo-cross-sections-through-models-of-a-normal-left-and-and-fractured-femur-85649302.html
RFEY9JFJ–Cross sections through models of a normal (left) and and fractured femur (right) thigh bone.
. The Röntgen rays in medical work . Fig. 139.—Rachitic Defoemity in Child of Ten Yeaes.Mr. Robert Joness case. Dr. Morgan. Eastern Hospital for Children, London. It illustrates the bendingand fracture of the bone in this rare condition, as well as thethinning of the compact wall of the femur- and the rarefaction ofthe cancellous tissue. Late Rickets.An interesting case of a girl aged seventeen, in whom ricketsappeared at five years, has been published by Mr. E. Muirhead * Hospital, October 7, 1899, p. 6. MEDICAL AND SURGICAL APPLICATIONS 277 Little, F.R.C.S.* The patient wore splints and othe Stock Photohttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/the-rntgen-rays-in-medical-work-fig-139rachitic-defoemity-in-child-of-ten-yeaesmr-robert-joness-case-dr-morgan-eastern-hospital-for-children-london-it-illustrates-the-bendingand-fracture-of-the-bone-in-this-rare-condition-as-well-as-thethinning-of-the-compact-wall-of-the-femur-and-the-rarefaction-ofthe-cancellous-tissue-late-ricketsan-interesting-case-of-a-girl-aged-seventeen-in-whom-ricketsappeared-at-five-years-has-been-published-by-mr-e-muirhead-hospital-october-7-1899-p-6-medical-and-surgical-applications-277-little-frcs-the-patient-wore-splints-and-othe-image376047341.html
RM2CRPC65–. The Röntgen rays in medical work . Fig. 139.—Rachitic Defoemity in Child of Ten Yeaes.Mr. Robert Joness case. Dr. Morgan. Eastern Hospital for Children, London. It illustrates the bendingand fracture of the bone in this rare condition, as well as thethinning of the compact wall of the femur- and the rarefaction ofthe cancellous tissue. Late Rickets.An interesting case of a girl aged seventeen, in whom ricketsappeared at five years, has been published by Mr. E. Muirhead * Hospital, October 7, 1899, p. 6. MEDICAL AND SURGICAL APPLICATIONS 277 Little, F.R.C.S.* The patient wore splints and othe
Cross sections through models of a normal (left) and and fractured femur (right) thigh bone. Stock Photohttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/stock-photo-cross-sections-through-models-of-a-normal-left-and-and-fractured-femur-85649293.html
RFEY9JF9–Cross sections through models of a normal (left) and and fractured femur (right) thigh bone.
. The Röntgen rays in medical work . Fig. 142.—Abscess of Femue in Man aged Forty-nine Years. (Note Translucent Bones of Legs.) Mr. Robert Joness case. Dr. Morgan. one solid bone, bent at an obtuse angle. The compact tissue at theedges and the bars of the cancellous tissue both showed a perfectc ontinuity. This adaptation afforded a good example of the changeof structure and form that may follow altered function. Fig. 141 shows a fine example of bony anchylosis of the elbowand syphilitic bone disease in a boy of eighteen. * Therapeutische Monats., Febmary, 1897. 282 THE RONTGEN RA YS IN MEDICA Stock Photohttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/the-rntgen-rays-in-medical-work-fig-142abscess-of-femue-in-man-aged-forty-nine-years-note-translucent-bones-of-legs-mr-robert-joness-case-dr-morgan-one-solid-bone-bent-at-an-obtuse-angle-the-compact-tissue-at-theedges-and-the-bars-of-the-cancellous-tissue-both-showed-a-perfectc-ontinuity-this-adaptation-afforded-a-good-example-of-the-changeof-structure-and-form-that-may-follow-altered-function-fig-141-shows-a-fine-example-of-bony-anchylosis-of-the-elbowand-syphilitic-bone-disease-in-a-boy-of-eighteen-therapeutische-monats-febmary-1897-282-the-rontgen-ra-ys-in-medica-image376046860.html
RM2CRPBH0–. The Röntgen rays in medical work . Fig. 142.—Abscess of Femue in Man aged Forty-nine Years. (Note Translucent Bones of Legs.) Mr. Robert Joness case. Dr. Morgan. one solid bone, bent at an obtuse angle. The compact tissue at theedges and the bars of the cancellous tissue both showed a perfectc ontinuity. This adaptation afforded a good example of the changeof structure and form that may follow altered function. Fig. 141 shows a fine example of bony anchylosis of the elbowand syphilitic bone disease in a boy of eighteen. * Therapeutische Monats., Febmary, 1897. 282 THE RONTGEN RA YS IN MEDICA
. An atlas of human anatomy for students and physicians. Anatomy. Articular cartilage Epiphysis Epiphysial disc Synchondrosis epiphyseos Zone of ossification of the diaphysis Diaphysis Cancellous tissue Substantia spongiosa Compact tissue Substantia compacta Periosteum Figs. 31 and 32.—Two Stages in the Intracartilaginous Ossification of the Epiphysis of a Long Bone, as shown by Longitudinal Sections of the Distal Portions of Metacarpal Bones. Development of the Bones.. Please note that these images are extracted from scanned page images that may have been digitally enhanced for readability - Stock Photohttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/an-atlas-of-human-anatomy-for-students-and-physicians-anatomy-articular-cartilage-epiphysis-epiphysial-disc-synchondrosis-epiphyseos-zone-of-ossification-of-the-diaphysis-diaphysis-cancellous-tissue-substantia-spongiosa-compact-tissue-substantia-compacta-periosteum-figs-31-and-32two-stages-in-the-intracartilaginous-ossification-of-the-epiphysis-of-a-long-bone-as-shown-by-longitudinal-sections-of-the-distal-portions-of-metacarpal-bones-development-of-the-bones-please-note-that-these-images-are-extracted-from-scanned-page-images-that-may-have-been-digitally-enhanced-for-readability-image235400863.html
RMRJYC5K–. An atlas of human anatomy for students and physicians. Anatomy. Articular cartilage Epiphysis Epiphysial disc Synchondrosis epiphyseos Zone of ossification of the diaphysis Diaphysis Cancellous tissue Substantia spongiosa Compact tissue Substantia compacta Periosteum Figs. 31 and 32.—Two Stages in the Intracartilaginous Ossification of the Epiphysis of a Long Bone, as shown by Longitudinal Sections of the Distal Portions of Metacarpal Bones. Development of the Bones.. Please note that these images are extracted from scanned page images that may have been digitally enhanced for readability -
. Anatomy, descriptive and applied. Anatomy. 80 SPECIAL ANATOMY OF THE SKELETON The border of the horizontal portion is thin, serrated, and articulates with the lesser wing of the sphenoid. Structure.—The frontal portion and external angular processes consist of diploic tissue sur- rounded by compact bone. In the frontal sinus region the cancellous tissue is wanting. The horizontal portion is thin, translucent, and composed entirely of compact tissue. Development (Fig. 46).—The frontal bone is formed in membrane, being developed from two primary centres, one for each lateral half, which make t Stock Photohttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/anatomy-descriptive-and-applied-anatomy-80-special-anatomy-of-the-skeleton-the-border-of-the-horizontal-portion-is-thin-serrated-and-articulates-with-the-lesser-wing-of-the-sphenoid-structurethe-frontal-portion-and-external-angular-processes-consist-of-diploic-tissue-sur-rounded-by-compact-bone-in-the-frontal-sinus-region-the-cancellous-tissue-is-wanting-the-horizontal-portion-is-thin-translucent-and-composed-entirely-of-compact-tissue-development-fig-46the-frontal-bone-is-formed-in-membrane-being-developed-from-two-primary-centres-one-for-each-lateral-half-which-make-t-image236802810.html
RMRN78B6–. Anatomy, descriptive and applied. Anatomy. 80 SPECIAL ANATOMY OF THE SKELETON The border of the horizontal portion is thin, serrated, and articulates with the lesser wing of the sphenoid. Structure.—The frontal portion and external angular processes consist of diploic tissue sur- rounded by compact bone. In the frontal sinus region the cancellous tissue is wanting. The horizontal portion is thin, translucent, and composed entirely of compact tissue. Development (Fig. 46).—The frontal bone is formed in membrane, being developed from two primary centres, one for each lateral half, which make t
. An atlas of human anatomy for students and physicians. Anatomy. Inner cortical substance )Wk Substantia corticalis in- Nutrient canals Canales nutricii Cancellous tissue Substantia spongiosa Outer cortical substance Substantia corticalis externa Fig. 27.—Outer Surface of Left Ilium. By the removal of the outer compact layer and the cancellous tissue of a portion of the bone, the nutrient canals have been displayed. The bristles projecting towards the right above and below show that the nutrient canals into which they have been inserted open on the inner surface' of the bone—that turned awa Stock Photohttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/an-atlas-of-human-anatomy-for-students-and-physicians-anatomy-inner-cortical-substance-wk-substantia-corticalis-in-nutrient-canals-canales-nutricii-cancellous-tissue-substantia-spongiosa-outer-cortical-substance-substantia-corticalis-externa-fig-27outer-surface-of-left-ilium-by-the-removal-of-the-outer-compact-layer-and-the-cancellous-tissue-of-a-portion-of-the-bone-the-nutrient-canals-have-been-displayed-the-bristles-projecting-towards-the-right-above-and-below-show-that-the-nutrient-canals-into-which-they-have-been-inserted-open-on-the-inner-surface-of-the-bonethat-turned-awa-image235400936.html
RMRJYC88–. An atlas of human anatomy for students and physicians. Anatomy. Inner cortical substance )Wk Substantia corticalis in- Nutrient canals Canales nutricii Cancellous tissue Substantia spongiosa Outer cortical substance Substantia corticalis externa Fig. 27.—Outer Surface of Left Ilium. By the removal of the outer compact layer and the cancellous tissue of a portion of the bone, the nutrient canals have been displayed. The bristles projecting towards the right above and below show that the nutrient canals into which they have been inserted open on the inner surface' of the bone—that turned awa
. Anatomy, descriptive and applied. Anatomy. Fig. 4.—Transverse section of compact tissue of bone. Magnified about 150 diameters. (Sharpey.) a long bone, vessels from the periosteum penetrate the layer of compact bone and reach the cancellous tissue. In the newborn and in the young the periosteum is composed of three layers: an outer or fibrous layer, containing some bloodvessels, and composed of bundles of white fibrous tissue; a middle or flbroelastic layer, containing some bloodvessels, fibrous tissue, and much elastic tissue; and an inner or osteogenetic layer, which is very vascular and c Stock Photohttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/anatomy-descriptive-and-applied-anatomy-fig-4transverse-section-of-compact-tissue-of-bone-magnified-about-150-diameters-sharpey-a-long-bone-vessels-from-the-periosteum-penetrate-the-layer-of-compact-bone-and-reach-the-cancellous-tissue-in-the-newborn-and-in-the-young-the-periosteum-is-composed-of-three-layers-an-outer-or-fibrous-layer-containing-some-bloodvessels-and-composed-of-bundles-of-white-fibrous-tissue-a-middle-or-flbroelastic-layer-containing-some-bloodvessels-fibrous-tissue-and-much-elastic-tissue-and-an-inner-or-osteogenetic-layer-which-is-very-vascular-and-c-image236813392.html
RMRN7NW4–. Anatomy, descriptive and applied. Anatomy. Fig. 4.—Transverse section of compact tissue of bone. Magnified about 150 diameters. (Sharpey.) a long bone, vessels from the periosteum penetrate the layer of compact bone and reach the cancellous tissue. In the newborn and in the young the periosteum is composed of three layers: an outer or fibrous layer, containing some bloodvessels, and composed of bundles of white fibrous tissue; a middle or flbroelastic layer, containing some bloodvessels, fibrous tissue, and much elastic tissue; and an inner or osteogenetic layer, which is very vascular and c
. An atlas of human anatomy for students and physicians. Anatomy. Inner cortical substance )Wk Substantia corticalis in- Nutrient canals Canales nutricii Cancellous tissue Substantia spongiosa Outer cortical substance Substantia corticalis externa Fig. 27.—Outer Surface of Left Ilium. By the removal of the outer compact layer and the cancellous tissue of a portion of the bone, the nutrient canals have been displayed. The bristles projecting towards the right above and below show that the nutrient canals into which they have been inserted open on the inner surface' of the bone—that turned awa Stock Photohttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/an-atlas-of-human-anatomy-for-students-and-physicians-anatomy-inner-cortical-substance-wk-substantia-corticalis-in-nutrient-canals-canales-nutricii-cancellous-tissue-substantia-spongiosa-outer-cortical-substance-substantia-corticalis-externa-fig-27outer-surface-of-left-ilium-by-the-removal-of-the-outer-compact-layer-and-the-cancellous-tissue-of-a-portion-of-the-bone-the-nutrient-canals-have-been-displayed-the-bristles-projecting-towards-the-right-above-and-below-show-that-the-nutrient-canals-into-which-they-have-been-inserted-open-on-the-inner-surface-of-the-bonethat-turned-awa-image235400949.html
RMRJYC8N–. An atlas of human anatomy for students and physicians. Anatomy. Inner cortical substance )Wk Substantia corticalis in- Nutrient canals Canales nutricii Cancellous tissue Substantia spongiosa Outer cortical substance Substantia corticalis externa Fig. 27.—Outer Surface of Left Ilium. By the removal of the outer compact layer and the cancellous tissue of a portion of the bone, the nutrient canals have been displayed. The bristles projecting towards the right above and below show that the nutrient canals into which they have been inserted open on the inner surface' of the bone—that turned awa
. Calcified tissues; proceedings. Bone; Collagen; Calcification. Structure and Healing of Bone as a Response to Strain and Stress 95 this means the screws were exposed to the constant growing pressure of the epi- physeal cartilage. As a result we see in the corresponding bone thread on the weight- bearing side an appositional ossification, as an adaptation of bone tissue to mechani- cal pressure (Fig. 1). This adaptation does not occur in cancellous bone only, but also in compact bone, where the osteons change their direction according to the stress-lines of the screws. The primary stability o Stock Photohttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/calcified-tissues-proceedings-bone-collagen-calcification-structure-and-healing-of-bone-as-a-response-to-strain-and-stress-95-this-means-the-screws-were-exposed-to-the-constant-growing-pressure-of-the-epi-physeal-cartilage-as-a-result-we-see-in-the-corresponding-bone-thread-on-the-weight-bearing-side-an-appositional-ossification-as-an-adaptation-of-bone-tissue-to-mechani-cal-pressure-fig-1-this-adaptation-does-not-occur-in-cancellous-bone-only-but-also-in-compact-bone-where-the-osteons-change-their-direction-according-to-the-stress-lines-of-the-screws-the-primary-stability-o-image233688611.html
RMRG5C5R–. Calcified tissues; proceedings. Bone; Collagen; Calcification. Structure and Healing of Bone as a Response to Strain and Stress 95 this means the screws were exposed to the constant growing pressure of the epi- physeal cartilage. As a result we see in the corresponding bone thread on the weight- bearing side an appositional ossification, as an adaptation of bone tissue to mechani- cal pressure (Fig. 1). This adaptation does not occur in cancellous bone only, but also in compact bone, where the osteons change their direction according to the stress-lines of the screws. The primary stability o
. The anatomy of the frog. Frogs -- Anatomy; Amphibians -- Anatomy. 20 THE BONES AND JOINTS. Fisr. 6.. IV. Stuuctuee of the Vertebrae ^ (Fig-s. 6 and 7). Each vertebral body consists of a cylinder of compact bone, which is directly continued into the bony substance of the arch. In the interior of the cylinder is found an isolated persistent vestige of the chorda d or salis (CIi): this is surrounded by cancellous bone [c), which extends backwards towards the articular head and forwards directly into the articular cartilage, compact bone being- absent in these parts. In a transverse section of a Stock Photohttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/the-anatomy-of-the-frog-frogs-anatomy-amphibians-anatomy-20-the-bones-and-joints-fisr-6-iv-stuuctuee-of-the-vertebrae-fig-s-6-and-7-each-vertebral-body-consists-of-a-cylinder-of-compact-bone-which-is-directly-continued-into-the-bony-substance-of-the-arch-in-the-interior-of-the-cylinder-is-found-an-isolated-persistent-vestige-of-the-chorda-d-or-salis-cii-this-is-surrounded-by-cancellous-bone-c-which-extends-backwards-towards-the-articular-head-and-forwards-directly-into-the-articular-cartilage-compact-bone-being-absent-in-these-parts-in-a-transverse-section-of-a-image236817631.html
RMRN7Y8F–. The anatomy of the frog. Frogs -- Anatomy; Amphibians -- Anatomy. 20 THE BONES AND JOINTS. Fisr. 6.. IV. Stuuctuee of the Vertebrae ^ (Fig-s. 6 and 7). Each vertebral body consists of a cylinder of compact bone, which is directly continued into the bony substance of the arch. In the interior of the cylinder is found an isolated persistent vestige of the chorda d or salis (CIi): this is surrounded by cancellous bone [c), which extends backwards towards the articular head and forwards directly into the articular cartilage, compact bone being- absent in these parts. In a transverse section of a
. Mammalian anatomy : with special reference to the cat . Mammals; Anatomy, Comparative; Cats. THE SKELETON. 2 3 are those not elongated and with no medullary cavity: tarsus and carpus. Flat bones are plate-like, with a layer of cancellous tissue between two layers of compact tissue: parietal, scapula, and innominate. Irregular bones are those which have an exceedingly ir- regular shape: ethmoid and vertebras. The aspeet of a bone is the portion seen when viewed from a given direc- tion. The border of a bone is the margin, edge, or ridge at the juncture of two surfaces. Proximal is used to des Stock Photohttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/mammalian-anatomy-with-special-reference-to-the-cat-mammals-anatomy-comparative-cats-the-skeleton-2-3-are-those-not-elongated-and-with-no-medullary-cavity-tarsus-and-carpus-flat-bones-are-plate-like-with-a-layer-of-cancellous-tissue-between-two-layers-of-compact-tissue-parietal-scapula-and-innominate-irregular-bones-are-those-which-have-an-exceedingly-ir-regular-shape-ethmoid-and-vertebras-the-aspeet-of-a-bone-is-the-portion-seen-when-viewed-from-a-given-direc-tion-the-border-of-a-bone-is-the-margin-edge-or-ridge-at-the-juncture-of-two-surfaces-proximal-is-used-to-des-image232135151.html
RMRDJJN3–. Mammalian anatomy : with special reference to the cat . Mammals; Anatomy, Comparative; Cats. THE SKELETON. 2 3 are those not elongated and with no medullary cavity: tarsus and carpus. Flat bones are plate-like, with a layer of cancellous tissue between two layers of compact tissue: parietal, scapula, and innominate. Irregular bones are those which have an exceedingly ir- regular shape: ethmoid and vertebras. The aspeet of a bone is the portion seen when viewed from a given direc- tion. The border of a bone is the margin, edge, or ridge at the juncture of two surfaces. Proximal is used to des
. The anatomy of the frog. Frogs -- Anatomy; Amphibians -- Anatomy. IV. Stuuctuee of the Vertebrae ^ (Fig-s. 6 and 7). Each vertebral body consists of a cylinder of compact bone, which is directly continued into the bony substance of the arch. In the interior of the cylinder is found an isolated persistent vestige of the chorda d or salis (CIi): this is surrounded by cancellous bone [c), which extends backwards towards the articular head and forwards directly into the articular cartilage, compact bone being- absent in these parts. In a transverse section of a ver- tebral body the following par Stock Photohttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/the-anatomy-of-the-frog-frogs-anatomy-amphibians-anatomy-iv-stuuctuee-of-the-vertebrae-fig-s-6-and-7-each-vertebral-body-consists-of-a-cylinder-of-compact-bone-which-is-directly-continued-into-the-bony-substance-of-the-arch-in-the-interior-of-the-cylinder-is-found-an-isolated-persistent-vestige-of-the-chorda-d-or-salis-cii-this-is-surrounded-by-cancellous-bone-c-which-extends-backwards-towards-the-articular-head-and-forwards-directly-into-the-articular-cartilage-compact-bone-being-absent-in-these-parts-in-a-transverse-section-of-a-ver-tebral-body-the-following-par-image236817612.html
RMRN7Y7T–. The anatomy of the frog. Frogs -- Anatomy; Amphibians -- Anatomy. IV. Stuuctuee of the Vertebrae ^ (Fig-s. 6 and 7). Each vertebral body consists of a cylinder of compact bone, which is directly continued into the bony substance of the arch. In the interior of the cylinder is found an isolated persistent vestige of the chorda d or salis (CIi): this is surrounded by cancellous bone [c), which extends backwards towards the articular head and forwards directly into the articular cartilage, compact bone being- absent in these parts. In a transverse section of a ver- tebral body the following par
. The biology of the frog. Frogs. HISTOLOGY OF THE FROG 127. .^^^ ^Im. compact bone, which is very firm and dense, and spongy or cancellous bone, which is made up of plates and bars forming a structure which is comparatively loose and lacking in strength. The latter is found within the center of the verte- brae and to a small extent within some of the long bones. A good example of compact bone may be obtained by making a cross section of the fe- mur. The central part of the bone is hollow and filled with marrow, and the outer surface is covered by a layer of perioste- um, which is simi- ' ^'^& Stock Photohttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/the-biology-of-the-frog-frogs-histology-of-the-frog-127-im-compact-bone-which-is-very-firm-and-dense-and-spongy-or-cancellous-bone-which-is-made-up-of-plates-and-bars-forming-a-structure-which-is-comparatively-loose-and-lacking-in-strength-the-latter-is-found-within-the-center-of-the-verte-brae-and-to-a-small-extent-within-some-of-the-long-bones-a-good-example-of-compact-bone-may-be-obtained-by-making-a-cross-section-of-the-fe-mur-the-central-part-of-the-bone-is-hollow-and-filled-with-marrow-and-the-outer-surface-is-covered-by-a-layer-of-perioste-um-which-is-simi-image234607034.html
RMRHK7JJ–. The biology of the frog. Frogs. HISTOLOGY OF THE FROG 127. .^^^ ^Im. compact bone, which is very firm and dense, and spongy or cancellous bone, which is made up of plates and bars forming a structure which is comparatively loose and lacking in strength. The latter is found within the center of the verte- brae and to a small extent within some of the long bones. A good example of compact bone may be obtained by making a cross section of the fe- mur. The central part of the bone is hollow and filled with marrow, and the outer surface is covered by a layer of perioste- um, which is simi- ' ^'^&
. Elementary physiology. Physiology; Physiology. 14 Elementary Physiology A bone is not the same in its structure at all parts; strength combined with lightness is obtained by a compact firm structure, called compact bo?ie, being formed all over the outside, inclosing a space which, in the case of some bones, such as the ribs and ends of the long bones of the limbs, is filled with a honey- combed, lighter structure {cancellous bone), and in the case of other bones, such as the shafts of the limb bones, is completely hollow, and filled only with a soft fatty tissue, the mairow of bone. The purp Stock Photohttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/elementary-physiology-physiology-physiology-14-elementary-physiology-a-bone-is-not-the-same-in-its-structure-at-all-parts-strength-combined-with-lightness-is-obtained-by-a-compact-firm-structure-called-compact-boie-being-formed-all-over-the-outside-inclosing-a-space-which-in-the-case-of-some-bones-such-as-the-ribs-and-ends-of-the-long-bones-of-the-limbs-is-filled-with-a-honey-combed-lighter-structure-cancellous-bone-and-in-the-case-of-other-bones-such-as-the-shafts-of-the-limb-bones-is-completely-hollow-and-filled-only-with-a-soft-fatty-tissue-the-mairow-of-bone-the-purp-image231786217.html
RMRD2NK5–. Elementary physiology. Physiology; Physiology. 14 Elementary Physiology A bone is not the same in its structure at all parts; strength combined with lightness is obtained by a compact firm structure, called compact bo?ie, being formed all over the outside, inclosing a space which, in the case of some bones, such as the ribs and ends of the long bones of the limbs, is filled with a honey- combed, lighter structure {cancellous bone), and in the case of other bones, such as the shafts of the limb bones, is completely hollow, and filled only with a soft fatty tissue, the mairow of bone. The purp
. An atlas of human anatomy for students and physicians. Anatomy. 14 THE STRUCTURE OF III!: BONES Great trochanter Trochanter major Head of the femur I iput femoris. Internal condyle Condylus medialis External condyle Condylus lateralis Fig. 17.—Distal Portion in Frontal Section. Femur-Thigh-bone: Substantia compacts et substantia spongiosa ossium-Compact and cancellous tissue of the bones. Ossa longa—Long bones.. Please note that these images are extracted from scanned page images that may have been digitally enhanced for readability - coloration and appearance of these illustrations may not Stock Photohttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/an-atlas-of-human-anatomy-for-students-and-physicians-anatomy-14-the-structure-of-iii!-bones-great-trochanter-trochanter-major-head-of-the-femur-i-iput-femoris-internal-condyle-condylus-medialis-external-condyle-condylus-lateralis-fig-17distal-portion-in-frontal-section-femur-thigh-bone-substantia-compacts-et-substantia-spongiosa-ossium-compact-and-cancellous-tissue-of-the-bones-ossa-longalong-bones-please-note-that-these-images-are-extracted-from-scanned-page-images-that-may-have-been-digitally-enhanced-for-readability-coloration-and-appearance-of-these-illustrations-may-not-image235401131.html
RMRJYCF7–. An atlas of human anatomy for students and physicians. Anatomy. 14 THE STRUCTURE OF III!: BONES Great trochanter Trochanter major Head of the femur I iput femoris. Internal condyle Condylus medialis External condyle Condylus lateralis Fig. 17.—Distal Portion in Frontal Section. Femur-Thigh-bone: Substantia compacts et substantia spongiosa ossium-Compact and cancellous tissue of the bones. Ossa longa—Long bones.. Please note that these images are extracted from scanned page images that may have been digitally enhanced for readability - coloration and appearance of these illustrations may not
. The biology of the frog. Frogs. VI HISTOLOGY OF THE FROG t27 compact bone, which is very firm and dense, and spo7igy or cancellous bone, which is made up of plates and bars forming a structure which is comparatively loose and lacking in strength. The latter is found within the center of the verte- brae and to a small extent within some of the long bones. A good example of compact bone may be obtained by making a cross section of the fe- mur. The central part of the bone is hollow and filled with mar?'ow, and the outer surface is covered by a layer of perioste- um, which is simi- lar in struc Stock Photohttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/the-biology-of-the-frog-frogs-vi-histology-of-the-frog-t27-compact-bone-which-is-very-firm-and-dense-and-spo7igy-or-cancellous-bone-which-is-made-up-of-plates-and-bars-forming-a-structure-which-is-comparatively-loose-and-lacking-in-strength-the-latter-is-found-within-the-center-of-the-verte-brae-and-to-a-small-extent-within-some-of-the-long-bones-a-good-example-of-compact-bone-may-be-obtained-by-making-a-cross-section-of-the-fe-mur-the-central-part-of-the-bone-is-hollow-and-filled-with-marow-and-the-outer-surface-is-covered-by-a-layer-of-perioste-um-which-is-simi-lar-in-struc-image234606744.html
RMRHK788–. The biology of the frog. Frogs. VI HISTOLOGY OF THE FROG t27 compact bone, which is very firm and dense, and spo7igy or cancellous bone, which is made up of plates and bars forming a structure which is comparatively loose and lacking in strength. The latter is found within the center of the verte- brae and to a small extent within some of the long bones. A good example of compact bone may be obtained by making a cross section of the fe- mur. The central part of the bone is hollow and filled with mar?'ow, and the outer surface is covered by a layer of perioste- um, which is simi- lar in struc
. An atlas of human anatomy for students and physicians. Anatomy. Internal malleolus Malleolus medialis Fig. iS.—Proximal Portion in Frontal Sfxtion. Fig. ig.—Distal Portion in Frontal Section. Tibia—Shin-bone: Substantia compacta et substantia spongiosa ossium—Compact and cancellous tissue of the bones. Ossa longa—Long bones.. Please note that these images are extracted from scanned page images that may have been digitally enhanced for readability - coloration and appearance of these illustrations may not perfectly resemble the original work.. Toldt, Carl, 1840-1920; Dalla Rosa, Alois, b. 184 Stock Photohttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/an-atlas-of-human-anatomy-for-students-and-physicians-anatomy-internal-malleolus-malleolus-medialis-fig-isproximal-portion-in-frontal-sfxtion-fig-igdistal-portion-in-frontal-section-tibiashin-bone-substantia-compacta-et-substantia-spongiosa-ossiumcompact-and-cancellous-tissue-of-the-bones-ossa-longalong-bones-please-note-that-these-images-are-extracted-from-scanned-page-images-that-may-have-been-digitally-enhanced-for-readability-coloration-and-appearance-of-these-illustrations-may-not-perfectly-resemble-the-original-work-toldt-carl-1840-1920-dalla-rosa-alois-b-184-image235401087.html
RMRJYCDK–. An atlas of human anatomy for students and physicians. Anatomy. Internal malleolus Malleolus medialis Fig. iS.—Proximal Portion in Frontal Sfxtion. Fig. ig.—Distal Portion in Frontal Section. Tibia—Shin-bone: Substantia compacta et substantia spongiosa ossium—Compact and cancellous tissue of the bones. Ossa longa—Long bones.. Please note that these images are extracted from scanned page images that may have been digitally enhanced for readability - coloration and appearance of these illustrations may not perfectly resemble the original work.. Toldt, Carl, 1840-1920; Dalla Rosa, Alois, b. 184
. Comparative embryology of the vertebrates; with 2057 drawings and photos. grouped as 380 illus. Vertebrates -- Embryology; Comparative embryology. Fig. 314. Types and development of bone. (A) Compact and cancellous (spongy) bone. (B) Diagram showing structure of compact bone. (Redrawn and slightly modi- fied from Maximow and Bloom, 1942, A Textbook of Histoloi-y, Philadelphia, Saunders.) (C) Stages in conversion of marrow canal or space of spongy bone into an Haversian system by deposition of concentric layers of bony lamellae. (D) Haversian systems of compact bone from thin, ground section. Stock Photohttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/comparative-embryology-of-the-vertebrates-with-2057-drawings-and-photos-grouped-as-380-illus-vertebrates-embryology-comparative-embryology-fig-314-types-and-development-of-bone-a-compact-and-cancellous-spongy-bone-b-diagram-showing-structure-of-compact-bone-redrawn-and-slightly-modi-fied-from-maximow-and-bloom-1942-a-textbook-of-histoloi-y-philadelphia-saunders-c-stages-in-conversion-of-marrow-canal-or-space-of-spongy-bone-into-an-haversian-system-by-deposition-of-concentric-layers-of-bony-lamellae-d-haversian-systems-of-compact-bone-from-thin-ground-section-image232674490.html
RMREF6K6–. Comparative embryology of the vertebrates; with 2057 drawings and photos. grouped as 380 illus. Vertebrates -- Embryology; Comparative embryology. Fig. 314. Types and development of bone. (A) Compact and cancellous (spongy) bone. (B) Diagram showing structure of compact bone. (Redrawn and slightly modi- fied from Maximow and Bloom, 1942, A Textbook of Histoloi-y, Philadelphia, Saunders.) (C) Stages in conversion of marrow canal or space of spongy bone into an Haversian system by deposition of concentric layers of bony lamellae. (D) Haversian systems of compact bone from thin, ground section.
. Mammalian anatomy : with special reference to the cat . Mammals; Anatomy, Comparative; Cats. THE SKELETON. 25 STRUCTURE OF BONE. Every bone is completely covered except on its articu- lating surfaces with a tough membrane, the periosteum, which serves for the attachment of muscles, and the renewal of bony tissue in case of injury. The long bones contain a cavity, the medullary cavity, filled with marrow (Fig. 12).. Fig. 14. Cross-section of Cat's Femue. X 5. cp, Compact tissue ; en, cancellous tissue ; en, endosteum ; mc, medullary canal; pe, periosteum. This cavity is lined with endosteum, Stock Photohttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/mammalian-anatomy-with-special-reference-to-the-cat-mammals-anatomy-comparative-cats-the-skeleton-25-structure-of-bone-every-bone-is-completely-covered-except-on-its-articu-lating-surfaces-with-a-tough-membrane-the-periosteum-which-serves-for-the-attachment-of-muscles-and-the-renewal-of-bony-tissue-in-case-of-injury-the-long-bones-contain-a-cavity-the-medullary-cavity-filled-with-marrow-fig-12-fig-14-cross-section-of-cats-femue-x-5-cp-compact-tissue-en-cancellous-tissue-en-endosteum-mc-medullary-canal-pe-periosteum-this-cavity-is-lined-with-endosteum-image232142324.html
RMRDJYW8–. Mammalian anatomy : with special reference to the cat . Mammals; Anatomy, Comparative; Cats. THE SKELETON. 25 STRUCTURE OF BONE. Every bone is completely covered except on its articu- lating surfaces with a tough membrane, the periosteum, which serves for the attachment of muscles, and the renewal of bony tissue in case of injury. The long bones contain a cavity, the medullary cavity, filled with marrow (Fig. 12).. Fig. 14. Cross-section of Cat's Femue. X 5. cp, Compact tissue ; en, cancellous tissue ; en, endosteum ; mc, medullary canal; pe, periosteum. This cavity is lined with endosteum,
. An atlas of human anatomy for students and physicians. Anatomy. Head of the humerus Caput humeri Trochlea of the humerus - Trochlea humeri. Olecranon fossa Fossa olecrani Fig. io.—Proximal Portion in Frontal Section. Fig. ii.—Distal Portion in Sagittal Section. Humerus—Arm-bone: Substantia compacta et substantia spongiosa ossium—Compact and cancellous tissue of the bones. Ossa longa—Long bones.. Please note that these images are extracted from scanned page images that may have been digitally enhanced for readability - coloration and appearance of these illustrations may not perfectly resembl Stock Photohttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/an-atlas-of-human-anatomy-for-students-and-physicians-anatomy-head-of-the-humerus-caput-humeri-trochlea-of-the-humerus-trochlea-humeri-olecranon-fossa-fossa-olecrani-fig-ioproximal-portion-in-frontal-section-fig-iidistal-portion-in-sagittal-section-humerusarm-bone-substantia-compacta-et-substantia-spongiosa-ossiumcompact-and-cancellous-tissue-of-the-bones-ossa-longalong-bones-please-note-that-these-images-are-extracted-from-scanned-page-images-that-may-have-been-digitally-enhanced-for-readability-coloration-and-appearance-of-these-illustrations-may-not-perfectly-resembl-image235401200.html
RMRJYCHM–. An atlas of human anatomy for students and physicians. Anatomy. Head of the humerus Caput humeri Trochlea of the humerus - Trochlea humeri. Olecranon fossa Fossa olecrani Fig. io.—Proximal Portion in Frontal Section. Fig. ii.—Distal Portion in Sagittal Section. Humerus—Arm-bone: Substantia compacta et substantia spongiosa ossium—Compact and cancellous tissue of the bones. Ossa longa—Long bones.. Please note that these images are extracted from scanned page images that may have been digitally enhanced for readability - coloration and appearance of these illustrations may not perfectly resembl
. Chordate anatomy. Chordata; Anatomy, Comparative. -'BLOOD VESSEL ^COMPACT BONE ^MARROW ARTICULAR UGAMENT Fig. 100.—Diagram of the structure of a long bone. (Redrawn from Kahn's " Der Mensch," Albert Miiller, Zurich.) parallel layers. Usually the deeper substance of a bone (Fig. loo) is of a porous or spongy texture (cancellous bone) while the outer region is dense or solid (compact bone). A section of fully developed compact bone, seen under high magnifica- tion, shows the matrix layers or lamellae arranged in parallel or concentric order (Fig. loiB and 102). Between adjacent lamel Stock Photohttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/chordate-anatomy-chordata-anatomy-comparative-blood-vessel-compact-bone-marrow-articular-ugament-fig-100diagram-of-the-structure-of-a-long-bone-redrawn-from-kahns-quot-der-menschquot-albert-miiller-zurich-parallel-layers-usually-the-deeper-substance-of-a-bone-fig-loo-is-of-a-porous-or-spongy-texture-cancellous-bone-while-the-outer-region-is-dense-or-solid-compact-bone-a-section-of-fully-developed-compact-bone-seen-under-high-magnifica-tion-shows-the-matrix-layers-or-lamellae-arranged-in-parallel-or-concentric-order-fig-loib-and-102-between-adjacent-lamel-image234910945.html
RMRJ538H–. Chordate anatomy. Chordata; Anatomy, Comparative. -'BLOOD VESSEL ^COMPACT BONE ^MARROW ARTICULAR UGAMENT Fig. 100.—Diagram of the structure of a long bone. (Redrawn from Kahn's " Der Mensch," Albert Miiller, Zurich.) parallel layers. Usually the deeper substance of a bone (Fig. loo) is of a porous or spongy texture (cancellous bone) while the outer region is dense or solid (compact bone). A section of fully developed compact bone, seen under high magnifica- tion, shows the matrix layers or lamellae arranged in parallel or concentric order (Fig. loiB and 102). Between adjacent lamel
. An atlas of human anatomy for students and physicians. Anatomy. THE STRUCTURE OF THE BONES Cancellous bone tissue Substantia spongiosa. Surface of the cross-section Compact bone tissue Substantia compacta Medullary spaces of the cancellous tissue Haversian systems of lamellae Surface of the longitudinal section Volkmann's canals Outer fundamental lamellse Fig. 8.—Diagram of the Structure of Bone. Thickening of the periosteum $tfl]4 at the site of origin of a muscle Periosteum Compact bone tissue Substantia compacta Bone-marrow Medulla ossis. Please note that these images are extracted from s Stock Photohttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/an-atlas-of-human-anatomy-for-students-and-physicians-anatomy-the-structure-of-the-bones-cancellous-bone-tissue-substantia-spongiosa-surface-of-the-cross-section-compact-bone-tissue-substantia-compacta-medullary-spaces-of-the-cancellous-tissue-haversian-systems-of-lamellae-surface-of-the-longitudinal-section-volkmanns-canals-outer-fundamental-lamellse-fig-8diagram-of-the-structure-of-bone-thickening-of-the-periosteum-tfl-4-at-the-site-of-origin-of-a-muscle-periosteum-compact-bone-tissue-substantia-compacta-bone-marrow-medulla-ossis-please-note-that-these-images-are-extracted-from-s-image235401265.html
RMRJYCM1–. An atlas of human anatomy for students and physicians. Anatomy. THE STRUCTURE OF THE BONES Cancellous bone tissue Substantia spongiosa. Surface of the cross-section Compact bone tissue Substantia compacta Medullary spaces of the cancellous tissue Haversian systems of lamellae Surface of the longitudinal section Volkmann's canals Outer fundamental lamellse Fig. 8.—Diagram of the Structure of Bone. Thickening of the periosteum $tfl]4 at the site of origin of a muscle Periosteum Compact bone tissue Substantia compacta Bone-marrow Medulla ossis. Please note that these images are extracted from s
. An atlas of human anatomy for students and physicians. Anatomy. Surface of the cross-section Compact bone tissue Substantia compacta Medullary spaces of the cancellous tissue Haversian systems of lamellae Surface of the longitudinal section Volkmann's canals Outer fundamental lamellse Fig. 8.—Diagram of the Structure of Bone. Thickening of the periosteum $tfl]4 at the site of origin of a muscle Periosteum Compact bone tissue Substantia compacta Bone-marrow Medulla ossis. Please note that these images are extracted from scanned page images that may have been digitally enhanced for readability Stock Photohttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/an-atlas-of-human-anatomy-for-students-and-physicians-anatomy-surface-of-the-cross-section-compact-bone-tissue-substantia-compacta-medullary-spaces-of-the-cancellous-tissue-haversian-systems-of-lamellae-surface-of-the-longitudinal-section-volkmanns-canals-outer-fundamental-lamellse-fig-8diagram-of-the-structure-of-bone-thickening-of-the-periosteum-tfl-4-at-the-site-of-origin-of-a-muscle-periosteum-compact-bone-tissue-substantia-compacta-bone-marrow-medulla-ossis-please-note-that-these-images-are-extracted-from-scanned-page-images-that-may-have-been-digitally-enhanced-for-readability-image235401252.html
RMRJYCKG–. An atlas of human anatomy for students and physicians. Anatomy. Surface of the cross-section Compact bone tissue Substantia compacta Medullary spaces of the cancellous tissue Haversian systems of lamellae Surface of the longitudinal section Volkmann's canals Outer fundamental lamellse Fig. 8.—Diagram of the Structure of Bone. Thickening of the periosteum $tfl]4 at the site of origin of a muscle Periosteum Compact bone tissue Substantia compacta Bone-marrow Medulla ossis. Please note that these images are extracted from scanned page images that may have been digitally enhanced for readability
Download Confirmation
Please complete the form below. The information provided will be included in your download confirmation