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The Canalicular Structure of Compact Bone in the Rat at Different Ages

Okada, Shigenori ; Yoshida, Shigemitsu ; Ashrafi, Shahid H. ; [et al.]

Oxford University Press (OUP) ; 2002

In: Microscopy and Microanalysis Vol. 8, No. 2 ( 2002-04), p. 104-115

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In: Microscopy and Microanalysis, Oxford University Press (OUP), Vol. 8, No. 2 ( 2002-04), p. 104-115

Abstract: Osteocytes communicate through a canalicular system that maintains the vitality and mineral metabolism of bone. Casting the vascular canals and canaliculi of compact bone with methacrylate and viewing them with scanning electron microscopy shows their extent and relationships. Confocal laser scanning microscopy of the same specimen before corrosion establishes the degree of calcification of the different tissue components. These methods were used to compare basal with alveolar compact bone in the rat mandible at different ages. Sections of the mandibular molar region were placed in a methacrylate resin. After polymerization and study with confocal microscopy, the organic matrix was removed. Juvenile rats had large irregular central vascular canals and lacunae that were more concentric in the basal than the alveolar bone. Cast lacunae were round, and the canaliculi from these lacunae were short and thick in both bones. Adult rats had regular concentrically arranged lacunae in the basal bone. Cast lacunae were ellipsoid and flatter in the basal bone than in the alveolar bone. The intercommunicating canaliculi were increased and canaliculi had more branching than the juvenile rats. The aged rats had fewer vascular canals, lacunae, and canaliculi and had osteoporotic changes. The cast lacunae were slender and flat especially in the basal bone. The porosity of the mandible became more pronounced in the alveolar than in the basal bone with aging. The canaliculi of mandibular compact bone thinned and developed extensive branching with adulthood but decreased in size and number with advanced age. Lacunae proceed from the large circular structures of youth to the flat forms of the aged. These studies show that the internal structure of compact bone changes with age and mirrors its functional state.

Type of Medium: Online Resource

ISSN: 1431-9276 , 1435-8115

URL: Article

DOI: 10.1017/S1431927601020037

Language: English

Publisher: Oxford University Press (OUP)

Publication Date: 2002

detail.hit.zdb_id: 1481716-0

SSG: 11

SSG: 12

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Scanning Electron Microscopic Structure of the Lingual Papillae of the Common Opossum ( Didelphis marsupialis )

Okada, Shigenori ; Schraufnagel, Dean E.

Oxford University Press (OUP) ; 2005

In: Microscopy and Microanalysis Vol. 11, No. 4 ( 2005-08), p. 319-332

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In: Microscopy and Microanalysis, Oxford University Press (OUP), Vol. 11, No. 4 ( 2005-08), p. 319-332

Abstract: The mammalian tongue has evolved for specialized functions in different species. The structure of its papillae tells about the animal's diet, habit, and taxonomy. The opossum has four kinds of lingual papillae (filiform, conical, fungiform, vallate). Scanning electron microscopy of the external features, connective tissue cores, and corrosion casts of the microvasculature show the filiform papillae have a spearhead-like main process and spiny accessory processes around the apical part of the main process. The shape and number of both processes depend on their position on the tongue. On the apex, the main processes have shovel-like capillary networks and the accessory processes have small conical networks. On the lingual radix, the processes have small capillary loops. In the patch region, conical papillae have capillaries arranged as a full sail curving posteriorly. The fungiform papillae are scattered among the filiform papillae and have capillary baskets beneath each taste bud. Giant fungiform papillae on the tongue tip are three to four times larger than the ones on the lingual body. Capillaries of giant papillae form a fan-shaped network. The opossum has three vallate papillae arranged in a triangle. Their tops have secondary capillary loops but not their lateral surfaces. Mucosal folds on the posterolateral border have irregular, fingerlike projections with cylindrical capillary networks. These findings and the structure of the rest of the masticatory apparatus suggest the lingual papillae of opossum have kept their ancestral carnivorous features but also developed the herbivore characteristics of other marsupials.

Type of Medium: Online Resource

ISSN: 1431-9276 , 1435-8115

URL: Article

DOI: 10.1017/S1431927605050257

Language: English

Publisher: Oxford University Press (OUP)

Publication Date: 2005

detail.hit.zdb_id: 1481716-0

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SSG: 12

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Factors Associated with Pulmonary Infarction: A Discriminant Analysis Study

Schraufnagel, Dean E. ; Tsao, Ming-Soung ; Yao, Y. T. ; [et al.]

Oxford University Press (OUP) ; 1985

In: American Journal of Clinical Pathology Vol. 84, No. 1 ( 1985-07-01), p. 15-18

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In: American Journal of Clinical Pathology, Oxford University Press (OUP), Vol. 84, No. 1 ( 1985-07-01), p. 15-18

Type of Medium: Online Resource

ISSN: 1943-7722 , 0002-9173

URL: Article

DOI: 10.1093/ajcp/84.1.15

RVK:

YV 2000

RVK:

XA 18700

Language: English

Publisher: Oxford University Press (OUP)

Publication Date: 1985

detail.hit.zdb_id: 2039921-2

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Microvasculature of the Olfactory Organ in the Japanese Monkey ( Macaca fuscata fuscata )

Okada, Shigenori ; Schraufnagel, Dean E.

Oxford University Press (OUP) ; 2002

In: Microscopy and Microanalysis Vol. 8, No. 3 ( 2002-06), p. 159-169

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In: Microscopy and Microanalysis, Oxford University Press (OUP), Vol. 8, No. 3 ( 2002-06), p. 159-169

Abstract: Olfaction is an important and primitive sense. As its importance has changed with evolution, anatomic adjustments have occurred in its structure and vasculature. Primates are a family of vertebrates that have had to develop their visual system to adapt to the arboreal environment and have evolved from a macrosmatic to a microsmatic species as the optic system has enlarged. This has resulted in anatomic changes of a small but critical area at the base of the brain. This paper describes the three-dimensional vascular anatomy of the olfactory organ of the Japanese monkey ( Macaca fuscata fuscata ). This is best understood by dividing the organ into three parts: the olfactory tract, olfactory bulb, and olfactory nerves in the nasal mucosa. The bulb can be partitioned into an outer or cortical part and inner or medullary part. The vasculature and tissue were examined grossly and with light microscopy and scanning electron microscopy of vascular corrosion casts. The olfactory tract and bulb were supplied by an arteriole from the anterior cerebral artery on each side. The tract was supplied by capillaries running spirally with a coarse network. At the olfactory bulb, the arteriole ramified into the intracortical and medullary branches that formed capillary networks. The bulbar intracortical capillaries were divided into two layers with different densities and vascular patterns. The capillaries of the superficial layer had a ladder-like pattern. The branches that ran into the medulla of the olfactory bulb were more widely spaced. Twigs from the posterior ethmoidal artery ran along the nerve fiber and formed intra- and extrafascicular networks. Each region of the olfactory organ had characteristic three-dimensional vascular patterns that were related to their cellular architecture.

Type of Medium: Online Resource

ISSN: 1431-9276 , 1435-8115

URL: Article

DOI: 10.1017/S1431927602020081

Language: English

Publisher: Oxford University Press (OUP)

Publication Date: 2002

detail.hit.zdb_id: 1481716-0

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SSG: 12

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Structural Aspects of the Lymphocyte Traffic in Rat Submandibular Lymph Node

Okada, Shigenori ; Albrecht, Ralph M. ; Aharinejad, Seyedhossein ; [et al.]

Oxford University Press (OUP) ; 2002

In: Microscopy and Microanalysis Vol. 8, No. 2 ( 2002-04), p. 116-133

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In: Microscopy and Microanalysis, Oxford University Press (OUP), Vol. 8, No. 2 ( 2002-04), p. 116-133

Abstract: Modulation of lymphocyte flow in the lymphatic compartment of the lymph node may serve, in part, to promote lymphocyte sensitization during an antigenic challenge. This study was undertaken to show where this might occur by examining the structural relationships of the intranodal lymphatic pathways, blood vessels, and connective tissue support with respect to lymphocyte and lymph flow. Differently stained plastic resins were injected into the blood vessels and lymphatics of the submandibular lymph node and visualized with a confocal laser scanning microscope. The specimens were corroded to study the three-dimensional cast structures by scanning electron microscopy. Alkali diges tion was also used to prepare the reticular fiber network in the lymph node for scanning electron microscopic examination. At the hilus of the node, two to three arteries gave off arterioles running in medullary cords towards the cortex. The medullary cords, the periphery of the deep cortex, and the perifollicular zones had dense capillary networks. In contrast, the center of the follicle and the center of the deep cortex were less highly vascularized. High-endothelial venules were restricted to the perifollicular zone and the periphery of the deep cortex. At the cortico-medullary boundary, they abruptly transformed into medullary venules with a normal endothelium. The marginal sinus of the lymph node was crossed by thick reticular fibers that arose from the inner sheets of the capsule. The lymph pathway went through the marginal sinus, into the trabecular sinus, to the cortical perifollicular sinus, the dense lymphatic sinus around the deep cortex, and finally into the medullary sinus. At present, the exact functional significance of the complex lymph node lymphatic architecture is not clear. However, the highly organized structural organization may play a significant role in regulating and directing lymphocyte flow to facilitate antigen presentation.

Type of Medium: Online Resource

ISSN: 1431-9276 , 1435-8115

URL: Article

DOI: 10.1017/S1431927601020049

Language: English

Publisher: Oxford University Press (OUP)

Publication Date: 2002

detail.hit.zdb_id: 1481716-0

SSG: 11

SSG: 12

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