The anatomical record. Part A, Discoveries in molecular, cellular, and evolutionary biology.
Discontinued
Publisher:
Wiley-Liss,
Frequency: Monthly
Country: United States
Language: English
Author(s):
American Association of Anatomists.
Start Year:2003 - 2006
ISSN:
1552-4884 (Print)
1552-4892 (Electronic)
1552-4884 (Linking)
1552-4892 (Electronic)
1552-4884 (Linking)
Impact Factor
2
2022
| NLM ID: | 101234285 |
| (OCoLC): | 51621880 |
| LCCN: | 2003223759 |
| Classification: | W1 AN193AA |
Horse soleus muscle: postural sensor or vestigial structure? The soleus muscle of horses is rather diminutive with respect to the overall size of adjacent synergist muscles in the hind limb of the horse. Whether or not such a muscle might be vestigial or may be providing some essential function has not been determined. We have studied the horse's soleus muscle using histochemical (ATPase), immunocytochemical (myosin isoform identification), and SDS-PAGE analysis to demonstrate that it is largely composed of 100% type I, presumed slow-twitch fibers. Only one soleus muscle studied (out of 13 adult horses) contained any type II muscle fibers. Given this co...
In vivo interaction of pulmonary intravascular macrophages with activated platelets in microvessels of equine lung after multiple exposures to halothane, isoflurane, and thiamylal: a comparative ultrastructural and cytochemical study. The pulmonary intravascular macrophages (PIMs) of equines contain a unique electron-dense surface coat that is predominantly composed of lipoproteins. A single exposure of inhalatory halothane causes mobilization of the surface coat into the endocytotic system of the PIMs, followed by expansion of the Golgi apparatus and its enrichment with acid phosphatase. Simultaneously, the cells of the lymphocytic series show hyperplasia in the form of mitotic changes inside the microvascular compartment of the lung. Halothane is known to cause acute and chronic hepatotoxicity because of its biotransforma...
Mechanical behavior and quantitative morphology of the equine laminar junction. The horse's hoof is structurally modified for its mechanical functions, but studying the functional design of internal structures is hampered by the external keratinous capsule. Finite-element analysis offers one method for evaluating mechanical function of components within the capsule, such as the laminar junction. This is the epidermodermal connection that binds the hoof wall strongly to the distal phalanx. Primary epidermal laminae (PEL), projecting inward from the wall, vary in morphology and are remodeled despite being keratinous. The aim of this study is to investigate the suggestion th...