Stimulus Specific Response on Mechanical Properties of Isolated Visceral Muscle Tissues of a Reptile, Uromastix hardwickii

ABSTRACT Mechanical properties of a muscle have traditionally been described on the basis of the characteristics of parallel elastic component(PEC), series elastic component(SEC) and contractile element(CE). Reptiles in general and Uromastix in particular have been less investigated regarding the me...

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Veröffentlicht in:	Pakistan journal of zoology 2020-10, Vol.52 (5), p.1941
Hauptverfasser:	Savanur, Arifa, Naz, Tallat, Hamid, Tayyaba, Ali, Syed Abid, Jahangir, Mian, Azeem, Muhammad Abdul
Format:	Artikel
Sprache:	eng
Schlagworte:	Analysis Collagen Comparative studies Compliance Elasticity (Mechanics) Electrical stimuli Esophagus Intestine Mechanical analysis Mechanical properties Modulus of elasticity Muscle contraction Muscles Musculoskeletal system Physiological aspects Reptiles Reptiles & amphibians Skeletal muscle Smooth muscle Stiffness Tissues
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container_issue	5
container_start_page	1941
container_title	Pakistan journal of zoology
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creator	Savanur, Arifa Naz, Tallat Hamid, Tayyaba Ali, Syed Abid Jahangir, Mian Azeem, Muhammad Abdul
description	ABSTRACT Mechanical properties of a muscle have traditionally been described on the basis of the characteristics of parallel elastic component(PEC), series elastic component(SEC) and contractile element(CE). Reptiles in general and Uromastix in particular have been less investigated regarding the mechanical responses and the characteristics of elastic elements of their visceral muscle tissues. Therefore, a comparative study was conducted to determine the mechanical properties of esophageal and intestine tissue strips of Uromastix hardwickii. Tissues were subjected to electrical stimulation in order to observe the graded mechanical response, and the quick isotonic release method was used for the measurement of stiffness in the series elastic component. The higher stiffness in intestinal tissues as compared to esophageal tissue of Uromastix is probably associated with its lesser compliance due to a lesser quantity of SEC that makes the intestine stiffer, as its muscle cells are less embedded in a collagen matrix. A significant difference between both types of muscle strips was observed in the rate of force re-development and change in their length. Thus, the present study provokes the need for quantitative histological and histo-chemical studies on the non-contractile proteins of Uromastix smooth muscle.
doi_str_mv	10.17582/journal.pjz/20190219020207
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Reptiles in general and Uromastix in particular have been less investigated regarding the mechanical responses and the characteristics of elastic elements of their visceral muscle tissues. Therefore, a comparative study was conducted to determine the mechanical properties of esophageal and intestine tissue strips of Uromastix hardwickii. Tissues were subjected to electrical stimulation in order to observe the graded mechanical response, and the quick isotonic release method was used for the measurement of stiffness in the series elastic component. The higher stiffness in intestinal tissues as compared to esophageal tissue of Uromastix is probably associated with its lesser compliance due to a lesser quantity of SEC that makes the intestine stiffer, as its muscle cells are less embedded in a collagen matrix. A significant difference between both types of muscle strips was observed in the rate of force re-development and change in their length. 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Reptiles in general and Uromastix in particular have been less investigated regarding the mechanical responses and the characteristics of elastic elements of their visceral muscle tissues. Therefore, a comparative study was conducted to determine the mechanical properties of esophageal and intestine tissue strips of Uromastix hardwickii. Tissues were subjected to electrical stimulation in order to observe the graded mechanical response, and the quick isotonic release method was used for the measurement of stiffness in the series elastic component. The higher stiffness in intestinal tissues as compared to esophageal tissue of Uromastix is probably associated with its lesser compliance due to a lesser quantity of SEC that makes the intestine stiffer, as its muscle cells are less embedded in a collagen matrix. A significant difference between both types of muscle strips was observed in the rate of force re-development and change in their length. 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subjects	Analysis Collagen Comparative studies Compliance Elasticity (Mechanics) Electrical stimuli Esophagus Intestine Mechanical analysis Mechanical properties Modulus of elasticity Muscle contraction Muscles Musculoskeletal system Physiological aspects Reptiles Reptiles & amphibians Skeletal muscle Smooth muscle Stiffness Tissues
title	Stimulus Specific Response on Mechanical Properties of Isolated Visceral Muscle Tissues of a Reptile, Uromastix hardwickii
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