Abstract
To compare the amount of the dermatan sulfate glycosaminoglycan between male patients with Nyhus type II inguinal hernias and subjects without inguinal hernia, aged between 20 and 40 years. Two groups were formed: One with 15 male patients with Nyhus type II inguinal hernia and aged between 20 and 40 years with ASA risk I and II, and a control group of ten individuals, also males between 20 and 40, who had died up to 24 h before. We excluded female patients, diabetic patients with connective tissue disease, smokers and surgical risk ASA III and IV. We resected a sample of 1 cm² of the transversalis fascia in the middle of the inguinal trigone, and 1 cm² of the anterior sheath of the rectus abdominis muscle in the groin for the quantification of dermatan sulfate glycosaminoglycans by densitometry after agarose gel electrophoresis. The amount of dermatan sulfate showed no statistically significant difference between patients with inguinal hernia and individuals without inguinal hernia in both the transverse fascia (p = 0.108) and anterior sheath of the rectus abdominis muscle (p = 0.292). There was no difference in the amount of the dermatan sulfate glycosaminoglycan among patients with Nyhus type II inguinal hernias and subjects without inguinal hernia in adult males.
Highlights
The connective tissue is characterized by a cellular component, whose the main cell is the fibroblast, and an intercellular material called extracellular matrix
This study aims to quantify and compare the dermatan sulfate glycosaminoglycans in the transversalis
There was no statistical difference between the amount of dermatan sulphate and total glycosaminoglycans in the transversalis fascia and anterior sheath of the rectus abdominis musle in the groups separately (Table 1)
Summary
The connective tissue is characterized by a cellular component, whose the main cell is the fibroblast, and an intercellular material called extracellular matrix. The ground substance is made of complex glycosaminoglycans (GAGs) and proteins that are currently referred to as proteoglycan and a group of structural glycoproteins called multifunctional proteins. The extracellular matrix was stigmatized as just a passive framework, which supported the tissues on an inert way. It is recognized as a dynamic environment in which tissues organize, exchange information and differentiate[4]. Collagen fibers are responsible for tissue resistance, the elastic fibers and proteoglycans by the elasticity, and multifunctional proteins or glycoproteins by tissue adhesiveness[5]
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