Effects of thymalin and α-tocopherol on morphofunctional state of neuroendocrine system at the early stages of atherogenesis

Abstract: The effects of thymalin and ~-tocopherol on the morphofunctional state of hypothalamohypophyseal neurosecretory system, thyroid gland, and adrenals at the early stages of atherogenesis are described. Correction of pathological changes in the neuroendocrine organs was accompanied by restoration of lipid homeostasis, decrease in intensity of lipid peroxidation, prevention of progressive atherosclerotic alterations in major arteries. Key Words: thymalin; o:-tocopherol; atherosclerosis; neuroendocrine system; thyr… Show more

“…Thus, after 4 months of atherogenic diet cerebral arteries of different diameter showed initial manifestations of atherosclerosis such as lipid deposition in different structures of the arterial wall and functional changes in the endothelium. According to previous classification, the former are specific for HLP, while the latter are nonspecific [4,5,8,9]. Lipid depositions in the vascular lumen, endotheliocytes, myocytes, subendothelial layer, pericytes, and perivascular astrocytes were discovered in cerebral arteries of a different diameter.…”

“…Elevated content and enhanced transport of blood lipoproteins through the vascular wall affect both large arteries and microcirculatory vessels (MCV) of different organs [3,5]. Diffuse microcirculatory disturbances in the myocardium, liver, lungs, kidney, and other organs, the earliest manifestations of experimental hyperlipidemia (HLP), are considered to be the microangiopathy of lipid origin preceding pathological changes in large arteries (lipid strips and spots, fibrous plaques, and others) [2,4,5,[7][8][9]. Morphological changes in large cerebral vessels and MVB at the early stages of HLP have not been studied.…”

Changes in cerebral vessels during experimental hyperlipidemia

“…Thus, after 4 months of atherogenic diet cerebral arteries of different diameter showed initial manifestations of atherosclerosis such as lipid deposition in different structures of the arterial wall and functional changes in the endothelium. According to previous classification, the former are specific for HLP, while the latter are nonspecific [4,5,8,9]. Lipid depositions in the vascular lumen, endotheliocytes, myocytes, subendothelial layer, pericytes, and perivascular astrocytes were discovered in cerebral arteries of a different diameter.…”

“…Elevated content and enhanced transport of blood lipoproteins through the vascular wall affect both large arteries and microcirculatory vessels (MCV) of different organs [3,5]. Diffuse microcirculatory disturbances in the myocardium, liver, lungs, kidney, and other organs, the earliest manifestations of experimental hyperlipidemia (HLP), are considered to be the microangiopathy of lipid origin preceding pathological changes in large arteries (lipid strips and spots, fibrous plaques, and others) [2,4,5,[7][8][9]. Morphological changes in large cerebral vessels and MVB at the early stages of HLP have not been studied.…”

Changes in cerebral vessels during experimental hyperlipidemia