BACKGROUND: Innervation of blood vessels shows inter-species variability. There are few studies on the innervation of human vessels; thus, healthy mesenteric vessels were studied to identify the expression of immunomarkers and the morphology of sympathetic innervation as the basis for a study of mesenteric vessels in inflammatory bowel disease. METHODS AND RESULTS: Electron microscopy studies examined the relationships of nerves to smooth muscle cells. In veins, nerves were distributed throughout the medial smooth muscle coat, often in close apposition (50 nm) to smooth muscle cells. In arteries, nerves were located at the adventitial-medial border, few closer than 2,000 nm to smooth muscle cells, often with interposing connective tissue and Schwann cell processes. There was a significantly greater nerve density in veins than in arteries (227 vs. 41 mm(2); p = 0.03). Immunohistochemical studies revealed the presence of sympathetic and sensory-motor nerves in arteries and veins. CONCLUSIONS: It is suggested that in humans with an upright stance, the mesenteric venous system plays a particularly important role in controlling mesenteric capacitance, which is reflected by their dense innervation. It is speculated that transmitters released from perivascular nerves supplying the human mesenteric arteries may play a long-term (trophic) role in addition to short-term signalling roles. (c) 2008 S. Karger AG, Basel.
BACKGROUND: Innervation of blood vessels shows inter-species variability. There are few studies on the innervation of human vessels; thus, healthy mesenteric vessels were studied to identify the expression of immunomarkers and the morphology of sympathetic innervation as the basis for a study of mesenteric vessels in inflammatory bowel disease. METHODS AND RESULTS: Electron microscopy studies examined the relationships of nerves to smooth muscle cells. In veins, nerves were distributed throughout the medial smooth muscle coat, often in close apposition (50 nm) to smooth muscle cells. In arteries, nerves were located at the adventitial-medial border, few closer than 2,000 nm to smooth muscle cells, often with interposing connective tissue and Schwann cell processes. There was a significantly greater nerve density in veins than in arteries (227 vs. 41 mm(2); p = 0.03). Immunohistochemical studies revealed the presence of sympathetic and sensory-motor nerves in arteries and veins. CONCLUSIONS: It is suggested that in humans with an upright stance, the mesenteric venous system plays a particularly important role in controlling mesenteric capacitance, which is reflected by their dense innervation. It is speculated that transmitters released from perivascular nerves supplying the human mesenteric arteries may play a long-term (trophic) role in addition to short-term signalling roles. (c) 2008 S. Karger AG, Basel.
Authors: Marat Fudim; David M Kaye; Barry A Borlaug; Sanjiv J Shah; Stuart Rich; Navin K Kapur; Maria Rosa Costanzo; Michael I Brener; Kenji Sunagawa; Daniel Burkhoff Journal: J Am Coll Cardiol Date: 2022-05-10 Impact factor: 27.203
Authors: Marat Fudim; Piotr P Ponikowski; Daniel Burkhoff; Mark E Dunlap; Paul A Sobotka; Jeroen Molinger; Manesh R Patel; G Michael Felker; Adrian F Hernandez; Sheldon E Litwin; Barry A Borlaug; Anisha Bapna; Horst Sievert; Vivek Y Reddy; Zoar J Engelman; Sanjiv J Shah Journal: Eur J Heart Fail Date: 2021-05-09 Impact factor: 17.349