BACKGROUND: Autonomic neuropathy resulting from long-term diabetes mellitus may affect heart innervation. However, so far diabetes induced morphological changes of cardiac nerves are not well-known. In this study human cardiac atrial tissue from diabetic patients was analysed by electron microscopy for structural alterations as a result of diabetic neuropathy. METHODS: In coronary bypass surgery, an edge of the right auricle was routinely resected for reason of extracorporal circulation. Thin cardiac tissue sections of 100 nm were studied by electron microscopy. Atrial tissue samples were collected from 5 patients with long-standing diabetes (for at least 8 years) and compared to atrial tissue samples from 5 patients without diabetes, equally undergoing coronary bypass surgery. RESULTS: In all atria-free nerve endings with unmyelinized, axons were observed. Cross sections of 479 axons from diabetic patients were compared to 419 axons of nondiabetic patients. The number of altered axons was significantly higher in cardiac tissue of diabetic patients (32%) in comparison to normal subjects (17%). In diabetic patients, 20% of the intra-axonal mitochondria were condensed or hydropic, whereas in nondiabetic patients only 4% of the mitochondria were altered. Membrane fragments were present in 21% of the axons in atria of diabetic patients compared to 10% in nondiabetic subjects. Only in cardiac axons from diabetic patients there were lamellar bodies, dissolved axoplasma and junctions between neighbouring axons in a minor number. Few vacuoles were present in axons of both groups. CONCLUSION: In myocardial atrial-free nerve fibre bundles of diabetic patients, the amount of degenerative changes was higher in comparison to atrial cardiac tissue from nondiabetic subjects. These morphological alterations may indicate manifestation of diabetic neuropathy and might contribute to the impairment of autonomic neural control affecting the heart in long-standing diabetes mellitus.
BACKGROUND:Autonomic neuropathy resulting from long-term diabetes mellitus may affect heart innervation. However, so far diabetes induced morphological changes of cardiac nerves are not well-known. In this study human cardiac atrial tissue from diabeticpatients was analysed by electron microscopy for structural alterations as a result of diabetic neuropathy. METHODS: In coronary bypass surgery, an edge of the right auricle was routinely resected for reason of extracorporal circulation. Thin cardiac tissue sections of 100 nm were studied by electron microscopy. Atrial tissue samples were collected from 5 patients with long-standing diabetes (for at least 8 years) and compared to atrial tissue samples from 5 patients without diabetes, equally undergoing coronary bypass surgery. RESULTS: In all atria-free nerve endings with unmyelinized, axons were observed. Cross sections of 479 axons from diabeticpatients were compared to 419 axons of nondiabeticpatients. The number of altered axons was significantly higher in cardiac tissue of diabeticpatients (32%) in comparison to normal subjects (17%). In diabeticpatients, 20% of the intra-axonal mitochondria were condensed or hydropic, whereas in nondiabeticpatients only 4% of the mitochondria were altered. Membrane fragments were present in 21% of the axons in atria of diabeticpatients compared to 10% in nondiabetic subjects. Only in cardiac axons from diabeticpatients there were lamellar bodies, dissolved axoplasma and junctions between neighbouring axons in a minor number. Few vacuoles were present in axons of both groups. CONCLUSION: In myocardial atrial-free nerve fibre bundles of diabeticpatients, the amount of degenerative changes was higher in comparison to atrial cardiac tissue from nondiabetic subjects. These morphological alterations may indicate manifestation of diabetic neuropathy and might contribute to the impairment of autonomic neural control affecting the heart in long-standing diabetes mellitus.
Authors: C Burgdorf; D Richardt; T Kurz; S Adler; A Nötzold; E G Kraatz; H H Sievers; G Richardt Journal: Diabetologia Date: 2003-03-22 Impact factor: 10.122
Authors: Derek J Hausenloy; Hans Erik Bøtker; Peter Ferdinandy; Gerd Heusch; G André Ng; Andrew Redington; David Garcia-Dorado Journal: Cardiovasc Res Date: 2019-06-01 Impact factor: 10.787
Authors: Darius Batulevicius; Thomas Frese; Elmar Peschke; Dainius H Pauza; Vaida Batuleviciene Journal: Cardiovasc Diabetol Date: 2013-06-07 Impact factor: 9.951