Distribution, structure and projections of the frog intracardiac neurons.

Histochemistry for acetylcholinesterase was used to determine the distribution of intracardiac neurons in the frog Rana temporaria. Seventy-nine intracardiac neurons from 13 frogs were labelled iontophoretically by the intracellular markers Alexa Fluor 568 and Lucifer Yellow CH to determine their structure and projections. Total neuronal number per frog heart was (Mean ± SE) 1374 ± 56.

Topography of the porcine epicardiac nerve plexus as revealed by histochemistry for acetylcholinesterase.

The aim of the present study was to map the topography of the porcine epicardiac nerve plexus (ENP) and to re-examine the total number and distribution of the porcine intracardiac ganglia and neurons. Eleven juvenile pigs (Sus scrofa domestica, 3-4 weeks of age) were examined employing histochemistry for acetylcholinesterase to reveal the ENP on total hearts. The nerves entered porcine epicardium at five sites: (1) ventro-medially to the origin of the superior vena cava, (2) dorsally to the origin of the superior vena cava, (3) among the pulmonary veins, (4) dorso-medially to the origin of the left azygos vein, and (5) ventrally to the left pulmonary vein.

[Distribution of the epicardiac neural ganglia in human fetuses of different age].

Objective: The epicardiac neural ganglia of the adult human heart are distributed in the seven neural ganglionated subplexuses. The aim of the present investigation was to determine the distribution of the epicardiac ganglia in human fetuses of different age, because intrinsic cardiac nervous system of the human fetus has not been enough investigated so far.

Material And Methods: In the present study seventeen human fetus hearts were investigated, in which epicardiac neural ganglionated plexus was visualized by histochemical method for acetylcholinesterase.

Morphology of the intrinsic cardiac nervous system in the dog: a whole-mount study employing histochemical staining with acetylcholinesterase.

The intrinsic cardiac nervous system is known to be important both in the prevention and treatment of risky heart diseases. The present study was designed to determine the topography and 3-dimensional architecture of the intrinsic nervous system in the canine heart highlighting the differences of this system in dogs and humans. The morphology of the intrinsic cardiac neural plexus was revealed with a histochemical method using acetylcholinesterase in whole hearts of 18 mongrel dogs and examined with the aid of dissecting stereoscopic and contact microscopes.