DEVELOPMENT OF RAT SUBEPICARDIAL NERVE PLEXUS IN THE POSTNATAL PERIOD



Cite item

Full Text

Open Access Open Access
Restricted Access Access granted
Restricted Access Subscription or Fee Access

Abstract

Objective - to study the formation of a subepicardial nerve plexus at different stages of postnatal development in a rat, to examine the nature of neurotransmitters in its nerve fibers and the interrelation of epicardial nervous structures and blood vessels. Materials and methods. The composition of nerve ganglia and the neurotransmitter nature of nerve fibers in subepicardial nerve plexus was studied in the newborn, 2 weeks, 1 and 3 months-old Wistar rats (a total of 16 observations). For identification of the nervous structures, immunohistochemical techniques were applied that demonstrated PGP 9.5 neural marker of together with the demonstration of synaptophysin tyrosine hydroxylase to characterize the localization of synaptic vesicles and catecholaminergic structures. Results. It was shown that the pericardiac area of the newborn rats already contained well developed ganglia, microganglia, nerve plexuses formed by the mixture of parasympathetic and sympathetic bundles, as well as the aggregates of chromaffin cells, with the prevalence of parasympathetic elements over the sympathetic ones. For the first time, the nerve plexus forming from bundles of unmyelinated parasympathetic fibers was detected in a subepicardial layer of a newborn rat. It was found that at the early stages of development, the the epicardial epithelial cells transiently expressed PGP 9.5protein. In 2-4 week-old rats the epicardial epithelium lost PGP 9.5 immunoreactivity. In 3 month-old rats, the nerve plexuses in various parts of the heart attained a definitive structure. Conclusions. During postnatal ontogenesis, the relationship between the subepicardial nerve plexus and the underlying connecting tissue has a heterochronous developmental pattern. This was also found in the various parts of rat heart. They include the stage of formation of subepicardial nerve plexus in the newborns that consists mainly of the unmyelinated parasympathetic axons.

Full Text

Restricted Access

About the authors

Ye. I. Chumasov

Institute of Experimental Medicine; St. Petersburg State Academy of Veterinary Medicine

Laboratory of Functional Morphology of Central and Peripheral Nervous System; Department of Biology, Ecology and Histology 12 Akademika Pavlova Str.; St. Petersburg 197376

Ye. S. Petrova

Institute of Experimental Medicine

Laboratory of Functional Morphology of Central and Peripheral Nervous System 12 Akademika Pavlova Str.; St. Petersburg 197376

D. E. Korzhevskiy

Institute of Experimental Medicine; St. Petersburg State University

Email: dek2@yandex.ru
Laboratory of Functional Morphology of Central and Peripheral Nervous System; Department of Fundamental Problems of Medicine and Medical Technology, Faculty of Dentistry and Medical Technologies 12 Akademika Pavlova Str.; St. Petersburg 197376; 7-9 Universitetskaya nab., St Petersburg 199034

References

  1. Коржевский Д. Э., Колос Е. А. Белок PGP 9.5 и его использование в качестве функционального маркера в нейроморфологии // Мед. акад. журнал. 2013. Т. 13, № 4. С. 29-35.
  2. Чумасов Е. И., Петрова Е. С., Коржевский Д. Э. Иннервация сердца крысы (иммуногистохимическое исследование) // Морфология. 2009. Т. 135, № 2. С. 33-37.
  3. Чумасов Е. И., Петрова Е. С., Сухорукова Е. Г., Коржевский Д. Э. Распределение PGP 9.5-иммунопозитивных нервных волокон в сердце человека // Мед. акад. журнал. 2013. Т. 13, № 1. C. 61-66.
  4. Ardell J. L. Intrathoracic neuronal regulation of cardiac function. In: Basic and Clinical Neurocardiology / Ed. Armour J. A., Ardell J. L. New York: Oxford University Press, 2004. P. 118-152.
  5. Batulevicius D., Skripka V., Pauziene N., Pauza D. H. Topography of the porcine epicardiac nerve plexus as revealed by histochemistry for acetylcholinesterase // Auton. Neurosci. 2008. Vol. 138, № 1-2. P. 64-75.
  6. Brack K. E. The heart’s ‘little brain’ controlling cardiac function in the rabbit // Exp. Physiol. 2015. Vol. 100, № 4. P. 348-353.
  7. Rysevaite K., Saburkina I., Pauziene N., Vaitkevicius R., Noujaim S. F., Jalife J., Pauza D. H. Immunohistochemical characterization of the intrinsic cardiac neural plexus in whole-mount mouse heart preparations // Heart Rhythm. 2011. Vol. 8, № 5. P. 731-738.
  8. Saburkina I., Gukauskiene L., Rysevaite K., Brack K. E., Pauza A. G., Pauziene N., Pauza D. H. Morphological pattern of intrinsic nerve plexus distributed on the rabbit heart and interatrial septum // J. Anat. 2014. Vol. 224, № 5. P. 583-593.
  9. Saburkina I., Rysevaite K., Pauziene N., Mischke K., Schauerte P., Jalife J., Pauza D. H. Epicardial neural ganglionated plexus of ovine heart: anatomic basis for experimental cardiac electrophysiology and nerve protective cardiac surgery // Heart Rhythm. 2010. Vol. 7, № 7. P. 942-950.

Supplementary files

Supplementary Files
Action
1. JATS XML
Download

Copyright (c) 2018 Eco-Vector


СМИ зарегистрировано Федеральной службой по надзору в сфере связи, информационных технологий и массовых коммуникаций (Роскомнадзор).
Регистрационный номер и дата принятия решения о регистрации СМИ: № 0110212 от 08.02.1993.

This website uses cookies

You consent to our cookies if you continue to use our website.

About Cookies