ACTA FAC MED NAISS 2014;31(2):113-120

Original article

UDC:611.835:612.67

DOI:10.2478/afmnai-2014-0013

Analysis of Fascicular Structure and Connective Tissue Sheaths in Sural Nerve During Aging

Braca Kundalić¹, Slađana Ugrenović¹, Ivan Jovanović¹, Natalija Stefanović², Vladimir Petrović³, Jasen Kundalić⁴, Miljana Pavlović¹, Vladimir Antić²

¹University of Niš, Faculty of Medicine, Department of Anatomy, Serbia

²University of Niš, Faculty of Sport and Physical Education, Chair of Medical Subjects, Serbia

³University of Niš, Faculty of Medicine, Department of Histology and Embriology, Serbia

⁴University of Niš, Faculty of Medicine, Serbia


SUMMARY

The aim of our study was to analyze the changes of connective tissue sheaths of epi-, peri- and endoneurium of sural nerve during aging. The study was conducted on sural nerve samples of 10 cases aged 9-80 years. The specimens were embedded in paraffin using standard procedures, after which 5-µm-thick cross-sections of nerve trunks were made and stained using Masson’s trichrome staining. After morphological analysis of fascicular structure and connective sheaths of the nerve, morphometric analysis was conducted using the software for digital image analysis “ImageJ”. Each investigated case was analyzed for total neural, epineurial and fascicular cross-section area, mean values of perineurial index, volume density of myelinated axons and of endoneurial content. To test the difference in mean values for statistical significance we used the Student’s T-test for small independent sample. The number of fascicles was 5-13, while the majority of the nerves had less than 10 fascicles. Fascicular structure, which included the number of fascicles and epifascicular/fascicular area ratio, did not show significant changes during aging. Perineurial thickness /fascicle size ratio statistically significantly increased in the older investigated group (p<0.05). Myelinated fibres were of smaller diameter, with more irregular form and markedly less frequent in older cases. Quantitative analysis showed statistically significant decrease in volume density of myelinated fibres in the older group. As results of applied investigation methods we found thickening of perineurial sheath of sural nerve during aging, as well as endoneurial fibrosis. Future investigations of age-related changes should focus on analysis of the components of extracellular matrix within perineurium and endoneurium.

Key words: sural nerve, aging, degeneration, perineurium, endoneurial fluid