Page 50

N o v e m b e r 1 2 - 1 3 , 2 0 1 8 | R o m e , I t a l y

Joint Event on

OF EXCELLENCE

IN INTERNATIONAL

MEETINGS

alliedacademies.com

YEARS

&

CHROMATOGRAPHY AND SEPARATION SCIENCE

World Congress on

SATELLITE AND SPACE MISSIONS

International Conference and Exhibition on

Chromatography 2018 & Satellite 2018

Journal of Chemical Technology and Applications

|

Volume 2

J Chem Tech App 2018, Volume 2

THE ROLE OF PROGRAMMED CELL DEATH ‘APOPTOSIS’ IN THE

DEVELOPMENT OF INNER SULCUS IN THE COCHLEA

Tarfa M Peter

Gombe State University, Nigeria

H

earing loss is one of the most common chronic diseases that affect both young and old but it is most prevalent in old people.

This condition is generally irreversible in humans and can be due to the loss of hair cells, which are unable to regenerate.

However, recent evidence of some regenerative ability reported in a number of non-mammal vertebrates have given us hope that,

in the future a solution may be discovered. Although several advances have been recorded in this field in recent times and ere

are still challenges ahead. This study tried to investigate he formation of the inner sulcus located in the cochlea, as it is thought

that, the processes involved during the development of this important region are most likely due to apoptosis or another type of

programmed cell death, although this has not yet been confirmed. Mouse expressing an EGFP (green fluorescent protein) report-

er at the Tecta locus was used. Specimens were stained with phalloidin as a general cell stain of f-actin and this was combined

with (Terminal deoxynucleotidyl transferase dUTP Nick End) TUNEL staining in order to observe whether dying cells are the result

of programmed cell death. Very little TUNEL staining was observed in the developing sulcal region, although some were seen in

the associated mesenchymal cells in the cochlea. In some of the sections, Blebbing as well as extrusion of some cells that are

thought to be undergoing programmed cell death were evident during the formation of the sulcus. The formation of the sulcus

occurs earlier in the basal region of the cochlea than in the apical part following the regression of the greater epithelial ridge

(GER) cells. Counting of nuclei in the sulcal region during the formation suggest that cells are being lost. It is not easy to establish

whether these cells that are being removed could be due to apoptosis or another type of programmed cell death.