ABSTRACT
The present study investigated the effects of a 2-week swimming exercise on scopolamine-induced dementia in a mice model. Thirty-two mice, were randomly divided into four groups (8 rats in each). Group A served as control without exercise and received saline only; Group B served as induced control and receive a single dose of scopolamine (1 mg/kg, i.p.) only on the last day; group C mice were subjected to short-term exercise (swimming) + single dose of scopolamine (1 mg/kg, i.p.) on the last day; while group D were subjected to short-term exercise (swimming) only. In the neuro-behavioural study, it was revealed that swimming exercise prevented memory impairment and anxiety level in group C when compared with group B. Acetylcholinesterase (AchE) activity was significantly increased in the group B when compared with group A. However, swimming prevented the observed increase in AchE activity in group B when compared with swimming + scopolamine treated group. Adenosine deaminase activity was significantly increased in the scopolamine treated group when compared with the control, and swimming prevented the increase when compared with group C. Results of nitric oxide showed that there was no significant difference among the groups while that of superoxide dismutase and catalase showed a significant decrease in scopolamine treated group when compared with control group, while swimming caused a significant increase when compared with group C. Furthermore, the MDA level increased in the scopolamine treated group but swimming prevented the significant increase when compared with swimming + scopolamine group. In conclusion, swimming exercise served as a neuroprotective measure against scopolamine-induced dementia in mice model.
Table of Contents
CERTIFICATION ...................................................................................................................... i
APPROVAL PAGE ................................................................................................................... ii
DEDICATION ......................................................................................................................... iii
ACKNOWLEDGEMENT ........................................................................................................ iv
LIST OF FIGURES ................................................................................................... vii
LIST OF PLATES ................................................................................................. viii
LIST OF TABLES .................................................................................................... ix
ABSTRACT ............................................................................................................................... x
CHAPTER ONE ........................................................................................................................ 1
1.0 INTRODUCTION .......................................................................................................... 1
1.2 OVERALL AIM ............................................................................................................. 5
1.3 SPECIFIC OBJECTIVE ................................................................................................. 5
1.4 JUSTIFICATION OF STUDY ....................................................................................... 5
CHAPTER TWO ....................................................................................................................... 6
2.0 Literature Review................................................................................................................. 6
2.1 Exercise/Physical Activity ................................................................................................... 6
2.1.1 Swimming ......................................................................................................................... 7
2.1.1.1 Significance of Swimming ............................................................................................. 7
2.2 Human Brain ........................................................................................................................ 7
2. 2.1 HINDBRAIN ................................................................................................................... 8
2.2.2Cerebellum ....................................................................................................................... 10
2.2.3MIDBRAIN (MESENCEPHALON) ............................................................................... 11
2.2.4FOREBRAIN(PROSENCEPHALON) ........................................................................... 11
2.2.5Cerebrum.......................................................................................................................... 13
2.3 Y MAZE ............................................................................................................................ 13
2.4 OPEN FIELD ..................................................................................................................... 14
2.5 ACETYLCHOLINE .......................................................................................................... 14
2.6 NITRIC OXIDE ................................................................................................................. 15
2.7ANTIOXIDANTS............................................................................................................... 15
2.8 SCOPOLAMINE ............................................................................................................... 16
CHAPTER THREE ................................................................................................................. 18
3.0 MATERIALS AND METHOD ......................................................................................... 18
vi
3.1 MATERIALS ..................................................................................................................... 18
3.2 METHODS ........................................................................................................................ 18
3.2.1 Experimental Animals .................................................................................................... 18
3.2.2 Experimental Protocol .................................................................................................... 18
3.2.3 EXERCISE PROTOCOL ............................................................................................... 19
3.3 BEHAVIOURAL STUDY ................................................................................................ 19
3.3.1 Y-MAZE TEST .............................................................................................................. 19
3.3.2 OPEN FIELD .................................................................................................................. 20
3.4 PREPARATION OF TISSUE HOMOGENATES ............................................................ 20
3.4.1 ISOLATION AND HOMOGENIZATION OF TISSUE HOMOGENATE .................. 20
3.5 BIOCHEMICAL ASSAY .................................................................................................. 24
3.5.1 ACETYLCHOLINESTERASE (AChE) ENZYMATIC ACTIVITY ............................ 24
3.5.2 ADENOSINE DEAMINASE ACTIVITY (ADA) ......................................................... 25
3.5.3 NITRIC OXIDE ASSAY ................................................................................................ 25
3.5.4 LIPID PEROXIDATION................................................................................................ 26
3.5.5 TOTAL THIOL (TSH) CONTENT................................................................................ 26
3.5.6 NON-PROTEIN THIOL (NPSH) CONTENT ............................................................... 27
3.5.7 CATALASE .................................................................................................................... 28
3.5.8 SUPEROXIDE DISMUTASE (SOD) ACTIVITY ........................................................ 29
3.6 STATISTICAL ANALYSIS ............................................................................................. 30
CHAPTER FOUR .................................................................................................................... 31
4.0 RESULTS ......................................................................................................................... 31
4.1 Effect of swimming exercise on some neurobehavioural parameters .......................... 31
4.2 Effect of swimming exercise on some key enzymes associated with brain function ... 34
CHAPTER FIVE ..................................................................................................................... 44
5.0 DISCUSSION ............................................................................................................... 44
CONTRIBUTION TO KNOWLEDGE ................................................................................... 48
REFERENCES ........................................................................................................................ 49
APPENDIX .............................................................................................................................. 58
vii
LIST OF FIGURES PAGES Figure 2.1 Anatomy of the brain 9
Figure 4.1: Effect of swimming exercise on spatial working memory in
scopolamine-induced dementia in mice as assessed by Y-maze test 32
Figure 4.2: Effect of swimming exercise on brain acetylcholinesterase
(AChE) activity in scopolamine-induced dementia in mice model 35
Figure 4.3: Effect of swimming exercise on brain adenosine deaminase
(ADA) activity in scopolamine-induced dementia in mice model 36
Figure 4.4: Effect of swimming exercise on brain nitric oxide (NO)
level in scopolamine-induced dementia in mice model 38
Figure 4.5: Effect of swimming exercise on brain malondialdehyde
(MDA) level in scopolamine-induced dementia in mice model 39
Figure 4.6: Effect of swimming exercise on brain superoxide dismutase
(SOD) activity in scopolamine-induced dementia in mice model 40
Figure 4.7: Effect of swimming exercise on brain catalase activity in
scopolamine-induced dementia in mice model 41
Figure 4.8: Effect of swimming exercise on brain total protein thiol
(TSH) level in scopolamine-induced dementia in mice model 42
Figure 4.9: Effect of swimming exercise on brain non-protein thiol
(NPSH) level in scopolamine-induced dementia in mice model 43
viii
LIST OF PLATES PAGES
PLATE 1: Y Maze 22
PLATE 2: Open Field 23
ix
LIST OF TABLES PAGES
Table 1: Swimming Protocol With Training Time For 14 Days,
To Be Held From Monday To Friday. 21
Table 4.1: Effect of swimming exercise on locomotor function and
anxiety linked behaviours in scopolamine-induced dementia in mice
as assessed by open field test (OFT) 33
Boyle, E., A., D & ANADOZIE, S (2019). EFFECT OF SWIMMING TRAINING ON COGNITIVE FUNCTION IN SCOPOLAMINE INDUCED DEMENTIA IN MICE.. Afribary. Retrieved from https://tracking.afribary.com/works/effect-of-swimming-training-on-cognitive-function-in-scopolamine-induced-dementia-in-mice
Boyle, Erica, et. al. "EFFECT OF SWIMMING TRAINING ON COGNITIVE FUNCTION IN SCOPOLAMINE INDUCED DEMENTIA IN MICE." Afribary. Afribary, 15 Oct. 2019, https://tracking.afribary.com/works/effect-of-swimming-training-on-cognitive-function-in-scopolamine-induced-dementia-in-mice. Accessed 23 Nov. 2024.
Boyle, Erica, DR. A. and SCHOLASTICA ANADOZIE . "EFFECT OF SWIMMING TRAINING ON COGNITIVE FUNCTION IN SCOPOLAMINE INDUCED DEMENTIA IN MICE.". Afribary, Afribary, 15 Oct. 2019. Web. 23 Nov. 2024. < https://tracking.afribary.com/works/effect-of-swimming-training-on-cognitive-function-in-scopolamine-induced-dementia-in-mice >.
Boyle, Erica, DR. A. and SCHOLASTICA ANADOZIE . "EFFECT OF SWIMMING TRAINING ON COGNITIVE FUNCTION IN SCOPOLAMINE INDUCED DEMENTIA IN MICE." Afribary (2019). Accessed November 23, 2024. https://tracking.afribary.com/works/effect-of-swimming-training-on-cognitive-function-in-scopolamine-induced-dementia-in-mice