Liver function Indices of monosodium glutamate induced male Wistar albino rats treated with methanol extract of Asystasia gangetica leaves:-Abuachi, Precious T
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ABSTRACT
The objective of this study is to evaluate the liver function indices of monosodium glutamate induced male Wistar albino rats treated with methanol extracts of Asystasia gangetica. The acute toxicity study was carried out using 18 male Wistar albino mice while 36 male Wistar albino rats were used for the effects of the extract on liver function indices. The rats were grouped into 9 groups of 4 rats each. Group1 served as normal control and received 2 ml/kg b. wt. of distilled water for 14 days. Group 2 received a suspension of 8 g/kg b. wt. of MSG on day 7 and 14 and served as positive control. Group 3 received a suspension of 8 g/kg b. wt. of MSG and treated with 200 mg/kg b. wt. of sylimarin for 14 days. Group 4 and 5 received 200 and 500 mg/kg b. wt. of A. gangetica leaves respectively for 14 days. Group 6 and 7 received 200 and 500 mg/kg b. wt. of A. gangetica leaves respectively for 7 days prior to MSG induction on the 7th and 14th day respectively and continued receiving the extract for the next 7 days. Group 8 and 9 received a suspension 8 g/kg b. wt. of MSG on the first day and 14th day and was treated with the 200 and 500 mg/kg b. wt. respectively of methanol extract of A. gangetica leaves. Blood samples and organs were collected on the 15th day for the liver marker and function indices respectively and to ascertain the histo-architecture. The result from the acute toxicity study of methanol extract of A. gangetica leaves showed absence of death or adverse reaction which may be as a result of the methanol extract possessing low toxicity potential or that the methanol extract was relatively non-toxic. The study showed that administration of MSG caused a significant (p<0.05) increase in the liver marker enzymes (ALT, /AST and ALP) respectively and a significant (p<0.05) decrease liver function indices (total protein, conjugated bilirubin and albumin) respectively in group 2 untreated rats. However, dose dependent administration of methanol extract of A. gangetica leaves resulted to a significant (p<0.05) decrease in the liver marker enzymes and a significant (p<0.05) increase in liver function parameters respectively when compared to group 2 untreated rats. Histopathological examination of the liver showed severe infiltrations of mononuclear inflammatory leucocytes around the portal triads in group 2 untreated rats. On the other hand histopathology of the liver of groups that received dose dependent administration of the extract showed normal histomorphology of the liver. This could be attributed to methanol extract of A. gangetica leaves possessing sufficient antioxidant components which was able to reverse the effects of MSG induction with levels greater than that treated with the standard drug silymarin. Furthermore, this suggests that the extract could be used in management of health conditions associated liver dysfunction as this study shows that the extract possesses essential phyto-chemicals that exerts the hepatoprotective and curative effects observed in the liver function indices of monosodium glutamate induced male Wistar albino rats treated with methanol of Asystasia gangetica leaves.
TABLE OF CONTENT
Title page i
Declaration ii
Certification iii
Dedication iv
Acknowledgements v
Table of contents vi
List of table x
List of figures xi
List of plates xii
Abstract xiii
CHAPTER ONE:INTRODUCTION 1
1.1 Aim of study 2
1.1.1 Specific objective of study 2
1.2 Problem statement 2
1.3 Justification of the study 2
1.4.1 List of abbreviation 3
CHAPTER TWO: LITERATURE REVIEW
2.1 Asystasia gangetica 4
2.1.1 Leaves of Asystasia gangetica. 4
2.1.2 Scientific classification of Asystasia gangetica 5
2.1.3. Botanical description of Asystasia gangetica 5
2.1.4 Morphological description of Asystasia gangetica 5
2.1.5. Geographical description of Asystasia gangetica 6
2.1.6 General uses of Asystasia gangetica 6
2.1.7 Traditional uses of Asystasia gangetica. 6
2.1.8 Medical uses of Asystasia gangetica. 7
2.2 Phytochemistry 7
2.2.1 Phytochemical Constituents 8
2.3.1 Liver and its biological functions 8
2.3.1 Liver function parameters 9
2.3.1.1 Alanine amino transferase (ALT) 10
2.3.1.2 Aspartate amino transferase (AST) 10
2.3.1.3 Alkaline phosphatase (ALP) 10
2.3.1.4 Total protein 11
2.3.1.5 Albumin 11
2.3.1.6 Total bilirubin 12
2.3.1.7 Conjugated bilirubin 12
2.4 Histopathology of liver 12
2.5 Hepatotoxicity 13
2.5.1 Hepatoprotection 13
2.5.2 Hepatocurative 14
2.6 Monosodium glutamate 14
2.6.1 Metabolism of monosodium glutamate 14
2.6.2 Hepatotoxic effects of monosodium on liver 15
2.7 Acute toxicity 15
CHAPTER THREE: MATERIALS AND METHOD
3.1 Materials 17
3.1.1 Plant material 17
3.1.2 Experimental animals 17
3.1.3 Equipment/ apparatus 17
3.1.4 Chemicals and reagents 17
3.2 Methods 18
3.2.1 Collection and identification of plant material 18
3.2.2 Collection of experimental animal 18
3.2.3 Preparation of plant material 18
3.2.4 Extraction of plant materials 18
3.2.5 Acclimatization of experimental animals 19
3.2.6 Experimental design 19
3.2.7 Preparation of solution and reagents 20
3.2.7.1 Preparation of normal saline 20
3.2.7.3 Preparation of ALP reagent 20
3.2.7.4 Preparation of biuret reagent 20
3.2.7.5 Preparation of 2,4 Dinitrophenylhydrazine 20
3.2.7.6 Preparation of phosphate buffer (pH7.4) 20
3.2.7.7 Preparation of L- alanine substrate 20
3.2.7.8 Preparation of aspartate substrate 21
3.2.7.9 Preparation of stock biuret solution 21
3.2.8 Biochemical analysis 21
3.2.8.1 Determination of acute toxicity 21
3.2.8.2 Determination of serum ALT activity 21
3.2.8.3 Determination of serum AST activity 22
3.2.8.4 Determination of serum ALPactivity 22
3.2.8.5 Determination of serumtotal protein concentration 23
3.2.8.6 Determination of total and conjugated bilirubin 23
3.2.8.7 Determination of serum albumin 24
3.2.8.8 Histopathological analysis of the liver 24
3.3 Statistical analysis 25
CHAPTER FOUR: RESULTS AND DISCUSSION
4.1 Results 26
4.1.1 Percentage yield 26
4.1.2 Lethal Dose LD50toxicity of methanol extract of Asystasia gangetica Leaves 26
4.1.3 AST activity of MSG induced male Wistar albino rats 27
4.1.4 Effect of methanol extract ofAsystasia gangetica on ALT activity 29
4.1.5 Effect of methanol extract of Asystasia gangetica on ALP activity 31
4.1.6 Effect of methanol extract of Asystasia gangeticaon total protein concentration 33
4.1.7 Effect of methanol extract of Asystasia gangetica on albumin 35
4.1.8 Effect methanol extract ofAsystasia gangetica total bilirubin 37
4.1.9 Effect methanol extract of Asystasia gangetica direct bilirubin 39
4.1.10 Histopathology of the liver of Wistar albino rat (control) 41
4.1.11 Histopathology of the liver of the Wistar albino rat that received MSG only 42
4.1.12 Histopathology of the liver of the Wistar albino rat that was induced with MSG and treated with Silymarin 43
4.1.13 Histopathology of the liver of the Wistar albino rat that received low dose of extract only 44 47
4.1.14 Histopathology of the liver of the Wistar albino rat that received high dose of extract only 45 48
4.1.15 Histopathology of the liver of the Wistar albino rat that received low dose of extract and MSG 46 49
4.1.16 Histopathology of the liver of the Wistar albino rat that received high dose of extract and MSG 47 50
4.1.17 Histopathology of the liver of the Wistar albino rat that received MSG and low dose of extract 48 51
4.1.18 Histopathology of the liver of the Wistar albino rat that received MSG and high dose of extract 49 52
4.2 Discussion 50
CHAPTER FIVE: CONCLUSION AND RECOMMENDATION
5.1 Conclusion 55
5.2 Recommendation 56
5.3 References 52
5.4 Appendix 59
Table 1: Acute toxicity of Methanol Extract of Asystasia gangetica 26
LIST OF FIGURES
Fig.1: Aspatate amino transferase activity of monosodium glutamate induced male Wistaralbino rats treated with methanol extract of Asystasia gangetica 28
Fig. 2: Alanine amino transferase activity of monosodium glutamate induced male Wistar albino rats treated methanol extract of Asystasia gangetica 30
Fig. 3: Alkaline phosphatase (ALP) amino transferase activity of monosodium glutamate induced male Wistar albino rats treated with methanol extract of Asystasia gangetica 32
Fig. 4: Total protein concentration of monosodium glutamate induced male Wistar albino rats treated with methanol extract of Asystasia gangetica 34
Fig. 5: Mean albumin concentration of monosodium glutamate induced male Wistar albino rats treated with methanol extract of Asystasia gangetica 36 39
Fig. 6: Total bilirubin concentration of monosodium glutamate induced male Wistar albino rats treated with methanol extract ofAsystasia gangetica 38
Fig. 7: Direct bilirubin concentration of monosodium glutamate inducedmale Wistar albino rats treated with methanol extract of Asystasia gangetica 40
LIST OF PLATES
Plate 1: Histopathology of the liver of Wistar albino rat (control) 41
Plate 2: Histopathology of the liver of the Wistar albino rat that received MSG only 42
Plate 3: Histopathology of the liver of the Wistar albino rat that was induced with MSG and treated with Silymarin 43 46
Plate 4: Histopathology of the liver of the Wistar albino rat that received low dose of extract only 44 47
Plate 5: Histopathology of the liver of the Wistar albino rat that received high dose of extract only 45 48
Plate 6: Histopathology of the liver of the Wistar albino rat that received low dose of extract and MSG 46 49
Plate 7: Histopathology of the liver of the Wistar albino rat that receivedhigh dose of extract and MSG 47 50
Plate 8: Histopathology of the liver of the Wistar albino rat that received MSG and low dose of extract 48 51
Plate 9: Histopathology of the liver of the Wistar albino rat that received
MSG and high dose of extract 49
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APA
ABUACHI, & TOBECHI, P. (2023). Liver function Indices of monosodium glutamate induced male Wistar albino rats treated with methanol extract of Asystasia gangetica leaves:-Abuachi, Precious T . Michael Okpara University of Agriculture. Retrieved June 8, 2026, from http://repository.mouau.edu.ng/works/liver-function-indices-of-monosodium-glutamate-induced-male-wistar-albino-rats-treated-with-methanol-extract-of-asystasia-gangetica-leaves-abuachi-precious-t-7-2
MLA
ABUACHI, and PRECIOUS TOBECHI. "Liver function Indices of monosodium glutamate induced male Wistar albino rats treated with methanol extract of Asystasia gangetica leaves:-Abuachi, Precious T ." Michael Okpara University of Agriculture, 13 Nov. 2023, http://repository.mouau.edu.ng/works/liver-function-indices-of-monosodium-glutamate-induced-male-wistar-albino-rats-treated-with-methanol-extract-of-asystasia-gangetica-leaves-abuachi-precious-t-7-2. Accessed June 8, 2026.
Chicago
ABUACHI, and PRECIOUS TOBECHI. "Liver function Indices of monosodium glutamate induced male Wistar albino rats treated with methanol extract of Asystasia gangetica leaves:-Abuachi, Precious T ." Michael Okpara University of Agriculture (2023). Accessed June 8, 2026. http://repository.mouau.edu.ng/works/liver-function-indices-of-monosodium-glutamate-induced-male-wistar-albino-rats-treated-with-methanol-extract-of-asystasia-gangetica-leaves-abuachi-precious-t-7-2