Effects of Ficus deltoidea Jack and vitexin on pancreas, brain, kidney and bone of streptozotocin-induced diabetic rats
Hyperglycaemia is the predominant cause of tissue damage and other systemic complications through oxidative stress. In diabetic patients, hyperglycaemia is associated with dearrangement of glycemic control. Limiting oxidative stress injuries using antioxidants therefore would be a logical approa...
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Main Author: | |
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Format: | Thesis |
Language: | English |
Published: |
2017
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Online Access: | http://psasir.upm.edu.my/id/eprint/68624/1/FPV%202018%2016%20IR.pdf http://psasir.upm.edu.my/id/eprint/68624/ |
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Summary: | Hyperglycaemia is the predominant cause of tissue damage and other
systemic complications through oxidative stress. In diabetic patients,
hyperglycaemia is associated with dearrangement of glycemic control.
Limiting oxidative stress injuries using antioxidants therefore would be a
logical approach to reduce hyperglycaemia and prevent further diabetes
complications. Ficus deltoidea is a plant high in antioxidant compound content
such as vitexin. Improvements in fasting blood glucose and antioxidant
activities have indeed been reported following treatment with F. deltoidea and
vitexin. However, the potential of F. deltoidea and vitexin in delaying diabetesrelated
complications remains to be examined. In this regard, the study aimed
to examine the effects of F. deltoidea and vitexin on the pancreas, brain,
kidney and bone of streptozotocin (STZ)-treated rats. Intraperitoneal injection
of STZ (60 mg/kg) was used to induce hyperglycaemia in rats. Methanol
extract of F. deltoidea and vitexin was then given by oral-gavage for eight
weeks. The effects of F. deltoidea and vitexin on the pancreas, brain, kidney
and bone were further evaluated in four interlinked experiments. The novelty
of this study is that Fourier transform infrared (FT-IR) spectroscopy has been
introduced as a diagnostic approach to examine metabolic fingerprinting
related to the tissue changes showing by biochemical and histological
analysis, Morris Water Maze (MWM) test, micro-computed tomography
(micro-CT) and fatty acid profiles. The present study demonstrates, for the first
time, that F. deltoidea treatment was able to preserve pancreatic islet
structure, improve learning and memory ability, mitigate renal injury and
prevent bone loss in STZ-treated rats. It was also found that F. deltoidea
resulted in a significant reduction in circulating amylin and an increase in
serum insulin and osteocalcin levels. Additionally, the results showed that F.
deltoidea treatment was associated with increased pancreatic, brain and kidney antioxidant activity. Although structural and functional improvement of
the pancreas and brain was seen, vitexin treatment is associated with an
increased risk of acute kidney injury and osteopenia. This might be explained
by an increased serum fructose. In conclusion, F. deltoidea increased insulin
secretion, in part, by reversing STZ-induced organ damage in the pancreas,
brain, kidney and bone of rats. This could be related to the optimization of
oxidant-antioxidant balance in the tissue. |
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