Hypoglycaemic and antihyperglycemic activity of oil palm Elaeis guineensis fruit extract on normal and Streptozotocininduced
diabetic rats was studied. The oil palm fruit extract (OPF) were administered orally at different concentrations (100,
200 and 500 mg kg-1 b.w.) in fasting and post-prandial rats. Hypoglycaemia was not observed in the group of normal rats
treated with OPF. In fasting rats, OPF (500 mg kg-1 b.w.) has caused the blood glucose level (BGL) to reduce significantly.
For post-prandial diabetic rats, the antihyperglycemic activity was observed after OPF treatment at concentrations 200
and 500 mg kg-1. Chronic OPF treatments (for 28 days) had increased the diabetic rat’s body weight and reduced BGL as
well as improved plasma insulin secretion. The result of this study suggests E. guineensis palm fruit extract show evidence
of antihyperglycemic properties from the reduction of the BGL in diabetic rats.
Ficus deltoidea or Mas cotek is one of the common medicinal plants used in Malaysia has been claimed to have antidiabetic activity. However, scientific evidence to confirm its efficacy is still lacking. Thus, the present study was undertaken to evaluate the potential of ethanolic extract of Ficus deltoidea to reduce hyperglycaemia in streptozotocininduced diabetic rats at different prandial state. The results showed that, ethanolic extract of Ficus deltoidea significantly reduced fasting and postprandial hyperglycemia particularly after 4 and 6 hours of extract administration. Likewise, glucose tolerance activity was significantly improved in the presence of Ficus deltoidea ethanolic extract at a low dose, 100 mg/kg. It is suggested that ethanolic extract of Ficus deltoidea at particular doses, possess fasting and postprandial antihyperglycemic activity as well as glucose tolerance activity in streptozotocin-induced diabetic rats.
Ficus deltoidea atau nama tempatannya 'Alas Cotek' telah dipercayai secara tradisional mempunyai aktiviti hipoglisemia. Dalam kajian ini, aktiviti hipoglisemia ekstrak akuas Ficus deltoidea pada tikus normal dan diabetik ringan (aruhan streptozotocin) telah dikaji. Ekstrak pada dos berbeza (100, 500 dan 1000 mg/kg) telah diberi secara oral kepada kedua-dua kumpulan dalam keadaan puasa dan pasca prandial. Keputusan menunjukkan bahawa ekstrak akuas Ficus deltoidea tidak mempunyai kesan hipoglisemia pada tikus normal dan tikus diabetik ringan puasa. Pada tikus diabetik ringan pasca prandial, ekstrak akuas Ficus deltoidea pada dos 1000 mg/kg menunjukkan menunjukkan aktiviti hipoglisemia selepas 2 (p < 0.01), 4 (p < 0.05) and 6 (p < 0.01) jam pengambilan ekstrak. Mefformin, 500 mg/kg juga menunjukkan aktiviti hipoglisemia selepas 2 (p < 0.05), 4 (p < 0.01) and 6 (p < 0.01) jam pengambilan. Oleh sebab itu, kami mencadangkan bahawa mekanisme tindakan ekstrak akuas Ficus deltoidea mungkin melalui peningkatan pengambilan glukos oleh tisu otot serta pengurangan glukoneogenesis pada hepar.
Ficus deltoidea or locally known as Mas cotek is one of the common medicinal plants used in
Malaysia. Our previous studies showed that this plant have blood glucose lowering effect. Glucose
uptake into muscle and adipocytes cells is one of the known mechanisms of blood glucose lowering
effect. This study was performed to evaluate the effect of Ficus deltoidea on glucose uptake activity
into muscle cells. The cells were incubated with Ficus deltoidea extracts either a,lone or combination
with insulin. Amount of glucose uptake by L6 myotubes was determined using glucose tracer, 2-deoxy-
[l-:-Hj-glucose. The results showed that Ficus deltoidea extracts at particular doses enhanced basal or
insulin-mediated glucose uptake into muscle cells significantly. Hot aqueous extract enhanced glucose
uptake at the low concentration (10 pg/ml) whereas methanolic extract enhanced basal glucose uptake
at high concentrations (500 and 1000 fig/ml). Meanwhile, ethanolic extract enhanced glucose uptake at
low and high concentrations. Methanolic extract also mimicked insulin activity during enhancing
glucose uptake into L6 muscle cells. Glucose uptake activity of Ficus deltoidea could be attributed by
the phenolic compounds presence in the plant. This study had shown that Ficus deltoidea has the
ability to enhance glucose uptake into muscle cells which is partly contributed the antidiabetic activity
of this plant.
Ficus deltoidea is one of the common medicinal plants used in Malaysia. This epiphytic plant, from the Moraceae family has been claimed to have antidiabetic property. However, scientific evidence to confirm its efficacy is still lacking. The present study was undertaken to evaluate the effect of ethanolic extract of F. deltoidea on glucose level in normal rats at different prandial state. The results showed that, all doses of ethanolic extract of F. deltoidea reduced fasting blood glucose particularly after 6 h of administration. Interestingly, the extract did not produce severe hypoglycemia as shown by its comparable effect with metformin. Likewise, postprandial hyperglycemia was also significantly reduced particularly after 4 and 6 h of administration. Furthermore, extract was used at a dose of 1000 mg/kg b.w., reduced postprandial hyperglycemia similar to metformin. This suggests that postprandial antihyperglycemic mechanism of this extract is mediated through enhancement of glucose uptake into muscle cells and reduction of hepatic gluconeogenesis. Glucose tolerance activity was also significantly improved in the presence of ethanolic extract of F. deltoidea. From this study, it is suggested that ethanolic extract of F. deltoidea reduced postprandial hyperglycemia and improves glucose tolerance activity in normal rats.
Molluscan shells are attracting research interest due to the diverse application properties possessed. As shells are very similar to bones, this study was conducted to analyze the mineral and physiochemical composition of Cockle (Anadara granosa) shell and three other types of molluscan shell, namely Strombus canarium, Oliva sayana and Terebra dislocata as potential biomaterial for bone tissue engineering applications. Approximately 200 g of shells from each species were processed and powdered for the purpose of this study. Carbon was analyzed using the carbon analyzer while minerals and heavy metals through ICP-MS. The phase purity and crystallographic structures of the powders were identified using X-Ray Diffractometer (XRD) while the chemical functionality was determined using the Fourier transform infrared (FTIR) spectrophotometer. The analysis showed that Cockle shells contained higher content of calcium and carbon including varying amount of other minor elements comparatively. However, all four types of shell powders were found to contain below detectable levels of toxic elements. Physiochemical analysis on phase purity and crystallographic structures showed similar characteristics of carbonate group present in all four shell types. A predominantly aragonite form of calcium carbonate was detected in both XRD diffractogram and FTIR spectra for all samples. Our findings demonstrated that different types of molluscan shells have almost similar mineral and physiochemical characteristics and a predominantly aragonite form of calcium carbonate that provides a strong basis for their use as a potential bone tissues engineering material.