Research Article
The Impact of Samh Seeds on Blood Parameters of Experimental Animals
Princess Nora Bint Abdul Rahman University, Saudi Arabia Kingdom, Riyadh, Saudi Arabia
Traditional foods play an important role in prevention and treatment of specific diseases and every country has its own foods that are a part of its culture. One of the traditional foods in Kingdom of Saudi Arabia is Al-Samh seeds (Mesembryanthemum Forsskalei Hochst). Seeds of Al-Samh are cultivated in several Arabian countries like Egypt, Palestine, Bahrain and Qatar, but it is more common in Saudi Arabia and cultivated in the northern providence (Showdrei, 1999). The population of northern area of KSA used Al-Samh seeds (Mesembryanthemum Forsskalei Hochst) as an important food, where they mix it with butter and date for preparing traditional recipe called Pakilla (Al-Sharari, 1988). Also, they use it in preparing breads, biscuits, Aseeda and other recipes.
A study carried out by Al-Drewish (2005) and found that the seeds of Al-Samh are rich in protein (20.5%), carbohydrate (63.05) and fats (4.8%).
Several studies showed that chronic diseases prevalence increased in KSA in recent years, where Al-Nozaha (2002) showed that 24% of Saudi population has hyperlipidemia; 24% diabetes mellitus; 26% hypertension and 36% obesity. And the prevalent were higher among males and increased in urban areas.
The folk medicine showed that there are some foods has favorable effect on human health and some foods can treat specific diseases. However, the folk medicine in Saudi Arabia Kingdom claims that Al-Samh seeds (Mesembryanthemum Forsskalei Hochst) can improve the health of diabetes patients. Therefore, the aim of this study was to find out the effect of Al-Samh seeds on blood glucose, lipids and other blood parameters of experimental animals.
Samh seeds: Samh seeds (Mesembryanthemum Forsskalei Hochst) were obtained from Center Research and Development of Grazing Livestock in Al Jouf, Saudi Arabia. The seeds were cleaned thoroughly and washed, then roasted for 5 min and grounded into flour.
Chemical composition: The proximate chemical composition (moisture, ash, protein and fat) of Samh seed flour were carried out according to AOAC (1995).
Animals: Male albino Wister rats weighing 100±5.0 g were housed in clean cages at 20-24oC temperature, 12-h light/12-h dark cycle and relative humidity (52% in the animal house at College of Medicine, King Saud University, Riyadh-Saudi Arabia). Rats were given free access to water and diets that were prepared according to the American Institute of Nutrition (Reeves et al., 1993). Rats were allowed to acclimatize to the new environmental condition and received a standard diet for five days before the sixty-day experiment period.
Experimental design: Thirty six male albino Wister rats were fed suggested diets given in Table 1 and divided into six group (6 rats for each) as follow:
• | Control group: this group fed standard diet (20% protein) only |
Table 1: | Diet composition (g/100g) |
*Casein contain 86% protein |
• | 5% Samh Group: this group fed standard diet plus 5% of flour of Samh seeds |
• | 15% Samh Group: this group fed standard diet plus 15% of flour of Samh seeds |
• | High lipid diet (HL diet); this group fed diet that contain 15% fat and 1% cholesterol |
• | 5% Samh and HL Diet: this group fed high lipid diet plus 5% of flour of Samh seeds |
• | 15% Samh and HL Diet: this group fed high lipid diet plus 15% of flour of Samh seeds |
Diets (Table 1): The diets used in this study were based on casein as a source of protein and each diet were designed to provide 20% protein, 5% fat, 1% vitamins, 3% minerals and carbohydrate up to 100%. While, the amount of protein, fats and carbohydrate were determined in Samh seeds flour and diets contained it were completed by casein to yield 20% protein. Finally the composition of High Lipid Diets (HL Diet) were the same of standard diet, but it contains higher amounts of fats (15%).
Biochemical analysis: On the 60th day, rats were fasted overnight and were anesthetized with light ether. A blood samples were collected in heparinzed tubes, then the serum were separated and part of it used immediately for glucose determination according to method of Teuscher and Richterich (1971). The rest of serum was kept frozen for determination of other blood parameters. The total cholesterol and triglycerides concentrations were determined enzymatically using kits from Boehringer (Germany) according to method given by Fossati and Prencipe, 1982 and Allain et al., 1974 respectively. Serum High-density Lipoprotein (HDL) cholesterol was determined by a direct method according to recent method given by Hino et al., 1996, while the Very Low Density Lipoprotein cholesterol (VLDLc) and Low Density Lipoprotein cholesterol (LDLc) were calculated by the formula given by Friedewald et al., 1972. The Blood Urea Nitrogen (BUN), Creatinine, albumin, total protein were determined by calorimetric methods according to Tabacco et al., 1979; Rock et al., 1983 and Dacie and Lewis, 1998, total billirubin (Reitman et al., 1957), calcium (Gindler and King, 1972) and iron (Fabre et al., 1954).
Statistical analysis: Data analysis was performed using the Statistical Package for the Social Sciences software (SPSS, version 11.0). Descriptive statistics were adopted to display data in means±SD. The statistical method of one way analysis of variance (ANOVA) and LSD were used to compare the mean values obtained among the different groups. Differences were considered significant whenever the p-value is p<0.05.
As shown from (Table 2) the seeds of Samh is rich in protein (22.3±2.1 g/100 gram) and contain considerable amount of fats (5.20±0.23 g/100 gram).
Results of (Table 3) showed that weight gain of control group was the highest, followed by rats fed 5% Samh (117.0±33.2 g) and rats fed 15% Samh (87.4±19.1 g), while the lowest weight gain was among rats fed 15% Samh and HL diet (57.2±12.3 g). As for food intake, there were no significant differences between daily amount eaten by all studied rats and the values ranged from 14.0±3.5 g/day for rats fed HL diet to 17.0±2.3 g/day for rats fed 15% Samh. Regarding waste food, it was clear that the highest wastes were among rats fed all HL diets.
Results of Table 4 shows that the mean values of serum glucose of rats of control group and rats fed 5% Samh (4.88±1.34 and 4.88±1.21 mg/dl respectively) were the lowest, while the mean value of rats fed 15% Samh (6.23±0.80 mg/dl) was the highest and followed by rats fed HL diet (5.73±1.72 mg/dl). Also, the mean value of BUN for rats fed 5% Samh (5.13±0.90 mg/dl) was the lowest followed by rats fed 5% and HL diet (5.88±1.76 mg/dl), while the mean value of rats fed HL diet (8.78±1.45 mg/dl). On the other hand, the serum creatinine value of rats fed 15% Samh was the lowest (26.33±5.51 mg/dl) followed by rats fed 15% Samh and HL diet (27.00±5.29 mg/dl), while the mean value for control group and rats fed 5% Samh (41.80±3.03 and 39.75±5.91 mg/dl) were the highest. It is clear from the same Table 4 that the higher Samh concentration, the lower the serum albumin concentration, where the mean value of rats fed HL diet and rats fed 15% Samh was the lowest (7.75±0.96 and 8.33±1.53 g/dl respectively) while the men value rats fed 5% Samh and rats fed 5% Samh and HL diet were the highest (10.25±1.71 and 10.00±1.41 g/dl respectively). In parallel with albumin results the mean value of serum total protein of rats fed 15% Samh and HL diet were the lowest (61.67±6.66 and 60.75±4.86 g/dl respectively) while the mean value of rats fed 5% Samh, 15% Samh and HL diet and 5% Samh and HL diet (68.50±1.00, 68.25±2.87 and 68.00±1.41 g/dl respectively) were the highest. Finally the mean value of total bilirubin of rats fed 15% Samh and HL diet was the lowest (1.50±0.58 mg/dl) while the mean value of rats fed HL diet was the highest (2.73±0.64 mg/dl).
Table 2: | Proximate chemical composition of Samh seeds flour (g/dry weight) |
SD: Standard Deviation*Calculated by difference |
Table 3: | Mean and standard deviation of weight and food intake of studied rats |
SD: Standard DeviationHL: HyperlipidemicNS: Not Significant*p<0.05 and **p<0.01 |
Table 4: | Mean and standard deviation of serum glucose, bun, creatinine, albumin, total protein, total bilirubin of studied rats |
NSn: number of rats, SD: Standard DeviationHL: HyperlipidemicNS: Not Significant*p<0.05 and **p<0.01 |
Results of Table 5 shows that the mean values of serum cholesterol of rats fed 15% Samh and control group (1.70±0.30 and 1.76±0.17 mg/dl respectively) were the lowest, while the other values were similar and ranged from 2.13±0.47 of rats fed HL diet to 2.18±0.34 or rats fed 5% Samh and HL diet. In addition the triglycerides values of rats fed 15% Samh was the lowest (0.76±0.14 mg/dl) while the mean values of rats fed 5% Samh and 5% Samh and HL diet (1.35±0.52 and 1.31±0.09 mg/dl respectively) were the highest. The results of the same table showed that, in parallel with serum cholesterol level, the HDLc of control group and rats fed 15% Samh were the lowest (0.35±0.04 and 0.47±0.10 mg/dl respectively), while the values of rats fed 5% Samh and HL diet was the highest (0.60±0.11 mg/dl). Furthermore, the values of VLDLc of rats fed 15% Samh and HL diet were the lowest (0.15±0.03 and 0.18±0.13 respectively mg/dl), while the other values ranged from 0.23±0.16 mg/dl to 0.27±0.10 mg/dl. Although the data of LDLc seemed inconsistent, but it revealed that rats fed 15% Samh had the lowest value (1.08±0.20 mg/dl), while the higher values was observed among rats fed HL diet (1.46±0.54 mg/dl).
Results of Table 6 shows that the mean values of serum calcium of rats fed 15% Samh and 5% Samh and HL diet were slightly the highest (2.49±0.11 and 2.39±0.09 mg/dl respectively), while the other values were ranged from 2.15±0.35 mg/dl of rats fed HL diet to 2.27±0.10 mg/dl or rats fed 15% Samh. Regarding serum iron, the results showed that rats fed 15% Samh either alone or with HL diet had the highest values (32.67±2.08 and 32.25±5.62 mcg/dl respectively), while the mean values of control group and rats fed 5% Samh and HL diet was the lowest (24.0±8.80 mcg/dl and 24.25±3.86 mcg/dl respectively).
The results revealed that the seeds of Samh is rich in protein and therefore could be considered as a promise source for protein especially in developing countries as mentioned by Al-Jasser et al., 1995 and Al-Drewish, 2005. Moreover, some researchers like Mustafa et al., 1995, used Samh flour in bakery products and bread. Our results demonstrated that the lowest the intake from Samh the lower the blood glucose concentration, where the values of serum glucose of rats fed 5% Samh were the lowest, on the other hand the value of rats fed 15% Samh was the highest.
Table 5: | Mean and standard deviation of weight and food intake of studied rats |
SD: Standard DeviationHL: HyperlipidemicNS: Not Significant*p<0.05 and **p<0.01 |
Table 6: | Mean and standard deviation of weight and food intake of studied rats |
SD: Standard DeviationHL: HyperlipidemicNS: Not Significant*p<0.05 and **p<0.01 |
However it is documented that dietary fibers decrease blood glucose and according to Najib et al., 2004, the Samh seeds are rich in dietary fiber (10.6%). But this role of dietary fibber wasn't ascertain in Samh seeds where the lower amount intake had favourable effect than higher amounts. In parallel the lower amounts intake from Samh seeds had favourable decrement effects on BUN. On the other hand the higher intakes from Samh seeds decrease the concentration of serum creatinine albumin and total protein. However, these inconsistent results could be attributed to its content from anti nutritional factors that may have negative effect on albumin and total protein.
the results illustrated that higher intakes from Samh seeds decreased concentration of serum cholesterol, triglycerides and LDLc even with high intake from dietary fats and cholesterol. These findings could be attributed to the amount of dietary fiber occurred in Samh seeds. Where numerous studies (like Haidong et al., 2007 and Newby et al., 2007) proved that dietary fiber decrease the blood lipids among normal and hyperlipidemic patients.
Finally, the higher the intake from Samh seeds-even with HL diet-the higher the serum concentration of calcium and iron.
Conclusion: It could be concluded from this study that Samh seeds is rich source for protein and could be used for producing high protein bakery products. Also, the high intake from Samh seeds decreased glucose, cholesterol, triglycerides and LDLc concentration in serum even with high dietary intake from fats and cholesterol. However, more researches are needed to clarify the effect of Samh seeds on human health.