Caffeine is the most commonly used psychoactive substance throughout the world. It is found in coffee, black tea, and chocolate, as it is produced naturally in the beans and leaves of the plants used to manufacture these products. This study aimed to make a survey study among children 2-11 years in some Tripoli, Libya schools to determine caffeine concentration in number of beverages and foods consumed by studied children. About 313 copies of the questionnaire were distributed to students to be filled by their parents. Caffeine was extracted from samples using dichloromethane. Purity of isolated caffeine was estimated by using TLC method.Quantitative analysis of caffeine was performed by using a UV-Visible spectrophotometer. Chocolate biscuits, chocolate cake, cocoa milk and chocolate ice cream were the highest consumed products among the studied children (81%, 79%, 67% and 63% respectively). The highest side effects of caffeine consumption was hyperactivity was the highest side effect in children (76%). Some children also suffered from severe side effects such as panic attack (14%). Naseem ice cream sample showed the highest caffeine content (28 mg/serving) among solid samples.Whereas in the beverages, energy drink samples Red pull, XIR and Shark were 268, 262 and 250 mg/serving respectively. In conclusion, there was excessive consumption of caffeine among the studied group of children and some of them showed side effects and even severe side effects. Variety of tested foods and beverages under the study contained uncontrolled concentrations of caffeine. In addition, chocolate milk (Al Rayhan), contained no caffeine. arabic 15 English 97
Sakina S. Saadawi, Khairi A. Alennabi, AMAL .A ABOALLA AMMAR, , , ٍSuhera Mehemed Abdulsalam Aburawi(9-2019)

Aims: This article aimed to study the effect of different caffeine concentrations on behaviour and motor activity of mice. Place and Duration of Study: This study took place in Faculty of Pharmacy, University of Tripoli, and was conducted between 2017 to 2018. Methodology: The experiment was carried out using 24 male mice (25-30 gm). Plus maze was used for screening antianxiety effect of caffeine. While swimming maze was used to test the antidepressant effect. Descriptive statistics was performed using SPSS (version 22), followed by one sample Kolmogorov-Simirnov test. One-Way ANOVA was applied to compare between groups and Post Hoc test (LSD). Results: At a dose of 100 mg/kg, caffeine produce significant decrease in the duration of immobility using forced swimming maze; while the lower (25 mg/kg) and the higher (200 mg/kg) doses did not produce any changes compared to the control. In plus maze, Caffeine decreases the anxiety measure at the dose used of 100 mg/kg; but did not change the anxiety measure when lower (25 mg/kg) or higher (200 mg/kg) doses used compared to the control. The spontaneous motor activity was decreased significantly after administration of the higher dose of 200 mg/kg; the lower dose (25 mg/kg) showed insignificant increase, while the dose of 100 mg/kg produce insignificant decrease in the spontaneous motor activity. Conclusion: Caffeine has dose dependent effect, in a dose 100 mg/kg it produce anxiolytic and antidepressant like action, while lower (25 mg/kg) and higher (200 mg/kg) doses did not show any changes. Caffeine also produce dose dependent decrease in the spontaneous motor activity, this indicate that caffeine produce CNS depression with higher doses. arabic 12 English 73
Sakina S. Saadawi, Khairi A. Alennabi, Sumaya Baayo, Amera Fares, Najwa Alosta, Suher M. Aburawi(3-2020)

Abstract Benzodiazepines are frequently prescribed as anxiolytics, sedatives hypnotics, and muscle relaxants as well as anticonvulsants. Non-steroidal anti-inflammatory drugs (NSAIDs) are also the most widely used for their anti-inflammatory, analgesic and antipyretic activities. Because of the chronic nature of epilepsy, NSAIDs may be used with benzodiazepines in patients with epilepsy. Therefore, there’s a probability of an interaction of NSAIDs and benzodiazepines in clinical practice. In order to study such interactions experimentally, an animal model was used. Thus, this thesis was aimed to explore pharmacological interactions between selective and non selective NSAIDs and diazepam anticonvulsant effect. Convulsion was induced in male albino mice by picrotoxin in two different doses (6 and 8 mg/kg), NSAIDs were used according to selectivity to cyclooxygenase enzyme (COX): Aspirin at 10 mg/kg (COX-1 selective inhibitor) and Aspirin at 100 and 200 mg/kg, diclofenac 10 and 20 mg/kg (non selective COX inhibitors) and celecoxib 20 mg/kg (COX-2 selective inhibitor). Diazepam at 1 and 2 mg/kg were chosen as low doses and parameters of convulsive behavior of picrotoxin deviation. psy, NSAIDs may be used with benzodiazepines in patients with epilepsy. Therefore, there’s a probability of an interaction of NSAIDs and benzodiazepines in clinical practice. In order to study such interactions experimentally, an animal model was used. Thus, this thesis was aimed to explore pharmacological interactions between selective and non selective NSAIDs and diazepam anticonvulsant effect. Convulsion was induced in male albino mice by picrotoxin in two different doses (6 and 8 mg/kg), NSAIDs were used according to selectivity to cyclooxygenase enzyme (COX): Aspirin at 10 mg/kg (COX-1 selective inhibitor) and Aspirin at 100 and 200 mg/kg, diclofenac 10 and 20 mg/kg (non selective COX inhibitors) and celecoxib 20 mg/kg (COX-2 selective inhibitor). Diazepam at 1 and 2 mg/kg were chosen as low doses and parameters of convulsive behavior of picrotoxin were observed in this thesis: onset time, episode frequency and death occurrence within post-injection of picrotoxin for 24 hrs. Aspirin in low dose (10 mg/kg) showed protection against death to about 50%. This protection which seems to be partially effective as anticonvulsant agent, however, higher dose of Aspirin (100 mg/kg) did not produce any significant change against convulsing in mice, Aspirin 200 mg/kg showed highly significant reduction of episode frequency (P < 0.001) and decreased percent of death. Furthermore, Aspirin 200 mg/kg in combination with diazepam has potentiated the effect of diazepam to complete protection against convulsion induced by picrotoxin. With respect to diclofenac, diclofenac pretreated-mice did not show any significant effect at 10 and 20 mg/kg with picrotoxin but in combination with diazepam showed significant potentiated effect of diazepam. Moreover, COX-2 inhibitor (celecoxib) alone delayed onset of convulsion without significant influence against the control but significantly decreased episodes and percent of death. Also in combination of celecoxib and diazepam, a highly potentiation of the effect and almost complete protection against convulsion behavior were noted (P < 0.001). Thus, it can be concluded that the studied NSAIDs have anticonvulsant behavior-like activity alone and in combination with diazepam. The most profound effect of anticonvulsant activity was showed in low episodes and mortality rate. In combination with diazepam, NSAIDs have more positive potential role in diazepam anticonvulsant effect. The present findings may also suggest that NSAIDs most likely COX-2 selective inhibitor is more potentiated diazepam’s anticonvulsant activity than COX-1 selective and non-selective inhibitors and such interaction could be more likely to be pharmacodynmic type.
نجمية محمد الزواوي (2014)