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Anthropometric dimensions are basis for evaluation of newborns’ health. In respect of importance of anthropometric indices of head and face in forensic medicine, surgery, pediatrics, medical imaging, … . We achieved this study. Determining range of head and face dimensions in normal one-day old female newborns on Fars and Turkman races. This descriptive and cross-sectional study is achieved on 423 normal one-day old newborns (Turkman group: N=211, Fars group: N=212) by classic cephalometry method. Mean and standard deviation of cephalic and prosopic indices in Fars group were 78.63±4.7, 74.3±11.5 and in Turkman group were 77.85±8.7, 81.6±9.8 respectively. Dominant and rare types of heads in Fars group were mesocephalic (42%) and hyperbrachycephalic (9%) and in Turkman group were mesocephalic (39%) and hyperbrachycephalic (8%) respectively. Dominant and rare types of face in Fars group was hypereuriprosopic (71%) and hyperleptoprosopic (4.24%) and in Turkman group were mesoprosopic (39%) and hyperleptoprosopic (1.89%) respectively. This study determines the types of head and face in normal female newborns in Fars and Turkman groups and determines the effects of racial factor on the diversity of head and face shapes in normal newborns.

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Background&Objective: It is natural that there is close relationship between cranial capacity, and the size of brain, several studies have estimated the cranial capacity which indirectly reflects the brain volume in different countries. In the present study cranial capacity has been estimated in Turkman’s 17-20 years old group in North of Iran. Materials&Methods: This study was carried out on 401 normal 17-20 years old (male 198, female 203) in South-East of Caspian Sea border (North of IRAN). By using linear dimensions of the head (Using Lee- Pearsom's Formula). Results: The mean and SD of cranial capacity in males and females were 1420.6±85 ml and, 1227.2±120 ml, respectively, this difference was significant (P<0.05). Conclusion: This investigation was shown that the cranial capacity is higher in male than female also racial and Geographical factors can affect on cranial capacity.

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Background&Objective: The evaluation and measurement of human body dimensions are achieved by physical anthropometry. Cephalomerty is a branch of antrompometry Science, in which the head and face anatomical are measured. With respect to its importance in legal medicine, plastic surgery, radiology, anatomy, orthodency and industry, this study was set up to determine and compare the face shapes in Fars and Turkman ethnic groups of normal female adults. Materials&Methods: This study was a descriptive-and cross-sectional study which was carried out on 410 girls of 17-20 years of age in two ethnic groups of native Fars and Turkman. The length and width of girls face were determined by using classic cephalometry techniqre. On the basis of this method, the shape of faces was subdivided in five interrational groups. Subsequently the prevalancy and the shape of faces in the ethnic group of Fars and Turkman were compared. Results: The prosopic (facial) indices of Fars and Turkman groups were 84.55.8 and 81.55.2, respectively. Dominant shape of face in Fars group was euryprosopic (37.7%) and in Turkman group was euryprosopic (51.7%). Rare shape of face in Fars and Turkman groups were hyperleptoprosopic (5.8%) and leptoprosopic (3%) respectively. Conclusion: This study showed that the face shape is affeiced by ethnical factor and primarily by genetic factor.

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Background & Objective: We have two areas in gluteal region for intramuscular injection‚ Ventrogluteal and Dorsogluteal. This study was done to compare pain intensity and bleeding rate after injection in Ventrogluteal and Dorsogluteal area.

 

Materials & Methods: This clinical trial study was done on 67 males in 5th Azar hospital in Gorgan north of Iran. Patients had 2 injections during 24 hours. For every patient one injection was done in Dorsogluteal area and the second injection was done in Ventrogluteal area. For every patients the pain intensity and rate of bleeding for every injections recorded. Data analyzed by SPSS-11.5 software and Kolmogorov-Smirnov and Wilcoxon tests.

 

Results: In Dorsogluteal area 83.5% of patients had a low and medium pain‚ where as in Ventrogluteal area 88% of patients had a low and medium pain and 9% of them had not any pain. The Mean±SD of pain intensity in Dorsogluteal area was 50.79±1.682 and in Ventrogluteal was 40.79±1.878. The Mean±SD of bleeding in Dorsogluteal and Ventrogluteal areas were 0.73±0.102 and 0.19±0.047 respectively. There were significant differences in pain intensity and bleeding between two groups (P<0.05).

 

Conclusion: We concluded that the injection in Ventrogluteal area has a less pain and bleeding rate in comparison with Dorsogluteal area.

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Background & Objective: In addition to pyramidal neurons and interneurons, the hippocampus contains Astrocytes that play important roles in regulating ion flux currents, energy production, neurotransmitter release and memory. Learning needs some instrument for information storage and information maintenances mechanisms resemble to memory. The aim of this study was determination of spatial memory effect on the number of astrocytes in rat’s hippocampus. Materials & Methods: In this experimental study, with usage of Morris Water Maze and Reference memory technique, we used 10 male albino wistar rats. 5 rats were in control group and 5 rats in Reference memory group. After histological preparation, the slides were stained with PTAH staining for showing the Astrocytes. Results: The findings of this study showed significant difference in astrocytes number in CA1, CA2 and CA3 area of hippocampus between control and reference memory group. The mean and SD of astrocytes in CA1, CA2 and CA3 of reference memory group were 118.57±25.29, 58.91±23.59 and 116.6±31.14, that they are more than control group with 49±17.29 in CA1, 48.8±25.21 in CA2 and 41.95±11.22 in CA3. Conclusion: We concluded that the number of astrocytes increased due to spatial learning (e.g. reference memory method).

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Background and Objective: Dentate gyrus is a part of hippocampal formation that plays an important role in memory and learning. Astrocytes are one of the important glial cells in nervous tissue that play a more active role in neuronal activity, including regulating ion flux currents, energy production, neurotransmitter release, and synaptogenesis. The aim of this study was to determine the spatial memory effect on the number of astrocytes in Rat’s dentate gyrus. Materials and Methods: This experimental study, was done on 18 male Wistar Rats with using Morris water maze and Reference and Working memory methods. After spatial learning the Rat's brains was carried out and histological preparation was carried out, the slices were with PTAH method. The data analyzed, using T-test and One-way ANOVA. Results: The results showed significant difference in astrocytes number in dentate gyrus area between Reference memory (300.57±5.98) and control (73.73±22.61) groups (P<0.05). The difference between working memory (375.77±4.11) and control groups was significant. Comparing two groups there was a significant difference of number of astrocytes cell between the working memory and Reference memory group (P<0.05). Conclusion: This study showed that spatial learning such as Reference memory and Working memory increase the number of astrocytes in dentate gyrus and this increase can be due to duration of learning.

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Background and Objective: Morphological alterations of hippocampus and dentate gyrus due to opium were reported in humans and animals. Also other evidences have shown that astrocytes actively participate in synaptic plasticity. This study was done to determine the conditioning place preference (CPP) on astrocytes number of Rat dentate gyrus by immunohistochemical technique.

Materials and Methods: In this experimental study, 48 male Wistar Rat weighted average 220-250 g were used. For behavioural tests, Rats divided into eight experimental groups. The Rats were received morphine at different doses (2.5, 5, 7.5 mg/kg) for three days by subcutaneous injection and sham groups, received saline dose (1 mg/kg) and then CPP test in them were investigated. 48 hours after behavioural testing animals were decapitated under chloroform anesthesia and their brains fixed and after tissue processing, slices stained with immunohistochemistery techniques. For morphometric study PTAH staining of astrocytes was used.

Results: The most dose responses of morphine was observed in 7.5mg/kg. The number of astrocytes in the controls (20.627±6.129) was similar to control-saline group (17.339±4.71). This difference was not significant, while the difference in the number of astrocytes in control group with morphine-treated experimental groups was significant (P<0.05).

Conclusion: We concluded that the phenomenon of conditioned place preference induced by morphine can cause a significant increase in the number of astrocytes of sham and experimental groups compared to controls.