1.Computer measurement of craniofacial organs of Bulang minority in Shuangjiang county of Yunnan province
Jihua WANG ; Biao XU ; Jikang MA ; Ming LI ; Yintao WANG
Chinese Journal of Tissue Engineering Research 2006;10(37):172-174
BACKGROUND: The research group for the physical quality of minorities has performed the computer measurement of craniofacial organs in 15 minorities of Yunnan province, including Dai nationality, Yi nationality,Lagu nationality, Lisu nationality, etc., but those of Bulang nationality have not been conducted.OBJECTIVE: To completely and systematically measure the 41 items and 17 indexes of the craniofacial organs of Bulang minority in Bangbing countryside of Shuangjiang county in Lincang area.DESIGN: A cross-sectional study.SETTING: Department of Oral and Maxillofacial Surgery, Second Affiliated Hospital of Kunming Medical College.PARTICIPANTS: From May to October in 2002, 155 subjects of Bulang nationality, who were of pure blood lineage of Bulang nationality, and the three generations before whose parents were all Bulang nationality, were selected from the Bangbing countryside of Shuangjiang county in Lincang area, and they all participated in the study voluntarity, including 96 males and 59 females, and the forms and functions of their cranial and maxillofacial organs were all normal.METHODS: The subject was asked to sit up straightly, the skull was fixed with skull retention instrument, the Frankfurt horizontal plane should be parallel to the cross section, and the measurement points were marked with pen; The craniofacial images of the subject were recorded with camera at a distance of 5 m, and the images were input to the computer for later use. The self-designed video-computer measure system was adopted to measure craniofacial indexes. Judgement standards for the observed items:Besides the tab stops for distance between lip peaks, unilateral lip length,height of palpebral opening, breadth of nasal septum and nostril breadth by Xu et al, and those for frontonasal angle, nasolabial angle and nose angle by Ma et al, that for height of upper eyelid was self-designed, and the other items all referred to the requirements in Manual of Anthropometry[3] and Methods of Anthropometry.MAIN OUTCOME MEASURES: ① Forty-one measurement items:minimal malar breadth, bizygomatic breadth, interocular breadth, interpupillary distance, breadth of palpebral opening, breadth of mouth opening,distance between lip peaks, single lip length, height of palpebral opening,physiognomic frontal height, physiognomic facial height Ⅰ, physiognomic facial height Ⅱ, morphological facial height, physiognomic facial height Ⅲ,upper physiognomic facial height, nose height, lip height, whole upper lip height, whole lower lip height, height of 1/3 inferior face, chin height,height of upper eyelid, nose breadth, breadth of nasal septum, nostril breadth, breadth between two angles of jaw, external ear width, nose length, nose depth, physiognomic ear length, physiognomic eat width, frontonasal angle, nasolabial angle, nose angle, maximal head breadth, width between two traguses, maximal head length, auricular height, total head height, horizontal head circumference; ② 17 craniofacial indexes: head length breadth, head length height, head breadth height, frontoparietal breadth, physiognomic face, morphological face, upper physiognomic face,nose index, nose breadth depth, mouth index, physiognomic ear, frontal height, upper facial height, width of malar lower jaw, malar frontal breadth,craniofacial height, craniofacial breadth.RESULTS: All the 151 subjects were involved in the analysis of results.① Measurement items of craniofacial organs: Only the values of physiognomic ear length and frontonasal angle were higher in females than in males, all the other items were higher in males than in females. The statistical analysis indicated that except the items of height of upper eyelid,breadth of nasal septum, physiognomic eat width, frontonasal angle, nose angle, width between two traguses, total head height and horizontal head circumference (P > 0.05), the values of all the other items were significantly different between males and females. ② Indexes of craniofacial organs:Only the indexes of head length breadth, head breadth height, frontoparietal breadth, physiognomic face, morphological face, frontal height, width of malar lower jaw, malar frontal breadth, craniofacial height had no significant differences between males and females (P > 0.05), and the others were significantly different between males and females.CONCLUSION: Most of the 41 measurement items of craniofacial organs were higher in males than in females among the Bulang minority in Bangbing countryside of Shuangjiang county in Lincang area, and most of the 17 indexes of craniofacial organs have no significant differences.
2.Stabilization time of serum Clozapine and N-desmethylclozapine extended by refrigerated storage blood samples at a fixed volume
Tianyuan SHI ; Jikang WANG ; Hongya ZHANG ; Xinsheng GUO
Clinical Medicine of China 2009;25(6):579-581
Objective To explore the optimal storage methods to maintain serum clozapine (CZP) and N-desmethylclozapine (N-CZP) concentration in a long-term stablility. Methods Ten fresh clinical blood samples were collected, and each sample's serum was separated at volume of 0.5 ml into five pieces of 10 ml conic glass cen-trifuge tubes with cocks; then CZP and N-CZP were beth assayed with HPLC in samples collected on sampling day, stored at 4 ℃ and -20 ℃ for 12 weeks and 24 weeks,respectively. Results There was no significant difference in CZP among samples stored at 4 ℃ for 12 weeks[(525.1±124.3) μg/L] ,at -20 ℃ for 12 weeks[ (535.5± 126.7) and 24 weeks[ (532.5±126.7) μg/L] ,as well as collected on sampling day[(542.7±135.0) μg/L] (P>0.05); There was also no significant difference in N-CZP among samples stored at -20 ℃ for 12 weeks [(226.2±50. 7) μg/L] and 24 weeks[ (224.9±44.8) μg/L] and collected on sampling day[(236.9± 66.6) μL] (P>0.05). Conclusion CZP and N-CZP concentration would be maintained stable within 24 weeks under the refrigerated storage temperature of -20 ℃ at a fixed volume.
3.Berberine regulates gut microbiota and Th17/Treg balance in sleep deprived rats
Hui WANG ; Yanhe ZHANG ; Jikang YANG ; Baohui LIANG
Basic & Clinical Medicine 2017;37(6):860-864
Objective To investigate the effect of berberine on gut microbiota and T helper cell 17 (Th17), regulatory T cell (Treg) cell in sleep deprived rats.Methods SD rats were randomized into control group, model group, low-dose and high-dose group (BBR1 and BBR2, 100 mg/kg and 200 mg/kg, administrated orally).Sleep deprived rat model was established by the small-platforms-over-water method.The number of bacteria in rectum content of rat was detected.The ratio of Th17/Treg was evaluated by flow cytometry.The expression of interleukin 17 (IL-17), RAR-related orphan receptor (ROR) C, and Forkhead Box Protein P3 (Foxp3) mRNA was evaluated.Results The counting of Clostridium perfringens was elevated (P<0.05), the amount of other microbiota decreased (P<0.05), Th17/Treg ratio(P<0.05), IL-17 and RORC expression enhanced (P<0.05), Foxp3 expression decreased (P<0.05) in the gut of model rats.In contrast, treatment with berberine inhibited the proliferation of Clostridium perfringens(P<0.05), and promoted the growth of other microbiota (P<0.05), and dampened Th17/Treg ratio (P<0.05), regressed IL-17 and RORC expression, augmented Foxp3 expression.Conclusions Various doses of berberine can counteract gut microbiota imbalance and Th17/Treg imbalance induced by sleep deprivation.