海藻酸钠在维生素C磷酸酯钙生产中的妙用

海藻酸钠在维生素C磷酸酯钙的生产中,能起到很好的乳化、成粒作用;在喷雾干燥前,特别是在采用喷雾塔干燥前,添加相当于反应液体干物质重量的180mg/kg海藻酸钠,不但能显著延长凝聚时间,还能提高产品收率。

海藻酸钠在维生素C磷酸酯钙生产中的运用

海藻酸钠在维生素C磷酸酯钙的生产中，能起到很好的乳化、成粒作用；在喷雾干燥前，特别是在采用喷雾塔干燥前，添加相当于反应液体干物质重量的180mg／kg海藻酸钠，不但能显著延长凝聚时间，还能提高产品收率。

不饱和聚磷酸酯/β-磷酸三钙复合材料修复骨缺损的实验研究

目的观察以不饱和聚磷酸酯(UPPE)/β-磷酸三钙(β-TCP)制备的复合材料对骨缺损的修复效果。方法利用溶液浇铸法技术制备UPPE/β-TCP复合材料。将36只新西兰大白兔随机等分为两组,手术造成右股骨髁部腔洞状直径8mm骨缺损,实验组植入直径8mm复合材料,对照组作空白对照。通过影像学、组织学、图像分析技术观察骨缺损的修复效果及材料的降解情况。结果影像学结果表明,实验组术后8周新生骨痂将缺损修复,术后16周骨痂塑形良好;对照组术后16周内均无骨痂形成,缺损未修复。组织学显示,实验组术后8周复合材料降解成较大的数块,有新骨形成;术后16周正常骨与材料之间形成贯通的髓腔;对照组为少量纤维组织连接。术后8周和16周材料降解率分别是30.3%和52.2%。结论以不饱和聚磷酸酯/β-磷酸三钙制备的骨修复材料对骨缺损具有良好的修复作用。

钙调磷酸酯酶Calcineurin在控制马尔尼菲篮状菌无性发育、极性生长、压力应激中的作用研究

目的明确钙调磷酸酯酶calcineurin调节亚基编码基因(cnaB)及催化亚基编码基因(cnaA)在马尔尼菲篮状菌无性发育、极性生长、压力应激的作用。方法与母本FRR2161(wild-type)对比,观察cnaB基因敲除株(ΔcnaB)、cnaA基因敲除株(ΔcnaA)在25℃、37℃的生长、形态发生及压力应激变化。结果ΔcnaB敲除株、ΔcnaA敲除株在无性发育、极性生长、压力应激均存在严重缺陷;ΔcnaA在细胞溶解分离、压力应激表现出更严重缺陷。结论cnaB、cnaA对马尔尼菲篮状菌无性发育、极性生长、压力应激均发挥着重要功能;但cnaA在细胞溶解分离、氧化应激、盐应激等表现出更为重要的调控作用。

iPLA2β通过调控铁死亡减轻高糖诱导的人肾小管上皮细胞损伤

目的探讨钙离子非依赖型磷酸酯酶A2β(iPLA2β)在高糖诱导的人肾小管上皮细胞(HK-2细胞)中的表达,iPLA2β与铁死亡的关系以及iPLA2β对高糖诱导的HK-2细胞损伤的保护机制。方法用30 mmol/L葡萄糖刺激HK-2细胞,iPLA2β质粒转染构建过表达模型,铁死亡抑制剂Ferrostatin-1(Fer-1)和铁死亡激活剂erastin作为铁死亡对照组。干预36 h后,试剂盒检测细胞内超氧化物歧化酶(SOD)、丙二醛(MDA)、铁含量,DCF免疫荧光检测细胞内活性氧(ROS)水平。Western blot法检测铁死亡指标ACSL4、GPX4、LPCAT3、TFR1的表达。结果高糖刺激可以降低HK-2细胞内iPLA2β的表达,HK-2细胞内ROS、MDA水平升高,GSH、SOD水平降低。Western blot结果显示ACSL4、LPCAT3、TFR1表达增高,GPX4表达降低。Fer-1干预后上述指标改善。过表达iPLA2β后,可降低KIM-1表达,减轻HK-2细胞损伤。进一步研究发现,过表达iPLA2β后可抑制高糖诱导的HK-2细胞的氧化应激和铁死亡。另外,erastin减弱了iPLA2β对高糖诱导的HK-2细胞损伤的保护作用。结论iPLA2β通过调控铁死亡减轻高糖诱导的HK-2细胞损伤。

不同来源和剂量维生素C对建鲤生长性能和消化功能影响的比较研究

本试验旨在研究不同来源和水平维生素C对建鲤生长性能和消化功能的影响。选用平均体重为(12.63±0.04)g的健康建鲤600尾,随机分为4组(每组设3个重复,每个重复50尾),分别饲喂添加不同来源[乙基纤维素包被维生素C(EC-AA)和维生素C磷酸酯钙盐(LAPP)]和剂量(75和150 mg/kg)的维生素C的实用饲料,试验期为8周。结果表明,饲料维生素C水平为75 mg/kg时,LAPP组建鲤在特定生长率(SGR)、摄食量(FI)、蛋白质沉积率(PPV)和脂肪沉积率(LPV)上均显著高于EC-AA组(P<0.05)。同时,LAPP饲料较EC-AA饲料显著促进建鲤肝胰脏和肠道生长发育,并显著提高肠道胰蛋白酶、糜蛋白酶和脂肪酶活性,各肠段皱襞高度,各肠段碱性磷酸酶(AKP)和γ-谷氨酰转肽酶(γ-GT)活性,前、后肠Na+,K+-ATP酶以及全肠肌酸激酶(CK)活性(P<0.05)。饲料维生素C水平为150 mg/kg时,LAPP组和ECAA组建鲤在SGR、FI、PPV和LPV上差异不显著(P>0.05),但LAPP饲料较EC-AA饲料能显著提高建鲤肠道胰蛋白酶和糜蛋白酶活性,中、后肠皱襞高度,后肠AKP、前肠Na+,K+-ATP酶和各肠段γ-GT活性(P<0.05)。由此得出,在本试验条件下,LAPP的使用效果优于EC-AA,75 mg/kg剂量下能更显著地提高建鲤生长性能和消化功能。

胆红素/HDEHP反相微乳液的制备及应用

制备了部分皂化的含胆红素 (H2 BR) /二 (2 乙基已基 )磷酸酯 (HDEHP) /氯仿 /苯 /氨水的反相微乳液 ,并通过透射电镜、电导率仪和动态激光光散射仪等对所制备的微乳液进行了表征。结果表明 ,苯和氯仿的体积比为 7∶3的混合溶液为该微乳液形成的最佳有机溶剂 ,1 0 0mol/L的氨水为最有效皂化剂 ;形成微乳液的H2 BR和HDEHP的摩尔比随 2个表面活性剂总浓度的增加而减小 ;H2 BR量的多少对微乳液内增溶的水量影响较大。微乳液内的水滴直径在 6 0～ 12 0nm范围内 ,以此微乳液作为细胞膜模拟体系 ,制备了含CaCl2 /H2 BR/HDEHP/氯仿 /苯 /氨水的新微乳液 ,并进一步诱导和调控了胆红素钙的形成 ,发生了类似生物体内的矿化过程。

格尔德霉素和环孢素联合常用抗真菌药对阿萨希毛孢子菌临床株体外药敏研究

目的研究格尔德霉素和环孢素(热休克蛋白90与钙调磷酸酯酶抑制剂)抗阿萨希毛孢子菌活性,及联合常用抗真菌药物后的体外药物敏感性。方法通过美国临床实验室标准化协会(CLSI)推荐的M27-A3肉汤稀释法检测格尔德霉素和环孢素对21株阿萨希毛孢子菌临床株的体外抗真菌活性,棋盘微量液基稀释法检测上述2种抑制剂与5种常用抗真菌药(氟康唑、伊曲康唑、伏立康唑、两性霉素B和卡泊芬净)的相互作用。结果格尔德霉素对阿萨希毛孢子菌临床株有较好的体外抗真菌活性,而环孢素作用较弱。此外,格尔德霉素和环孢素与5种常用抗真菌药联合使用,均显示具有良好的体外抗阿萨希毛孢子菌协同作用。结论格尔德霉素和环孢素可以提高常用抗真菌药对阿萨希毛孢子菌的敏感性,提示一种针对侵袭性毛孢子菌病的潜在治疗策略。

可注射牙槽骨修复材料引导牙周组织再生的动物研究

目的:建立实验动物牙周炎模型,评价含四环素的新型可注射牙槽骨修复材料用于引导牙周组织再生的实际效果。方法:选用15只雄性、健康的杂交犬,在双侧上颌尖牙的近中根面放置不锈钢网6周,建立实验动物牙周炎模型。在上颌尖牙近中牙槽骨处制作3壁骨内袋缺损,分别随机将含有1%、5%、10%四环素(TTC)的不饱和聚磷酸酯/β-磷酸三钙复合物(UPPE/β-TCP)直接注射入一侧的牙周骨缺损区(实验组),另一侧不植入任何材料(空白对照组)。术后16周处死动物,常规制备组织病理学样本,对实验组和空白对照组牙周组织的再生情况进行组织学和形态学评价,并对实验结果进行单因素方差分析和组间多重比较。结果:植入UPPE/β-TCP/TTC复合物的牙周骨缺损区内均可见新骨和新牙骨质形成等牙周组织再生现象,无明显的炎症反应,部分UPPE/β-TCP/TTC复合材料被新生骨组织所替代,且新生骨组织、新生牙骨质和新生牙周结缔组织附着宽度与空白对照组间的差异均有统计学意义(P<0.05)。结论:含TTC的新型可注射牙槽骨修复材料UPPE/β-TCP复合物可为牙周骨缺损区的愈合提供稳定的空间,并促进牙周组织的愈合,有望用于牙周组织再生治疗。

四环素控释性可注射牙槽骨修复材料的体内缓释性能评价

目的:评价新型控释性可注射牙槽骨修复材料在实验动物牙周缺损区缓释四环素的性能。方法:选用15只雄性健康杂交犬,在双侧上颌尖牙近中牙槽骨处制作三壁骨内袋缺损,分别随机将含1%、5%、10%四环素(TTC)的不饱和聚磷酸酯/β-磷酸三钙复合物(UPPE/β-TCP)直接注射入其中一侧的牙槽骨缺损区内(UPPE/β-TCP/TTC(1%)组、UPPE/β-TCP/TTC(5%)组和UPPE/β-TCP/TTC(10%)组)。于术后第3、7、14 d用滤纸提取术区的龈沟液,使用高效液相色谱法测定各组TTC的含量,对实验结果进行单因素方差分析和组间多重比较。结果:在第3、7、14 d时,三组的龈沟液TTC浓度均高于抑制牙周主要致病菌所需要的TTC最低抑菌浓度,在第7 d和第14 d时各组材料缓释四环素量的差异无统计学意义(P>0.05)。结论:含1%TTC的新型控释性可注射牙槽骨修复材料UPPE/β-TCP复合物在实验动物体内有较好的药物缓释性能,能够有效地抑制牙周致病菌,防止牙周炎的复发。

Repair of the radial defect of rabbit with polyester/tricalcium phosphate scaffolds prepared by rapid prototyping technology

Objective： To evaluate the effects of repairing rabbit radial defects with polyester/tricalcium phosphate scaffolds prepared by rapid prototyping technology loaded with bovine bone morphogenetic protein （ bBMP）, and find new carriers for growth factors. Methods： Polyester/tricalcium phosphate scaffolds prepared by rapid prototyping technology loaded with and without bovine BMP were used to repair the 15 mm radial defect in rabbit. Then the results of radiography, histology, scaffolds degrade rates and bone mineral density （BMD） were appraised to examine the effects at the 12th week. Results ： At the 12th week postoperatively, all defects treated with bBMP were radiographically repaired. No radius implanted polyester/tricalcium phosphate scaffolds without bBMP showed radiographic and histological union. At experimental groups, longitudinal alignment of lamellar structure was observed histologically at the 12th week,indicating that remodeling of regenerated bone was complete in different degree. Of the three experimental groups, the bony regeneration and remodeling of callus in poly lactide-co-glycolide/tricalcium phosphate （PLGA/ TCP） group was the best. The BMD values were beyond 70% of normal value at the 12th week while the PLGA/ TCP scaffolds group was the highest, and no abnormalities were observed in the surrounding soft tissue in all groups. Conclusions - Polyester/tricalcium phosphate scaffolds prepared by rapid prototyping technology loaded with bovine BMP can repair a 15 mm radial defect of rabbit. As for the results, the PLGA/TCP scaffold is ideal and better than poly L-lactide-co-D, L-lactide （ PDLLA/TCP ） scaffold, but the ploy L-lactic acid （PLLA/TCP） is not so good for its low degradation rates.

Preparation and degradation characteristic study of bone repair composite of DL-polylactic acid/hydroxyapatite/decalcifying bone matrix

To explore the preparative method an d study the degradation characteristics of bone repair composite of DL polylac tic acid (PDLLA)/hydroxyapatite(HA)/decalcifying bone matrix (DBM) in vitro. Methods: An emulsion blend method was developed to prepare the composite of PDLLA/HA/DBM in weight ratio of PDLLA:HA:DBM= 1.5 2 : 1 1.5 : 1. The dynamic changes of weight, biomechanical property and pH value of PDLLA/ HA/DBM and PDLLA in phosphate buffered saline (PBS, pH 7.4 ) were studied re spectively through degradation tests in vitro. Results: Without being heated, PDLLA, HA and DBM could be synt hesized with the emulsion blend method as bone composite of PDLLA/HA/DBM, which had both osteoconductive and osteoinductive effects. The diameter of the apertu re was 100 400 μm and the gap rate was 71.3 %. During degradation, the pH v alue of PDLLA solution decreased lightly within 2 weeks, but decreased obviously at the end of 4 weeks and the value was 4.0 . While the pH value of PDLLA/H A/DBM kept quite steady and was 6.4 at the end of 12 weeks. The weight of PDLLA changed little within 4 weeks, then changed obviously and was 50% of its initia l weight at the end of 12 weeks. While the weight of PDLLA/HA/DBM changed little within 5 weeks, then changed obviously and was 60% of the initial weight at the end of 12 weeks. The initial biomechanical strength of PDLLA was 1.33 MPa, decreased little within 3 weeks, then changed obviously and kept at 0.11 MP a at the end of 12 weeks. The initial biomechanical strength of PDLLA/HA/DBM was 1.7 MPa, decreased little within 4 weeks, then changed obviously and kept at 0.21 MPa at the end of 12 weeks. Conclusions: The emulsion blend method is a new method to prepa re bone repair materials. As a new bone repair material, PDLLA/HA/DBM is more su itable for regeneration and cell implantation, and the environment during its de gradation is advantageous to the growth of bone cells.