复合生物杀菌剂F6-11的安全性毒理学研究

目的：为研究复合生物杀菌剂F6．11毒性,采用动物实验法进行毒理学评价。方法：对复合生物杀菌剂F6-11进行小鼠急性毒性试验、小鼠骨髓嗜多染红细胞微核试验、亚急性毒性试验、家兔多次完整皮肤刺激试验、急性眼刺激试验、豚鼠皮肤变态反应试验、鱼类延长毒性14天试验。结果：复合生物杀菌剂F6—11对小鼠急性毒性LD50〉5000mg／kg．bw,属于实际无毒级物质;小鼠微核试验该杀菌剂各剂量组与阴性对照组比较,微核率无显著性差异（P〉0．05）;亚急性毒性试验动物血常规、生化指标及各脏器均未发现异常;对家兔多次完整皮肤及眼刺激反应积分均为0,均属无刺激性;对豚鼠皮肤变态反应试验组动物与阴性对照组无可见不同．试验组动物皮肤致敏反应积分为0,无致敏作用;鱼类延长毒性14天试验无异常。结论：毒理学研究表明,复合生物杀菌剂F6．11具有良好的使用安全性。     

合浦珠母贝珍珠的生物学性能初步检测

本研究报道了合浦珠母贝珍珠的生物学性能初步检测结果。珍珠作为—种天然的生物材料。在医药、化妆品工业等领域中的应用已很广泛。本研究对合浦珠母贝珍珠进行了体外细胞毒性试验、溶血试验和经静脉全身急性毒性试验的研究。实验结果表明,合浦珠母贝珍珠具有较好的细胞相容性,其浸提液对实验动物无明显毒性。在本研究中,合浦珠母贝珍珠的浸提液对兔血红细胞的溶血指数高于对照组。     

紫茎泽兰醇提物的毒理学研究

为确保以紫茎泽兰提取物为主要原药的植物源农药的安全性,对紫茎泽兰醇提物进行了小鼠经口急性毒性试验、大白兔急性皮肤和眼刺激试验、小鼠骨髓嗜多染红细胞微核计数及小鼠精子畸形试验等急性毒性和遗传毒性试验。结果表明,受试物对两种性别的小鼠经口急性毒性试验,LD50大于5000mg／kg,对大白兔皮肤无刺激性;小鼠骨髓嗜多染红细胞微核试验及小鼠精子畸形试验结果均为阴牲,受试物未见遗传毒性。     

成团泛菌低分子脂多糖的急性毒性、刺激性、致敏性及遗传毒性评估

本研究对成团泛菌低分子脂多糖(Pantoea agglomerans lipopolysaccharide,LPSp)的安全性进行初步评估.本研究采用一次限量法,用昆明种小鼠进行LPSp急性经口毒性试验,了解LPSp的急性毒性;采用新西兰兔分别进行LPSp急性和多次皮肤刺激性试验以及急性眼刺激性试验,了解LPSp的皮肤和粘膜刺激性;采用豚鼠进行LPSp皮肤变态反应试验,了解LPSp的致敏性;应用平板掺入法进行鼠伤寒沙门氏菌/回复突变试验和小鼠骨髓细胞微核试验考察LPSp的遗传危害.急性毒性试验结果显示,LPSp对小鼠经口一次灌胃的LD50大于5 000 mg/kg体重,属实际无毒级别;LPSp急性和多次皮肤刺激性试验以及急性眼刺激性试验结果显示,皮肤刺激和眼刺激积分均为0分,LPSp对皮肤无刺激性、对眼睛无急性刺激性;在皮肤变态反应试验中,LPSp在各观察时间点的皮肤变态反应积分均为0分,其致敏率均为0%,说明LPSp对豚鼠无致敏性; LPSp的鼠伤寒沙门氏菌/回复突变试验结果呈阴性(P>0.05);LPSp的小鼠骨髓细胞微核试验结果亦呈阴性,LPSp 各剂量组的微核发生率与阴性对照组未见统计学差异(P>0.05),而与阳性对照组有明显差异(P<0.01).本研究结果表明,在本实验剂量范围内,LPSp对小鼠经口毒性极低,属实际无毒级别,对家兔皮肤和眼睛无明显刺激性,对豚鼠无致敏性,对所试菌株和小鼠体细胞无诱变性和致突变性.     

基于聚苹果酸的贻贝仿生粘合剂的制备及性能研究

目的:以实验室制得的聚苹果酸(PMLA)为高分子骨架,通过酰胺化反应将多巴胺(DA)分子连接到聚苹果酸,制得既具有良好粘合性能,又有优异生物相容性的贻贝仿生粘合剂。方法:L-天冬氨酸通过内酯开环聚合法合成高分子化合物聚苹果酸,将PMLA与DA加EDC/NHS反应得到粘合剂PMLA-DA,傅里叶变换红外光谱、核磁氢谱、紫外可见光光谱等对其进行结构表征,标准曲线法测多巴胺取代度,采用搭接剪切测试法评估粘合剂对不锈钢、玻璃、猪皮三种材质的粘合强度,MTT法检测贻贝仿生粘合剂的细胞毒性,通过降解试验验证PMLA-DA的降解性能。结果:测得PMLA-DA中多巴胺的取代度能达到21.3%,搭接剪切试验测得粘合剂对猪皮的粘合强度为22.68 kPa,高于目前市场上常用的生物医用粘合剂纤维蛋白胶15.38 kPa的粘合强度,PMLA-DA对不锈钢与玻璃亦有很好的粘合性能。细胞毒性研究和体外降解试验显示PMLA-DA无细胞毒性,降解性能良好。结论:通过聚苹果酸与多巴胺反应制得贻贝仿生粘合剂PMLA-DA,该粘合剂对多种材质均具有良好的粘合力;无细胞毒性,降解性能良好,对皮肤组织的粘合强度优于目前商用的生物粘合剂纤维蛋白胶。无论是对无机材料间的粘接,或者是医学领域的伤口粘合,均具有良好的应用前景。     

噻吩磺隆的毒性及致突变性

选用大鼠、豚鼠及家兔,采用经口及皮肤,粘膜染毒途径,研究其急性毒性。同时有Ames试验,小鼠骨髓嗜多染红细胞微核试验及小鼠睾丸初级精母细胞染色体畸变试验进行致突变性研究,了解噻吩磺隆的毒性及致突变性。大鼠急性经口LD50大于5000mg／kg,经皮LD50大于2000mg／kg。家兔皮肤刺激试验阴性,轻度眼刺激性和弱致敏性。Ames试验,微核试验及小鼠睾丸初级精母细胞染色体畸变试验结果均为阴性。结论 噻吩磺隆属低毒性农药,在本实验条件下无致突变作用。     

以聚γ-谷氨酸为材质研制微胶囊的工艺

微胶囊制剂能够利用壁材将囊芯物质包裹起来,减少外界环境的不良因素对其造成的影响,但存在产品残效期和速效性的矛盾、成本过高等问题。聚γ-谷氨酸具有成膜性,可生物降解。本文通过自制的枯草芽胞杆菌聚γ-谷氨酸,对开发聚γ-谷氨酸微胶囊的工艺展开研究。对壁材浓度、搅拌转速、反应温度、聚γ-谷氨酸∶明胶质量比、菌悬液体积和甲醛的用量进行优化,建立了聚γ-谷氨酸微胶囊制备工艺,微胶囊对枯草芽胞杆菌的包埋率达到94.2%。同时考察了微胶囊制剂对热、紫外线和极端pH的抗逆性,结果表明聚γ-谷氨酸-明胶微胶囊能赋予微生物细胞更强的抗紫外能力和耐热性。在极端pH条件下热处理,聚γ-谷氨酸-明胶微胶囊剂中枯草芽胞杆菌的存活率也显著提高。     

令肤适洗液皮肤和阴道局部毒性研究

目的评价令肤适皮肤和阴道局部使用的安全性。方法采用皮肤急性毒性、皮肤刺激、皮肤过敏、阴道急性毒性和阴道刺激等试验方法。结果未见令肤适具有皮肤毒性、皮肤刺激作用和明显的阴道急性毒性反应;在阴道刺激试验中低剂量未引起阴道明显的刺激反应,高剂量可引起阴道粘膜炎细胞浸润、淤血、出血及溃疡等病理变化。结论令肤适皮肤使用较安全,阴道使用浓度不宜过高。     

蛙凝素修饰聚谷氨酸纳米粒的制备、表征及Calu-3细胞摄取研究

目的:考察蛙凝素(Odorranalectin,OL)修饰对聚谷氨酸苄酯-聚乙二醇纳米粒(PBLG-PEG-NPs)材料的Calu-3细胞(人肺腺癌细胞)毒性和细胞摄取作用的影响。方法:碘氧化法制备蛙凝素修饰聚合物材料;以姜黄素(curcumin,Cur)为模型药物,采用乳化溶媒蒸发法制备聚谷氨酸苄酯-聚乙二醇纳米粒(PBLG-PEG-NPs)和蛙凝素修饰聚谷氨酸苄酯-聚乙二醇纳米粒(OL-PBLG-PEG-NPs);MTT法考察三种纳米粒对Calu-3的细胞毒性;采用激光共聚焦显微镜对两种纳米粒的Calu-3细胞摄取作用进行定性观察。结果:给予高浓度(2 mg·mL-1)纳米粒培养Calu-3细胞时,细胞存活率大于75%。蛙凝素修饰纳米粒后其被细胞摄取的量从62.7%增加到了81.2%。结论:OL可用于黏膜给药载体的修饰,OL-PBLG-PEG-NPs细胞毒性低、生物相容性好,有望成为一种鼻腔粘膜给药优良载体。     

一种新型瓷嵌体修复用树脂粘接材料生物安全性评价

目的:初步评价一种新型瓷嵌体修复用树脂粘接材料的生物安全性。方法:按照国标GB16886.5-1997,医药行业标准YY/T0268-2001、YY/T0279-1995、以及YY/T 0244-1996所规定的方法对本院材料科新研制的复合树脂粘接材料的生物安全性进行评价,内容包括短期急性全身毒性试验,粘膜刺激实验,细胞毒性试验。结果:此种新型瓷嵌体修复用树脂粘接材料无细胞毒性,无短期全身毒性,对口腔黏膜无刺激。结论:此种新型瓷嵌体修复用树脂粘接材料具有良好的生物安全性,可以进行进一步安全性检测。     

The properties of gelatin-poly (gamma-glutamic acid) hydrogels as biological glues

The influence of the molecular weight and the type of gelatin (A or B), as well as the molecular weight of poly (gamma-glutamic acid) (gamma-PGA), on the properties of gelatin/gamma-PGA mixed bioadhesives were studied. The gelation of the system was enhanced by a crosslinker, 1-(3-dimethylaminopropyl)-3-(ethylcarbodiimide) hydrochloride (EDC). The gelation time of the bioadhesives was analyzed using rheological measurements. The results indicated that the type of gelatin was a critical factor in determining the gelation time of the biological glues. The mixed glues had greater bonding strength and smaller gelation times as the molecular weight of gamma-PGA or gelatin increased. The swelling ratio decreased and the denaturation temperature increased upon raising the EDC concentration, indicating a greater degree of crosslinking at higher EDC concentrations. The mixed glues crosslinked with various concentrations of EDC (1.7-2.5%) showed no cytotoxicity to fibroblasts. In addition, no significant inflammatory response was observed in the rat subcutaneous implantation. The bioadhesives based on gelatin/gamma-PGA remained at the site for 7 days while the fibrin glue had almost completely degraded. By choosing the appropriate gelatin type and higher molecular weight gamma-PGA in the mixtures, the gelatin/gamma-PGA biological glues could serve as soft tissue adhesives. Rheological characterization was essential in the evaluation of biological glues.     

Calcium-alginate gel bead cross-linked with gelatin as microcarrier for anchorage-dependent cell culture

Valuable products obtainedfrom the cultivation of anchorage-dependent mammalian cells require large-scale processes to obtain commercially useful quantities. It is generally accepted that suspension culture is the ideal mode of operation. Because anchorage-dependent cells need surfaces to be able to attach and spread, the incorporation of microcarriers to suspension culture is indispensable. Since the dextran-based microcarrier wasfirst introduced, many different types of microcarriers have been developed and commercialized. In this study, alginate-based microcarriers were made in the following order: (i) calcium-alginate gel beads prepared by dropping a blend of sodium alginate and propylene glycol alginate (PGA) into calcium chloride solution, (ii) the PGA section of gel beads cross-linked with gelatin in alkaline solution (i.e., via the transacylation reaction between the ester group of PGA and amino group of gelatin), and (iii) gelatin membrane around the beads further cross-linked by glutaraldehyde. The glutaraldehyde-treated gelatintransacylated PGA/alginate microcarrier showed superior features in high stability under phosphate-containing solution, density close to that of culture medium, and transparency. Moreover, the Chinese hamster ovary CHO-KI and amphotropic retrovirus producer PA317 cells cultivated on the newly synthesized microcarriers exhibited similar growth kinetics of these two types of cell lines cultured on commercial polystyrene microcarriers. However, cell morphology was easily monitored on the transparent microcarriers made in this study.     

Dextran and gelatin based photocrosslinkable tissue adhesive

A two-component tissue adhesive based on biocompatible and bio-degradable polymers (oxidized urethane dextran (Dex-U-AD) and gelatin) was prepared and photocrosslinked under the ultraviolet (UV) irradiation. The adhesive could adhere to surface of gelatin, which simulated the human tissue steadily. The structures of above Dex-U-AD were characterized by FTIR, (1)H NMR spectroscopy and XRD. The adhesion property of result products was evaluated by lap-shear test. The maximum adhesion strength could reach to 4.16±0.72MPa which was significantly higher than that of fibrin glue. The photopolymerization process of Dex-U-AD/gelatin was monitored by real time infrared spectroscopy (RTIR). It took less than 5min to complete the curing process. The cytotoxicity of Dex-U-AD/gelatin also was evaluated which indicated that Dex-U-AD/gelatin gels were nontoxic to L929 cell. The relationship between all the above-mentioned properties and degree of oxidization of Dex-U-AD was assessed. The obtained products have the potential to serve as tissue adhesive in the future.     

Detoxification Processes from Vanadate at the Root Apoplasm Activated by Caffeic and Polygalacturonic Acids

In the root apoplasm, V(V) and V(IV) toxicity can be alleviated through redox and complexation reactions involving phenolic substances and the polyuronic components. In such context we report the role of polygalacturonic acid (PGA) on the reducing activity of caffeic acid (CAF) towards V(V). The redox reaction was particularly effective at pH 2.8 leading to the formation of oxidation products with redox activity towards V(V). An o-quinone was identified as the first product of the reaction which is further involved in the formation of CAF dimers. At pH ≥ 3.6 the redox activity decreased and a yield in V(IV) equal to 38, 31, 21 and 14% was found at pH 3.6, 4.0. 5.0 and 6.0 respectively compared with that obtained at pH 2.8. The redox reaction was faster in the presence of PGA and a higher yield of V(IV) was found in the 4.0–6.0 pH range with respect to the CAF-V(V) binary system. The higher efficiency of the redox reaction in the presence of PGA was related with the ability of PGA to bind V(IV). The biological significance of the redox reaction between CAF and V(V), as well as the role of PGA in such reaction, was established “in vivo” using triticale plants. Results showed that PGA reduced significantly the phytotoxic effects of the V(V)-CAF system.     

Evaluation of long-term occupational exposure to styrene vapor on olfactory function

The primary sensory neurons of the olfactory system are chronically exposed to the ambient environment and may therefore be susceptible to damage from occupational exposure to many volatile chemicals. To investigate whether occupational exposure to styrene was associated with olfactory impairment, we examined olfactory function in 2 groups: workers in a German reinforced-plastics boat-manufacturing facility having a minimum of 2 years of styrene exposure (15-25 ppm as calculated from urinary metabolite concentrations, with historical exposures up to 85 ppm) and a group of age-matched workers from the same facility with lower styrene exposures. The results were also compared with normative data previously collected from healthy, unexposed individuals. Multiple measures of olfactory function were evaluated using a standardized battery of clinical assessments from the Monell-Jefferson Chemosensory Clinical Research Center that included tests of threshold sensitivity for phenylethyl alcohol (PEA) and odor identification ability. Thresholds for styrene were also obtained as a measure of occupational olfactory adaptation. Styrene exposure history was calculated through the use of past biological monitoring results for urinary metabolites of styrene (mandelic acid [MA], phenylglyoxylic acid [PGA]); current exposure was determined for each individual using passive air sampling for styrene and biological monitoring for styrene urinary metabolites. Current mean effective styrene exposure during the day of olfactory testing for the group of workers who worked directly with styrene resins was 18 ppm styrene (standard deviation [SD] = 14), 371 g/g creatinine MA + PGA (SD = 289) and that of the group of workers with lower exposures was 4.8 ppm (SD = 5.2), 93 g/g creatinine MA+PGA (SD = 100). Historic annual average exposures for all workers were greater by a factor of up to 6x. No differences unequivocally attributable to exposure status were observed between the Exposed and Comparison groups or between performance of either group and normative population values on thresholds for PEA or odor identification. Although odor identification performance was lower among workers with higher ongoing exposures, performance on this test is not a pure measure of olfactory ability and is influenced by familiarity with the stimuli and their sources. Consistent with exposure-induced sensory adaptation, however, elevated styrene thresholds were significantly associated with higher occupational exposures to styrene. In summary, the present study found no evidence among a cross-section of reinforced-plastics workers that current or historical exposure to styrene was associated with a general impairment of olfactory function. When taken together with prior studies of styrene-exposed workers, these results suggest that styrene is not a significant olfactory toxicant in humans at current exposure levels.     

Rejoining of cut wounds by engineered gelatin–keratin glue

Background

Rejoining of cut tissue ends of a critical site challenges clinicians. The toxicity, antigenicity, low adhesive strength, flexibility, swelling and cost of the currently employed glue demands an alternative. Engineered gelatin–keratin glue (EGK-glue) described in the present study was found to be suitable for wet tissue approximation.

Methods

EGK-glue was prepared by engineering gelatin with caffeic acid using EDC and conjugating with keratin by periodate oxidation. UV–visible, ¹H NMR and circular dichroism analyses followed by experiments on gelation time, rheology, gel adhesive strength (in vitro), wet tissue approximation (in vivo), H&E staining of tissue sections at scheduled time intervals and tensile strength of the healed skin were carried out to assess the effectiveness of the EGK-glue in comparison with fibrin glue and cyanoacrylate.

Results

Results of UV–visible, NMR and CD analyses confirmed the functionalization and secondary structural changes. Increasing concentration of keratin reduces the gelation time (< 15 s). Lap-shear test demonstrates the maximum adhesive strength of 16.6 ± 1.2 kPa. Results of hemocompatibility and cytocompatibility studies suggested the suitability of the glue for clinical applications. Tissue approximation property assessed using the incision wound model (Wistar strain) in comparison with cyanoacrylate and fibrin glue suggested, that EGK-glue explicitly accelerates the rejoining of tissue with a 1.86 fold increase in skin tensile strength after healing.

Conclusions

Imparting quinone moiety to gelatin–keratin conjugates through caffeic acid and a weaker oxidizing agent provides an adhesive glue with appreciable strength, and hemocompatible, cytocompatible and biodegradable properties, which, rejoin the cut tissue ends effectively.

General significance

EGK-glue obtained in the present study finds wide biomedical/clinical applications.     

Hydrogel coated monoliths for enzymatic hydrolysis of penicillin G

The objective of this work was to develop a hydrogel-coated monolith for the entrapment of penicillin G acylase (E. coli, PGA). After screening of different hydrogels, chitosan was chosen as the carrier material for the preparation of monolithic biocatalysts. This protocol leads to active immobilized biocatalysts for the enzymatic hydrolysis of penicillin G (PenG). The monolithic biocatalyst was tested in a monolith loop reactor (MLR) and compared with conventional reactor systems using free PGA, and a commercially available immobilized PGA. The optimal immobilization protocol was found to be 5 g l(-1) PGA, 1% chitosan, 1.1% glutaraldehyde and pH 7. Final PGA loading on glass plates was 29 mg ml(-1) gel. For 400 cpsi monoliths, the final PGA loading on functionalized monoliths was 36 mg ml(-1) gel. The observed volumetric reaction rate in the MLR was 0.79 mol s(-1) m(-3) (monolith). Apart from an initial drop in activity due to wash out of PGA at higher ionic strength, no decrease in activity was observed after five subsequent activity test runs. The storage stability of the biocatalysts is at least a month without loss of activity. Although the monolithic biocatalyst as used in the MLR is still outperformed by the current industrial catalyst (immobilized preparation of PGA, 4.5 mol s(-1) m(-3) (catalyst)), the rate per gel volume is slightly higher for monolithic catalysts. Good activity and improved mechanical strength make the monolithic bioreactor an interesting alternative that deserves further investigation for this application. Although moderate internal diffusion limitations have been observed inside the gel beads and in the gel layer on the monolith channel, this is not the main reason for the large differences in reactor performance that were observed. The pH drop over the reactor as a result of the chosen method for pH control results in a decreased performance of both the MLR and the packed bed reactor compared to the batch system. A different reactor configuration including an optimal pH profile is required to increase the reactor performance. The monolithic stirrer reactor would be an interesting alternative to improve the performance of the monolith-PGA combination.     

Biological changes observed after infusion of modified gelatin in women who had cesarean sections]

We suggest to study some biologic parameters after perfusion by 1,000 ml modified gelatin to young women who have a caesarian operation. The level of gelatin is determined by previously proposed method. Gelatin is also revealed at electrophoresis. Concurrently, protein contents in sera and hematocrit are estimated. These investigations are also made at the same time for a reference population who has a ceasarian operation without perfusion of gelatin. The highest level of gelatin is reached at t(0) + 90 mn. Gelatin is not present in sera at t(0) + 6 hr. At electrophoresis the beta-globulins raise concurrently with the level of gelatin. The alpha-globulins decrease but that variation is small and later. Protein level decreases also in conjunction with hematocrit. Hematocrit value is about 30 p. cent. It seems to the authors that this value allows a better oxygen transmission to tissues. For reference population these biologic parameters are not modified.     

Application of bovine pituitary extract and polyglycolide/poly(lactide-co-glycolide) scaffold to the cultivation of bovine knee chondrocytes

In vitro cultivation of primary bovine knee chondrocytes (BKCs), using bovine pituitary extract (BPE) and porous scaffolds composed of polyglycolide (PGA) and 85/15 poly(lactide-co-glycolide) (PLGA), was investigated. Here, BPE was prepared from fresh bovine pituitaries, and cylindrical PGA/PLGA scaffolds with various chemical compositions were fabricated by solvent merging/particulate leaching method. Experimental results showed that in microcarrier systems, the rate of BKC growth on PGA surfaces is faster than that on PLGA surfaces, and the decrease in the medium pH value of BKCs-adsorbed PGA particles is faster than that of BKCs-adsorbed PLGA particles. After 28-day construct cultivation, the BKC amount and the content of glycosaminoglycans and collagen per construct increased with BPE protein concentration. For a constant BPE protein concentration, a higher PGA percentage in scaffold leads to a better biological environment for the growth of BKCs and the synthesis of extracellar matrices.     

Apoptosis of human lung adenocarcinoma A549 cells induced by prodigiosin analogue obtained from an entomopathogenic bacterium Serratia marcescens

An entomopathogenic bacterial strain SCQ1 was isolated from silkworm (Bombyx mori) and identified as Serratia marcescens via 16S rRNA gene analysis. This strain produces a red pigment that causes acute septicemia of silkworm. The red pigment of strain SCQ1 was identified as prodigiosin analogue (PGA) with various reported biological activities. In this study, we found that low concentration of PGA showed significant anticancer activity in human lung adenocarcinoma A549 cells, but has little effect in human bone marrow stem cells, in vitro. By exposure to different concentrations of PGA for 24 h, morphological changes and the MTT assay showed that A549 cell line was very sensitive to PGA, with IC₅₀ value about 2.2 mg/L. Early stage of apoptosis was detected by flow cytometry while A549 cells were treated with PGA for 4 and 12 h, respectively. The proportion of dead cells was increased with treatment time or the concentrations of PGA, but it was inversely proportional to that of apoptotic cells. These results indicate that PGA obtained from strain SCQ1 induces apoptosis in A549 cells, but the molecular mechanisms of cell death are complicated, and the S. marcescens strain SCQ1 may serve as a source of the anticancer compound, PGA.