Risk evaluation of impurities in topical excipients:The acetol case

Pharmaceutical excipients for topical use may contain impurities, which are often neglected from a toxicity qualification viewpoint. The possible impurities in the most frequently used topical excipients were evaluated in-silico for their toxicity hazard. Acetol, an impurity likely present in different topical pharmaceutical excipients such as propylene glycol and glycerol, was withheld for the evaluation of its health risk after dermal exposure. 〈br〉 An ex-vivo in-vitro permeation study using human skin in a Franz Diffusion Cell set-up and GC as quantification methodology showed a significant skin penetration with an overall Kp value of 1.82 ？ 10 ？ 3 cm/h. Using these data, limit specifications after application of a dermal pharmaceutical product were estimated. Based on the TTC approach of Cramer class I substances, i.e. 1800 mg/（day？person）, the toxicity-qualified specification limits of acetol in topical excipients were calculated to be 90 mg/mL and 180 mg/mL for propylene glycol and glycerol, respectively.

Effects of particle size on the triboelectrification phenomenon in pharmaceutical excipients:Experiments and multi-scale modeling

Particle sizes play a major role to mediate charge transfer, both between identical and different material surfaces. The study probes into the probable mechanism that actuates opposite polarities between two different size fractions of the same material by analyzing the charge transfer patterns of two different sizes of microcrystalline cellulose(MCC). Quantum scale calculations confirmed alteration of charge transfer capacities due to variation of moisture content predicted by multiple surface and bulk analytical techniques. Discrete Element Method(DEM) based multi-scale computational models pertinent to predict charge transfer capacities were further implemented, and the results were in accordance to the experimental charge profiles.

Effect of Excipients on Stability and Structure of rhCuZn-SOD Encapsulated in PLGA Microspheres

When a protein is encapsulated into poly( DL -lactide-co-glycolide)(PLGA) microspheres by means of the double-emulsion method,the harsh microspheres formation process including ultrasonification,exposure to an organic solvent and a polymer may cause the denaturation of the protein. In this study,we investigated the enzymatic activity change and the effect of the excipients on the stability of recombinant human Cu,Zn-superoxide dismutase(rhCu,Zn-SOD) during the emulsification. The specific activity recovery was found to be concentration dependent and the excipients involved such as PEG 600 and Tween 20,and trehalose were shown to increase the stability of rhCu,Zn-SOD. The protein structural integrity within the microspheres was analyzed by FTIR. The structure of rhCu,Zn-SOD within PLGA microspheres containing trehalose was found to be similar to that of the native solid state,whereas the protein encapsulated during the preparation in the absence of any excipient changed due to the possible hydrophobic interaction with the polymer. The results suggest that a rational stability strategy for protein to be encapsulated into microspheres should aim at different processes.

Three-dimensional aspects of formulation excipients in drug discovery:a critical assessment on orphan excipients,matrix effects and drug interactions

Formulation/pharmaceutical excipients play a major role in formulating drug candidates,with the objectives of ease of administration,targeted delivery and complete availability.Many excipients used in pharmaceutical formulations are orphanized in preclinical drug discovery.These orphan excipients could enhance formulatability of highly lipophilic compounds.Additionally,they are safe in preclinical species when used below the LD50 values.However,when the excipients are used in formulating compounds with diverse physico-chemical properties,they pose challenges by modulating study results through their bioanalytical matrix effects.Excipients invariably present in study samples and not in the calibration curve standards cause over-/under-estimation of exposures.Thus,the mechanism by which excipients cause matrix effects and strategies to nullify these effects needs to be revisited.Furthermore,formulation excipients cause drug interactions by moderating the pathways of drug metabolizing enzymes and drug transport proteins.Although it is not possible to get rid of excipient driven interactions,it is always advised to be aware of these interactions and apply the knowledge to draw meaningful conclusions from study results.In this review,we will comprehensively discuss a)orphan excipients that have wider applications in preclinical formulations,b)bioanalytical matrix effects and possible approaches to mitigating these effects,and c)excipient driven drug interactions and strategies to alleviate the impacts of drug interactions.

Effect of Excipients on Recombinant Interleukin-2 Stability in Aqueous Buffers

In order to retain structural and functional integrity, protein medicines are frequently stabilized with excipients in aqueous solutions. The goal of this investigation was to see how stable IL-2 is with excipients that are acceptable for cell therapy. We investigated the time-dependent stability of commercially available recombinant IL-2 in aqueous solutions (CTS, RPMI, PBS, and water) at different temperatures [2°C - 8°C, room temperature (20°C ± 2°C) and 37°C] in the presence of excipients (EDTA, methionine, histidine, and glycine) over a period of up to 30 days. To detect and quantify IL-2, reversed phase high performance liquid chromatography was employed. Electrophoresis on a sodium dodecyl sulfate polyacrylamide gel was used to assess conformational stability. We discovered that IL-2 stability was improved in aqueous solutions including excipients, and that it may have retained its biological activity and sterility in these conditions.

微流控制备包覆含能材料模拟物的核壳结构微球

基于简单的生产单重乳液的液滴微流控技术,结合相分离和结晶固化的方法,制备出具有对硝基苯甲醛(p-NBA)核层和聚苯乙烯(PS)壳层的核壳结构微球,一步完成了对高能炸药3,4-二硝基呋咱基氧化呋咱(DNTF)的模拟物p-NBA的包覆;通过调控p-NBA、PS以及赋形剂乙基纤维素(EC)的含量配比,可以得到不同结构和形貌的微球,并研究了上述因素对核壳结构微球的影响;基于高能炸药DNTF的包覆钝化效果和包覆量双重条件,在使用大相对分子质量(M r=300000~350000)PS情况下,得出最佳实验条件为:EC和p-NBA质量比为1∶10,PS质量分数为8%。结果表明,赋形剂的添加有助于促进p-NBA的结晶,使其能够在液滴相分离的时候形成球形颗粒,从而被完整包覆;PS在微液滴中的初始质量分数越大,形成的壳层越厚、球形度越高,但封装DNTF的壳层越厚,爆炸威力会降低。

YY 0793.3-2023《血液透析和相关治疗用液体的制备和质量管理第3部分:血液透析和相关治疗用浓缩物》标准解读

YY 0793.3-2023《血液透析和相关治疗用液体的制备和质量管理第3部分:血液透析和相关治疗用浓缩物》将于2025年07月01日开始实施。本文将YY 0793.3-2023与YY 0598-2015、ISO 23500-4:2019进行对比,并对部分重要条款的差异进行解读,包括标准适用范围、化学原辅料的要求、溶质浓度及试验方法、微生物限度及其试验方法、pH值、在线使用联机B干粉的pH值及溶质浓度,最终帮助相关企业理解运用该标准。

《中国药典》2020年版第一增补本药用辅料标准解读

《中国药典》2020年版第一增补本自2024年3月12日起施行,它起着重要的承上启下的作用,其中药用辅料标准新增11个、修订46个。本次制修订药用辅料标准是基于风险管理理念和全过程管理理念,围绕保障药品临床安全性和有效性,在制定标准过程中突出对药用辅料关键质量属性的评估,增加了功能性相关指标、安全性指标,突出了标准国际协调和绿色环保标准理念,加强了标准规范性和可操作性。本文着重介绍了《中国药典》2020年版第一增补本中药用辅料新增和修订标准的总体思路和主要特点。以期对《中国药典》的使用者正确理解、执行或运用药典标准有所帮助。

药用辅料硅酸镁铝(IB型)黏度测定方法探讨

目的:确定硅酸镁铝(IB型)登记备案标准中黏度测定方法是否可行。方法:采用棒状高速搅拌器及旋转黏度计考察硅酸镁铝(IB型)黏度,采用破壁机及旋转黏度计考察硅酸镁铝(IB型)黏度。结果:采用棒状高速搅拌器及旋转黏度计考察硅酸镁铝(IB型)黏度时,样品均不符合规定,采用破壁机及旋转黏度计考察硅酸镁铝(IB型)黏度时,样品均符合规定。结论:硅酸镁铝(IB型)为触变性非牛顿流体,其黏度测定结果受高速搅拌器类型影响较大,建议药用辅料登记备案标准中明确使用的高速搅拌器类型,细化前处理方法。

基于《药物制剂辅料与包装材料》在线开放课程的隐形分层教学改革研究

目的研究针对《药物制剂辅料与包装材料》课程开展的基于互联网+背景下的隐形分层教学。方法选取2021年3月—2023年3月重庆医药高等专科学校90名学生为研究对象,其中2019级专科药品生产技术专业1班45名在校生作为对照组,2020级专科药品生产技术专业1班45名在校生作为研究组。在中国大学MOOC和智慧职教平台搭建《药物制剂辅料与包装材料》在线开放课程。对照组采用课程教学APP辅助的常规教学,研究组采用课程教学APP辅助的隐形分层教学,对比两组学生期末卷面成绩、平时成绩和满意度。结果研究组期末卷面笔试成绩为(88.06±5.09)分,高于对照组的(80.52±4.66)分,差异有统计学意义(t=3.843,P<0.05);研究组平时成绩(课前课后任务、课中互动、课中实训和半期在线测试成绩)高于对照组,差异有统计学意义(P均<0.05);研究组学生满意度评分高于对照组,差异有统计学意义(P均<0.05)。结论互联网+背景下的隐形分层教学能满足因材施教的教学理念,适应职业教育发展需求。

基于“药辅合一”理念的厚朴挥发油纳米乳制备及其抗氧化性能研究

目的:采用Box-Behnken响应面法优化厚朴挥发油纳米乳处方的制备工艺并初步评价其稳定性及抗氧化效果。方法:以粒径为评价指标,筛选乳化剂、K_(m)值、厚朴挥发油用量三个因素的最佳比例,考察离心稳定性、稀释稳定性、储存温度稳定性以评价厚朴挥发油纳米乳的稳定性,并用1,1-二苯基-2-三硝基苯肼(1,1-Diphenyl-2-picrylhydrazyl,DPPH)自由基和2,2’-联氮-双(3-乙基苯并噻唑啉-6-磺酸)(2,2’-azinobis(3-ethylbenzothiazoline-6-sulfonic acid),ABTS^(+))阳离子自由基的清除能力为指标评价其抗氧化性能。结果:厚朴挥发油纳米乳的最优处方为厚朴挥发油15.05%,K_(m)值2.5,乳化剂32.9%,所制得的纳米乳外观澄清、透明、微泛蓝光、稳定性良好,厚朴挥发油和纳米乳均具有清除DPPH自由基和ABTS^(+)自由基能力,且厚朴挥发油纳米乳在DPPH和ABTS^(+)自由基的清除能力上更佳。结论:制备所得的厚朴挥发油纳米乳工艺可行、理化性质稳定,具有良好的抗氧化效果,为厚朴挥发油的开发利用提供一种新思路。

姜制半夏传统制作工艺考证

姜半夏传统制作工艺:完整半夏姜制法多在前期生半夏汤洗的基础上进行,亦有直接用姜汤洗的记载。半夏片为汤洗后切片,再用姜汁浸、炒、煮、蒸等,以炒法为优。半夏粉为半夏汤洗切片研细粉,再用姜汤浸澄,多用于制作糊丸或包衣。半夏饼为汤洗后半夏研粉与生姜汁或去皮生姜混合制成的饼状物,再经炙、煨、炒等法而成。半夏曲始于宋代,当时半夏曲有制饼与发酵两种,均以生姜为辅料。制饼者并没有发酵的过程,实为半夏饼。半夏曲的配方众多,生姜必不可少。地方炮制经验中将生半夏水浸泡,生姜煮取汁,再共同煮制为主流。地方炮制规范中多为生半夏水浸透,姜汤矾水共煮。现代学者的研究方向主要集中在炮制工艺优选与炮制原理两方面。建议恢复姜半夏的传统汤洗姜制工艺。

膜分离技术在低分子糖类辅料制备中的应用

低分子糖类辅料在生物制药过程的全周期都有重要的应用,其品质直接影响药物质量。其中分离纯化是提高低分子糖类辅料品质的关键环节。膜分离技术以其操作简单、低碳足迹、易放大和无相变的特点,已广泛应用于糖类化合物的分离纯化过程。然而在低分子糖类辅料制备过程中,膜分离技术存在膜污染、通量低和生产成本高的问题。因此,通过综述膜分离技术在低分子糖类辅料提取、分离及精制纯化工艺中的应用进展,阐述了膜孔径、膜材料和膜分离操作条件对低分子糖类辅料膜分离性能的影响,探讨了新型膜分离技术在降低膜污染、提高膜分离效率方面取得的进展,以推动高品质低分子糖类药用辅料的高质量发展。

卡波姆系列药用辅料中苯残留的气相色谱测定方法的优化

目的:采用气相色谱法对卡波姆共聚物、卡波姆均聚物和卡波姆间聚物中残留溶剂苯的检测进行方法的优化,解决《中国药典》现行方法在实际检测过程中存在的混合对照品溶液中苯检测灵敏度低、检测重复性差等问题。方法:选用DB-624色谱柱(30 m×0.530 mm, 3.00μm),程序升温,进样口温度140℃,检测器温度250℃,分流比5∶1,采用外标法定量检测残留溶剂苯。结果:苯在0.04~1.00μg·mL^(-1)浓度范围内线性关系良好(r=0.996 8);进样精密度RSD为6.8%(n=6);平均回收率为96.89%(RSD=8.1%,n=9)。结论:本试验建立的气相测定方法较《中国药典》现行方法系统适用性更好,准确度、精密度更高。优化后的方法更适用于卡波姆共聚物、卡波姆均聚物和卡波姆间聚物中残留溶剂苯的测定,为其质量管理和控制提供了参考与指导。

超临界流体-蒸发光散射法测定常见油脂类药用辅料皂化后的脂肪酸组成及其在油脂鉴别中的应用

脂肪酸是油脂类药用辅料的重要组成成分,可直接反映油脂类药用辅料及制剂的质量和安全性。本研究利用超临界流体色谱-蒸发光散射检测器,建立了同时测定肉豆蔻酸、棕榈酸、硬脂酸、花生酸、二十二烷酸和木蜡酸6种脂肪酸的分析方法。为避免脂肪酸与酯相互转化而造成的脂肪酸种类与含量测定偏差,本方法采取先皂化后测定的方式,并系统优化了实验条件,实现了6种脂肪酸的定量分析。在优化的实验条件下,6种脂肪酸可在12 min内实现高效分离,并且在各自的质量浓度范围内线性关系良好,检出限和定量限分别为5~10 mg/L和10~25 mg/L,加标回收率为80.93%~111.66%。本文所建立方法灵敏,高效,重复性和稳定性好,满足油脂类药用辅料中脂肪酸的分析要求,并成功应用于5种常见油脂类药用辅料(玉米油、大豆油、椰子油、橄榄油、花生油)中6种脂肪酸的含量测定;同时结合主成分分析方法,实现了对不同油脂类药用辅料的准确判别,为油脂类药用辅料的快速鉴别和掺伪分析提供了有价值的参考。

基于“药辅合一”的辛夷油亚微乳的制备及评价

目的 基于“药辅合一”理念优化辛夷油亚微乳的处方与制备工艺,并对其进行表征和体外释放动力学研究。方法 以离心稳定性常数Ke、粒径、ζ电位的综合评分为指标,采用Box-Behnken效应面法优化辛夷油亚微乳处方工艺,透析法研究其体外释放桉油精的情况。结果 辛夷油亚微乳的最优处方:辛夷油5%、大豆磷脂1.2%、泊洛沙姆188 1.8%、油酸1.3%,最佳制备工艺条件:乳化时间10 min,乳化温度60℃,超声时间10 min。辛夷油亚微乳的桉油精含量为(2.43±0.04)mg·mL^(-1),粒径为(156.93±1.53)nm,多分散指数(PDI)为(0.16±0.02),ζ电位为(-24.87±1.67)mV,体外释放符合一级动力学方程特征,释放机制为Fick扩散。结论 成功制备辛夷油亚微乳并优化了处方工艺,所得制剂的稳定性良好,并且具有缓释作用。

国内外政策工具视角下亚硫酸盐类药用辅料及添加剂风险控制措施

目的 分析国内外亚硫酸盐类药用辅料和食品添加剂风险控制政策的使用情况,为优化政策提供参考意见。方法 基于政策工具视角,构建政策工具-风险来源-国家/地区的三维政策分析框架,对纳入政策文件进行分析和编码。结果 共纳入政策文件101份,政策条目编码163条,政策发布年份为2000—2022年。强制性、混合性、自愿性政策工具分别占70.55%、16.56%、12.88%。结论 各类型政策工具内部使用频数差异大,使用结构不均衡。我国对亚硫酸盐类药用辅料缺少针对性管理政策,在食品药品标签无含量说明,有待调整。

ICP-MS 法测定药用辅料蔗糖中元素杂质的含量

目的:建立ICP-MS法测定药用辅料蔗糖中砷(As)、镉(Cd)、汞(Hg)、铅(Pb)、钴(Co)、镍(Ni)、钒(V)、锂(Li)、锑(Sb)、铜(Cu)等10种元素的含量,评估其风险。方法:将药用辅料蔗糖溶解在0.1%HNO_(3)溶液中,采用ICP-MS法,设定测定模式为STD模式,通过优化仪器参数,测定蔗糖中^(75)As、^(111)Cd、^(202)Hg、^(208)Pb、^(59)Co、^(60)Ni、^(51)V、~7Li、^(121)Sb、^(63)Cu等10种元素的含量。结果:As、Cd、Pd、Co、Ni、V、Li、Sb、Cu等10种元素在0~100 ng·mL^(-1)范围内线性良好(r不低于0.99);Hg在0~2 ng·mL^(-1)范围内线性良好(r=0.999 1)。10种元素的平均回收率在99.8%~100.0%,RSD小于5%(n=6)。结论:方法易操作、准确度高,可用于药用辅料蔗糖中10种元素杂质的含量测定。通过结果可见,药用辅料蔗糖中含上述十种元素量远低于ICH Q3D中规定值,风险较小,修订标准时可不再单独考虑重金属项。

我国药用辅料关联审评制度改革进展及思考

目的:对比研究我国药用辅料关联审评制度与美国药品主文件登记制度的核心要素,为完善我国药用辅料管理制度提出几点建议。方法:对我国药用辅料关联审评制度和美国药品主文件登记制度涉及的登记范围、登记主体、登记资料要求,以及完整性审查、关联审评、变更管理6个核心要素做了对比研究。结果与结论:我国药用辅料关联审评制度的核心要素与美国药品主文件登记制度基本一致,但我国药用辅料管理在一些理念和实践层面均有进一步完善的空间,包括以风险为基础的管理理念有待深入贯彻,登记状态的意义有待进一步澄清,辅料的变更管理可进一步优化。