FDA对药物杂质的控制要求.ppt
FDA对药物杂质的控制要求.ppt
- 配套讲稿:
如PPT文件的首页显示word图标,表示该PPT已包含配套word讲稿。双击word图标可打开word文档。
- 特殊限制:
部分文档作品中含有的国旗、国徽等图片,仅作为作品整体效果示例展示,禁止商用。设计者仅对作品中独创性部分享有著作权。
- 关 键 词:
- FDA 药物 杂质 控制 要求
- 资源描述:
-
单击此处编辑母版标题样式,单击此处编辑母版文本样式,第二级,第三级,第四级,第五级,*,FDA对药物杂质的控制要求,Dr.George Ma,马小波博士,Toronto,CANADA,多伦多市,加拿大,国家食品药品监督管理局培训中心高级培训班,“美国仿制药申报最新要求和案例分析”,1,FDA对药物杂质的控制要求:Contents 目录,原料药与成品药中的有机杂质,有机杂质来源和控制,有机杂质控制限度的论证,案例分析:杂质控制限度的设置和论证,练习-杂质控制限度的设置和论证,原料药与成品药中的残留溶剂,残留溶剂的指导原则和控制限额的建立,案例分析:如何建立残留溶剂控制限额,具有基因毒性杂质的控制,练习-残留溶剂控制限额的建立和论证,2,Drug Production and Quality Control,Synthesis of API,3,FDA对药物杂质的控制要求,原料药与成品药中的有机杂质,1999,年,11,月,,FDA-“,仿制药申请的原料药杂质研究指导原则”,“仿制药申请的制剂杂质研究指导原则”。,2003,年,,ICH,修订的,Q3A(R)“,新原料药杂质研究指导原则”,“新制剂的杂质研究指导原则”(简称,Q3B,(R),。,杂质分类,有机杂质,合成杂质,(Synthetic Impurity),或工艺杂质,(Process Impurity),:一般来自生产过程中残留的原料、中间体、试剂、配体和催化剂以及反应副产物。只与原料药的生产过程有关,在原料药和制剂的储存中一般不可能增长。通过对合成路线的分析可以确定某一杂质是否为合成杂质。,降解产物,(Degradation Product):,来源于原料药通过各种不同的化学反应途径的降解,一般需要结合对合成路线的分析和试验研究的结果,以确定某一杂质是否为降解产物。,有的有机杂质既是合成杂质,又是降解产物。,无机杂质,:来自生产过程所用的试剂(如氯化物)、配体和催化剂(如钯,铂等),包括重金属或其它金属残留,以及无机盐(例如,助滤剂、活性炭等)。它们通常是已知和确定的。,残留溶剂,:生产过程中使用后未完全除去的溶剂(如甲醇、甲苯、四氢呋喃等),残留的可挥发性试剂(如三乙胺等)和反应中生成的可挥发产物。,4,有机杂质来源,5,常见的降解反应,6,常见的降解反应,7,确定降解产物-强制降解研究(Forced Degradation Study),Stress Type,强制降解类型,Common Stress,常用强制降解,Common Forced Degradation Conditions 常见强制降解条件,Solution Stress,溶液降解,Acid 酸,0.1N HCl,室温-100,4小时,Base 碱,0.1N NaOH,室温-100,4小时,H,2,O,2,双氧水,1-3%H,2,O,2,,室温,4小时,Heat 加热,H,2,O,100,4小时,UV&Visuable Light 紫外光和可见光(300-800nm),15小时(相当于波长范围为300-800nm,约2.0百万勒克斯时,Stress,固态降解,Thermal 加热,60,14天,Heat/humidity 加热/湿度,40/75%RH,14天,UV&Visuable Light 紫外光和可见光(300-800nm),15小时(相当于波长范围为300-800nm,约2.0百万勒克斯时,强制降解试验:,将原料药或制剂置于比通常储存条件剧烈得多的试验条件下进行稳定性考察的一系列试验。,目的:,了解该药品的稳定性及其降解途径与降解产物。,在一定程度上对有关物质分析方法的专属性进行验证。,实际操作:,试剂的浓度、反应的温度和时间等都应根据具体情况作调整。,强制降解程度:,根据经验一般认为,控制适当的强制降解条件,从而达到大约,10%,的原料药降解是比较合适的。,常见的强制降解具体试验项目与试验条件,8,确定降解产物-原料药和制剂的稳定性试验,长期(25 2、相对湿度60%5%、至少12个月)稳定性试验,加速(40 2、相对湿度75%5%、至少6个月)稳定性试验,分析研究收集到的稳定性测试数据(Stability Data)也是确定降解产物的重要依据之一。一般测定不同时间样品的HPLC图谱并进行比较分析,并与长期保留制剂样品的测定结果进行比较。,在强制降解试验研究过程中注意观察样品外观性状、原料药含量等变化,并与杂质检查结果相互印证。,原料药和杂质的分离和检测:将可能的中间体和副产物作为杂质进行柱效、流动相及流动相比例、波长和分离度等方法学的研究。,待方法建立成熟后,根据中间体和副产物的安全性和获得杂质标样的难易程度,决定是否定为已知杂质。,如果杂质标样难以得到,且比较安全,可考虑采用杂质校正因子加上相对保留时间的方法,或采用杂质相对保留时间加上自身对照的方法,对该杂质进行定量分析。,如果得不到该杂质样品作为标样,对于有紫外吸收的样品可以用二极管阵列检测器,考察未精制的粗品,并对比已精制过的样品,确定粗品种各成分的分离度和样品中可能杂质的检测波长。方法确立后,可采用自身对照方法或面积归一化法控制杂质。,9,原料药与成品药中的有机杂质,药品中有机杂质的分类,有机杂质,特定杂质(,Specified Impurities),:特定杂质是指在质量标准中分别规定了明确的限度,并单独进行控制的杂质。特定杂质包括化学结构已知的杂质(,Specified Identified Impurity),和化学结构未知(,Specified Unidentified Impurity,)的杂质。美国药典通常采用代号来指认特定杂质,如相关化合物,A,(,Related Compound A,)等。,非特定杂质(,Unspecified Impurities,):在标准中未单独列出,而仅采用一个通用的限度进行控制的一系列杂质。其结构未知,在药品中出现的种类与几率并不固定。一般采用合适的定性分析指标加以指认,如相对保留时间为,3.5,的杂质。,有机杂质检测,确定原料药和制剂中潜在的合成杂质和降解产物,需要应用专业的有机化学知识对有关合成化学反应和条件、原料药化学结构、理化性质、稳定性等进行全面的科学分析和论证,并且比较实验室对样品的常规分析和强制降解(,Forced Degradation Study,),以及稳定性研究的结果。,10,Impurities:Origination&Identification,Classification of impurities,Synthetic Impurities(Residual substances in the synthesis),Starting material,By-products,Intermediates,Degradation during synthesis,Reagents,ligands and catalysts,Degradation Products,Hydrolysis,Oxidation,Esterification,Elimination of water,HCl,etc.,Dehydrogenation,Residual Solvents/OVIs,Solvents/reagents used in the reactions,purification process or formed during reaction,MeOH,EtOH,IPA,THF,Dichloromethane,Acetone,Triethylamine,etc.,Impurity Resources-API&Drug Product Manufacturing Processes,11,Impurities:Origination&Identification,Lists of Impurities in ICH,Organic impurities,Each identified specified impurity,Each unidentified specified impurity,Any unspecified impurity with an acceptance criterion of not more than()the figure in the identification threshold in Attachment 1,ICH Q3A(R),Total impurities,Residual solvents,Inorganic impurities,12,有机杂质控制限度设置,美国药典杂质:,在美国药典正文(monograph)中列为特定杂质(Specified Impurities)的杂质,其控制限度应设置不高于美国药典的限度。,非美国药典杂质:,如果美国药典正文没有对该杂质设置控制限度,或者美国药典没有改药物的正文,则根据ICH的杂质指导原则Q3A(R)和Q3B(R),同时也参考其它药典,如欧洲药典(EP)和英国药典(BP)来设置该杂质的控制限度。就ICH的杂质指导原则来说,如果该杂质在实验测试中的实际观测水平高于ICH的鉴定限,则必须确定为特定杂质,其控制限度必须设置为不高于ICH的论证限(Qualification Threshold)。,非特定杂质:,在药品中出现的种类与几率并不固定。因此,在药品的临床前与临床研究中,很难对这些杂质的安全性进行评估。,为将这些杂质可能带来的安全性隐患降至最小,,ICH,的杂质指导原则,Q3A(R),和,Q3B(R),对其限度用鉴定限(,Identification Threshold,)做了明确的规定,要求在原料药标准中任何单个非特定杂质的限度不得超过鉴定限。,在仿制药或改剂型药品以及药品上市后变更原料药生产商等研究中,即使出现了新的杂质,只要新杂质的含量低于表中的鉴定限,就可以认定这些新杂质的安全性。,13,有机杂质控制限度设置,Find out the Maximum Daily Dose(MMD,每日最大剂量)from PDR,CPS,etc.,Use MDD to calculate the ICH Thresholds,Reporting Threshold(RT),Identification Threshold(IT),Qualification Threshold(QT),每日最大剂量,1,报告限,(Reporting Threshold),2,3,鉴定限,(Identification Threshold),3,论证限,(Qualification Threshold),3,2 g/day,0.05%,每日摄入量0.10%或1.0毫克(取低值),每日摄入量0.15%或1.0毫克(取低值),2 g/day,0.03%,0.05%,0.05%,1,每日原料药的服用量。,2,更高的报告限必须提供充足的理由。,3,如果杂质的毒性特别高则适合于更低的报告限。,14,Control of Impurities:Compendia&ICH,Establishing Acceptance Criteria for Impurities,Acceptance criteria(limits)for impurities should be set no higher than the level that has been qualified.,In establishing impurity limits,the first critical consideration is whether an impurity is specified in the USP.,If there is a monograph in the USP that includes a limit for an identified specified impurity,the limits should be set no higher than the official compendial limit.,If qualified by an FDA-approved human drug product,the limits must be consistent with the level observed in the approved human drug product.,In other circumstances(e.g.metabolites),the limits may need to be set tighter than the qualified level to assure drug substance quality.If the level of the impurity is above the level specified in the USP,qualification is necessary.Then,if appropriate qualification has been achieved,an applicant may wish to petition the USP for revision of the impuritys limits.,15,Control of Impurities:Compendia&ICH,ICH Q3A(R)and Q3B(R).Scope,Does not apply to new drug substances(Q3A(R),)or products(Q3B(R)used during the clinical research stages of development.,Both do not cover:,Biological/biotechniological products Fermentation products,Peptides Semi-synthetic products,Oligonucleotides Herbal products,Radiopharmaceuticals Crude products of animal,Plant origin,Q3B(R)does not cover:,Extraneous contaminants that should not occur in new drug products and are addressed as GMP issues.,Polymorphic forms,Enantiomeric,impurities,16,制剂的杂质限度,Q3B(R2).ICH Threshold for Degradation Products in New Drug Products,每日原料药,最大剂量*,报告限,(Reporting Threshold),鉴定限,(Identification Threshold),论证限,(Qualification Threshold),1g,0.1%,N/A,N/A,1g,0.05%,N/A,N/A,10mg 2g,N/A,0.2%or 2mg TDI,N/A,100mg 2g,N/A,N/A,0.2%or 3mg TDI,2g,N/A,0.10%,0.15%,*取低值,按百分含量或每日总摄入量(TDI)计。,17,有机杂质控制限度论证,杂质控制限度论证:对一定限度的杂质的生物安全性进行研究和评估,建立杂质的可接受限度并提供包括安全性考虑在内的依据。如果杂质在样品测试中的实际观察值较高,而需要设置一个高于美国药典或ICH论证限(Qualification Threshold)的控制限度时,则必须提供一个充分合理的论证来说明所设的控制限度是合理的。,有时将杂质水平降低至美国药典或ICH论证限以下是最为简单的杂质控制方法。,对杂质控制限度的论证如果被FDA接受,申请人还可以向美国药典提出修改该杂质限度的申请(Petition)。,18,制订和论证杂质合理限度的决策树,19,有机杂质控制限度的论证方法,对比分析法:,仿制药申请中原料药的杂质可以采用相同的已验证的分析方法(如HPLC法),与FDA已批准的同品种人用制剂(Reference Listed Drug,简称RLD,参照药品)进行对比研究。如果无法获得参照药品,也可对含有相同原料药,以及相同给药途径和特征的不同药物制剂(如片剂对胶囊)的杂质含量进行研究。如果仿制药申请原料药中已鉴别杂质的水平与相应已获准上市人用药物的杂质水平相当,则可以认为该杂质得到了合理控制。,科学文献和主要代谢物法:,如果科学文献已经证明某一水平的杂质在安全性方面没有问题,那么根据这一水平建立的该杂质的限度就无需进一步论证。此外,如果科学文献证明某杂质本身也是原料药在体内代谢的主要代谢物,其安全性是显而易见的,因而即使对该杂质设置高于ICH论证限的控制限度,通常可以也认为该杂质已得到合理控制。,遗传毒性研究法:,由于遗传毒性试验费时间且成本高昂,此法一般是在前两种都无法对杂质合理研究论证的情况下才采取的方法。这项研究可以采用含该杂质的制剂或原料药直接进行研究,但实际上采用已分离的杂质进行研究可能更为恰当。,20,有机杂质控制限度的论证方法,杂质的合理控制应基于多种因素,包括患者人群、日剂量、给药途径以及给药周期。杂质合理控制的最基本原则就是考虑其安全因素。根据ICH的杂质指导原则Q3A(R)和Q3B(R)。,当满足下述一个或多个条件时,可以认为该杂质的控制限度是合理的:,当杂质实际观察水平以及控制限度未超出FDA已经批准的人用制剂杂质实际观察水平;,当杂质本身是原料药在动物和/或人体内重要的代谢产物时;,当杂质实际观察水平以及控制限度有充分合理的科学文献支持时;,当杂质实际观察水平以及控制限度未超过通过体外遗传毒性比较研究得出的正确评估限度时。,21,有机杂质控制限度的论证方法,当杂质本身是原料药在动物和/或人体内重要的代谢产物时,如果有可靠文献报道该杂质系人体代谢产物,其限度的确定并不需要从安全性方面进行论证。,限度设定时主要考虑批分析数据、稳定性研究数据。,具体限度的确定因药物而异,但应能保证批间药品质量的一致性,且得到批分析数据、稳定性数据的支持。,Example:,Simvastatin EP Imp A,Degradation Product:Proposed to increase the limit from 0.5%to 1.0%.,Rationale:The FDA guideline for ANDAs:Significant metabolites do not need further qualification.The metabolic profiles of Simvastatin in human and dog plasma showed that Simvastatin EP Imp A is one of the major metabolites.,22,Impurity Limit Establishment:Examples,Simvastatin Tablets USP.Limits for SV RCA and SV RCB,Simvastatin(Zocor):A lipid-lowering drug approved by FDA in Dec.1991.It reduces cholesterol by inhibiting an enzyme in the liver(HMG-CoA reductase)required for the production of cholesterol.Other statins include Lovastatin(Mevacor),atorvastatin(Lipitor),fluvastatin(Lescol),and rosuvastatin(Crestor).,SV RC A and SV RC B were controlled at NMT0.5%and 0.1%,respectively before.However,the results form the long term stability test exceeded the limits.,SV RC B,Degradation Product:Proposed to increase the limit from 0.1%to 0.2%.,Rationale:,The ICH guideline Q3B(R):QT for degradation products can be 0.5%or 200mg TDI,whichever is lower,for the drug with MDD of 10-100mg.,MDD for,Simvastatin,is 80mg.QT can be 0.25%.,23,Impurity Limit Establishment:Examples,Bupropion ER Tablets:Justification for Increasing Limits,The limit for RC,m,-chlorobenzoic acid in Bupropion Hydrochloride ER Tablets is proposed to increase from 0.3%to 0.5%.,Rationale:,Bupropion,is extensively metabolized in humans,rats and dogs.Metabolism studies in human indicated that,bupropion,was metabolized to,m,-chlorohippuric,acid,erythro,-amino alcohol(EB),threo,-amino alcohol(TB),hydroxy,metabolite(HB)(references 1-3).,It was obvious that,m,-chlorohippuric,acid,which is excreted as the major urinary metabolite,was resulted from oxidation of the,bupropion,side chain to give,m,-chlorobenzoic,acid followed by conjugation with,glycine,.Other,aminoalcohol,metabolites such as EB,TB and HB are formed from hydroxylation,nof,the,tert,-butyl group of,bupropion,and/or reduction of the intact parent,aminoketone,.This metabolism pathway has been confirmed by the fact that the metabolism in rats and dogs gave predominantly,m,-chlorohippuric,acid and,m,-chlorobenzoic,acid as the metabolites,which are formed from side chain oxidative cleavage.,The FDA guideline for impurities for,ANDAs,(See Guidance for Industry.,ANDAs,:Impurities in Drug Substances)indicates that the impurities that are significant metabolites do not need further qualification.,It is considered reasonable to increase the test limit from 0.3%to 0.5%for BP RC2(,m,-chlorobenzoic,acid).,24,Impurity Limit Establishment:Examples,Synthetic Impurities:No Need to Monitor/Report in DP Specifications,Response form FDA on this type of question:Synthetic impurities need not be reported or monitored for release and/or stability testing of the drug product.Thus,no drug product limits for drug substance process impurities need be included in the drug testing protocol.,Rationale:,Synthetic impurities are generated during the manufacturing process of the drug substance.,They are controlled in the drug substance specification.,They are not expected to increase during the production and storage of the drug product.,25,Impurity Limit Establishment:Examples,Semi-Synthetic or Synthetic Chemical?,“Why is the FDA asking us to qualify an impurity observed in this semi-synthetic drug substance?Arent semi-synthetics excluded from the recommendations?”,Rationale:,It depends on how far the drug substance is from the naturally derived source material.In general,drug substances separated from the source material by one or two chemical manipulations are still excluded from the recommendations.However,the Agency believes that those drug substances separated from the source material by several synthetic steps resulting in multiple isolated and purified intermediates resemble traditional chemicals more than they resemble classical semi-synthetic moieties.Hence,the new recommendations would apply to such drug substances.,26,Impurity Limit Establishment:Examples,Clyndamycin.Semi-synthetic or Synthetic Chemical?,27,案例分析:有机杂质控制限度设置和论证,卡托普利(Captopril)原料药的合成路线,28,卡托普利(,Captopril,)有机杂质控制限度的设置,29,卡托普利(,Captopril,)有机杂质控制限度的设置,美国药典和欧洲药典都发表了有关卡托普利原料药的正文。根据美国药典正文,,Captopril,disulphide,杂质控制限度不超过,1.0%,,而其它单一杂质不超过,0.2%,,总杂质不超过,0.5%,。欧洲药典正文把杂质,A,B,C,D,E,和,F,作为特定杂质控制在不超过,0.15%,(其中例外的是杂质,A,控制在,1.0%,,杂质,F,控制在,0.2%,),非特定杂质控制在不超过,0.10%,,总杂质不超过,1.2%,。,如果原料药生命符合美国或欧洲药典标准,通常必须符合该药典正文的每一项要求。然而,对于与合成路线毫无关系的药典杂质,在实验测试结果显示“,None Detected,未检出”的基础上,可以从合成路线和化学反应机理的角度进行论证,提供足够理由说明在原料药标准中可以不设限度进行常规控制。,下面以声明符合美国药典标准的卡托普利为例来说明如何提供适当的理由对所指定的标准进行论证。从化学反应机理的角度考虑,杂质,B,和,D,产生于含溴的原料,与康乐化学公司的合成路线无关。标准规格中勿需设定限度来控制杂质,B,和,D,。,卡托普利的最高剂量为,450,毫克,/,日。根据,ICH,指导文件,Q3A(R),,原料药的报告限(,Reporting Threshold),为,0.05%,,鉴定限(,Identification Threshold,)为,0.10%,,论证限,(Qualification Threshold),为,0.15%,。,原料药中的控制限度设置如下:已知杂质,C,和,E,中单一已知杂质不超过,0.1%,,杂质,A,不超过,0.5%,,杂质,F,不超过,0.2%,,单一未知杂质不超过,0.10%,,总杂质不超过,0.5%,。此杂质控制限度符合或紧于美国药典要求,也与,ICH,和原料药厂家的要求一致。,30,练习-杂质控制限度的设置和论证,Michelle is working in a generic pharmaceutical company to develop a drug product called OME for ulcer disease.She adopts the European Pharmacopoeia HPLC method to analyze the drug substance and observed known EP impurities A(0.25),B(0.46%)and C(0.20%),and an unknown impurity 1(0.18%).The maximum daily dose for OME is 120mg.It is reported that impurity B is a degradation product and metabolite,impurities A is also a degradation product,while impurity C is a synthetic impurity.,Table 1.ICH Thresholds for Impurities in New Drug Substances,Maximum Daily Dose-,1,Reporting Threshold,2,3,Identification Threshold,3,Qualification Threshold,3,2g/day,0.05%,0.10%or 1.0mg per day intake(whichever is lower),0.15%or 1.0mg per day intake(whichever is lower),2g/day,0.03%,0.05%,0.05%,1,The amount of drug substance administered per day.,2,Higher reporting thresholds should be significantly justified.,3,Lower thresholds can be appropriate if the impurity is unusually toxic.,31,练习-杂质控制限度的设置和论证,Active ingredient maximum daily dose,Reporting Thresholds,Identification Threshold*,Qualification Threshold*,1g,0.1%,N/A,N/A,1g,0.05%,N/A,N/A,10mg 2g,N/A,0.2%or 2mg TDI,N/A,100mg 2g,N/A,N/A,0.2%or 3mg TDI,2g,N/A,0.10%,0.15%,Table 2.ICH Thresholds for Degradation Products in New Drug Products,*Take the lower figure,%or total daily intake(TDI),32,练习-杂质控制限度的设置和论证,Use the above Tables 1 and 2 as references and other knowledge you learned from this course to establish appropriate controlling limits and fill into Table 3 for Impurities A,B and C for both drug substance and drug product if necessary.,It is not required to establish a limit to control impurity C for drug product.However,the HPLC method for degradation products should be capable of detecting and separating impurity C from other impurities.Why?,Why can a limit for a degradation product be considered qualified even it exceeds the ICH limit?,Reporting Threshold(%),Impurity A(%),Impurity B(%),Impurity C(%),Unknown Impurity 1(%),ICH limits for Drug substance,Recommended Limits for Drug Substance,ICH limits for Drug Product,Recommended Limits for Drug Product,33,FDA对药物杂质的控制要求,原料药与成品药中的残留溶剂,1997年,ICH制订了“Q3C杂质:残留溶剂的指导原则”。,美国药典(USP)2008年修正了第节,重新命名为残留溶剂(Residual solvents)。,ICH将药品生产及纯化过程中常用的69种有机溶剂按照对人体和环境的危害程度分为4类。,第1类溶剂:指已知或极可能对人体致癌和对环境有害的溶剂,在药品制造过程中必须避免使用。其残留量必须严格控制在规定的范围内。,第2类溶剂:指无基因毒性但有动物致癌性的溶剂,可以选择适当的方法并建立一定的限度进行控制。,第3类溶剂展开阅读全文
咨信网温馨提示:1、咨信平台为文档C2C交易模式,即用户上传的文档直接被用户下载,收益归上传人(含作者)所有;本站仅是提供信息存储空间和展示预览,仅对用户上传内容的表现方式做保护处理,对上载内容不做任何修改或编辑。所展示的作品文档包括内容和图片全部来源于网络用户和作者上传投稿,我们不确定上传用户享有完全著作权,根据《信息网络传播权保护条例》,如果侵犯了您的版权、权益或隐私,请联系我们,核实后会尽快下架及时删除,并可随时和客服了解处理情况,尊重保护知识产权我们共同努力。
2、文档的总页数、文档格式和文档大小以系统显示为准(内容中显示的页数不一定正确),网站客服只以系统显示的页数、文件格式、文档大小作为仲裁依据,个别因单元格分列造成显示页码不一将协商解决,平台无法对文档的真实性、完整性、权威性、准确性、专业性及其观点立场做任何保证或承诺,下载前须认真查看,确认无误后再购买,务必慎重购买;若有违法违纪将进行移交司法处理,若涉侵权平台将进行基本处罚并下架。
3、本站所有内容均由用户上传,付费前请自行鉴别,如您付费,意味着您已接受本站规则且自行承担风险,本站不进行额外附加服务,虚拟产品一经售出概不退款(未进行购买下载可退充值款),文档一经付费(服务费)、不意味着购买了该文档的版权,仅供个人/单位学习、研究之用,不得用于商业用途,未经授权,严禁复制、发行、汇编、翻译或者网络传播等,侵权必究。
4、如你看到网页展示的文档有www.zixin.com.cn水印,是因预览和防盗链等技术需要对页面进行转换压缩成图而已,我们并不对上传的文档进行任何编辑或修改,文档下载后都不会有水印标识(原文档上传前个别存留的除外),下载后原文更清晰;试题试卷类文档,如果标题没有明确说明有答案则都视为没有答案,请知晓;PPT和DOC文档可被视为“模板”,允许上传人保留章节、目录结构的情况下删减部份的内容;PDF文档不管是原文档转换或图片扫描而得,本站不作要求视为允许,下载前可先查看【教您几个在下载文档中可以更好的避免被坑】。
5、本文档所展示的图片、画像、字体、音乐的版权可能需版权方额外授权,请谨慎使用;网站提供的党政主题相关内容(国旗、国徽、党徽--等)目的在于配合国家政策宣传,仅限个人学习分享使用,禁止用于任何广告和商用目的。
6、文档遇到问题,请及时联系平台进行协调解决,联系【微信客服】、【QQ客服】,若有其他问题请点击或扫码反馈【服务填表】;文档侵犯商业秘密、侵犯著作权、侵犯人身权等,请点击“【版权申诉】”,意见反馈和侵权处理邮箱:1219186828@qq.com;也可以拔打客服电话:0574-28810668;投诉电话:18658249818。
实名认证
平台协调中心【客服】
自信AI助手
微信客服
客服QQ
发送邮件
意见反馈
链接地址:https://www.zixin.com.cn/doc/8949861.html