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名家访谈 | Kim教授:生物类似药之五大追问

作者:肿瘤瞭望   日期:2017/7/7 17:35:42  浏览量:21225

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编者按: 2017年7月1-2日,由中国病理生理学会实验血液专业委员会、中国临床肿瘤学会抗淋巴瘤联盟、《中华血液学杂志》主办,由上海血液学研究所、上海交通大学医学院附属瑞金医院承办的第三届上海国际淋巴瘤高峰论坛隆重召开。会议邀请国内外著名血液学专家就目前血液学研究的前沿问题做专题讲座,就血液学基础、临床及相关领域的研究进展进行了广泛的交流。在会议期间,韩国三星医学中心Kim Won Seog教授针对目前生物类似药在目前肿瘤领域的地位日益凸显的形式下,关于生物类似药的研发、适应证的选择及其长期安全性等5大问题接受了《肿瘤瞭望》的专访。现将其整理成文,以飨读者。

韩国三星医学中心Kim Won Seog教授

 

《肿瘤瞭望》:很多临床医生和患者对生物类似药与化学仿制药、原研药的区别不是很清楚,请您介绍一下?

Kim教授:生物类似药与当下的原研药在产生原理上具有较大差异,原研药是采用多种化学物质相互进行结合,进而产生疗效的化合物。生物类似药是与已批准的原研药相似的一种生物药(包括疫苗、血液及血液成分、体细胞、基因治疗、组织和重组治疗性蛋白等),在质量、安全性和有效性方面与原研药具有相似性,但由于生物类似药来自活细胞,其分子结构要远比原研药复杂。例如,目前最为成功的单克隆抗体为利妥昔单抗(美罗华),因为不同细胞的行为并不一致,生产的单克隆抗体的位置也并非完全相同。今年生产的利妥昔单抗较之于去年有所不同。此外,研究发现美国生产的利妥昔单抗与欧洲生产的利妥昔单抗存在一定的差异。总之,生物类似药与原研药在氨基酸序列和理化特性上是基本相同的,但仍存在些许差异,故而称之为“生物类似药”。

《肿瘤瞭望》:生物类似药跟原研药的最重要的研发区别是什么?

 Kim教授:生物类似药的最大优势是价格较原研药低廉,因此经济状况欠佳的患者仍可获得有效的治疗。但是生物类似药的研发亦是不简单的过程,表现在于:生物类似药应当与原研药的理化性质、PK/PD应当完全相同,并且其有效性必须通过III期临床试验的确认。只有达到了以上条件,则生物类似药方可自由使用,否则无法提供相同的疗效及安全性。

    具体来说,原研药是由药物动力学(PK)和药效动力学(PD)完全一致的化学复合物组成的,因而无需再去确认其有效性。而对于生物类似药而言,其药物却不完全相同,因此需要更多的步骤来确认其相似性大小。第一步,就是确认氨基酸的序列——二者的氨基酸序列应该相同。第二步,为确认其理化性质是否相同——其理化性质应该相同,包括分子量、亲和性等。第三步,为确认其药物动力学(PK)和药效动力学(PD)是否相同。这些步骤为生物类似药研发的基本步骤。此外,最为重要的步骤在于其有效性的确认,由于生物类似药的化学物并非完全一致,故而有时候其有效性也存在一定的差异,甚至是PK和PD都不相同。正是由于此原因,生物类似药常常需要开展III期临床试验来将其与参照药进行比较。其有效性的确认往往耗时耗资巨大,这也是化学仿制药与生物类似药的最重要区别。

《肿瘤瞭望》:CT-P10在临床研发中对于如何选择人群是怎么考量的?为什么在一系列RA研究后又开展血液肿瘤的研究,且仅关注在FL的患者?

Kim教授:利妥昔单抗是首个批准用于滤泡淋巴瘤治疗的单抗药物,因此欧洲药品监管局(EMA)进行该试验来确定其适应证。CT-P10作为利妥昔单抗的生物仿制药,其生物相似性的确认试验之所以分别选择在类风湿性关节炎患者和滤泡淋巴瘤中进行,是因为类风湿性关节炎与滤泡淋巴瘤是不同的疾病,利妥昔单抗在两者当中的用药方案完全不同,因此需要进行不同剂量下利妥昔单抗有效性的确认试验。同时,类风湿性关节炎与滤泡淋巴瘤患者中CD20的表达水平存在较大的不同,仅通过推断的方法是难以确定其适用于另外一种疾病的治疗,因而需要分别在类风湿性关节炎和滤泡淋巴瘤患者中进行III期临床试验,以确定其适用于RA与FL的治疗。同理,我们可能还需要在更多疾病中进行III期临床试验,以明确其治疗适应证,比如DLBCL、MCL等。

《肿瘤瞭望》:您认为生物类似药在通用名方面需要与原研药区分开吗?        

Kim教授:同一种药物的生物类似药有多种,目前仍无大量的数据证明所有的生物类似药均具有可交换性。因此,如果在名称上与原研药不加以区分的话,可能在治疗时对生物类似药的选择产生极大的混淆和困惑。

《肿瘤瞭望》:CT-P10在整个临床研发过程中哪些点值得临床医生特别关注的?类似远期疗效和安全性的问题,是否需要开展后续随访?

 Kim教授:绝对需要。一方面,生物类似药可以诱导免疫反应;且生物类似药多为蛋白质,这意味着其具有免疫原性,存在一定的安全性问题。另一方面,患者在接受生物类似药治疗一段时间后可能会产生中和性抗体,进而降低了功效。因此,在短期疗效及安全性较好的情况下,仍需要进行长期随访。

英文阅读:

很多临床医生和患者对生物类似药与化学仿制药、原研药的区别不是很清楚,请您介绍一下?

 
Dr Kim: Biosimilars are very different from brand drugs, because the brand drug is a chemical that is produced by combining other chemicals to create reactions to produce an identical compound. For biosimilars, the biological agent is coming from living cells. We have to know how to make the monoclonal antibody that cells are making. The problem is that cells don’t always behave the same way – sometimes they are adding some glycosylation that can result in variations in the chemical structure. For example, the most successful monoclonal antibody, rituximab, made last year was a little different from the rituximab made this year. In trials, we have compared rituximab from US and European sources, and because the cells behave a little differently, the monoclonal antibody is not the same from each location. Living cells will behave differently. The brand drug is the same chemical compound as the biosimilar, but it is not exactly the same. That is the reason why we are using the name ‘biosimilar’, due to its similarity.
 
A generic drug is a compound produced after the original drug patent has ended. We can say that a biosimilar is a type of generic, but generally, the generic drug is a chemical compound, same as the brand drug.
 
生物类似药跟原研药的最重要的研发区别是什么?
 
Dr Kim: The big advantage of biosimilar compounds in daily practice is that we can reduce the cost of healthcare. Right now, there is a big financial burden globally as more biological agents are used. They are very expensive. Many patients who need a biological agent cannot access drugs and are losing the chance to receive the best healthcare. We have to think about the use of biosimilar compounds in the future to reduce the cost so more patients can access them. But, as I have said, the development of biological agents and biosimilars is not very easy. The biochemical properties should be the same, the 
 
Dr Kim: The brand drug is the exact same chemical compound with the same pharmacokinetic (PK) and pharmacodynamic (PD) data, so there is no need to confirm efficacy because the chemical is exactly the same. In the case of biosimilars, the drugs are not exactly the same, so we have to conduct more steps to confirm the similarity. The first step is the sequence of amino acids – the amino acids should be the same. The next step is to confirm the chemical and physical properties and these should be the same – molecular weight, affinity and so on. We then need to confirm the PK and PD data. Those are the basic steps in the development of biosimilar drugs. The most important part should be the efficacy part, because as the biosimilars are not exactly the same chemical compound, sometimes the efficacy can be different, even though the PK and PD data are the same. That is the reason why we need a phase III trial every time to compare the reference drug to the biosimilar. That costs a lot of money and takes more time to confirm efficacy, and that is the biggest difference in the development of generic drugs and biosimilar drugs.
 
CT-P10在临床研发中对于如何选择人群是怎么考量的?为什么在一系列RA研究后又开展血液肿瘤的研究,且仅关注在FL的患者?
 
Dr Kim: The reason we did a trial comparing R-CVP in advanced stage follicular lymphoma was because rituximab was approved first in hematological malignancies for follicular lymphoma. The regulatory authorities, especially the EMA, asked for the same indications that rituximab was approved for the first time. So we had to do the trial with R-CVP. For the second question, the dosing schedule for rheumatoid arthritis is totally different from that for follicular lymphoma, so we had to confirm that the same efficacy was maintained at a different dosing schedule in a different disease. At the same time, CD20 expression is different between the hematological malignancies and rheumatoid arthritis. Extrapolation means getting evidence and approval for one disease entity so we can determine the efficacy in other disease entities. This can be difficult, and in the case of rheumatoid arthritis and follicular lymphoma, because the CD20 expression is different, that extrapolation was very hard for these two indications. That is why we did another confirmatory phase III trial in follicular lymphoma after obtaining the data for rheumatoid arthritis. The question is whether we need to do further phase III trials for other hematological malignancies. For curable diseases like DLBCL, MCL, physicians and patients need to have the confidence to use drugs like these, so outcomes should be confirmed in trials for these indications. Another issue is interchangeability. If a patient is receiving one biosimilar like the original rituximab and then after several cycles need to change, can that be done using a similar drug or some other biosimilar? There will be more and more biosimilars available to use. Within a couple of years, we may have four or five biosimilar rituximabs, so we will need to know if it is safe to use more than one of these with similar efficacy. We don’t have data on this yet, but in the next trials with low tumor burden follicular lymphomas, we will be assessing drug interchangeability. Some patients will receive the original rituximab and then moved to a biosimilar. This data will determine whether interchangeability is possible, but right now, we don’t have that data.
 
您认为生物类似药在通用名方面需要与原研药区分开吗?
 
Dr Kim: Because there is not enough data on their interchangeability. If we are using the same name, we will not know which compound is given to a patient. There will be more and more biosimilar compounds over the coming years, so if using the same name as the first compound then the whole course of treatment will get confused if several biosimilars are used. Until we have interchangeability data, I think we should be separating the compound names.
 
CT-P10在整个临床研发过程中哪些点值得临床医生特别关注的?类似远期疗效和安全性的问题,是否需要开展后续随访?
 
Dr Kim: Absolutely. Sometimes the biological agent can induce immune reactions. Most of them are proteins, which means they themselves can be immunogenic. After a period of time, patients who received a biological agent can develop a neutralizing antibody that reduces the efficacy and can also produce other immune reactions. So we definitely need long-term follow-up data. But we don’t have that data yet.

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