• 患者服务: 与癌共舞小助手
  • 微信号: yagw_help22

QQ登录

只需一步,快速开始

开启左侧

晚期NSCLC靶向和化疗方案选择的几个问题

    [复制链接]
1299839 426 老马 发表于 2013-4-24 19:20:41 |
tiger_sun_cn  大学二年级 发表于 2013-6-11 11:24:22 | 显示全部楼层 来自: 中国
谢谢老马!

举报 使用道具

回复 支持 0 反对 1
老马  博士一年级 发表于 2013-6-11 12:00:39 | 显示全部楼层 来自: 浙江温州
本帖最后由 老马 于 2013-6-13 01:36 编辑

RET-mutated NSCLC as a new niche indication – Newly identified RET mutation (1-2% of NSCLC) represents a new niche indication for cabozantinib, which is also a RET inhibitor. At ASCO, a group from Memorial Sloan Kettering will report updated clinical experience with cabozantinib in this rare subset. Initial findings from this trial were recently published and showed promising activity in 3 patients with RET mutation, who appear to derive benefit from cabo (2 partial responses, 1 durable SD, see figure from the article below).

-------------------------------------
RET Fusions in NSCLC
Surgical series of 936 patients examined by PCR (with IHC and FISH validation)
13 cases found (1.4%)
     - 11 adenos, 2 adenosquamous
     - 7 women, 6 men
     - 9 KIF5B-RET, 3 CCDC6-RET, 1 NCOA4-RET
     - More often poorly differentiated, young (<60 yrs), never smokers (82%), solid subtype
ret.jpg
个人公众号:treeofhope
老马  博士一年级 发表于 2013-6-11 12:42:02 | 显示全部楼层 来自: 浙江温州
ASCO: Melanoma Tx May Be Option in Lung Cancer
By Charles Bankhead, Staff Writer, MedPage Today
Published: June 05, 2013
Reviewed by Zalman S. Agus, MD; Emeritus Professor, Perelman School of Medicine at the University of Pennsylvania
CHICAGO -- A drug developed for melanoma has demonstrated activity in a subgroup of patients with non-small cell lung cancer (NSCLC), a preliminary clinical study showed.

Eight of 20 patients had objective responses to treatment with dabrafenib (Tafinlar), an inhibitor of the BRAF V600E mutation. The study provided the first evidence that BRAF V600E is a viable therapeutic target in NSCLC, as it is in melanoma.

The drug's safety profile was consistent with expectations based on clinical experience in melanoma, David Planchard, MD, PhD, of Gustave Roussy Institute in Villejuif, France, reported here at the American Society of Clinical Oncology meeting.

"The preliminary efficacy data from the first 20 patients is the first demonstration of clinical activity of a BRAF inhibitor in BRAF V600E non-small cell lung cancer," said Planchard. "The study has expanded the sample size and now allows enrollment of first-line patients."

The discovery that the BRAF V600E mutation occurs in at least half of all melanomas spurred development of several agents that inhibit the gene protein. BRAF V600E also occurs in NSCLC, but with an estimated frequency of 2% or fewer tumors.

In a phase III study of patients with BRAF V600E-mutant metastatic melanoma, treatment with dabrafenib induced tumor regression in almost all of the 187 patients who received the drug. Half of the patients had confirmed objective responses, and the dabrafenib-treated group had a median progression-free survival almost double that of the control group (Lancet. 2012; 380: 358-365).

To evaluate dabrafenib activity in BRAF V600E NSCLC, investigators in 12 countries enrolled patients with stage IV BRAF-mutant tumors treated with one or more prior systemic regimens.

The ongoing trial comprised two stages of investigation: If as many as three of the first 20 patients achieved investigator-assessed responses, the trial would continue to stage 2, which would expand by an additional 20 patients, including patients with previously untreated melanoma.

Planchard presented results for 25 enrolled patients, including 20 evaluable for efficacy. He said 13 of the 25 patients had discontinued, primarily because of disease progression (10 of 13). Two patients stopped treatment because of adverse events.

Review of baseline characteristics showed that eight patients were nonsmokers, 12 a smoking history ≤40 pack years, and five had a history exceeding 40 pack years. All 25 patients had adenocarcinoma, and treatment history consisted of one prior therapy in 17 patients, four patients each who had received two prior regimens or three or more.

The median time from initial diagnosis was 12 months, and the median time since first-line treatment for metastatic disease was 8.9 months.

Planchard reported that all but three of the first 20 patients had some degree of tumor regression, including eight who had at least 50% tumor shrinkage (partial response). All of the responses occurred in nonsmokers and patients with a smoking history ≤40 pack years. The three patients who had no tumor regression all had smoking histories >40 pack years.

Response duration ranged from 4 to 16 months

Four additional patients had stable disease, resulting in a disease control rate of 60%.

Adverse events have occurred in 24 of the 25 patients enrolled thus far, and 23 of the 24 were considered treatment related. Planchard said 11 patients had grade 3 adverse events, and none had grade 4. One adverse event was fatal. Serious adverse events occurred in 10 patients.

Five patients had adverse events that required dose reductions, and 10 patients had dose interruptions related to adverse events.

The most common adverse event was fatigue (10 patients), followed by decreased appetite (eight), and asthenia, rash, nausea, and anemia (six each). No type of grade 3 adverse event occurred more than once, with the exception of hypophosphatemia (two patients).

The results clearly demonstrate that BRAF V600E is "an actionable target beyond melanoma," said invited discussant Pasi A. Janne, MD, PhD, of Dana-Farber Cancer Institute in Boston.

The potential role of BRAF inhibitors in the treatment of NSCLC remains unclear, Janne continued. Durability of responses has yet to be determined, as the progression-free survival data with dabrafenib are immature. Experience with crizotinib (Xalkori) in NSCLC has shown a median PFS of less than 8 months.

Future studies are needed to determine whether the combination of a BRAF inhibitor and another targeted agent, such as a MEK inhibitor, has greater efficacy compared with either drug alone. Preclinical studies of BRAF V600E-mutant colorectal cancer have suggested synergistic activity with the combination of an anti-BRAF agent and an inhibitor of epidermal growth factor receptor.
个人公众号:treeofhope
老马  博士一年级 发表于 2013-6-13 01:39:04 | 显示全部楼层 来自: 浙江温州
cMet抑制剂列表
Cmet.JPG
老马  博士一年级 发表于 2013-6-13 01:40:38 | 显示全部楼层 来自: 浙江温州
Pi3K突变和扩增
Pi3K.jpg
老马  博士一年级 发表于 2013-6-13 02:23:35 | 显示全部楼层 来自: 浙江温州
Abstract Number:
e13517

Citation:
J Clin Oncol 31, 2013 (suppl; abstr e13517)

Author(s):
William Rayford Gwin, Leihua Liu, Sumin Zhao, Wenle Xia, Neil Spector; Duke University Medical Center, Durham, NC



Abstracts that were granted an exception in accordance with ASCO's Conflict of Interest Policy are designated with a caret symbol (^).

Abstract Disclosures

Abstract:


Background: Human epidermal growth factor receptor (HER) receptor tyrosine kinases play a key role in solid tumor oncogenesis. Despite broad expression of HER receptors in solid tumors, HER targeted therapies have not shown significant improvement in survival, calling into question the value of wild-type HER receptors as therapeutic targets. Here we found that an irreversible pan-HER tyrosine kinase inhibitor (TKI), neratinib, but not similar HER TKIs, induced morphologic changes in ovarian, TNBC, and prostate cancer cell lines consistent with induction of autophagy. Methods: SKOV3 (ovarian), OVCAR8 (ovarian), HBL-100 (TNBC), and LAPC4 (prostate) cancer cells were treated with lapatinib, gefitinib, CI-1033, afatinib, and neratinib (0.5mM-2.5mM). The activation state of HER2, EGFR, HER3, Akt, Erk, p70S6, 4EBP1, and Ulk1 was determined by Western blot analysis (WB) at various time points of neratinib treatment. LC3 was analyzed by immunofluorescence (IF) microscopy and WB. Analysis of proliferation, apoptosis, and cell cycle were performed using WST-1, annexin V, and PI staining, respectively. Results: Neratinib, but not similar HER TKIs, induced marked cytoplasmic vacuolization in tumors. The conversion of LC3-I to LC3-II in neratinib-treated cells was consistent with induction of autophagy. Moreover, PI3K/Akt, MAPK/Erk1/2 and mTORC1 signaling cascades were inhibited in neratinib-treated cells, and were associated with the inhibition of phospho-Ulk1, a key step in autophagy initiation. Treatment with neratinib alone resulted in G1 cell cycle arrest. Importantly, the combination of neratinib and chloroquine, an autophagy inhibitor, induced a statistically significant inhibition of cellular proliferation (p <0.01) and increased apoptosis compared to treatment with either drug alone. Conclusions: Our data suggest that more effective inhibition of wild-type HER receptors, can lead to mTORC1 inhibition, which in turn triggers autophagy. Here, autophagy appears to protect cells rather than inducing apoptosis. Consequently, targeting both HER receptors and autophagy represents an attractive therapeutic strategy to treat tumors expressing wild-type HER receptors.

个人公众号:treeofhope
vague  高中一年级 发表于 2013-6-13 16:38:59 | 显示全部楼层 来自: 江西南昌
像我父亲,没有做基因检测,按照这个帖子应该还是首先选择一线化疗,然后二线TKI?http://www.yuaigongwu.com/forum. ... 8&fromuid=29490
父亲伽玛刀治疗快结束了!看到你关于空窗期的风险,压力山大啊!
http://www.yuaigongwu.com/thread-10348-1-1.html
老马  博士一年级 发表于 2013-6-14 08:18:51 | 显示全部楼层 来自: 浙江温州
ASCO: Treating Lung Cancer After Targeted Therapy–Resistance
By Howard West, MD1 | 2013年6月11日
1Medical Oncologist, Swedish Cancer Institute, Seattle
Interviewed by Anna Azvolinsky, PhD

Cancer Network: Dr. West, non–small-cell lung cancer is becoming increasingly defined by molecular subtypes. Could you go over what the established subtypes are and the available agents that target these?
Dr. West: Well, we are increasingly doing molecular testing on the vast majority of patients with non–small-cell lung cancer. When we talk about molecular testing, we are really focusing this point on patients with non–small-cell lung cancer subtypes, so the approximately 87% or 88% of lung cancer that is non–small-cell. Then, within that group, adenocarcinoma comprises about 60% or so of the patients in the United States, and most of our patients who have an actionable target have an adenocarcinoma, but there are some patients who have the squamous subtype, which is about 20% to 25% of non–small-cell, and they are less commonly found to have an actionable mutation and are a subgroup of patients that we don’t routinely send for molecular testing. There is another small group of patients who don’t fit into the adeno or squamous non–small-cell, and they have a variable probability of having mutations so we still test them. Specifically, the mutations we are looking for are EGFR, or the epidermal growth factor receptor, which is seen in about 10% to 15% of patients in North America and more like 25% to 30% of those in Asia—also ALK rearrangements, which occur in about 4% of patients with non–small-cell and predominantly those with adenocarcinoma. Both of these mutations are more commonly seen in patients with no smoking or minimal smoking history. Finally, there is a mutation called the ROS1 rearrangement that is less common, only about 1% of patients, and these patients seem to respond to the ALK inhibitor drug crizotinib that was approved for patients with the more common ALK rearrangement. So, this testing for ROS1 is not as prevalent yet, not as widely available but is increasingly being tested for, at least by many lung cancer specialists who have found patients who can benefit greatly from these treatments. Because when you do have a driver mutation and the right target, we see a probability of response and depth of response that we just don’t see with chemotherapy.

Cancer Network: So, what is the best time for patients to receive the targeted therapies you mentioned, the EGFR inhibitors and the ALK inhibitors?

Dr. West: In general, there is a consensus that we should be giving these therapies as early as possible, as soon as you know a patient has a mutation that could have a high association with a good response. The treatments that we are talking about in the United States, erlotinib for patients with EGFR mutations or crizotinib for patients with an ALK rearrangement, are oral therapies that are typically better tolerated than chemotherapy, or at least generally very well tolerated. They certainly lend themselves to longitudinal administration because they tend to not have many cumulative side effects. They give a high probability of response in the range of 60% to 75% and a degree of response that we just don’t see with standard chemotherapy. We do tend to favor these being the first therapy that you give if you find that a patient has one of these driver mutations before you start them on systemic therapy. We don’t have complete proof that it is better in terms of overall survival to give these therapies first rather than a maintenance therapy or second-line or later. I think many patients will do just as well if they end up getting these very effective drugs as second-line or later therapy. But, unfortunately, some patients do have unforeseen and catastrophic complications—perhaps leptomeningeal disease, which is involvement of the brain with the cancer that can lead to a rapid decline. Patients can miss that opportunity for treatment that can produce rapid and long-lasting responses, and that is exactly what we want to avoid. So, in general, just about everybody is inclined to give the drugs early on.

Cancer Network: How long do patients generally respond to EGFR inhibitors or crizotinib, and is there a way to predict response length?

Dr. West: There is not a good way to predict this in both EGFR mutation patients and those with an ALK rearrangement. The median duration of response before patients progress is in the range of 8 to 12 months, varying from one patient to another. Typically within a year, but there are a minority of patients who continue to do well for several years at a time, even a few beyond 3 or 4 years. There is a little bit of evidence that is not as consistently reported that patients with a particular mutation in EGFR, called exon 19, have the greatest probability of prolonged response compared with those with another activating mutation on exon 21. But, that is about the only predictive marker we have and even that is not that consistent, so we really can’t say whether someone is likely to respond for a few months or several years to these agents. That said, the degree of response that we see in a patient tends to be correlated with how well they do, so the patients who immediately feel better and whose imaging shows a dramatic response are also often the patients who have the longest responses.

Cancer Network: Most patients’ tumors eventually acquire resistance to the targeted therapies you mentioned. How is resistance typically detected and defined, and what are the issues with defining resistance in the clinic?

Dr. West: Resistance is typically detected by routine imaging. When we are following someone with lung cancer and we do chest CT scans or sometimes PET-CT every few months, we will generally see a new lesion in the liver, the lungs, or the bone, or a growing lesion that we have been following for a while. If the changes are significant enough, that will be considered progressing disease; it has to do with the dimensions of the tumor. It is important to recognize that small subtle changes, or even a new lesion or two, don’t necessarily lead most experts to want to make a change in therapy. We can see very slow, indolent, and not clinically significant progression of disease long before a patient actually needs to make any change at all. Many patients will go 3 months, 6 months, even a year or longer before they have enough change that the treating physician with a lot of experience concludes that there is an incentive to make a change in treatment—whether that is discontinuing the targeted therapy and making a switch to chemotherapy, or adding chemotherapy and continuing the targeted therapy. There are also some patients who will have new symptoms related to their cancer, whether an area of pain from a bone lesion or new headaches, vision changes that lead to a head MRI and show that someone has a new brain metastases, that are of course clinically significant. But with regards to brain lesions in particular, many experts are really not inclined to discontinue the targeted therapy because brain lesions that arise in this setting don’t necessarily represent resistance to the drug as much as the drug just not being able to get into the central nervous system. Many of these patients can be treated for their brain metastases, with radiation for instance, and continue to do extremely well for months or even years on the ongoing targeted therapy.

Cancer Network: What are the current treatment options for patients who do become resistant to targeted agents? Is it mostly chemotherapy?

Dr. West: Well, there are a growing number of clinical trials, sometimes with novel agents, and certainly these are very appealing options when they are available. Outside of that, we do generally favor chemotherapy. If patients have received first-line targeted therapy, then we generally try to approach treatment with the same chemotherapy options as for someone who is being treated in the first-line setting and who doesn’t have a mutation. Typically, this would be a platinum-based doublet, potentially with bevacizumab(Drug information on bevacizumab), the antiangiogenic agent. Some experts favor continuing the EGFR or ALK inhibitor, and some favor discontinuing it and even potentially restarting it later because we sometimes do see responses or at least prolonged stable disease after rechallenging the patient, even with a drug that they had progressed on earlier because sometimes patients’ tumors can become resensitized to that targeted therapy after a period off of these drugs.

Cancer Network: Lastly, are there any issues with developing resistance to targeted therapies and treatment of patients that we haven’t touched upon yet?

Dr. West: I would say that there is a lot of controversy about whether repeat biopsies should be done in all patients, whether this is a desirable option or whether this should really be bothered with at all. We will sometimes see a change in the histology of the cancer from non–small-cell lung cancer to small-cell lung cancer in somewhere between 3% to 14% of patients who develop resistance. This was actually a very hard to believe finding when it was first reported several years ago, but it has been confirmed by several different studies. You can sometimes see small-cell lung cancer lesions that developed while the patient was on an EGFR inhibitor for months or years, and these patients even have EGFR mutations in non–small-cell lung cancer, so it seems to be an actual transformation. Many of these patients can respond very well to the chemotherapy approaches used routinely for small-cell lung cancer, which is typically a platinum drug with etoposide(Drug information on etoposide) in North America. So, that is one incentive to potentially do a biopsy on a progressing lesion. But, that is also a minority of patients. Outside of that, we really don’t have examples of an actionable result that will lead to a change in treatment based on a biopsy. I don’t consider this a standard of care. That said, I do favor getting tissue whenever possible because this has been the way the field has moved forward to understand the molecular mechanisms underpinning acquired resistance. There have been a growing number of clinical trials with targeted therapies that require tissue. I would say that our biggest advances that we have made in the field in non–small-cell lung cancer have been based on molecular oncology, so the limitation of not having enough tissue is going to limit our understanding and the availability of new therapies. The best thing we can do, even if it is not yet the standard of care, is to get more tissue to try to understand things better.
个人公众号:treeofhope
老马  博士一年级 发表于 2013-6-15 00:24:45 | 显示全部楼层 来自: 浙江温州
Progression-free and overall survival according to response

PFS was not reached for the 24 patients who attained CR, while it was 15 months (95% CI, 12.2&17.8 months) for the 115 patients with PR, 9 months (95% CI, 5.9 to 12.1 months) for the 38 patients with SD, and 2 months (95% CI, 0 to4.2 months) for the 20 patients with PD (P<0.001)(Fig. 2A in the Supplementary Appendix). For patients with CR, median survival was not reached and 3&year survival was 58.7%. For patients with PR, median survival was 28 months(95% CI, 21.7 to 34.3 months) and 3&year survival was 32.5%. For patients with SD, median survival was 18 months (95%CI, 10.6 to 25.4 months) and 3&year survival was 0%. For patients with PD, median survival was 9 months (95% CI, 6.6. to11.4 months) (P < 0.001) (Fig. 2B in the Supplementary Appendix).
PFS.JPG
个人公众号:treeofhope
CH333  小学六年级 发表于 2013-6-15 00:37:15 | 显示全部楼层 来自: 广东广州
收藏了,谢谢!

发表回复

您需要登录后才可以回帖 登录 | 立即注册

本版积分规则

  • 回复
  • 转播
  • 评分
  • 分享
帮助中心
网友中心
购买须知
支付方式
服务支持
资源下载
售后服务
定制流程
关于我们
关于我们
友情链接
联系我们
关注我们
官方微博
官方空间
微信公号
快速回复 返回顶部 返回列表