T-DM1 | Pharma Strategy Blog

AACR 2013 – some initial thoughts on the emerging trends

This year’s American Association for Cancer Research (AACR) annual meeting grew by 8% to approximately 18,000 attendees with 25% from 75 foreign countries, it is truly becoming a more global event for cancer researchers.

Over the next few days I plan to cover some of my highlights (basic, translational and clinical) in depth here on the blog and also with additional notes for email subscribers. If you haven’t signed up for the PSB email alerts, there’s still time before the AACR notes go out.

With around 6,000 posters and many oral presentations from leading researchers, there is usually some interesting early data coming out from AACR. This year was no exception. My pile of poster handouts is over 6” thick with more already coming in my email! My fervent wish for next year is that more scientists take to the QR code method of sharing their posters – aside from being green and saving trees, it’s also considerably easier on the back! Another welcome development would be putting the posters online for later download as many of the European meetings already do.

I’m a little tired today as the event only just finished yesterday with a very good plenary session involving Jeff Engelman (MGH), Neal Rosen (MSKCC), Todd Golub (Broad Institute) and René Bernards (Netherlands Cancer Institute). More on this later, but what a way to end the meeting with a fairly packed hall despite it being the last day.

One of my favourite activities at AACR is talking with young researchers in the poster hall, and a few of these will be highlighted in separate posts. Many took the time to explain some complex biology and answer my many questions on a variety of topics. Some of this information was really helpful in improving my own understanding of why I don’t like some therapeutic approaches (e.g. targeting hypoxia) others reinforced my enthusiasm for some immunotherapies such as PD-1 and PD-L1 inhibition.

What about the emergent themes from this year’s AACR meeting?

Every year brings new developments in some shape or form, but here are some of the trends I observed based on the posters and oral sessions I attended:

Identifying and developing strategies for overcoming resistance was MUCH more noticeable this year
New combination strategies (including more novel-novel approaches) was also very much to the fore
Increased pace of research into biomarker identification for clinical trial design
Continuing rise of epigenetics as a viable approach for cancer therapeutics
New targets emerging (more about these later)
Second generation agents to CDK 4/6 and 7, chimeric antigen receptor technology (CART), Polo-like Kinase (PLK1) and many others.

Over the next few days I’ll be writing more about these topics after wading through my many pages of chicken scratch notes from the oral sessions (largely driven by ones I know likely won’t be on the webcast, which goes live for the majority of sessions on May 1st) and that huge poster pile – watch this space!

ASCO 2012 Preview – Highlights of key data emerging from Chicago

By MaverickNY on May 15, 2012

It’s that time of the year again where we cogitate and contemplate on what might be hot at the annual meeting of the American Society of Clinical Oncology (ASCO) before the abstracts are available (they’re released online tomorrow at 6pm ET).

This year, while interesting early data from up and coming small biotechs is likely to be eagerly presented in poster sessions, the focus is more likely going to be on big Pharma with various phase III and also late phase II trials that are due to report data. Unfortunately, not all of these will produce overwhelmingly positive results though!

What I’m most interested is things that shift the needle meaningfully in terms of survival by six months or more, as we saw from the recent BOLERO2 and CLEOPATRA trials in ER+ and HER2+ breast cancer. There are plenty of agents that offer minor or incremental improvements (colon cancer has long suffered from that syndrome, sadly), but let’s be honest – most of us get excited by the possibility of major shifts in survival.

Please note that I’ve mostly selected some promising agents in development that might achieve that effect, explained why they are different and focused on new data/drugs rather than rehash what I call the ‘middlings’ i.e. minor upgrades to the standard of care.

Without much further ado, here are my ASCO preview highlights for 2012:

Please do check back during the convention both here on PSB, and also on Biotech Strategy, for reports and analysis as the interesting data emerges at ASCO.

If you have any comments or thoughts, please do share them below…

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An in-depth review of the Phase II T-DM1 data in first-line metastatic breast cancer

By MaverickNY on September 30, 2011

The other day I highighted the phase II data from the T-DM1 (trastuzumab emtansine) trial as one of my top four abstracts at the ECCO European Multidisciplinary Cancer Conference (#emcc2011) in Stockholm.

For those of you interested in ADC technology, I wrote about the fascinating concept previously, if you want to check it out.

I think T-DM1 is a really exciting development for several reasons, so let’s take a look at the study in more detail.

T-DM1 is an antibody drug conjugate (ADC), which combines the trastuzumab monoclonal antibody with a cytotoxic agent, maytansine, via a linker. This new molecule is stable and allows the structure to hold together until it reaches the cancer cells, wherein the chemotherapy is released in a much more targeted fashion than giving chemotherapy and Herceptin as separate drugs by infusion. With the traditional approach, it means that the chemotherapy will target normal cells as well as cancer cells, leading to significant side effects, including cardiotoxicity.
ADC technology is designed to allow the combination to be delievered more specifically to the tumour, while also potentially reducing the side effects for patients.
In this study (TDM4450g), T-DM1 was compared with the standard of care, trastuzumab (Herceptin) plus docetaxel in women with HER2+ metastatic breast cancer who had been previously untreated ie first-line therapy.
It should be noted that maytansine is a very powerful cytotoxic that was originally seen as too toxic when given by traditional infusion. Combining it as an ADC therapy, however, reduces some of the associated adverse events since it can now given in a more localised fashion where it is most needed, ie in the tumour itself.

One of the challenges with the T-DM1 trial, though, as Martine Piccard, the Discussant correctly pointed out, is the open label design. One must be careful in interpreting data from them, as Kaufman et al., (2007) observed:

“Placebo controlled, double-blind trials can reduce bias when efficacy is studied. Open label designs can falsely suggest efficacy and fail to uncover harmful effects. Placebo controlled trials are considered ethical when there is no standard treatment better than placebo, and when participants are informed about the use of a placebo.”¹

Unless a trial is blinded, we can never completely be sure the patients weren’t selected to either arm without bias, even if unconscious. Now, I’m not saying that was the case here, merely that one must be aware of both the limits and potential possibilities.

That said, my least favourite studies are open label single arm trials, but that wasn’t the case here, since half the women were randomised to receive the standard of care, ie trastuzumab plus docetaxel, making it a good comparison to see if any improvement can be attained. However, a double blind placebo controlled (in place of docetaxel) randomized trial is always a more reassuring design than an open label one.

That said, unlike pills, it is much harder to give chemotherapy blinded because the dosing is calculated as per kilogram of body weight, a dead giveaway. Thus, T-DM1 is given as 3.6 mg/kg, while the trastuzumab dose is given per 6 mg/kg, whereas docetaxel (75 or 100 mg/m2) versus placebo can clearly be be more easily blinded.

We must also remember that this is an exploratory phase II trial designed to see whether there is an efficacy signal or not. The study endpoint was PFS. Phase III trial designs are often much more robust.

What do the results show?

The proof of the pudding is ultimately in the analysis, not the theory, though.

The good news is that Dr Sara Hurvitz (UCLA) presented data that was actually much better than I expected, which is very heartening to see. Usually, in metastatic disease, where there is a very high disease burden, we sadly see increments of ~2 months or less in many investigational agents, so anything more than that is a real standout.

In the TDM4450g trial, the efficacy and tolerability results were impressive:

Patients lived a median of five months longer without their disease worsening ie the median progression free survival (PFS) was 14.2 months vs. 9.2 months (HR=0.59, P=0.035) in favour of T-DM1 over the standard of care.
Note: any HR under 0.60 is scarily good news – that means a huge 41% reduction in the risk of the disease worsening or death was seen.
Overall survival had not yet been reached at the time of the presentation in the T-DM1 arm, another good sign that the data are likely to be durable.
Women in the T-DM1 arm generally experienced fewer adverse events compared to those who received Herceptin plus chemotherapy: the rate of Grade 3 or higher adverse events was reduced by nearly half (46.4% vs. 89.4%).
In addition, more women on Herceptin plus docetaxel discontinued therapy due to side effects compared to T-DM1 (28.8% v. 7.2%).

Here’s a snapshot of the PFS curves – you can decide for yourself what you think:

So far, so good.

However, in the interests of fair balance, there were some side effects that appeared more in the T-DM1 arm, namely:

Thrombocytopenia (30.4% v. 6.1%)
Increased liver enzymes such as aspartate transaminase (AST) (39.1% v. 6.1%)

The most significant adverse event for me though, was cardiotoxicity, which is a well known side effect of standard Herceptin plus docetaxel therapy. Here’s how that data looked at the time of the analysis:

As you can see, it was less in the T-DM1 arm than the standard of care, which is most encouraging.

Patient sentiments are important

I did a quick search to see what patients in the trial were saying and came across these two heartfelt posts I encourage you all to read – it will put your day into perspective. Participating in clinical trials is not a bed of roses by any stretch of the imagination and I salute these brave women in their fight:

In conclusion…

These data from the phase II T-DM1 versus trastuzumab plus docetaxel study are an excellent start, with promising efficacy and safety signals in favour of the ADC over standard of care.

The big unanswered questions are whether the overall survival (OS) will also be better (I really hope so) and whether the data is reproducible in a large scale phase III trial (ditto). We will have to wait a while to see the more extensive phase III trial results.

Kaufman et al., (2007) Issues in SMA clinical trial design The International Coordinating Committee (ICC) for SMA Subcommittee on SMA Clinical Trial Design http://www.columbiasma.org/docs/news/Kaufmann%20Muntoni%20Trial%20Design.pdf ↩

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Seattle Genetics announce fast track approval of Adcetris

By MaverickNY on August 22, 2011

This morning, Seattle Genetics announced that the expected fast track approval from the FDA has been forthcoming for brentuximab vedotin (Adcetris) following the recent unanimous ODAC voting in both refractory Hodgkin Lymphoma (HL) and Anaplastic Large Cell Lymphoma (ALCL). Clearly, the company and the agency have come to agreement on the confirmatory trials as part of the condition of accelerated review. The final prescribing information (PI) can be found on the Adcetris website.

For those of you looking for more information on Adcetris, please check out the related posts section below for previous reports on this novel ADC therapy.

I missed the conference call this morning announcing the pricing details, but Luke Timmerman from Xconomy had a nice summary:

“The company set the price at $13,500 per dose, given intravenously every three weeks. If patients get eight infusions on average, consistent with clinical trial experience, then it will cost $108,000 per patient.”

Based on the data from the clinical trials, most patients will probably need 7-9 cycles, so this would make the overall course in the $94,500 – $121,500 per treatment range, with $108K being the average based on 8 cycles. The overall treatment cost will therefore typically be less than the $120K cost of treatment for BMS’s ipilimumab (Yervoy) in metastatic melanoma.

Ever since Dendreon announced the $93K course of treatment for Provenge in asymptomatic castrate resistant prostate cancer (CRPC), there has been a noticeable trend upwards in the cost of treating advanced cancers. We probably spend more treating the last 6 months of a cancer patients life than any of the other stages combined with incremental rather than dramatic improvements. In the long run, this is likely to be unsustainable, but for now companies will continue to charge what they think the market will bear.

The good news is that Adcetris offers excellent clinical proof of concept for antibody drug conjugate (ADC) technology and has the distinction of being the first such agent approved, beating Roche’s T-DM1 to market, which has been filed with the FDA for the treatment of HER-2 breast cancer.

In the meantime, we also have several other novel therapies awaiting final review by the FDA. Aside from T-DM1, Pfizer filed crizotinib for ALK-positive lung cancer and now has a brand name, Xalkori, which I thought sounded rather Vulcan :). Should these two agents also receive FDA approval in the very near future, 2011 will likely be a bumper year for new cancer drug approvals.

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Antibody Drug Conjugates (ADCs) in cancer research: what are they?

By MaverickNY on May 25, 2011

Quite a few questions have hit my inbox recently from people wanting to know more about Antibody Drug Conjugates (ADCs) and how they work.

They basically consist of three things:

Monoclonal antibody
Linker
Cytotoxic agent

Source: Roche

The goal is to create a new molecule that essentially is greater than the sum of its parts by making it more targeted, like a guided missile against the cancer cells.

With normal monoclonal antibodies, they bind to atarget antigen that is a tumor-specific antigen on the surface of a tumour cell. With an ADC, the monoclonal antibody part of the molecule still latches onto the target antigen in the same way, but in this case it now has a powerful cytotoxic attached to potentiate the effect.

As Emeril would say, “Bam!”

You can see a video of how the ADC technology works HERE.

Unfortunately, the site only allows you to watch it there or download the video; it’s not easily sharable with others, short of emailing it. Sadly, I couldn’t embed it here on the blog post for easy consumption either.

A nicer way would have been to put the educational videos on a company YouTube channel and allow it to be shared through social media via Facebook, Twitter etc. Imagine clicking on a link in Twitter and being taken to YouTube on your iPad, iPhone or Android smartphone? Or watching an embedded video on someone’s blog post?

That’s a much more fun and immediate way to communicate ideas and technology from a medical or scientific learning perspective than a old fashioned static website.

It is good to see Pharma and Biotech companies active on social media, but they have a long way to go yet in terms of how they can help improve learning about the science behind new cancer research and development in an integrated way that helps the end users, ie the scientists, healthcare professionals, patients in clinical trials and analysts who might be interested.

We really do need to get away from the old web 1.0 world into the 21st century of sharing ideas, tools and medical or scientific information using social media in the web 2.0 era.

That said, there are some advanced ADC’s in clinical development at the moment. The three leading compounds I’ve come across so far are:

Brentuximab vedotin (Seattle Genetics) in Hodgkin Lymphoma (HL) and systemic anaplastic large cell lymphoma (ALCL) targets CD30 and now has a brand name, Adcetris.
T-DM1 (Roche/Genentech) in HER2+ breast cancer
SGN-75 (Seattle Genetics) in RCC and NHL

Overall though, Roche/Genentech probably have the largest active research in this area, with a large portfolio of agents in development across a multitude of different tumour types. You can check out this full ADC pipeline here.

Seattle Genetics have a couple of abstracts on their ADCs at ASCO this year and Roche have an abstract on the phase III EMILIA trial comparing T-DM1 with lapatinib plus capecitabine in metastatic breast cancer, all on Monday 6th that I hope to check out, that is if the sessions don’t clash!

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FDA rejects the Roche Immunogen T-DM1 accelerated approval filing

By MaverickNY on August 27, 2010

Interesting news arrived in my email box this morning:

"Roche (SIX: RO, ROG; OTCQX: RHHBY) today announced that the U.S. Food and Drug Administration (FDA) issued a Refuse to File letter for accelerated approval for the company’s trastuzumab-DM1 (T-DM1) Biologics License Application (BLA). As planned Roche will continue with its ongoing Phase III EMILIA registration study. Roche will continue to work with the FDA and expects a global regulatory submission of T-DM1 mid 2012.

The BLA submitted in July 2010 requested accelerated approval for T-DM1 based on the results of a single-arm Phase II study, which showed T-DM1 shrank tumors in one-third of women with advanced HER2 positive breast cancer, who had received on average seven prior medicines, including two HER2 targeted agents."

There was a lot of excitement around the initial phase II results (one third of the women experienced tumour shrinkage, for example). Yet, to much surprise, the application was rejected:

"In their review of the BLA, FDA stated the T-DM1 trials did not meet the standard for accelerated approval because all available treatment choices approved for metastatic breast cancer, regardless of HER2 status, had not been exhausted in the study population."

At first reading of the press release, my thoughts centred around:

How could the FDA possibly reject such an application?
Was an SPA agreed up front?

The first question is easy to be indignant about, but what criteria were used for the trial and what does the data actually show?

Looking at the available clinical trials for T-DM1, this one looks most likely as 100 patients were required and the inclusion criteria stated:

HER2-positive disease
Metastatic breast cancer
Disease progression on the last chemotherapy regimen received in the metastatic setting
Prior treatment with an anthracycline, trastuzumab, a taxane, lapatinib, and capecitabine in the neoadjuvant, adjuvant, locally advanced, or metastatic setting and prior treatment with at least two lines of therapy (a line of therapy can be a combination of two agents or single-agent chemotherapy) in the metastatic setting
At least two lines of anti-HER2 therapy must have been given in the metastatic setting as monotherapy or combined with chemotherapy or hormonal therapy. The HER2-targeted agent can include trastuzumab, lapatinib, or an investigational agent with HER2-inhibitory activity.

There are only two approved treatments for HER2-positive breast cancer, trastuzumab and lapatinib, plus others in clinical trials, eg pertuzumab, which was also allowed as one of the prior therapies. All patients appear to have been refractory to at least two of these drugs, most likely trastuzumab and lapatinib.

The prior chemotherapies included anthracyclines, taxanes and capecitabine, which is quite heavy pre-treatment and includes all of the considered standards of care for several lines of therapy. Indeed, the results of the trial presented at the San Antonio Breast Cancer Symposium last December showed that the average number of prior treatments in the metastatic setting was 7.

The others that could be used in the treatment of breast cancer include nab-paclitaxel (Abraxane), which I'm assuming would be covered in the taxane group and ixabepilone (Ixempra), an epothilone approved in by the FDA for metastatic breast cancer following progression on a taxane and anthracyclines, with or without capecitabine.

Ixabepilone is not a taxane or an anthracycline and therefore technically not covered in the inclusion criteria as a prior therapy, although some of the women would likely have received it, but not all. It is, however, a taxane-like compound in that it targets the microtubules, as described in the PI:

"Ixabepilone is a semi-synthetic analog of epothilone B. Ixabepilone binds directly to B-tubulin subunits on microtubules, leading to suppression of microtubule dynamics. Ixabepilone suppresses the dynamic instability of aB-II and aB-III microtubules."

If that was the criteria for rejecting the trial as not truly refractory in a very heavily pre-treated setting, I would be surprised. It's a bit of a technicality and nit-picking. Ixabepilone is not a commonly preferred treatment at all and BMS reported very low sales in 2009. Most US physicians appear to prefer the well established taxanes such as paclitaxel, docetaxel and nab-paclitaxel rather than a synthetic taxane-like agent and probably consider it as a last resort. It is used as a standalone therapy in the refractory/salvage setting.

However, we're talking about a potential indication for a targeted agent that inhibits HER2 dimerization not a chemotherapy, so I would have thought that most of the important bases were covered by including the most common chemotherapies, trastuzumab and lapatinib in the inclusion criteria.

With regards to the latter question, Twitter chat this morning suggested that no, an SPA wasn't formally agreed upon, but Roche held discussions with the FDA that led them to file for accelerated approval. Thanks to Adam Feuerstein of The Street for being the first to answer that question.

My general opinion is that if you have an agreed Special Protocol Assessment (SPA) and meet the defined targets, it's much easier to move forward and gain approval. If you don't, things may turn into a crapshoot and it can go either way. And that seems to be what has happened here.

The other factor that comes into play in this discussion is the ongoing discussion of the accelerated approval for Avastin in metastatic breast cancer and the overwhelming negative ODAC opinion last month. That will not have helped, although one would like to think it shouldn't influence any decision making at the FDA. We would probably be naive to think otherwise given the full protocol included PFS rather than OS as the endpoint.

To be fair, Roche appear to be addressing this issue, in their announcement this morning:

"Roche will amend the Phase III randomized EMILIA study in order to rigorously evaluate overall survival in addition to progression-free survival and will submit data from EMILIA to support a global regulatory submission in mid 2012."

Overall, I think it's a disappointing decision by the FDA given the heavily pre-treated population and lack of options for women who are refractory to both trastuzumab and lapatinib. Chemotherapy has not been shown to be particularly effective in HER2 disease, and by then the women generally have a poor prognosis. When you look again at the SABCS data, you find an objective response rate (ORR) of approximately 30% and a clinical benefit rate of around 40%, which is quite startling in a heavily pre-treated group.

Meanwhile, for now we'll have to wait another two years to see what the survival data looks like. That's a rather long time for women who have failed Herceptin and Tykerb to wait for a drug that appears to have significant activity.

{UPDATE: I posted this analysis in a hurry, uncaffeinated, and in a rush to head out to a meeting. Of course, one remembers later that SPA's apply to phase III not phase II trials, so a formal agreement wouldn't apply here. Thanks also to the two people who gently reminded me of this. Usually though, there are some discussions with FDA around the trial design for accelerated review. Essentially, in layman terms, it means patients are refractory to existing treatments for the disease concerned. Note that Roche, in their press release defined it as, "Consideration by the FDA for accelerated approval requires recognition of a defined patient population of unmet need (a life-threatening disease with limited treatment choices)." It looks like the FDA are applying it more strictly to ALL therapies, although the number of women who might have taken ixabepilone AND be HER2-positive will likely be miniscule. I would still maintain that refractory to all available HER2 therapies and most chemotherapies apply for the majority in this case.}

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