It’s been a couple of weeks since my last clinical post, so I wanted to provide an update following this week’s NIH appointments.
First, surgical insertion of my Aspira® drainage system has dramatically improved the pleural effusion in my left lung. It’s essentially a chest tube/catheter that allows me to drain the fluid buildup on an as-needed basis into drainage bags at home. The image to the right shows before and after chest x-ray images that demonstrate just how blocked my left lung was before being drained (nearly 2/3 blocked). It also shows how my left lung is now “close” to normal following drainage.
Second, I’ve been on prednisone (steroid) to help “sculpt” the inflammatory response, which is also helping keep the fluid from building up so quickly in my left lung. Whereas I was emptying 100 mL or more on a daily basis previously, I am now only draining 15-20 mL every other day or so.
Now that the pleural effusion can be managed, attention returned to whether or not to resume treatment with M7824, a completely novel, first-in-class, bispecific fusion protein (see prior posts for more details). My last infusion of M7824 was several weeks ago.
Following another CT scan and constructive discussion with the NIH team, we came to the conclusion that there is essentially a tug-of-war occurring between the cancer in my lungs and my body’s immune system, the latter of which appears to be benefiting from M7824. The hope is that eventually M7824 will tip the scale in favor of my body’s immune system and control the cancer.
Accordingly, the decision was made to keep moving forward with M7824 and I received an infusion on Tuesday, May 16, 2017. As with past administrations, there were no issues and I returned home to Pennsylvania with Lorie later that evening.
The pleural effusion will be monitored closely and managed via the catheter and steroids. As long as there are no major issues in terms of fluid in my lung, I will continue to receive an infusion of M7824 every other week. A repeat CT scan will be done in a month or so to reassess the situation.
This is week #9 on clinical study, as I received my infusion of M7824 yesterday as planned. All of my pre-therapy vitals and bloodwork came back fine, which meant the treatment was a go. As with previous infusions, there were no issues during or after. Everything went just fine.
It was unfortunately a later night than expected, as Lorie and I just missed our 7:30pm train and had to catch one leaving the next hour. So, we ended up walking in the door at home around midnight. Could always be worse!
Following the discussion in my past few blog posts, I’ve been learning more about the concept of “pseudoprogression,” or the apparent growth of a tumor followed by sustained regression, which is common following treatment with checkpoint inhibitors. For example, I came across the video clip below by OncLiveTV that contains a discussion of “Pseudoprogression With Checkpoint Inhibitors in Non-Small Cell Lung Cancer,” where panelists explore the implications of this phenomenon for patients with NSCLC. While I do not have NSCLC, the overall concept of pseudoprogression with checkpoint inhibitors is relevant to my treatment and latest scan results – whereby the tumor growth exhibited could be from inflammation due to an ongoing positive immune response, or from an actual increase in the tumor that continues until the body’s immune system overpowers the cancer. It could also be a combination of the aforementioned. In any event, I think that pseudoprogression is an important concept for patients receiving some immunotherapies to better understand – especially when getting imaging results following treatment.
PS – anyone who knows me, knows that I’m a big Chicago Cubs baseball fan (having grown up in Chicago)…so I’d be remiss if I didn’t ask you to keep voting for retired catcher David Ross on this season’s ‘Dancing with the Stars’. In case you missed his debut performance, here’s a clip where he danced to Steve Goodman’s “Go Cubs Go” – while wearing Cubs gear.
Monday evening, my wife Lorie and I traveled to Bethesda, MD in advance of my third infusion with M7824, a completely novel, first-in-class, bispecific fusion protein (see prior posts for more details). However, this was my first time being infused as an outpatient in the day hospital, as prior infusions required a short stay in the hospital for blood work, observation, etc. As with the first two infusions, everything went smoothly yesterday, with no adverse reactions during or following treatment. We caught a 9pm train home and were in bed by 12:30am ET.
As I posted on social media throughout the day while at the NIH, I was truly humbled by the outpour of support – especially hearing from people I haven’t seen in years or decades. Amid the sea of political rants and opinions via these channels, it was nice to be reminded that social media can be a positive experience. Throughout the emails, Tweets, and posts, a lot of people remarked that I sound and appear “surprisingly positive” and “happy.” And truth be told – they’re RIGHT.
Sure, I have advanced cancer – and I’m not Pollyanna about what the future may have in store for me as a result. But, I was very fortunate to participate in a clinical study with a quite promising, investigational immunotherapy that has, so far, had no negative impact on my day-to-day quality of life. That is a very stark contrast from what I experienced after going through chemoradiation. While the outcome is far from certain, participating in this clinical study has given me every reason to “hope” that the therapy will work. And it is that hope that gets me up in the morning…smiling…ready to face the new day.
If anything has changed recently, it has been for the better. I’m now focusing my existing time and energy where I want, and it has been liberating. Death is always knocking on our doors, but it isn’t until the sound becomes louder later in life that you discover new priorities and sense of urgency. In this regard, I’ve started writing my memoir covering a +20-year biotechnology career and have been working with an amazing editor. I always enjoyed writing blogs and newsletters, but Lorie strongly encouraged me to finally write a book and it has been quite rewarding thus far. My goal is to get it done by late summer or so (30,000 words so far…), and I will definitely let everyone know more details via this blog as the project advances. I also recently started a coffee table book project to showcase my photography work over the past few years, with approximately 200 images selected and a draft layout complete. To fund the latter, I plan on launching a KickStarter campaign to finish the design and secure a larger order to reduce the per unit cost. And most importantly, through my disease openness and this patient blog, I’m exploring numerous opportunities to help raise awareness for currently available vaccines that can protect boys and girls against human papillomavirus (HPV) subtypes that most commonly cause anal, cervical, oropharyngeal, penile, vaginal, and vulvar cancers.
So, yes…I’m a cancer survivor and I’m positive because I have “hope” and will continue until life shows me otherwise. Inspired? Good…that’s my goal!
Finally, special thanks to everyone for the thoughts, gifts and support. Hearing from people I haven’t seen in years has also been amazing. A truly humbling experience and greatly appreciated.
Standing on the train platform this morning on my way to NYC, the late British rocker Joe Cocker’s version of Feelin’ Alright was playing over the sound system. Not only a good song to start the daily commute, it seemed an appropriate theme for this blog post.
It was exactly one week ago today that I received my first infusion of an experimental cancer immunotherapy agent, called M7824, as part of a Phase 1 clinical trial at the National Institutes of Health (NIH). Recall from my prior post that M7824 is a completely novel, first-in-class, bispecific fusion protein of an avelumab-like antibody linked to two molecules of TGF-beta trap. While very early in the process, I’m happy to report that so far I’m feelin’ alright.
As someone who has received three cycles of chemotherapy and a total radiation dose of 70 Gray over seven weeks, I can say with conviction that, so far, being treated with an immunotherapy agent has been a proverbial walk in the park. In fact, if it weren’t for the fact that this clinical study is not placebo controlled, I would seriously question whether or not I was in the active arm of the study.
For example, in contrast to chemotherapy and radiation, I haven’t experienced any of the hallmarks of traditional cancer therapy, such as nausea or fatigue, with the experimental immunotherapy agent. Important to note, however, every drug has side effects and checkpoint inhibitors like M7824 are associated with their own unique spectrum of immune-related adverse events. These include dermatologic, gastrointestinal, hepatic, endocrine, and other less common inflammatory events. In some cases, these side effects can be managed with corticosteroids or diphenhydramine. Less frequently, clearly defined autoimmune systemic diseases, such as lupus, have been reported.
In fact, approximately 30-40% of patients treated with approved PD-1/PD-L1 checkpoint inhibitors (nivolumab/pembrolizumab) will have dermatologic complications. For most patients, dermatologic toxicity is the earliest immune-related adverse event experienced, with onset an average of 3.6 weeks after treatment initiation¹. Accordingly, it may be too early for me to be experiencing any such side effects.
Of course, having a “safe” drug is important – but for me, the real hope is that M7824 is effective in treating my recurrent disease. In this regard, in an interview with EP Vantage earlier this month, Luciano Rossetti, Merck KGaA’s head of R&D, told EP Vantage that M7824 is “the most exciting clinical asset in our pipeline right now” adding that it has yielded “spectacular” early data. You can read the full interview by clicking here.
I remain hopeful and strongly believe that my generation could be among the last to experience toxic upfront treatments like chemotherapy and radiation thanks to the many advances being made with immunotherapy.
First, my apologies for the length of time from my last clinical update. I’m not generally a superstitious person, but I wanted to wait for a few formalities to be addressed before posting.
Previously, I referenced that my next therapy would likely be at Memorial Sloan-Kettering Cancer Center (MSKCC) and include Opdivo® (nivolumab), a form of immunotherapy called a “checkpoint inhibitor.” What is that, you ask? Human cells carry certain proteins on their surface that enable them to escape attack from the body’s immune system. Some cancer cells wear one of those same proteins, called programmed death ligand 1 (PD-L1), which renders the cancer cells invisible to the body’s immune system. Blocking either PD-L1 or its receptor, programmed death 1 (PD-1), appear to be Achilles’ heels for multiple tumor types. Coincidentally, I covered the exciting early developments in the checkpoint inhibitor field in July 2013, which you can read by clicking here.
My concern is that across clinical studies in numerous cancer types, only about 20% of patients receiving checkpoint inhibitors have a durable response. For these patients, the benefits tend to last for years – perhaps even indefinitely. Exciting, yes. But for the other 80% of patients, the results are less dramatic. For example, in the recurrent head and neck cancer study for Opdivo, the median overall survival was 7.5 months for patients that received Opdivo versus 5.1 months for patients that received standard therapy options (cetuximab, methotrexate, or docetaxel). Clearly, Opdivo was superior to standard therapies and definitely worth considering. But the median overall survival is the time period lying at the midpoint of a frequency distribution of observed values, such that there is an equal probability of falling above or below it. The prospect of being in the 80% group with less than a year to live forced me to consider alternatives.
Fortunately, I became aware of a clinical trial for an investigational agent called M7824, a bifunctional fusion protein targeting PD-L1 and TGF-β, that was developed by EMD Serono, the biopharmaceutical division of Merck KGaA, Darmstadt, Germany. M7824 is currently being studied in a Phase 1 trial for patients with advanced solid tumors (ClinicalTrials.gov Identifier: NCT02517398). The principal investigator for the study is James L. Gulley, M.D., Ph.D., F.A.C.P. of the National Institutes of Health, Center for Cancer Research. In addition to his role as Chief of the Genitourinary Malignancies Branch, Dr. Gulley is also Director of the Medical Oncology Service, Office of the Clinical Director. He is an internationally recognized expert in cancer immunotherapy and I’ve had the honor of knowing him professionally for more than a decade – starting back when I was at Cytogen Corp (just an amazing individual and I cannot say enough good things about him!). Other key members of my fabulous team so far include Dr. Julius Strauss, Lead Associate Investigator for the study and Fellow Physician in Oncology at the National Institutes of Health, Andrea D. Burmeister, Physician Assistant, and Elizabeth Lamping RN, BSN, Research Nurse Specialist.
M7824 consists of a fully human monoclonal antibody against PD-L1 plus a transforming growth factor beta (TGF-β)-neutralizing trap component. This means that M7824 should confer all of the benefits of a checkpoint inhibitor against PD-L1, but with the added punch of neutralizing TGF-β. Dual targeting of the PD-L1 and TGF-β pathways makes sense because both are key immune evasion pathways with independent yet complementary functions.
The TGF-β signaling pathway is complex – resulting in either tumor suppressor or tumor-promoting activity depending on the cellular context in which the pathway is active. In advanced disease, the tumor suppressor arm of TGF-β signaling is lost and, instead, tumor cells proliferate. Further, TGF-β overexpression in advanced disease enhances tumor growth, suppresses the immune system, and exacerbates invasive and metastatic tumor cell behavior.
The more I researched TGF-β, the more encouraged I became about enrolling in the M7824 clinical trial – especially given the specific profile of my disease. Recall that I was diagnosed with human papillomavirus “HPV” positive, squamous cell carcinoma (SCC), which is cancer that begins from squamous cells, a type of skin cell. In addition to being one of the main types of skin cancer, cancers that involve the anus, cervix, head and neck, and vagina are also most often SCC.
Only a minority of people exposed to human papillomavirus develop HPV-related cancer, such as oropharyngeal cancer (lucky me!) or cervical cancer. In a paper published December 2014 in Cancer Research, Levovitz et al. demonstrated that genetic variation in immune-related genes is a determinant of susceptibility to oropharyngeal cancer and other HPV-associated cancers, particularly those related to TGF-β signaling. In other words, it is possible that people carrying genotypes with such variants are more likely to have an HPV-positive tumor compared to patients with the wild-type genotype. The likely functional significance of altered TGF-β signaling in HPV-related cancers is further supported by the finding by Levovitz et al. that TGF-β receptor type 1 is significantly overexpressed in both oropharyngeal cancer and cervical cancer.
In a paper published in February 2015 in Cell, Oshimori et al. establish a surprising non-genetic paradigm for TGF-β signaling in fueling heterogeneity in squamous cell carcinoma (SCC) stem cells, tumor characteristics, and drug resistance. Armed with this insight as well as the relevance for HPV-positive cancers, I decided to enroll in the study and passed the screening process.
In December 2016, Dr. Gulley presented preliminary data from the ongoing Phase 1 study of M7824 at the 28th symposium on Molecular Targets and Cancer Therapeutics, also known as the ENA symposium. Early results were encouraging, with M7824 associated with complete (CR) and partial responses (PR) in patients with advanced refractory cancer.
Today is my first one-hour infusion of M7824 and I look forward to reporting on my experience with immunotherapy in subsequent posts. With just a few minutes remaining for the infusion – so far, so good!