Jeff Dayton Team SPLASH Open
September 17th will be my 14th year swimming one mile in the Baltimore Swim Across America (SAA) event to honor my wife Patrick’s 19-year fight against leukemia and raise funds for cancer research at Johns Hopkins Kimmel Cancer Center.
This effort has funded many research achievements that bring hope and represent life-changing advances for families like mine, and way too many others who have faced the words, "you have cancer." Below is a timeline of research that has been funded by donors to SAA.
All donations are tax deductible. SAA is a registered 501(c)3 with the IRS and its tax ID is 22-3248256. To make a donation click on the DONATE NOW blue button in upper right of this page or the link below:
or send a check made payable to: Swim Across America Baltimore, P.O. Box 5384, Baltimore, MD 21209 or Jeff Dayton, 309 Saint Dusntans Road, Baltimore, MD 21212. Please list Team SPLASH Jeff Dayton in the memo line so we get credit and meet the match.
All online donors receive an e-receipt and all donations greater than $100 receive a calendar year end mailed tax receipt.
In 2022, with the generous support of approximately 400 donors, Team SPLASH raised $149,400, representing the 4th highest amount of any team in the country for SAA. While the cure for cancer remains elusive progress is being made and together we can make a difference so other families who hear this diagnosis can confidently face the future.
We hope to be as successful this year as we were last year, so please join our team as a donor, swimmer, or volunteer to fund much needed cancer research.
If you have any questions or thoughts on how I can raise more research funds, please feel free to give me a call or send an email. My contact information is below and THANK YOU for your consideration and generosity.
Swim Across America Baltimore Timeline of Accomplishments
2023 – With 2002 Swim Across America Baltimore funding, two new projects will be launched in 2023 in bile duct/pancreatic ductile cancers and lung cancer, and several studies will carry over from 2022.
Kellie Smith, Ph.D., is Associate Professor of Oncology and the Bloomberg~Kimmel Institute for Cancer Immunotherapy at the Johns Hopkins Kimmel Cancer Center. A 2019 SAA grantee, Dr. Smith’s past research project used a laboratory test called MANAFEST, for Mutation Associated NeoAntigen Functional Expansion of Specific T cells, which she designed, to identify cancer-specific proteins that can be recognized by immune cells called T cells. For her recently approved SAA grant, Dr. Smith proposes to develop a next-generation MANAFEST platform and test its implementation in patients with lung cancer. The expectation is that developing this new platform provides a more streamlined approach that will increase the throughput of tumor-reactive TCR discovery and, ultimately, therapeutic development. She will also develop a user-friendly, publicly-available graphical user interface (GUI) for bioinformatic identification of antigen-specific TCRs. While the biospecimens used in this study are from lung cancer patients, if successful, this assay will have broad applicability to all tumor types for which antigen-specific TCRs can be studied. Not only is this essential for academic and scientific discovery, but such an assay will significantly enhance the speed with which TCR-based therapeutics are developed and clinically implemented.
Christopher Douville, Ph.D., is Assistant Professor of Oncology at the Kimmel Cancer Center. Dr. Douville specializes in designing algorithms for the detection of cancer from various next generation sequencing assays. One of his own developments is called RealSeqS, for Repetitive Element Aneuploidy Sequencing System. His Swim Across America project aims to use RealSeqS to develop novel molecular diagnostics to reliably classify bile duct strictures, leading to correct treatment options for cholangiocarcinoma and pancreatic ductal carcinoma patients. Biliary tree cholangiocarcinoma and pancreatic ductal carcinoma are highly aggressive cancers – both which are commonly diagnosed via endoscopic bile duct brushings. There is a critical need to develop novel molecular diagnostics to reliably classify bile duct strictures. This project will assess the ability of the (RealSeqS) to identify specific chromosome alterations that indicate the presence of cancer and also apply and evaluate performance in endoscopic brushings of the biliary tree. The outcome of this project is to develop a molecular diagnostic based on aneuploidy for the reliable classification of lesions of the bile duct.
Projects launched in 2022 by Drs. Suman Paul, Tania Jain, Eric Christenson, Dung Le, Katie Bever and Mark Yarchoan will continue this year.
2022 – With funds raised from the 2021 Baltimore Swim Across America event, SAA grants are allowing several new and important studies to be launched this year and next, in heme-malignancies, colorectal cancer and hepatocellular carcinoma (HCC).
Tania Jain, M.B.B.S., Assistant Professor of Oncology at the Hopkins Kimmel Cancer Center, has goals to develop strategies to optimize outcomes following blood or marrow transplantation in myeloproliferative neoplasms, which remains the only potential curative treatment for this life-threatening hematological malignancy. Patients suffering from clonal chronic myeloid malignancies have a median survival of under 2 years in high-risk disease. Bone Marrow Transplant (BMT) is the only potential cure. With the availability of post-transplantation cyclophosphamide (PTCy) and non-myeloablative conditioning, BMT has now expanded to older patients and those who do not have a matched donor. However, over half of these patients will relapse which remains the major impediment to successful outcomes. For Dr. Jain’s SAA funded study, she looks to define the molecular signature of residual clones responsible for relapse and develop a personalized approach to identify patients at high-risk of disease recurrence. If successful, this will allow us to implement maintenance strategies aimed at prevention of relapse following BMT.
Suman Paul, M.B.B.S., Ph.D., is Assistant Professor of Oncology at the Kimmel Cancer Center. His research goal is to continue developing novel therapies for ultimate application in human T cell cancer patients through early phase clinical trials. T cell leukemias and lymphomas, collectively known as T cell cancers, affect ~100,000 patients worldwide each year. Most T cell cancers are treated with chemotherapies and have a modest 5-year survival of between 7% and 38%. Thus, there is a critical need to develop novel therapies targeting T cell cancers to improve patient outcomes. Developing new therapies against T cell cancers is challenging as the therapies will have to kill the T cell cancers while preserving the healthy T cells that are required for our immune system. The goal of Dr. Paul’s SAA Funded study goal is to generate a type of immunotherapy using antibodies that specifically kill the T cell cancers and not the healthy T cells. This immunotherapy may provide additional treatment options and improve outcomes in patients suffering from T cell cancers.
Eric Christenson, M.D., Ph.D., is an Instructor in Medical Oncology at the Hopkins Kimmel Cancer Center. His research goals include developing novel strategies to identify patients at high risk of recurrence of colorectal cancers. Colorectal cancer is the second leading cause of cancer-related death in the United States each year with rectal cancer accounting for approximately 30% of new diagnoses. Novel strategies that can identify patients at highest risk of recurrence could improve patient outcomes for this population. Cell-free DNA (cfDNA) is an emerging technology to detect the presence of tumor-specific genetic alterations shed into the bloodstream by residual cancer cells. This approach has shown high positive predictive value in identifying a subset of patients at extremely high risk for relapse of rectal cancer, and can allow for some patients to undergo a surveillance program instead of further treatment. Dr. Christenson’s SAA funded study will assess the value of tumor infiltrating lymphocytes in predicting responsiveness of locally advanced rectal cancer to neoadjuvant treatment in a retrospective cohort, and determine independent and additive value of cfDNA and tumor-infiltrating lymphocytes in predicting treatment outcomes in locally advanced rectal cancer.
Dung Le, M.D., Professor of Oncology at the Hopkins Kimmel Cancer Center, Katherine Bever, M.D., Assistant Professor of Oncology, and Mark Yarchoan, M.D., Assistant Professor of Oncology, are teaming up to study immunotherapy in Hepatocellular carcinoma (HCC). Immunotherapy has recently become established as standard first-line therapy in Hepatocellular carcinoma (HCC). Similar to the experience of immunotherapy in other tumor types, only a fraction of patients with HCC will respond, and among the subset who respond, secondary resistance is commonly observed after approximately one year. Little is known about the mechanisms of immune resistance in HCC, however it is anticipated that tumor heterogeneity and clonal evolution may result in the outgrowth of resistant clones. Through their SAA funded study, they will show how the use of ctDNA can be used to deconvolute mutations into distinct clusters, and predict the clonal fraction of each cluster over time, thereby identifying mutations that contribute to immune resistance. Our overarching hypothesis is that serial monitoring of immunotherapy treatment response with tumor-uninformed ctDNA can predict clinical benefit and also identify genomic mechanisms of secondary immune resistance in HCC.
2020 – 2021 Three new projects were launched in 2020 thanks to SAA Baltimore grants. The COVID-19 pandemic forced a months-long halt in the conduct of research, but studies have resumed and are being conducted presently.
Patrick A. Brown, M.D., is Associate Professor of Oncology and Pediatrics, and Director of the Pediatric Leukemia Program at the Johns Hopkins Kimmel Cancer Center. Dr. Brown and his team will perform state of the art immunoassays to address the basis of response and resistance to blinatumomab. This study will evaluate the bone marrow and peripheral blood prior to and during exposure to blinatumomab in a large number of pediatric B-ALL patients. They hypothesize that patient-specific innate and adaptive immune cell subsets determine response to blinatumomab, and that characterization of these components will allow for the development of a biological model to accurately predict response to blinatumomab and define mechanisms of resistance, leading to a rational combinational approach to improve response rates.
Rajarsi Mandal, M.D., Assistant Professor of Otolaryngology-Head and Neck Surgery at the Johns Hopkins Kimmel Cancer Center will undertake an in-depth analysis of HNSCC human tumors and patient-derived organoids (PDO’s) in pre/post anti-PD-1 neoadjuvant immunotherapy. They hypothesize that the interrogation of both the HNSCC tumor samples and their corresponding organoids at the genomic, epigenomic, transcriptome, and protein levels will help elucidate the poorly understood mechanisms of immunogenicity and immune escape in these tumors. The rationale is that an understanding of the mechanistic basis of variable adaptive resistance to checkpoint blockade will aid in patient selection for immune-based therapies not only in HNSCC but across a number of cancers, and will also facilitate developing rational combination therapies/clinical trials targeting these specific mechanisms of resistance.
Brian Ladle, M.D., Ph.D., is Assistant Professor of Oncology and Pediatrics at the Johns Hopkins Kimmel Cancer Center. The SAA grant provides an opportunity for Dr. Ladle and his team to investigate the immunology and translational applications of cryotherapy and intratumoral STING agonist therapy in canine osteosarcoma – which many consider an optimal pre-clinical model for pediatric osteosarcoma. The study will compare the impact of MRI-guided cryoablation of canine OSA tumors alone, CT-guided intratumoral STING agonist injection alone, and the combination therapy of both, which will couple the immune activating capabilities of both modalities. Rigorous immune analysis and clinical outcome measures will direct the next steps toward a human clinical trial.
Work also continued this year by three Kimmel Cancer Center physician scientists on grants funded by the 2018 Swim Across America. Dung Le, whose seminal research has earned worldwide attention, has designed additional innovative studies in pancreatic cancer, thanks to SAA funding since 2014. Kellie Smith and Franck Housseau are finishing up their immunotherapy research in lung cancer and colon cancer, respectively, in 2021.
2019 – With funding from the 2018 Swim Across America Baltimore event, two new research projects are being launched at the Kimmel Cancer Center focusing on colon cancer, and the immune system’s role in lung cancer.
Franck Housseau, Ph.D., Associate Professor of Oncology at the Johns Hopkins Kimmel Cancer Center and the Bloomberg~Kimmel Institute for Cancer Immunotherapy, is focusing on whether adding a third checkpoint inhibitor drug (IL-17) to a combination of two others might prove to be effective in activating a patient’s immune system to fight colorectal cancer.
A subset of colon tumors have markers that suggest they are evading the immune system by locally suppressing it, triggering intense interest in using a new class of immunotherapeutic drug known as checkpoint inhibitors to fight it. However, these drugs haven’t been effective on their own.
To boost their efficacy, researchers have tested adding in a second drug known as an IDO1 inhibitor, which might inactivate the cancer cells’ immunosuppressive activity. Though promising in early clinical trials, this approach recently failed in a larger phase III trial.
His work adding a third checkpoint inhibitor drug to the mix will examine the immune and metabolic activity in samples of human colorectal cancer and test IL-17 inhibition in an animal model. This work could eventually lead to a new approach to effectively treat some types of colorectal cancer.
Kellie Smith, Ph.D., Assistant Professor of Oncology at the Johns Hopkins Kimmel Cancer Center and the Bloomberg~Kimmel Institute for Cancer Immunotherapy, and her team developed a lab test, called MANAFEST, that identifies which cancer-specific proteins can be recognized by immune cells called T cells. However, this approach doesn’t show which genes are active in these cells, which could offer further insight on their activity.
Her new study will integrate these two methods, linking tumor-specific proteins with the genetic activity of the T cells that respond to them. Using this combined approach, she and her colleagues will test the blood of patients with non-small cell lung cancer whose tumors were surgically removed to better understand how their T cells fight tumors. They’ll also develop full gene expression profiles of the T cells that respond to cancer-specific proteins to better understand the genetic program that activates the immune response. The abundance of data that this approach provides could eventually help researchers develop better ways to harness and boost the cancer-fighting capabilities of the immune system.
2018 - With funding from the 2017 Swim Across America Baltimore events, a number of exciting projects are being launched in neuroendocrine, pancreatic, prostate and lung cancers, and leukemia. Dr. Katie Bever is studying a rare type of aggressive cancer known as high grade neuroendocrine carcinoma or small cell carcinoma. She is specifically interested in studying the host immune response to these cancers and plans to perform analyses of banked tissue samples, with the ultimate goal of identifying targets for novel therapies to serve as a basis for future clinical trials in these patients.
Dr. Jonathan Webster knows that targeted therapies have become a major component of treatment in many different cancers and have led to significantly improved survival in a number of poor-risk leukemias. However, when treated with targeted agents, these leukemias disproportionately relapse in the central nervous system (CNS). In Dr. Webster’s study he seeks to better understand how well these targeted therapies enter the central nervous system and how effective they are in hitting their target when they get there.
Dr. Dung Le is continuing her multi-agent chemotherapy clinical trial for pancreatic cancer. She has found that multi-agent chemotherapy regimens such as FOLFIRINOX and gemcitabine/nab-paclitaxel have demonstrated a survival benefit over single-agent chemotherapy in metastatic pancreatic cancer, and it is likely that multiple agents are necessary to delay the emergence of resistant populations and disease progression. Dr. Le’s study is testing the safety and activity of, and determining the maximum tolerated dose of, the combination gemcitabine, nab-paclitaxel, capecitabine, cisplatin and irinotecan in treatment of previously untreated metastatic pancreatic cancer.
Dr. Valsamo “Elsa” Anagnostou’s SAA funded study is using non-invasive dynamic genomic analyses of circulating tumor DNA (ctDNA) to develop a liquid biopsy assay predictive of response and resistance to combination epigenetic therapy and checkpoint blockade in non-small cell lung cancer (NSCLC) patients. This study will provide an innovative combination of genomic and immune analyses and the basis for novel molecular approaches for identifying patients that would respond or develop resistance to immune checkpoint blockade. If successful, this study will lead to the development of a predictive immunogenomic assay capable of assessing dynamic responses to cancer immunotherapy and expedite clinical translation through tailored cancer immunotherapy strategies and novel approaches to clinical trial design that could be immediately implemented in health care decisions within the next 5 years.
Dr. Woonyoung Choi is studying biological mechanisms in prostate cancer in hopes of distinguishing lethal intermediate-risk tumors from the ones that will never pose a significant threat to the patient. This research will seek to determine whether intrinsic molecular subtypes exist in human prostate cancers. If so, their discovery will help to define candidate biological mechanisms driving molecular heterogeneity in prostate cancer, improve prognostication, and identify novel targets for therapeutic intervention.
2015, 2016 and 2017 - Monies from the 2014, 2015 and 2016 Swim Across America Baltimore events funded groundbreaking research in immunotherapy. In a report of a proof-of-principle study of patients with colon and other cancers for whom standard therapies failed, researchers at the Johns Hopkins Kimmel Cancer Center saw that mistakes in so-called mismatch repair genes, first identified by Johns Hopkins and other scientists two decades ago, may accurately predict who will respond to certain immunotherapy drugs known as PD-1 inhibitors. Results of the trial with pembrolizumab, marketed as Keytruda, was published by the New England Journal of Medicine on June 25, 2015. On May 23, 2017 the U.S. Food and Drug Administration granted accelerated approval to a treatment for patients whose cancers have a specific genetic feature (biomarker). This is the first time the agency has approved a cancer treatment based on a common biomarker rather than the location in the body where the tumor originated.
We have also continued our patient outreach and survivorship program for patients with colorectal cancers. This clinic is run by our nurse coordinator and has been visited by dozens of patients through their journey with cancer. Lastly, we are supporting an internship program to work with the Swim Across America Lab research team. They are integral in the daily activities of the SAA laboratory. We hope to continue this important program that introduces young people to science and medicine with the support of SAA.
2014 – Swim Across America Lab Director Luis Diaz, M.D. was a senior author on an international study that provides strong evidence that circulating tumor DNA (ctDNA) can be used as a "personalized biomarker" test and cancer screening tool. It is an extrapolation of the PapGene Test study which was made possible in part through funding from Swim Across America last year. According to results of the study, certain fragments of DNA shed by tumors into the bloodstream can potentially be used to non-invasively screen for early-stage cancers, monitor responses to treatment and help explain why some cancers are resistant to therapies. The study "provides a wealth of information on the potential utility and limitations of ctDNA measurements to assess patients with various cancers," according to Diaz.
2013 – Swim Across America funded groundbreaking research in endometrial and ovarian cancers that garnered world-wide attention. The Papgene Test study was a significant advance that promises early detection of these two deadly cancers. It is based on the Pap test, routinely performed since the 1950’s in gynecologists’ offices across the country to detect and prevent cervical cancer. The PapGene test captures DNA that is shed from cancer cells that have been determined to lead to endometrial and ovarian cancers, according to Dr. Diaz and his colleagues. There are currently no screening tests for these cancers, and the new test could one day make it possible to test for three female cancers at a woman’s wellness exam.
2012 – Monies raised in the 2011 Swim Across America Baltimore funded, among numerous projects, an important therapeutic trial for patients suffering with pancreatic cancer. Also, genomic sequencing was accomplished on pediatric brain tumors. A colon cancer survivorship clinic was established that helps patients through their journey with cancer. Additionally, the first couples retreat for patients with metastatic cancer took place that allowed couples to connect and share with each other and learn from Johns Hopkins experts.
2011 – With funds raised in the 2010 inaugural Swim Across America Baltimore event, the Swim Across America Laboratory was established at the Hopkins Kimmel Cancer Center, dedicated to understanding human cancers and formulating effective patient care. The primary objective of the lab is to translate laboratory science “from the bench to the bedside” and bring the science closer to the patient. Support from Swim across America is invaluable to projects that involve cancer research and patient care. Appointed to direct the lab is Luis Diaz, M.D.