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  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
    Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
1

Combined CTLA-4 and PD-1 inhibition a single institute in-depth analysis of toxicity and efficacy in patients treated at the Dana-Farber Cancer Institute

Munivenkata Swamy, Preethi 02 November 2017 (has links)
PURPOSE: The purpose of this study was to compare the rate of grade 3-4 immune related adverse events (irAEs) in patients with advanced metastatic melanoma treated with the combined anti-CTLA-4 and anti-PD-immune-therapy at the Dana Farber Cancer Institute(DFCI), to that of the published rate of grade 3-4 irAEs among patients treated with the same combination of check-point therapy in the pivotal phase II and phase III trials that led to the FDA approval of the combination regimen. This study also measures the tumor response with the Ipi-Nivo combination therapy and overall-survival of patients in the study cohort at DFCI. METHODS/PROCEDURES: This is a retrospective cohort study conducted at DFCI during 2014 to 2016 among stage III/IV melanoma patients treated outside of the clinical trials with the Ipi-Nivo combination therapy. Chart review of the electronic medical record(EMR) was conducted to abstract the data for this study. irAEs were graded and classified as per the NCI-CTCAE v.4.0 guidelines. The comparison of the rate of grade 3 4 toxicity in the clinical settings at DFCI and the clinical trials was performed using a one sample proportion hypothesis test. For efficacy assessment of tumor response, RECIST1.1 criterion was used to ascertain the best clinical response. RESULTS: During an overall follow-up period of 600 days, 52 patients were treated on expanded access protocol (EAP) and commercial Ipi-Nivo combination therapy at DFCI. The rate of grade 3-4 immune mediated toxicity for this cohort of patients treated outside of clinical trials was 32.6%. The average rate of grade 3-4 irAEs reported in phase II/III clinical trials was approximately 55%. The results from the one-proportion hypothesis test [(P-value: 0.002) (95% C.I: 19.14-46.23)], prove that patients in the “real world” clinical settings have a different safety profile than patients treated in the clinical trials. The rate of grade 3-4 irAEs was found to be lower (19.14% to 46.23%) in the population treated with Ipi/Nivo combination therapy at the DFCI, compared to the check-mate clinical trials (approximately 55%) CONCLUSION: The results from the study indicate a lower rate of grade 3-4 irAEs in patients treated at DFCI, in comparison with the patients treated in the clinical trials for the Ipi-Nivo combination group. The results support the need for preemptive safety signal detection of symptoms of irAEs to improve patient’s safety. However, larger database studies are required for the generalizability of this results to a wider patient population treated outside of DFCI.
2

Detection of Immune Checkpoint Receptors – A Current Challenge in Clinical Flow Cytometry

Shibru, Benjamin, Fey, Katharina, Fricke, Stephan, Blaudszun, André-René, Fürst, Friederike, Weise, Max, Seiffert, Sabine, Weyh, Maria Katharina, Köhl, Ulrike, Sack, Ulrich, Boldt, Andreas 24 March 2023 (has links)
Immunological therapy principles are increasingly determining modern medicine. They are used to treat diseases of the immune system, for tumors, but also for infections, neurological diseases, and many others. Most of these therapies base on antibodies, but small molecules, soluble receptors or cells and modified cells are also used. The development of immune checkpoint inhibitors is amazingly fast. T-cell directed antibody therapies against PD-1 or CTLA-4 are already firmly established in the clinic. Further targets are constantly being added and it is becoming increasingly clear that their expression is not only relevant on T cells. Furthermore, we do not yet have any experience with the long-term systemic effects of the treatment. Flow cytometry can be used for diagnosis, monitoring, and detection of side effects. In this review, we focus on checkpoint molecules as target molecules and functional markers of cells of the innate and acquired immune system. However, for most of the interesting and potentially relevant parameters, there are still no test kits suitable for routine use. Here we give an overview of the detection of checkpoint molecules on immune cells in the peripheral blood and show examples of a possible design of antibody panels.
3

PHARMACOLOGICAL TARGETING OF FGFR SIGNALING TO INHIBIT BREAST CANCER RECURRENCE AND METASTASIS

Saeed Salehin Akhand (8771426) 29 April 2020 (has links)
Breast cancer (BC) is one of the deadliest forms of cancers with high incidence and mortality rates, especially in women. Encouragingly, targeted therapies have improved the overall<br>survival and quality of life in patients with various subtypes of BC. Unfortunately, these first-line therapies often fail due to inherent as well as acquired resistance of cancer cells. Treatment evading cancer cells can exhibit systemic dormancy in patients over a long period of time without manifesting any symptoms. In a suitable environment, these undetected disseminated tumor cells can relapse in the form of metastasis. Therefore, it is essential to understand the mechanisms of<br><div>BC recurrence and to develop durable therapeutic interventions to improve patient’s survival. In this dissertation work, we studied fibroblast growth factor receptors (FGFR), as therapeutic targets to treat the recurrence of drug-resistant and immune-dormant BC metastasis. <br></div><div><br></div><div>The HER2 subtype of BC is characterized by the overexpression of human epidermal growth factor receptor 2 (HER2), which drives elevated downstream signaling promoting tumorigenesis. Trastuzumab emtansine (T-DM1) is an antibody-drug conjugate in which an anti-HER2 antibody targets HER2 overexpressing tumor cells and delivers a highly potent microtubule inhibitor. Using novel models of minimal residual disease (MRD) following T-DM1 treatments, we found that epithelial to mesenchymal transition is a critical process for cells to persist the TDM1 treatments. The upregulation of FGFR1 may facilitate insensitivity to T-DM1. Our data also showed that FGFR1 overexpression in HER2+ tumors leads to a higher incidence of recurrence, and these recurrent tumors show sensitivity towards covalent inhibition of FGFR. <br></div><div><br></div><div>In addition to drug-induced MRD in the primary tumor sites, disseminated tumor cells (DTCs) can demonstrate dormant phenotype via maintaining an equilibrium with immunemediated tumor clearance. Factors affecting such equilibrium may contribute to the recurrence of breast cancers metastasis. We show that such immune-mediated dormancy can be modeled with the 4T07 tumors. These tumors display immune-exclusion phenotypes in metastatic pulmonary organs. The inhibition of FGFR modulates the immune cell compositions of pulmonary organs favoring anti-tumor immunity. However, inhibition of FGFR may also affect T cell receptor downstream signaling, resulting in the inhibition of cytolytic T cell’s function. Finally, we report that combination therapy using the FGFR kinase inhibitor and an immune checkpoint blockade showed effective targeting of metastatic 4T07 tumors. <br></div><div><br></div><div>FGFR signaling as a therapeutic target in various tumors has been an active focus of cancer research. In this dissertation work, we have expanded our understanding of the role of FGFR in the recurrence of drug-resistant breast cancers as well as in the maintenance of an immune evasive microenvironment promoting pulmonary growth of tumors. Moreover, we presented evidence that it is possible to repurpose FGFR targeted therapy alone or in combination with checkpoint blockades to target recurrent metastatic BCs. In the future, our novel models of minimal residual diseases and systemic immune dormancy may act as valuable biological tools to expand our understanding of the minimal residual disease and dormant tumor cells.</div>

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