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INTRODUCTION: Standard investigator-based adverse events (AE) assessment is via CTCAE for clinical trials. However, including the patient perspective through PRO (patient-reported outcomes) enhances clinicians' understanding of patient toxicity and fosters early detection of AEs. We assessed longitudinal integration of PRO-CTCAE within clinical workflow in a phase II trial. MATERIALS AND METHODS: As a sub-study in a phase II trial of genotype-directed irinotecan dosing evaluating efficacy in patients with metastatic colorectal cancer receiving FOLFIRI and bevacizumab, patients reported on 13 AEs generating a PRO-CTCAE form. The primary objective was to estimate forms completed by patients and clinicians at least 80% of time. Secondary objectives were estimating concordance and time to first score of specific symptoms between patient and clinician pairs. RESULTS: Feasibility of longitudinal PRO-CTCAE integration was met as 96% of patients and clinician-patient pairs completed at least 80% of PRO-CTCAE forms available to them with 79% achieving 100% completion. Concordance between patient and clinician reporting a severe symptom was 73% with 24 disconcordant pairs, 21 involved patients who reported a severe symptom that the clinician did not. Although protocol-mandated dose reductions were guided by CTCAE not PRO-CTCAE responses, the median time to dose reduction of 2.53 months, and the time-to-event curve closely approximated time to patient-reported toxicity. CONCLUSION: Longitudinal integration of PRO-CTCAE paired CTCAE proved feasible. Compared to clinicians, patients reported severe symptoms more frequently and earlier. Patient-reported toxicity more closely aligned with dose decreases indicating incorporation into routine clinical practice may enhance early detection of toxicity improving patient safety and quality of life.
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INTRODUCTION: Cancer associated thrombosis is a well-recognized phenomenon that results in considerable patient morbidity and mortality. Malignancy conveys an increased risk for thrombosis and chemotherapy further elevates this risk. The pathophysiological mechanisms underlying this process remain poorly defined. MATERIALS AND METHODS: A human acute monocytic leukemia cell line (THP-1) was treated with commonly used anthracycline chemotherapeutics at concentrations similar to those found in the plasma of cancer patients. Cells were analyzed for tissue factor (TF) mRNA, protein, and activity. Microparticle (MP) TF activity was also measured. Phosphatidylserine (PS) exposure on cells and MPs was analyzed by flow cytometry. PS levels on MPs was also evaluated in an annexin V capture assay. RESULTS: Anthracycline treatment of THP-1 cells resulted in a concentration-dependent increase in cellular TF activity without a change in TF protein, which was associated with increased PS exposure on the cell surface and apoptosis. The increase in TF activity was abolished by annexin V or lactadherin indicating that PS exposure was required. Anthracycline treatment of THP-1 cells also increased the number of TF-positive MPs. CONCLUSION: Treatment of THP-1 cells with anthracyclines induces apoptosis and increases cellular TF activity. The increased activity required an increase in exposure of PS. Additionally, anthracyclines increase the release of TF-positive MPs from THP-1 cells. We propose that the increase in cellular TF activity in circulating leukemic cells, combined with increased numbers of TF-positive MPs, may contribute to thrombosis in cancer patients receiving chemotherapy.