Drugs
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Microsatellite instability-high/DNA mismatch repair deficient tumors are found across the cancer spectrum and often harbor markedly increased numbers of mutations when compared to microsatellite stable/DNA mismatch repair proficient tumors. As a result of this high mutational load, tumor-infiltrating lymphocyte density is increased and more immunogenic neoepitopes are expressed, leading to upregulation of immune checkpoints in these tumors. Checkpoint inhibitors such as pembrolizumab and nivolumab, both immunoglobulin G4 (IgG4) monoclonal antibodies that block interactions between the programmed cell death receptor-1 and its ligands, have significant activity in this tumor class. This review will focus on hypermutated tumors and immuno-oncology drug development for this biologically unique tumor type, with an emphasis on FDA-approved immunotherapies for these cancers, as well as a short discussion of the many therapeutic and scientific challenges ahead in order to optimize the uses of this new class of drug.
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Cardiovascular disease is the leading cause of death in patients with chronic kidney disease (CKD) and CKD is considered a coronary artery disease risk equivalent. So far, statins have been the mainstay of primary and secondary prevention of cardiovascular disease in the general population. However, their benefit on outcomes is limited and controversial in CKD patients and new therapeutic approaches to reduce cardiovascular risk are needed. ⋯ In CKD sub-group analysis, ODYSSEY COMBO I and ODYSSEY COMBO II studies demonstrated significant superiority of alirocumab on LDL-cholesterol lowering in comparison to placebo and ezetimibe, respectively, when added to statins, and case reports have shown efficacy in nephrotic syndrome. A detailed analysis of CKD subgroups in general population trials of anti-PCSK9 strategies addressing events is needed, given the limited efficacy of statins in CKD both in terms of lipid lowering and events, the high rate of statin non-compliance in these patients, and the high lipoprotein(a) levels. This information should guide the design of trials addressing the safety profile and efficacy on cardiovascular outcomes of PCSK9-targeted therapies in CKD patients.