Hvidproctor0921

Purpose of review The circadian rhythms have a systemic impact on all aspects of physiology. Kidney diseases are associated with extremely high-cardiovascular mortality, related to chronic kidney disease-mineral bone disorder (CKD-MBD), involving bone, parathyroids and vascular calcification. Disruption of circadian rhythms may cause serious health problems, contributing to development of cardiovascular diseases, metabolic syndrome, cancer, organ fibrosis, osteopenia and aging. Evidence of disturbed circadian rhythms in CKD-MBD parameters and organs involved is emerging and will be discussed in this review. Recent findings Kidney injury induces unstable behavioral circadian rhythm. Potentially, uremic toxins may affect the master-pacemaker of circadian rhythm in hypothalamus. In CKD disturbances in the circadian rhythms of CKD-MBD plasma-parameters, activin A, fibroblast growth factor 23, parathyroid hormone, phosphate have been demonstrated. A molecular circadian clock is also expressed in peripheral tissues, involved in CKD-MBD; vasculature, parathyroids and bone. Expression of the core circadian clock genes in the different tissues is disrupted in CKD-MBD. Summary Disturbed circadian rhythms is a novel feature of CKD-MBD. There is a need to establish which specific input determines the phase of the local molecular clock and to characterize its regulation and deregulation in tissues involved in CKD-MBD. Finally, it is important to establish what are the implications for treatment including the potential applications for chronotherapy.Purpose of review Oxalate is a metabolic end-product promoting the formation of calcium oxalate crystals in urine. Massive urine oxalate excretion occurs in genetic diseases, mainly primary hyperoxaluria type I and II, threatening renal function. Ethylene glycol poisoning may induce the precipitation of calcium oxalate crystals in renal tubules, leading to acute renal failure. In both cases, oxalate results from glyoxylate transformation to oxalate in the liver, by lactate dehydrogenase (LDH) enzymes, especially the LDH-5 isoenzyme. The purpose of the review is to highlight LDH as a potential therapeutic target according to recent publications. Recent findings Genetic therapy targeting LDH metabolism decreases urine oxalate excretion in rodents. Stiripentol is an antiepileptic drug that has been shown recently to inhibit neuronal LDH-5 isoenzyme. Stiripentol was hypothesized to reduce hepatic oxalate production and urine oxalate excretion. In vitro, stiripentol decreases oxalate synthesis by hepatocytes. In vivo, stiripentol oral administration decreases urine oxalate excretion in rats and protects renal function and renal tissue against ethylene glycol intoxication and chronic calcium oxalate crystalline nephropathy. Summary The use of stiripentol in-vitro and in-vivo highlights that targeting hepatic LDH by pharmacological or genetic tools may decrease oxalate synthesis, deserving clinical studies.Purpose of review Hypoxia-inducible factor prolyl hydroxylase inhibitors (HIF-PHIs) are orally active small molecules and are launched as novel therapeutic agents for anemia in chronic kidney disease (CKD). In contrast to conventional exogenous erythropoietin (EPO) administration, HIF-PHIs stimulate endogenous EPO production and improve iron metabolism via stabilization of hypoxia-inducible factor (HIF). This review summarizes the mechanism of action, the results of clinical trials, and future perspectives of HIF-PHIs. Recent findings Six HIF-PHIs are currently under phase III studies, some of which have been already completed. According to the results of clinical trials, HIF-PHIs increased and maintained hemoglobin levels in both nondialysis-dependent and dialysis-dependent CKD patients with physiological EPO concentrations. HIF-PHIs also improved iron utilization and were comparably effective regardless of underlying inflammation and iron status. Summary HIF-PHIs have several advantages including oral administration, physiological EPO secretion, and improved iron utilization. Undoubtedly, HIF-PHIs will pave the new way in the field of treatment of anemia in CKD, but it should be noted that HIFs have pleiotropic effects on a plethora of cellular functions, which might lead to either beneficial or undesirable off-target effects. Intensive postmarketing surveillance is crucially important to identify unexpected consequences.Background Population-level estimates of disease prevalence and control are needed to assess prevention and treatment strategies. However, available data often suffer from differential missingness. For example, population-level HIV viral suppression is the proportion of all HIV-positive persons with suppressed viral replication. Toyocamycin CDK inhibitor Individuals with measured HIV status, and among HIV-positive individuals those with measured viral suppression, likely differ from those without such measurements. Methods We discuss three sets of assumptions to identify population-level suppression in the intervention arm of the SEARCH Study (NCT01864603), a community randomized trial in rural Kenya and Uganda (2013-2017). Using data on nearly 100,000 participants, we compare estimates from i) an unadjusted approach assuming data are missing-completely-at-random (MCAR); ii) stratification on age-group, sex, and community; and, iii) targeted maximum likelihood estimation to adjust for a larger set of baseline and time-updated variables. Results Despite high measurement coverage, estimates of population-level viral suppression varied by identification assumption. Unadjusted estimates were most optimistic 50% (95%CI46-54%) of HIV-positive persons suppressed at baseline, 80% (95%CI78-82%) at Year 1, 85% (95%CI83-86%) at Year 2, and 85% (95%CI83-87%) at Year 3. Stratifying on baseline predictors yielded slightly lower estimates, and full adjustment reduced estimates meaningfully 42% (95%CI37-46%) of HIV-positive persons suppressed at baseline, 71% (95%CI69-73%) at Year 1, 76% (95%CI74-78%) at Year 2, and 79% (95%CI77-81%) at Year 3. Conclusions Estimation of population-level disease burden and control requires appropriate adjustment for missing data. Even in large studies with limited missingness, estimates relying on the MCAR assumption or baseline stratification should be interpreted cautiously.