Contradictory effects have been recorded in recent studies, the results of which include positive associations of VDR when cumulated with other risk factors, both an increase and a decrease in cancer risks, as well as no correlation between VDR polymorphisms and individual malignancies.
 
  The scientific evidence reviewed in this paper suggests that health care providers and individuals should consider increasing concentrations of 25 (OH) D through sensitive sun exposure and / or by supplementing with vitamin D to reduce cancer risk and, in combination with standard care, to treat cancer.
 The scientific evidence reviewed in this paper suggests that health care providers and individuals should consider increasing concentrations of 25 (OH) D through sensitive sun exposure and / or by supplementing with vitamin D to reduce cancer risk and, in combination with standard care, to treat cancer.Diabetes mellitus (DM) has already affected one in every eleven person in the global population, and the dis-ease prevalence continues to increase because of the obesity pandemic. Even with the availability of a multitude of antidi-abetic medications for optimal glycaemic control, cardiovascular morbidity and mortality were not largely altered until re-cently when newer antidiabetic drugs such as glucagon-like peptide-1 receptor analogues (GLP-1RAs) and sodium-glucose cotransporter-2 (SGLT2) inhibitors were introduced. Cardiovascular safety of antidiabetic drugs has also been a hot topic for global scientific debate after the US Food and Drug Administration (FDA) enforced restrictions on Rosiglita-zone in 2010 with the suspicion of increased mortality and myocardial events (with subsequent uplift of the ban on the drug in 2013 following the emergence of additional evidence on safety). After this debate, all antidiabetic should go through rigorous safety checks with cardiovascular outcome trials (CVOTs). Recent CVOTs with GLP-1RAs and SGLT2 inhibitors have revealed markedly positive outcomes that have changed the landscape of diabetes management across the world. Thus, the therapeutic algorithm for optimal management of DM should consider not only the glycaemic control ef-ficacy of the individual antidiabetic agent but also the cardiovascular safety and modifications in other anticipated long-term DM complication profiles. Therefore, it is imperative to critically appraise the efficacy and cardiovascular safety of all antidiabetic drugs to improve the scientific practice of our diabetes care globally. This issue, "Efficacy and cardiovas-cular safety of antidiabetic medications," provides readers the back-up of up to date evidence.Atrial conduction disorders result from impaired propagation of cardiac impulses from the sinoatrial node through the atrial conduction pathways. Disorders affecting interatrial conduction alter P-wave characteristics on the surface electrocardiogram. A variety of P-wave indices reflecting derangements in atrial conduction have been described and have been associated with an increased risk of atrial fibrillation (AF) and stroke. Interatrial block (IAB) is the most well-known of the different P-wave indices and is important clinically due to its ability to predict patients who are at risk of the development of AF and other supraventricular tachycardias. P-Wave Axis is a measure of the net direction of atrial depolarization and is determined by calculating the net vector of the P-wave electrical activation in the six limb-leads using the hexaxial reference system. It has been associated with stroke and it has been proposed that this variable be added to the existing CHA2DS2-VASc score to create a P2-CHA2DS2-VASermine patients at high risk of developing atrial fibrillation. The MVP risk score is currently undergoing validation in other populations. This section reviews the different P-wave indices in-depth, reflecting atrial conduction abnormalities.
  Azilsartan medoxomil (AZM) is the newest representative in the class of angiotensin receptor blockers. Azilsartan medoxomil in combination with the older diuretic chlorthalidone (CLD) in fixed-doses of AZM/CLD 40/12.5 mg and 40/25 mg has been approved by the FDA for use in patients with essential hypertension. We sought to evaluate the safety and tolerability of AZL-M alone and in combination with CLD.
 
  We conducted a search in PubMed using the keywords 'azilsartan', 'azilsartan medoxomil', 'chlorthalidone, 'safety', 'tolerability' in order to find scientific studies evaluating the safety of these drugs. We included studies reporting side effects of these drugs, alone or in combination, in comparison to placebo or other antihypertensive medications. For our systematic review, we followed the PRISMA guidelines.
 
  Azilsartan medoxomil is a potent antihypertensive medicine with an acceptable safety profile. The most commonly reported adverse events are dizziness, headache, fatigue, upper respiratory tract infection and urinary tract infection. Chlorthalidone is more potent and has a considerably longer duration of action than the most commonly prescribed diuretic hydrochlorothiazide. Safety and tolerability between these two drugs are similar except higher serum uric acid and lower potassium levels with chlorthalidone.
 
  The combination of azilsartan medoxomil with chlorthalidone has been shown to be effective in lowering blood pressure with an acceptable safety and tolerability profile. This fixeddose combination is an attractive treatment option for hypertension management.
 The combination of azilsartan medoxomil with chlorthalidone has been shown to be effective in lowering blood pressure with an acceptable safety and tolerability profile.  https://www.selleckchem.com/products/ag-120-Ivosidenib.html  This fixeddose combination is an attractive treatment option for hypertension management.Scandium radioisotopes are increasingly considered viable radiolabels for targeted molecular imaging (Sc-43, Sc-44) and therapy (Sc-47). Significant technological advances have increased the quantity and quality of available radioscandium in the past decade, motivated in part by the chemical similarity of scandium to therapeutic radionuclides like Lu-177. The production and radiochemical isolation techniques applied to scandium radioisotopes are reviewed, focusing on charged particle and electron linac initiated reactions and using calcium and titanium as starting materials.