Current medicinal chemistry
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Clinical studies and case reports have identified a number of herb-drug interactions potentiated by the concurrent use of herbal medicines with prescription drugs. The purpose of this paper is to discuss the mechanisms and clinical implications of such herb-drug interactions by reviewing published human studies. Both pharmacokinetic and pharmacodynamic components may be involved in herbdrug interactions, although metabolic induction or inhibition is a common underlying mechanism for many herb-drug interactions. ⋯ The clinical consequence of herb-drug interactions varies, from being well-tolerated to moderate or serious adverse reactions, or possibly life-threatening events. Undoubtedly, the early and timely identification of herb-drug interactions is imperative to prevent potentially dangerous clinical outcomes. Further well-designed studies are warranted to address the mechanisms and clinical significance of important herb-drug interactions.
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Prolonged strenuous exercise is associated with the appearance of biomarkers of cardiac cell damage and a decline in cardiac function during recovery. Few studies have assessed repeated bouts of prolonged exercise and whether this results in further biomarker accumulation and greater dysfunction. Further, it may be useful to describe the changes in a range of biomarkers that may provide additional insight into the clinical significance of cardiac biomarker release. ⋯ Changes in ventricular wall tissue velocities were minor and not cumulative. Peak atrial diastolic tissue velocity in the left ventricular free wall increased (P < 0.05) from 11 to 18 cm.s⁻¹ over the last two race days but this did not significantly impact the ratio of early to late diastolic wall motion. Cardiac biomarkers were elevated during the completion of the RAAM in all 4 cyclist but changes were not cumulative which suggest that the hearts of the cyclists coped well with the extreme cardiac work demanded by this ultra-endurance exercise challenge.
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Traditional nonsteroidal anti-inflammatory drugs, tNSAIDs, are effective medication for prevention of ischemic events and treatment of pain, fever and inflammation. However their use associates with a significant risk to develop gastrointestinal and cardiovascular complications. Low doses of acetyl salicylic acid (ASA) and effective doses of tNSAIDs associate with a 2-6 fold increase in the risk of gastrointestinal bleeding. ⋯ Either naproxen and diclofenac hybrids have been reported to cause less gastrointestinal injury than parent NSAIDs. These novel chemical entities exert a variety of beneficial effects in rodent models of cardiovascular and metabolic disorders through a mechanism that might involve the release of H₂S and/or by exerting anti-oxidant effects. The beneficial role these mechanisms in clinical settings await a proof-of-concept study.
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Renin-angiotensin II-aldosterone axis has long been known as a regulator of blood pressure and fluid homeostasis. Yet, local renin-angiotensin II systems have been discovered and novel actions of angiotensin II (AngII) have emerged among which its ability to act as a immunomodulator and profibrotic molecule. The enzyme responsible for its synthesis, Angiotensin-converting-enzyme (ACE), is present in high concentrations in lung tissue. ⋯ The balance between ACE and ACE2 is crucial for controlling AngII levels. ACE and ACE2 also appear to modify the severity of Acute Respiratory Distress Syndrome (ARDS), with ACE2 playing a protective role. Finally, mention is made to the recent discovery of ACE2 as a receptor for the SARS Corona Virus.
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Sepsis remains a common cause of death in the intensive care units worldwide. However, in the last decade a significant development could be noticed in sepsis research regarding diagnostic markers that can help the physicians to recognize the disease in the early phase, which is the clue of the successful treatment of sepsis. This development provided the identification of new molecules and structures (i.e. cytokines, cell surface markers, receptors) that are potential biomarkers of sepsis in the clinical settings. ⋯ We will describe the presumed pathophysiological role and diagnostic value of sepsis markers that are used even more widely in the clinical practice (i.e. procalcitonin, IL-6), summarize the data regarding the sepsis marker candidates that are investigated in some initial study (i.e. matrix metalloproteinases, microRNA fingerprints), and we will discuss substances that may be specific markers for certain organ failures related to sepsis (i.e. neutrophil gelatinase-derived lipocalin in acute renal failure). Furthermore, we will review the mediators of the immuno-inflammatory cascade in sepsis concerning their potential applicability as therapeutic targets in the treatment of this often lethal disease. In addition, we present some insights into the identification of genetic markers of sepsis.