International journal of clinical and experimental medicine
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This study was designed to investigate the effects of hypertonic/hyperoncotic solution on blood-brain barrier damage, brain edema and morphological changes of rats during whole body hyperthermia. 90 adult male Sprague-Dawley rats were randomized into 5 groups: Control group (a room temperature for 4 hours); Whole body hyperthermia group without solution treatment; Whole body hyperthermia group with Ringer's solution treatment; Whole body hyperthermia group with hydroxyethyl starch and Ringer's solution treatment; Whole body hyperthermia group with Hypertonic/hyperoncotic solution treatment. All rats except those of control group were housed in a heated container and maintained at 36°C for 3 hours until the rectal temperature reached 41-42°C. Corresponding solutions were administered intravenously at the beginning of whole body hyperthermia within 30 minutes as designed. ⋯ In group with hypertonic/hyperoncotic solution treatment, brain water content and the leakage of Evans blue-albumin were the lowest among the four whole body hyperthermia groups. Compared with the other three whole body hyperthermia groups, in which profound to moderate damages to blood-brain barrier and brain tissue and cells were found, there were only slight morphological changes in the group with hypertonic/hyperoncotic solutionon treatment. Treatment with hypertonic/hyperoncotic solution appeared to attenuate the injury to blood-brain barrier and reduce brain edema and cell morphological changes in whole body hyperthermia rats.
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Osteoarthritis (OA) is characterized by joint pain and stiffness with radiographic evidence of joint space narrowing, osteophytes, and subchondral bone sclerosis. Posttraumatic OA (PTOA) arises from joint trauma, which accounts for a fraction of all patients with OA. Articular cartilage breakdown can occur soon or for years after a joint injury. ⋯ This review summarizes the current studies on the pathogenetic mechanisms of PTOA, with a main focus on the metabolic changes in articular cartilage in the acute posttraumatic phase and the early chronic phase, a clinically asymptomatic period. Recent studies have revealed that mechanical damage to the articular tissues may lead to changes in gene expression and cartilage metabolism, which could trigger a cascade of events leading to degradation of articular cartilage and pathologic changes in other joint tissues. Understanding the mechanobiologic, molecular and cellular changes that lead to continued cartilage degradation in the relatively early phases after joint injury may open up new opportunities for early clinical intervention.
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Hepatic parenchymal bleeding (HPB) is a major problem following both trauma and elective hepatic procedures. The present study investigated the effect of the Ankaferd Blood Stopper® (ABS) on HPB. ⋯ Although the ABS does not stop HPB completely, it ensures a statistically significant reduction in HPB.
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There has been much effort to define the molecular basis by which pathophysiological stimuli initiate and/or propagate the inflammatory response. Recent research endeavors on stress response from a cellular organelle called the endoplasmic reticulum (ER) shed new light on the understating of the molecular basis of the inflammatory response and its interaction with other intracellular stress signaling pathways. ⋯ The integration of ER stress, oxidative stress, and the inflammatory response is critical to the pathogenesis of a variety of diseases. In this brief review, we discuss some representative evidence for the integration of ER stress, oxidative stress, and inflammation in health and disease.
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Mitogen-activated protein (MAP) kinase cascades are crucial signal transduction pathways in the regulation of the host inflammatory response to infection. MAP kinase phosphatase (MKP)-1, an archetypal member of the MKP family, plays a pivotal role in the deactivation of p38 and JNK. In vitro studies using cultured macrophages have provided compelling evidence for a central role of MKP-1 in the restraint of pro-inflammatory cytokine biosynthesis. ⋯ More recent investigations using intact bacteria confirmed these observations and further revealed novel functions of MKP-1 in host defense against bacterial infection. These studies demonstrate that MKP-1 is an essential feedback regulator of the innate immune response, and that it plays a critical role in preventing septic shock and multi-organ dysfunction during pathogenic infection. In this review, we will summarize the studies on the function of MKP-1 in innate immune responses and discuss the regulation of this novel protein phosphatase.