45 research outputs found

    Emerging pharmacotherapy for cancer patients with cognitive dysfunction

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    Advances in the diagnosis and multi-modality treatment of cancer have increased survival rates for many cancer types leading to an increasing load of long-term sequelae of therapy, including that of cognitive dysfunction. The cytotoxic nature of chemotherapeutic agents may also reduce neurogenesis, a key component of the physiology of memory and cognition, with ramifications for the patient's mood and other cognition disorders. Similarly radiotherapy employed as a therapeutic or prophylactic tool in the treatment of primary or metastatic disease may significantly affect cognition. A number of emerging pharmacotherapies are under investigation for the treatment of cognitive dysfunction experienced by cancer patients. Recent data from clinical trials is reviewed involving the stimulants modafinil and methylphenidate, mood stabiliser lithium, anti-Alzheimer's drugs memantine and donepezil, as well as other agents which are currently being explored within dementia, animal, and cell culture models to evaluate their use in treating cognitive dysfunction

    Regional genome transcriptional response of adult mouse brain to hypoxia

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    <p>Abstract</p> <p>Background</p> <p>Since normal brain function depends upon continuous oxygen delivery and short periods of hypoxia can precondition the brain against subsequent ischemia, this study examined the effects of brief hypoxia on the whole genome transcriptional response in adult mouse brain.</p> <p>Result</p> <p>Pronounced changes of gene expression occurred after 3 hours of hypoxia (8% O<sub>2</sub>) and after 1 hour of re-oxygenation in all brain regions. The hypoxia-responsive genes were predominantly up-regulated in hindbrain and predominantly down-regulated in forebrain - possibly to support hindbrain survival functions at the expense of forebrain cognitive functions. The up-regulated genes had a significant role in cell survival and involved both shared and unshared signaling pathways among different brain regions. Up-regulation of transcriptional signaling including hypoxia inducible factor, insulin growth factor (IGF), the vitamin D3 receptor/retinoid X nuclear receptor, and glucocorticoid signaling was common to many brain regions. However, many of the hypoxia-regulated target genes were specific for one or a few brain regions. Cerebellum, for example, had 1241 transcripts regulated by hypoxia only in cerebellum but not in hippocampus; and, 642 (54%) had at least one hepatic nuclear receptor 4A (HNF4A) binding site and 381 had at least two HNF4A binding sites in their promoters. The data point to HNF4A as a major hypoxia-responsive transcription factor in cerebellum in addition to its known role in regulating erythropoietin transcription. The genes unique to hindbrain may play critical roles in survival during hypoxia.</p> <p>Conclusion</p> <p>Differences of forebrain and hindbrain hypoxia-responsive genes may relate to suppression of forebrain cognitive functions and activation of hindbrain survival functions, which may coordinately mediate the neuroprotection afforded by hypoxia preconditioning.</p

    Sjogren syndrome:clinical and therapeutic features.A review of the literature.

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    Sjögren' Syndrome (SS), also named Sicca Syndrome, is a complex disease, characterized by a series of clinical symptoms and signs chiefly represented by xerostomia, xerophthalmia and connectival diseases. The pathogenetic mechanisms consist of an autoimmune process leading to salivary and lacrimal glands progressive destruction. There is a primary form with salivary and lacrimal glands compromission only and a second form in which xerostomia and/or xerophthalmia are associated with connectival diseases like rheumatoid arthritis, systemic lupus erythematosus and scleroderma. The diagnosis of SS is rather difficult and it is based on various world-wide established and accepted criteria: the labial minor salivary glands biopsy and the research of specific seric autoantibodies are the basic elements. From the therapeutic point of view, various types of immunomodulant treatments based on cyclosporine, corticosteroids, methotrexate or alpha-interferon have been proposed with different RESULTS: Cholinergic drugs, like pilocarpine and cevimeline, are also used in order to stimulate the gland functionality
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