UMLS:C0011570 - FACTA Search

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Query: UMLS:C0011570 (depression)
172,036 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

This review article integrates empirical findings from various scientific disciplines into a proposed psychoneuroimmunological (PNI) model of the acute coronary syndrome (ACS). Our starting point is an existing, mild, atherosclerotic plaque and a dysfunctional endothelium. The ACS is triggered by three stages. (1) Plaque instability: Pro-inflammatory cytokines (IL-1, IL-6, TNF-alpha) and chemoattractants (MCP-1, IL-8) induce leukocyte chemoattraction to the endothelium, and together with other triggers such as the CD40L-CD40 co-stimulation system activate plaque monocytes (macrophages). The macrophages then produce matrix metalloproteinases that disintegrate extra-cellular plaque matrix, causing coronary plaque instability. Acute stress, hostility, depression and vital exhaustion (VE) have been associated with elevated pro-inflammatory cytokines and leukocyte levels and their recruitment. (2) Extra-plaque factors promoting rupture: Neuro-endocrinological factors (norepinephrine) and cytokines induce vasoconstriction and elevated blood pressure (BP), both provoking a vulnerable plaque to rupture. Hostility/anger and acute stress can lead to vasoconstriction and elevated BP via catecholamines. (3) Superimposed thrombosis at a ruptured site: Increases in coagulation factors and reductions in anticoagulation factors (e.g. protein C) induced by inflammatory factors enhance platelet aggregation, a key stage in thrombosis. Hostility, depression and VE have been positively correlated with platelet aggregation. Thrombosis can lead to severe coronary occlusion, clinically manifested as an ACS. Thus, PNI processes might, at least in part, contribute to the pathogenesis of the ACS. This chain of events may endure due to lack of neuroendocrine-to-immune negative feedback stemming from cortisol resistance. This model has implications for the use of psychological interventions in ACS patients.
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PMID:Molecular and cellular interface between behavior and acute coronary syndromes. 1223 62

Children who carry a gene mutation for familial adenomatous polyposis are virtually certain to develop colorectal cancer without annual endoscopic screening and a colectomy when polyps appear. Predictive genetic testing can identify children who need regular surveillance. While the medical benefits of genetic testing are clear, the psychological effects have not been well studied. We evaluated the long-term psychological effects of genetic testing in 48 children and their parents. In each family, one parent was a known APC gene mutation carrier. Before genetic testing, and three times afterward, participants completed measures of psychological functioning, which, for children, included depression and anxiety symptoms, and behavior problems and competencies. Parents completed a measure of depression symptoms. Data were collected at 3-, 12-, and 23-55 months after disclosure. Twenty-two children tested positive; 26 children tested negative. Mean length of follow-up was 38 months. There were no clinically significant changes in mean psychological test scores in children or parents, regardless of the children's test results or the sex of the affected parent. However, the group of children who tested positive and had a mutation-positive sibling showed significant, but subclinical, increases in depression symptoms. Furthermore, several individual mutation-negative children with a positive sibling had clinical elevations in anxiety symptoms at one or more follow-up. Behavior problems declined for all groups, and behavior competence scores remained unchanged. We conclude that most children do not suffer clinically significant psychological distress after testing. However, because some children showed clinically significant anxiety symptoms, long-term psychological support should be available to those families with both mutation-positive and mutation-negative children, and with multiple mutation-positive children. Our findings should call for a multidisciplinary approach to genetic testing for children.
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PMID:Genetic testing for hereditary colorectal cancer in children: long-term psychological effects. 1249 29

Disseminated intravascular coagulation (DIC) is a syndrome characterized by systemic intravascular activation of coagulation, leading to widespread deposition of fibrin in the circulation. Recent knowledge on important pathogenetic mechanisms that may lead to DIC has resulted in novel preventive and therapeutic approaches to patients with DIC. Thrombin generation proceeds via the (extrinsic) tissue factor/activated factor VII route and simultaneously occurring depression of inhibitory mechanisms, such as antithrombin and the protein C and protein S system. Also, impaired fibrin degradation, due to high circulating levels of plasminogen activator inhibitor type-I, contributes to enhanced intravascular fibrin deposition. Strategies aimed at the inhibition of coagulation activation may theoretically be justified and have been found beneficial in experimental and initial clinical studies. These strategies comprise inhibition of tissue factor-mediated activation of coagulation or restoration of physiological anticoagulant pathways, by means of the administration of antithrombin concentrate or (activated) protein C.
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PMID:Therapeutic intervention in disseminated intravascular coagulation: have we made any progress in the last millennium? 1291 85

Sepsis and septic shock account for substantial morbidity and mortality in the intensive care units. NF-kappaB activation, and elevated concentrations of macrophage migration inhibitory factor (MIF), tumor necrosis factor-a (TNF-alpha), interleukin-1 (IL-1), IL-6, free radicals, inducible nitric oxide (iNO), and stress hyperglycemia are some of the factors that induce systemic inflammatory response and myocardial depression seen in sepsis. Conversely, adenosine, activated protein C, oxidized phospholipids, w-3 fatty acids, and insulin have beneficial effects in sepsis and septic shock. These molecules and in particular insulin have the ability to suppress synthesis of MIF, TNF-alpha, IL-1, IL-6, and free radicals, enhance endothelial NO production, and enhance the production of anti-inflammatory cytokines IL-10, and IL-4. In addition, insulin corrects stress hyperglycemia and improves myocardial function. Thus insulin, adenosine, activated protein C, oxidized phospholipids, and w-fatty acids show anti-inflammatory actions and explain why and how they are useful in sepsis and septic shock and possibly, other inflammatory conditions. Hence, their combined use may be of significant benefit in sepsis and septic shock.
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PMID:Current advances in sepsis and septic shock with particular emphasis on the role of insulin. 1294 44

Sepsis almost invariably leads to hemostatic abnormalities, ranging from insignificant laboratory changes to severe disseminated intravascular coagulation (DIC). There is compelling evidence from clinical and experimental studies that DIC is involved in the pathogenesis of microvascular dysfunction and contributes to organ failure. In addition, the massive and ongoing activation of coagulation, may deplete platelets and coagulation factors, which may in turn cause bleeding. Recent insights into important pathogenetic mechanisms that may lead to DIC have resulted in novel preventive and therapeutic approaches to patients with sepsis and a derangement of coagulation. Thrombin generation proceeds via the (extrinsic) tissue factor/factor VIIa route and simultaneously occurring depression of inhibitory mechanisms, such as antithrombin III and the protein C system. Also, impaired fibrin degradation, due to high circulating levels of PAI-1, contributes to enhanced intravascular fibrin deposition. Supportive strategies aimed at the inhibition of coagulation activation may be justified on theoretical grounds and have been found to be beneficial in experimental and initial clinical studies. These strategies comprise inhibition of tissue factor-mediated activation of coagulation or restoration of physiological anticoagulant pathways, by means of the administration of antithrombin concentrate or recombinant human activated protein C.
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PMID:Sepsis and disseminated intravascular coagulation. 1476 Feb 11

A variety of clinical conditions may cause systemic activation of coagulation, ranging from insignificant laboratory changes to severe disseminated intravascular coagulation (DIC). DIC consists of a widespread systemic activation of coagulation, resulting in diffuse fibrin deposition in small and midsize vessels. There is compelling evidence from clinical and experimental studies that DIC is involved in the pathogenesis of microvascular dysfunction and contributes to organ failure. In addition, the massive and ongoing activation of coagulation, may result in depletion of platelets and coagulation factors, which may cause bleeding. Recent understanding of important pathogenetic mechanisms that may lead to DIC has resulted in novel preventive and therapeutic approaches to patients with sepsis and a derangement of coagulation. Thrombin generation proceeds via the (extrinsic) tissue factor/factor VIIa route and simultaneously occurring depression of inhibitory mechanisms, such as antithrombin III and the protein C system. Also, impaired fibrin degradation, due to high circulating levels of the fibrinolytic inhibitor plasminogen activator inhibitor, type 1 (PAI-1), contributes to enhanced intravascular fibrin deposition. Interestingly, an extensive cross-talk between activation of inflammation and coagulation exists, where inflammatory mediators (such as cytokines) not only activate the coagulation system, but vice versa activated coagulation proteases and protease inhibitors may modulate inflammation through specific cell receptors. Supportive strategies aimed at the inhibition of coagulation activation may theoretically be justified and have been found beneficial in experimental and initial clinical studies. These strategies comprise inhibition of tissue factor-mediated activation of coagulation or restoration of physiological anticoagulant pathways, for example by means of the administration of recombinant human activated protein C.
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PMID:New treatment strategies for disseminated intravascular coagulation based on current understanding of the pathophysiology. 1500 Mar 46

The last few years have clarified the tight link between inflammation and coagulation. In addition to the identification of new regulatory mechanisms of the coagulation system and of an explosive number of mediators of inflammation, it is now clear that the existence of a positive feed-back between inflammation and coagulation leads to reciprocal activation of both pathways. Plasma levels of acute phase proteins involved in coagulation and fibrinolysis are elevated during inflammation, while natural anticoagulant mechanisms are depressed. Pro-inflammatory cytokines "activate" cell membranes exposed to flowing blood (endothelium, platelets, monocytes, neutrophils) which from physiologically inert or anticoagulant become procoagulant. Increased tissue factor expression results in increased thrombin formation within the microcirculation. Thrombin is central to fibrin deposition but it also plays a key role in cell-mediated mechanisms involving inflammation, cell proliferation and activation of the natural anticoagulant protein C. Depression of natural anticoagulant mechanisms, occurring in severe sepsis, results in uncontrolled thrombin formation, with pro-inflammatory activity prevailing, and the feed-back loop of inflammation and coagulation ultimately leading to multi-organ failure. However, both in the clinical setting and in animal experiments, heparin or direct anticoagulants have shown no effect on survival even if blocking fibrin deposition. Organ failure is only partially due to the thrombotic occlusion of the microcirculation, while other mechanisms of endothelial damage are probably more relevant in the development of ischemia. The endothelium is central to the maintenance of the natural anticoagulant mechanisms (TFPI, antithrombin, protein C). The protein C system, in addition to dumping thrombin formation, specifically modulates inflammation by cell signaling. This system is markedly depressed in severe sepsis. The infusion of activated protein C, or restoring normal levels of protein C within the circulation - depending on the individual bleeding risk are powerful tools to treat the endothelitis responsible for the clinical sequelae of severe sepsis.
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PMID:[Protein C and coagulation in sepsis]. 1518 14

We tested the hypothesis that activation of Rho-A-dependent kinase (ROCK-II) alters cardiac myofilament response to Ca2+ by mechanisms involving phosphorylation of thin filament proteins. We determined effects of a constitutively active form of ROCK-II on ATPase activity and tension development in detergent-extracted (skinned) fiber bundles isolated from mouse left ventricular papillary muscles. ROCK-II induced a depression in maximum ATPase rate and tension, which was associated with phosphorylation of troponin T (TnT), troponin I (TnI), and myosin-binding protein C (C-protein). This effect of ROCK-II was retained in fiber bundles isolated from transgenic (TG) mice in which phosphorylation sites (S14, S15, and S19) of myosin light chain 2 were mutated to alanine. Moreover, exchange of ROCK-II-phosphorylated Tn complex with the native Tn complex in the fiber bundles resulted in inhibition of maximal Ca2+ activation of tension and ATPase activity. Mass spectrometric analysis demonstrated that ROCK-II phosphorylated cardiac TnI (cTnI) at S23, S24, and T144 and cardiac TnT (cTnT) at S278 and T287. An important role for these cTnT sites is indicated by results demonstrating that ROCK-II induced a depression in tension and ATPase activity in skinned fiber bundles from a TG model in which cTnI is replaced by slow skeletal TnI, which lacks S23 and S24 and in which T144 is replaced by proline. Our data provide the first evidence that ROCK-II phosphorylation of the Tn complex, most likely at cTnT, has an important role in functional effects of signaling through the Rho-A pathway.
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PMID:Functional effects of rho-kinase-dependent phosphorylation of specific sites on cardiac troponin. 1577 59

Regional tissue distress caused by microcirculatory dysfunction and mitochondrial depression underlies the condition in sepsis and shock where, despite correction of systemic oxygen delivery variables, regional hypoxia and oxygen extraction deficit persist. We have termed this condition microcirculatory and mitochondrial distress syndrome (MMDS). Orthogonal polarization spectral imaging allowed the first clinical observation of the microcirculation in human internal organs, and has identified the pivotal role of microcirculatory abnormalities in defining the severity of sepsis, a condition not revealed by systemic hemodynamic or oxygen-derived variables. Recently, sublingual sidestream dark-field (SDF) imaging has been introduced, allowing observation of the microcirculation in even greater detail. Microcirculatory recruitment is needed to ensure adequate microcirculatory perfusion and the oxygenation of tissue cells that follows. In sepsis, where inflammation-induced autoregulatory dysfunction persists and oxygen need is not matched by supply, the microcirculation can be recruited by reducing pathological shunting, promoting microcirculatory perfusion, supporting pump function, and controlling hemorheology and coagulation. Resuscitation following MMDS must include focused recruitment of hypoxic-shunted microcirculatory units and/or resuscitation of the mitochondria. A combination of agents is required for successful rescue of the microcirculation. Single compounds such as activated protein C, which acts on multiple pathways, can be expected to be beneficial in rescuing the microcirculation in sepsis.
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PMID:The microcirculation is the motor of sepsis. 1616 69

The incidence of thromboembolic episodes as well as cardiovascular diseases increases with advancing age. Antythrombin III (AT III) is one of the three natural anticoagulants (AT III, protein C, protein S) circulatig in blood vessels and responsible for an adequate blood flow. The aim of the study was to evaluate AT III level in a random sample of community-dwelling older inhabitants of Lodz (Poland), and to assess the relationship of AT III activity with other cardiovascular risk factors and selected elements of Comprehensive Geriatric Assessment. In 176 examined subjects (108 women and 68 men) mean AT III activity was 89.8 +/- 20.7%. Statistically significant relationship of AT III activity with age (Spearman's rho=-0.23; p=0.002), trigliceride level (rho=0.17; p=0.03), Geriatric Depression Scale (rho=-0.17; p=0.03) and Instrumental Activities of Daily Living scale (rho=0.16; p=0.03) was found. AT III activity was not associated with gender, BMI, WHR, percentage of body fat, total, LDL and HDL-cholesterol levels, glucose, fibrinogen, systolic and diastolic blood pressure, smoking habit, Activities of Daily Living scale, Mini-Mental State Examination scale, physical activity level and concomitant diseases. These results suggest that age, depression, and lower functional capacity are associated with lower AT III activity and may contribute to overall thromboembolic risk profile in adults aged more than 65 years.
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PMID:[Antithrombin III activity in the elderly--association with cardiovascular disease risk factors]. 1652 16

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