UMLS:C0278134 - FACTA Search

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Query: UMLS:C0278134 (anesthesia)
110,339 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Fetal tracheal occlusion (TO) reverses lung hypoplasia by inducing rapid lung growth. Although increases in lung size accompanied by increased numbers of alveoli and capillaries have been reported, effects of TO on lung development have not been formally assessed. In the present study, the objective was to verify our prediction that the main effect of TO would be to accelerate fetal lung development. We have developed and characterized a new fetal mouse model of TO to best realize this goal. At embryonic day 16.5, pregnant CD1 mice were operated under general anesthesia. One fetus per dam was selected to undergo surgical TO with a surgical clip or a sham operation. The fetuses were delivered 24 or 36 h postsurgery. The maturation of lung parenchyma, evaluated by counting the generations of alveolar saccules from the terminal bronchiole to the pleura, was significantly accelerated in the TO group with a complexity of the gas exchange region comparable with postnatal days 1 and 3 after 24 or 36 h of TO. Cellular proliferation and apoptosis peaks, assessed by immunohistochemistry directed against PCNA and the active form of caspase-3, were significantly increased 24 h after surgery in the TO group compared with the sham group. However, in situ hybridization showed no significant difference in the density of type II pneumocytes expressing surfactant protein C mRNA. Our results show that brief TO during late gestation in fetal mice induces accelerated lung development with minimal effects on surfactant protein C mRNA expression.
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PMID:In vivo tracheal occlusion in fetal mice induces rapid lung development without affecting surfactant protein C expression. 1261 24

The effect of hypertonic saline resuscitation on intestinal damage and the incidence of apoptosis after hemorrhagic shock were investigated. After anesthesia, male BALB/c mice weighing 24-34 g were hemorrhaged to the mean arterial pressure of 40 +/- 5 mmHg for 90 min. Animals were randomly assigned to four groups: 1) resuscitation with 4 mL/kg of 7.5% NaCl (hypertonic saline; HS) + shed blood (SB); 2) resuscitation with two times the volume of shed blood of lactated Ringer's solution (2LR) + SB; 3) sham (catheter only); or 4) control (no treatment). Intestinal damage was graded based on the extent of the vacuolation at the basal area of the intestinal villi. Apoptosis of the small intestines was examined with the terminal deoxynucleotidyl transferase-mediated deoxyuridine 5-triphosphate nick-end labeling method and with DNA laddering. Caspase-3 activation, heat shock protein (HSP) 70, and HSP40 were assessed by western blotting. Apoptosis of the small intestine and intestinal damage were significantly lower (P < 0.01) in the HS+SB group compared with the 2LR+SB group 2 h and 6 h after hemorrhagic shock and resuscitation, respectively. This corresponded with more DNA fragmentation in the small intestine of the 2LR+SB group compared with the HS+SB group 2 h after hemorrhage and resuscitation. In addition, we observed less caspase-3 activation in the small intestine of the HS+SB group compared with the 2LR+SB group at 2 h after resuscitation. The content of HSP40 and HSP70 in the HS+SB group was similar to that in controls, but slightly decreased in the 2LR+SB group. HS resuscitation reduced intestinal damage and apoptosis after hemorrhagic shock, suggesting that HS resuscitation may improve the outcome after hemorrhagic shock by reducing apoptosis and damage to the small intestine.
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PMID:Hypertonic saline resuscitation reduces apoptosis and tissue damage of the small intestine in a mouse model of hemorrhagic shock. 1281 64

The mandatory use of pharmacotherapy in human heart failure (HF) impedes further study of natural history and remodeling mechanisms. We created a sheep model of chronic, severe, ischemic HF [left ventricular (LV) ejection fraction (LVEF) <35% stable over 4 wk] by selective coronary microembolization under general anesthesia and followed hemodynamic, energetic, neurohumoral, structural, and cellular responses over 6 mo. Thirty-eight sheep were induced into HF (58% success), with 23 sheep followed for 6 mo (21 sheep with sufficient data for analysis) after the LVEF stabilized (median of 3 embolizations). Early doubling of LV end-diastolic pressure persisted, as did increases in LV end-diastolic volume, LV wall stress, and LV wall thinning. Contractile impairment (LV end-systolic elastance, LV preload recruitable stroke work, and dobutamine-responsive contractile reserve) and diastolic dysfunction also remained stable. Cardiac mechanical energy efficiency did not recover. Plasma atrial natriuretic peptide levels remained elevated, but rises in plasma aldosterone and renin activity were transient. Collagen content increased 170%, the type I-to-III phenotype ratio doubled in the LV, but right ventricular collagen remained unaltered. Fas ligand cytokine levels correlated with expression of both caspase-3 and -2, suggesting a link in the apoptotic "death cascade." Caspase-3 activity also bore a close relationship to LV meridional wall stress calculated from echocardiographic and intraventricular pressure measurements. We concluded that the stability of chronic untreated severe ischemic HF depends on the recruitment of myocardial remodeling mechanisms that involve an interaction among hemodynamic load, contractile efficiency/energetics, neurohumoral activation, response of the extracellular matrix, wall stress, and the myocyte apoptotic pathway.
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PMID:Remodeling of the chronic severely failing ischemic sheep heart after coronary microembolization: functional, energetic, structural, and cellular responses. 1514 56

2,6-Diisopropylphenol is an intravenous anesthetic agent used for induction and maintenance of anesthesia. Since it is similar to alpha-tocopherol, 2,6-diisopropylphenol may have antioxidant effects. Osteoblasts play important roles in bone remodeling. In this study, we attempted to evaluate the protective effects of 2,6-diisopropylphenol on oxidative stress-induced osteoblast insults and their possible mechanisms, using neonatal rat calvarial osteoblasts as the experimental model. Clinically relevant concentrations of 2,6-diisopropylphenol (3 and 30 microM) had no effect on osteoblast viability. However, 2,6-diisopropylphenol at 300 microM time-dependently caused osteoblast death. Exposure to sodium nitroprusside (SNP), a nitric oxide donor, increased amounts of nitrite in osteoblasts. 2,6-Diisopropylphenol did not scavenge basal or SNP-releasing nitric oxide. Hydrogen peroxide (HP) enhanced levels of intracellular reactive oxygen species in osteoblasts. 2,6-Diisopropylphenol significantly reduced HP-induced oxidative stress. Exposure of osteoblasts to SNP and HP decreased cell viability time-dependently. 2,6-Diisopropylphenol protected osteoblasts from SNP- and HP-induced cell damage. Analysis by a flow cytometric method revealed that SNP and HP induced osteoblast apoptosis. 2,6-Diisopropylphenol significantly blocked SNP- and HP-induced osteoblast apoptosis. Administration of SNP and HP increased caspase-3 activities. However, 2,6-diisopropylphenol significantly decreased SNP- and HP-enhanced caspase-3 activities. This study shows that a therapeutic concentration of 2,6-diisopropylphenol can protect osteoblasts from SNP- and HP-induced cell insults, possibly via suppression of caspase-3 activities.
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PMID:2,6-Diisopropylphenol protects osteoblasts from oxidative stress-induced apoptosis through suppression of caspase-3 activation. 1596 91

This study evaluated the hypothesis that the repertoire of cellular events that underlie circulatory fatality during endotoxemia may entail mitochondrial respiratory enzyme dysfunction, followed by the release of cytochrome c to the cytosol that triggers the activation of caspase cascades, leading to apoptotic cell death in the rostral ventrolateral medulla (RVLM) where sympathetic premotor neurons responsible for maintaining vasomotor tone are located. In adult Sprague-Dawley rats maintained under propofol anesthesia, nucleosomal DNA fragmentation was detected in the RVLM in a temporal profile that coincided positively with the progression of cardiovascular depression during experimental endotoxemia induced by Escherichia coli lipopolysaccharide (LPS). LPS also induced nitric oxide (NO) and superoxide (O(2)(-)) production, depressed mitochondrial Complex I and IV activity, promoted the release of cytochrome c from mitochondria to cytosol, upregulated the cytosolic expression of activated caspase-9 and -3, or increased caspase-3 enzyme activity in the RVLM. Microinjection bilaterally into the RVLM of an inducible nitric oxide synthase (iNOS) blocker, S-methylisothiourea, or a superoxide dismutase mimetic, Tempol, significantly blunted these apoptotic cellular events and antagonized the cardiovascular depression during endotoxemia. We conclude that caspase-dependent apoptotic cell death that results from NO- and O(2)(-)-associated mitochondrial signaling in the RVLM may underlie fatal cardiovascular depression during endotoxemia.
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PMID:Nitric oxide- and superoxide-dependent mitochondrial signaling in endotoxin-induced apoptosis in the rostral ventrolateral medulla of rats. 1608 79

General anesthetics cause widespread apoptotic neurodegeneration in many regions of the developing rat brain. The activation of mitochondria-dependent apoptotic pathway is important in the early stages of anesthesia-induced developmental neuroapoptosis. To investigate potential means of protecting against this type of damage, we studied melatonin, a sleep-promoting agent and antioxidant known to inhibit apoptotic-type neuronal damage by improving mitochondrial homeostasis and stabilizing the inner mitochondrial membrane. When 7-day-old rats (the peak of synaptogenesis) were exposed to a commonly used and highly pro-apoptotic anesthesia cocktail (midazolam, isoflurane, nitrous oxide) in combination with the escalating doses of melatonin (from 1 to 20 mg/kg, s.c.), the severity of anesthesia-induced damage was reduced in a dose-dependent manner in two most vulnerable brain regions--the cerebral cortex and anterior thalamus. Melatonin-induced neuroprotection was mediated, at least in part, via the inhibition of mitochondria-dependent apoptotic pathway since melatonin caused an up-regulation of the anti-apoptotic protein, bcl-X(L), reduction in anesthesia-induced cytochrome c release into the cytoplasm and a decrease in anesthesia-induced activation of caspase-3, an important step in the activation of DNAses and the formation of the apoptotic bodies.
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PMID:Melatonin reduces the severity of anesthesia-induced apoptotic neurodegeneration in the developing rat brain. 1628 75

The rostral ventrolateral medulla (RVLM) is the origin of a 'life-and-death' signal that reflects central cardiovascular regulatory failure during brain stem death. Using an experimental endotoxaemia model, we evaluated the hypothesis that the 60 kDa heat shock protein 60 (HSP60) reduces cardiovascular fatality during brain stem death via an anti-apoptotic action in the RVLM. In Sprague-Dawley rats maintained under propofol anaesthesia, proteomic or Western blot analysis revealed a progressive augmentation of HSP60 expression in the RVLM after intravenous administration of Escherichia coli lipopolysaccharide (30 mg kg(-1)). Pretreatment with a microinjection of actinomycin D or cycloheximide into bilateral RVLM significantly blunted this HSP60 increase, whereas real-time PCR showed progressive augmentation of hsp60 mRNA. Intriguingly, superimposed on the augmented expression was a progressive decline in mitochondrial, or elevation in cytosolic, HSP60 in ventrolateral medulla. Loss-of-function manipulations in the RVLM using anti-HSP60 antiserum or antisense hsp60 oligonucleotide exacerbated mortality by potentiating the cardiovascular depression during experimental endotoxaemia, alongside intensified nucleosomal DNA fragmentation, elevated cytoplasmic histone-associated DNA fragments or augmented cytochromec-caspase-3 cascade of apoptotic signalling in the RVLM. Immunoprecipitation coupled with immunoblot analysis further revealed a progressive increase in the complex formed between HSP60 and mitochondrial or cytosolic Bax or mitochondrial Bcl-2 during endotoxaemia, alongside a dissociation of the cytosolic HSP60-Bcl-2 complex. We conclude that HSP60 redistributed from mitochondrion to cytosol in the RVLM confers neuroprotection against fatal cardiovascular depression during endotoxaemia via reduced activation of the cytochrome c-caspase-3 cascade of apoptotic signalling through enhanced interactions with mitochondrial or cytosolic Bax or Bcl-2.
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PMID:Heat shock protein 60 in rostral ventrolateral medulla reduces cardiovascular fatality during endotoxaemia in the rat. 1667 90

Pharmacological modulation of heme oxygenase (HO) gene expression may have significant therapeutic potential in oxidant-induced disorders, such as ischemia reperfusion (I/R) injury. Higenamine is known to reduce ischemic damages by unknown mechanism(s). The protective effect of higenamine on myocardial I/R-induced injury was investigated. Ligation of rat left anterior descending coronary artery for 30 min under anesthesia was done and followed by 24 h reperfusion before sacrifice. I/R-induced myocardial damages were associated with mitochondria-dependent apoptosis as evidenced by the increase of cytochrome c release and caspase-3 activity. Administration of higenamine (bolus, i.p) 1 h prior to I/R-injury significantly decreased the release of cytochrome c, caspase-3 activity, and Bax expression but up-regulated the expression of Bcl-2, HO-1, and HO enzyme activity in the left ventricles, which were inhibited by ZnPP IX, an enzyme inhibitor of HO-1. In addition, DNA-strand break-, immunohistochemical-analysis, and TUNEL staining also supported the anti-apoptotic effect of higenamine in I/R-injury. Most importantly, administration of ZnPP IX inhibited the beneficial effect of higenamine. Taken together, it is concluded that HO-1 plays a core role for the protective action of higenamine in I/R-induced myocardial injury.
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PMID:Higenamine reduces apoptotic cell death by induction of heme oxygenase-1 in rat myocardial ischemia-reperfusion injury. 1670 64

Previous studies have identified that progesterone may be neuroprotective following traumatic brain injury (TBI). However, most of these have utilized models of TBI that produce a focal lesion or a significant ischemic component, neither of which is necessarily present in diffuse TBI. The current study uses a model of diffuse TBI in rats to examine the effects of progesterone on morphological changes and functional outcome following TBI. Male and ovariectomized female rats were subject to severe impact-acceleration injury under halothane anesthesia. After injury, animals were given a physiological, subcutaneous dose of progesterone (1.67 mg/kg) or equal volume of vehicle (sesame oil) daily throughout a 9-day neurologic assessment period where functional outcome was assessed using the rotarod and Barnes maze tests. There was a similar post-injury performance of male and ovariectomized female animals. Post-injury administration of progesterone improved the motor and cognitive performance of ovariectomized and male animals compared to vehicle-treated controls. Morphological differences between these animals, such as dark cell change, caspase-3 and APP immunoreactivity, were also investigated. Progesterone-treated males showed comparatively less dead or dying neurons, and marked attenuation of caspase-3 immunoreactivity. Both ovariectomized female and male animals treated with progesterone showed a profound reduction in axonal injury (seen via diminished APP immunoreactivity) when compared to controls. We conclude that physiological concentrations of progesterone administered after diffuse TBI confers beneficial effects on morphologic and functional outcome in both ovariectomized female and male animals.
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PMID:Effects of progesterone on neurologic and morphologic outcome following diffuse traumatic brain injury in rats. 1736 36

Our aim in performing this study was to analyze in vivo the cell death mechanism induced by toxic doses of digitalis compounds on guinea-pig cardiomyocytes. We analyzed three study groups of five male guinea pigs each. Guinea pigs were intoxicated under anesthesia with ouabain or digoxin (at a 50-60% lethal dose); the control group did not receive digitalis. A 5-hours period elapsed before guinea pig hearts were extracted to obtain left ventricle tissue. We carried out isolation of mitochondria and cytosol, cytochrome c and caspase-3 and -9 determination, and electrophoretic analysis of nuclear DNA. TdT-mediated DUTP-X nick end labeling (TUNEL) reaction was performed in histologic preparations to identify in situ apoptotic cell death. Ultrastructural analysis was performed by electron microscopy. Electrophoretic analysis of DNA showed degradation into fragments of 200-400 base pairs in digitalis-treated groups. TUNEL reaction demonstrated the following: in the control group, <10 positive nuclei per field; in the digoxin-treated group, 2-14 positive nuclei per field, while in the ouabain-treated group counts ranged from 9-30 positive nuclei per field. Extracts from ouabain-treated hearts had an elevation of cytochrome c in cytosol and a corresponding decrease in mitochondria; this release of cytochrome c provoked activation of caspase-9 and -3. Electron microscopy revealed presence of autophagic vesicles in cytoplasm of treated hearts. Toxic dosages of digitalis at 50-60% of the lethal dose are capable of inducing cytochrome c release from mitochondria, processing of procaspase-9 and -3, and DNA fragmentation; these observations are mainly indicative of apoptosis, although a mixed mechanism of cell death cannot be ruled out.
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PMID:Is digitalis compound-induced cardiotoxicity, mediated through guinea-pig cardiomyocytes apoptosis? 1746 70

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