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Query: UMLS:C0020440 (hypercapnia)
7,939 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Hypercapnia-induced cerebral vasodilation is associated with prostanoids in the piglet, but is a primarily nitric oxide (NO) associated response in many adult models. Hypercapnia-induced cerebral vasodilation is both NO and prostanoid associated in the juvenile pig. We hypothesized that with chronic administration of indomethacin the piglet would advance the role of the NO system in cerebrovascular responses. The closed cranial window technique was used in piglets to determine pial arteriolar response. Chronically indomethacin treated newborn animals dilated in response to CO2 similarly to control newborns (40.9+/-4.4% vs 48.4+/-4.1%). Topical n-nitro L-arginine (L-NA, 10(-3) M), attenuated CO2 induced dilation in the chronically indomethacin treated animals (11.7+/-3.3% vs 40.9+/-4.4%; p < 0.001), but had no effect on the response to hypercapnia of piglets not treated with indomethacin. Neither indomethacin nor L-NA altered response to topical isoproterenol (10(-6) M). We conclude that with chronic indomethacin administration there develops a significant hypercapnia-induced cerebral vasodilation in which NO has an important role. The chronic inhibition of the newborn's principal dilator system appears to increase the role of NO in newborn cerebral hemodynamics.
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PMID:Chronic administration of indomethacin increases role of nitric oxide in hypercapnic cerebrovasodilation in piglets. 1178 93

We hypothesize that inhibitory effects exist between prostanoids and nitric oxide (NO) in their contributions to cerebral circulation. Piglets (1-4 days old) were divided into three chronically treated (6-8 days) groups: control piglets, piglets treated with indomethacin (75 mg/day), and piglets treated with N(omega)-nitro-L-arginine methyl ester (L-NAME, 100 mg x kg(-1) x day(-1)). Pial arterioles dilated in response to hypercapnia similarly among the three groups (41 +/- 4, 40 +/- 6, and 45 +/- 11%). Cerebrospinal fluid cAMP increased in control piglets, while cGMP increased in indomethacin-treated piglets. L-NAME, but not 7-nitroindazole, inhibited the response to hypercapnia only in indomethacin-treated piglets (40 +/- 6 vs. 17 +/- 5%). Topical sodium nitroprusside or iloprost restored dilation in response to hypercapnia. Similar results were obtained when the dilator was bradykinin. Pial arterioles of control and L-NAME-treated piglets constricted in response to ACh (-24 +/- 3%). However, those of indomethacin-treated piglets dilated in response to ACh (15 +/- 2%). This dilation was inhibited by L-NAME. NO synthase activity, but not endothelial NO synthase expression, increased after chronic indomethacin treatment. These data suggest that chronic inhibition of cyclooxygenase can increase the contribution of NO to cerebrovascular circulatory control in piglets.
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PMID:Compensatory role of NO in cerebral circulation of piglets chronically treated with indomethacin. 1179 49

N-methyl-D-aspartate (NMDA) elicits pial arteriolar dilation that has been associated with neuronal nitric oxide (NO) production. However, endothelial factors or glial P-450 epoxygenase products may play a role. We tested whether NMDA-induced pial vasodilation 1) primarily involves NO diffusion from the parenchyma to the surface arterioles, 2) involves intact endothelial function, and 3) involves a miconazole-sensitive component. Arteriolar diameters were determined using closed cranial window-intravital microscopy in anesthetized piglets. NMDA (10-100 microM) elicited virtually identical dose-dependent dilations in paired arterioles (r = 0.94, n = 15). However, NMDA- but not bradykinin (BK)-induced dilations of arteriolar sections over large veins were reduced by 31 +/- 1% (means +/- SE, P < 0.05, n = 4) compared with adjacent sections on the cortical surface. Also, 100 microM NMDA increased cerebrospinal fluid levels of NO metabolites from 3.7 +/- 1.0 to 5.3 +/- 1.2 microM (P < 0.05, n = 6). Endothelial stunning by intracarotid injection of phorbol 12,13-dibutyrate did not affect NMDA-induced vasodilation but attenuated vascular responses to hypercapnia and BK by approximately 70% (n = 7). Finally, miconazole (n = 6, 20 microM) pretreatment and coapplication with NMDA did not alter vascular responses to NMDA. In conclusion, NMDA appears to dilate pial arterioles exclusively through release and diffusion of NO from neurons to the pial surface in piglets.
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PMID:N-methyl-D-aspartate-induced vasodilation is mediated by endothelium-independent nitric oxide release in piglets. 1189 77

Management of congenital diaphragmatic hernia has changed dramatically over the past couple of decades. Until the early 1980s, it was felt that the abdominal contents should be returned to the abdomen as soon as possible to allow the lungs to expand. It is now known that it is not the defect that causes respiratory distress, but the infant's hypoplastic lungs and accompanying pulmonary hypertension. Advances in treatment and technology have contributed to changes in management. Ultrasonography now allows for early prenatal detection. Prenatal treatment modalities include in utero tracheal ligation and maternal antenatal steroids. Postnatal modalities have expanded to include permissive hypercapnia, high-frequency ventilation, inhaled nitric oxide, pharmacologic support, exogenous surfactant, and extracorporeal membrane oxygenation. Liquid ventilation and lobar lung transplantation have also been tried. In spite of these advances, the overall survival rate remains about 63 percent.
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PMID:Current and emerging treatment for congenital diaphragmatic hernia. 1214 12

1H-[1,2,4]oxadiazolo[4,3,-a]quinoxalin-1-one (ODQ) is an inhibitor of guanylate cyclase and has been reported to inhibit dilation of cerebral blood vessels by hypercapnia. This supports the hypothesis that this dilation is dependent upon guanylate cyclase, activated by nitric oxide (NO) released from neural tissue. However, there are conflicting reports concerning the role of guanylate cyclase in response to hypercapnia. Therefore, we tested the effect of topically applied ODQ (10 microM) on rat pial arterioles observed with a microscope through a closed cranial window. In one study, we tested ODQ ability to inhibit both the dilation produced by hypercapnia (3% and 5% inspired CO(2)) and, in the same rats, the dilation produced by N-methyl-D-aspartate (NMDA). In another experiment, we tested the ability of ODQ to inhibit dilation produced by hypercapnia and the dilation produced by 3-morpholinosydnonimine (SIN-1), a donor of NO. The responses to NMDA and to NO are known to depend upon activation of guanylate cyclase and were both blocked in the present study. However, the response to hypercapnia was not affected. These findings provide evidence that hypercapnic dilation can occur independently of guanylate cyclase activation.
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PMID:Dilation of rat brain arterioles by hypercapnia in vivo can occur even after blockade of guanylate cyclase by ODQ. 1214 42

Previous research has described how high cellular metabolism creates an acidic environment in inflammatory cells during respiratory burst. The aim of our work was to describe the acid-base dependence of exudate in superoxide (O2.-) and nitric oxide (NO.) generation by inflammatory cells from a carrageenan-granuloma. Although the carrageenan solution was alkaline (pH 7.74 when equilibrated with air) the exudate showed an acidification that stabilised at around 7 units of pH. A notable hypercapnia, but not hypoxia, was found in the exudate at up to 24 h. The effect of extracellular acidosis on O2.- and NO. production by inflammatory cells was also studied. The maximum O2.- production and the lowest levels of NO. were found at pH 7, which was closer to the pH of the granuloma-pouch. These results suggest that experiments with inflammatory cells ex vivo should be carried out at an identical pH to that found in vivo in order to reproduce the physiological mechanisms of free radical generation during inflammatory processes.
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PMID:Extracellular pH affects inflammatory cell production of superoxide and nitric oxide. 1243 87

We used mice deficient in neuronal nitric oxide (NO) synthase (nNOS) to specifically investigate the role of neuronal NO in the increase of cerebellar blood flow (BFcrb) produced by neural activation. Crus II, a region of the cerebellar cortex that receives trigeminal sensory afferents, was activated by low-intensity stimulation of the upper lip (5-25 V, 4-16 Hz) in anesthetized mice. BFcrb was recorded in Crus II by using a laser-Doppler flow probe. In wild-type mice, upper lip stimulation increased BFcrb in the Crus II by 28 +/- 3% (25 V, 10 Hz, n = 6). The rise in BFcrb was attenuated by 73 +/- 3% in nNOS-/- mice (P < 0.05, n = 6). The increases in BFcrb produced by superfusion of Crus II with glutamate or by systemic administration of harmaline were also attenuated in nNOS-/- mice (P < 0.05). In contrast, the increases in BFcrb produced by topical superfusion of Crus II with acetylcholine or adenosine and the increase in BFcrb produced by hypercapnia were not affected (P > 0.05). The field potentials evoked in the Crus II by upper lip stimulation did not differ between wild-type and nNOS-null mice. These data provide the first nonpharmacological evidence that nNOS-derived NO is a critical link between glutamatergic synaptic activity and blood flow in the activated cerebellum.
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PMID:Attenuation of activity-induced increases in cerebellar blood flow in mice lacking neuronal nitric oxide synthase. 1262 92

We investigated whether angiotensin II (ANG II), a peptide that plays a central role in the genesis of hypertension, alters the coupling between synaptic activity and cerebral blood flow (CBF), a critical homeostatic mechanism that assures adequate cerebral perfusion to active brain regions. The somatosensory cortex was activated by stroking the facial whiskers in anesthetized C57BL/6J mice while local CBF was recorded by laser-Doppler flowmetry. Intravenous ANG II infusion (0.25 mug.kg-1.min-1) increased mean arterial pressure (MAP) from 82 +/- 2 to 102 +/- 3 mmHg (P < 0.05) without affecting resting CBF (P > 0.05). ANG II attenuated the CBF increase produced by whisker stimulation by 65% (P < 0.05) but did not affect the response to hypercapnia or to neocortical application of the nitric oxide donor S-nitroso-N-acetyl penicillamine (P > 0.05). The effect of ANG II on functional hyperemia persisted if the elevation in MAP was offset by controlled hemorrhage or prevented by topical application of the peptide to the activated cortex. ANG II did not reduce the amplitude of the P1 wave of the field potentials evoked by whisker stimulation (P > 0.05). Infusion of phenylephrine increased MAP (P > 0.05 from ANG II) but did not alter the functional hyperemic response (P > 0.05). The data suggest that ANG II alters the coupling between CBF and neural activity. The mechanisms of the effect are not related to the elevation in MAP and/or to inhibition of the synaptic activity evoked by whisker stimulation. The imbalance between CBF and neural activity induced by ANG II may alter the homeostasis of the neuronal microenvironment and contribute to brain dysfunction during ANG II-induced hypertension.
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PMID:Angiotensin II attenuates functional hyperemia in the mouse somatosensory cortex. 1290 23

Intracellular factors that regulate nitric oxide (NO) synthesis represent important targets in tumor progression. Overexpression of dimethylarginine dimethylaminohydrolase (DDAH), which metabolizes the endogenous inhibitors of NO synthesis asymmetric dimethylarginine and N-monomethyl-L-arginine, results in C6 gliomas with enhanced growth rate compared with wild type. To investigate the effects of DDAH on tumor vascular morphogenesis in vivo, we have measured the transverse relaxation rates R(2)* and R(2) in clone D27 gliomas overexpressing DDAH and C6 wild-type gliomas using intrinsic susceptibility magnetic resonance imaging (MRI), sensitive to changes in endogenous [deoxyhemoglobin], and susceptibility contrast-enhanced MRI using the intravascular blood pool contrast agent NC100150, and we compared the results with fluorescence microscopy of the tumor uptake of the perfusion marker Hoechst 33342. The baseline R(2)* was significantly faster in the D27 tumors, consistent with a greater vascular development (P < 0.02, ANOVA). There was no significant difference between the response of the two tumor types to hypercapnia (5% CO(2)/95% air), used as a probe for vascular maturation, or hyperoxia (5% CO(2)/95% O(2)), used as a probe for vascular function. NC100150 increased the R(2)* and R(2) rates of both tumor types and demonstrated a significantly larger blood volume in the D27 tumors (P < 0.02, ANOVA). This correlated with a significantly greater uptake of Hoechst 33342 in the D27 tumors compared with C6 wild-type tumors (P < 0.02, ANOVA). Despite the increased tumor blood volume, the Delta R(2)*/Delta R(2) ratio, an index of microvessel size, showed that the capillaries in the two tumor types were of a similar caliber. The data highlight the potential of susceptibility MRI-derived quantitative end points to noninvasively assess tumor angiogenesis, and in this regard, the use of intravascular blood pool contrast agents such as NC100150 appears very promising. Overexpression of DDAH results in increased neovascularization of C6 gliomas in vivo. The lack of significant difference in hypercapnic/hyperoxic response between the C6 and D27 tumors and the similar vessel caliber are also consistent with a role for DDAH in the initial stages of vasculogenesis.
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PMID:Effects of overexpression of dimethylarginine dimethylaminohydrolase on tumor angiogenesis assessed by susceptibility magnetic resonance imaging. 1294 21

Albeit controversial, it has been suggested by several authors that nitric oxide (NO) serves as a permissive factor in the cerebral blood flow response to systemic hypercapnia. Potassium channels are important regulators of cerebrovascular tone and may be modulated by a basal perivascular NO level. To elucidate the functional targets of the proposed NO modulation during hypercapnia-induced vasodilation, the authors performed experiments in isolated, cannulated, and pressurized rat middle cerebral arteries (MCA). Extracellular pH was reduced from 7.4 to 7.0 in the extraluminal bath to induce NO dependent vasodilation. Acidosis increased vessel diameter by 35 +/- 10%. In separate experiments, ATP-sensitive potassium channels (KATP) were blocked by extraluminal application of glibenclamide (Glib), Ca2+-activated potassium channels (KCa) by tetraethylammonium (TEA), voltage-gated potassium channels (Kv) by 4-aminopyridine, and inward rectifier potassium channels (KIR) by BaCl2. Na+-K+-ATP-ase was inhibited by ouabain. Application of TEA slightly constricted the arteries at pH 7.4 and slightly but significantly attenuated the vasodilation to acidosis. Inhibition of the other potassium channels or Na+-K+-ATP-ase had no effect. Combined blockade of KATP and KCa channels further reduced resting diameter, and abolished acidosis induced vasodilation. The authors conclude that mainly KCa channels are active under resting conditions. KATP and KCa channels are responsible for vasodilation to acidosis. Activity of one of these potassium channel families is sufficient for vasodilation to acidosis, and only combined inhibition completely abolishes vasodilation. During NO synthase inhibition, dilation to the KATP channel opener pinacidil or the KCa channel opener NS1619 was attenuated or abolished, respectively. The authors suggest that a basal perivascular NO level is necessary for physiologic KATP and KCa channel function in rat MCA. Future studies have to elucidate whether this NO dependent effect on KATP and KCa channel function is a principle mechanism of NO induced modulation of cerebrovascular reactivity and whether the variability of findings in the literature concerning a modulatory role of NO can be explained by different levels of vascular NO/cGMP concentrations within the cerebrovascular tree.
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PMID:Cerebrovascular vasodilation to extraluminal acidosis occurs via combined activation of ATP-sensitive and Ca2+-activated potassium channels. 1452 33


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