Microdialysis assessment of local adipose tissue lipolysis during beta-adrenergic stimulation in upper-body-obese subjects with type II diabetes.
(65/2093)
The present study was designed to investigate indicators of abdominal adipose tissue lipolysis (microdialysis), and subcutaneous adipose tissue blood flow and whole-body lipolysis, in obesity-associated type II diabetes during overnight-fasted conditions (baseline) and during intravenous infusion of the non-selective beta-agonist isoprenaline. Basal subcutaneous adipose tissue blood flow and isoprenaline-induced increases in adipose tissue blood flow were not significantly different between subjects with type II diabetes and non-obese, non-diabetic controls. Adipose tissue interstitial glycerol concentrations were significantly higher in subjects with type II diabetes compared with controls (P<0. 01), and during isoprenaline infusion there was a decrease in interstitial glycerol in both groups (P<0.001). Arterial glycerol concentrations were higher in subjects with type II diabetes compared with controls (P<0.05), whereas the increases in arterial glycerol concentration in response to isoprenaline infusion were of a similar magnitude in the two groups. Estimated subcutaneous adipose tissue glycerol release was not significantly different between the groups (controls and subjects with type II diabetes: baseline, -129+/-32 and -97+/-72 micromol.min(-1).100 g(-1) adipose tissue respectively; isoprenaline, -231+/-76 and -286+/-98 micromol. min(-1).100 g(-1) respectively). Values for fat oxidation were not significantly different between groups, whereas the isoprenaline-induced increase in fat oxidation tended to be less pronounced in subjects with type II diabetes compared with controls (0.022+/-0.008 and 0.038+/-0.003 g/min respectively; P=0.058). Thus estimated basal subcutaneous adipose tissue glycerol release, expressed per unit of fat mass, is not different in controls and in subjects with type II diabetes. Additionally, the isoprenaline-induced increases in indicators of local abdominal subcutaneous adipose tissue, systemic lipolysis and abdominal adipose tissue blood flow responses were comparable in obese subjects with type II diabetes and in controls. The last two findings contrast with previous data from obese subjects, indicating that the regulation of lipolysis may differ in obesity and obesity-associated type II diabetes. (+info)
Dopaminergic correlates of sensory-specific satiety in the medial prefrontal cortex and nucleus accumbens of the rat.
(66/2093)
Changes in dopamine (DA) efflux in the medial prefrontal cortex and nucleus accumbens of rats were monitored using in vivo microdialysis during sensory-specific satiety experiments. Rats consumed significant amounts of a palatable food during an initial meal but ate little when the same food was available as a second meal. In contrast, rats given a different palatable food ate a significant quantity during the second meal. DA efflux in both brain regions reflected this difference in food intake, indicating that DA activity is influenced by changes in the deprivation state of animals and sensory incentive properties of food. Given the proposed role of DA in motivated behaviors, these findings suggest that DA efflux may signal the relative incentive salience of foods and thus is a determinant of the pattern of food consumption observed in sensory-specific satiety. (+info)
Enhancement of the serotonin-mediated acetylcholine release by repeated desmethylimipramine treatment in the hippocampus of freely moving rats.
(67/2093)
A possible involvement of serotonin-mediated cholinergic activation in the antidepressant effect of desmethylimipramine (DMI) was investigated by determination of the effects of a single or repeated DMI administration on acetylcholine (ACh) release in the hippocampus using an in vivo microdialysis technique and a radioimmunoassay for ACh. Rats were administered DMI (10 mg/kg, i.p.) acutely or repeatedly for 21 days. A single or repeated DMI administration did not cause any significant effects on the basal ACh release compared with the respective controls. Atropine perfusion in the acutely DMI-treated or control rats increased the ACh release to the same degree. In repeatedly DMI-treated rats, serotonin (5-HT) (1 to 10 microM) perfusion enhanced significantly the ACh release. However, 5-HT in acutely DMI-treated rats enhanced significantly the ACh release only at 10 microM. 5-HT did not cause any changes in ACh release in control rats. Hippocampal 5-HT content of acutely DMI-treated rats was significantly higher than that of saline-treated control rats, while no difference was observed between the repeatedly DMI- and saline-treated rats. These findings suggest, for the first time, that DMI induced a facilitation of cholinergic neurotransmission in the rat hippocampus through the activation of 5-HT-receptor function. (+info)
Modulation by fluoxetine of striatal dopamine release following Delta9-tetrahydrocannabinol: a microdialysis study in conscious rats.
(68/2093)
1. The present study was undertaken to investigate the effect of Delta9-tetrahydrocannabinol (Delta9-THC) and possible serotoninergic involvement on the extracellular level of dopamine (DA) in the striatum using microdialysis in conscious, freely-moving rats. 2. A dose-dependent increase in striatal DA release occurred after i.v. administration of 0.5 - 5 mg kg-1 Delta9-THC when compared with vehicle (n=5 - 8, P<0.05). Maximum increases, ranging from 42.1+/-5. 4% to 97.4+/-5.9% (means+/-s.e.mean) of basal levels occurred 20 min after Delta9-THC. This effect was abolished by pretreatment with the cannabinoid CB1 receptor antagonist, SR 141716 (2.5 mg kg-1 i.p.). 3. Pretreatment with fluoxetine (10 mg kg-1 i.p.) abolished the Delta9-THC-induced DA release. Fluoxetine 10 mg kg-1 i.p. administered 40 min after Delta9-THC had no significant effect on Delta9-THC-induced DA release. However, fluoxetine perfused locally into the striatum by adding it to the microdialysis perfusion fluid (10 microM) 40 min after Delta9-THC significantly potentiated the Delta9-THC-induced DA release (n=6 - 8, P<0.05). 4. These results suggest that DA release induced by Delta9-THC is modulated by serotoninergic changes induced by fluoxetine, the effect of which depends on the time of its administration relative to that of Delta9-THC. Fluoxetine induces an acute increase in extracellular 5-HT through reuptake inhibition, which can activate autoreceptors which may decrease serotoninergic neuronal activity. This may be the reason fluoxetine pretreatment abolished the Delta9-THC-induced DA release. The potentiation of Delta9-THC-induced DA release by fluoxetine perfusion added 40 min after Delta9-THC may be due to an acute increase in 5-HT produced by reuptake inhibition. (+info)
Penetration of moxifloxacin into peripheral compartments in humans.
(69/2093)
To characterize the penetration of moxifloxacin (BAY 12-8039) into peripheral target sites, the present study aimed at measuring unbound moxifloxacin concentrations in the interstitial space fluid by means of microdialysis, an innovative clinical sampling technique. In addition, moxifloxacin concentrations were measured in cantharides-induced skin blisters, saliva, and capillary plasma and compared to total- and free-drug concentrations in venous plasma. For this purpose, 12 healthy volunteers received moxifloxacin in an open randomized crossover fashion either as a single oral dose of 400 mg or as a single intravenous infusion of 400 mg over 60 min. An almost-complete equilibration of the free unbound plasma fraction of moxifloxacin with the interstitial space fluid was observed, with mean area under the concentration-time curve (AUC)(interstitial fluid)/AUC(total-plasma) ratios ranging from 0.38 to 0.55 and mean AUC(interstitial fluid)/AUC(free-plasma) ratios ranging from 0.81 to 0.86. The skin blister concentration/plasma concentration ratio reached values above 1.5 after 24 h, indicating a preferential penetration of moxifloxacin into inflamed lesions. The moxifloxacin concentrations in saliva and capillary blood were similar to the corresponding levels in plasma. Our data show that moxifloxacin concentrations attained in the interstitial space fluid in humans and in skin blister fluid following single doses of 400 mg exceed the values for the MIC at which 90% of isolates are inhibited for most clinically relevant bacterial strains, notably including penicillin-resistant Streptococcus pneumoniae. These findings support the use of moxifloxacin for the treatment of soft tissue and respiratory tract infections in humans. (+info)
Human pharmacokinetics of L-3,4-dihydroxyphenylalanine studied with microdialysis.
(70/2093)
BACKGROUND: Intravenous and subcutaneous microdialysis was performed to compare the free concentrations and pharmacokinetics of L-3, 4-dihyroxyphenylalanine (L-dopa) in blood and tissue in healthy subjects and in patients with Parkinson disease. METHODS: Nine healthy volunteers and 10 patients with Parkinson disease, stage 1. 5-2 according to the Hoehn-Yahr rating scale, took part of the study. In the patient group subcutaneous microdialysis and ordinary blood sampling were performed, whereas in the control group intravenous microdialysis was also performed. Microdialysis samples were collected in fractions of 15 min. The first two fractions were collected for analysis of basal concentrations. A blood sample was also taken. The patients were then given one tablet of Madopar((R)) (100 mg of L-dopa and 25 mg of benserazide), and the microdialysis was continued for another 210 min. Blood samples were obtained at 30-min intervals. RESULTS: The serum samples gave a significantly higher mean area under the curve (AUC; 491 +/- 139 micromol. min/L) than that for intravenous dialysates (235 +/- 55.3 micromol. min/L), suggesting a protein binding of 50%. The L-dopa concentrations from the subcutaneous dialysates matched those from the intravenous dialysates, indicating rapid distribution of L-dopa to the tissues. CONCLUSIONS: Parkinsonian patients in early stages of the disease have a pharmacokinetic pattern of free L-dopa similar to that of healthy subjects. Comparison of AUCs from microdialysis with ordinary serum analysis revealed data indicating significant protein binding. Microdialysis is a suitable and easily applied tool in pharmacokinetic studies. (+info)
Catecholamine handling in the porcine heart: a microdialysis approach.
(71/2093)
Experimental findings suggest a pronounced concentration gradient of norepinephrine (NE) between the intravascular and interstitial compartments of the heart, compatible with an active neuronal reuptake (U1) and/or an endothelial barrier. Using the microdialysis technique in eight anesthetized pigs, we investigated this NE gradient, both under baseline conditions and during increments in either systemic or myocardial interstitial fluid (MIF) NE concentration. At steady state, baseline MIF NE (0.9 +/- 0.1 nmol/l) was higher than arterial NE (0.3 +/- 0.1 nmol/l) but was not different from coronary venous NE (1.5 +/- 0.3 nmol/l). Local U1 inhibition raised MIF NE concentration to 6.5 +/- 0.9 nmol/l. During intravenous NE infusions (0.6 and 1.8 nmol. kg(-1). min(-1)), the fractional removal of NE by the myocardium was 79 +/- 4% to 69 +/- 3%, depending on the infusion rate. Despite this extensive removal, the quotient of changes in MIF and arterial concentration (DeltaMIF/DeltaA ratio) for NE were only 0.10 +/- 0.02 for the lower infusion rate and 0.11 +/- 0.01 for the higher infusion rate, whereas U1 blockade caused the DeltaMIF/DeltaA ratio to rise to 0.21 +/- 0.03 and 0.36 +/- 0.05, respectively. From the differences in DeltaMIF/DeltaA ratios with and without U1 inhibition, we calculated that 67 +/- 5% of MIF NE is removed by U1. Intracoronary infusion of tyramine (154 nmol. kg(-1). min(-1)) caused a 15-fold increase in MIF NE concentration. This pronounced increase was paralleled by a comparable increase of NE in the coronary vein. We conclude that U1 and extraneuronal uptake, and not an endothelial barrier, are the principal mechanisms underlying the concentration gradient of NE between the interstitial and intravascular compartments in the porcine heart. (+info)
The role of P-glycoprotein in blood-brain barrier transport of morphine: transcortical microdialysis studies in mdr1a (-/-) and mdr1a (+/+) mice.
(72/2093)
1. The aim of this study was to investigate whether blood-brain barrier transport of morphine was affected by the absence of mdr1a-encoded P-glycoprotein (Pgp), by comparing mdr1a (-/-) mice with mdr1a (+/+) mice. 2. Mdr1a (-/-) and (+/+) mice received a constant infusion of morphine for 1, 2 or 4 h (9 nmol/min/mouse). Microdialysis was used to estimate morphine unbound concentrations in brain extracellular fluid during the 4 h infusion. Two methods of estimating in vivo recovery were used: retrodialysis with nalorphine as a calibrator, and the dynamic-no-net-flux method. 3. Retrodialysis loss of morphine and nalorphine was similar in vivo. Unbound brain extracellular fluid concentration ratios of (-/-)/(+/+) were 2.7 for retrodialysis and 3.6 for the dynamic-no-net-flux at 4 h, with corresponding total brain concentration ratios of (-/-)/(+/+) being 2.3 for retrodialysis and 2.6 for the dynamic-no-net-flux. The total concentration ratios of brain/plasma were 1.1 and 0.5 for mdr1a (-/-) and (+/+) mice, respectively. 4. No significant differences in the pharmacokinetics of the metabolite morphine-3-glucoronide were observed between (-/-) and (+/+) mice. 5. In conclusion, comparison between mdr1a (-/-) and (+/+) mice indicates that Pgp participates in regulating the amount of morphine transport across the blood-brain barrier. (+info)