Development of an amperometric flow analysis sensor for specific detection of D-psicose

The aim of this study was to develop a simple, rapid and highly sensitive sensor for measuring the rare sugar d-psicose. The proposed system adopts amperometric flow analysis and two consecutive enzyme reactions consisting of a reactor packed with d-tagatose 3-epimerase (DTE)-immobilized beads, which converts d-psicose to d-fructose, and a carbon-paste electrode containing d-fructose dehydrogenase (DFDH). In order to fabricate a robust sensor system, various experimental parameters were optimized including the buffer composition, flow rate for the two enzyme reactions and the size of micro-flow cell. The developed sensor responded linearly to d-psicose concentration in the range from 0.08 to 50mM (R(2)=0.988). The signal/noise ratio was 3.0 for the 0.08 mM d-psicose solution, and the relative standard deviations were 1.7 (n=20) and 2.6% (n=20) for the 10 and 20mM d-psicose solutions, respectively. One round of assay was completed within 8 min. Our results suggest that the sensor can be used not only for the detection of d-psicose in food samples but also for monitoring d-psicose within the environment. Moreover, the sensor system can be applied to the detection of many other rare sugars by using the same measurement principle.     

Continuous-flow fluoro-immunosensor for paclitaxel measurement

A fluorescence-based continuous-flow immunosensor for sensitive, precise, accurate and fast determination of paclitaxel was developed. The sensor utilizes anti-paclitaxel antibody immobilized through its Fc region and crosslinked by dimethylpimelimidate to protein A attached covalently onto the silanized inner walls of a glass capillary column followed by saturation of the paclitaxel-binding sites with rhodamine-labeled paclitaxel. The assay is based on the displacement and detection downstream of the rhodamine-labeled paclitaxel, by a flow-through spectrofluorometer, as a result of the competition with paclitaxel introduced as a pulse into the stream of carrier buffer flowing through the system. The peak height of the fluorescence intensity profile of the displaced rhodamine-labeled paclitaxel was directly proportional to the concentration of paclitaxel applied and was a function of the carrier buffer flow rate. The sensitivity of the immunosensor response ranged from 0.31 relative fluorescence units (RFU)/ng/ml at a flow rate 0.1 ml/min to 0.52 RFU/ng/ml at 1 ml/min, while the lower detection limit ranged from 1 ng/ml at 0.1 ml/min to 4 ng/ml at 1 ml/min. The immunosensor response was very reproducible (RSD=4.8%; n=10) and linear up to 100 ng/ml. The assay time ranged from 2 min at 1 ml/min to 8 min at 0.1 ml/min. A technique developed to resaturate the antigen binding sites of the immobilized antibody with rhodamine-labeled paclitaxel was successful in regenerating the capillary column without affecting its performance, thus enhancing the economic viability of the immunosensor. The immunosensor was successfully applied for the determination of paclitaxel in human plasma.     

Development of agmatine sensor using the combination of putrescine oxidase and agmatinase for squid freshness

Agmatine (Agm) is an indicator of squid freshness. The Agm sensor was developed using flow injection analysis (FIA) that consisted of the putrescine oxidase (PuOx) reactor, the agmatinase (AUH)-PuOx reactor and two oxygen electrodes. In the proposed sensor, the first step is that coexisting cadaverine (Cad) and putrescine (Put) are removed by passing through the PuOx reactor and the initial decomposition is determined by the amount of oxygen consumed, simultaneously. The second step is that the amount of Agm is determined by the amount of oxygen consumed in the AUH-PuOx reactor. The optimum conditions for the use of the Agm sensor were as follows: 50 mM HEPES containing MnSO4 at a final concentration of 5 mM, pH 8.0, flow rate of 0.6 mL min(-1) and injection volume of 50 microL. A single assay could be completed in approximately 3 min. A linear relationship was obtained between the output and the Agm concentration in the range of 0.01-1 mM Agm with a correlation coefficient of 0.999. The detection limit was 0.005 mM. The relative standard deviations (RSDs) were 3.14 and 1.19% (n = 20) for 0.1 and 0.3 mM Agm, respectively. The extracts of squid were injected into the proposed sensor and the results were compared with those obtained using the conventional high-performance liquid chromatography (HPLC) method. A correlation was observed between the results obtained by the proposed sensor and those obtained by the conventional method. The determination of squid freshness is one of the good uses of the proposed Agm sensor.     

Continuous adsorption and recovery of Cr(VI) in different types of reactors

This study reports the results of experiments on continuous adsorption and desorption of Cr(VI) ions by a chemically modified and polysulfone-immobilized biomass of the fungus Rhizopus nigricans. A fixed quantity of polymer-entrapped biomass beads corresponding to 2 g of dry biomass powder was employed in packed bed, fluidized bed, and stirred tank reactor for monitoring the continuous removal and recovery of Cr(VI) ions from aqueous solution and synthetic chrome plating effluent. Parameters such as flow rate (5, 10 and 15 mL/min), inlet concentration of Cr(VI) ions (50, 100, 150 and 250 mg/L) and the depth of biosorbent packing (22.8, 11.2 and 4.9 cm) were evaluated for the packed bed reactor. The breakthrough time and the adsorption rates in the packed bed column were found to decrease with increasing flow rate and higher Cr inlet concentrations and to increase with higher depths of sorbent packing. To have a comparative analysis of Cr adsorption efficiency in different types of reactors, the fluidized bed reactor and stirred tank reactor were operated using the same quantities of biosorbent material. For the fluidized bed reactor, Cr(VI) solution of 100 mg/L was pumped at 5 mL/min and fluidized by compressed air at a flow rate of 0.5 kg/cm.(2) The stirred tank reactor had a working volume of 200 mL capacity and the inlet/outlet flow rate was 5 mL/min. The maximum removal efficiency (mg Cr/g biomass) was obtained for the stirred tank reactor (159.26), followed by the fluidized reactor (153.04) and packed bed reactor (123.33). In comparison to the adsorption rate from pure chromate solution, approximately 16% reduction was monitored for synthetic chrome plating effluent in the packed bed. Continuous desorption of bound Cr ions from the reactors was effective with 0.01 N Na(2)CO(3) and nearly 80-94% recoveries have been obtained for all the reactors.     

Properties of glycans that activate the human alternative complement pathway and interact with the human monocyte beta-glucan receptor

The glycans used in an earlier study to define the ligand specificity of the human monocyte phagocytic receptor for unopsonized particulate activators were assessed for their capacities to activate the proteins of the human alternative complement pathway. Normal human serum was preincubated with glycans under conditions of chelation to prevent activation of the classical complement pathway, and the activation-depletion of the alternative complement pathway was determined by the subsequent capacity of the serum to lyse rabbit erythrocytes (Er). When serum was preincubated at a 1/2 dilution in 8 mM EGTA/2 mM Mg with increasing numbers of yeast glucan or zymosan particles, and was evaluated at final serum dilutions of 1/8, its capacity to lyse Er was found to be reduced by 50% with 1.9 X 10(6)/ml yeast glucan particles and 1.4 X 10(6)/ml zymosan particles. At 2 mg/ml of serum diluted 1/2 in 8 mM EGTA/2 mM Mg, nonturbid preparations of mannan, laminarin, or pyrogen-free inulin and turbid suspensions of cellulose, Sephadex, agarose, or purified inulin failed to activate the alternative complement pathway. In contrast, activation-depletion of the alternative pathway was induced by turbid preparations of crude inulin, nigeran, pachyman, barley beta-glucan, and pustulan, which at 700 micrograms/ml, 500 micrograms/ml, 350 micrograms/ml, 60 micrograms/ml, and 27 micrograms/ml, respectively, effected 50% reductions in the subsequent lysis of Er. After centrifugation of 2 mg/ml suspensions of barley beta-glucan at 1100 X G for 5 min and at 15,000 X G for 15 min, the supernatants contained 90 to 92% and 65% of the barley beta-glucan, respectively, as determined by the anthrone method. On a weight basis, the 1100 X G supernatant exhibited the same capacity to activate the alternative pathway as the corresponding original suspension, whereas the 15,000 X G supernatants had less than 3% of the original anti-complementary activity. Preincubation of adherent human monocytes with increasing concentrations of barley beta-glucan suspensions, 100,000 X G supernatants containing 64% of the original beta-glucan, and laminarin all decreased subsequent ingestion of 1.25 X 10(6) zymosan particles in a dose-related fashion. The numbers of monocytes from three different donors phagocytosing zymosan were reduced by 50% after pretreatment with 30 to 65 micrograms/ml, 25 to 48 micrograms/ml, and 12 to 15 micrograms/ml of barley beta-glucan suspensions, 100,000 X G supernatants of barley beta-glucan, and laminarin, respectively, even though the latter two preparations were fully soluble and had no capacity to activate the alternative pathway.(ABSTRACT TRUNCATED AT 400 WORDS)     

Glutaraldehyde crosslinking of red blood cells by using a hemodialyzer

Summary Human red blood cells (RBC) were crosslinked with glutaraldehyde (GA) by using a hemodialyzer which is used as an artificial kidney. Human RBC, which was in a flow of 2 ml/min, was extensively crosslinked with 50 mM GA solution of 10 ml/min flow rate. The crosslinked RBC showed high stability against osmotic pressure. The oxygen transport activity of the crosslinked RBC was similar to unmodified RBC. This crosslinking method could be used for the development of an efficient reactor which produces a stable and active RBC.     

Effect of cyclosporine, a P-glycoprotein inhibitor, on the pharmacokinetics of cefepime in rat blood and brain: a microdialysis study.

In clinical application, cefepime and cyclosporine are regularly combined in the treatment of organ transplant patients, so the interaction of these two drugs can be hypothesized. Therefore, the pharmacokinetics of cefepime alone and in combination with cyclosporine in rat using microdialysis coupled with HPLC-UV on-line system was evaluated in the study. Cefepime at three doses (20, 50, and 100 mg/kg) showed linear kinetics. After addition of cyclosporine, the mean residence time was increased from 34.9 min to 48.6 min (p<0.05, n=6), and the area under the concentration versus time curve (AUC) increased from 4775 min microg/ml to 6960 min microg/ml (p<0.01, n=6). While in the brain, AUC increased from 64.3 min microg/ml to 110.2 min microg/ml. In summary, cyclosporine (20 mg/kg) could significantly alter the simultaneously administered cefepime (50 mg/kg) unbound drug pharmacokinetic parameters in both blood and brain.     

Effect of ciprofloxacin on subcutaneous abscesses induced with Staphylococcus epidermidis and a foreign body implant in the mouse

Subcutaneous abscesses were induced in mice with Staphylococcus epidermidis strain G19-85 and a foreign body implant. The MIC of ciprofloxacin for this strain was 0.25 microgram/ml. The ciprofloxacin dosage, 120 mg/kg/day, was divided into three injections, administered to the mice subcutaneously at 8 h intervals. Serum concentration kinetics in normal mice (n = 50) were determined. The peak serum level of ciprofloxacin was 3.18 micrograms/ml at the 15 min sampling time; the trough level was 0.53 micrograms/ml at 8 h. Abscesses were found in 96% (n = 49) of the untreated, infected control mice. Three modes of treatment with ciprofloxacin were tested: (1) four prophylactic injections of ciprofloxacin prior to infection reduced abscess formation to 64% (p less than or equal to 0.0002, n = 50). (2) Eleven therapeutic injections, initiated 4 days after infection, reduced abscess formation to 86% (p less than or equal to 0.17, n = 49). (3) One prophylactic injection prior to surgery and five therapeutic injections after infection reduced abscess formation to 43% (p less than or equal to 0.0001, n = 49). Culture results correlated with the abscess formation rates.     

Short-term immobilization of mice by methohexitone

The feasibility of short-term immobilization for <5 min of female mice by methohexitone sodium was studied. In C3H/Neu mice, methohexitone at a dose <40 mg/kg did not result in chemical restraint, doses >50 mg/kg caused considerable lethality. A dose of 44 mg/kg, applied intraperitoneally at a concentration of 6.46 mg/ml, is suitable for immobilization without complications. This concentration was chosen in order to achieve an injection volume of about 0.15 ml for a mouse with an average body weight of 22 g, corresponding to about 1 mg/mouse. Complete immobilization, defined as absence of the righting reflex, was observed within 3.3 +/- 0.8 min (mean +/- SD, n = 10) after the injection and lasted for 1.5 +/- 0.7 min. Recovery of the animals was complete after a total period of 10 to 15 min post-injection. No gross pathomorphological changes were induced when intraperitoneal injections of methohexitone were repeated 10 times within 10 days. In the present study, complete immobilization of the mice was safely achieved after 87 out of 90 injections. In conclusion, immobilization by intraperitoneal injection of methohexitone is a feasible and reliable method in the experimental studies of female mice.     

Immobilization of black bears (Ursus americanus) with a combination of butorphanol, azaperone, and medetomidine

Sixteen captive and five free-ranging black bears (Ursus americanus) were immobilized with a combination of butorphanol, azaperone, and medetomidine (BAM). The BAM drug combination was premixed using 0.5 ml butorphanol (30 mg/ml), 0.25 ml azaperone (50 mg/ml), and 0.25 ml medetomidine (20 mg/ml) per milliliter to yield a final mix of (15 mg butorphanol+12.5 mg azaperone+5 mg medetomidine)/ml. This combination, dosed at 0.4 ml BAM/approximately 23 kg estimated body weight, provided a mean induction time of 10 min (95% confidence interval [CI]=2 min), consistent anesthesia without apparent adverse effects, and smooth recovery (mean=15 min, 95% CI=4 min) after antagonism with atipamezole (5 mg/mg medetomidine) alone or in combination with naltrexone (5 mg/mg butorphanol). Based on our initial observations, BAM appears to be a reversible and accessible drug combination for immobilizing black bears that merits further evaluation for field use.     

Bed-depth-service-time analysis on column removal of Zn2+ using Azolla filiculoides

A novel biosorbent from Azolla filiculoides was used in fixed-bed sorption columns and allowed quantitative determination of the characteristic process parameters which could then be used for performance comparison and process design. An zinc sorption capacity of 31.3mg/g predicted at a flow rate 480ml/h and pH 6.2, closely corresponded to the value observed. Lowering the influent pH to 4, the influent Zn2+ concentration to 50mg/l and increasing the flow rate to 800ml/h (residence time: 2.6 min), resulted in decreased sorption capacities by 15.3, 7.7 and 9.6%, respectively.     

Immobilized multi-species based biosensor for rapid biochemical oxygen demand measurement

To improve the practicability of rapid biochemical oxygen demand (BOD) method, we proposed a stable BOD sensor based on immobilizing multi-species BODseed for wastewater monitoring in the flow system. The activation time of the biofilm was greatly shortened for the biofilm prepared by BODseed in the organic-inorganic hybrid material. Some influence factors such as temperature, pH, and concentration of phosphate buffer solution (PBS) were investigated in detail in which high tolerance to environment was validated for the BOD sensor permitted a wide pH and PBS concentration ranges. The minimum detectable BOD was around 0.5 mg/l BOD under the optimized 1.0 mg/ml BODseed immobilized concentration. The as-prepared BOD sensor exhibited excellent stability and reproducibility for different samples. Furthermore, the as-prepared BOD biosensor displayed a notable advantage in indiscriminate biodegradation to different organic compounds and their mixture, similar to the character of conventional BOD(5) results. The results of the BOD sensor method are well agreed with those obtained from conventional BOD(5) method for wastewater samples. The proposed rapid BOD sensor method should be promising in practical application of wastewater monitoring.     

Determination of MDMA and MDA in rat urine by semi-micro column HPLC-fluorescence detection with DBD-F and their monitoring after MDMA administration to rat.

A simultaneous semi-micro column HPLC method with fluorescence detection of abused drugs, such as 3,4-methylenedioxymethamphetamine (MDMA), 3,4-methylenedioxyamphetamine (MDA), amphetamine (AP) and methamphetamine (MP) in rat urine was examined by using 4-(N,N-dimethylaminosulphonyl)-7-fluoro-1,2,3-benzoxadiazole (DBD-F) as a labelling reagent and alpha-phenylethylamine as an internal standard (IS). A sample (50 microL) of rat urine was added to 5 microL IS and 100 microL 100 mmol/L borate buffer (pH 12) and extracted with 1.5 mL n-hexane. After evaporation, 50 microL 75 mmol/L borate buffer (pH 8.5) and 50 microL 20 mmol/L DBD-F in CH3CN were added to the residue and mixed well. The resultant solution was heated for 20 min at 80 degrees C and then cooled in an ice bath. A good separation of DBD-derivatives could be achieved within 45 min using a semi-micro ODS column with an eluent of CH3CN/CH3OH/10 mmol/L imidazole-HNO3 buffer (pH 7.0) (= 45:5:50, v/v/v %). The DBD derivatives were monitored at 565 nm with an excitation at 470 nm. The calibration curves showed good linearity (r = 0.997) with 0.5-15 ng/mL detection limits at a S/N ratio of 3. MDMA and MDA in rat urine could be monitored for 15 h after a single administration of MDMA to rat (2.0 mg/kg, i.p.). The concentrations for MDMA and MDA (n = 3) were 0.13-160.1 and 0.17-10.9 microg/mL, respectively.     

Metabolic control analysis. An application of signal flow graphs.

In order to study particle phagocytosis and glycogenolysis simultaneously, this study was designed to develop a direct-read-out method to monitor Kupffer-cell function continuously, based on the uptake of colloidal carbon by the isolated perfused rat liver. Livers were perfused for 20 min with Krebs-Henseleit buffer saturated with O2/CO2 (19:1). Colloidal carbon (1-2 mg/ml) was added to the buffer, and absorbance of carbon was monitored continuously at 623 nm in the effluent perfusate. Since colloidal-carbon uptake was proportional to A623, rates of uptake were determined from the influent minus effluent concentration difference, the flow rate and the liver wet weight. Rates of colloidal-carbon uptake were 50-200 mg/h per g and were proportional to the concentration of carbon infused. Data from light-microscopy and cell-separation studies demonstrated that carbon was taken up exclusively by non-parenchymal cells and predominantly by Kupffer cells. Further, the amount of colloidal carbon detected histologically in non-parenchymal cells increased as the concentration of colloidal carbon in the perfusate was elevated. When Kupffer cells were activated or inhibited by treatment with endotoxin or methyl palmitate, carbon uptake was increased or decreased respectively. Taken together, these results indicate that Kupffer-cell function can be monitored continuously in a living organ. This new method was utilized to compare the time course of phagocytosis of carbon by Kupffer cells and carbohydrate output by parenchymal cells. Carbohydrate output increased rapidly by 69 +/- 9 mumol per g within 2-4 min after addition of carbon and returned to basal values within 12-16 min. However, carbon uptake by the liver did not reach maximal rates until about 15 min. Infusion of a cyclo-oxygenase inhibitor, aspirin (10 mM), caused a progressive decrease in carbohydrate output and blocked the stimulation by carbon completely. Aspirin neither altered rates of carbon uptake nor prevented stimulation of carbohydrate release by addition of N2-saturated buffer. The data from these experiments are consistent with the hypothesis that output of mediators by Kupffer cells, presumably prostaglandin D2 and E2, occurs transiently as Kupffer cells begin to phagocytose foreign particles in the intact organ, a process which continues at high rates for hours.     

Development of a D-alanine sensor for the monitoring of a fermentation using the improved selectivity by the combination of D-amino acid oxidase and pyruvate oxidase

A D-alanine (D-Ala) sensor for the monitoring of a fermentation process was developed using flow injection analysis (FIA). The FIA system consisted of a D-amino acid oxidase (D-AAOx) reactor, a Pyruvate oxidase (PyOx) electrode and a contrast electrode in the flow cell, and through the oxidation of D-amino acids in the D-AAOx reactor, pyruvic acid was formed only from D-Ala. The pyruvic acid was further oxidized with PyOx via the D-AAOx reaction. The amount of oxygen consumed in the PyOx reaction was proportional to the amount of D-Ala. It was possible to continuously repeat the assay up to 60 times at pH 6.8 and a flow rate of 0.18-ml min(-1). A linear relationship was obtained in the range of 0.1-1 mM D-Ala with a correlation coefficient of 0.987 and the detection limit was 0.05 mM. The relative standard deviation (R.S.D.) was 4.9% (n=5) for 0.5 mM D-Ala. The D-Ala content in some fish sauces was also determined using the proposed sensor system. The results obtained indicated a linear relationship between the amounts of D-Ala determined by the proposed sensor system and the conventional method. From the results, even if the substrate specificity of the enzyme (D-AAOx) was low, it was evident that the concentration of the original material (D-Ala) could be determined specifically when the first reaction product was changed by the second reaction (PyOx).     

Investigation and evaluation of a method for determination of ethanol with the SIRE Biosensor P100, using alcohol dehydrogenase as recognition element

A new method for rapid determination of ethanol was developed, using alcohol dehydrogenase as recognition element for the SIRE (sensors based on injection of the recognition element) Biosensor, which is an amperometric biosensor. The method was simple, fast, accurate, specific and cost-effective. The recognition element solution used was stable at least for 24 h in room temperature, and at least one month when lyophilised. The optimal potential versus the silver wire electrode, the optimal pH of the buffer and the optimal temperature of the water bath was determined to be +950 mV, 8.1 and 308 K, respectively. The optimal concentrations of alcohol dehydrogenase, BSA and NAD(+) were determined to be 200 U/ml, 20 mg/ml and 15 mM, respectively. The total analysis time was between 50 s and 4 min per analysis, depending on the concentration range. The linear range was 0-12.5 mM. The detection limit was less than 0.1 mM. The repeatability (%R.S.D.) was 3-5% (n=10). The reproducibility was 5-8% (n=5). Methanol gave no signal at all, but higher alcohols, such as propanol, pentanol and hexanol, gave significant signals, decreasing with increasing length of the carbon chain. The price for one measurement was calculated to be 0.052 euro. The results from measurements with the biosensor were compared to those from an established analysis kit for ethanol. The results correlated well (R(2)=0.9874). The concentration of ethanol in different alcoholic beverages was investigated and correlated well with the concentrations given by the manufacturers.     

新型柱前衍生试剂分析草甘膦的高效液相色谱研究

以2,5-二甲氧基苯磺酰氯(DMOSC)为柱前衍生化试剂,建立了柱前衍生草甘膦的紫外检测反相高效液相色谱法,并优化了衍生化条件,得最佳条件:衍生温度35℃,时间15 min,pH 10.0,草甘膦与DMOSC的摩尔比为1∶6。HPLC分析条件:采用Kromasil C18柱,流速1.0 mL/min,柱温30℃,检测波长220 nm,流动相为甲醇-乙腈-磷酸盐缓冲溶液(0.02 mol/L、pH 5.5),三者的体积比为15∶5∶80。结果表明:草甘膦质量浓度在5~100μg/mL范围内线性关系良好,相关系数为0.996 2,检测限为0.067μg/mL。实验表明该方法反应条件温和,灵敏度高,衍生产物稳定。     

Role of the parasympathetic nervous system in airway hyperresponsiveness after ozone inhalation

Airway hyperresponsiveness develops in dogs after ozone inhalation. This study examined the role of the parasympathetic nervous system in ozone-induced airway hyperresponsiveness in dogs. Dose-response curves to acetylcholine (n = 8) and histamine (n = 4) were measured before and after exposure to ozone (3 ppm for 30 min). The provocative concentration of each agonist was measured on two randomly assigned days separated by at least 1 wk. On one day a control experiment was performed, and on the other day the dogs were pretreated with the ganglionic blocker hexamethonium bromide in doses that block ganglionic transmission. The acetylcholine provocative concentration decreased on the control day from 5.5 mg/ml (%SE 1.8) before ozone to 0.5 mg/ml (%SE 2.0) after ozone (P less than 0.0001). After pretreatment with hexamethonium the acetylcholine provocative concentration decreased from 9.0 mg/ml (%SE 1.8) before ozone to 1.0 mg/ml (%SE 2.0) after ozone (P = 0.002). The results were similar when histamine was used as the agonist. Therefore, ganglionic blockade does not prevent airway hyperresponsiveness after ozone inhalation, and a parasympathetic reflex mechanism is not responsible for airway hyperresponsiveness after ozone inhalation in dogs.     

Determination of tadalafil in small volumes of plasma by high-performance liquid chromatography with UV detection

Tadalafil is a potent reversible phosphodiesterase-5 inhibitor used for the treatment of erectile dysfunction. This study describes a simple and sensitive high-performance liquid chromatographic (HPLC) method for the determination of tadalafil in 50 microl of rat plasma. Tadalafil and the internal standard lamotrigine were extracted with 0.5 ml of tert-butyl methyl ether, after the samples alkalinized with 20 microl of sodium hydroxide solution (1N). Chromatographic separation was achieved on a C18 column with the mobile phase of acetonitrile-water containing 20 mM phosphate buffer (pH 7) (35/65, v/v), at a flow rate of 1 ml/min. The eluant was detected at 290 nm. The retention time was about 4.5 min for lamotrigine and 15 min for tadalafil. No endogenous substances were found to interfere. Calibration curves were linear from 10 to 2000 ng/ml. The recovery of tadalafil from plasma was greater than 77%. The limit of quantitation was 10 ng/ml. The intra- and inter-day imprecision (expressed as coefficient of variation, C.V.) did not exceed 10.7%, and the accuracy was within 5.9% deviation of the nominal concentration. The method is suitable in pharmacokinetic investigation and monitoring tadalafil concentration.     

The effects of ethanol on pancreatic blood flow in awake and anesthetized dogs

The pathophysiology of alcohol-induced acute pancreatitis is not clear. Ischemic injury has been suggested as a possible mechanism. To examine the effects of ethanol on pancreatic and splanchnic blood flow, measurements were made in fasted, conditioned awake dogs before and after iv infusion of ethanol (1.7 g/kg). At 30 min blood ethanol concentration ranged between 60 and 150 mg/dl and at 60 min between 166 and 350 mg/dl. Although cardiac output, aortic pressure, left atrial pressure, and arterial pH did not change, pancreatic flow declined by 39 +/- 12 ml/min/100 g, P less than 0.05 (from 173 +/- 10 ml/min/100 g) at 30 min and was still depressed (by 27 +/- 12 ml/min/100 g, P less than 0.05) at 60 min. Concomitantly, hepatic arterial flow increased. While hepatic and pancreatic flow changed inversely, the correlation (r = -0.17) of these changes was not significant. At comparable blood ethanol concentrations in pentobarbital-anesthetized dogs hepatic arterial flow increased by 11 +/- 3 ml/min/100 g, P less than 0.01 (from 24 +/- 5 ml/min/100 g), but pancreatic flow did not change. Thus, in the awake dog at blood levels that would produce mild to moderate alcoholic intoxication in man, ethanol reduces pancreatic flow. Although hepatic flow increases concomitantly, the relationship of these changes appears to be independent.