Substance P in the ventral pallidum: projection from the ventral striatum, and electrophysiological and behavioral consequences of pallidal substance P

1. Piroximone was administered orally (p.o.) and intravenously (i.v.) to male Beagle dog. In vitro, piroximone was incubated with dog liver microsomes. 2. Piroximone was metabolized in vivo to five metabolites (1-5) representing approximately 20% of the total administered dose. 3. The parent drug and its metabolites were totally eliminated in urine. 4. Reduced piroximone (piroximole), representing approximately 10% of the administered dose, was identified as the major metabolic product in vivo. 5. In vitro, piroximone was metabolized by dog liver microsomes to isonicotinic acid (1) and piroximole (4), with the same ratio as in vivo (1:4 = 0.2). The Michaelis-Menten parameters were determined for piroximole formation and were: Kmapp = 733 microM and Vmax app = 232 pmol/mg protein/min. 6. Comparison of the pharmacokinetics of piroximone and piroximole revealed that both compounds were very well absorbed (F = 93 +/- 7 and 89 +/- 8% respectively), slightly distributed (Vd app = 0.78 +/- 0.04 and 1.02 +/- 0.09 l/kg p.o., and 0.95 +/- 0.05 and 0.76 +/- 0.13 1/kg i.v. respectively) and excreted into urine to the same extent (UEx = 54.7 +/- 1.2 and 53.2 +/- 12.6% p.o., and 59.1 +/- 5.3 and 51.2 +/- 5.7% i.v. respectively), except that the clearance of piroximone was two-fold higher than that observed for piroximole (ClT = 7.77 +/- 1.35 and 4.12 +/- 0.44 ml/min/kg p.o., and 7.68 +/- 1.25 and 4.06 +/- 0.51 ml/min/kg i.v. respectively).     

Extrahepatic first-pass metabolism of nifedipine in the rat

The peroral (p.o.) bioavailability of nifedipine is reported to range from about 45 to 58% in the rat; this compares favourably to human beings. The metabolism of nifedipine is similar in rats and humans (oxidation of the dihydropyridine ring), with the liver believed to be solely responsible for the systemic clearance of the drug and the observed first-pass effect after p.o. dosing. The purpose of this study was to determine whether intestinal metabolism also contributes to the first-pass elimination of nifedipine in the rat. The systemic availabilities of nifedipine doses given by po, intracolonic (i.c.), and intraperitoneal (i.p.) routes of administration were compared to that for an intravenous (i.v.) dose (in each case a dose of 6 mg kg-1 was given) using adult male Sprague-Dawley rats (249-311 g, n = 6 or 7/group). The geometric mean of systemic nifedipine plasma clearance after i.v. dosing was 10.3 mL min-1 kg-1. The nifedipine blood-to-plasma ratio was found to be about 0.59. Therefore, the systemic blood clearance of nifedipine was about 17.5 mL min-1 kg-1; which, compared to the hepatic blood flow of rats (55 to 80 mL min-1 kg-1) showed that nifedipine is poorly extracted by the liver (0.22 < or = EH < = 0.32). The mean absolute bioavailabilities of the p.o., i.p., and i.c. doses were 61, 90, and 100%, respectively. Assuming complete absorption of the extravascular nifedipine doses these results indicate that, in addition to hepatic extraction, substantial first-pass elimination of nifedipine occurs within the wall of the small intestine but not the colon of the rat.     

Pharmacokinetics of phenolsulfonphthalein in sheep

Pharmacokinetic variables of phenolsulfonphthalein (PSP) were determined in sheep after rapid IV injection and IV infusion to steady state. In Suffolk wethers, an average of < 75% of an IV administered dose was eliminated in urine, indicating that measures of systemic clearance overestimate renal clearance in this species. Furthermore, PSP elimination from plasma was more rapid in Suffolk than Rambouillet wethers and, in Suffolk ewes, systemic clearance decreased from mean +/- SD 7.8 +/- 0.3 ml/min/kg of body weight to 4.7 +/- 1.1 ml/min/kg at steady-state plasma concentration of 2.4 +/- 0.3 and 151.3 +/- 31.8 micrograms/ml, respectively. These observations indicate that, similar to that in other species, systemic clearance of PSP in sheep is concentration-dependent and that significant differences may exist between breeds.     

Preferential reduction of first-pass elimination by ethanol. Model experiments with clomethiazole in the rabbit

The importance of the route of drug administration for drug ethanol interactions was studied using clomethiazole as model drug. To 10 rabbits equipped with permanently implanted catheters in the portal vein, the vena cava and the aorta respectively, clomethiazole was infused either into the portal vein or the vena cava and either together with i.v. saline or with i.v. ethanol. Arterial plasma clomethiazole and ethanol concentrations were measured by gas-liquid chromatography. After portal clomethiazole infusion, ethanol increased by the relative availability of clomethiazole to 270 +/- 90% (S.D.) of the saline controls, whereas after i.v. clomethiazole infusions the relative availability was increased only to 120 +/- 20% of the corresponding controls. Similarly, ethanol increased average plasma clomethiazole concentrations after 90 min of portal infusion from 5 to 14 nmol/ml, whereas after i.v. clomethiazole infusions the ethanol effect was small, the concentrations increasing only from 28 to 35 nmol/ml. These results are compatible with the concept that an ethanol-induced reduction of the hepatic capacity to metabolize a highly extracted drug is reflected to a much larger extent during first-pass elimination than during systemic clearance. Consequently, clinical toxicity in inebriated subjects is more likely to occur after oral than after parenteral administration of high extraction drugs.     

Early effects of vasectomy on testicular structure and on germ cell and macrophage apoptosis in the hamster

Some patients with early-stage cirrhosis preserve hepatic function, whereas others have little hepatic reserve and rapidly deteriorate. The aim of this study was to use quantitative tests of liver function (QLFTs) to define the degree of functional hepatic impairment in patients with early-stage cirrhosis (Child-Pugh score 5-7) and to determine whether the tests predicted subsequent hepatic decompensation. We recruited 10 cirrhotic (Cr) patients and 10 healthy controls (NI), who were well matched for race, age, weight, and gender. Clearances of caffeine (CF) and antipyrine (AP) after oral administration were measured from timed samples of saliva. The clearance of cholate (CA) was measured from serum samples obtained after simultaneous oral ([2,2,4,4-2H]CA) and intravenous ([24-13C]CA) administration. CA shunt was calculated as (Cl i.v./Clo x 100%). CF elimination rate (Cr v NI, mean +/- SD: 0.03 +/- 0.02 v 0.075 +/- 0.018 h-1, P < .0005) and AP clearance (24 +/- 16 v 40 +/- 7 mL/minute, P < .02) were reduced in Cr patients. CA shunt was increased in Cr patients (43 +/- 18 v 18 +/- 7%, P < .002). Five Cr patients decompensated during follow-up and had the worst CA shunts (76%, 66%, 51%, 48%, and 45%). Three subsequently received successful orthotopic liver transplantation, 1 died of hepatoma, and 1 is on the waiting list for transplantation. In conclusion, QLFTs define the degree of functional impairment in early cirrhosis and may identify Cr patients at greatest risk of decompensation who may require transplantation for survival.     

Change in serum hyaluronan: a simple index of short-term drug-induced changes in hepatic sinusoidal perfusion

BACKGROUND: Hyaluronan is an endogenous polysaccharide whose clearance from the plasma is predominantly by liver sinusoidal cells and is sinusoidal flow dependent. This study was designed to determine if a change in serum hyaluronan might reliably reflect short-term drug-induced changes in sinusoidal perfusion. METHODS: Hemodynamic changes following an oral dose of ketanserin were compared with changes in serum hyaluronan levels in 12 patients with alcoholic liver disease and portal hypertension. Indices determined comprised heart rate, mean arterial pressure (MAP), cardiac output (CO), systemic vascular resistance, hepatic venous pressure gradient (HVPG), indocyanine green (ICG) clearance and extraction, and total hepatic blood flow. Measurements were made in a basal state 1 hour after ketanserin ingestion and expressed as a ratio of values post- to pre-ketanserin administration. RESULTS: Ketanserin had variable effects comprising both increases and decreases in all indices. On univariate and multivariate analysis, changes in serum hyaluronan concentration (1.05 +/- 0.13, mean +/- SD) significantly correlated with only one index: changes in ICG clearance (0.93 +/- 0.17, r = -0.65, P = 0.02). CONCLUSIONS: Changes in serum hyaluronan levels reflect short-term drug-induced changes in sinusoidal perfusion in patients with alcoholic liver disease and portal hypertension. Serial measurement of serum hyaluronan levels may offer a simple method of screening vasoactive drugs for their short-term effects on sinusoidal perfusion.     

First-pass metabolism of ethinyl estradiol in dogs and rats

The contraceptive steroid ethinyl estradiol was extensively metabolized when given orally in solution to dogs. It was thought at first that metabolism occurred exclusively in the liver. However, use of standard equations to predict the oral bioavailability of drugs known to be metabolized by hepatic first pass resulted in significantly higher values than those obtained experimentally. To rationalize the data and to determine whether ethinyl estradiol also is metabolized in the gut wall during absorption, metabolism in rats was studied. The drug was administered in solution intraduodenally, intraportally, and intravenously as a bolus by first-order infusion. The results indicate that, in rats, 40% of the drug is metabolized by the gut wall and 79% of the drug in the portal blood is metabolized by the liver intraduodenal administration.     

Disposition of nafcillin in patients with cirrhosis and extrahepatic biliary obstruction

Nafcillin, a semisynthetic penicillin effective against penicillinase-producing staphylococci, is eliminated largely in man via the liver. This study assessed the effect of cirrhosis and extrahepatic biliary obstruction in man on the pharmacokinetics of nafcillin. The plasma clearance of nafcillin controls was 583 +/- 144.2 ml per min (mean +/- SD) and fell strikingly to 291 +/- 147.6 and 163 +/- 56.3 ml per min in patients with cirrhosis and extrahepatic obstruction, respectively (P less than 0.001). In the latter two groups nafcillin excreted in urine increased from about 30 to 50% of administered dose (P less than 0.02), suggesting that renal disease superimposed on hepatic disease would further decrease over-all nafcillin clearance. The depression of nafcillin clearance with hepatobiliary disease did not correlate with any conventional liver laboratory test. The initial volume of distribution of nafcillin (V1) was unaltered but at steady state (Vd()) there was a significant reduction in the distribution volume in the patients with liver disease. Accordingly, the impairment in drug elimination, as assessed by its clearance from plasma, was underestimated by the prolongation of the nafcillin elimination half-life (t1/2(beta)) which was 1.02 +/- 0.20 hr in controls, and 1.23 +/- 0.31 (P greater than 0.05) and 1.73 +/- 0.44 hr (P less than 0.03), respectively, in patients with cirrhosis and extrahepatic obstruction.     

Quantitation of 5-fluorouracil catabolism in human liver in vivo by three-dimensional localized 19F magnetic resonance spectroscopy

The development of clinical applications of 19F magnetic resonance (MR) spectroscopy of 5-fluorouracil (5-FU) has been limited by the inability to localize 19F spectra to specific regions of interest, making it difficult to quantitate drug and metabolite concentrations accurately. To develop methodology for quantitation, we studied the liver of patients receiving rapid bolus i.v. injections of 5-FU. In serial studies, 5-FU disappeared from the liver within 17-26 min, and its catabolite, alpha-fluoro-beta-alanine (FBAL), rose to reach a plateau after 40 min. A high peak level of fluoro-ureido-propionic acid preceded that of FBAL in only one patient, and dihydrofluorouracil was never observed. During the plateau, we obtained MR imaging-directed 19F MR spectra localized using three-dimensional chemical shift imaging. The spin-lattice relaxation time of FBAL in liver, measured using a variable nutation angle method, was 1.6 +/- 0.2 s (mean +/- SD; n = 5). The concentration of FBAL at 60 +/- 10 min after injection was 1.0 +/- 0.2 mm in liver (mean +/- SD; n = 7). This amount represents approximately 20% of the injected dose and 1.4 times the initial hepatic 5-FU concentration. Our approach may permit one to obtain molar concentrations of fluoropyrimidine metabolites simultaneously in hepatic cancers and surrounding liver, and it helps expand pharmacokinetic modeling of fluoropyrimidine catabolism.     

Cyclophosphamide, methotrexate, and chronic oral tegafur modulated by folinic acid in the treatment of patients with advanced breast carcinoma

BACKGROUND/AIMS/METHODS: The distribution characteristics of a human colon carcinoma cell line, KM12-HX cells, were examined. After intraportal vein (i.p.v.) or intravenous (i.v.) injection into rats, almost all the injected tumor cells are distributed to liver or lung, respectively, both after 30 s and 30 min. Our previous kinetic analysis of the fate of tumor cells revealed that the cumulative amount of tumor cells distributed in the liver is a factor determining the degree of metastasis. Thus, we examined the mechanism of initial efficient trapping of tumor cells by the liver in more detail. RESULTS: Thirty minutes after tumor cells were injected into the left ventricle of the heart, the distribution of tumor cells was more restricted in several tissues (kidney, small intestine, large intestine and spleen), as compared with the distribution of microspheres undergoing 100% extraction, indicating that the first-pass extraction of KM12-HX cells is incomplete in these organs. The hepatic first-pass distribution of these tumor cells was unaffected by pretreatment of liposomes, such that the preinjected amount was sufficient to saturate the phagocytotic function of macrophages. Thus, the mechanism of initial distribution of the tumor cells to the liver is different from the mechanism of liposome uptake by macrophages. Considering that the diameter of microvessels in sinusoid and KM12-HX cells is approximately 7 and 12 microm, respectively, it is possible that these tumor cells are trapped physically in hepatic microvessels. In fact, after i.p.v. injection of microspheres 5 microm in diameter, only 20% of the dose was distributed to liver and the rest to other tissues. In contrast, almost 100% of microspheres 10 microm in diameter were distributed to the liver. CONCLUSIONS: These results support the hypothesis that the initial organ distribution of blood-borne tumor cells is determined by mechanical and physical properties of the cells.     

Plasma clearance of cholyl-lysyl-fluorescein: a pilot study in humans

BACKGROUND/AIMS: Cholyl-lysyl-fluorescein is a fluorescent analogue of the natural bile acid, cholyl glycine. In vivo and in vitro studies showed that this analogue has many biological characteristics similar to cholyl glycine. In this study we analysed cholyl-lysyl-fluorescein plasma clearance in six healthy volunteers as a potential quantitative liver function test. METHODS: The compound in water for injection was administered as an i.v. bolus in the dose of 0.02 mg/kg b.w. RESULTS: The plasma elimination curve showed rapid, intermediate and slow phases of clearance. Half-life (T1/2 time) for the first (t1/2 1st phase), second (t1/2 2nd phase) and third (t1/2 3rd phase) phases of elimination was 1.7+/-0.9 min, 6.7+/-1.6 min and 68+/-17 min, respectively. Ninety-minute plasma retention (% dose/l plasma) was 2.2%. Cholyl-lysyl-fluorescein volume of distribution and residual fluorescence after 60 min were similar to the data obtained by others for natural or radiolabelled bile acids. In five out of six healthy volunteers a 25-fold higher dose of cholyl-lysyl-fluorescein (0.5 mg/kg b.w.) was injected to estimate the safety margins of the compound. This dose was eliminated at a disappearance rate similar to that of the dose of 0.02 mg/kg b.w. and did not cause any adverse reactions. Serum liver tests measured before and after injection did not change significantly. CONCLUSIONS: This study showed that cholyl-lysyl-fluorescein clearance is similar to the clearance of endogenous natural bile acids and may potentially offer a new, dynamic test of liver function.     

Changes in neurotransmitters in multiple sclerosis

PURPOSE: The aim of this study was to identify the route of administration of 5-FU with the greatest pharmacological advantage in a rat model using non-invasive in vivo 19F nuclear magnetic resonance (NMR) spectroscopy. METHODS: 5-FU (50 mg/kg) was administered to anesthetized Wistar rats cannulated into the hepatic artery, portal vein or tail vein and 11 NMR spectra were acquired from the liver region to 60.5 min every 5.5 min. RESULTS: With systemic i.v. (tail vein) infusion, the 19F-NMR signal for 5-FU from the liver region peaked in the first spectrum (0-5.5 min), and then gradually decreased. The signal for the 5-FU catabolite alpha-fluoro-beta-alanine (FBAL) gradually increased to the sixth spectrum (0-33.0 min) and then plateaued. Following portal vein infusion the intensity of the first 5-FU spectrum was twice as high as that following i.v. infusion, but the intensity decreased and the FBAL signal increased gradually in the sixth spectrum as systemic i.v. infusion. In contrast, the intensity of the 5-FU signal following hepatic artery infusion was the same as that following portal vein infusion in the first spectrum, and maintained a strong intensity to the final spectrum (60.5 min). The FBAL signal was detected from the second spectrum following hepatic artery infusion, but its intensity was significantly weaker than that following i.v. or portal vein infusion. CONCLUSIONS: Hepatic arterial infusion resulted in the active form of 5-FU being present for a longer time and its degradation in the liver being suppressed compared with the results following portal vein infusion. This catabolic advantage of hepatic arterial infusion could lead to a more potent anti-tumor activity against liver metastases, but could also lead to significant host toxicity including biliary toxicity. We recommend that the dose/schedule of 5-FU administered via the hepatic artery should be adjusted carefully.     

In vivo disposition and metabolism by liver and enterocyte microsomes of the antitubercular drug rifabutin in rats

The in vivo disposition and in vitro metabolism of rifabutin, a new spiropiperidylrifamycin, were studied in rats and in microsomes from rat liver and enterocytes, respectively. After i.v. doses of 1,5, 10 and 25 mg/kg the systemic clearance was 0.7 to 1.0 liters/hr/kg; the volume of distribution was 4.4 liters/kg for the 1 mg/kg dose and 7.4 to 7.7 liters/kg for the 5 to 25 mg/kg doses, and the half-life ranged from 4.4 to 9.1 hr. Urinary and fecal excretion over 0 to 96 hr after i.v. administration of 25 mg/kg [14C]rifabutin accounted for 40.1 and 52.2% of the dose, respectively. Exteriorization of the bile duct showed that approximately 24% of the dose was eliminated in bile, > or = 98% as metabolites. Bioavailability after oral administration of 25 and 1 mg/kg rifabutin was > 90% and 44%, respectively, suggesting significant first-pass metabolism of the lower dose. Concentrations of rifabutin in gastric juice were 10 to 17 times higher than in blood, indicating extensive secretion into the stomach. Experiments with the isolated small intestinal loop demonstrated direct exsorption of the drug into the lumen. The rate of rifabutin metabolism by enterocyte microsomes was > 10 times higher than that by liver microsomes, i.e., 84 and 8 pmol/min/mg protein, respectively. Biotransformation of rifabutin in vivo and in vitro was markedly induced by dexamethasone and inhibited by erythromycin, suggesting that CYP3A is involved in the metabolism of rifabutin. Several metabolites, including 20-OH-rifabutin and 27-O-demethyl-rifabutin, isolated from urine and microsomes were identified by mass spectrometry and nuclear magnetic resonance spectroscopy.     

Diazinon toxicokinetics, tissue distribution and anticholinesterase activity in the rat

The toxicokinetics, tissue distribution, and anticholinesterase (antiChE) activity of diazinon were investigated in the rat. Plasma concentrations most adequately fitted a two-compartment open model after i.v. administration of 10 mg/kg and a one-compartment model after oral administration of 80 mg/kg. Diazinon elimination half-life following i.v. and oral dosing was 4.70 and 2.86 h, respectively. The oral bioavailability was found to be low (35.5%). Hepatic extraction ratios after i.v. administration of 5 or 10 mg/kg were 54.8% and 47.7%, respectively, suggesting that low systemic oral bioavailability can be explained by a first-pass effect in the liver. Diazinon was found to be approximately 89% protein-bound in plasma within the concentration range 0.4-30 ppm. The highest concentration of diazinon after i.v. administration was found in the kidneys, when comparing to liver, kidney, brain. Both red blood cell (RBC) acetylcholinesterase (AChE) and plasma ChE activities were inhibited rapidly (44% and 17% at 10 min, and 36% and 13% min for i.v. and oral administration, respectively), but inhibition of RBC AChE was greater than that of plasma ChE.     

Stress and the immune system: preliminary observations in rheumatoid arthritis using an in vivo marker of immune activity

This study measured volumetric liver blood flow and galactose clearance concurrently during orthotopic liver transplant in human subjects. Ultrasound transit time flowmeters measured hepatic artery and portal vein flow 1-3 h after reperfusion. Galactose (100 mg/min) was infused over 45-60 min to steady state for calculation of clearance. Mean +/- S.D. total volumetric flow was 1966 +/- 831 ml/min with portal flow contributing 86%. Mean galactose clearance was 1988 +/- 641 ml/min. There was a significant correlation (p < 0.05, r = 0.61) between volumetric total liver blood flow and galactose clearance. The data show that: (i) the newly transplanted liver is capable of metabolizing galactose within 1-3 h of reperfusion; and (ii) liver blood flow is high in the newly implanted liver. The clinical importance of this observation is that there is increased clearance of high first pass substances by the transplanted liver which may be of importance in patient management.     

Protective effect of the calcium channel blocker diltiazem on hepatic function following warm ischemia

The purpose of this study was to investigate the protective effect of a calcium channel blocker diltiazem (DTZ) on hepatic ischemic injury using a canine model. Hepatic ischemia was induced by temporary clamping of hepatic afferent blood vessels for 60 min with establishment of a portojugular bypass. The administration of DTZ at a dose of 70 micrograms/kg bolus i.v. injection before hepatic ischemia and thereafter via the portal vein at a dose of 10 micrograms/kg/min well restored the hepatic blood flow (HBF, 92 +/- 5%; P < 0.01) and arterial ketone body ratio (AKBR, 1.15 +/- 0.16; P < 0.01) 1 hr after interruption compared with untreated controls (HBF, 61 +/- 7%; AKBR, 0.53 +/- 0.09). In addition, the increase of plasma lactate level and the decrease of mean arterial pressure were significantly suppressed after ischemia (P < 0.05). We concluded that DTZ has a protective effect on ischemia-induced hepatic damage and might be useful in the prevention of primary graft failure caused by warm ischemia in liver transplantation.     

Simultaneous determination of diphenhydramine, its N-oxide metabolite and their deuterium-labeled analogues in ovine plasma and urine using liquid chromatography/electrospray tandem mass spectrometry

Our studies on drug disposition in chronically instrumented pregnant sheep involve simultaneous administration of the antihistamine diphenhydramine (DPHM), its deuterated analogue ([2H10]DPHM) and their metabolites to the mother or the fetus via various routes. Such studies require sensitive and selective mass spectrometric methods for quantitation of these labeled and unlabeled compounds in order to assess comparative maternal and fetal drug metabolism. The objective of this study was to develop and validate a liquid chromatographic/tandem mass spectrometric (LC/MS/MS) method for the simultaneous quantitation of DPHM, its N-oxide metabolite and their deuterium-labeled analogues in ovine plasma and urine. Samples spiked with the analytes and the internal standard, orphenadrine, were processed using liquid-liquid extraction. The extract was chromatographed on a propylamino LC column and MS/MS detection was performed in the positive ion electrospray mode using multiple reaction monitoring. The linear concentration ranges of the calibration curves for the N-oxides and the parent amines were 0.4-100.0 and 0.2-250.0 ng ml-1, respectively. In validation tests, the assay exhibited acceptable variability (< or = 15% at analyte concentrations below 2.0 ng ml-1 and < 10% at all other concentrations) and bias (< 15% at all concentrations), and the analytes were stable under a variety of sample handling conditions. Using this method, the labeled and unlabeled N-oxide metabolite was identified in fetal plasma after DPHM and [2H10]DPHM administration. This method will be used further to examine the comparative metabolism of diphenhydramine to its N-oxide metabolite in the mother and the fetus.     

Disposition kinetics of cobalt mesoporphyrin in mouse, rat, monkey and dog

1. Radiometric and UV analyses indicated > 95% unchanged cobalt mesoporphyrin (CoMP) in plasma after i.v. or i.m. administration. Blood clearance of CoMP is < 2% of hepatic blood flow in mouse and rat, and < 0.5% of hepatic blood flow in monkey and dog. CoMP elimination t1/2 ranged from 3.1 to 9.9 days in animals after i.v. administration. 2. CoMP is highly (> 99.5%) bound to plasma proteins, but has low affinity for blood cells (Kp < 0.15). The volume of CoMP distribution (Vss < 0.91/kg) is reflective of a distribution to total body water following i.v. administration to mouse, rat, monkey and dog. 3. [14C]CoMP reached highest levels in rat tissue between 1 and 4 days following i.m. injection. Liver, kidney cortex, lymph node, adrenal and spleen demonstrated greatest uptake of radiolabel. Concentration in tissues was readily detectable at 60 days post-dose. 4. CoMP was slowly absorbed after i.m. administration showing dose-dependent pharmacokinetics. The major route of radiolabel elimination was faecal excretion (54% of dose) in rat after an i.m. dose of [14C]CoMP. Approximately 1% of the 14C dose was recovered in the urine over 7 days post-dose. 5. As a polar metalloporphyrin, CoMP has low clearance, restricted tissue distribution and long elimination t1/2 in the laboratory animals.     

Synthesis of DNA analogues with novel carboxamidomethyl phosphonamide and glycinamide internucleoside linkages

To elucidate the extent and mechanisms of the first-pass metabolism of peptide drugs in the liver after oral administration, a liver perfusion study was performed in rats using metkephamid, a stable analogue of methionine enkephalin, and thyrotropin-releasing hormone (TRH), as model peptides. The fraction of intact metkephamid recovered after single-pass constant perfusion through rat liver reached steady-state very quickly, and it was concluded that metkephamid was hydrolysed enzymatically at the surface of hepatocytes or endothelial cells of microvessels, or both, rather than being taken up by hepatocytes. The fraction of metkephamid recovered intact was approximately 40% under protein-free conditions but increased to 70-75% on addition of bovine serum albumin (BSA) to the perfusate. The fraction of metkephamid bound to BSA was approximately 50% under these conditions, implying that only the free fraction of metkephamid in the plasma was metabolized in the liver. Calculations based on the tube model showed that approximately 30-35% of metkephamid absorbed from the intestine undergoes first-pass metabolism before entering the systemic circulation in-vivo. In contrast, the fraction of TRH metabolized in the liver was less than 10%, indicating a remarkably low contribution of first-pass metabolism to the bioavailability of TRH. These results show that hepatic first-pass metabolism of metkephamid contributes to its low systemic bioavailability. After intestinal absorption free metkephamid is rapidly hydrolysed on the surface of hepatocytes or endothelial cells, rather than being taken up by hepatocytes. This information has important implications in the oral delivery of many kinds of peptide.     

Effect of stimulation of hepatic nerves on hepatic O2 uptake and blood flow

Raising the hepatic venous pressure experimentally duplicates the type of hepatic congestion seen in many clinical situations including congestive heart failure. Venous pressure was controlled using a hepatic venous long circuit preparation and was raised by 6 cm blood (4.7 mm Hg) or 10 cm (7.8 mm Hg). Total splanchnic blood flow and oxygen uptake were reduced by these maneuvers but hepatic arterial flow was not altered nor was hepatic oxygen uptake. Blood flow in the portal vein decreased to 65 +/- 12% of control and gut oxygen uptake decreased to 60 +/- 14% of control. The data confirm that raised hepatic venous pressure does not produce hepatic edema in spite of massive prolonged fluid filtration across the liver into the peritoneum. In spite of a reduced (to 84 +/- 3% of control) hepatic oxygen delivery, the liver can maintain oxygen uptake (99 +/- 7% of control) by increasing oxygen extraction to appropriate levels. The hepatic artery in these cats were capable of myogenic vasoconstriction in response to altered arterial pressure, but in response to raised venous pressure no tendency for constriction was seen. This is in marked contrast to the vasoconstriction seen in isolated perfused livers where portal blood flow is held constant during the raised venous pressure.