Site of drug absorption after oral administration: assessment of membrane permeability and luminal concentration of drugs in each segment of gastrointestinal tract.

This study was conducted to assess the site of drug absorption in the gastrointestinal (GI) tract after oral administration. Drug permeability to different regions of rat intestine, jejunum, ileum and colon, was measured by in situ single-pass perfusion method. It was revealed that the epithelial surface area should not be a determinant of the regional difference in the intestinal permeability of highly permeable drugs. Effects of the mucus layer at the surface of the epithelium and the fluidity of the epithelial cell membrane on the drug permeability were investigated. These factors are demonstrated to contribute to the regional differences in intestinal drug permeability. The luminal drug concentration in each segment of the GI tract after oral administration was measured directly in fasted rats. Water ingested orally was absorbed quickly in the jejunum and the luminal fluid volume was diminished in the middle to lower part of the small intestine. According to the absorption of water luminal concentration of atenolol, a drug with low permeability, was elevated and exceeded the initial dose concentration. In contrast, the concentration of highly permeable drugs, antipyrine and metoprolol, decreased quickly in the upper part of the intestine and a significant amount of drugs was not detected in the lower jejunum and the ileum. From the time-profiles of luminal drug concentration, fraction of dose absorbed from each segment of the GI tract was calculated. Both antipyrine and metoprolol were found to be absorbed quickly at the upper part of the small intestine. In addition, the possible contribution of gastric absorption was demonstrated for these drugs. The pattern of site-dependent absorption of atenolol showed the higher absorbability in the middle and lower portion of the jejunum. These informations on site-dependent absorption of drugs are considered to be important for effective oral delivery systems.     

Estimation of the absolute bioavailability of rivastigmine in patients with mild to moderate dementia of the Alzheimer's type

OBJECTIVE: To investigate the bioavailability of rivastigmine, an approved therapy for patients with mild to moderate dementia of the Alzheimer's type, at the highest approved single dose of 6 mg. DESIGN AND SETTING: Randomised, two-period crossover, single-centre, non-blinded, inpatient study.Patients and participants: Eleven patients (five females and six males) with mean age 69.5 years. METHODS: The 6 mg oral dose was compared with a 2 mg intravenous dose of rivastigmine infused over a 1-hour period. Plasma concentrations of rivastigmine and its metabolite NAP 226-90 were measured with a gas chromatographic/mass spectrometric method. RESULTS: Following oral administration of a single 6 mg capsule, rivastigmine is rapidly absorbed with an average time to peak plasma concentration of about 1 hour and an average peak concentration of about 25.6 g/L. By a noncompartmental approach, the absolute bioavailability of the 6 mg oral dose of rivastigmine was 71.7% when compared with a 2mg intravenous infusion normalised for dose. By using a population pharmacokinetic model with Michaelis-Menten elimination, absolute bioavailability was estimated at 60.2%. The average terminal elimination half-life of rivastigmine ranged from 1.4 to 1.7 hours for both treatments. Plasma concentrations of the major metabolite, NAP 226-90, formed by the hydrolysis of rivastigmine by cholinesterase are lower than those of the parent compound following oral and intravenous administration. CONCLUSION: A noncompartmental approach and a compartmental approach based on a population pharmacokinetic model with Michaelis-Menten elimination yielded comparable values, 71.7% and 60.2% respectively, for the absolute bioavailability of a single 6 mg oral dose of rivastigmine. Comparison with previous studies confirmed that the oral form of the drug exhibits increased bioavailability with increasing dose, consistent with its nonlinear pharmacokinetics..     

Ciprofloxacin absorption in different regions of the human gastrointestinal tract. Investigations with the hf-capsule.

1. The absorption of ciprofloxacin from different regions of the human gastrointestinal tract was investigated in four healthy males using a remote-controlled drug delivery device (hf-capsule). 2. Significant differences in AUC were observed in the control study (oral administration of ciprofloxacin solution without the hf-capsule = 100%) and after release of ciprofloxacin in the jejunum (geometric mean: 37%), the ileum (mean: 23%), the ascending colon (mean: 7%) and the descending colon (mean: 5%), whereas tmax showed no difference for any of the absorption sites. Ciprofloxacin release in the stomach resulted in the greatest AUC (mean: 140%). Thus, it is concluded that the main absorption site of ciprofloxacin is the upper gastrointestinal tract, up to the jejunum. 3. Differences in presystemic metabolism of known drug metabolites along the gut could be excluded, as the pattern of urinary recovery of desethylene-, sulpho-, and oxo-ciprofloxacin and the parent compound was similar for all drug release sites.     

Absorption of valproic acid from the gastrointestinal tract of the piglet.

Valproic acid is a commonly used drug for the treatment of epilepsy. Since valproic acid can only be given orally, its absorption from the gastrointestinal (GI) tract especially in patients with short bowel syndrome (SBS) and in neonates is important. The specific sites of absorption for valproic acid in the small intestine and colon have not been investigated. It is currently unknown whether these patients are able to absorb oral valproic acid sufficiently to maintain a therapeutic serum concentration. The primary objectives of the study were to: (a) determine the relative absorption of valproic acid from specific sites in the GI tract; and (b) investigate the influence of intestinal development on valproic acid absorption using the newborn piglet as a model. Two groups were studied: Group I included 5 piglets 18-21 days of age, and Group II included 5 piglets 1-3 days of age. A valproic acid solution was simultaneously perfused through 5 partitioned segments of the gastrointestinal tract: the duodenum, jejunum, ileum, right colon and left colon. Tritiated [3H] polyethylene glycol was co-administered to monitor water movement across the GI mucosa. Following steady state, samples were collected from each segment, and analyzed by a specific enzyme-mediated immunoassay. The absorption rates (micrograms/min/cm) of valproic acid in Group I were as follows: 9.96 +/- 2.8 duodenum; 11.28 +/- 2.79, jejunum; 9.42 +/- 3.34, ileum; 10.88 +/- 3.35, right colon; 10.96 +/- 2.92, left colon.(ABSTRACT TRUNCATED AT 250 WORDS)     

Cytotoxicity of cisplatin in rat intestine

Therapeutic treatment with cisplatin (cis-dichlorodiammineplatinum-II), an antitumor agent, produces toxic side effects involving kidney, GI tract, and bone marrow. Intestinal cytotoxicity of cisplatin was characterized in rats following a single ip dose (5 mg/kg). Cellular necrosis and inhibition of mitosis in the intestinal epithelium were maximal on Days 1–2 and were most severe in the ileum, but mucosal lesions were recovered by 5–7 days. Crypt and villus cell populations were reduced most in the ileum (60–70%), followed by the jejunum (45–60%) and the duodenum (35–40%). Stomach and colon had few mucosal lesions. GI tissues assayed for platinum concentrations indicated no preferential localization of cisplatin in any segment of small intestine. Histologic evidence suggested that proliferating epithelial cells in the crypt are the major targets for cisplatin cytotoxicity.     

Inhibition of proteolysis in luminal extracts from the intestine of the brushtail possum

The proteolytic activity of luminal extracts from five regions (duodenum, jejunum, ileum, caecum and colon) of the brushtail possum intestine towards bovine serum albumin (BSA) and human luteinizing hormone releasing hormone (LHRH) was investigated. There were no significant differences in degradation rates between fresh and previously frozen extracts from any region of the possum intestine. The inhibition of degradation of BSA by luminal extracts from two regions (jejunum and ileum) and of LHRH from four regions (jejunum, ileum, caecum and colon) was evaluated. Soybean trypsin-chymotrypsin inhibitor (SBTI), sodium deoxycholate, Carbopol 934P, bacitracin and bestatin significantly inhibited the degradation of both LHRH and BSA (P < 0.05). SBTI almost totally inhibited the proteolysis of BSA and the peptidolysis of LHRH in extracts from the small intestine. This finding suggests that serine proteases such as chymotrypsin are responsible for the protein and peptide degradation in luminal extracts. It is concluded that including serine protease inhibitors in a formulation may enhance oral delivery of bioactive peptides and proteins to possums.     

Pharmacokinetics of lisdexamfetamine dimesylate after targeted gastrointestinal release or oral administration in healthy adults

The purpose of this work was to assess the pharmacokinetics and safety of lisdexamfetamine dimesylate (LDX) delivered and released regionally in the gastrointestinal (GI) tract. In this open-label, randomized, crossover study, oral capsules and InteliSite delivery capsules containing LDX (50 mg) with radioactive marker were delivered to the proximal small bowel (PSB), distal SB (DSB), and ascending colon (AC) during separate periods. Gamma scintigraphy evaluated regional delivery and GI transit. LDX and d-amphetamine in blood were measured postdose (≤72 h). Treatment-emergent adverse events (TEAEs) were assessed. Healthy males (n = 18; 18-48 years) were enrolled. Mean (S.D.) maximal plasma concentration (C(max)) was 37.6 (4.54), 40.5 (4.95), 38.7 (6.46), and 25.7 (9.07) ng/ml; area under the concentration-time curve to the last measurable time point was 719.1 (157.05), 771.2 (152.88), 752.4 (163.38), and 574.3 (220.65) ng · h · ml?1, respectively, for d-amphetamine after oral, PSB, DSB, and AC delivery of LDX. Median time to C(max) was 5, 4, 5, and 8 h, respectively. Most TEAEs were mild to moderate. No clinically meaningful changes were observed (laboratory, physical examination, or electrocardiogram). LDX oral administration or targeted delivery to small intestine had similar d-amphetamine systemic exposure, indicating good absorption, and had reduced absorption after colonic delivery. The safety profile was consistent with other LDX studies.     

Factors influencing regional differences in intestinal absorption of UK-343,664 in rat: possible role in dose-dependent pharmacokinetics

The objective of this study was to evaluate potential contributions of intestinal export and metabolism to the oral dose-dependent pharmacokinetics of the human cGMP-specific phosphodiesterase type 5 inhibitor, UK-343,664. Differences between jejunal and ileal handling of this CYP3A and P-gp substrate were investigated. CYP3A and P-gp display differing activities in the upper and lower mammalian small intestine and their impact on variable drug absorption can be mechanistically assessed for individual compounds with in situ perfusion of rat's small intestine. Isolated segments of rat jejunum and ileum were perfused with UK-343,664 solution and measurements were made as a function of drug concentration for dose dependence and in the presence of CYP3A and P-gp inhibitors. Intestinal permeability and metabolism were measured by total drug disappearance and major metabolite, UK-347,334 (N-desethyl metabolite), appearance in the intestinal lumen. Intestinal tissue and mesenteric blood measurements of drug and metabolite were also determined. The effective permeability (P(eff)) of UK-343,664 and metabolite formation (F(met)) increased as a function of concentration. Regional differences in P(eff) and F(met) were observed with low-intestinal metabolism of UK-343,664 in both regions (<10%). P-gp inhibition caused significant increase in P(eff) and F(met) in jejunum and ileum while ketoconazole, a P-gp and CYP3A inhibitor, has only limited effect on metabolism. In conclusion, UK-343,664 absorption is mainly regulated by P-gp in jejunum and ileum while CYP3A intestinal metabolism has minimal effect. This role of P-gp could explain the dose-dependent pharmacokinetics of UK-343,664 and its unusual behavior of t(max) as a function of dose.     

Intestinal Transport of Gentamicin with a Novel,Glycosteroid Drug Transport Agent

Purpose. The objective was to investigate the ability of a glycosteroid (TC002) to increase the oral bioavailability of gentamicin. Methods. Admixtures of gentamicin and TC002 were administered to the rat ileum by injection and to dogs by ileal or jejunal externalized ports, or PO. Bioavailability of gentamicin was determined by HPLC. ³H-TC002 was injected via externalized cannulas into rat ileum or jejunum, or PO and its distribution and elimination was determined. The metabolism of TC002 in rats was evaluated by solid phase extraction and HPLC analysis of plasma, urine and feces following oral or intestinal administration. Results. The bioavailability of gentamicin was substantially increased in the presence of TC002 in both rats and dogs. The level of absorption was dependent on the concentration of TC002 and site of administration. Greatest absorption occurred following ileal or jejunal administration. TC002 was significantly more efficacious than sodium taurocholate, but similar in cytotoxicity. TC002 remained primarily in the GI tract following oral or intestinal administration and cleared rapidly from the body. It was only partly metabolized in the GI tract, but was rapidly and completely converted to its metabolite in plasma and urine. Conclusions. TC002 shows promise as a new drug transport agent for promoting intestinal absorption of polar molecules such as gentamicin.     

Sumatriptan Absorption from Different Regions of the Human Gastrointestinal Tract

Sumatriptan exhibits low oral bioavailability partly due to presystemic metabolism, which may vary with regional differences in metabolic activity throughout the gastrointestinal tract. This study evaluated sumatriptan absorption in humans after administration orally and by oroenteric tube into the jejunum and cecum. Because the site of cecal administration varied, pharmacokinetic parameters for sumatriptan and its major metabolite were compared statistically only after oral and jejunal administration. One-half of the oral dose was recovered in the urine as parent (3%) and metabolite (46%). Sumatriptan was absorbed throughout the gastrointestinal tract; absorption was similar after oral and jejunal administration, and less after cecal administration. The metabolite AUC and the AUC ratio (metabolite/parent) were significantly lower after jejunal compared to oral administration; the AUC ratio was two-fold lower after cecal administration. Results suggest that presystemic metabolism of sumatriptan varies throughout the gastrointestinal tract and/or regional differences exist in the absorption of metabolite formed within the gastrointestinal tract.     

Absorption and Presystemic Metabolism of Selegiline Hydrochloride at Different Regions in the Gastrointestinal Tract in Healthy Males

Purpose. The absorption and disposition of selegiline (SEL) and its metabolites N-desmethylselegiline (DMS), L-methamphetamine (MET), and L-amphetamine (AMP) were assessed in 8 healthy male volunteers at proximal and distal regions of the intestine relative to oral administration (in the stomach) to determine if intestinal site dependence contributed to the erratic oral absorption of selegiline hydrochloride which is manifest as low and variable bioavailability. Methods. An open-label, four-way crossover, single dose pharmacokinetic study comparing the bioavailability of 10 mg selegiline hydrochloride administered to healthy young males as a solution by the oral route (in the stomach) and by a nasoenteric tube to the following three sites: duodenum, jejunum and terminal ileum was conducted. Infusions were administered over a 1 minute interval and a two week washout was observed between treatments. Samples were taken over 96 hours and analyzed by LC/MS/MS. Results. Selegiline exposure was greatest following administration to the stomach (~150% > duodenum or jejunum) and least in the terminal ileum (~33% less than duodenum or jejunum). Duodenal and jejunal sites were equivocal based on selegiline absorption and subsequent metabolism. While both AMP and MET exposure was equivalent at all dosing sites, DMS exposure was less (~18%) at the terminal ileum. Conclusions. The oral absorption of selegiline is neither permeability-limited or intestinal site-dependent. Stomach absorption may bypass presystemic metabolism. The reduced DMS exposure at the terminal ileum is consistent with the theorized presystemic formation of DMS via luminal P450 enzymes and the density of these enzymes in the duodenum and jejunum relative to the ileum. AMP and MET metabolites were insensitive to dosing site consistent with their hepatic formation. The true magnitude of these effects would require multiple dosing as single dose pharmacokinetics do not predict the extent of multiple dose selegiline exposure.     

Stability of Bovine Lactoferrin in Luminal Extracts and Mucosal Homogenates from Rat Intestine: A Prelude to Oral Absorption

Oral delivery is the most common method for bovine lactoferrin (bLf) administration. However, the presence of proteolytic enzymes in the stomach and intestine limits the effective absorption of bLf within the gastrointestinal (GI) tract. To determine the extent of bLf proteolysis, several digestion models were developed using luminal extracts and mucosal homogenates isolated from four regions of rat intestine: duodenum, jejunum, ileum, and proximal colon. The kinetics of bLf degradation followed a pseudo‐first‐order rate, and almost complete hydrolysis of bLf was observed in the luminal extracts, indicating that bLf is more susceptive to luminal peptidases rather than mucosal enzymes. Moreover, a significant reduction in bLf proteolysis was observed in the presence of soybean trypsin inhibitor (SBTI), bestatin, and bacitracin, suggesting that there exist trypsin‐like and aminopeptidase‐like proteases, which play a key role in the degradation of bLf in the intestine. Lactoferrin was then encapsulated in several lipid‐based delivery systems including liposomes and solid lipid particles (SLPs) with polymer modification, showing at least 50% of intact bLf remaining after 6 h of digestion compared with native bLf. These findings suggest that particle encapsulation may modulate protein digestion and possibly achieve sufficient oral bioavailability of bLf.     

Distribution of breast cancer resistance protein (BCRP/ABCG2) mRNA expression along the human GI tract

Human breast cancer resistance protein (BCRP/ABCG2) is an ABC-transporter that is present on the luminal membrane of intestinal epithelial cells and restricts absorption of anticancer drugs such as methotrexate, topotecan, mitoxantrone, and doxorubicin. The exact anatomic distribution of BCRP along the gastrointestinal (GI) tract, however, has not been determined before. The aim of this study was, therefore to investigate BCRP mRNA expression pattern along the GI tract in 14 healthy subjects. Furthermore, BCRP duodenal mRNA expression was compared with MDR1/ABCB1 mRNA. Additionally, BCRP mRNA expression was investigated in two human intestinal cell lines (Caco-2 and LS180). Since previous animal studies have suggested sex specific differences in BCRP expression, we analyzed intestinal BCRP expression with respect to sex. Biopsies were taken from different gut segments (duodenum, terminal ileum and ascending, transverse, descending and sigmoid colon). Gene expression was assessed by quantitative real-time PCR (Taqman). BCRP mRNA expression was maximal in the duodenum and decreased continuously down to the rectum (terminal ileum 93.7%, ascending colon 75.8%, transverse colon 66.6%, descending colon 62.8%, and sigmoid colon 50.1% compared to duodenum, respectively). BCRP expression in the duodenum was comparable to MDR1/ABCB1 gene expression. Caco-2 cells showed a comparable expression of BCRP as human duodenal tissue. Gender specific differences in BCRP expression were not observed. These findings represent the first systematic site-specific analysis of BCRP expression along the GI tract. This information might be helpful to develop target strategies for orally administered anticancer drugs.     

Regional difference in P-glycoprotein function in rat intestine

It has been reported that inhibition of the P-glycoprotein (P-gp) results in the improved absorption of P-gp substrate in the intestinal tract. In fact, the increased permeability of P-gp substrate across the intestinal epithelium was observed following inhibition of P-gp in in vitro experiments. To develop the formulation containing P-gp inhibitor and P-gp substrate for practical use, it is necessary to know whether the results obtained in the in vitro experiments are reproducible at whole body level. It is also important to find out the regional difference of the P-gp activity in the intestinal tract. In this study, we examined whether verapamil, a specific inhibitor of P-gp, improves the absorption of rhodamine123 (Rho123), a substrate of P-gp, from the jejunum, ileum, and colon of rats using the in situ loop method. The water content in the loop decreased during the experiment, resulting in a significant change of the Rho123 concentration in the loop. Thus, to accurately determine the absorption rate of Rho123, it was necessary to measure the water movement. It was found that there was a regional difference in the water movement, i.e., greatest in colon, followed by ileum. Verapamil did not change the water movement in any intestinal regions. When the concentration of Rho123 in the loop was corrected by water movement, the Rho123 clearance was in the order of ileum (1.15 microL/min/cm), colon (0.83 microL/min/cm) and jejunum (0.47 microL/min/cm). In the presence of verapamil, the Rho123 clearance was significantly increased at jejunum and ileum but not in colon (ileum: 2.08 microL/min/cm, colon: 1.14 microL/min/cm, jejunum: 1.28 microL/min/cm). These results suggest that P-gp inhibits the drug absorption in jejunum and ileum. From these results, it is possible to evaluate the role of P-gp and its regional difference in the in situ experiments. In particular, the inhibition of P-gp results in an increase in absorption of the P-gp substrate limited to jejunum and ileum.     

Gastrointestinal transit, release and plasma pharmacokinetics of a new oral budesonide formulation

AIMS: The aims of the study were to: (1) evaluate the gastrointestinal transit, release and absorption of budesonide from tablets with a new multimatrix formulation (MMX) designed to release the drug throughout the whole colon, and (2) assess the influence of food on budesonide bioavailability. METHODS: Two phase I studies, each comprising 12 healthy males, were performed. Gastrointestinal transit of (153)Sm-labelled tablets containing 9 mg budesonide was evaluated by means of pharmaco-scintigraphy. The effect of food was tested by comparing plasma pharmacokinetics after intake of a high fat and high calorie breakfast with fasting controls. RESULTS: (153)Sm-labelled tablets reached the ascending colon after a mean +/- SD 9.8 +/- 6.9 h. Initial tablet disintegration was observed in the ileum in 42% and the ascending and transverse colon in 33% of subjects. Ninety-six per cent of the dose was absorbed into the systemic circulation during passage through the whole colon including the sigmoid. Food significantly decreased C(max) values from 1429 +/- 1014 to 1040 +/- 601 pg mL(-1) (P = 0.028) and AUC values from 14 814 +/- 11 254 to 13 486 +/- 9369 pg h(-1) mL(-1) (P = 0.008). Mean residence time and t(max) increased by 12-29%. There was no drug accumulation after 1 week of once daily oral administration of budesomide. CONCLUSIONS: MMX-budesonide tablets appear suitable for targeted colonic drug delivery. Transit parameters and low systemic bioavailability warrant further studies with the new formulation.     

Prediction of plasma concentration-time curve of orally administered theophylline based on a scintigraphic monitoring of gastrointestinal transit in human volunteers

The plasma concentration-time profile of theophylline after oral administration in human volunteers was predicted using the individual gastrointestinal (GI) transit data monitored by a gamma scintigraphic technique. Theophylline was administered as aminophylline under fasted and fed condition, along with 99mTc-labeled diethylenetriamine-pentaacetic acid (DTPA), an unabsorbable marker to evaluate the GI transit by a gamma scintigraphic technique. Two healthy male volunteers participated under fasted and fed conditions in a crossover study. The GI transit was evaluated by dividing the GI tract to four segments, stomach, jejunum, ileum and cecum/colon. Under the fed condition, the GI transit pattern for each segment was confirmed to alter considerably, causing a delay in the gastric emptying mainly. Further, the plasma concentration curves of theophylline after oral administration were predicted using the GI-Transit-Absorption Model on the basis of individual GI transit parameters calculated by the fitting of the observed data to the GI-Transit Kinetic Model. The absorption rate constant in each segment and the pharmacokinetic parameters after intravenous administration used for the prediction were the values extrapolated from the data in rats and the ones normalized from the values in literatures, respectively. The plasma concentration-time curves for theophylline were well predicted using obtained individual GI transit parameters. The analysis using this method could estimate the variable absorption behavior governed by the GI transit in detail.     

Activation of 5-HT3 receptors in the rat and mouse intestinal tract: a comparative study

This study provides a comprehensive evaluation of 5-HT(3) receptor functional distribution in both the rat and mouse intestinal tract. 5-HT(3A-S) receptor splice variant mRNA was expressed throughout the intestine of the rat and mouse; the 5-HT(3A-L) variant being more common in the rat.5-HT, m-CPB, 1-PBG and 2-methyl-5-hydroxytryptamine (2m5-HT) induced contraction in the jejunum, ileum, proximal colon and distal colon of the rat (pEC(50) range: 2m5-HT, 5.86+/-0.40 to m-CPB, 7.47+/-0.27) and mouse (pEC(50) range: 1-PBG, 5.34+/-0.06 to m-CPB, 6.49+/-0.14) in the presence of nontarget 5-HT receptor antagonists, methysergide (1 muM) and GR125487 (0.1 microM). The rank orders of potency in the four regions of the rat and mouse intestine were concordant with the accepted order and the responses to 5-HT were inhibited by ondansetron (0.1 microM).5-HT(3)-induced contractions to 5-HT were reduced by tetrodotoxin (1 microM). Pargyline (10 muM) and fluoxetine (1 microM) potentiated responses in the rat jejunum. Atropine (0.1 microM) potentiated 5-HT(3)-induced responses in the rat jejunum (E(max) 49-65%), but attenuated responses in most other regions of the rat and mouse (e.g. mouse ileum: E(max) 57-26%). In the rat jejunum, L-NAME (100 microM) mimicked the effect of atropine, hexamethonium (100 microM) suppressed 5-HT(3)-induced responses, but tachykinin receptor antagonists were without effect. It is concluded that functional 5-HT(3) receptors are present in nerves along the length of the rat and mouse intestinal tract. The mouse proximal colon was found to discriminate 5-HT(3) receptor agonist profiles better than any other region in the rat or mouse. The rat jejunum shows evidence of 5-HT uptake and inactivation processes as well as inhibitory nitrergic and nontachykinin excitatory pathways associated with the 5-HT(3)-induced response.     

Preferential cerebrospinal fluid acetylcholinesterase inhibition by rivastigmine in humans

This study sought to examine the feasibility of prolonged assessment of acetylcholinesterase (AChE) activity in the cerebrospinal fluid (CSF) of volunteers and to test the hypothesis that rivastigmine (ENA-713; Exelon, Novartis Pharma AG, Basel, Switzerland) selectively inhibits AChE in CSF in humans at a dose producing minimal inhibition of the peripheral enzyme. Lumbar CSF samples were collected continuously (0.1 mL x min(-1)) for 49 hours from eight healthy volunteers who took either placebo or a single oral dose of rivastigmine (3 mg). CSF specimens and samples of blood cells and blood plasma were analyzed at intervals for rivastigmine and its metabolite NAP 226-90 ([-] [3-([1-dimethylaminolethyl)-phenol]), erythrocyte AChE activity, CSF AChE activity, and plasma and CSF butyrylcholinesterase (BuChE) activity. Safety evaluations were performed 23 hours after drug dosing and at the end of the study. Evaluable data were obtained from six subjects. The mean time to maximal rivastigmine plasma concentration (tmax) was 0.83 +/- 0.26 hours, the mean maximal plasma concentration (Cmax) was 4.88 +/- 3.82 ng x mL(-1), the mean plasma area under the concentration versus time curve (AUC0-infinity) was 7.43 +/- 4.74 ng x hr x mL(-1), and the mean plasma t1/2 was 0.85 +/- 0.115 hours. The concentration of rivastigmine in CSF was lower than the quantification limit for assay (0.65 ng x mL(-1)), but NAP 226-90 reached a mean Cmax of 3.14 +/- 0.57 ng x mL(-1). Only minimal inhibition of erythrocyte AChE activity (approximately 3%) was observed. Inhibition of AChE in the CSF after rivastigmine administration was significantly greater than after placebo for up to 8.4 hours after the dose and was maximal (40%) at 2.4 hours. Plasma BuChE activity was significantly lower after rivastigmine than after placebo, but this was not clinically relevant. BuChE activity in CSF was significantly lower after rivastigmine than after placebo for up to 3.6 hours after dosing, but this difference was not sustained. This study confirms the feasibility of using continuous measurement of AChE activity in CSF over prolonged periods, that rivastigmine markedly inhibits CSF AChE after a single oral dose of 3 mg, and that the inhibition of central AChE is substantially greater than that of peripheral AChE or BuChE.     

Tacrolimus is a class II low-solubility high-permeability drug: the effect of P-glycoprotein efflux on regional permeability of tacrolimus in rats

The objective of this study is to investigate the role of P-glycoprotein (P-gp), a membrane efflux pump associated with multidrug resistance (MDR) and a known substrate for tacrolimus, in determining the regional intestinal permeability of tacrolimus in rats. Thus, isolated segments of rat jejunum, ileum, or colon were perfused with tacrolimus solutions containing polyethoxylated hydrogenated castor oil 60 surfactant, and with or without verapamil, a P-gp substrate used to reverse the MDR phenotype. The results indicated that the intrinsic permeability of tacrolimus in the jejunum, calculated on the basis of the concentration of non-micellized free tacrolimus, was quite high ( approximately 1.4 x 10(-4) cm/s). The apparent permeability (P(app)) in the jejunum was unaffected by the presence of verapamil; however, the P(app) in the ileum and the colon increased significantly in the presence of verapamil and were similar to the values observed in the jejunum. The results suggest that systemic absorption of tacrolimus from the gastrointestinal tract could be significantly affected by P-gp efflux mechanisms. It is also possible that differences in P-gp function at various intestinal sites in a subject or at a given intestinal site in various subjects could lead to large intra- and interindividual variability in bioavailability of tacrolimus following oral administration.     

Regional transport and metabolism of ropivacaine and its CYP3A4 metabolite PPX in human intestine

The major aim of this study was to investigate the CYP3A4 metabolism and polarized transport of ropivacaine and its metabolite 2',6'-pipecoloxylidide (PPX) in tissue specimens from the human small and large intestine. Ropivacaine has been shown to be effective in the treatment of ulcerative colitis in human colon. This study was conducted using a modified Ussing-chamber technique with specimens from jejunum, ileum and colon collected from 11 patients. The local kinetics of ropivacaine and PPX were assessed from their concentration-time profiles in mucosal and serosal compartments. The permeability (P(app)) in the absorptive direction for both ropivacaine and PPX increased regionally in the order jejunum < ileum < colon. Ropivacaine was not found to be subjected to any carrier-mediated intestinal efflux. However, the CYP3A4 metabolite left the human enterocyte in a polarized manner and both the extent of CYP3A4 metabolism of ropivacaine and the extrusion of its metabolite to the mucosal chamber were more efficient in jejunum than in ileum. P-glycoprotein was probably not involved in the metabolite extrusion. No other metabolite than PPX was found. This in-vitro study with human intestinal tissues provides new mechanistic insights into regional transport and metabolism of drugs.