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The effect of TJ-28 (Eppikajutsuto) on the prevention of hand-foot syndrome using Capecitabine for colorectal cancer: The Yokohama Clinical Oncology Group Study (YCOG1102).
Watanabe, K, Ishibe, A, Watanabe, J, Ota, M, Fujii, S, Ichikawa, Y, Oba, MS, Endo, I
Indian journal of gastroenterology : official journal of the Indian Society of Gastroenterology. 2020;(2):204-210
Abstract
BACKGROUND Eppikajututo (TJ-28, a Kampo medicine) is effective against rheumatoid arthritis and eczema. We conducted a randomized comparative trial to assess the efficacy of TJ-28 for preventing hand-foot syndrome (HFS) as a complication of adjuvant chemotherapy using capecitabine. METHODS The present study was a multi-institutional randomized-controlled trial (UMIN000005899). Colorectal cancer patients scheduled to receive capecitabine chemotherapy as adjuvant therapy were randomly assigned to receive TJ-28 (7500 mg/day) or oral pyridoxine (60 mg/day). Patients were monitored for the development of grade ≥ 2 HFS according to the National Cancer Institute Common Toxicity Criteria until chemotherapy completion. RESULTS Twenty-two patients were enrolled in this study. The relative dose intensity of capecitabine was 76.2% in the TJ-28 group and 68.2% in the pyridoxine group. Grade ≥ 2 HFS developed in 6 (50.0%) of 12 TJ-28 patients and in 4 (40.0%) of 10 pyridoxine patients. Chemotherapy treatment failure was observed in seven patients, mainly due to HFS, liver dysfunction, diarrhea, and neutropenia. Chemotherapy treatment failure due to HFS occurred in none of the TJ-28 group and 2 patients (20.0%) in the pyridoxine group (p = 0.114). CONCLUSION Capecitabine-associated HFS was not markedly prevented by TJ-28 compared with pyridoxine. However, TJ-28 might support the continuation of chemotherapy with capecitabine. Further studies are warranted to clarify the benefits of TJ-28.
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Food, Acid Supplementation and Drug Absorption - a Complicated Gastric Mix: a Randomized Control Trial.
Surofchy, DD, Frassetto, LA, Benet, LZ
Pharmaceutical research. 2019;(11):155
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Abstract
PURPOSE The purpose of this study was to determine the impact of food on gastric pH and the ability of over the counter betaine hydrochloride (BHCl) acid to reacidify gastric pH after food-induced elevations in gastric pH. METHODS This open-label cross over clinical study (NCT02758015) included 9 subjects who were randomly assigned to one of 16 possible, 4-period cross-over sequences to determine the impact and relationship of food and gastric pH with acid supplementation. Subjects were administered various doses (1500 mg, 3000 mg and 4500 mg) of betaine hydrochloride (BHCl) to determine the ability of acid supplementation to reacidify gastric pH after the elevation of gastric pH caused by the ingestion of food. RESULTS Following the administration of food and the resulting elevation in gastric pH, time to return to baseline gastric pH levels without acid supplementation was 49.7 ± 14.0 min. Administering 4500 mg of BHCl acid in capsules was able to reacidify gastric pH levels back to baseline following the administration of food in approximately 17.3 ± 5.9 min. AUCpH of each treatment were similar and not statistically different. Mean max pH following the administration of food was 3.20 ± 0.55. CONCLUSION The ability of food to elevate and maintain gastric pH levels in the presence of acid supplementation was made evident throughout the study. A 4500 mg dose of BHCl was required to reacidify gastric pH after the administration of food. This study details the difficulty faced by clinicians in dosing a poorly soluble, weakly basic drug to patients receiving acid reducing agents where administration with food is recommended to avoid gastric side effects. TRIAL REGISTRATION https://clinicaltrials.gov/ct2/show/NCT02758015.
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Assessment of Multi-Ion Channel Block in a Phase I Randomized Study Design: Results of the CiPA Phase I ECG Biomarker Validation Study.
Vicente, J, Zusterzeel, R, Johannesen, L, Ochoa-Jimenez, R, Mason, JW, Sanabria, C, Kemp, S, Sager, PT, Patel, V, Matta, MK, et al
Clinical pharmacology and therapeutics. 2019;(4):943-953
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Abstract
Balanced multi-ion channel-blocking drugs have low torsade risk because they block inward currents. The Comprehensive In Vitro Proarrhythmia Assay (CiPA) initiative proposes to use an in silico cardiomyocyte model to determine the presence of balanced block, and absence of heart rate corrected J-Tpeak (J-Tpeak c) prolongation would be expected for balanced blockers. This study included three balanced blockers in a 10-subject-per-drug parallel design; lopinavir/ritonavir and verapamil met the primary end point of ΔΔJ-Tpeak c upper bound < 10 ms, whereas ranolazine did not (upper bounds of 8.8, 6.1, and 12.0 ms, respectively). Chloroquine, a predominant blocker of the potassium channel encoded by the ether-à-go-go related gene (hERG), prolonged ΔΔQTc and ΔΔJ-Tpeak c by ≥ 10 ms. In a separate crossover design, diltiazem (calcium block) did not shorten dofetilide-induced ΔQTc prolongation, but shortened ΔJ-Tpeak c and prolonged ΔTpeak -Tend . Absence of J-Tpeak c prolongation seems consistent with balanced block; however, small sample size (10 subjects) may be insufficient to characterize concentration-response in some cases.
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Short-Term Fasting Alters Pharmacokinetics of Cytochrome P450 Probe Drugs: Does Protein Binding Play a Role?
Lammers, LA, Achterbergh, R, Romijn, JA, Mathôt, RAA
European journal of drug metabolism and pharmacokinetics. 2018;(2):251-257
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BACKGROUND AND OBJECTIVES Short-term fasting differentially alters cytochrome P450 (CYP) mediated drug metabolism. This has been established by using CYP-enzyme selective probe drugs. However, the observed effects of fasting on the pharmacokinetics of these probe drugs may also include the effects of altered plasma protein binding of these drugs. Therefore, we studied the effect of short-term fasting on protein binding of five commonly used probe drugs [caffeine (CYP1A2), metoprolol (CYP2D6), midazolam (CYP3A4), omeprazole (CYP2C19) and S-warfarin (CYP2C9)]. METHODS The free and total plasma concentrations of the five probe drugs were analyzed by LC-MS/MS in samples retrieved in a cross-over study in which nine healthy subjects received an intravenous administration of the cocktail after an overnight fast (control) and after 36 h of fasting. RESULTS Short-term fasting increased plasma free fatty acid concentrations from 0.48 mmol/L (control) to 1.29 mmol/L (36 h fasting) (p = 0.012). Short-term fasting did not alter the free fractions of caffeine, metoprolol and omeprazole compared to the control intervention (p > 0.05). Power to detect a difference for midazolam and S-warfarin was low since the majority of free concentrations were below the limit of quantification. CONCLUSIONS This study demonstrates that short-term fasting does not alter protein binding of the probe drugs caffeine, metoprolol and omeprazole.
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Impact of Truncated Area on Point Estimate and Intra-Subject Variability in Bioequivalence of Dutasteride with Long Half-Life.
Prasaja, B, Harahap, Y, Lusthom, W, Yumi, L, Sofiana, A, Sandra, M, Safira, F, Chilmi, U
Drug research. 2018;(4):238-240
Abstract
PURPOSE To investigate the effect of using truncated area under the curve (AUC0-72) on bioequivalence of dutasteride with long half-life in point estimate and intra-subject variability. METHODS Fifteen subjects were enrolled in this single-dose, open-label, randomized two-way crossover design following an overnight fasting with five-week washout period. Plasma samples were collected to 72 h and 144 h following drug administration and dutasteride were determined by liquid chromatography-tandem mass spectrometry (LC-MS/MS) methods. The pharmacokinetic parameters for bioequivalence assessment were AUC0-72 and AUC0-144. RESULTS The estimated point and the 90% confidence intervals were 91.07% (84.54-98.11%) for AUC0-72 and 91.43% (84.65-98.75%) for AUC0-144, that is, within the ranges for acceptance of bioequivalence. The intra-subject variability's were 11.45% for AUC0-72 and 11.87% for AUC0-144. CONCLUSIONS There was no statistically significant difference in point estimated and intra-subject variability between truncated AUC at 72 h and 144=h and the truncated AUC (AUC0-72) approach could be considered for bioequivalence assessment for dutasteride.
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Does the placebo effect modulate drug bioavailability? Randomized cross-over studies of three drugs.
Hammami, MM, Yusuf, A, Shire, FS, Hussein, R, Al-Swayeh, R
Journal of negative results in biomedicine. 2017;(1):10
Abstract
BACKGROUND Medication effect is the sum of its drug, placebo, and drug*placebo interaction effects. It is conceivable that the interaction effect involves modulating drug bioavailability; it was previously observed that being aware of caffeine ingestion may prolong caffeine plasma half-life. This study was set to evaluate such concept using different drugs. METHODS Balanced single-dose, two-period, two-group, cross-over design was used to compare the pharmacokinetics of oral cephalexin, ibuprofen, and paracetamol, each described by its name (overt) or as placebo (covert). Volunteers and study coordinators were deceived as to study aim. Drug concentrations were determined blindly by in-house, high performance liquid chromatography assays. Terminal-elimination half-life (t½) (primary outcome), maximum concentration (Cmax), Cmax first time (Tmax), terminal-elimination-rate constant (λ), area-under-the-concentration-time-curve, to last measured concentration (AUCT), extrapolated to infinity (AUCI), or to Tmax of overt drug (AUCOverttmax), and Cmax/AUCI were calculated blindly using standard non-compartmental method. Covert-vs-overt effect on drug pharmacokinetics was evaluated by analysis-of-variance (ANOVA, primary analysis), 90% confidence interval (CI) using the 80.00-125.00% bioequivalence range, and percentage of individual pharmacokinetic covert/overt ratios that are outside the +25% range. RESULTS Fifty, 30, and 50 healthy volunteers (18%, 10%, and 6% females, mean (SD) age 30.8 (6.2), 31.4 (6.6), and 31.2 (5.4) years) participated in 3 studies on cephalexin, ibuprofen, and paracetamol, respectively. Withdrawal rate was 4%, 0%, and 4%, respectively. Eighteen blood samples were obtained over 6, 10, and 14 h in each study period of the three drugs, respectively. ANOVA showed no significant difference in any pharmacokinetic parameter for any of the drugs. The 90% CIs for AUCT, AUCI, Cmax, AUCOverttmax, and Cmax/AUCI were within the bioequivalence range, except for ibuprofen Cmax (76.66-98.99), ibuprofen Cmax/AUCI (77.19-98.39), and ibuprofen (45.32-91.62) and paracetamol (51.45-98.96) AUCOverttmax. Out of the 126 individual covert/overt ratios, 2.0-16.7% were outside the +25% range for AUCT, 2.0-4.2% for AUCI, 25.0-44.9% for Cmax, 67.3-76.7% for AUCOverttmax, and 45.8-71.4% for Tmax. CONCLUSIONS This study couldn't confirm that awareness of drug ingestion modulates its bioavailability. However, it demonstrates the trivial effect of blinding in bioequivalence studies and the extent of bio-variability that would be expected when comparing a drug product to itself. TRIAL REGISTRATION ClinicalTrials.gov identifier: NCT01501747 (registered Dec 26, 2011).
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A randomized, double-blind, placebo controlled, parallel group, efficacy study of alpha BRAIN® administered orally.
Solomon, TM, Leech, J, deBros, GB, Murphy, CA, Budson, AE, Vassey, EA, Solomon, PR
Human psychopharmacology. 2016;(2):135-43
Abstract
OBJECTIVE Alpha BRAIN® is a nootropic supplement that purports to enhance cognitive functioning in healthy adults. The goal of this study was to investigate the efficacy of this self-described cognitive enhancing nootropic on cognitive functioning in a group of healthy adults by utilizing a randomized, double blind, placebo-controlled design. METHODS A total of 63-treatment naïve individuals between 18 and 35 years of age completed the randomized, double-blind, placebo controlled trial. All participants completed a 2-week placebo run in before receiving active product, Alpha BRAIN® or new placebo, for 6 weeks. Participants undertook a battery of neuropsychological tests at randomization and at study completion. Primary outcome measures included a battery of neuropsychological tests and measures of sleep. RESULTS Compared with placebo, Alpha BRAIN® significantly improved on tasks of delayed verbal recall and executive functioning. Results also indicated significant time-by-group interaction in delayed verbal recall for the Alpha BRAIN® group. CONCLUSIONS The use of Alpha BRAIN® for 6 weeks significantly improved recent verbal memory when compared with controls, in a group of healthy adults. While the outcome of the study is encouraging, this is the first randomized controlled trial of Alpha BRAIN®, and the results merit further study.
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Vitamin E supplementation and hepatic drug metabolism in humans.
Clarke, MW, Burnett, JR, Wu, JH, Hodgson, JM, Ledowski, T, Puddey, IB, Croft, KD
Journal of cardiovascular pharmacology. 2009;(6):491-6
Abstract
Meta-analyses studies suggest that high-dose vitamin E may be associated with increased mortality in some populations. Vitamin E may increase the production of CYP3A4 in the liver, and this could lead to an increase in drug metabolism, potentially lowering the efficacy of therapeutic drugs. We hypothesized that upregulation of CYP3A4 by alpha-tocopherol (alpha-TOH) would decrease the plasma concentration of the CYP3A4 substrate midazolam. Baseline metabolism of midazolam (1 mg intravenously) was determined in 12 healthy subjects before randomization into 2 groups of 6 to receive either RRR-alpha-TOH (750 IU/d) or placebo for 3 weeks. At completion, subjects were given an additional 1 mg intravenous bolus of midazolam. Plasma midazolam, 1-hydroxy-midazolam, and urinary alpha-TOH metabolite excretion were measured using gas chromatography mass spectrometry. Serum alpha-TOH was measured using high performance liquid chromatography with electrochemical detection. Serum alpha-TOH increased by 100% (P = 0.002) and urinary alpha-TOH metabolite excretion increased 20-fold in the treatment group versus placebo (P = 0.001). There was no effect on the area under time curve of midazolam in subjects taking alpha-TOH compared with placebo. These findings do not support the hypothesis that alpha-TOH supplementation interferes with hepatic CYP3A4-mediated drug metabolism.
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Intestinal drug transporter expression and the impact of grapefruit juice in humans.
Glaeser, H, Bailey, DG, Dresser, GK, Gregor, JC, Schwarz, UI, McGrath, JS, Jolicoeur, E, Lee, W, Leake, BF, Tirona, RG, et al
Clinical pharmacology and therapeutics. 2007;(3):362-70
Abstract
The goals of this study were to assess the extent of human intestinal drug transporter expression, determine the subcellular localization of the drug uptake transporter OATP1A2, and then to assess the effect of grapefruit juice consumption on OATP1A2 expression relative to cytochrome P450 3A4 and MDR1. Expression of drug uptake and efflux transporters was assessed using human duodenal biopsy samples. Fexofenadine uptake by different transporters was measured in a transporter-transfected cell line. We investigated the influence of grapefruit juice on pharmacokinetics of orally administered fexofenadine. The effect of grapefruit juice on the expression of intestinal transporters was determined using real-time polymerase chain reaction and Western blot analysis. In the duodenum of healthy volunteers, an array of CYP enzymes as well as uptake and efflux transporters was expressed. Importantly, uptake transporters thought to be liver-specific, such as OATP1B1 and 1B3, as well as OATP2B1 and 1A2 were expressed in the intestine. However, among OATP transporters, only OATP1A2 was capable of fexofenadine uptake when assessed in vitro. OATP1A2 colocalized with MDR1 to the brush border domain of enterocytes. Consumption of grapefruit juice concomitantly or 2 h before fexofenadine administration was associated with reduced oral fexofenadine plasma exposure, whereas intestinal expression of either OATP1A2 or MDR1 remained unaffected. In conclusion, an array of drug uptake and efflux transporters are expressed in the human intestine. OATP1A2 is likely the key intestinal uptake transporter for fexofenadine absorption whose inhibition results in the grapefruit juice effect. Although short-term grapefruit juice ingestion was associated with reduced fexofenadine availability, OATP1A2 or MDR1 expression was unaffected.