Masayuki Akimoto

DRUG-CARRIER PROPERTY OF ALBUMIN MICROSPHERES IN CHEMOTHERAPY. III. EFFECT OF MICROSPHERE-ENTRAPPED 5-FLUOROURACIL ON EHRLICH ASCITES CARCINOMA IN MICE

To examine the possibility of utilizing albumin microspheres as drug-carriers, an in vitro release of 5-fluorouracil (5-FU) from albumin microspheres was examined and the effect of intraperitoneally injected drug-carrying microspheres on Ehrlich ascites carcinoma in mice was studied. In vitro release characteristics determined by dialysis experiments showed that 5-FU release continued over one week. We also noted that drug release in the peritoneum of ascites-bearing mice continued over one week and that their life-span increased. Furthermore, the microspheres were phagocytized in vivo by the ascites cells. Our results suggest that albumin microspheres containing 5-FU may represent an effective system of drug delivery with prolonged action.

Involvement of riboflavin kinase expression in cellular sensitivity against cisplatin

Flavin adenine dinucleotide (FAD) is an essential coenzyme for glutathione reductase (GR) which catalyzes the reduction of oxidized glutathione to regenerate the reduced form involved in protection against oxidative stress. Riboflavin kinase (RFK) also known as flavokinase is involved in the first step of bioactivation of riboflavin (RF) to form flavin mononucleotide (FMN) which can be subsequently converted to FAD in an ATP-dependent reaction catalyzed by FAD synthetase (FADS). We investigated the involvement of RFK in cisplatin resistance using human prostate cancer PC3 cells. RFK overexpression renders cells resistant not only to cisplatin but also to hydrogen peroxide (H2O2) and diamide. Furthermore, knockdown of RFK expression induced apoptosis. We demonstrated that overexpression of RFK increased the levels of FAD, FMN and total glutathione and the expression of GR and glutathione S-transferase-π (GSTπ). RFK expression is up-regulated in cisplatin-resistant P/CDP6 cells in addition to FAD, total glutathione level, GR and GSTπ. Knockdown of RFK expression also sensitized both PC3 and P/CDP6 cells to cisplatin. Moreover, cellular levels of RFK expression correlate well with Gleason score, known as a good indicator of patient prognosis. The present study suggests that RFK expression is involved not only in cellular protection from oxidative stress but also in malignant progression of prostate cancer.

Why does a hydrophilic drug permeate skin, although it is not soluble in white petrolatum?

Background: White petrolatum is broadly used as an ointment vehicle, although hydrophilic drugs cannot be easily dissolved in the vehicle. Method: The aim of this study was to evaluate the release and skin permeation profiles of a model hydrophilic agent, N1-[2-(4-guanidinophenyl)-1(S)-(N-methylcarbamoyl)ethyl]-N4-hydroxy-2(R)-iso-butyl-3(S)-(3-phenylpropyl)succinamide hydrochloride (FYK-1388b), from the ointment. Results: The release rate of FYK-1388b was very low; however, high skin permeation and skin content of the drug were found. We supposed that this was due to endogenous lipids or sebum, because white petrolatum had a high affinity to these lipids. To evaluate the effect of lipids on the enhanced release and skin permeation of FYK-1388b, ‘preapplied white petrolatum’ was made by applying the drug-free white petrolatum on the hairless rat skin for 6 hours. Then the drug ointment was prepared using the ‘preapplied white petrolatum’. The release rate of FYK-1388b was markedly increased from the ‘preapplied ointment’ compared with the ‘original ointment’. In addition, much higher skin permeation was also obtained using the ‘preapplied ointment’. Separately, cholesteryl oleate, cholesterol, and ceramides were found in the ‘preapplied white petrolatum’. Conclusion: Thus, these endogenous lipids on the skin surface may enhance the release and skin permeation of FYK-1388b from white petrolatum ointment.

Comparative release studies on suppositories using the basket, paddle, dialysis tubing and flow-through cell methods I. Acetaminophen in a lipophilic base suppository.

Abstract The release characteristics of lipophilic suppositories containing acetaminophen (AAP) were examined using four types of dissolution methods: the basket, paddle, dialysis tubing (DT) and flow-through cell (FTC) methods. The suitability of each apparatus for quality control in AAP compounded suppositories was evaluated using statistical procedures. More than 80% of the drug was released over 60 min in all the release methods studied, with the exception of the basket method. Reproducible and faster release was achieved using the paddle method at 100 and 200 rpm, whereas poor release occurred with the basket method. The mean dissolution time (MDT), maximum dissolved quantity of AAP at the end of the sampling time (Q) and dissolution efficiency (DE) were calculated by model-independent methods. The FTC method with a single chamber used in this study was also appreciable for AAP suppositories (Q of 100%, MDT of 71–91 min and DE of 75–80%). The DT apparatus is considered similar to the FTC apparatus from a quality control perspective for judging the release properties of lipophilic base suppositories containing AAP. However, even the single chamber FTC used in this study has potential as an in vitro drug release test for suppositories. The comparative dissolution method is expected to become one of the valuable tools for selecting an adequate dissolution test.

The in Vitro Release of Indomethacin from Suppositories: Effects of Bases and Comparison of Different Dissolution Methods

The suitability of apparatuses for the quality control of indomethacin (IND, 50 mg) compounded suppositories was evaluated and the effects of the type of suppository base on release profiles was investigated. The release characteristics of hydrophilic and lipophilic suppositories containing IND were compared using four types of dissolution methods: basket (RB), paddle (PD), dialysis tubing (DT) and flow-through cell (FTC). The release process was evaluated using the following model independent parameters: the mean dissolution time (MDT), cumulative percent of drug released (Q) at the end of the sampling time, and dissolution efficiency (DE). The fastest and most reproducible release profiles were observed for a hydrophilic base (macrogols), which resulted in more than 90% of the drug being released in 30 min using PD, RB and FTC. After 90 min, 90% of the total amount of the drug was released from a mixture of hydrophilic bases with a lipophilic base (macrogols and hard fat) in compendial dissolution methods and the mixture base was the second fastest only to the hydrophilic base. The slowest release profiles in each method were observed for the lipophilic base (hard fat). Poor drug release from any type of suppository base was noted using DT. Based on the results of the present study, FTC may be regarded as an adequate technique allowing sufficient discriminating power for the quality control of IND compounded suppositories.