Development and uniform evaluation of ropinirole osmotic pump tablets with REQUIP XL both in vitro and in beagle dogs

REQUIP XL, prolonged release formulation of ropinirole hydrochloride (RH) in market, could release ropinirole constantly and showed satisfactory therapeutic effect and good compliance. REQUIP XL was composed of more than 10 kinds of excipients and prepared by Geomatrix technology, which was complex and laborious. The purpose of this study was to obtain a dosage form of RH with similar in vitro release profile and bioequivalence in vivo compared to REQUIP XL. Osmotic pump tablet combined with fast release phase was selected as the delivery system of RH and similar release curves were obtained in different media. The tablets were also administered to beagle dogs and the pharmacokinetic parameters were calculated using a non-compartmental model. C_max, t_max, mean residence time (MRT), and area under the curve from 0 to 24?h (AUC_0–24) were 3.97?±?0.53?ng/mL, 3.58?±?0.49?h, 8.29?±?0.93?h, and 35.20?±?8.11?ng/mL???h for ropinirole osmotic pump tablets (ROPT) and 4.15?±?1.07?ng/mL, 2.92?±?0.49?h, 7.84?±?1.09?h, and 34.34?±?10.06?ng/mL???h for REQUIP XL. The log-transformed mean C_max and AUC_0–24 of ROPT were about 92.15% and 102.49% relative to that of REQUIP XL, respectively. The 90% confidence intervals of C_max and AUC_0–24 for ROPT were 75.69–115.31% and 88.89–122.30%, respectively. So it could be concluded that ROPT was uniform with REQUIP XL both in vitro and in beagles and the release profiles of Geomatrix technology may be obtained by osmotic pump combined with fast release technology.     

Pharmacokinetic properties and bioequivalence of orally inhaled salbutamol in healthy Chinese volunteers

Context: Salbutamol is a short-acting β₂-adrenergic receptor agonist that has been used for many years for relief of bronchospasm. However, studies on the pharmacokinetic profile of orally inhaled salbutamol doses used in clinical practice have not yet been reported in Chinese subjects.

Objective: The aim of this study was to compare the pharmacokinetics and evaluate the bioequivalence of two orally inhaled salbutamol formulations.

Materials and methods: A single-dose randomized fasting two-period, two-treatment and two-sequence crossover open-label bioequivalence study was conducted in 24 healthy Chinese adult male volunteers, with a 1-week washout period between treatments. Plasma concentrations of salbutamol were determined using liquid chromatography coupled to tandem mass spectrometry. Pharmacokinetic parameters, including AUC_0–0.33?h, AUC_0–24?h and C_max were calculated and the 90% confidence intervals of the ratio (test/reference) pharmacokinetic parameters were obtained by analysis of variance on logarithmically transformed data.

Results: The mean (SD) pharmacokinetic parameters of the reference drug were AUC_0–0.33?h, 227.2 (89.9) pg·h/ml; AUC_0–24?h, 2551.9 (1008.0) pg·h/ml; C_max, 801.3 (307.3) pg/ml and t_1/2, 5.14(1.36) h. Those of the test drug were AUC_0–0.33?h, 244.0 (104.4) pg·h/ml; AUC_0–24?h, 2664.4 (1081.8) pg·h/ml; C_max, 873.7 (374.4) pg/ml, t_1/2, 5.29 (1.23) h. The median value for T_max was 0.25?h for both formulations. The 90% confidence intervals for the AUC_0–0.33?h, AUC_0–24?h and C_max were in the range of 0.892–1.208, 0.876–1.195 and 0.911–1.203, respectively.

Conclusion: This single-dose study found that the test and reference products met the regulatory criteria for bioequivalence of China in healthy Chinese volunteers.     

Comparative Study on the Bioequivalence of Two Formulations of Pioglitazone Tablet in Healthy Thai Male Volunteers

The bioequivalence study of two 30 mg pioglitazone formulations was determined in healthy Thai male volunteers after a single dose administration in a randomized cross-over study with a 1-week washout period. Due to the high variability of the rate and extent of absorption of pioglitazone, an add-on subject study was required to assess bioequivalence. Reference product (Actos®, Takeda Chemical Industries, Ltd., Osaka, Japan) and test product (Glubosil®, Silom Medical Co. Ltd., Bangkok, Thailand) were given to 35 volunteers after overnight fasting. Blood samples were collected at specified time intervals. Plasma was analyzed for pioglitazone concentration using a validated HPLC method. Pharmacokinetic parameters were compared between test and reference products from plasma concentration-time profile by using non-compartment analysis. The statistical comparison of C_max and AUC_0?t, AUC_t?∞ clearly indicated that no significant difference in two products of pioglitazone tablets in add-on subject study. The 90% confidence intervals for the mean ratio (test/reference) of C_max and AUC_0?t, AUC_t?∞ were within the Thailand Food and Drug Administration acceptance range. Based on the pharmacokinetic and statistical results of this study, we can conclude that Glubosil® is bioequivalent to Actos®, and that two products can be considered interchangeable in medical practice.     

Average Bioequivalence of Clarithromycin Immediate Released Tablet Formulations in Healthy Male Volunteers

Abstract

The objective of this study was to assess average bioequivalence of two immediate released tablet formulations of 500-mg clarithromycin tablets in 24 healthy Thai male volunteers. In a randomized, single dose, fasting state, two-period, crossover study design with a 1-week washout period, each subject received a 500-mg clarithromycin tablet. Plasma samples were collected over a 24-hour period after oral administration and were analyzed by using a validated method using high performance liquid chromatography with electrochemical detection. Pharmacokinetic parameters were determined by using noncompartmental analysis. The time to reach the maximal concentration (t_max, h), the peak concentration (C_max, ng/mL), and the area under the curve (AUC_{0 ? ∞}, ng.h/mL) of the Reference and Test formulations were 2.0 ± 0.8 vs. 2.2 ± 0.9, 2793 ± 1338 vs. 2642 ± 1344, and 17912 ± 7360 vs. 17660 ± 7992, respectively. Relative bioavailability was 0.99. The 90% confidence interval of C_max and AUC_{0 ? ∞} were 82.6–112.1% and 84.7–112.0%. Bioequivalence between the Test and Reference formulation can be concluded.     

Sustained-release of Cyclosporin A pellets: preparation,in vitro release,pharmacokinetic studies and in vitro–in vivo correlation in beagle dogs

The aim of this study was to develop Cyclosporin A (CsA) sustained-release pellets which could maintain CsA blood concentration within the therapeutic window throughout dosing interval and to investigate the in vitro–in vivo correlation (IVIVC) in beagle dogs. The CsA sustained-release pellets (CsA pellets) were prepared by a double coating method and characterized in vitro as well as in vivo. Consequently, the CsA pellets obtained were spherical in shape, with a desirable drug loading (7.18?±?0.17?g/100?g), good stability and showed a sustained-release effect. The C_max, T_max and AUC_0–24 of CsA pellets from the in vivo pharmacokinetics evaluation was 268.22?±?15.99?ng/ml, 6?±?0?h and 3205.00?±?149.55?ng·h/ml, respectively. Compared with Neoral®, CsA pellets significantly prolonged the duration of action, reduced the peak blood concentration and could maintain a relatively high concentration level till 24?h. The relative bioavailability of CsA pellets was 125.68?±?5.37% that of Neoral®. Moreover, there was a good correlation between the in vitro dissolution and in vivo absorption of the pellets. In conclusion, CsA pellets which could ensure a constant systemic blood concentration within the therapeutic window for 24?h were prepared successfully. Meanwhile, this formulation possessed a good IVIVC.     

Preparation,characterization and in vitro and in vivo evaluation of a solid dispersion of Naringin

Naringin (NA) is one of typical flavanone glycosides widely distributed in nature and possesses several biological activities including antioxidant, anti-inflammatory, and antiapoptotic. The aim of this study was to develop solid dispersion (SD) and to improve the dissolution rate and oral bioavailability of NA. NA–SD was prepared by the traditional preparation methods using PEG6000, F68, or PVP K30 as carrier at different drug to carrier ratios. According to the results of solubility and in vitro dissolution test, the NA–PEG6000 (1:3) SD was considered as an optimal formulation to characterize by Fourier transform infrared spectroscopy (FT-IR), differential scanning calorimetry and powder X-ray diffraction. Furthermore, oral bioavailabilities of NA–PEG6000 (1:3) SD and NA–suspension with the same dosage were investigated in SD rats. The results confirmed the formation of SD and the pharmacokinetic parameters of NA–PEG6000 (1:3) SD (C_max?=?0.645?±?0.262?µg/ml, AUC_0–t?=?0.471?±?0.084?µg/ml?h) were higher than that of NA–suspension (C_max?=?0.328?±?0.183?µg/ml, AUC_0–t =?0.361?±?0.093?µg/ml?h). Based on the results, the SD is considered as a promising approach to enhance the dissolution rate and oral bioavailability of NA.     

Enhanced oral bioavailability of felodipine by naringenin in Wistar rats and inhibition of P-glycoprotein in everted rat gut sacs in vitro

The aim of this study was to investigate the effect of naringenin on the pharmacokinetics (PK) of felodipine in rats and membrane permeability across rat everted gut sacs in vitro. Rats were simultaneously co-administered with felodipine 10?mg/kg, p.o. and naringenin (25, 50 and 100?mg/kg, p.o.) for 15 consecutive days. Rats of the control groups received the corresponding volume of vehicle. Blood samples were withdrawn from retro-orbital plexus on first day in single dose PK study (SDS) and on 15th day in multiple dosing PK study (MDS). The PK parameters were calculated using Thermo kinetica. The co-administration of naringenin significantly elevated the C_max and increased the AUC_total of felodipine in dose-dependent manner. The C_max of felodipine was increased from 173.25?±?14.65 to 275.61?±?44.62 and 223.26?±?26.35 to 561.32?±?62.53?ng/mL in SDS and MDS, respectively, at the dose of naringenin 100?mg/kg. The AUC_total of felodipine was significantly (p?max and AUC of felodipine is due to P-gp and CYP3A4 inhibition.     

Development and pharmacokinetic evaluation of alginate-pectin polymeric rafts forming tablets using box behnken design

Abstract

Raft is an emerging drug delivery system, which is suitable for controlled release drug delivery and targeting. The present study aimed to evaluate the physico-chemical properties of raft, in vitro release of pantoprazole sodium sesquihydrate and conduct bioavailability studies. Box behnken design was used with three independent and dependent variables. Independent variables were sodium alginate (X₁), pectin (X₂) and hydroxypropyl methyl cellulose K100M (X₃) while dependent variables were percentage drug release at 2 (Y₂), 4 (Y₄) and 8?h (Y₈). The developed rafts were evaluated by their physical and chemical properties. Fourier transform infrared spectroscopy and differential scanning calorimetry were used to study the chemical interaction and thermal behaviour of drug with polymers. Alginate and pectin contents of R9 formulation were 99.28% and 97.29%, respectively, and acid neutralization capacity was 8.0. R9 formulation showed longer duration of neutralization and nature of raft was absorbent. The raft of R9 formulation showed 98.94% release of PSS at 8?h in simulated gastric fluid. Fourier transform infrared spectroscopy showed no chemical interaction and differential scanning calorimetry indicated endothermic peaks at 250?°C for pantoprazole sodium sesquihydrate. t_max for the test and reference formulations were 8?±?2.345?h and 8?±?2.305?h, respectively. C_max of test and reference formulations were 46.026?±?0.567?µg/mL and 43.026?±?0.567?µg/mL, respectively. AUC_(0-t) of the test and reference formulations were 472.115?±?3.467?µg?×?h/mL and 456.105?±?2.017?µg?×?h/mL, respectively. Raft forming system successfully delivered the drug in controlled manner and improved the bioavailability of drugs.     

Oral bioavailability and intestinal absorption of candesartan cilexetil: role of naringin as P-glycoprotein inhibitor

Objective: The aim of the study is to explore the pharmacokinetic behavior of candesartan solid dispersions prepared by different pharmaceutical interventions using P-gp inhibitor in rabbits to validate the effectiveness of naringin as a pharmaceutical excipient in enhancing the oral delivery of lipophilic candesartan cilexetil.

Methods: Male albino rabbits (1–1.5?kg) were orally administered pure CAN suspensions and various candesartan solid dispersions (10?mg/kg) with and without naringin (15?mg/kg) and blood samples were collected at specified time points. CAN plasma samples were measured using HPLC.

Key findings: After oral dosing of pure CAN suspension, the mean AUC0-8?h was found to be 0.14?±?0.09?μgh/ml which was increased significantly, i.e. 0.52?±?0.13?μgh/ml with freeze-dried solid dispersions in the presence of naringin (p?p?Conclusion: These results are quite stimulating for further development of a clinically useful oral formulation of candesartan cilexetil based on P-gp inhibition using naringin, a natural flavonoid as a pharmaceutical excipient.     

Dissolving microneedle-based intradermal delivery of interferon-α-2b

Abstract

The dermal and transdermal delivery of protein pharmaceuticals faces enormous challenges, and at the same time, has very significant potential for the non-invasive treatment of both localized and systemic diseases. To demonstrate the pharmaceutical usefulness of dissolving microneedles (MNs) containing interferon-α-2b (IFN), IFN MNs were prepared using a new method. IFN were encapsulated in MNs with dose from 4.94?±?0.64 to 23.79?±?2.48?μg, and in vitro release test showed the efficiency reached 49.2%. After percutaneous administration of IFN MNs to rats, serum IFN levels were measured for 12?h. The peak serum IFN level, maximum drug concentration (C_max), and the time to reach maximum concentration (T_max), were 11.58?±?ng/ml and 40 min, respectively, for high-dose MNs group. The area under the curve (AUC) of MNs group was 28.85?ng·h/ml, while intramuscular injection (IM) group with equal dose was 31.17?ng·h/ml. Immunogenicity analysis showed the anti-IFN antibody got back to normal level at ninth week, and there was no difference between male and female rats. IFN MNs showed good stability for 2 months and no damage to the administered rats’ skin. The results demonstrated the IFN MNs have a great potential to provide an alternative to IM.     

Pharmacokinetics and pharmacodynamics of FSK0808 and Gran after single intravenous drip administration or single subcutaneous administration: comparative study in healthy Japanese adult male subjects

FSK0808 is a recombinant human granulocyte colony-stimulating factor developed by Fuji Pharma Co., Ltd and Mochida Pharmaceutical Co., Ltd. as a biosimilar product of Gran®. We verified the pharmacokinetic/pharmacodynamic equivalence of FSK0808 and commercially available Gran® by a randomized crossover study of single intravenous dose (200?µg/m²) and single subcutaneous dose (400?µg/m²) in healthy Japanese adult male subjects. According to the bioequivalence guidelines, the area under the blood concentration – time curve by 48 hours after administration (AUC_0–48) in a single intravenous drip (IVD) study, and AUC_0–48 and maximum blood concentration (C_max) in a single subcutaneous (SC) dose study were used as primary endpoints, and the pharmacodynamic parameters including absolute neutrophil count (ANC) or number of CD34 positive cells (CD34⁺ cells) as secondary endpoints. The safety was evaluated based on the characteristics and incidence of adverse reactions. As a result, the 90% confidence interval (CI) of the difference in mean value for AUC_0–48 among drugs ranged from log(0.8) to log(1.25), in the IVD study, and those for C_max and AUC_0–48 were within the range of log(0.8)–log(1.25) in the SC study. Those for secondary endpoints were all within the range of log(0.8)–log(1.25). Thus, the pharmacokinetics/pharmacodynamics of both drugs were considered equivalent for all routes of administration, and the profiles of adverse reactions were also very similar.     

Bioequivalence Evaluation of Two Formulations of Doxazosin Tablet in Healthy Thai Male Volunteers

ABSTRACT

The bioequivalence of two doxazosin 2 mg tablets was determined in 24 healthy Thai male volunteers after one single dose in a randomized cross-over study with a one week washout period. The study was conducted at Faculty of Pharmaceutical Sciences and Health Sciences Research Institute, Naresuan University, Phitsanulok, Thailand. Reference (Cardura®, Heinrich Mack Nachf. GmbH & Co. GK, Illertissen, Germany) and test (Dozozin-2®, Umeda Co., Ltd., Bangkok Thailand) were administered to volunteers after overnight fasting. Blood samples were collected at specified time intervals and plasma was separated. The validated HPLC method with fluorescence detection was used for quantification of doxazosin in plasma samples. The pharmacokinetic parameters, T_max, C_max, AUC_t, AUC_∞, T_1/2, λ_z, Cl and V_d, were determined from plasma concentration time profile of both formulations by using non-compartment analysis. The calculated pharmacokinetic parameters were compared statistically to evaluate bioequivalence between the two brands. The analysis of variance (ANOVA) using log-transformed C_max, AUC_t, and AUC_∞ did not show any significant difference between two formulations. The point estimates and 90% confidence intervals for C_max, AUC_t and AUC_∞ were within the acceptance range (0.80–1.25), satisfying the bioequivalence criteria of the Thailand Food and Drug Administration Guidelines. These results indicate that Dozozin-2® is bioequivalent to Cardura® and, thus, may be prescribed interchangeably.     

A formulation approach for development of HPMC-based sustained release tablets for tolterodine tartrate with a low release variation

Objective: The purpose of this study was to develop hydroxypropylmethylcellulose (HPMC)-based sustained release (SR) tablets for tolterodine tartrate with a low drug release variation.

Methods: The SR tablets were prepared by formulating a combination of different grades of HPMC as the gelling agents. The comparative dissolution study for the HPMC-based SR tablet as a test and Detrusitol^® SR capsule as a reference was carried out, and the bioequivalence study of the two products was also conducted in human volunteers.

Results: The amount of HPMC, the grade of HPMC and the combination ratio of different grades of HPMC had remarkable effects on drug release from the SR tablets. Both the test and reference products had no significant difference in terms of comparative dissolution patterns in four different media (f₂ > 50). Furthermore, the dissolution method and rotation speed showed no effects on the drug release from the two products. The 90% confidence intervals of the AUC_0–36 and C_max ratios for the test and reference products were within the acceptable bioequivalence intervals of log0.8–log1.25.

Conclusions: A HPMC-based SR tablet for tolterodine tartrate with a low release variation was successfully developed, which was bioequivalent to Detrusitol^® SR capsule.     

Bioavailability enhancement of baclofen by gastroretentive floating formulation: statistical optimization,in vitro and in vivo pharmacokinetic studies

Objectives: The study was aimed to improve bioavailability of baclofen by developing gastroretentive floating drug delivery system (GFDDS).

Methods: Preliminary optimization was done to select various release retardants to obtain minimum floating lag time, maximum floating duration and sustained release. Optimization by 3² factorial design was done using Polyox WSR 303 (X₁) and HPMC K₄M (X₂) as independent variables and cumulative percentage drug released at 6?h (Q6h) as dependent variable.

Results: Optimized formulation showed floating lag time of 4–5 s, floated for more than 12?h and released the drug in sustained manner. In vitro release followed zero ordered kinetics and when fitted to Korsemeyer Peppas model, indicated drug release by combination of diffusion as well as chain relaxation. In vivo floatability study confirmed floatation for more than 6?h. In vivo pharmacokinetic studies in rabbits showed C_max of 189.96?±?13.04?ng/mL and T_max of 4?±?0.35?h for GFDDS. The difference for AUC_(0–T) and AUC_(0–∞) between the test and reference formulation was statistically significant (p > 0.05). AUC_(0–T) and AUC_(0–∞) for GFDDS was 2.34 and 2.43 times greater than the marketed formulation respectively.

Conclusion: GFDDS provided prolonged gastric residence and showed significant increase in bi oavailability of baclofen.     

Sildenafil vaginal suppositories: preparation,characterization, in vitro and in vivo evaluation

Aim: The main objective was to investigate the in vitro release profile/kinetics, and in vivo plasma pharmacokinetics (PK) and organ biodistribution (BD) of the prepared sildenafil vaginal suppositories (SVS).

Methods: Suppositories containing 25?mg of sildenafil were prepared by the cream melting technique using Witepsol H-15 as a suppository base. The suppositories were characterized for weight variation, content uniformity, hardness, disintegration time and crystallinity change. The in vitro dissolution in pH 4.5, and in vivo plasma PK and organ BD of sildenafil from SVS in female Sprague Dawley rats, were also investigated.

Results: The mean weight variation, content uniformity, hardness and disintegration time of the prepared SVS were 1.127?±?0.020?g, 98.25?±?2.50%, 2.5?±?0.08?kg and 9?±?1.0?min, respectively. The release of sildenafil from the SVS was more than 90% at 30?min, with a release kinetic of Hixson--Crowell model and non-Fickian diffusion (n?=?0.464). The plasma PK study demonstrated a significantly lower C_max (～10 times) and AUC_0–24?h (～13 times) of sildenafil in plasma following intravaginal (IVG) administration of suppositories compared to oral (PO) administration of sildenafil solution. Nevertheless, the organ BD study showed a phenomenally higher C_max (～40 times) and AUC_0–24?h (～20 times) of sildenafil in uterus following IVG administration of suppositories than PO administration of sildenafil solution.

Conclusion: This study demonstrated enhanced sildenafil exposure in the uterus following IVG administration of SVS, which could be used to target the uterus for therapeutic benefits.     

Bioavailability of oral methylnaltrexone increases with a phosphatidylcholine-based formulation

Objective: Methylnaltrexone (MNTX), a peripherally restricted opioid antagonist with mu-opioid receptor selectivity, can reduce opioid activity in the gastrointestinal tract while sparing the pain relief afforded by opioids. Since the bioavailability of oral MNTX is low, it is necessary to explore the oral formulations of MNTX that increase its bioavailability.

Materials and methods: An MNTX-phosphatidylcholine complex (MNTX-PC) formulation was prepared. The physicochemical properties of MNTX-PC were analyzed, and its bioavailability was evaluated in rats. After 250?mg/kg of oral MNTX-PC, plasma samples were collected up to 9?h. The concentrations of the compound in rat plasma were quantified using LC/MS/MS.

Results: Two MNTX plasma concentration peaks were observed at 120 and 180?min for the MNTX-PC group and control (MNTX in a water solution). T_max was 180?min, C_max was 1083.7?±?293.9?ng/mL, and T_1/2 was 496?min for the MNTX-PC group. For control, T_max was 180?min, C_max was 448.4?±?126.0?ng/mL, and T_1/2 was 259?min. The AUC_{0–540 min} for the MNTX-PC group was 5758.2?±?1474.2?ngh/mL; for control, 1405.9?±?447.8?ngh/mL. Thus, the relative bioavailability after the oral administration of MNTX-PC was 410% compared to that of control.

Conclusion: MNTX-PC formulation significantly enhanced the oral bioavailability of MNTX.     

Study of a novel disintegrable oleanolic acid-polyvinylpolypyrrolidone solid dispersion

Novel solid dispersions of oleanolic acid-polyvinylpolypyrrolidone (OLA-PVPP SDs) were designed and prepared to improve the apparent solubility of drug, as well as to improve the stability, fluidity and compressibility of SDs. Disintegrable OLA-PVPP SDs were then evaluated both in vitro and in vivo. DSC, XRD, IR and SEM analysis proved the formation of OLA-PVPP SD and its amorphous state. The results of fluidity study, moisture absorption test and stability test showed that OLA-PVPP SD with good fluidity and qualified stability was successfully obtained. Meanwhile excellent dissolution rate was achieved for in vitro studies; dissolution test showed that ～50–75% of OLA was dissolved from SDs within the first 10?min, which is about 10–15 times of free OLA. In vivo study indicated that the formation of solid dispersion could largely improve the absorption of OLA, resulting in a much shorter T_max (p?C_max (p?0→∞ of OLA-PVPP SDs (1:6) were 155.4?±?37.24?h·ng/mL compared to the 103.11?±?26.69?h·ng/mL and 94.92?±?13.05?h·ng/mL of OLA-PVPP physical mixture (1:6) and free OLA, respectively. These proved PVPP could be a promising carrier of solid dispersions and was industrially feasible alternative carrier in the manufacture of solid dispersions.     

Improved dissolution rate and bioavailability of fenofibrate pellets prepared by wet-milled-drug layering

Objective: The objective of this study is to investigate the wet-milled-drug layering process which could significantly improve the dissolution rate and oral bioavailability of fenofibrate pellets.

Methods: Fenofibrate was milled with HPMC-E5 to prepare a uniform suspension in the micrometer and nanometer range, and this suspension was then layered on to sugar spheres to form the pellets (F1, F2).

Results: The particle size was significantly reduced (from 1000 µm to 1–10 µm and 400?nm) but the fenofibrate in suspension retained its crystallinity from the results of DSC and PXRD investigations. The dissolution rate of F1-F2 and Antara® capsules was 55.47 %, 61.27 % and 58.43 %, respectively, in 0.01?mol/L SDS solution over 60?min. In addition, F1, F2, and Antara® capsules were given orally to 6 beagle dogs to determine the bioavailability. The C_max of F1, F2 (8.21?±?2.55 and 9.33?±?2.37 μg/mL)and the AUC_(0?t) of F1, F2 (152.46?±?78.89 and 172.17?±?67.58 μg/mL·h)were higher than those of Antara® (6.02?±?3.34 μg/mL and 89.82?±?46.46 μg/mL·h) and, F1, F2 reached their C_max earlier than Antara® (F1: 2.0?±?1.1?h; F2: 1.8?±?1.2?h; Antara®: 6.0?±?8.9?h).

Conclusion: These results show that the wet-milled-drug layering technique is a powerful method to improve the dissolution rate and the bioavailability of fenofibrate.     

Preformulation characterization and in vivo absorption in beagle dogs of JFD,a novel anti-obesity drug for oral delivery

JFD (N-isoleucyl-4-methyl-1,1-cyclopropyl-1-(4-chlorine)phenyl-2-amylamine·HCl) is a novel investigational anti-obesity drug without obvious cardiotoxicity. The objective of this study was to characterize the key physicochemical properties of JFD, including solution-state characterization (ionization constant, partition coefficient, aqueous and pH-solubility profile), solid-state characterization (particle size, thermal analysis, crystallinity and hygroscopicity) and drug-excipient chemical compatibility. A supporting in vivo absorption study was also carried out in beagle dogs. JFD bulk powders are prismatic crystals with a low degree of crystallinity, particle sizes of which are within 2–10?μm. JFD is highly hygroscopic, easily deliquesces to an amorphous glass solid and changes subsequently to another crystal form under an elevated moisture/temperature condition. Similar physical instability was also observed in real-time CheqSol solubility assay. pK_a (7.49?±?0.01), log?P (5.10?±?0.02) and intrinsic solubility (S₀) (1.75?μg/ml) at 37?°C of JFD were obtained using potentiometric titration method. Based on these solution-state properties, JFD was estimated to be classified as BCS II, thus its dissolution rate may be an absorption-limiting step. Moreover, JFD was more chemically compatible with dibasic calcium phosphate, mannitol, hypromellose and colloidal silicon dioxide than with lactose and magnesium stearate. Further, JFD exhibited an acceptable pharmacokinetic profiling in beagle dogs and the pharmacokinetic parameters T_max, C_max, AUC_0–t and absolute bioavailability were 1.60?±?0.81?h, 0.78?±?0.47?μg/ml, 3.77?±?1.85?μg·h/ml and 52.30?±?19.39%, respectively. The preformulation characterization provides valuable information for further development of oral administration of JFD.     

Evaluation of Bioequivalence of Two Formulations Containing 100 Milligrams of Aceclofenac

ABSTRACT

The bioequivalence of two oral formulations containing aceclofenac 100 mg was determined in 24 healthy Indian male volunteers. The study was designed as a single dose, fasting, two-period two-sequence crossover study with a washout period of 1 week. The content of aceclofenac in plasma was determined by a validated HPLC method with UV detection. The preparations were compared using the parameters area under the plasma concentration–time curve (AUC_0–t), area under the plasma concentration–time curve from zero to infinity (AUC_0–∞), peak plasma concentration (C_max), and time to reach peak plasma concentration (t_max). No statistically significant difference was observed between the logarithmic transformed AUC_0–∞ and C_max values of the two preparations. The 90% confidence interval for the ratio of the logarithmic transformed AUC_0–t, AUC_0–∞, and C_max were within the bioequivalence limit of 0.80–1.25.