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Aim To develop an UPLC-MS/MS method to determine the concentration of lorcaserin hydrochloride in beagle plasma, and study the pharmacokinetics of osmotic pump controlled-release tablets of lorcaserin hydrochloride. Methods A randomized crossover design was used, carbamazepine as the internal standard(IS), and plasma protein precipitation with acetonitrile. The chromatographic was Phenomenex Polar C18 column(100 mm×2. 1 mm, 3 μm), and acetonitrile - water(containing 10 mmol·L-1 ammonium acetate and 0.1% formic acid)(40:60, V/V)was mobile phase. Multiple reaction monitoring mode and electrospray positive ionization were used to detect lorcaserin hydrochloride. The MS/MS ion transitions were monitored at m/z 196.2→129.2 for lorcaserin hydrochloride and m/z 237→194.1 for carbamazepine, respectively. Results The linear range was 1 to 500 μg·L-1(r=0.999 2), the extraction recovery rate ranged from 87.70% to 89.70%, the precision RSD was 9.7%. The accuracy and matrix effect met the requirements, and the stability of lorcaserin hydrochloride was good in -20 ℃ refrigerator for 45 d, repeated freezing and thawing for three times, placed at room temperature for 24 h, and the disposed samples placed in automatsampler for 6 h were stable. The main pharmacokinetic parameters of the controlled-release tablet and immediate-release tablet were as follows:Tmax was(8.00±1.27)h and(1.00±0.13)h, Cmax was(70.56±3.73)μg·L-1 and(176.33±16.73)μg·L-1, and AUC0-t was(966.33±7.56)μg·h·L-1 and(973.05±69.09)μg·h·L-1, respectively. Conclusions The established UPLC-MS/MS method can be used to study the pharmacokinetics of lorcaserin hydrochloride in the plasma of beagle dogs, and osmotic pump controlled-release tablets has sustained release effect.
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Objective To evaluate the release characteristics in vitro, pharmacokinetics in rabbits and in vivo-in vitro correlation of silymarin phospholipid complex microporous osmotic pump controlled release tablets(SM-PC MPOP). Methods The release characteristics of SM-PC MPOP in vitro were detected by HPLC in the artificial gastric fluid. Six beagle dogs were subjected to double cycle cross control, which were given SM-PC MPOP and Legalon(30 mg/kg). The concentration of silybin in plasma was determined by HPLC and the data were processed by software. Results The cumulative release rate of SM-PC MPOP in vitro was over 85% in 12 h. The pharmacokinetics in beagle dogs showed that SM-PC MPOP and legalon conformed to double compartment first-order absorption model and the pharmacokinetic parameters were obtained: tmax:(3.2±0.4)and(0.9±0.1)h, Cmax:(0.298 6±0.068 9)and(0.629 9±0.076 5)μg/ml, AUC0→24:(2.996 8±0.583 3)and(2.268 9±0.432 8)h·μg /ml. The relative bioavailability of SM-PC MPOP was(162.21 ± 30.82)%. Conclusion SM-PC MPOP could release slowly, which could increase the relative bioavailability significantly. The correlation between the absorption in vivo and release in vitro was fine(r = 0.839 0).
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Aim To evaluate the pharmacokinetics and bioequivalence of two osmotic pump tablets of hydrochloride venlafaxine in Chinese healthy volunteers.Methods The fed test each enrolled twenty-six Chinese healthy volunteers in a randomized-sequence, open-label, two-period crossover single-dose oral test and reference preparations of hydrochloride venlafaxine extended-release tablets.The plasma concentrations of venlafaxine and its active metabolites O-desmethylvenlafaxine were determined by a validated liquid chromatography-tandem mass spectrometry(LC-MS/MS)method, and the pharmacokinetic parameters and bioequivalence of the two tablets were analyzed using PhoenixTM WinNonlin 6.4 software.Results The pharmacokinetic parameters of venlafaxine after single dose for the test and reference tablets were as follows: Cmax(58.50±19.47)vs(60.14±22.18)μg•L-1, AUC0-t(1 074.1±526.7)vs(1 057.9±539.7)μg•h•L-1, AUC0-∞(1 084.7±536.8)vs(1 067.8±554.0)μ g•h•L-1.The pharmacokinetic parameters of O-desmethylvenlafaxine were as follows: Cmax(101.63±29.64)vs(101.45±31.62)μg•L-1, AUC0-t(2 694.0±834.5)vs(2 702.9±946.4)μg• h•L-1, AUC0-∞(2 753.9±885.5)vs(2 753.2±988.4)μg•h•L-1.The 90% confidence intervals of the geometric mean ratios of Cmax, AUC0-t, AUC0-∞ for the test preparation and the reference preparationwere all within the equivalent interval of 80.00%-125.00%.Conclusion The test and reference preparations of hydrochloride venlafaxine extended-release tablets are bioequivalent in Chinese healthy volunteers under fed conditions.
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Defining and visualizing the three-dimensional (3D) structures of pharmaceuticals provides a new and important tool to elucidate the phenomenal behavior and underlying mechanisms of drug delivery systems. The mechanism of drug release from complex structured dosage forms, such as bilayer osmotic pump tablets, has not been investigated widely for most solid 3D structures. In this study, bilayer osmotic pump tablets undergoing dissolution, as well as after dissolution in a desiccated solid state were examined, and visualized by synchrotron radiation micro-computed tomography (SR-μCT). In situ formed 3D structures at different in vitro drug release states were characterized comprehensively. A distinct movement pattern of NaCl crystals from the push layer to the drug layer was observed, beneath the semi-permeable coating in the desiccated tablet samples. The 3D structures at different dissolution time revealed that the pushing upsurge in the bilayer osmotic pump tablet was directed via peripheral "roadways". Typically, different regions of the osmotic front, infiltration region, and dormant region were classified in the push layer during the dissolution of drug from tablet samples. According to the observed 3D microstructures, a "subterranean river model" for the drug release mechanism has been defined to explain the drug release mechanism.
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Abstract Diltiazem hydrochloride (DLH) is a calcium channel blocker useful for the treatment of angina pectoris, arrhythmia, and hypertension. DLH having a short half-life needs frequent administration for successful treatment but this poses a problem of poor patient compliance. These requirements are served by elementary osmotic pump tablets (EOP) based controlled-release (CR) systems. Quality by design (QbD) approach assists in screening various factors with subsequent assessment of critical parameters that can have a major impact on the scalability of EOP. Tablets were formulated using wet granulation method followed by osmotic coating. Factorial design based QbD strategy aided in defining the risk assessment of influential variables such as hydrophilic polymers and osmotic coat component on the in-vitro release kinetics of the designed EOP tablets. These formulated EOP systems followed zero-order kinetics, a characteristic feature of EOPs. EOP tablets were formulated applying a systematic QbD statistical approach. The formulated DLH EOP systems with improved concentration-independent behavior helped to address the challenges of IR formulation. Application of QbD strategy in ascertaining the scalability of DLH EOP formulation would help pharmaceutical industries in the translation of EOP based drug delivery systems from R&D to market.
Subject(s)
Tablets , Diltiazem/analysis , Drug Delivery Systems , Total Quality Management/classification , Methods , Organization and Administration , Kinetics , Calcium Channel Blockers/administration & dosage , Mass Screening , Drug Industry/classification , Half-Life , Health Services Needs and DemandABSTRACT
@#In this study, ivabradine hydrochloride (IVB) was prepared as elementary osmotic pump tablets whose administration frequency was reduced to once daily. The dissolution method was developed, and effects on drug release profiles were evaluated by single factor analysis involving suspending agents, osmotic active agents and aging process. Orthogonal test was carried out at 3 levels on 3 factors including the amount of polyoxyethylene (PEO) in the core, polyethylene glycol (PEG) percentage and weight increase of controlled-release film coatings. The final formulation consisted of IVB (16.25 mg), PEO N80 (60 mg), hypromellose E5 (10 mg), lactose (111.75 mg), magnesium stearate (2 mg); and the film coatings consisted of PEG (15%), cellulose acetate (85%), with a weight increase of 7.5%. In vitro drug release behaviors were investigated. Prepared tablets exhibited similar release profiles in different pH dissolution media, with no risk of dose dumping in 40% ethanol solutions. The osmotic pressure differences inside and outside the membrane drove drug release. IVB osmotic pump tablets could reduce the frequency of administration and improve patients'' compliance, thus with better application values.
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This study was designed to formulate, for the first time, metformin hydrochloride (MH, 850 mg/tablet) as a controlledporosity osmotic pump (CPOP) system to achieve zero-order release pattern. MH core tablet was coated with celluloseacetate membrane containing PEG 400. The effect of different percentages and molecular weights of polyethyleneoxide (PEO, 900K and 4M) in tablet core was studied. The United States Pharmacopeia (USP) apparatus II andphosphate buffer pH 6.8 were used for the release studies; meanwhile, a promising formula was tested in biorelevantmedia. The stability of some selected formulations was carried out for 6 months, at bench and accelerated conditions.Evaluation included: MH content, Differential scanning calorimetry (DSC), Scanning electron microscopy (SEM),drug release, and kinetics. Results revealed that increasing PEO percentage within the core decreased MH release.SEM verified formation of pores in the membrane that accounts for MH release. Almost all stored tablets werestable for all studied parameters. MH endothermic peak maintained its position and energy of enthalpy on storageas confirmed by DSC. MH release rate from a promising formula, following zero-order release model, increased by28% in biorelevant media compared to phosphate buffer. Subsequently, in vitro release in biorelevant media could beemployed as a tool to anticipate in vivo tone of CPOP formulations
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The present study draw a bead on preparing single core osmotic pump with improved water transplant by employing Quality by Design (QbD) principles to achieve zero order drug release for prolonged period of time. QbD principles were employed in preparing single core osmotic pump by deriving quality target product profile (QTPP), critical quality attributes (CQA) followed by risk assessment using ishikawa diagram and risk estimation matrix. Box-Behnken Design was employed to study the effect of various independent parameters like concentration of Natrosol 250 HX (X1) and concentration of Xylitab (X2) no. of orifice (X3), on various dependent parameters like lag time (Y1) and time required for release 25%, 50%, 75% and 100% drug (Y2, Y3, Y4 and Y5). A controlled space was designed where each criteria or CQA was satisfied. Optimized formulation was further characterized for its efficiency. The results of design suggest the suitability of design for optimization of single core osmotic pump. In the initial period, drug release was driven by no. of orifice which on later stage depends on concentration of swellable polymer and concentration of osmogen. Optimized design was validated by preparing check point batch having less than 5% predicted error. Model fitting with drug release kinetics showed that optimized single core osmotic pump released drug in zero order. Stability data suggested that prepared formulation was stable for 3 month period without significant changes in the CQA. Single core osmotic pump using water transplant was successfully developed for a poorly soluble drug using QbD principles.
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@#In this study, pregabalin controlled porosity osmotic pump tablets which are taken once a day were prepared. Single-factor tests were carried out to investigate the influence of excipients and manufacturing process. The formulation was optimized through orthogonal experiment on three levels of three significant factors including the amount of sodium citrate, and polyethylene glycol 400 and coating weight gain. On the basis of the results of the single-factor tests and the orthogonal experiment, optimal formulation and manufacturing process were obtained. The final tablet formulation contained pregabalin(82. 5 mg), microcrystalline cellulose(40%), sodium citrate(27. 5%), magnesium stearate(0. 5%)and 5% povidone K30 solution as the tablet binder; the coating formulation consisted of cellulose acetrate and 60% of polyethylene glycol 400 as a porogen; the coating weight gain was 3%. In vitro drug release kinetic study suggested that the drug release from controlled porosity osmotic pump tablets was mainly driven by osmotic pressure, which was barely affected by the pH of the release medium. The drug release behavior of the tablets within 12 hours complied with zero-order release rule and the linear correlation coefficient was 0. 991 6. The obtained porosity osmotic pump tablets could effectively slow the drug release rate, reduce concentration fluctuation and improve the safety and convenience for the patients, hence with broad prospects.
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OBJECTIVE: To prepare huperzine A micro-porous osmotic pump pellets and to investigate the pharmacokinetic properties in Beagle dogs. METHODS: The extrusion-spheronisation method was used to prepare the core of huperzine A pellets which then coated by fluid-bed coating technology. Central composite design-response surface method was used to optimize the prescription of coating layer.Then Zero-order, First-order and Higuchi equation of cumulative release with time were fitted to study its release characteristics.The commercially available huperzine A tablets were used as reference preparations to investigate the in vivo pharmacokinetics of huperzine A micro-porous osmotic pump pellets, and the bioequivalence of the two preparations were compared. RESULTS: The formula of coating was optimized as followsEC of 61.5%, PEG400 of 10.5%. Zero-order kinetics existed in the release of the pellets in 24 h. Moreover, the osmotic pressure-controlled delivery was greatly responsible for drug release. In vivo study showed that tmax and ρmax of huperzine A micro-porous osmotic pump pellets were significantly lower than that of the reference preparation, and its t1/2 was significantly prolonged compared with the reference preparation, the relative bioavailability was 95.8%. CONCLUSION: Huperzine A micro-porous osmotic pump pellets had a better sustained release effect in the Beagle dog and have a good correlation in vivo.
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OBJECTIVE: Push-pull osmotic pump (PPOP) is one of conventional osmotic pump systems, which has been widely investigated for formulation development of BCS Ⅱ APIs. However, there is still a lack of experimental data based discussions for some key formulation factors of PPOP. Thus, to investigate some key formulation factors by designed experiments and tried to give some recommendations for those considerations in industrial formulation development. METHODS: Nifedipine was selected as the model drug in this study. The hydration & swell rate and strength of three grades of commercialized high molecular weight polyethylene oxide (PEO) were evaluated via swelling volume change using a home-made apparatus and via compression force using texture analyzer, respectively. The effect of different film coating thickness, proportion of osmotic agent in push layer, and ratios of push layer to pull layer were investigated by drug dissolution using USP apparatus Ⅱ as well. RESULTS: The swelling rate and strength of three grades of high molecular weight PEO (POLYOXTM 301, POLYOXTM Coagulant, and POLYOXTM 303) enhanced along with the molecular weight. The difference of swelling rate is not significant (P>0.05), but that of swelling gel strength is significant (P<0.05). Adding osmotic agent, e.g. NaCl, could significantly improve the swelling rate. Thicker coating membrane retarded drug release and as the coating thickness was higher than 180 μm, it caused incomplete drug release (<90%). When the NaCl proportion in push layer was between 10% and 30 %, there was no significant differences among drug dissolution profiles. However, when the percent of NaCl content in push layer was above 50%, the drug release from PPOP became slower and more incomplete (<90%). CONCLUSION: The ratio of DL/PL has significant impact on drug release. The lower the ratio of DL/PL resulted in faster and more complete drug release. For nifedipine case, the ratio of 2 was recommended.
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The poor solubility of cyclosporine A (CsA) in water limits its oral absorption. We prepared CsA/ Soluplus/SDS complex, which can form CsA/Soluplus/SDS supersaturated micelles (CSS-SM) after hydration. Then, We further prepared CSS-SM osmotic pump tablets (CSS-SM-T). CSS-SM had a particle size of 156 nm, where in encapsulation efficiency and drug loading efficiency of CsA were 89.0% and 17.5%, respectively. CSS-SM-T achieved zero-level drug release in vitro. Pharmacokinetic data from Beagle dogs (all animal experiments were conducted under the guidelines approved by the Institutional Animal Care and Use Committee of the Shanghai Institute of Materia Medica, Chinese Academy of Sciences) indicated that CsA in the ordinary osmotic pump tablets was hardly absorbed after orally administered; despite slightly lower bioavailability [relative bioavailability: (85.1 ± 47.4) %] than that of Sandimmum Neoral, CSS-SM-T displayed lower fluctuations in CsA plasma concentration and obvious sustained-release characteristics in vivo, implying lower toxicity. Therefore, CSS-SM-T provides a new research idea for the design and development of oral sustained- and controlled-release preparations of poorly water-soluble drugs.
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Objective: To prepare diphenidol hydrochloride push-pull osmotic pump tablets and in-vestigate the influence of differ-ent factors on in-vitro drug release. Methods: The cumulative release of different formulas was detected. Using the cumulative release and similarity factor f2as the evaluation criterion, single factor experiment was applied to screen the core formula and coating process. Results: The drug release behavior was affected by the content of PEO in the drug containing layer, the content of NaCl and the weight gain of the coating layer. After the formula was optimized, the NaCl content in the drug containing layer was 10mg, the PEO-N10 con-tent was 15mg. In the push layer, the content of PEO-WSR303 was 60 mg, that of NaCl was 20 mg. The optimized coating liquid for-mula contained 1. 25 g·L-1PEG4000 and the coating weight gain was 7% of the core. The optimized formula fitted a zero-order equa-tion within 2-12h with the drug release equation of Q=6. 308t-2. 5037(r=0. 995 8). Conclusion: The preparation technology of di-phenidol hydrochloride push-pull osmotic pump tablets is stable, and the in-vitro drug release fits zero-order model.
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OBJECTIVE:To optimize the formula of Captopril timing osmotic pump tablets. METHODS:Using accumulative release rate (Q) as index, single factor test was used to investigate the effects of blocking layer coating weight gain, semipermeable membrane coating weight gain,the type of polyepoxide (PEO),the amount of PEO (3 × 105) and HPMC in drug bearing layer,the amount of PEO (7 × 106) and NaCl in booster layer on drug release of Captopril timing osmotic pump tablets. Based on single factor investigation,using comprehensive score of release behavior(L)as index,the amount of PEO(3×105)and HPMC in drug bearing layer,the amount of PEO(7×106)and NaCl in booster layer as factors,L9(43)orthogonal test was used to optimize the formula of tablet core validation test was conducted. RESULTS:The optimal formula of tablet core included PEO(3× 105)71 mg and HPMC 15 mg in drug bearing layer,PEO(7×106)61 mg and NaCl 18 mg in booster layer,coating weight gain 7% and semipermeable membrane coating weight gain 10% in blocking layer. The osmotic pump tablet prepared by optimized formula released after 4 h;in vitro drug release regression equation was Q=5.118t-21.441(R2=0.9956),which was in line with zero-order release characteristics. CONCLUSIONS:The optimal formula is stable,feasible and controllable in quality,and can provide reference for further development of Captopril timing osmotic pump tablets.
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Objective: To study the preparation method and process optimization of methylphenidate hydrochloride biphasic controlled-release osmotic pump tablets.Methods: Based on the preparation technology of double-layer osmotic pump slow-release tablets and combined with the principle of biphasic drug release behavior, the two-release preparation with two different release phases was prepared.Through the single-factor investigation of the drug-containing layer and the booster layer, the amount of the auxiliary materials was determined.The optimum compression method and the optimum coating parameters were obtained by studying the process parameters of tabletting and coating.Results: The prepared methylphenidate biphasic controlled-release osmotic pump tablets had two different release phases.The methylphenidate hydrochloride controlled-release osmotic pump tablets produced by the optimal formulat were good in appearance and reproducibility of drug content.In vitro release curves showed that the drug was released rapidly in the intial 0-2 hour time interval and was in line with zero-order release in 2-10 hour with good reproducibility.Conclusion: The preparation method is scientific, simple and complete, and can be used for preparation of methylphenidate hydrochloride biphasic controlled-release osmotic pump tablets.
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OBJECTIVE:To prepare Diphenidol hydrochloride double-layer osmotic pump tablets,and study its in vitro release characteristics. METHODS:Double-layer compressing technique and film coating technology were conducted to prepare Diphenidol hydrochloride double-layer osmotic pump tablets. The in vitro releases of it,Difenidol hydrochloride tablets in market,self-made Difenidol hydrochloride single-layer osmotic pump tablets were compared. RESULTS:The formulation was as follow as diphenidol hydrochloride 75 mg,sodium chloride 10 mg,low-molecular-weight polyoxyethylene 15 mg and right amounts of 5% PVP K30 ethanol solution. Booster layer was high-molecular-weight polyoxyethylene 60 mg,sodium chloride 20 mg,PVP K306 mg,right amounts of magnesium stearate. 12 h cumulative release(Q)of prepared double-layer osmotic pump tablets reached 80%,and the release was in line with zero-order kinetic equation. Q15 min of Difenidol hydrochloride tablets had reached 90%;Q12 h of Difenidol hy-drochloride single-layer osmotic pump tablets was only 51.14%. CONCLUSIONS:The prepared Difenidol hydrochloride dou-ble-layer osmotic pump tablets have sustained release effect,with more complete drug release within 12 h than single-layer one.
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OBJECTIVE:To prepare Baicalin monolithic osmotic pump tablets and investigate its in vitro drug release behavior. METHODS:Using accumulative release rate as evaluation index,baicalin solid dispersion was prepared to improve solubility,sin-gle factor test and orthogonal test were used to optimize preparation technology(the amount of penetrating agent and pore-forming agent,weight gaining of coating film) of monolithic osmotic pump tablets using baicalin solid dispersion as intermediate. Release rate and mechanism of samples prepared by optimized technology were investigated in 3 kinds of release medium (water,0.1 mol/L HCl,simulated gastric fluid). RESULTS:The optimal preparation technology was that penetrating agent sodium chloride was 30 mg;pore-forming agent polyethylene glycol 400 was 20% amount of excipient cellulose acetate;weight gaining of coating film was 2%. RSD of 12 h accumulative release rate was 1.06%(n=3)for 3 batches of Baicalin monolithic osmotic pump tablets pre-pared by optimized technology. 12 h accumulative release rate of them in 3 kinds of medium were similar to each other,being all more than 80%. Release equation was in line with zero-order drug release model (r=0.9985). CONCLUSIONS:Prepared Ba-icalin monolithic osmotic pump tablets after optimization can release drug at controlled rate.
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OBJECTIVE: To improve the dissolution rate of fenofibrate (FNB) by using starch source mesoporous carbon (SMC) as a carrier and achieve controlled release of the drug by utilizing double-layer osmotic pump technology to improve the oral bioavailability. METHODS: FNB was loaded into the mesoporous of NMS by adsorption method to prepare the drug loading system (FNB-SMC). Differential scanning calorimetry (DSC) and powder X-ray diffraction (PXDR) were used to characterize the present state of the drug before and after being loaded. The dissolution rate of FNB-SMC was investigated by in vitro dissolution test, and the formulation of the double-layer osmotic pump tablets of FNB-SMC was optimized. The oral bioavailability of the self-made tablet was investigated by in vivo experiment in rabbits. RESULTS: FNB existed in the mesoporous of SMC in an amorphous state. The in vitro dissolution test showed that NMS could significantly increase the dissolution rate of FNB, and the double-layer osmotic pump technology could achieve Zero-order release of the drug. The in vivo experiments showed that the oral bioavailability of the self-made tablets was significantly improved. CONCLUSION: The combination of starch source mesoporous carbon carrier and double-layer osmotic pump technology prevente the burst effect and significantly improve the oral absorption of FNB.
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Objective To prepare micronized nimodipine push-pull osmotic pump (PPOP) controlled release tablets . Methods The nimodipine as a model drug ,micronization technique was applied to the PPOP method .Designed and prepared the controlled release of the nimodipine tablet for 12 hours in vitro .The factor f2 was used to evaluate the similarities of differ-ent dissolution profiles ,and the optimal formulation was performed .Results The micronized nimodipine PPOP controlled re-lease tablets were successfully prepared with excellent zero-order release characteristics .The PPOP tablet′s release behavior was close to the zero-order release equation (r= 0 .998 4) .Conclusions The controlled-release formulation was prepared suc-cessfully .Micronized technique combined with the PPOP method significantly increased the release of the nimodipine tablet , the poorly soluble drug ,in vitro .
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As a representative of controlled release preparations, osmotic pump has become a hot spot in the new preparation researches of Chinese materia medica (CMM). This paper reviewed CMM osmotic pump preparation from the following aspects: structure type of osmotic pump preparation, adjuncts of osmotic pump preparation of CMM, in vivo evaluation, and problems existing currently, which aimed to provide ideas and methods for the development of CMM osmotic pump preparation.