19 results on '"Extended release"'
Search Results
2. Sustained release formulation of Ondansetron HCl using osmotic drug delivery approach
- Author
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Ramakant Kashinath Gundu, Santosh Shelke, Deepak Kulkarni, Santosh Shep, and Sanjay S. Pekamwar
- Subjects
Male ,medicine.drug_class ,Nausea ,Chemistry, Pharmaceutical ,medicine.medical_treatment ,Administration, Oral ,Pharmaceutical Science ,02 engineering and technology ,Pharmacology ,030226 pharmacology & pharmacy ,Excipients ,03 medical and health sciences ,Dogs ,Drug Delivery Systems ,0302 clinical medicine ,Drug Stability ,Osmotic Pressure ,Drug Discovery ,medicine ,Animals ,Technology, Pharmaceutical ,Chemotherapy ,business.industry ,Organic Chemistry ,021001 nanoscience & nanotechnology ,Receptor antagonist ,Ondansetron ,Ondansetron hcl ,Radiation therapy ,Drug Liberation ,Delayed-Action Preparations ,Drug delivery ,Vomiting ,Antiemetics ,Female ,medicine.symptom ,Extended release ,0210 nano-technology ,business ,Tablets - Abstract
Ondansetron HCl (OSH) is a 5-HT3 receptor antagonist indicated for the prevention of nausea and vomiting associated with radiotherapy (adults: 8 mg, t.i.d) and/or chemotherapy (adults: 8 mg, b.i.d to t.i.d) and prevention of postoperative nausea and/or vomiting (adults: 8 mg, b.i.d). In elderly subjects, bioavailability may be somewhat higher (65%) and lower clearance, presumably due to reduced hepatic first-pass metabolism. OSH is extensively distributed in the body; about 70-75% of the drug in plasma is protein-bound and terminal elimination half-life is about 3 h after oral administration. The study was aimed to develop Push-pull Osmotic Pump (PPOP) bi-layered tablets for Ondansetron HCl ER tablets. The granulation was carried out using non-aqeous solvents followed by compression, seal coating, semi permeable coating, laser drilling (0.6 mm), and drug film coating with loading dose. The drug release was controlled by swelleable osmotic polymers of pull layer and push layer and orifice on the surface of tablet. The formulations were optimized for its core composition, extended release coating (Semipermeable membrane) polymer as to plasticizer ratio and orifice diameter. Optimized formulations were evaluated for micromeritic properties and
- Published
- 2020
- Full Text
- View/download PDF
3. Combined site-specific release retardant mini-matrix tablets (C-SSRRMT) for extended oral delivery of dexketoprofen trometamol: in vitro evaluation and single versus multiple doses pharmacokinetic study in human volunteers
- Author
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Nabila M Sweed, Emad B. Basalious, and Samia A. Nour
- Subjects
Pharmacology ,Drug ,Chromatography ,Chemistry ,media_common.quotation_subject ,Organic Chemistry ,Pharmaceutical Science ,02 engineering and technology ,021001 nanoscience & nanotechnology ,Dexketoprofen ,030226 pharmacology & pharmacy ,In vitro ,Matrix (chemical analysis) ,03 medical and health sciences ,0302 clinical medicine ,Pharmacokinetics ,Drug Discovery ,medicine ,Solubility ,Extended release ,0210 nano-technology ,media_common ,Fire retardant ,medicine.drug - Abstract
Development of extended release oral formulations of dexketoprofen trometamol (DT), a rapidly eliminated drug with high solubility, poses a great challenge especially when a portion of the ...
- Published
- 2019
- Full Text
- View/download PDF
4. Development, validation and application of physiologically based biopharmaceutics model to justify the change in dissolution specifications for DRL ABC extended release tablets
- Author
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Siddharth Chachad, Mohit Bhargava, Sivacharan Kollipara, Tausif Ahmed, and Swati Jaiswal
- Subjects
Physiologically based pharmacokinetic modelling ,Computer science ,Pharmaceutical Science ,Administration, Oral ,02 engineering and technology ,030226 pharmacology & pharmacy ,Models, Biological ,Biopharmaceutics ,03 medical and health sciences ,0302 clinical medicine ,Generic drug ,Drug Discovery ,Humans ,Process engineering ,Dissolution ,Multi point ,Pharmacology ,business.industry ,Organic Chemistry ,021001 nanoscience & nanotechnology ,Solubility ,Therapeutic Equivalency ,Product (mathematics) ,Extended release ,0210 nano-technology ,business ,Extended release tablets ,Tablets - Abstract
The generic drug product DRL ABC is an Extended Release (ER) Tablet manufactured by Dr. Reddy’s Laboratories Limited and have multi point dissolution as part of release specification. A proposal is being made to revise the dissolution specification and the aim of present work was to evaluate if this would still provide bioequivalent product. PBBM was developed for DRL ABC using literature reported pharmacokinetic (PK) data. The intravenous PK data and in vitro metabolic rate constants were utilized for developing PBPK model first, followed by that in conjugation with mechanistic ACATTM model, a PBBM is developed for per-oral immediate release formulations. The validated model was applied to predict clinical bioequivalence (BE) study data for the Reference (Innovator ER Tablet) and Test product. For Reference and Test product, in vivo dissolution profiles were mechanistically deconvoluted from plasma concentration (Cp)-time profiles. Further, mechanistic in vitro-in vivo relationship (IVIVR) applied to in vitro release profiles of two hypothetical Test product batches (one with single point low dissolution profile (SPLP) and other with overall low dissolution profile (LP)) in order to calculate their in vivo releases and population simulation was performed with 40 virtual subjects. Results from the cross-over virtual trials showed BE between the Reference and various Test product batches (SPLP and LP), with maximum Cp (Cmax) and area under the Cp-time curve (AUC0-inf) well within 80-125% range. PBBM in conjugation with IVIVR and virtual BE was successfully applied for justifying changes in dissolution specification of DRL ABC.
- Published
- 2021
5. A novel co-processing method to manufacture an API for extended release formulation via formation of agglomerates of active ingredient and hydroxypropyl methylcellulose during crystallization
- Author
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Shih-Ying Chang, Steve S. Y. Wang, San Kiang, Deniz Erdemir, Tamar Rosenbaum, Don Kientzler, Steven H. Chan, Sarah Hanley, and Jonathan Brown
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Materials science ,Chemistry, Pharmaceutical ,Drug Compounding ,Pharmaceutical Science ,02 engineering and technology ,030226 pharmacology & pharmacy ,law.invention ,03 medical and health sciences ,Hypromellose Derivatives ,0302 clinical medicine ,law ,Drug Discovery ,medicine ,Crystallization ,Pharmacology ,chemistry.chemical_classification ,Active ingredient ,Organic Chemistry ,Co-processing ,Polymer ,021001 nanoscience & nanotechnology ,Drug Liberation ,chemistry ,Chemical engineering ,Agglomerate ,Delayed-Action Preparations ,Scientific method ,Swelling ,medicine.symptom ,Extended release ,0210 nano-technology - Abstract
A novel process for generating agglomerates of active pharmaceutical ingredient (API) and polymer by swelling the polymer in a water/organic mixture has been developed to address formulation issues resulting from a water sensitive, high drug load API with poor powder properties. Initially, the API is dissolved in water, following which hydroxypropyl methylcellulose (HPMC) is added, resulting in the imbibing of water, along with the dissolved API, into the HPMC matrix. The addition of acetone and isopropyl acetate (anti-solvents) then causes the API to crystallize inside and on the surface of HPMC agglomerates. The process was scaled up to 20 kg scale. The agglomerates of API and HPMC generated by this process are ∼350 µm diameter, robust, and have significantly better flow than the API as measured by Erweka flow testing. These agglomerates exhibit improved bulk density, acceptable chemical stability, and high compressibility. The agglomerates process well through roller compaction and tableting, with no flow or sticking issues. This process is potentially adaptable to other APIs with similar attributes.
- Published
- 2018
- Full Text
- View/download PDF
6. The absolute bioavailability and the effect of food on a new magnesium lactate dihydrate extended-release caplet in healthy subjects
- Author
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ChauHwei Fu, Thomas Legg, Steve Brandon, Peter Dogterom, and Yi-Jin Chiou
- Subjects
Adult ,Male ,Adolescent ,Therapeutic equivalency ,Chemistry, Pharmaceutical ,Biological Availability ,Pharmaceutical Science ,chemistry.chemical_element ,030204 cardiovascular system & hematology ,Hypomagnesemia ,Food-Drug Interactions ,Young Adult ,03 medical and health sciences ,0302 clinical medicine ,Pharmacokinetics ,Drug Discovery ,medicine ,Humans ,Magnesium ,030212 general & internal medicine ,Food science ,Absolute bioavailability ,Pharmacology ,Cross-Over Studies ,digestive, oral, and skin physiology ,Organic Chemistry ,Healthy subjects ,Fasting ,Middle Aged ,medicine.disease ,Crossover study ,Healthy Volunteers ,Solubility ,Therapeutic Equivalency ,chemistry ,Food ,Area Under Curve ,Delayed-Action Preparations ,Lactates ,Female ,Extended release - Abstract
To assess the absolute bioavailability of 20 mEq magnesium lactate extended-release (ER) caplets and to assess the effect of food on the pharmacokinetics of these ER caplets.Magnesium in different salt forms is available as over-the-counter oral formulations. The absorption and bioavailability is highly affected by the water solubility of the salt form. A new ER caplet of 10 mEq strength of magnesium L-lactate dihydrate has been developed to increase the bioavailability of magnesium.An open label, single-dose, randomized, three-period, cross-over study in healthy adults was conducted with three treatments: (a) single oral dose of 20 mEq magnesium L-lactate dehydrate under fasting conditions, (b) single intravenous (IV) infusion of 20 mEq magnesium sulfate, and (c) single oral dose of 20 mEq magnesium L-lactate dehydrate under fed conditions. Urine and blood samples were collected for analysis of urinary and serum magnesium concentrations.Absolute bioavailabilities of the caplets under fasted and fed conditions, compared to IV magnesium sulfate, were 20.26% (fasted) and 12.49% (fed) in serum, based on the geometric mean ratio (GMR) of the baseline-adjusted AUCThis new magnesium formulation has reasonable bioavailability and might be a valuable addition to the currently available magnesium oral products.
- Published
- 2018
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7. Ramizol® encapsulation into extended release PLGA micro- and nanoparticle systems for subcutaneous and intramuscular administration: in vitro and in vivo evaluation
- Author
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Shasha Rao, Nicky Thomas, Ramiz A. Boulos, Leah Wright, Clive A. Prestidge, Wright, Leah, Rao, Shasha, Thomas, Nicky, Boulos, Ramiz A, and Prestidge, Clive A
- Subjects
medicine.drug_class ,Antibiotics ,Pharmaceutical Science ,Nanoparticle ,02 engineering and technology ,Pharmacology ,010402 general chemistry ,01 natural sciences ,Ramizol® ,microparticles ,chemistry.chemical_compound ,Pharmacokinetics ,In vivo ,Drug Discovery ,Medicine ,business.industry ,Organic Chemistry ,PLGA ,Clostridium difficile ,021001 nanoscience & nanotechnology ,In vitro ,0104 chemical sciences ,in vivo ,chemistry ,nanoparticles ,Extended release ,0210 nano-technology ,business ,pharmacokinetics - Abstract
© 2018 Informa UK Limited, trading as Taylor & Francis Group Objective: Novel antibiotic Ramizol ® is advancing to clinical trials for the treatment of gastrointestinal Clostridium difficile associated disease. Despite this, previous studies have shown a rapid plasma clearance upon intravenous administration and low oral bioavailability indicating pure drug is unsuitable for systemic infection treatment following oral dosing. The current study aims to investigate the development of poly-lactic-(co-glycolic) acid (PLGA) particles to overcome this limitation and increase the systemic half-life following subcutaneous and intramuscular dosing. Significance: The development of new antibiotic treatments will help in combatting the rising incidence of antimicrobial resistance. Methods: Ramizol ® was encapsulated into PLGA nano and microparticles using nanoprecipitation and emulsification solvent evaporation techniques. Formulations were analyzed for particle size, loading level and encapsulation efficiency as well as in vitro drug release profiles. Final formulation was advanced to in vivo pharmacokinetic studies in Sprague-Dawley rats. Results: Formulation technique showed major influence on particle size and loading levels with optimal loading of 9.4% and encapsulation efficiency of 92.06%, observed using emulsification solvent evaporation. Differences in formulation technique were also linked with subsequent differences in release profiles. Pharmacokinetic studies in Sprague-Dawley rats confirmed extended absorption and enhanced bioavailability following subcutaneous and intramuscular dosing with up to an 8-fold increase in Tₘₐₓ and T₁/₂ when compared to the oral and IV routes. Conclusions: Subcutaneous and intramuscular dosing of PLGA particles successfully increased systemic half-life and bioavailability of Ramizol ® . This formulation will allow further development of Ramizol ® for systemic infection eradication. Refereed/Peer-reviewed
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- 2018
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8. The preparation and evaluation of salt forms of linogliride with reduced solubilities as candidates for extended release
- Author
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F. A. Chrzanowski and Kaleem Ahmad
- Subjects
Pyrrolidines ,Inorganic chemistry ,Drug Evaluation, Preclinical ,Pharmaceutical Science ,Salt (chemistry) ,02 engineering and technology ,030226 pharmacology & pharmacy ,Dosage form ,Delayed-Action Preparations ,03 medical and health sciences ,0302 clinical medicine ,Linogliride ,Drug Discovery ,Solubility ,Dissolution ,Pharmacology ,chemistry.chemical_classification ,Organic Chemistry ,Free base ,Hydrogen-Ion Concentration ,021001 nanoscience & nanotechnology ,Drug Liberation ,chemistry ,Salts ,Extended release ,0210 nano-technology - Abstract
Salts of linogliride with reduced solubilities were prepared and evaluated as potential candidates for extended-release oral dosage forms. A once-daily dose of 300-800 mg was intended. Seven acids were selected: p-acetamidobenzoic, benzoic, p-hydroxybenzoic, 3-hydroxy-2-naphthoic, 1-napsylic, pamoic, and p-toluenesulfonic acids but only four salts were able to be prepared in suitable quantities for evaluation: linogliride pamoate, p-hydroxybenzoate, 3-hydroxy-2-naphthoate, and 1-napsylate. The pH-solubility profiles of the four new salts, free base, and fumarate salt were compared over the pH 1.43-8.3 range and the intrinsic dissolution rates of the four new salts and the free base were determined at pH 1.43, 4.4, and 7.5. The range of the pH-solubility profile and intrinsic dissolution rates of the p-hydroxybenzoate salt were less than the free base and fumarate and higher than the other three new salts. The pH-solubilities and intrinsic dissolution rates of the 1-napsylate salt were pH-independent. The solubilities and intrinsic dissolution rates of the pamoate and 3-hydroxy-2-naphthoate were higher at pH 1.4-3.4 than at higher pH. At pH 4.4 and higher, the solubilities were essentially the same, in the 1-2 mg/mL range. The intrinsic dissolution rates were also very low and not very different. Dissolution studies with capsules containing 800 mg doses of the pamoate, 1-napsylate, free base, and fumarate performed in a dissolution medium of pH beginning at 2.2 and ending at 6.8 demonstrated that the pamoate and 1-napsylate salt forms dissolved slower and could be useful as extended-release forms.
- Published
- 2016
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9. Comparative pharmacokinetic evaluation of extended release itopride HCl pellets with once daily tablet formulation in healthy human subjects: a two treatment, four period crossover study in fasted and fed condition
- Author
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Rabia Ismail Yousuf, Sohail Anwer, Muhammad Iqbal Nasiri, Fahad Siddiqui, Muhammad Shoaib, Kamran Zaheer, Faaiza Qazi, and Kamran Ahmed
- Subjects
Adult ,Male ,Chemistry, Pharmaceutical ,Pellets ,Pharmaceutical Science ,Biological Availability ,02 engineering and technology ,Pharmacology ,Bioequivalence ,030226 pharmacology & pharmacy ,03 medical and health sciences ,Young Adult ,0302 clinical medicine ,Pharmacokinetics ,Drug Discovery ,Benzyl Compounds ,medicine ,Humans ,Cross-Over Studies ,Chemistry ,Organic Chemistry ,Fasting ,Itopride ,021001 nanoscience & nanotechnology ,Crossover study ,Healthy Volunteers ,Bioavailability ,Therapeutic Equivalency ,Area Under Curve ,Benzamides ,Extended release ,Once daily ,0210 nano-technology ,medicine.drug ,Tablets - Abstract
In this study, pharmacokinetics (PKs) and bioavailability of newly developed extended release (ER) Itopride HCl 150 mg encapsulated ER pellets (test) and 150 mg Ganaton ER once-daily (OD) tablets (reference) were compared and evaluated under fasted and fed conditions.Twelve healthy human subjects were enrolled in a single dose, randomized; two treatments, two sequences, four period crossover study. A modified and validated liquid chromatographic method was used for the estimation of Itopride HCl in plasma samples. The data were analyzed through non-compartmental model using PK software Phoenix Winnonlin version 7. The outcome was measured on logarithmically transformed data, where p 0.05 was considered as non-significant with 90% CI limit of 0.8-1.25.The CThe test and reference formulations had similar pharmacokinetic parameters in each condition studied. However, an increase in the amount of drug was observed in the fed state.
- Published
- 2018
10. Evaluation of the tamper-resistant properties of biphasic immediate-release/extended-release oxycodone/acetaminophen tablets
- Author
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Tiffani D Eisenhauer, Michael J. Giuliani, Ralph A. Heasley, Jim L Young, Terri Morton, Thomas Barrett, M.W. Matchett, and Krishna Devarakonda
- Subjects
Drug Compounding ,Analgesic ,Pharmaceutical Science ,Pharmacology ,Oxycodone/Acetaminophen ,03 medical and health sciences ,chemistry.chemical_compound ,0302 clinical medicine ,030202 anesthesiology ,Drug Discovery ,medicine ,Humans ,Pain Management ,Immediate release ,Particle Size ,Administration, Intranasal ,Acetaminophen ,Chromatography ,Ethanol ,business.industry ,digestive, oral, and skin physiology ,Organic Chemistry ,Opioid-Related Disorders ,Acute Pain ,Analgesics, Opioid ,Drug Combinations ,Solubility ,chemistry ,Opioid ,Delayed-Action Preparations ,Solvents ,Stress, Mechanical ,Chronic Pain ,Extended release ,business ,Oxycodone ,030217 neurology & neurosurgery ,Tablets ,medicine.drug - Abstract
Abuse potential of extended-release (ER) opioid tablets increases if tampering causes rapid opioid release.To evaluate the susceptibility to tampering of biphasic immediate-release (IR)/ER oxycodone (OC)/acetaminophen (APAP) tablets compared with IR OC/APAP tablets.IR/ER OC/APAP and IR OC/APAP tablets were tested at room temperature and after heating, freezing and microwaving. Resistance to crushing was tested using manual and powered tools (e.g. spoons, mortar and pestle, blender, coffee grinder). Tampered tablets were tested for suitability for snorting, OC extraction in solvents and ease of drawing into a syringe. Dissolution of IR/ER OC/APAP in gastric fluid with and without ethanol was tested to determine the potential for facilitating precipitous release of opioid from the tablet.IR/ER OC/APAP tablets were more crush resistant than IR OC/APAP tablets. Heating, freezing and microwaving had no effect on crush resistance of IR/ER OC/APAP tablets. Although a mortar and pestle pulverized IR/ER OC/APAP tablets, upon contact with solvent, the powder formed a thick gel judged unsuitable for absorption through the nasal mucosa and could not be drawn into a syringe. In contrast, powder from crushed IR OC/APAP tablets dissolved readily, was judged suitable for snorting, and was easily drawn into a syringe. Dissolution of IR/ER OC/APAP tablets in gastric fluid was slowed by the addition of ethanol.IR/ER OC/APAP tablets are resistant to crushing and dissolution compared with IR OC/APAP tablets.IR/ER OC/APAP tablets may have less potential for abuse involving tampering compared with IR OC/APAP tablets.
- Published
- 2015
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11. Engineered PLGA microspheres for extended release of brexpiprazole: in vitro and in vivo studies.
- Author
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Wu B, Wu L, He Y, Yin Z, and Deng L
- Subjects
- Animals, Microspheres, Particle Size, Polylactic Acid-Polyglycolic Acid Copolymer, Quinolones, Rats, Thiophenes, Lactic Acid, Polyglycolic Acid
- Abstract
Objective: To develop poly(d,l-lactide- co -glycolide) (PLGA) microspheres to achieve controlled and sustained release of brexpiprazole in vivo ., Methods: Brexpiprazole microspheres were prepared by oil-in-water emulsion-solvent evaporation method and evaluated for morphology, particle size, encapsulation efficiency, drug loading, conformation and compatibility of drug and polymer, in vitro release, and in vivo pharmacokinetics. By establishing the relationship between in vitro and in vivo release, it helps identify the appropriate in vitro release conditions to explore release profiles of brexpiprazole microspheres., Results: Porous PLGA microspheres with near spherical morphology were obtained displaying an average diameter of 20.43 ± 0.06 μm, a drug loading capacity of 27.24 ± 0.33% and an encapsulation efficiency of 81.87 ± 1.07%. Fourier transform infrared spectroscopy (FTIR), powder X-ray diffraction (PXRD), and differential scanning calorimetry (DSC) analysis showed that some drugs encapsulated in the microspheres remained in the amorphous state and some were in the crystalline state. Different release setups resulted in different release kinetics. The dialysis release setup displayed a cumulative release of about 65% within 60 days, while the sample-and-separate setup showed a cumulative release of about 77% within 35 days. Per pharmacokinetic studies in rats, a burst phase in the plasma concentration-time curve was observed after intramuscular injection in the first 2 h followed by a clear zero-order release phase. Overall, brexpiprazole achieved in vivo sustained release from PLGA microspheres for up to 40 days., Conclusion: A PLGA microsphere loaded with brexpiprazole was successfully developed and demonstrated potential for extended-release of therapeutics for schizophrenia treatment.
- Published
- 2021
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12. Development, validation and application of physiologically based biopharmaceutics model to justify the change in dissolution specifications for DRL ABC extended release tablets.
- Author
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Jaiswal S, Ahmed T, Kollipara S, Bhargava M, and Chachad S
- Subjects
- Administration, Oral, Humans, Solubility, Tablets, Therapeutic Equivalency, Biopharmaceutics, Models, Biological
- Abstract
Objective: The generic drug product DRL ABC is an Extended Release (ER) Tablet manufactured by Dr. Reddy's Laboratories Limited and have multi point dissolution as part of release specification. A proposal is being made to revise the dissolution specification and the aim of present work was to evaluate if this would still provide bioequivalent product., Methods: PBBM was developed for DRL ABC using literature reported pharmacokinetic (PK) data. The intravenous PK data and in vitro metabolic rate constants were utilized for developing PBPK model first, followed by that in conjugation with mechanistic ACAT
TM model, a PBBM is developed for per-oral immediate release formulations. The validated model was applied to predict clinical bioequivalence (BE) study data for the Reference (Innovator ER Tablet) and Test product. For Reference and Test product, in vivo dissolution profiles were mechanistically deconvoluted from plasma concentration (Cp)-time profiles. Further, mechanistic in vitro-in vivo relationship (IVIVR) applied to in vitro release profiles of two hypothetical Test product batches (one with single point low dissolution profile (SPLP) and other with overall low dissolution profile (LP)) in order to calculate their in vivo releases and population simulation was performed with 40 virtual subjects., Results: Results from the cross-over virtual trials showed BE between the Reference and various Test product batches (SPLP and LP), with maximum Cp (Cmax ) and area under the Cp-time curve (AUC0-inf ) well within 80-125% range., Conclusion: PBBM in conjugation with IVIVR and virtual BE was successfully applied for justifying changes in dissolution specification of DRL ABC.- Published
- 2021
- Full Text
- View/download PDF
13. A smart approach to enable preclinical studies in pharmaceutical industry: PLGA-based extended release formulation platform for subcutaneous applications.
- Author
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Strack P, Külzer R, Sommer F, Bretschneider T, Merkel OM, and Grube A
- Subjects
- Administration, Oral, Animals, Biological Availability, Chemistry, Pharmaceutical, Delayed-Action Preparations pharmacokinetics, Drug Liberation, Female, Injections, Subcutaneous, Mice, Models, Animal, Particle Size, Spray Drying, Delayed-Action Preparations administration & dosage, Drug Carriers chemistry, Drug Compounding methods, Drug Evaluation, Preclinical methods, Polylactic Acid-Polyglycolic Acid Copolymer chemistry
- Abstract
Objective: Validation of a prospective new therapeutic concept in a proof of concept study is costly and time-consuming. In particular, pharmacologically active tool compounds often lack suitable pharmacokinetic (PK) properties for subsequent studies. The current work describes a PLGA-based formulation platform, encapsulating different preclinical research compounds into extended release microparticles, to optimize their PK properties after subcutaneous administration. Significance: Developing a PLGA-based formulation platform offers the advantage of enabling early proof of concept studies in pharmaceutical research for a variety of preclinical compounds by providing a tailor-made PK profile. Methods: Different model compounds were encapsulated into PLGA microparticles, utilizing emulsification solvent evaporation or spray drying techniques. Formulations aiming different release rates were manufactured and characterized. Optimized formulations were assessed in in vivo studies to determine their PK properties, with the mean residence time (MRT) as one key PK parameter. Results: Utilizing both manufacturing methods, tested tool compounds were encapsulated successfully, with a drug load between 5% and 40% w/w, and an extended release time up to 250 h. In the following PK studies, the MRT was extended by a factor of 90, resulting in prolonged coverage of the required target through level. This approach was confirmed to be equally successful for additional internal compounds, verifying a general applicability of the platform. Conclusion: For different active pharmaceutical ingredients (API), an optimized, tailor-made PK profile was obtained utilizing the described formulation platform. This approach is applicable for a variety of pharmacologically active tool compounds, reducing timelines and costs in preclinical research.
- Published
- 2020
- Full Text
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14. Sustained release formulation of Ondansetron HCl using osmotic drug delivery approach.
- Author
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Gundu R, Pekamwar S, Shelke S, Shep S, and Kulkarni D
- Subjects
- Administration, Oral, Animals, Antiemetics chemistry, Antiemetics pharmacokinetics, Chemistry, Pharmaceutical, Delayed-Action Preparations, Dogs, Drug Liberation, Drug Stability, Female, Male, Ondansetron chemistry, Ondansetron pharmacokinetics, Osmotic Pressure, Tablets, Technology, Pharmaceutical, Antiemetics administration & dosage, Drug Delivery Systems, Excipients chemistry, Ondansetron administration & dosage
- Abstract
Ondansetron HCl (OSH) is a 5-HT3 receptor antagonist indicated for the prevention of nausea and vomiting associated with radiotherapy (adults: 8 mg, t.i.d) and/or chemotherapy (adults: 8 mg, b.i.d to t.i.d) and prevention of postoperative nausea and/or vomiting (adults: 8 mg, b.i.d). In elderly subjects, bioavailability may be somewhat higher (65%) and lower clearance, presumably due to reduced hepatic first-pass metabolism. OSH is extensively distributed in the body; about 70-75% of the drug in plasma is protein-bound and terminal elimination half-life is about 3 h after oral administration. The study was aimed to develop Push-pull Osmotic Pump (PPOP) bi-layered tablets for Ondansetron HCl ER tablets. The granulation was carried out using non-aqeous solvents followed by compression, seal coating, semi permeable coating, laser drilling (0.6 mm), and drug film coating with loading dose. The drug release was controlled by swelleable osmotic polymers of pull layer and push layer and orifice on the surface of tablet. The formulations were optimized for its core composition, extended release coating (Semipermeable membrane) polymer as to plasticizer ratio and orifice diameter. Optimized formulations were evaluated for micromeritic properties and in vitro drug release. The analytical methods were developed and validated to estimate in vitro drug potency, drug release, and in vivo pharmacokinetic parameters. Stability studies were done as per the ICH guidelines. The results of in vivo study concludes that the once OSH ER dose consistently maintains plasma concentration of drug within the therapeutic window over a period of 24 h.
- Published
- 2020
- Full Text
- View/download PDF
15. Combined site-specific release retardant mini-matrix tablets (C-SSRRMT) for extended oral delivery of dexketoprofen trometamol: in vitro evaluation and single versus multiple doses pharmacokinetic study in human volunteers.
- Author
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Sweed NM, Basalious EB, and Nour SA
- Subjects
- Administration, Oral, Adult, Anti-Inflammatory Agents, Non-Steroidal administration & dosage, Area Under Curve, Cross-Over Studies, Delayed-Action Preparations administration & dosage, Drug Administration Schedule, Drug Compounding methods, Drug Liberation, Healthy Volunteers, Humans, Intestinal Absorption, Intestinal Mucosa metabolism, Ketoprofen administration & dosage, Ketoprofen pharmacokinetics, Male, Solubility, Tablets, Therapeutic Equivalency, Tromethamine administration & dosage, Anti-Inflammatory Agents, Non-Steroidal pharmacokinetics, Delayed-Action Preparations pharmacokinetics, Ketoprofen analogs & derivatives, Tromethamine pharmacokinetics
- Abstract
Development of extended release oral formulations of dexketoprofen trometamol (DT), a rapidly eliminated drug with high solubility, poses a great challenge especially when a portion of the dose is to be absorbed from the colon. In this study, site-specific release-retardant mini-matrix tablets (SSRRMTs) were developed and functionally coated with pH-responsive materials to achieve a site-specific delivery of DT at the duodenojejunal (DSRRMT) and ileocecal (ISRRMT) regions. Stomach-specific coated mini-tablets (SSCMTs) were manufactured for immediate release of about 16% of the daily dose of DT in the stomach. The SSCMT, DSRRMT, and ISRRMT were combined into a solid dosage form (C-SSRRMT tablets or capsules) to achieve the required linear release profile for once daily administration of DT. The SSRRMT and C-SSRRMT formulations were evaluated for the physical properties, in vitro -disintegration and in vitro dissolution and proved to be consistent with the pharmacopeial specifications. The in vitro release profiles of both C-SSRRMT tablets and capsules showed a constant release rate of about 6 mg/h and were similar to that of the theoretical target linear release profile. The pharmacokinetic study using human volunteers showed the bioequivalence of a single oral dose of C-SSRRMT capsules compared to three-successive oral doses of the immediate release market tablets with less ups and downs in the drug levels. The C-SSRRMT capsules formulation, may therefore, constitute an advance in the extended oral delivery of DT without the lack of efficacy and the adverse events frequently encountered in multiple daily dosing of the immediate release tablets.
- Published
- 2019
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- View/download PDF
16. Optimization of Sotalol Floating and Bioadhesive Extended Release Tablet Formulations
- Author
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H. R. Chueh, Christopher T. Rhodes, and H. Zia
- Subjects
Pharmacology ,Sodium carboxymethylcellulose ,Materials science ,Response Parameters ,Stereochemistry ,Bioadhesive ,Organic Chemistry ,Sotalol ,Pharmaceutical Science ,Diluent ,Dosage form ,Drug Discovery ,medicine ,Composite material ,Extended release ,Quadratic response ,medicine.drug - Abstract
A novel extended release sotalol HC1 tablet formulation which possesses a unique combination of floatation and bioadhesion for prolonged residence in the stomach has been developed. Tablets were produced by direct compression. A two-factor factorial, central, composite Box-Wilson experimental design was employed to develop and optimize the tablet formulation containing 240 mg sotalol HC1. The ratio of two major bioadhesive agents, sodium carboxymethylcellulose (NaCMC) to hydroxypropylmethylcellulose (HPMC), and the ratio of two direct compressible diluents, ethylcellulose (EC) to crosspovidone, were used as formulation variables (independent variables) for optimizing tablets response parameters, such as dissolution bioadhesive capability, tablet density and required compression force for producing 6 Kg hardness tablets. The data were also analyzed by means of quadratic response surface model. Response surfaces were generated as a function of formulation variables. An optimum direct compression, bi...
- Published
- 1995
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- View/download PDF
17. Production of extended release mini-tablets using directly compressible grades of HPMC
- Author
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Linda Seton, Faiezah A. A. Mohamed, Matthew C. Roberts, Marina Levina, Ali R. Rajabi-Siahboomi, and James L. Ford
- Subjects
Models, Molecular ,Quality Control ,Materials science ,Chemical Phenomena ,Hydrocortisone ,Surface Properties ,Drug Compounding ,Anti-Inflammatory Agents ,Pharmaceutical Science ,Context (language use) ,Methylcellulose ,Mini tablets ,Excipients ,Hypromellose Derivatives ,Theophylline ,Tensile Strength ,Drug Discovery ,Composite material ,Particle Size ,Mechanical Phenomena ,Pharmacology ,Organic Chemistry ,Bronchodilator Agents ,Kinetics ,Solubility ,Delayed-Action Preparations ,Compressibility ,Drug release ,Microscopy, Electron, Scanning ,Particle ,Particle size ,Extended release ,Tablets - Abstract
Hypromellose (HPMC) has been previously used to control drug release from mini-tablets. However, owing to poor flow, production of mini-tablets containing high HPMC levels is challenging. Directly compressible (DC) HPMC grades have been developed by Dow Chemical Company.To compare the properties of HPMC DC (METHOCEL™ K4M and K100M) with regular (REG) HPMC grades.Particle size distribution and flowability of HPMC REG and DC were evaluated. 3 mm mini-tablets, containing hydrocortisone or theophylline as model drugs and 40% w/w HPMC DC or REG were produced. Mini-tablets containing HPMC DC grades were manufactured using a rotary press simulator at forces between 2-4 kN and speeds of 5, 10, 15 or 20 rpm. Mini-tablets containing HPMC REG were produced manually.The improved flowability of HPMC DC grades, which have a narrower particle size distribution and larger particle sizes, meant that simulated large scale production of mini-tablets with good weight uniformity (CV 1.79-4.65%) was feasible. It was not possible to automatically manufacture mini-tablets containing HPMC REG due to the poor flowability of the formulations. Drug release from mini-tablets comprising HPMC DC and REG were comparable. Mini-tablets containing HPMC DC illustrated a higher tensile strength compared to mini-tablets made with HPMC REG. Mini-tablets produced with HPMC DC at different compression speeds had similar drug release profiles.Production of extended release mini-tablets was successfully achieved when HPMC DC was used. Drug release rate was not influenced by the different HPMC DC grades (K4M or K100M) or production speed.
- Published
- 2012
18. Investigation of dissolution behavior of diclofenac sodium extended release formulations under standard and biorelevant test conditions
- Author
-
Grzegorz Garbacz and Werner Weitschies
- Subjects
Pharmacology ,Chromatography ,Diclofenac ,Therapeutic equivalency ,Chemistry ,Chemistry, Pharmaceutical ,Organic Chemistry ,Pharmaceutical Science ,Diclofenac Sodium ,Solubility ,Therapeutic Equivalency ,Delayed-Action Preparations ,Drug Discovery ,medicine ,Dissolution testing ,Stress, Mechanical ,Extended release ,Dissolution ,Extended Release Formulations ,medicine.drug ,Tablets - Abstract
Dissolution characteristics of four extended release (ER) generic formulations of diclofenac sodium were examined.The aim of this study was to compare the drug dissolution behavior of diclofenac ER generics to clarify whether the products are characterized by comparable dissolution characteristics under the applied test conditions.The investigations were performed in the USP apparatus 2 and in the new biorelevant dissolution stress test device.The experiments yielded striking differences between the generic formulations. Applying USP apparatus 2 it was noticed that the dissolution profiles of the products were distinctly affected by the stirring rate. Using the biorelevant dissolution stress test device susceptibility of the products to biorelevant stresses was observed. Change of pH within the experiments reduced the dissolution rates of all formulations and distinctly influenced their dissolution characteristics.The study demonstrates clearly the divergences in the dissolution behavior among the generic ER formulations of diclofenac sodium. The observed susceptibility of the tested dosage forms toward biorelevant stress bears in our interpretation the risk to cause unwanted fluctuations in drug plasma concentration profiles.
- Published
- 2009
19. The preparation and evaluation of salt forms of linogliride with reduced solubilities as candidates for extended release.
- Author
-
Chrzanowski FA and Ahmad K
- Subjects
- Delayed-Action Preparations metabolism, Drug Evaluation, Preclinical methods, Drug Liberation, Hydrogen-Ion Concentration, Pyrrolidines metabolism, Salts metabolism, Solubility, Delayed-Action Preparations chemical synthesis, Pyrrolidines chemical synthesis, Salts chemical synthesis
- Abstract
Salts of linogliride with reduced solubilities were prepared and evaluated as potential candidates for extended-release oral dosage forms. A once-daily dose of 300-800 mg was intended. Seven acids were selected: p-acetamidobenzoic, benzoic, p-hydroxybenzoic, 3-hydroxy-2-naphthoic, 1-napsylic, pamoic, and p-toluenesulfonic acids but only four salts were able to be prepared in suitable quantities for evaluation: linogliride pamoate, p-hydroxybenzoate, 3-hydroxy-2-naphthoate, and 1-napsylate. The pH-solubility profiles of the four new salts, free base, and fumarate salt were compared over the pH 1.43-8.3 range and the intrinsic dissolution rates of the four new salts and the free base were determined at pH 1.43, 4.4, and 7.5. The range of the pH-solubility profile and intrinsic dissolution rates of the p-hydroxybenzoate salt were less than the free base and fumarate and higher than the other three new salts. The pH-solubilities and intrinsic dissolution rates of the 1-napsylate salt were pH-independent. The solubilities and intrinsic dissolution rates of the pamoate and 3-hydroxy-2-naphthoate were higher at pH 1.4-3.4 than at higher pH. At pH 4.4 and higher, the solubilities were essentially the same, in the 1-2 mg/mL range. The intrinsic dissolution rates were also very low and not very different. Dissolution studies with capsules containing 800 mg doses of the pamoate, 1-napsylate, free base, and fumarate performed in a dissolution medium of pH beginning at 2.2 and ending at 6.8 demonstrated that the pamoate and 1-napsylate salt forms dissolved slower and could be useful as extended-release forms.
- Published
- 2017
- Full Text
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