125 results on '"Junginger, H."'
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2. Where do we Stand in the Historiography of Small Disciplines in Nazi Germany? The Case of Indology.
- Author
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Epple M, Framke M, Franco E, Junginger H, and Roy B
- Published
- 2023
- Full Text
- View/download PDF
3. BNT162b vaccines protect rhesus macaques from SARS-CoV-2.
- Author
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Vogel AB, Kanevsky I, Che Y, Swanson KA, Muik A, Vormehr M, Kranz LM, Walzer KC, Hein S, Güler A, Loschko J, Maddur MS, Ota-Setlik A, Tompkins K, Cole J, Lui BG, Ziegenhals T, Plaschke A, Eisel D, Dany SC, Fesser S, Erbar S, Bates F, Schneider D, Jesionek B, Sänger B, Wallisch AK, Feuchter Y, Junginger H, Krumm SA, Heinen AP, Adams-Quack P, Schlereth J, Schille S, Kröner C, de la Caridad Güimil Garcia R, Hiller T, Fischer L, Sellers RS, Choudhary S, Gonzalez O, Vascotto F, Gutman MR, Fontenot JA, Hall-Ursone S, Brasky K, Griffor MC, Han S, Su AAH, Lees JA, Nedoma NL, Mashalidis EH, Sahasrabudhe PV, Tan CY, Pavliakova D, Singh G, Fontes-Garfias C, Pride M, Scully IL, Ciolino T, Obregon J, Gazi M, Carrion R Jr, Alfson KJ, Kalina WV, Kaushal D, Shi PY, Klamp T, Rosenbaum C, Kuhn AN, Türeci Ö, Dormitzer PR, Jansen KU, and Sahin U
- Subjects
- Aging immunology, Animals, Antibodies, Neutralizing immunology, Antibodies, Viral immunology, Antigens, Viral chemistry, Antigens, Viral genetics, Antigens, Viral immunology, BNT162 Vaccine, COVID-19 blood, COVID-19 therapy, COVID-19 virology, COVID-19 Vaccines administration & dosage, COVID-19 Vaccines chemistry, COVID-19 Vaccines genetics, Cell Line, Clinical Trials as Topic, Female, Humans, Immunization, Passive, Internationality, Macaca mulatta immunology, Macaca mulatta virology, Male, Mice, Mice, Inbred BALB C, Models, Molecular, Protein Multimerization, RNA, Viral analysis, Respiratory System immunology, Respiratory System virology, SARS-CoV-2 chemistry, SARS-CoV-2 genetics, Solubility, Spike Glycoprotein, Coronavirus chemistry, Spike Glycoprotein, Coronavirus genetics, Spike Glycoprotein, Coronavirus immunology, T-Lymphocytes immunology, Vaccination, Vaccines, Synthetic administration & dosage, Vaccines, Synthetic chemistry, Vaccines, Synthetic genetics, Vaccines, Synthetic immunology, COVID-19 Serotherapy, mRNA Vaccines, COVID-19 immunology, COVID-19 prevention & control, COVID-19 Vaccines immunology, Disease Models, Animal, SARS-CoV-2 immunology
- Abstract
A safe and effective vaccine against COVID-19 is urgently needed in quantities that are sufficient to immunize large populations. Here we report the preclinical development of two vaccine candidates (BNT162b1 and BNT162b2) that contain nucleoside-modified messenger RNA that encodes immunogens derived from the spike glycoprotein (S) of SARS-CoV-2, formulated in lipid nanoparticles. BNT162b1 encodes a soluble, secreted trimerized receptor-binding domain (known as the RBD-foldon). BNT162b2 encodes the full-length transmembrane S glycoprotein, locked in its prefusion conformation by the substitution of two residues with proline (S(K986P/V987P); hereafter, S(P2) (also known as P2 S)). The flexibly tethered RBDs of the RBD-foldon bind to human ACE2 with high avidity. Approximately 20% of the S(P2) trimers are in the two-RBD 'down', one-RBD 'up' state. In mice, one intramuscular dose of either candidate vaccine elicits a dose-dependent antibody response with high virus-entry inhibition titres and strong T-helper-1 CD4
+ and IFNγ+ CD8+ T cell responses. Prime-boost vaccination of rhesus macaques (Macaca mulatta) with the BNT162b candidates elicits SARS-CoV-2-neutralizing geometric mean titres that are 8.2-18.2× that of a panel of SARS-CoV-2-convalescent human sera. The vaccine candidates protect macaques against challenge with SARS-CoV-2; in particular, BNT162b2 protects the lower respiratory tract against the presence of viral RNA and shows no evidence of disease enhancement. Both candidates are being evaluated in phase I trials in Germany and the USA1-3 , and BNT162b2 is being evaluated in an ongoing global phase II/III trial (NCT04380701 and NCT04368728).- Published
- 2021
- Full Text
- View/download PDF
4. Biomass Resources: Agriculture.
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Kluts IN, Brinkman MLJ, de Jong SA, and Junginger HM
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- Agriculture statistics & numerical data, Biofuels, Biomass, Crops, Agricultural, European Union statistics & numerical data
- Abstract
Bioenergy is the single largest source of renewable energy in the European Union (EU-28); of this, 14% was produced from agricultural feedstocks in 2012. This chapter provides an overview of the current use (for bioenergy) and future potential of agricultural feedstocks for (amongst others) biorefinery purposes in the European Union. The main application of these feedstocks is currently the production of biofuels for road transport. Biodiesel makes up 80% of the European biofuel production, mainly from rapeseed oil, and the remaining part is bioethanol from wheat and sugar beet. Dedicated woody and grassy crops (mainly miscanthus and switchgrass) are currently only used in very small quantities for heat and electricity generation. There is great potential for primary agricultural residues (mainly straw) but currently only part of this is for heat and electricity generation. Agricultural land currently in use for energy crop cultivation in the EU-28 is 4.4 Mio ha, although the land area technically available in 2030 is estimated to be 16-43 Mio ha, or 15-40% of the current arable land in the EU-28. There is, however, great uncertainty on the location and quality of that land. It is expected that woody and grassy crops together with primary agricultural residues should become more important as agricultural feedstocks.
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- 2019
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5. ZnO Nano-Rod Devices for Intradermal Delivery and Immunization.
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Nayak TR, Wang H, Pant A, Zheng M, Junginger H, Goh WJ, Lee CK, Zou S, Alonso S, Czarny B, Storm G, Sow CH, Lee C, and Pastorin G
- Abstract
Intradermal delivery of antigens for vaccination is a very attractive approach since the skin provides a rich network of antigen presenting cells, which aid in stimulating an immune response. Numerous intradermal techniques have been developed to enhance penetration across the skin. However, these methods are invasive and/or affect the skin integrity. Hence, our group has devised zinc oxide (ZnO) nano-rods for non-destructive drug delivery. Chemical vapour deposition was used to fabricate aligned nano-rods on ZnO pre-coated silicon chips. The nano-rods' length and diameter were found to depend on the temperature, time, quality of sputtered silicon chips, etc. Vertically aligned ZnO nano-rods with lengths of 30-35 µm and diameters of 200-300 nm were selected for in vitro human skin permeation studies using Franz cells with Albumin-fluorescein isothiocyanate (FITC) absorbed on the nano-rods. Fluorescence and confocal studies on the skin samples showed FITC penetration through the skin along the channels formed by the nano-rods. Bradford protein assay on the collected fluid samples indicated a significant quantity of Albumin-FITC in the first 12 h. Low antibody titres were observed with immunisation on Balb/c mice with ovalbumin (OVA) antigen coated on the nano-rod chips. Nonetheless, due to the reduced dimensions of the nano-rods, our device offers the additional advantage of excluding the simultaneous entrance of microbial pathogens. Taken together, these results showed that ZnO nano-rods hold the potential for a safe, non-invasive, and painless intradermal drug delivery.
- Published
- 2017
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6. Sandy Florence, a man of many talents!
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Junginger H
- Subjects
- Aptitude, Humans, Male, Pharmacy, Laboratory Personnel
- Published
- 2016
- Full Text
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7. Thematic Issue on Emerging nanopharmaceuticals for non-parenteral application routes.
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Filipović-Grčić J, Mrhar A, and Junginger H
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- Congresses as Topic, Drug Carriers chemistry, Nanostructures chemistry, Nanotechnology methods, Pharmaceutical Preparations administration & dosage, Pharmaceutical Preparations chemistry
- Published
- 2013
- Full Text
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8. Biowaiver monographs for immediate release solid oral dosage forms: lamivudine.
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Strauch S, Jantratid E, Dressman JB, Junginger HE, Kopp S, Midha KK, Shah VP, Stavchansky S, and Barends DM
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- Administration, Oral, Animals, Biological Availability, Chemical Phenomena, Excipients, Humans, Lamivudine chemistry, Lamivudine toxicity, Solubility, Therapeutic Equivalency, Tissue Distribution, Lamivudine administration & dosage, Lamivudine pharmacokinetics
- Abstract
Literature data relevant to the decision to allow a waiver of in vivo bioequivalence (BE) testing for the approval of immediate release (IR) solid oral dosage forms containing lamivudine as the only active pharmaceutical ingredient were reviewed. The solubility and permeability data of lamivudine as well as its therapeutic index, its pharmacokinetic properties, data indicating excipient interactions, and reported BE/bioavailability (BA) studies were taken into consideration. Lamivudine is highly soluble, but its permeability characteristics are not well-defined. Reported BA values in adults ranged from 82% to 88%. Therefore, lamivudine is assigned to the biopharmaceutics classification system (BCS) class III, noting that its permeability characteristics are near the border of BCS class I. Lamivudine is not a narrow therapeutic index drug. Provided that (a) the test product contains only excipients present in lamivudine IR solid oral drug products approved in the International Conference on Harmonization or associated countries in usual amounts and (b) the test product as well as the comparator product fulfills the BCS dissolution criteria for very rapidly dissolving; a biowaiver can be recommended for new lamivudine multisource IR products and major post-approval changes of marketed drug products., (Copyright © 2011 Wiley-Liss, Inc.)
- Published
- 2011
- Full Text
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9. Biowaiver monographs for immediate release solid oral dosage forms: ciprofloxacin hydrochloride.
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Olivera ME, Manzo RH, Junginger HE, Midha KK, Shah VP, Stavchansky S, Dressman JB, and Barends DM
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- Administration, Oral, Animals, Anti-Bacterial Agents chemistry, Anti-Bacterial Agents therapeutic use, Biological Availability, Ciprofloxacin chemistry, Ciprofloxacin therapeutic use, Dosage Forms, Drug Approval, Excipients, Humans, Intestinal Absorption, Permeability, Solubility, Therapeutic Equivalency, Anti-Bacterial Agents administration & dosage, Anti-Bacterial Agents pharmacokinetics, Ciprofloxacin administration & dosage, Ciprofloxacin pharmacokinetics
- Abstract
Literature data relevant to the decision to allow a waiver of in vivo bioequivalence (BE) testing for the approval of new multisource and reformulated immediate release (IR) solid oral dosage forms containing ciprofloxacin hydrochloride as the only active pharmaceutical ingredient (API) are reviewed. Ciprofloxacin hydrochloride's solubility and permeability, its therapeutic use and index, pharmacokinetics, excipient interactions and reported BE/bioavailability (BA) problems were taken into consideration. Solubility and BA data indicate that ciprofloxacin hydrochloride is a BCS Class IV drug. Therefore, a biowaiver based approval of ciprofloxacin hydrochloride containing IR solid oral dosage forms cannot be recommended for either new multisource drug products or for major scale-up and postapproval changes (variations) to existing drug products., (2010 Wiley-Liss, Inc. and the American Pharmacists Association)
- Published
- 2011
- Full Text
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10. Biowaiver monographs for immediate release solid oral dosage forms: mefloquine hydrochloride.
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Strauch S, Jantratid E, Dressman JB, Junginger HE, Kopp S, Midha KK, Shah VP, Stavchansky S, and Barends DM
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- Administration, Oral, Animals, Antimalarials chemistry, Antimalarials therapeutic use, Biological Availability, Dosage Forms, Drug Approval, Excipients, Humans, Mefloquine chemistry, Mefloquine therapeutic use, Solubility, Therapeutic Equivalency, Antimalarials administration & dosage, Antimalarials pharmacokinetics, Mefloquine administration & dosage, Mefloquine pharmacokinetics
- Abstract
Literature data relevant to the decision to allow a waiver of in vivo bioequivalence (BE) testing for the approval of immediate release solid oral dosage forms containing mefloquine hydrochloride as the only active pharmaceutical ingredient (API) are reviewed. The solubility and permeability data of mefloquine hydrochloride as well as its therapeutic use and therapeutic index, its pharmacokinetic properties, data related to the possibility of excipient interactions and reported BE/bioavailability studies were taken into consideration. Mefloquine hydrochloride is not a highly soluble API. Since no data on permeability are available, it cannot be classified according to the Biopharmaceutics Classification System with certainty. Additionally, several studies in the literature failed to demonstrate BE of existing products. For these reasons, the biowaiver cannot be justified for the approval of new multisource drug products containing mefloquine hydrochloride. However, scale-up and postapproval changes (HHS-FDA SUPAC) levels 1 and 2 and most EU type I variations may be approvable without in vivo BE, using the dissolution tests described in these regulatory documents., (2010 Wiley-Liss, Inc. and the American Pharmacists Association)
- Published
- 2011
- Full Text
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11. Biowaiver monographs for immediate release solid oral dosage forms: furosemide.
- Author
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Granero GE, Longhi MR, Mora MJ, Junginger HE, Midha KK, Shah VP, Stavchansky S, Dressman JB, and Barends DM
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- Biological Availability, Biopharmaceutics, Dosage Forms, Excipients, Humans, Permeability, Solubility, Therapeutic Equivalency, Furosemide pharmacokinetics
- Abstract
Literature and new experimental data relevant to the decision to allow a waiver of in vivo bioequivalence (BE) testing for the approval of immediate release (IR) solid oral dosage forms containing furosemide are reviewed. The available data on solubility, oral absorption, and permeability are sufficiently conclusive to classify furosemide into Class IV of the Biopharmaceutics Classification System (BCS). Furosemide's therapeutic use and therapeutic index, its pharmacokinetic properties, data related to the possibility of excipient interactions and reported BE/bioavailability (BA) problems are also taken into consideration. In view of the data available, it is concluded that the biowaiver procedure cannot be justified for either the registration of new multisource drug products or major postapproval changes (variations) to existing drug products., ((c) 2009 Wiley-Liss, Inc. and the American Pharmacists Association)
- Published
- 2010
- Full Text
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12. Biowaiver monographs for immediate release solid oral dosage forms: Doxycycline hyclate.
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Jantratid E, Strauch S, Becker C, Dressman JB, Amidon GL, Junginger HE, Kopp S, Midha KK, Shah VP, Stavchansky S, and Barends DM
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- Anti-Bacterial Agents chemistry, Anti-Bacterial Agents therapeutic use, Dosage Forms, Doxycycline administration & dosage, Doxycycline chemistry, Doxycycline pharmacokinetics, Doxycycline therapeutic use, Drug Approval, Humans, Solubility, Therapeutic Equivalency, Anti-Bacterial Agents administration & dosage, Anti-Bacterial Agents pharmacokinetics, Doxycycline analogs & derivatives
- Abstract
Literature data relevant to the decision to allow a waiver of in vivo bioequivalence (BE) testing for the approval of immediate release (IR) solid oral dosage forms containing doxycycline hyclate are reviewed. According to the Biopharmaceutics Classification System (BCS), doxycycline hyclate can be assigned to BCS Class I. No problems with BE of IR doxycycline formulations containing different excipients and produced by different manufacturing methods have been reported and hence the risk of bioinequivalence caused by these factors appears to be low. Doxycycline has a wide therapeutic index. Further, BCS-based dissolution methods have been shown to be capable of identifying formulations which may dissolve too slowly to generate therapeutic levels. It is concluded that a biowaiver is appropriate for IR solid oral dosage forms containing doxycycline hyclate as the single Active Pharmaceutical Ingredient (API) provided that (a) the test product contains only excipients present in doxycycline hyclate IR solid oral drug products approved in the International Conference on Harmonization (ICH) or associated countries; and (b) the comparator and the test products comply with the BCS criteria for "very rapidly dissolving" or, alternatively, when similarity of the dissolution profiles can be demonstrated and the two products are "rapidly dissolving."., (2009 Wiley-Liss, Inc. and the American Pharmacists Association)
- Published
- 2010
- Full Text
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13. Biowaiver monographs for immediate release solid oral dosage forms: quinidine sulfate.
- Author
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Grube S, Langguth P, Junginger HE, Kopp S, Midha KK, Shah VP, Stavchansky S, Dressman JB, and Barends DM
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- Administration, Oral, Anti-Arrhythmia Agents chemistry, Anti-Arrhythmia Agents therapeutic use, Antimalarials chemistry, Antimalarials therapeutic use, Biological Availability, Dosage Forms, Drug Approval, Excipients, Humans, Permeability, Quinidine chemistry, Quinidine therapeutic use, Solubility, Therapeutic Equivalency, Anti-Arrhythmia Agents administration & dosage, Anti-Arrhythmia Agents pharmacokinetics, Antimalarials administration & dosage, Antimalarials pharmacokinetics, Quinidine administration & dosage, Quinidine pharmacokinetics
- Abstract
Literature data are reviewed relevant to the decision to allow a waiver of in vivo bioequivalence (BE) testing for the approval of new multisource and reformulated immediate release (IR) solid oral dosage forms containing quinidine sulfate. Quinidine sulfate's solubility and permeability, its therapeutic use and index, pharmacokinetics, excipient interactions and reported BE/bioavailability (BA) problems were taken into consideration. The available data are not fully conclusive, but do suggest that quinidine sulfate is highly soluble and moderately to highly permeable and would likely be assigned to BCS Class I (or at worst BCS III). In view of the inconclusiveness of the data and, more important, quinidine's narrow therapeutic window and critical indication, a biowaiver based approval of quinidine containing dosage forms cannot be recommended for either new multisource drug products or for major postapproval changes (variations) to existing drug products.
- Published
- 2009
- Full Text
- View/download PDF
14. Biowaiver monographs for immediate release solid oral dosage forms: rifampicin.
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Becker C, Dressman JB, Junginger HE, Kopp S, Midha KK, Shah VP, Stavchansky S, and Barends DM
- Subjects
- Administration, Oral, Antibiotics, Antitubercular chemistry, Antibiotics, Antitubercular therapeutic use, Biological Availability, Dosage Forms, Drug Approval, Drug Stability, Excipients, Food-Drug Interactions, Humans, Leprostatic Agents chemistry, Leprostatic Agents therapeutic use, Permeability, Rifampin chemistry, Rifampin therapeutic use, Solubility, Therapeutic Equivalency, Antibiotics, Antitubercular administration & dosage, Antibiotics, Antitubercular pharmacokinetics, Leprostatic Agents administration & dosage, Leprostatic Agents pharmacokinetics, Rifampin administration & dosage, Rifampin pharmacokinetics
- Abstract
Literature data relevant to the decision to allow a waiver of in vivo bioequivalence (BE) testing for the approval of new multisource and reformulated immediate release (IR) solid oral dosage forms containing rifampicin as the only Active Pharmaceutical Ingredient (API) are reviewed. Rifampicin's solubility and permeability, its therapeutic use and index, pharmacokinetics, excipient interactions and reported BE/bioavailability (BA) problems were taken into consideration. Solubility and absolute BA data indicate that rifampicin is a BCS Class II drug. Of special concern for biowaiving is that many reports of failure of IR solid oral dosage forms of rifampicin to meet BE have been published and the reasons for these failures are yet insufficiently understood. Moreover, no reports were identified in which in vitro dissolution was shown to be predictive of nonequivalence among products. Therefore, a biowaiver based approval of rifampicin containing IR solid oral dosage forms cannot be recommended for either new multisource drug products or for major scale-up and postapproval changes (variations) to existing drug products.
- Published
- 2009
- Full Text
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15. Biowaiver monographs for immediate release solid oral dosage forms: diclofenac sodium and diclofenac potassium.
- Author
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Chuasuwan B, Binjesoh V, Polli JE, Zhang H, Amidon GL, Junginger HE, Midha KK, Shah VP, Stavchansky S, Dressman JB, and Barends DM
- Subjects
- Administration, Oral, Animals, Anti-Inflammatory Agents, Non-Steroidal adverse effects, Anti-Inflammatory Agents, Non-Steroidal chemistry, Biological Availability, Chemical Phenomena, Diclofenac adverse effects, Diclofenac chemistry, Excipients chemistry, Humans, Solubility, Tablets, Therapeutic Equivalency, Anti-Inflammatory Agents, Non-Steroidal administration & dosage, Anti-Inflammatory Agents, Non-Steroidal pharmacokinetics, Diclofenac administration & dosage, Diclofenac pharmacokinetics
- Abstract
Literature data are reviewed regarding the scientific advisability of allowing a waiver of in vivo bioequivalence (BE) testing for the approval of immediate release (IR) solid oral dosage forms containing either diclofenac potassium and diclofenac sodium. Within the biopharmaceutics classification system (BCS), diclofenac potassium and diclofenac sodium are each BCS class II active pharmaceutical ingredients (APIs). However, a biowaiver can be recommended for IR drug products of each salt form, due to their therapeutic use, therapeutic index, pharmacokinetic properties, potential for excipient interactions, and performance in reported BE/bioavailability (BA) studies, provided: (a) test and comparator contain the same diclofenac salt; (b) the dosage form of the test and comparator is identical; (c) the test product contains only excipients present in diclofenac drug products approved in ICH or associated countries in the same dosage form, for instance as presented in this paper; (d) test drug product and comparator dissolve 85% in 30 min or less in 900 mL buffer pH 6.8, using the paddle apparatus at 75 rpm or the basket apparatus at 100 rpm; and (e) test product and comparator show dissolution profile similarity in pH 1.2, 4.5, and 6.8.
- Published
- 2009
- Full Text
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16. Development of a Gas Empowered Drug Delivery system for peptide delivery in the small intestine.
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Sadeghi AM, Avadi MR, Ejtemaimehr Sh, Abashzadeh Sh, Partoazar A, Dorkoosh F, Faghihi M, Rafiee-Tehrani M, and Junginger HE
- Subjects
- Administration, Oral, Animals, Biological Availability, Chitosan pharmacology, Drug Evaluation, Preclinical, Gastric Mucosa metabolism, Insulin blood, Intestinal Absorption drug effects, Intestine, Small metabolism, Male, Rabbits, Sheep, Stomach drug effects, Carbon Dioxide pharmacology, Drug Delivery Systems methods, Insulin administration & dosage, Insulin pharmacokinetics, Intestine, Small drug effects, Polyethylene Glycols pharmacology
- Abstract
The aim of this investigation was to design a novel Gas Empowered Drug Delivery (GEDD) system for CO(2) forced transport of peptide drugs together with mucoadhesive polymers to the surface of the small intestine. The GEDD effect of the core tablet was achieved using CO(2) gas to push insulin together with the mucoadhesive excipients poly(ethyleneoxide) (PEO) and the permeation enhancer trimethyl chitosan (TMC) to the surface of the small intestine. The in-vitro insulin release showed that almost 100% of the insulin was released from enterically coated tablets within 30 min at pH 6.8. The designed GEDD system was shown to increase the insulin transport by approximately 7 times in comparison with the free insulin across sheep's intestine ex-vivo. Three different peroral formulations were administered to male rabbits: F1 containing no TMC or PEO, F2 containing PEO but no TMC and F3 containing both PEO and TMC. The administrations of insulin using the formulation F1 resulted in a low FR value of 0.2%+/-0.1%, while the formulations F2 and F3 resulted in a much higher FR values of 0.6+/-0.2% and 1.1%+/-0.4%, respectively. Hence, the insulin permeation achieved by the GEDD system is primarily due to the enhancing effect of TMC and the mucoadhesive properties of PEO both of which synergistically increase the bioavailability of insulin.
- Published
- 2009
- Full Text
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17. Biowaiver monographs for immediate release solid oral dosage forms: aciclovir.
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Arnal J, Gonzalez-Alvarez I, Bermejo M, Amidon GL, Junginger HE, Kopp S, Midha KK, Shah VP, Stavchansky S, Dressman JB, and Barends DM
- Subjects
- Acyclovir pharmacokinetics, Administration, Oral, Antiviral Agents pharmacokinetics, Biological Availability, Therapeutic Equivalency, Acyclovir administration & dosage, Antiviral Agents administration & dosage
- Abstract
Literature data relevant to the decision to allow a waiver of in vivo bioequivalence (BE) testing (biowaiver) for the approval of immediate release (IR) solid oral dosage forms containing aciclovir are reviewed. Aciclovir therapeutic use and therapeutic index, pharmacokinetic properties, data related to the possibility of excipient interactions and reported BE/bioavailability (BA) studies were also taken into consideration in order to ascertain whether a biowaiver can be recommended. According to the Biopharmaceutics Classification System (BCS) and considering tablet strengths up to 400 mg, aciclovir would be BCS Class III. However, in some countries also 800 mg tablets are available which fall just within BCS Class IV. Aciclovir seems not to be critical with respect to a risk for bioinequivalence, as no examples of bioinequivalence have been identified. It has a wide therapeutic index and is not used for critical indications. Hence, if: (a) the test product contains only excipients present in aciclovir solid oral IR drug products approved in ICH or associated countries, for instance as presented in this article; and (b) the comparator and the test product both are very rapidly dissolving, a biowaiver for IR aciclovir solid oral drug products is considered justified for all tablet strengths.
- Published
- 2008
- Full Text
- View/download PDF
18. Biowaiver monographs for immediate release solid oral dosage forms: metoclopramide hydrochloride.
- Author
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Stosik AG, Junginger HE, Kopp S, Midha KK, Shah VP, Stavchansky S, Dressman JB, and Barends DM
- Subjects
- Administration, Oral, Biological Availability, Excipients, Humans, Solubility, Antiemetics administration & dosage, Antiemetics pharmacokinetics, Antiemetics pharmacology, Dopamine Antagonists administration & dosage, Dopamine Antagonists pharmacokinetics, Dopamine Antagonists pharmacology, Metoclopramide administration & dosage, Metoclopramide pharmacokinetics, Metoclopramide pharmacology, Tablets
- Abstract
Literature data are reviewed relevant to the decision for a biowaiver of immediate release (IR) solid oral dosage forms containing metoclopramide hydrochloride. In addition, new solubility data, obtained under Biopharmaceutics Classification System (BCS) conditions are presented. Metoclopramide HCl is conservatively assigned to BCS Class III. Taken also into consideration excipient interactions reported in metoclopramide drug products, its pharmacokinetic properties and therapeutic use and therapeutic index, a biowaiver can be recommended when: (a) the test product contains only excipients present also in metoclopramide HCl containing IR solid oral drug products approved in ICH or associated countries, for instance as presented in this paper, (b) in amounts in normal use in IR solid oral dosage forms, and (c) the test product and the comparator both comply with the criteria for very rapidly dissolving.
- Published
- 2008
- Full Text
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19. Biowaiver monographs for immediate release solid oral dosage forms: pyrazinamide.
- Author
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Becker C, Dressman JB, Amidon GL, Junginger HE, Kopp S, Midha KK, Shah VP, Stavchansky S, and Barends DM
- Subjects
- Administration, Oral, Biological Availability, Excipients, Humans, Solubility, Therapeutic Equivalency, Antitubercular Agents administration & dosage, Antitubercular Agents adverse effects, Antitubercular Agents pharmacokinetics, Antitubercular Agents pharmacology, Pyrazinamide administration & dosage, Pyrazinamide adverse effects, Pyrazinamide pharmacokinetics, Pyrazinamide pharmacology, Tablets
- Abstract
Literature data relevant to the decision to allow a waiver of in vivo bioequivalence (BE) testing for the approval of immediate release (IR) solid oral dosage forms containing pyrazinamide as the only active pharmaceutical ingredient (API) are reviewed. Pyrazinamide is BCS Class III, with linear absorption over a wide dosing range. The risk of bioinequivalence is estimated to be low. Depending on the definition used, pyrazinamide can be classified as a narrow therapeutic index (NTI) drug, which is usually a caveat to biowaiving but may be deemed acceptable if the Summary of Product Characteristics (SmPCs) of the test product stipulates the need for regular monitoring of liver function. It is concluded that a biowaiver can be recommended for IR solid oral dosage only when the test product (a) contains only excipients present in pyrazinamide IR solid oral drug products approved in ICH or associated countries, (b) these excipients are present in amounts normally used in IR solid oral dosage forms, (c) the test product is very rapidly dissolving, (d) the SmPC of the test product indicates the need for monitoring of the patient's liver function.
- Published
- 2008
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20. Permeation enhancer effect of chitosan and chitosan derivatives: comparison of formulations as soluble polymers and nanoparticulate systems on insulin absorption in Caco-2 cells.
- Author
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Sadeghi AM, Dorkoosh FA, Avadi MR, Weinhold M, Bayat A, Delie F, Gurny R, Larijani B, Rafiee-Tehrani M, and Junginger HE
- Subjects
- Caco-2 Cells, Cell Survival drug effects, Chemistry, Pharmaceutical, Chitosan analogs & derivatives, Chitosan chemical synthesis, Chitosan toxicity, Electric Impedance, Humans, Intestinal Mucosa metabolism, Kinetics, Permeability, Solubility, Surface Properties, Tight Junctions drug effects, Tight Junctions metabolism, Chitosan pharmacology, Drug Carriers, Insulin metabolism, Intestinal Absorption drug effects, Intestinal Mucosa drug effects, Nanoparticles
- Abstract
In this study four quaternized derivatives of chitosan: trimethyl chitosan (TMC), dimethylethyl chitosan (DMEC), diethylmethyl chitosan (DEMC) and triethyl chitosan (TEC) with degree of substitution of approximately 50+/-5% were synthesized and their effect on the permeability of insulin across intestinal Caco-2 monolayers was studied and compared with chitosan both in free-soluble form and in nanoparticulate systems. Transepithelial electrical resistance (TEER) studies revealed that all four chitosan derivatives in free-soluble forms were able to decrease the TEER value in the following order TMC>DMEC>DEMC=TEC>chitosan, indicating their abilities to open the tight junctions. Recovery studies on the TEER showed that the effect of the polymers on Caco-2 cell monolayer is reversible and proves the viability of cells after incubation with all polymers. A similar rank order was also observed when measuring the zeta-potentials of the various polymers in solution form. Transport studies of insulin together with the soluble polymers across Caco-2 cell layers showed the following ranking: TMC>DMEC>DEMC>TEC>chitosan which is in agreement with the strength of the cationic charge of the polymer. In comparison to the free-soluble polymers, the nanoparticles prepared by ionic gelation of the chitosan and its quaternized derivatives had much lower effect on decreasing the TEER by opening of the tight junctions. This can be explained by the reduced available amount of positive charge at the surface of the nanoparticles. In accordance with these results, the insulin loaded nanoparticles showed much less permeation across the Caco-2 cell monolayer in comparison to the free-soluble polymers. Mass balance transport studies revealed that a substantial amount of the nanoparticles has been entrapped into the Caco-2 monolayer or attached to the cell surface. It can thus be stated that while free-soluble polymers can reversibly open the tight junctions and increase the permeation of insulin, the nanoparticles had basically only a low effect on the opening of the tight junction and the paracellular transport of insulin across the Caco-2 cell monolayer. These data convincingly show that nanoparticles consisting of chitosan and its quaternary ammonium derivatives loaded with insulin are less effective in facilitating paracellular transport across Caco-2 cell monolayers than the corresponding free polymers.
- Published
- 2008
- Full Text
- View/download PDF
21. Biowaiver monographs for immediate release solid oral dosage forms: acetazolamide.
- Author
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Granero GE, Longhi MR, Becker C, Junginger HE, Kopp S, Midha KK, Shah VP, Stavchansky S, Dressman JB, and Barends DM
- Subjects
- Acetazolamide pharmacokinetics, Administration, Oral, Carbonic Anhydrase Inhibitors pharmacokinetics, Dosage Forms, Excipients, Humans, Solubility, Therapeutic Equivalency, Acetazolamide administration & dosage, Carbonic Anhydrase Inhibitors administration & dosage
- Abstract
Literature data relevant to the decision to allow a waiver of in vivo bioequivalence (BE) testing for the approval of immediate release (IR) solid oral dosage forms containing acetazolamide are reviewed. Acetazolamide's solubility and permeability characteristics according to the Biopharmaceutics Classification System (BCS), as well as its therapeutic use and therapeutic index, its pharmacokinetic properties, data related to the possibility of excipient interactions and reported BE/bioavailability (BA) problems are taken into consideration. The available data on solubility, on oral absorption and permeability are not sufficiently conclusive to classify acetazolamide with certainty. Taking a conservative approach, no biowaiver is considered justified for the registration of new multisource drug products. However, SUPAC level 1 and level 2 postapproval changes and most EU Type I variations can be approved waiving in vivo BE studies.
- Published
- 2008
- Full Text
- View/download PDF
22. Preparation, characterization and antibacterial activities of chitosan, N-trimethyl chitosan (TMC) and N-diethylmethyl chitosan (DEMC) nanoparticles loaded with insulin using both the ionotropic gelation and polyelectrolyte complexation methods.
- Author
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Sadeghi AM, Dorkoosh FA, Avadi MR, Saadat P, Rafiee-Tehrani M, and Junginger HE
- Subjects
- Chitosan chemistry, Chitosan pharmacology, Drug Stability, Electrochemistry, Electrolytes, Excipients, Gels, Hypoglycemic Agents chemistry, Insulin chemistry, Magnetic Resonance Spectroscopy, Microbial Sensitivity Tests, Microscopy, Electron, Transmission, Particle Size, Solubility, Staphylococcus aureus drug effects, Chitosan analogs & derivatives, Hypoglycemic Agents administration & dosage, Insulin administration & dosage, Nanoparticles chemistry
- Abstract
TMC and DEMC, quaternized derivatives of chitosan, have been shown to have penetration enhancement properties and able to open the tight junctions of the intestinal epithelia at neutral and alkaline pH environments. The use of the nanoparticulate systems has the advantage of protecting the peptidic drugs from the harsh environment of the gastrointestinal tract. Hence, the aim of this study was to synthesize and characterize TMC and DEMC, both with quaternization degrees of 50+/-5%, which were then used to prepare insulin nanoparticles with two different methods: ionotropic gelation and the polyelectrolyte complexation (PEC) techniques. The obtained nanoparticles were then characterized for size, zeta potential, insulin loading and release as well as antibacterial activities. The results showed that nanoparticles prepared by the PEC method had higher insulin loading efficiency and zeta potential than those made by the ionotropic gelation method and may subsequently be used for further in vitro, ex vivo and in vivo studies. Moreover, the antibacterial studies suggest that the polymers in free form have higher antibacterial activity against Gram-positive bacteria than in the nanoparticulate form.
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- 2008
- Full Text
- View/download PDF
23. Biowaiver monographs for immediate release solid oral dosage forms: ethambutol dihydrochloride.
- Author
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Becker C, Dressman JB, Amidon GL, Junginger HE, Kopp S, Midha KK, Shah VP, Stavchansky S, and Barends DM
- Subjects
- Absorption, Administration, Oral, Caco-2 Cells, Ethambutol chemistry, Ethambutol pharmacokinetics, Excipients, Humans, Permeability, Solubility, Therapeutic Equivalency, Ethambutol administration & dosage
- Abstract
Literature data relevant to the decision to allow a waiver of in vivo bioequivalence (BE) testing for the approval of immediate release (IR) solid oral dosage forms containing ethambutol dihydrochloride as the only active pharmaceutical ingredient (API) are reviewed. Ethambutol dihydrochloride is a Biopharmaceutics Classification System (BCS) Class III drug with permeability properties approaching the border between BCS Class I and III. BE problems of ethambutol formulations containing different excipients and different dosages forms have not been reported and hence the risk of bioinequivalence caused by excipients is low. Ethambutol has a narrow therapeutic index related to ocular toxicity. However, as long as the prescribers' information of the test product stipulates the need for regular monitoring of ocular toxicity, the additional patient risk is deemed acceptable. It is concluded that a biowaiver can be recommended for IR solid oral dosage forms provided that the test product (a) contains only excipients present in ethambutol IR solid oral drug products approved in ICH or associated countries, for instance as presented in this paper, (b) complies with the criteria for "very rapidly dissolving" and (c) has a prescribers' information indicating the need for testing the patient's vision prior to initiating ethambutol therapy and regularly during therapy., (2007 Wiley-Liss, Inc)
- Published
- 2008
- Full Text
- View/download PDF
24. Biowaiver monographs for immediate release solid oral dosage forms: prednisone.
- Author
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Vogt M, Derendorf H, Krämer J, Junginger HE, Midha KK, Shah VP, Stavchansky S, Dressman JB, and Barends DM
- Subjects
- Administration, Oral, Excipients administration & dosage, Humans, Permeability, Prednisone administration & dosage, Prednisone chemistry, Solubility, Therapeutic Equivalency, Prednisone pharmacokinetics
- Abstract
Literature data relevant to the decision to allow a waiver of in vivo bioequivalence (BE) testing for the approval of immediate release (IR) solid oral dosage forms containing prednisone are reviewed. Due to insufficient data prednisone cannot be definitively classified according to the current Biopharmaceutics Classification System (BCS) criteria as both the solubility and the permeability of prednisone are on the borderline of the present criteria of BCS Class I. Prednisone's therapeutic indications and therapeutic index, pharmacokinetics and the possibility of excipient interactions were also taken into consideration. Available evidence indicates that a biowaiver for IR solid oral dosage forms formulated with the excipients tabulated in this article would be unlikely to expose patients to undue risks.
- Published
- 2007
- Full Text
- View/download PDF
25. Biowaiver monographs for immediate release solid oral dosage forms: isoniazid.
- Author
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Becker C, Dressman JB, Amidon GL, Junginger HE, Kopp S, Midha KK, Shah VP, Stavchansky S, and Barends DM
- Subjects
- Biological Availability, Excipients, Humans, Intestinal Absorption, Isoniazid chemistry, Isoniazid pharmacokinetics, Permeability, Solubility, Therapeutic Equivalency, Isoniazid administration & dosage
- Abstract
Literature data relevant to the decision to allow a waiver of in vivo bioequivalence (BE) testing for the approval of immediate release (IR) solid oral dosage forms containing isoniazid as the only active pharmaceutical ingredient (API) are reviewed. Isoniazid's solubility and permeability characteristics according to the Biopharmaceutics Classification System (BCS), as well as its therapeutic use and therapeutic index, its pharmacokinetic properties, data related to the possibility of excipient interactions and reported BE/bioavailability (BA) problems were taken into consideration. Isoniazid is "highly soluble" but data on its oral absorption and permeability are inconclusive, suggesting this API to be on the borderline of BCS Class I and III. For a number of excipients, an interaction with the permeability is extreme unlikely, but lactose and other deoxidizing saccharides can form condensation products with isoniazid, which may be less permeable than the free API. A biowaiver is recommended for IR solid oral drug products containing isoniazid as the sole API, provided that the test product meets the WHO requirements for "very rapidly dissolving" and contains only the excipients commonly used in isoniazid products, as listed in this article. Lactose and/or other deoxidizing saccharides containing formulations should be subjected to an in vivo BE study., (2006 Wiley-Liss, Inc. and the American Pharmacists Association)
- Published
- 2007
- Full Text
- View/download PDF
26. Biowaiver monographs for immediate release solid oral dosage forms: prednisolone.
- Author
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Vogt M, Derendorf H, Krämer J, Junginger HE, Midha KK, Shah VP, Stavchansky S, Dressman JB, and Barends DM
- Subjects
- Administration, Oral, Animals, Anti-Inflammatory Agents administration & dosage, Anti-Inflammatory Agents adverse effects, Anti-Inflammatory Agents chemistry, Biological Availability, Biopharmaceutics, Chemistry, Pharmaceutical, Clinical Trials as Topic, Dosage Forms, Drug Approval, Excipients chemistry, Humans, Intestinal Absorption, Permeability, Prednisolone administration & dosage, Prednisolone adverse effects, Prednisolone chemistry, Risk Assessment, Solubility, Therapeutic Equivalency, Anti-Inflammatory Agents pharmacokinetics, Prednisolone pharmacokinetics
- Abstract
Literature data relevant to the decision to allow a waiver of in vivo bioequivalence (BE) testing for the approval of immediate release (IR) solid oral dosage forms containing prednisolone are reviewed. Data on its solubility, oral absorption, and permeability are not totally conclusive, but strongly suggest a BCS Class 1 classification. Prednisolone's therapeutic indications and therapeutic index, pharmacokinetics, and the possibility of excipient interactions were also taken into consideration. Available evidence indicates that a biowaiver for IR solid oral dosage forms formulated with the excipients tabulated in this article would be unlikely to expose patients to undue risks., ((c) 2006 Wiley-Liss, Inc. and the American Pharmacists Association.)
- Published
- 2007
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- View/download PDF
27. Biowaiver monographs for immediate release solid oral dosage forms: cimetidine.
- Author
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Jantratid E, Prakongpan S, Dressman JB, Amidon GL, Junginger HE, Midha KK, and Barends DM
- Subjects
- Administration, Oral, Animals, Biological Availability, Chemical Phenomena, Chemistry, Physical, Cimetidine pharmacokinetics, Dosage Forms, Esters, Excipients, Histamine H2 Antagonists pharmacokinetics, Humans, Isomerism, Permeability, Rats, Salts, Solubility, Therapeutic Equivalency, Tissue Distribution, Cimetidine administration & dosage, Histamine H2 Antagonists administration & dosage
- Abstract
Literature data relevant to the decision to allow a waiver of in vivo bioequivalence (BE) testing for the approval of immediate release (IR) solid oral dosage forms containing cimetidine are reviewed. According to the current Biopharmaceutics Classification System (BCS), cimetidine would be assigned to Class III. Cimetidine's therapeutic use and therapeutic index, its pharmacokinetic properties, data related to the possibility of excipient interactions, and reported BE/bioavailability (BA) problems were also taken into consideration. On the basis of the overall evidence, a biowaiver can be recommended for cimetidine IR products, provided that the test product contains only those excipients reported in this paper in their usual amounts, and that the test and the comparator drug products both are "rapidly dissolving" as per BCS., ((c) 2006 Wiley-Liss, Inc. and the American Pharmacists Association)
- Published
- 2006
- Full Text
- View/download PDF
28. Biowaiver monographs for immediate release solid oral dosage forms: acetaminophen (paracetamol).
- Author
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Kalantzi L, Reppas C, Dressman JB, Amidon GL, Junginger HE, Midha KK, Shah VP, Stavchansky SA, and Barends DM
- Subjects
- Acetaminophen administration & dosage, Acetaminophen chemistry, Administration, Oral, Analgesics, Non-Narcotic administration & dosage, Analgesics, Non-Narcotic chemistry, Biological Availability, Chemistry, Pharmaceutical, Dosage Forms, Excipients, Solubility, Therapeutic Equivalency, Acetaminophen pharmacokinetics, Analgesics, Non-Narcotic pharmacokinetics
- Abstract
Literature data are reviewed on the properties of acetaminophen (paracetamol) related to the biopharmaceutics classification system (BCS). According to the current BCS criteria, acetaminophen is BCS Class III compound. Differences in composition seldom, if ever, have an effect on the extent of absorption. However, some studies show differences in rate of absorption between brands and formulations. In particular, sodium bicarbonate, present in some drug products, was reported to give an increase in the rate of absorption, probably caused by an effect on gastric emptying. In view of Marketing Authorizations (MAs) given in a number of countries to acetaminophen drug products with rapid onset of action, it is concluded that differences in rate of absorption were considered therapeutically not relevant by the Health Authorities. Moreover, in view of its therapeutic use, its wide therapeutic index and its uncomplicated pharmacokinetic properties, in vitro dissolution data collected according to the relevant Guidances can be safely used for declaring bioequivalence (BE) of two acetaminophen formulations. Therefore, accepting a biowaiver for immediate release (IR) acetaminophen solid oral drug products is considered scientifically justified, if the test product contains only those excipients reported in this paper in their usual amounts and the test product is rapidly dissolving, as well as the test product fulfils the criterion of similarity of dissolution profiles to the reference product.
- Published
- 2006
- Full Text
- View/download PDF
29. Biowaiver monographs for immediate release solid oral dosage forms: ibuprofen.
- Author
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Potthast H, Dressman JB, Junginger HE, Midha KK, Oeser H, Shah VP, Vogelpoel H, and Barends DM
- Subjects
- Administration, Oral, Anti-Inflammatory Agents, Non-Steroidal administration & dosage, Anti-Inflammatory Agents, Non-Steroidal chemistry, Databases, Bibliographic, Dosage Forms, Excipients chemistry, Humans, Hydrogen-Ion Concentration, Ibuprofen administration & dosage, Ibuprofen chemistry, Ibuprofen standards, Solubility, Surface-Active Agents chemistry, Therapeutic Equivalency, Anti-Inflammatory Agents, Non-Steroidal pharmacokinetics, Biopharmaceutics classification, Ibuprofen pharmacokinetics, Intestinal Absorption
- Abstract
Literature data are reviewed on the properties of ibuprofen related to the biopharmaceutics classification system (BCS). Ibuprofen was assessed to be a BCS class II drug. Differences in composition and/or manufacturing procedures were reported to have an effect on the rate, but not the extent of absorption; such differences are likely to be detectable by comparative in vitro dissolution tests. Also in view of its therapeutic use, its wide therapeutic index and uncomplicated pharmacokinetic properties, a biowaiver for immediate release (IR) ibuprofen solid oral drug products is scientifically justified, provided that the test product contains only those excipients reported in this paper in their usual amounts, the dosage form is rapidly dissolving (85% in 30 min or less) in buffer pH 6.8 and the test product also exhibits similar dissolution profiles to the reference product in buffer pH 1.2, 4.5, and 6.8., (Copyright (c) 2005 Wiley-Liss, Inc. and the American Pharmacists Association)
- Published
- 2005
- Full Text
- View/download PDF
30. Biowaiver monographs for immediate release solid oral dosage forms: ranitidine hydrochloride.
- Author
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Kortejärvi H, Yliperttula M, Dressman JB, Junginger HE, Midha KK, Shah VP, and Barends DM
- Subjects
- Administration, Oral, Biopharmaceutics, Caco-2 Cells, Databases, Bibliographic, Dosage Forms, Drug Approval, Excipients, Histamine H2 Antagonists chemistry, Humans, Permeability, Ranitidine administration & dosage, Ranitidine chemistry, Solubility, Therapeutic Equivalency, Time Factors, Histamine H2 Antagonists pharmacokinetics, Ranitidine pharmacokinetics
- Abstract
Literature and experimental data relevant to the decision to allow a waiver of in vivo bioequivalence testing for the approval of immediate release (IR) solid oral dosage forms containing ranitidine hydrochloride are reviewed. According to the current Biopharmaceutics Classification System (BCS), ranitidine hydrochloride should be assigned to Class III. However, based on its therapeutic and therapeutic index, pharmacokinetic properties and data related to the possibility of excipient interactions, a biowaiver can be recommended for IR solid oral dosage forms that are rapidly dissolving and contain only those excipients as reported in this study., ((c) 2005 Wiley-Liss, Inc. and the American Pharmacists Association)
- Published
- 2005
- Full Text
- View/download PDF
31. Biowaiver monographs for immediate release solid oral dosage forms based on biopharmaceutics classification system (BCS) literature data: chloroquine phosphate, chloroquine sulfate, and chloroquine hydrochloride.
- Author
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Verbeeck RK, Junginger HE, Midha KK, Shah VP, and Barends DM
- Subjects
- Antimalarials administration & dosage, Antimalarials chemistry, Cell Membrane Permeability, Chloroquine administration & dosage, Chloroquine chemistry, Drug Stability, Humans, Intestinal Absorption drug effects, Risk Assessment, Solubility, Tablets, Antimalarials classification, Biopharmaceutics classification, Chloroquine classification
- Abstract
Literature data on the properties of chloroquine phosphate, chloroquine sulfate, and chloroquine hydrochloride related to the Biopharmaceutics Classification System (BCS) are reviewed. The available information indicates that these chloroquine salts can be classified as highly soluble and highly permeable, i.e., BCS class I. The qualitative composition of immediate release (IR) tablets containing these Active Pharmaceutical Ingredients (APIs) with a Marketing Authorization (MA) in Belgium (BE), Germany (DE), Finland (FI), and The Netherlands (NL) is provided. In view of these MA's and the critical therapeutic indication of chloroquine, it is assumed that the registration authorities had evidence that these formulations are bioequivalent to the innovator. It is concluded that IR tablets formulated with these excipients are candidates for a biowaiver., ((c) 2005 Wiley-Liss, Inc.)
- Published
- 2005
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32. Cationic submicron emulsions for pulmonary DNA immunization.
- Author
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Bivas-Benita M, Oudshoorn M, Romeijn S, van Meijgaarden K, Koerten H, van der Meulen H, Lambert G, Ottenhoff T, Benita S, Junginger H, and Borchard G
- Subjects
- Acyltransferases immunology, Adsorption, Antigens, Bacterial immunology, Bacterial Proteins immunology, Cell Line, Dendritic Cells physiology, Emulsions, Humans, Immunization, Particle Size, Vaccines, DNA immunology, Acyltransferases genetics, Antigens, Bacterial genetics, Bacterial Proteins genetics, Drug Delivery Systems, Tuberculosis Vaccines administration & dosage, Vaccines, DNA administration & dosage
- Abstract
Pulmonary immunization against inhaled pathogens such as Mycobacterium tuberculosis would induce local and systemic immune responses and protect from entry and dissemination of the pathogen. The aim of this study was to evaluate cationic submicron emulsion as a potential carrier for DNA vaccines to the lung. DNA loaded emulsions were 128-152 nm in size and retained positive zeta potential above +40 mV during 3 months of storage. Loading efficiency was above 99%, DNA was protected from DNase I degradation up to 60 min and was stable in presence of 75% fetal calf serum (FCS). The plasmid DNA was detected in the endo-lysosomal compartment of the human bronchial cell line, Calu-3, 6 h after application. No cytotoxic effect on these cells was observed. Human dendritic cells were matured in presence of DNA loaded emulsion, although to a lesser extent than DNA solution indicating slower release and lower exposure to unmethylated CpG sequences. These results indicate that cationic submicron emulsions are potential DNA vaccine carriers to the lung since they are able to transfect pulmonary epithelial cells, which possibly induce cross priming of antigen presenting cells and directly activate dendritic cells, resulting in stimulation of antigen specific T-cells.
- Published
- 2004
- Full Text
- View/download PDF
33. Feasibility study on the retention of superporous hydrogel composite polymer in the intestinal tract of man using scintigraphy.
- Author
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Dorkoosh FA, Stokkel MP, Blok D, Borchard G, Rafiee-Tehrani M, Verhoef JC, and Junginger HE
- Subjects
- Administration, Oral, Adult, Capsules chemistry, Capsules pharmacokinetics, Delayed-Action Preparations, Excipients chemistry, Excipients pharmacokinetics, Feasibility Studies, Female, Gelatin chemistry, Gelatin pharmacokinetics, Humans, Hydrogels analysis, Indium Radioisotopes, Intestine, Small diagnostic imaging, Male, Polymers chemistry, Porosity, Stomach diagnostic imaging, Technology, Pharmaceutical methods, Time Factors, Hydrogels pharmacokinetics, Intestine, Small chemistry, Polymers pharmacokinetics, Radionuclide Imaging methods, Stomach chemistry
- Abstract
In recent years, many complex oral drug delivery systems have been developed using various polymers in order to achieve better drug targeting and drug absorption in the intestinal tract. Superporous hydrogel (SPH) and SPH composite (SPHC)-based drug delivery systems were also developed for the targeted delivery of peptide drugs into the intestinal tract. In the present study, the retention time of SPHC polymer is studied in man using the scintigraphy technique. To that purpose, SPHC polymers were radiolabelled with Tc-99m and administered orally in an enteric-coated gelatin capsule. The location of the radiolabelled polymer was monitored in five healthy volunteers while the subjects were sitting in front of a large field of view gamma camera. The results showed that enteric-coated gelatin capsules remained in the stomach for 75 to 150 min after oral administration to fasted volunteers and that the SPHC polymers thereafter attached to the upper part of the small intestine for at least 45 to 60 min due to their mechanical fixation properties. No discomfort was observed in any of the volunteers after oral administration of these polymers, which indicates that they are safe to be applied for oral drug delivery systems in man.
- Published
- 2004
- Full Text
- View/download PDF
34. Trimethylated chitosan as polymeric absorption enhancer for improved peroral delivery of peptide drugs.
- Author
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van der Merwe SM, Verhoef JC, Verheijden JH, Kotzé AF, and Junginger HE
- Subjects
- Adjuvants, Pharmaceutic pharmacology, Administration, Oral, Animals, Chemistry, Pharmaceutical, Chitosan pharmacology, Humans, Peptides chemistry, Peptides pharmacokinetics, Time Factors, Adjuvants, Pharmaceutic chemistry, Chitosan chemistry, Drug Carriers chemistry, Peptides administration & dosage
- Abstract
The absorption enhancing effects of chitosan and its derivatives have been intensively studied in recent years. It has been shown that these compounds are potent absorption enhancers. Chitosan is only soluble in acidic environments and is therefore incapable of enhancing absorption in the small intestine, the main absorption area in the gastrointestinal tract. Special emphasis has been placed on the absorption enhancing properties of N-trimethyl chitosan chloride (TMC), a partially quaternised derivative of chitosan, due to its solubility in neutral and basic environments. TMC is prepared by the reductive methylation of chitosan. The degree of quaternisation can be altered by increasing the number of reaction steps or by increasing the reaction time. Although the molecular weight of the polymer increases with addition of the methyl groups, a net decrease in the molecular weight is observed due to a decrease in the chain length of the polymer. TMC, like chitosan, possesses mucoadhesive properties. In vitro studies performed on Caco-2 cell monolayers showed a pronounced reduction in the transepithelial electrical resistance (TEER). TMC is also able to increase the permeation of hydrophilic compounds such as [14C]-mannitol and [14C] polyethylene glycol 4000 ([14C] PEG 4000, MW4000) across the cell monolayers. It was also shown that the degree of quaternisation of the polymer plays an important role on its absorption enhancing properties, especially in neutral environments where chitosan is ineffective as an absorption enhancer. The reduction in TEER is an indication of the opening of the tight junctions located between epithelial cells. Opening of the tight junctions will result in enhancement of absorption via the paracellular route. Confocal laser scanning microscopy confirmed transport of large hydrophilic compounds via the paracellular route as well as the mechanism of action of the polymer in which redistribution of the cytoskeletal F-actin is provoked, which leads to the opening of the tight junctions. Various in vivo studies in different animal models confirmed the ability of TMC to increase the absorption of the peptide drugs buserelin and octreotide after intraduodenal or -jejunal administration. However, TMC has always been administered as a solution in these studies. The impracticality of administering a solution, as well as the fact that most peptides are unstable in the presence of water, have led to the need for a solid oral dosage form with which TMC can be administered together with peptide drugs. Recent studies have focused on the development and in vivo evaluation of solid oral dosage forms.
- Published
- 2004
- Full Text
- View/download PDF
35. Biowaiver monographs for immediate release solid oral dosage forms based on biopharmaceutics classification system (BCS) literature data: verapamil hydrochloride, propranolol hydrochloride, and atenolol.
- Author
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Vogelpoel H, Welink J, Amidon GL, Junginger HE, Midha KK, Möller H, Olling M, Shah VP, and Barends DM
- Subjects
- Administration, Oral, Atenolol pharmacokinetics, Humans, Intestinal Absorption, Propranolol pharmacokinetics, Solubility, Therapeutic Equivalency, Verapamil pharmacokinetics, Atenolol administration & dosage, Biopharmaceutics classification, Dosage Forms, Propranolol administration & dosage, Verapamil administration & dosage
- Abstract
Literature data related to the Biopharmaceutics Classification System (BCS) are presented on verapamil hydrochloride, propranolol hydrochloride, and atenolol in the form of BCS-monographs. Data on the qualitative composition of immediate release (IR) tablets containing these active substances with a Marketing Authorization (MA) in the Netherlands (NL) are also provided; in view of these MA's the assumption was made that these tablets were bioequivalent to the innovator product. The development of a database with BCS-related data is announced by the International Pharmaceutical Federation (FIP)., (Copyright 2004 Wiley-Liss, Inc. and the American Pharmacists Association J Pharm Sci 93:1945-1956, 2004)
- Published
- 2004
- Full Text
- View/download PDF
36. Influence of methylation process on the degree of quaternization of N-trimethyl chitosan chloride.
- Author
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Polnok A, Borchard G, Verhoef JC, Sarisuta N, and Junginger HE
- Subjects
- Chemistry, Pharmaceutical, Chitosan pharmacokinetics, Methylation, Molecular Weight, Polymers chemistry, Chitosan chemistry
- Abstract
N-Trimethyl chitosan chloride (TMC) is a soluble chitosan derivative that shows effective enhancing properties for peptide and protein drug transport across mucosal membranes. TMC was synthesized by reductive methylation of chitosan in an alkaline environment at elevated temperature. The number of methylation process steps and the base used in the process was demonstrated to affect the degree of quaternization of the primary amino group and methylation of 3- and 6-hydroxyl groups. 1H-Nuclear magnetic resonance spectra showed that the degree of quaternization of TMC was higher when using sodium hydroxide as the base compared to using dimethyl amino pyridine. The degrees of quaternization as well as O-methylation of TMC increased with the number of reaction steps. O-Methylation resulted in decreased solubility of TMC. The high degree of quaternization of TMC with a low degree of O-methylation was prepared by employing one reaction step with two subsequent addition steps and a controlled alkaline environment of the mixture reaction.
- Published
- 2004
- Full Text
- View/download PDF
37. N-trimethyl chitosan chloride as absorption enhancer in oral peptide drug delivery. Development and characterization of minitablet and granule formulations.
- Author
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van der Merwe SM, Verhoef JC, Kotzé AF, and Junginger HE
- Subjects
- Adhesives chemistry, Biological Transport drug effects, Capsules chemistry, Capsules pharmacokinetics, Chitosan chemical synthesis, Deamino Arginine Vasopressin analysis, Deamino Arginine Vasopressin chemistry, Deamino Arginine Vasopressin pharmacokinetics, Drug Evaluation, Preclinical, Excipients chemistry, Excipients pharmacokinetics, Humans, Intestinal Absorption physiology, Mucus chemistry, Pectins chemistry, Pectins pharmacokinetics, Peptides chemistry, Solubility drug effects, Tablets chemistry, Tablets pharmacokinetics, Technology, Pharmaceutical methods, Technology, Pharmaceutical trends, Time Factors, Administration, Oral, Chitosan pharmacokinetics, Drug Delivery Systems methods, Intestinal Absorption drug effects, Peptides pharmacokinetics
- Abstract
In this study, minitablet and granule formulations were developed as solid oral dosage forms for the delivery of peptide drugs with the absorption enhancer N-trimethyl chitosan chloride (TMC). Minitablets were deemed suitable as a dosage form due to their ability, as components of multiple unit dosage forms (MUDFs), to disperse from each other, before disintegration, effectively increasing the area in which the polymer can assert its absorption-enhancing effect. The polymer should be released from the dosage forms prior to the release of the peptide, which was, together with achieving maximum release of both ingredients, the main focus of this study. Desmopressin (1-(3-mercaptopropionic acid)-8-D-arginine vasopressin monoacetate (DDAVP) was used as model peptide drug. The optimized minitablet formulation consisted of two types of granules, namely DDAVP and TMC granules. DDAVP granules, containing tetraglycerol pentastearate (TGPS), were specifically aimed at delaying the release of the peptide from the dosage form. Burst release of TMC was attempted with TMC granules. Both these granule types were included in the granule formulation. Release profiles for both the optimized minitablet formulation as well as the granule formulation showed that the release of DDAVP was effectively delayed from the formulation compared to the formulation where no attempt at delaying the release was made. In comparison, more TMC was released, and at a faster rate, from the granule formulation than the optimized minitablet formulations. Both the optimized minitablet formulation and the granule formulation show suitable release profiles for the delivery of peptide drugs with TMC as absorption enhancer in solid oral dosage forms.
- Published
- 2004
- Full Text
- View/download PDF
38. Identification of an internalising peptide in differentiated Calu-3 cells by phage display technology; application to gene delivery to the airways.
- Author
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Florea BI, Molenaar TJ, Bot I, Michon IN, Kuiper J, Van Berkel TJ, Junginger HE, Biessen EA, and Borchard G
- Subjects
- Biotin, Cell Line, Tumor, DNA genetics, Humans, Ligands, Microscopy, Confocal, Polyethyleneimine, Respiratory Mucosa cytology, Respiratory Mucosa physiology, Transfection, Gene Transfer Techniques, Peptide Library, Peptides chemistry
- Abstract
Differentiated, human submucosal-gland carcinoma, Calu-3 cell monolayers were used as in vitro model for the airway epithelium. Internalised phage were selected from a recombinant pComb8 phage library by repetitive cycles of bio-panning on Calu-3 monolayers, protease K degradation, cell-lysis and amplification. After four selection rounds, sequence analysis of 15 enriched phage colonies revealed two clones of 73 and 27% abundancy, named IB1 and IB2, respectively. The IB2 sequence was eliminated due to a frame shift. IB1-phage internalisation at 4 degrees C was significantly lower (P < 0.05) than at 37 degrees C, suggesting involvement of a receptor-mediated endocytosis pathway. The IB1 peptide was synthesised, biotinylated and complexed to streptavidin. IB1/streptavidin-complexes co-administrated with PEI/DNA-polyplexes, enhanced polyplex transfection efficiency, dose dependently, by 6- and 4-fold in Calu-3 cells. IB1/Alexa488-streptavidin complexes were used for confocal laser-scanning microscopy (CLSM) visualisation and showed basolateral localisation in membrane associated and internalising vesicles. This study demonstrates the potential of phage display technology for identification of internalising peptide-epitopes that can enhance gene delivery efficiency in differentiated airway epithelial cells.
- Published
- 2003
- Full Text
- View/download PDF
39. Evaluation of the permeation of peat substances through human skin in vitro.
- Author
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Beer AM, Junginger HE, Lukanov J, and Sagorchev P
- Subjects
- Benzopyrans isolation & purification, Chromatography, High Pressure Liquid, Humans, Humic Substances isolation & purification, In Vitro Techniques, Muscle Contraction drug effects, Muscle, Smooth drug effects, Permeability, Skin Absorption, Benzopyrans pharmacokinetics, Humic Substances pharmacokinetics, Skin metabolism, Soil
- Abstract
Peat and various peat extracts have been successfully applied for a variety of clinical indications. Quite apart from the physico-thermal effects, new studies point towards the so-called "chemical effects" of peat containing substances. These effects include a stimulatory response of the spontaneous contractile activity (SCA) of smooth muscle (SM) tissue. The effects are, however, dependent on the possible permeability of pharmacologically active substances as naturally occurring ingredients of peat. Since peat is a mixture of various products it is necessary to examine the various peat types based upon their biological activity on SM tissue. In order to unequivocally prove the pharmacological activity of cutaneous peat treatment, in vitro permeation measurements of these actives across excised human skin can be used.HPLC analysis revealed that aqueous peat extracts contain up to 18 fractions of water-soluble compounds of fulvic and ulmic acids. These compounds have been found to have a stimulatory response on the contractile activity of SM tissue. In vitro diffusion studies showed that the permeability of these substances across human full thickness skin (thickness: 200 um(-1)) is highly selective and the resulting stimulatory activity is dependent on the permeated fraction. Especially, the HPLC fractions 7-11 and 14 are able to permeate human skin. Fractions 7-11 show a moderate stimulatory effect of SCA on SM for more than 90 min whereas fraction 14 shows the strongest stimulatory effect which was, however, suppressed after 87 min. These results show that the cutaneous therapy with peat treatment results in transcutaneaous permeation of biologically active fulvic and ulmic acid derivatives explaining the additional "chemical" effect of peat treatment in clinical practice.
- Published
- 2003
- Full Text
- View/download PDF
40. Buccal delivery of thiocolchicoside: in vitro and in vivo permeation studies.
- Author
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Artusi M, Santi P, Colombo P, and Junginger HE
- Subjects
- Administration, Buccal, Adult, Animals, Drug Delivery Systems, Female, Humans, Male, Taurocholic Acid pharmacology, Taurodeoxycholic Acid pharmacology, Colchicine administration & dosage, Colchicine analogs & derivatives, Colchicine pharmacokinetics, Mouth Mucosa metabolism
- Abstract
Thiocolchicoside, a muscle-relaxant agent, is administered by the oral, intra-muscular and topical route. After oral administration the extent of bioavailability compared with intra-muscular administration is low, due to a first pass effect. In this paper, the delivery of thiocolchicoside through oral mucosa is studied to improve the bioavailability. Thiocolchicoside in vitro permeation through porcine oral mucosa and in vivo buccal transport in humans were investigated. Two dosage forms, a bioadhesive disc and a fast dissolving disc for buccal and sublingual administration of thiocolchicoside, respectively, were designed. The in vitro permeation of thiocolchicoside through porcine buccal mucosa from these dosage forms was evaluated and compared with in vivo absorption. Results from in vitro studies demonstrated that thiocolchicoside is quite permeable across porcine buccal mucosa and that permeation enhancers, such as sodium taurocholate and sodium taurodeoxycholate, were not able to increase its flux. The in vivo thiocolchicoside absorption experiments, in which the drug loss from oral cavity was measured, indicated that both formulations could be useful for therapeutic application. The fast dissolving (sublingual) form resulted in a quick uptake of 0.5 mg of thiocolchicoside within 15 min whereas with the adhesive buccal form the same dose can be absorbed over an extended period of time.
- Published
- 2003
- Full Text
- View/download PDF
41. Iontophoretic delivery of apomorphine: from in-vitro modelling to the Parkinson patient.
- Author
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Junginger HE
- Subjects
- Administration, Cutaneous, Antiparkinson Agents pharmacology, Apomorphine pharmacology, Biological Transport, Clinical Trials as Topic, Dose-Response Relationship, Drug, Humans, Iontophoresis, Models, Biological, Skin metabolism, Skin Absorption, Time Factors, Antiparkinson Agents administration & dosage, Antiparkinson Agents pharmacokinetics, Apomorphine administration & dosage, Apomorphine pharmacokinetics, Parkinson Disease drug therapy
- Abstract
Apomorphine is a mixed dopamine D1/D2 receptor agonist which is potentially useful in the treatment of Parkinson's disease. The delivery of apomorphine is however complicated because it is not absorbed orally and other delivery routes with the exception of the intravenous route seem to fail. The most interesting route for controlled delivery of apomorphine is transdermal iontophoresis because this could enable the Parkinson patient to directly control the needed amount of apomorphine by increasing or decreasing the drug input in order to achieve optimal drug therapy ('on-demand') with a minimum of toxic side effects. The typical features of Parkinson's disease could be used to monitor the needed drug input and even more elegantly by means of suitable chip sensors which are able to directly measure bradykinesia, akinesia and/or tremor and to regulate in such a way the drug input. Such a chip-controlled iontophoretic system would be the first closed-loop system monitoring not pharmacokinetic data (blood levels) but more importantly externally measurable pharmacodynamic effects of Parkinson's disease. This scenario is more feasible as skin irritation and toxicity studies have proven that iontophoresis is a safe route of treatment. This review describes the basics of iontophoresis and the development of a transdermal iontophoretic delivery system on the basis of integrated pharmacokinetic/pharmacodynamic (PK/PD) investigations in patients with idiopathic Parkinson's disease. Transdermal iontophoretic transport of apomorphine was studied both in vitro with human stratum corneum using a newly developed iontophoretic continuous flow-through transport cell and in vivo in a first exploratory study in patients with Parkinson's disease. These studies showed that the delivery of apomorphine is feasible and furthermore the rate of delivery can be controlled by variation of the current densities. Additionally the pretreatment of the skin either with a mono-surfactant or a vesicular suspension of elastic liquid-state vesicles may be useful to further increase the apomorphine flux across the skin in combination with iontophoresis.
- Published
- 2002
- Full Text
- View/download PDF
42. Intestinal absorption of human insulin in pigs using delivery systems based on superporous hydrogel polymers.
- Author
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Dorkoosh FA, Verhoef JC, Borchard G, Rafiee-Tehrani M, Verheijden JH, and Junginger HE
- Subjects
- Animals, Blood Glucose drug effects, Blood Glucose metabolism, Chemistry, Pharmaceutical, Female, Humans, Hydrogels administration & dosage, Insulin administration & dosage, Insulin blood, Intestinal Absorption drug effects, Polymers administration & dosage, Porosity, Swine, Drug Delivery Systems methods, Hydrogels pharmacokinetics, Insulin pharmacokinetics, Intestinal Absorption physiology, Polymers pharmacokinetics
- Abstract
In this in vivo study, novel delivery systems based on superporous hydrogel (SPH) and SPH composite (SPHC) polymers were used to improve the intestinal absorption of insulin in healthy pigs. Six female pigs of approximately 35 kg body weight were used. A cannula was inserted into the jugular vein for blood sampling and a silicone fistula in the duodenum for administration of gelatin capsules containing the delivery systems or insulin solutions. The delivery systems consisted of two components, (1) conveyor system made of SPH and SPHC; (2) core containing insulin. The core was inserted either into the conveyor system (core inside, c.i.) or attached to the surface of conveyor system (core outside, c.o.). The following intestinal formulations were investigated: c.i., c.o. and intraduodenal (i.d.) administration of insulin solutions. Subcutaneous (s.c.) injection of insulin was also investigated for reasons of comparison. Blood samples were taken and analyzed for insulin and glucose concentrations. Relative bioavalibility values of 1.3+/-0.4 and 1.9+/-0.7% were achieved for c.o. and c.i. administrations, respectively. The bioavalibility for i.d. administration of insulin solution was 0.5+/-0.2%. These results indicate that the absorption of insulin was slightly increased using SPH/SPHC-based delivery systems. Furthermore, a large variability was observed, probably due to physiological and metabolic changes during the experiments. Blood glucose levels were slightly decreased after the c.o. and c.i administrations, whereas these levels did not decrease after i.d. administration of insulin solutions. In conclusion, SPH/SPHC-based delivery systems are able to enhance the intestinal absorption of insulin and are, therefore, considered as promising systems for peroral peptide drug delivery. However, insulin delivery from these delivery systems under in vivo have to be improved., (Copyright 2002 Elsevier Science B.V.)
- Published
- 2002
- Full Text
- View/download PDF
43. Transport of chitosan microparticles for mucosal vaccine delivery in a human intestinal M-cell model.
- Author
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van der Lubben IM, van Opdorp FA, Hengeveld MR, Onderwater JJ, Koerten HK, Verhoef JC, Borchard G, and Junginger HE
- Subjects
- B-Lymphocytes drug effects, B-Lymphocytes metabolism, B-Lymphocytes ultrastructure, Biological Transport physiology, Caco-2 Cells, Chitin pharmacokinetics, Chitosan, Coculture Techniques methods, Humans, Intestinal Mucosa drug effects, Intestinal Mucosa ultrastructure, Lymphoid Tissue drug effects, Lymphoid Tissue ultrastructure, Microspheres, Tumor Cells, Cultured, Chitin administration & dosage, Chitin analogs & derivatives, Drug Delivery Systems methods, Intestinal Mucosa metabolism, Lymphoid Tissue metabolism, Vaccines administration & dosage
- Abstract
Uptake of particulate antigen carrier systems by specialized M-cells of the gut-associated lymphoid tissue is still a limiting step in inducing efficient immune responses after oral vaccination. Although transport of soluble drugs over the epithelial barrier of the gut is extensively studied in vitro by using the Caco-2 cell model, this was for long time not possible for particles due to the absence of M-cells. By co-culturing Caco-2 cells with cultured human B-lymphocytes (Raji-cells), cells which are morphologically and functionally similar to M-cells can be induced. This human M-cells model makes it possible to study the uptake of microparticles for oral vaccine delivery. In this way, chitosan microparticles, which have demonstrated to target the Peyer's patches efficiently in vivo, could be tested in vitro. The development of this M-cells model facilitates the optimization of the microparticles in order to target them even more efficiently to the M-cells in the gut. In this study, the integrity of the human M-cell model was investigated by determining the transepithelial electrical resistance (TEER), 14C-mannitol transport and morphology using scanning electron microscopy. The uptake of particles was investigated by measuring transport of both fluorescently labeled microspheres (Fluospheres) and chitosan microparticles using flowcytometry. No discontinuities or abnormalities could be found in the co-culture. Scanning electron microscopy showed that morphologically different cells were present in the human M-cell model. Both commercially available Fluospheres (size 0.2 microm) and chitosan microparticles (size 1.7 microm) for oral vaccine delivery were transported at a significantly higher amount by the human M-cell model compared to the transport by the Caco-2 cell monoculture. Since chitosan microparticles were proven to be taken up by Peyer's patches in mice as well, this human M-cell model is able to predict the M-cell uptake of microparticles for oral vaccine delivery. This M-cell model is a new tool, which can be used to scan, develop and optimize microparticles for oral vaccine delivery. Since the M-cell uptake can now be studied in vitro, the targeting of these cells can be studied more efficiently and can now be done in cells from human origin.
- Published
- 2002
- Full Text
- View/download PDF
44. Buccal transport of flecainide and sotalol: effect of a bile salt and ionization state.
- Author
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Deneer VH, Drese GB, Roemelé PE, Verhoef JC, Lie-A-Huen L, Kingma JH, Brouwers JR, and Junginger HE
- Subjects
- Animals, Anti-Arrhythmia Agents chemistry, Cheek, Chromatography, High Pressure Liquid, Flecainide chemistry, Glycocholic Acid pharmacology, Hydrogen-Ion Concentration, In Vitro Techniques, Mouth Mucosa drug effects, Permeability, Pharmaceutical Solutions, Sotalol chemistry, Swine, Anti-Arrhythmia Agents pharmacokinetics, Bile Acids and Salts pharmacology, Flecainide pharmacokinetics, Mouth Mucosa metabolism, Sotalol pharmacokinetics
- Abstract
Patients with infrequent attacks of supraventricular arrhythmia may benefit from self administration of antiarrhythmic drugs on an 'as required' basis. The oral cavity is easily accessible and the potential for rapid absorption exists. The effects of ionization state and sodium glycocholate on the ex vivo transport of sotalol and flecainide across porcine buccal mucosa were studied. The permeated amounts at 3 h (Q) and fluxes (J) of sotalol in an aqueous solution at pH 7.4 and 9.0 were similar. At pH 7.4, in contrast to pH 9.0, the addition of 1.0% (w/v) sodium glycocholate decreased Q and J four and five fold. Flecainide base in propylene glycol resulted in a nine and 12 fold higher Q and J as compared with an aqueous solution of flecainide acetate at pH 5.8. The presence of sodium glycocholate reduced the transport rate of the flecainide base. However, Q and J were increased 110 and 75 fold by adding 1.0% (w/v) sodium glycocholate to a solution of flecainide acetate at pH 5.8. Sodium glycocholate seems to be an effective penetration enhancer for the buccal absorption of the more polar ionized form of flecainide in an aqueous solution. Sodium glycocholate does not seem to improve the transport of sotalol.
- Published
- 2002
- Full Text
- View/download PDF
45. Quaternized chitosan oligomers as novel gene delivery vectors in epithelial cell lines.
- Author
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Thanou M, Florea BI, Geldof M, Junginger HE, and Borchard G
- Subjects
- Animals, Blood, COS Cells, Caco-2 Cells, Cattle, Chitosan, DNA administration & dosage, Humans, Plasmids, Transfection, Chitin analogs & derivatives, Epithelial Cells metabolism, Genetic Vectors, Polymers
- Abstract
Quaternized modifications of chitosan present characteristics that might be useful in DNA condensing and efficient gene delivery. Trimethylated chitosan (TMO) was synthesized from oligomeric chitosan (<20 monomer units). TMOs spontaneously formed complexes (chitoplexes) with RSV-alpha3 luciferase plasmid DNA. These complexes were characterized by photon correlation spectroscopy and were investigated for their ability to transfect COS-1 and Caco-2 cell lines in the presence and absence of fetal calf serum and compared with DOTAP (N-[1-(2,3-dioleoyloxy)propyl]-N,N,N-trimethylammonium sulphate) lipoplexes. Additionally, their effect on the viability of the respective cell cultures was investigated using the 3-[4,5-dimethylthiazol-2-yl]-2,5-diphenyl tetrazolium bromide (MTT) assay. Results showed that quaternized chitosan oligomers were able to condense DNA and form complexes with a size ranging from 200 to 500 nm. Chitoplexes proved to transfect COS-1 cells, however, to a lesser extent than DOTAP-DNA lipoplexes. The quaternized oligomer derivatives appeared to be superior to oligomeric chitosan. The presence of fetal calf serum (FCS) did not affect the transfection efficiency of the chitoplexes, whereas the transfection efficiency of DOTAP DNA complexes was decreased. Cells remained 100% viable in the presence of chitosan oligomers whereas viability of DOTAP treated cells decreased to approximately 50% in both cell lines. Both DOTAP-DNA lipoplexes and chitoplexes resulted in less transfection efficiency in Caco-2 cell cultures than in COS-1 cells; however quaternized chitosan oligomers proved to be superior to DOTAP. Effects on the viability of Caco-2 cells were similar to the effects observed in COS-1 cells. We conclude that trimethylated chitosan-DNA complexes present suitable characteristics and the potential to be used as gene delivery vectors.
- Published
- 2002
- Full Text
- View/download PDF
46. Evidence of P-glycoprotein mediated apical to basolateral transport of flunisolide in human broncho-tracheal epithelial cells (Calu-3).
- Author
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Florea BI, van der Sandt IC, Schrier SM, Kooiman K, Deryckere K, de Boer AG, Junginger HE, and Borchard G
- Subjects
- ATP Binding Cassette Transporter, Subfamily B, Member 1 antagonists & inhibitors, ATP Binding Cassette Transporter, Subfamily B, Member 1 metabolism, Animals, Biological Transport drug effects, Bronchi cytology, Bronchi metabolism, Cell Line, Cell Polarity, Cell Survival, Cyclosporins pharmacology, Deoxyglucose pharmacology, Dibenzocycloheptenes pharmacology, Epithelial Cells cytology, Humans, Immunoblotting, Mass Spectrometry, Microscopy, Confocal, Quinolines pharmacology, Sodium Azide pharmacology, Temperature, Time Factors, Trachea cytology, Trachea metabolism, Verapamil pharmacology, ATP Binding Cassette Transporter, Subfamily B, Member 1 physiology, Epithelial Cells metabolism, Fluocinolone Acetonide analogs & derivatives, Fluocinolone Acetonide metabolism
- Abstract
1. Transepithelial transport of flunisolide was studied in reconstituted cell monolayers of Calu-3, LLC-PK1 and the MDR1-P-glycoprotein transfected LLC-MDR1 cells. 2. Flunisolide transport was polarized in the apical (ap) to basolateral (bl) direction in Calu-3 cells and was demonstrated to be ATP-dependent. In LLC-MDR1 cells, flunisolide was transported in the bl to ap direction and showed no polarization in LLC-PK1 cells. 3. Non-specific inhibition of cellular metabolism at low temperature (4 degrees C) or by 2-deoxy-D-glucose (2-d-glu) and sodium azide (NaN(3)) abolished the polarized transport. Polarized flunisolide transport was also inhibited by the specific Pgp inhibitors verapamil, SDZ PSC 833 and LY335979. 4. Under all experimental conditions and in the presence of all used inhibitors, no decrease in the TransEpithelial Electrical Resistance (TEER) values was detected. From all inhibitors used, only the general metabolism inhibitors 2-deoxy-D-glucose and NaN(3), decreased the survival of Calu-3 cells. 5. Western blotting analysis and confocal laser scanning microscopy demonstrated the presence of MDR1-Pgp at mainly the basolateral side of the plasma membrane in Calu-3 cells and at the apical side in LLC-MDR1 cells. Mass spectroscopy studies demonstrated that flunisolide is transported unmetabolized across Calu-3 cells. 6. In conclusion, these results show that the active ap to bl transport of flunisolide across Calu-3 cells is facilitated by MDR1-Pgp located in the basolateral plasma membrane.
- Published
- 2001
- Full Text
- View/download PDF
47. Oral drug absorption enhancement by chitosan and its derivatives.
- Author
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Thanou M, Verhoef JC, and Junginger HE
- Subjects
- Administration, Oral, Animals, Chitin analogs & derivatives, Chitosan, Excipients, Humans, Intestinal Mucosa drug effects, Intestinal Mucosa metabolism, Chitin pharmacology, Intestinal Absorption drug effects, Pharmaceutical Preparations administration & dosage
- Abstract
Chitosan is a non-toxic, biocompatible polymer that has found a number of applications in drug delivery including that of absorption enhancer of hydrophilic macromolecular drugs. Chitosan, when protonated (pH<6.5), is able to increase the paracellular permeability of peptide drugs across mucosal epithelia. Chitosan derivatives have been evaluated to overcome chitosan's limited solubility and effectiveness as absorption enhancer at neutral pH values such as those found in the intestinal tract. Trimethyl chitosan chloride (TMC) has been synthesized at different degrees of quaternization. This quaternized polymer forms complexes with anionic macromolecules and gels or solutions with cationic or neutral compounds in aqueous environments and neutral pH values. TMC has been shown to considerably increase the permeation and/or absorption of neutral and cationic peptide analogs across intestinal epithelia. The mechanism by which TMC enhances intestinal permeability is similar to that of protonated chitosan. It reversibly interacts with components of the tight junctions, leading to widening of the paracellular routes. Mono-carboxymethylated chitosan (MCC) is a polyampholytic polymer, able to form visco-elastic gels in aqueous environments or with anionic macromolecules at neutral pH values. MCC appears to be less potent compared to the quaternized derivative. Nevertheless, MCC was found to increase the permeation and absorption of low molecular weight heparin (LMWH; an anionic polysaccharide) across intestinal epithelia. Neither chitosan derivative provokes damage of the cell membrane, and therefore they do not alter the viability of intestinal epithelial cells.
- Published
- 2001
- Full Text
- View/download PDF
48. Chitosan for mucosal vaccination.
- Author
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van der Lubben IM, Verhoef JC, Borchard G, and Junginger HE
- Subjects
- Administration, Intranasal, Administration, Oral, Animals, Chitosan, Drug Carriers, Excipients, Humans, Mucous Membrane metabolism, Vaccines pharmacokinetics, Chitin analogs & derivatives, Vaccination, Vaccines administration & dosage
- Abstract
The striking advantage of mucosal vaccination is the production of local antibodies at the sites where pathogens enter the body. Because vaccines alone are not sufficiently taken up after mucosal administration, they need to be co-administered with penetration enhancers, adjuvants or encapsulated in particles. Chitosan easily forms microparticles and nanoparticles which encapsulate large amounts of antigens such as ovalbumin, diphtheria toxoid or tetanus toxoid. It has been shown that ovalbumin loaded chitosan microparticles are taken up by the Peyer's patches of the gut associated lymphoid tissue (GALT). This unique uptake demonstrates that chitosan particulate drug carrier systems are promising candidates for oral vaccination. Additionally, after co-administering chitosan with antigens in nasal vaccination studies, a strong enhancement of both mucosal and systemic immune responses is observed. This makes chitosan very suitable for nasal vaccine delivery. In conclusion, chitosan particles, powders and solutions are promising candidates for mucosal vaccine delivery. Mucosal vaccination not only reduces costs and increases patient compliance, but also complicates the invasion of pathogens through mucosal sites.
- Published
- 2001
- Full Text
- View/download PDF
49. Modern drug delivery applications of chitosan.
- Author
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Borchard G and Junginger HE
- Subjects
- Chitosan, Drug Delivery Systems, Chitin analogs & derivatives, Chitin chemistry, Excipients
- Published
- 2001
- Full Text
- View/download PDF
50. Enhancement of the intestinal absorption of low molecular weight heparin (LMWH) in rats and pigs using Carbopol 934P.
- Author
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Thanou M, Verhoef JC, Nihot MT, Verheijden JH, and Junginger HE
- Subjects
- Animals, Antibodies analysis, Anticoagulants administration & dosage, Area Under Curve, Duodenum metabolism, Excipients, Factor Xa metabolism, Female, Heparin, Low-Molecular-Weight administration & dosage, Intubation, Gastrointestinal, Male, Rats, Rats, Wistar, Swine, Acrylates chemistry, Anticoagulants pharmacokinetics, Heparin, Low-Molecular-Weight pharmacokinetics, Intestinal Absorption drug effects
- Published
- 2001
- Full Text
- View/download PDF
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