Your search keyword '"Amidon G"' showing total 242 results

1. Enhanced cytosolic delivery of plasmid DNA by a sulfhydryl-activatable listeriolysin O/protamine conjugate utilizing cellular reducing potential

Author

Saito, G, Amidon, G L, and Lee, K-D

Published

2003

2. Bioequivalence of Oral Products and the Biopharmaceutics Classification System: Science, Regulation, and Public Policy

Author

Amidon, K S, Langguth, P, Lennernäs, H, Yu, L, and Amidon, G L

Published

2011

3. Scaleup of Oral Extended-Release Dosage Forms

Author

Skelly, J. P., Van Buskirk, G. A., Arbit, H. M., Amidon, G. L., Augsburger, L., Barr, W. H., Berge, S., Clevenger, J., Dighe, S., Fawzi, M., Fox, D., Gonzalez, M. A., Gray, V. A., Hoiberg, C., Leeson, L. J., Lesko, L., Malinowski, H., Nixon, P. R., Pearce, D. M., Peck, G., Porter, S., Robinson, J., Savello, D. R., Schwartz, P., Schwartz, J. B., Shah, V. P., Shangraw, R., Theeuwes, F., and Wheatley, T.

Published

1993

4. Scaleup of Immediate Release Oral Solid Dosage Forms

Author

Skelly, J. P., Van Buskirk, G. A., Savello, D. R., Amidon, G. L., Arbit, H. M., Dighe, S., Fawzi, M. B., Gonzalez, M. A., Malick, A. W., Malinowski, H., Nedich, R., Peck, G. E., Pearce, D. M., Shah, V., Shangraw, R. F., Schwartz, J. B., and Truelove, J.

Published

1993

5. Im mune response with biodegradable nanospheres and alum : studies in rabbits using staphylococcal enterotoxin B-toxoid.

Author

Desai, M. P., Hilfinger, J. M., Amidon, G. L., Levy, R. J., and Labhasetwar, V.

Subjects

NANOPARTICLES, BACTERIAL toxins, ALUM

Abstract

In this study, the adjuvant effect of the sustained release biodegradable nanospheres (100-150nm in diameter) has been compared with alum. Nanospheres were formulated using a biodegradable polylactic polyglycolic acid copolymer (PLGA, 50:50) containing Staphylococcal Enterotoxin B (SEB) toxoid as a model vaccine antigen. Systemic immune response of the nanospheres containing toxoid was studied in rabbits by subcutaneous immunization. The data demonstrated that 30%of the toxoid activity was lost following its encapsulation into nanospheres. Under in vitro conditions, nanospheres demonstrated sustained release of the toxoid. However, only 20% of the antigenic toxoid was released over the first 2 weeks of the release study. Immunization of animals with equal doses of toxoid, either using nanospheres or alum induced a comparable systemic immune response (IgG, IgM and IgA). The immune response reached a maximum level at 7 weeks post-immunization, which then gradually declined with time. The booster dose of toxoid at 19 weeks, either using alum or nanospheres induced similar immune response in both the groups, but was greater than the primary immune response. The studies, thus, suggest that biodegradable nanospheres could be used as a vaccine adjuvant. [ABSTRACT FROM AUTHOR]

Published

2000

6. Effects of viscosity and fluid outflow on postcibal gastric emptying of solids.

Author

MEYER, J. H., GU, Y., ELASHOFF, J., REEDY, T., DRESSMAN, J., and AMIDON, G.

Published

1986

7. Absorption of Peptide and Peptidomimetic Drugs.

Author

Amidon, G L and Lee, H J

Published

1994

8. In vitro and in vivo asessment of adenovirus 41 as a vector for gene delivery to the intestine.

Author

Croyle, M A, Stone, M, Amidon, G L, and Roessler, B J

Subjects

ADENOVIRUSES, GENETIC transformation, GENETIC vectors

Abstract

In order to identify suitable adenoviral vectors for efficient delivery of transgenic proteins and peptides to the intestine, the ability of adenovirus types 5 and 41 (an enterotropic serotype) to bind to and enter undifferentiated and differentiated enterocytes was assessed. FACS analysis showed no significant difference between the virions in their ability to bind to undifferentiated Caco-2 cells as 81.6% of the cellular population bound adenovirus 5 (Ad 5) and 79.8% bound Ad 41. Both virions were also efficiently internalized in this cell type as 99.6% of the cells took up Ad 5, while 95.9% took up Ad 41. In studies with differen- tiated enterocytes, probable targets for oral gene delivery but rather resistant to adenovirus-mediated gene transfer, 28.4% of the population internalized the Ad 5 vector and less than 10% bound the virus. Adenovirus 41 was efficiently internalized in differentiated enterocytes as 89.6% of the cellular population took up the virus while 37.4% bound the virus. These results were consistent with those observed in vivo in rat jejunum. Thus, molecularly engineered Ad 41-based recombinants could be highly efficient vectors for delivery of transgenic proteins to differentiated enterocytes. [ABSTRACT FROM AUTHOR]

Published

1998

9. Biowaiver monographs for immediate release solid oral dosage forms: Pyrazinamide.

Author

Becker, C., Dressman, J. B., Amidon, G. L., Junginger, H. E., Kopp, S., Midha, K. K., Shah, V. P., Stavchansky, S., and Barends, D. M.

Subjects

*PYRAZINAMIDE, *BIOPHARMACEUTICAL research, *SOLID dosage forms, *THERAPEUTIC equivalency in drugs, *ANTITUBERCULAR agents

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. © 2008 Wiley-Liss, Inc. and the American Pharmacists Association J Pharm Sci 97:3709–3720, 2008 [ABSTRACT FROM AUTHOR]

Published

2008

10. Biowaiver monographs for immediate release solid oral dosage forms: ethambutol dihydrochloride.

Author

Becker, C., Dressman, J. B., Amidon, G. L., Junginger, H. E., Kopp, S., Midha, K. K., Shah, V. P., Stavchansky, S., and Barends, D. M.

Subjects

*BIOPHARMACEUTICS, *OCULAR toxicology, *DRUG dosage, *THERAPEUTICS

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. and the American Pharmacists Association J Pharm Sci 97:1350–1360, 2008 [ABSTRACT FROM AUTHOR]

Published

2008

11. Biowaiver monographs for immediate release solid oral dosage forms: Isoniazid.

Author

Becker, C., Dressman, J. B., Amidon, G. L., Junginger, H. E., Kopp, S., Midha, K. K., Shah, V. P., Stavchansky, S., and Barends, D. M.

Subjects

*ISONIAZID, *THERAPEUTIC equivalency in drugs, *DRUG dosage, *BIOPHARMACEUTICS, *LACTOSE

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 J Pharm Sci [ABSTRACT FROM AUTHOR]

Published

2007

12. Biowaiver monographs for immediate release solid oral dosage forms: Amitriptyline hydrochloride.

Author

Manzo, R. H., Olivera, M. E., Amidon, G. L., Shah, V. P., Dressman, J. B., and Barends, D. M.

Subjects

*BIOPHARMACEUTICS, *DRUG bioavailability, *THERAPEUTIC equivalency in drugs, *ABSORPTION (Physiology), *SOLUBILITY

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 amitriptyline hydrochloride are reviewed. Its therapeutic uses, its pharmacokinetic properties, the possibility of excipient interactions and reported BE/bioavailability (BA) problems are also taken into consideration. Literature data indicates that amitriptyline hydrochloride is a highly permeable active pharmaceutical ingredient (API). Data on the solubility according to the current Biopharmaceutics Classification System (BCS) were not fully available and consequently amitriptyline hydrochloride could not be definitively assigned to either BCS Class I or BCS Class II. But all evidence taken together, a biowaiver can currently be recommended provided that IR tablets are formulated with excipients used in existing approved products and that the dissolution meets the criteria defined in the Guidances. © 2006 Wiley-Liss, Inc. and the American Pharmacists Association J Pharm Sci 95:966–973, 2006 [ABSTRACT FROM AUTHOR]

Published

2006

13. Biowaiver monographs for immediate release solid oral dosage forms: Doxycycline hyclate.

Author

Jantratid, E., Strauch, S., Becker, C., Dressman, J. B., Amidon, G. L., Junginger, H. E., Kopp, S., Midha, K. K., Shah, V. P., Stavchansky, S., and Barends, D. M.

Subjects

*BIOPHARMACEUTICS, *PHARMACEUTICAL industry, *THERAPEUTICS, *STABILIZING agents, *EXCIPIENTS

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 J Pharm Sci 99: 1639–1653, 2010 [ABSTRACT FROM AUTHOR]

Published

2010

14. Biowaiver monographs for immediate release solid oral dosage forms: Diclofenac sodium and diclofenac potassium.

Author

Chuasuwan, B., Binjesoh, V., Polli, J. E., Zhang, H., Amidon, G. L., Junginger, H. E., Midha, K. K., Shah, V. P., Stavchansky, S., Dressman, J. .B, and Barends, D. M.

Subjects

*ANTI-inflammatory agents, *DICLOFENAC, *DRUGS, *BIOPHARMACEUTICS, *PHARMACEUTICAL industry

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. © 2008 Wiley-Liss, Inc. and the American Pharmacists Association J Pharm Sci 98:1206–1219, 2009 [ABSTRACT FROM AUTHOR]

Published

2009

15. Biowaiver monographs for immediate release solid oral dosage forms: Aciclovir.

Author

Arnal, J., Gonzalez-Alvarez, I., Bermejo, M., Amidon, G. L., Junginger, H. E., Kopp, S., Midha, K. K., Shah, V. P., Stavchansky, S., Dressman, J. B., and Barends, D. M.

Subjects

*ACYCLOVIR, *DOSAGE forms of drugs, *SOLID dosage forms, *PHARMACOKINETICS, *DRUG tablets

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. © 2008 Wiley-Liss, Inc. and the American Pharmacists Association J Pharm Sci 97:5061–5073, 2008 [ABSTRACT FROM AUTHOR]

Published

2008

16. Biowaiver monographs for immediate release solid oral dosage forms: Cimetidine.

Author

Jantratid, E., Prakongpan, S., Dressman, J. B., Amidon, G. L., Junginger, H. E., Midha, K. K., and Barends, D. M.

Subjects

*CIMETIDINE, *THERAPEUTIC equivalency in drugs, *PHARMACOKINETICS, *BIOAVAILABILITY, *SOLUBILITY

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. © 2006 Wiley-Liss, Inc. and the American Pharmacists Association J Pharm Sci 95:974–984, 2006 [ABSTRACT FROM AUTHOR]

Published

2006

17. Human postprandial gastric emptying of 1-3-millimeter spheres

Author

Amidon, G

Published

1988

18. Evaluating the IVIVC by Combining Tiny-tim Outputs and Compartmental PK Model to Predict Oral Exposure for Different Formulations of Ibuprofen.

Author

Chiang PC, Liu J, Nagapudi K, Wu R, Dolton MJ, Salehi N, and Amidon G

Subjects

Delayed-Action Preparations pharmacokinetics, Humans, Solubility, Drug Industry, Ibuprofen

Abstract

Nowadays, the ever-increasing costs of research and development in the pharmaceutical industry have created a big demand for predicting the performances of drug candidates. Of those, the desire to establish an in vitro-in vivo correlation (IVIVC) to better predict the oral drug exposure for different drug products is a growing need. Once a robust IVIVC is established, the performance of different drug products can be predicted and selected for testing in clinical trials with greater confidence. This tool will significantly reduce the cost and speed of drug development and provide new therapy to the patient faster. In this study, we explore combining the outputs of Triskelion's Gastro-Intestinal Model (Tiny-TIM) and multi-compartment pharmacokinetic model for a 200 mg ibuprofen product. The Loo-Riegelman method was used to calculate the amount of ibuprofen absorbed and was combined with the Tiny-TIM data to establish the IVIVC. The IVIVC was used to predict the exposures of both fast release and liquid gel formulations in humans. In general, the predicted exposure using Tiny-TIM-based IVIVC has good agreement with the clinical findings., Competing Interests: Conflict of Interest The authors declare no conflict of interest in this work., (Copyright © 2022 American Pharmacists Association. Published by Elsevier Inc. All rights reserved.)

Published

2022

19. Effect of Spray-Dried Particle Morphology on Mechanical and Flow Properties of Felodipine in PVP VA Amorphous Solid Dispersions.

Author

Ekdahl A, Mudie D, Malewski D, Amidon G, and Goodwin A

Subjects

Calorimetry, Differential Scanning methods, Chemistry, Pharmaceutical methods, Crystallization methods, Desiccation methods, Drug Compounding methods, Powders chemistry, Solubility drug effects, Tablets chemistry, X-Ray Diffraction methods, Felodipine chemistry, Povidone chemistry, Pyrrolidines chemistry, Vinyl Compounds chemistry

Abstract

Amorphous solid dispersions (ASDs) are commonly used to enhance the oral absorption of drugs with solubility or dissolution rate limitations. Although the ASD formulation is typically constrained by physical stability and in vivo performance considerations, ASD particles can be engineered using the spray-drying process to influence mechanical and flow properties critical to tableting. Using the ASD formulation of 20% w/w felodipine dispersed in polyvinyl pyrrolidone vinyl acetate, spray-drying atomization and drying conditions were tuned to achieve 4 different powders with varying particle properties. The resulting particles ranged in volume moment mean diameter from 4 to 115 μm, bulk density from 0.05 to 0.38 g cm -3 , and morphologies of intact, collapsed, and fractured hollow spheres. Powder flowability by shear cell ranged from poor to easy flowing, whereas mechanical property tests suggested all samples will produce strong tablets at reasonable solid fractions and compression pressures. In addition, Hiestand dynamic tableting indices showed excellent dynamic bonding for 3 powders, and low viscoelasticity with high brittleness for all powders. This work demonstrates the extent spray-dried ASD particle morphologies can be engineered to achieve desired powder flow and mechanical properties to mitigate downstream processing risks and increase process throughput., (Copyright © 2019 The Authors. Published by Elsevier Inc. All rights reserved.)

Published

2019

20. Simulated, biorelevant, clinically relevant or physiologically relevant dissolution media: The hidden role of bicarbonate buffer.

Author

Amaral Silva D, Al-Gousous J, Davies NM, Bou Chacra N, Webster GK, Lipka E, Amidon G, and Löbenberg R

Subjects

Buffers, Chemistry, Pharmaceutical methods, Drug Compounding methods, Drug Liberation drug effects, Humans, Hydrogen-Ion Concentration, Intestine, Small metabolism, Phosphates chemistry, Solubility drug effects, Technology, Pharmaceutical methods, Bicarbonates chemistry

Abstract

In-vitro dissolution testing of pharmaceutical formulations has been used as a quality control test for many years. At early drug product development, in vivo predictive dissolution testing can be used for guidance in the rational selection of candidate formulations that best fit the desired in vivo dissolution characteristics. At present, the most widely applied dissolution media are phosphate-based buffers and, in some cases, the result of dissolution tests performed in such media have demonstrated reasonable/acceptable IVIVCs. However, the presence of phosphates in human GI luminal fluids is insignificant, which makes the use of such media poorly representative of the in vivo environment. The gastrointestinal lumen has long been shown to be buffered by bicarbonate. Hence, much interest in the development of suitable biorelevant in vitro dissolution media based on bicarbonate buffer systems has evolved. However, there are inherent difficulties associated with these buffers, such as maintaining the pH throughout the dissolution test, as CO 2 tends to leave the system. Various mathematical models have been proposed to analyze bicarbonate buffers and they are discussed in this review. Approaches such as using simpler buffer systems instead of bicarbonate have been proposed as surrogate buffers to produce an equivalent buffer effect on drug dissolution on a case-by-case basis. There are many drawbacks related to simpler buffers systems including their poor in vivo predictability. Considerable discrepancies between phosphate and bicarbonate buffer dissolution results have been reported for certain dosage forms, e.g. enteric coated formulations. The role and need of bicarbonate-based buffers in quality control testing requires scientific analysis. This review also encompasses on the use of bicarbonate-based buffers as a potentially in vivo predictive dissolution medium for enteric coated dosage forms., (Copyright © 2019 Elsevier B.V. All rights reserved.)

Published

2019

21. Mechanistic analysis and experimental verification of bicarbonate-controlled enteric coat dissolution: Potential in vivo implications.

Author

Al-Gousous J, Ruan H, Blechar JA, Sun KX, Salehi N, Langguth P, Job NM, Lipka E, Loebenberg R, Bermejo M, Amidon GE, and Amidon GL

Subjects

Acetaminophen chemistry, Acetaminophen pharmacokinetics, Buffers, Capsules, Chemistry, Pharmaceutical methods, Excipients chemistry, Humans, Hydrogen-Ion Concentration, Hypromellose Derivatives chemistry, Intestinal Mucosa chemistry, Intestine, Small chemistry, Mesalamine chemistry, Mesalamine pharmacokinetics, Solubility, Bicarbonates chemistry, Drug Liberation, Intestinal Mucosa metabolism, Intestine, Small metabolism, Models, Chemical

Abstract

Enteric coatings have shown in vivo dissolution rates that are poorly predicted by traditional in vitro tests, with the in vivo dissolution being considerably slower than in vitro. To provide a more mechanistic understanding of this, the dependence of the release properties of various enteric-coated (EC) products on bulk pH and bicarbonate molarity was investigated. It was found that, at presumably in vivo-relevant values, the bicarbonate molarity is a more significant determinant of the dissolution profile than the bulk pH. The findings also indicate that this steep relationship between the dissolution of enteric coatings and bicarbonate molarity limits those coatings' performance in vivo. This is attributed to the relatively low bicarbonate molarities in human intestinal fluids. Further, the hydration and dehydrations kinetics of carbonic acid and carbon dioxide are not sufficiently rapid to reach equilibrium in the diffusion layer surrounding a dissolving ionizable solid. This results in the effective pKa of bicarbonate in the diffusion layer being lower than that determined potentiometrically at equilibrium in the bulk surrounding fluid. These results demonstrate the importance of thoroughly investigating the intestinal bicarbonate concentrations and using bicarbonate buffers or properly designed surrogates (if possible) when evaluating enteric drug products during product development and quality control., (Copyright © 2019 Elsevier B.V. All rights reserved.)

Published

2019

22. Low Buffer Capacity and Alternating Motility along the Human Gastrointestinal Tract: Implications for in Vivo Dissolution and Absorption of Ionizable Drugs.

Author

Hens B, Tsume Y, Bermejo M, Paixao P, Koenigsknecht MJ, Baker JR, Hasler WL, Lionberger R, Fan J, Dickens J, Shedden K, Wen B, Wysocki J, Loebenberg R, Lee A, Frances A, Amidon G, Yu A, Benninghoff G, Salehi N, Talattof A, Sun D, and Amidon GL

Subjects

Absorption, Physiological, Administration, Oral, Adult, Body Fluids physiology, Buffers, Drug Liberation, Healthy Volunteers, Humans, Hydrogen-Ion Concentration, Intestinal Mucosa physiology, Manometry, Middle Aged, Solubility, Tablets, Therapeutic Equivalency, Time Factors, Young Adult, Body Fluids chemistry, Gastrointestinal Motility physiology, Gastrointestinal Tract physiology, Ibuprofen pharmacokinetics, Intestinal Absorption physiology

Abstract

In this study, we determined the pH and buffer capacity of human gastrointestinal (GI) fluids (aspirated from the stomach, duodenum, proximal jejunum, and mid/distal jejunum) as a function of time, from 37 healthy subjects after oral administration of an 800 mg immediate-release tablet of ibuprofen (reference listed drug; RLD) under typical prescribed bioequivalence (BE) study protocol conditions in both fasted and fed states (simulated by ingestion of a liquid meal). Simultaneously, motility was continuously monitored using water-perfused manometry. The time to appearance of phase III contractions (i.e., housekeeper wave) was monitored following administration of the ibuprofen tablet. Our results clearly demonstrated the dynamic change in pH as a function of time and, most significantly, the extremely low buffer capacity along the GI tract. The buffer capacity on average was 2.26 μmol/mL/ΔpH in fasted state (range: 0.26 and 6.32 μmol/mL/ΔpH) and 2.66 μmol/mL/ΔpH in fed state (range: 0.78 and 5.98 μmol/mL/ΔpH) throughout the entire upper GI tract (stomach, duodenum, and proximal and mid/distal jejunum). The implication of this very low buffer capacity of the human GI tract is profound for the oral delivery of both acidic and basic active pharmaceutical ingredients (APIs). An in vivo predictive dissolution method would require not only a bicarbonate buffer but also, more significantly, a low buffer capacity of dissolution media to reflect in vivo dissolution conditions.

Published

2017

23. Mechanistic Oral Absorption Modeling and Simulation for Formulation Development and Bioequivalence Evaluation: Report of an FDA Public Workshop.

Author

Zhang X, Duan J, Kesisoglou F, Novakovic J, Amidon GL, Jamei M, Lukacova V, Eissing T, Tsakalozou E, Zhao L, and Lionberger R

Subjects

Administration, Oral, Chemistry, Pharmaceutical, Computer Simulation, Humans, Therapeutic Equivalency, United States, United States Food and Drug Administration, Models, Theoretical, Pharmaceutical Preparations administration & dosage

Abstract

On May 19, 2016, the US Food and Drug Administration (FDA) hosted a public workshop, entitled "Mechanistic Oral Absorption Modeling and Simulation for Formulation Development and Bioequivalence Evaluation." The topic of mechanistic oral absorption modeling, which is one of the major applications of physiologically based pharmacokinetic (PBPK) modeling and simulation, focuses on predicting oral absorption by mechanistically integrating gastrointestinal transit, dissolution, and permeation processes, incorporating systems, active pharmaceutical ingredient (API), and the drug product information, into a systemic mathematical whole-body framework., (© 2017 The Authors CPT: Pharmacometrics & Systems Pharmacology published by Wiley Periodicals, Inc. on behalf of American Society for Clinical Pharmacology and Therapeutics.)

Published

2017

24. In Vivo Predictive Dissolution (IPD) and Biopharmaceutical Modeling and Simulation: Future Use of Modern Approaches and Methodologies in a Regulatory Context.

Author

Lennernäs H, Lindahl A, Van Peer A, Ollier C, Flanagan T, Lionberger R, Nordmark A, Yamashita S, Yu L, Amidon GL, Fischer V, Sjögren E, Zane P, McAllister M, and Abrahamsson B

Subjects

Administration, Oral, Biopharmaceutics methods, Gastrointestinal Absorption physiology, Humans, Models, Biological, Solubility, Gastrointestinal Tract metabolism, Pharmaceutical Preparations chemistry, Pharmaceutical Preparations metabolism

Abstract

The overall objective of OrBiTo, a project within Innovative Medicines Initiative (IMI), is to streamline and optimize the development of orally administered drug products through the creation and efficient application of biopharmaceutics tools. This toolkit will include both experimental and computational models developed on improved understanding of the highly dynamic gastrointestinal (GI) physiology relevant to the GI absorption of drug products in both fasted and fed states. A part of the annual OrBiTo meeting in 2015 was dedicated to the presentation of the most recent progress in the development of the regulatory use of PBPK in silico modeling, in vivo predictive dissolution (IPD) tests, and their application to biowaivers. There are still several areas for improvement of in vitro dissolution testing by means of generating results relevant for the intraluminal conditions in the GI tract. The major opportunity is probably in combining IPD testing and physiologically based in silico models where the in vitro data provide input to the absorption predictions. The OrBiTo project and other current research projects include definition of test media representative for the more distal parts of the GI tract, models capturing supersaturation and precipitation phenomena, and influence of motility waves on shear and other forces of hydrodynamic origin, addressing the interindividual variability in composition and characteristics of GI fluids, food effects, definition of biorelevant buffer systems, and intestinal water volumes. In conclusion, there is currently a mismatch between the extensive industrial usage of modern in vivo predictive tools and very limited inclusion of such data in regulatory files. However, there is a great interest among all stakeholders to introduce recent progresses in prediction of in vivo GI drug absorption into regulatory context.

Published

2017

25. Characterization of Synthesized and Commercial Forms of Magnesium Stearate Using Differential Scanning Calorimetry, Thermogravimetric Analysis, Powder X-Ray Diffraction, and Solid-State NMR Spectroscopy.

Author

Delaney SP, Nethercott MJ, Mays CJ, Winquist NT, Arthur D, Calahan JL, Sethi M, Pardue DS, Kim J, Amidon G, and Munson EJ

Subjects

Calorimetry, Differential Scanning, Lubricants chemical synthesis, Magnetic Resonance Spectroscopy, Powder Diffraction, Stearic Acids chemical synthesis, Tablets, Thermogravimetry, X-Ray Diffraction, Lubricants chemistry, Stearic Acids chemistry

Abstract

Magnesium stearate is the salt of a complex mixture of fatty acids, with the majority being stearate and palmitate. It has multiple crystalline forms and, potentially, an amorphous form. Magnesium stearate is used in the pharmaceutical manufacturing industry as a powder lubricant, and typically is added at low levels (∼1%) during the manufacturing process and blended for a relatively short time (∼5 min). Proper levels and mixing times are needed, as too short a mixing time or too small a quantity will result in improper lubrication, and too much can negatively impact dissolution rates. The complex mixture of multiple fatty acids and crystalline forms in magnesium stearate leads to variability between commercial sources, and switching between sources can impact both the amount of lubricant and mixing time needed for proper lubrication. In order to better understand the complex nature of magnesium stearate, a variety of analytical techniques were used to characterize both synthesized and commercial magnesium stearate samples. The results show that correlation among differential scanning calorimetry, thermogravimetric analysis, solid-state NMR spectroscopy, and other techniques provides a unique insight into the forms of magnesium stearate. Finally, the ability to monitor form changes of magnesium stearate in an intact tablet using solid-state NMR spectroscopy is shown., (Copyright © 2016 American Pharmacists Association®. Published by Elsevier Inc. All rights reserved.)

Published

2017

26. Toward Biopredictive Dissolution for Enteric Coated Dosage Forms.

Author

Al-Gousous J, Amidon GL, and Langguth P

Subjects

Area Under Curve, Bicarbonates chemistry, Biological Availability, Buffers, Chemistry, Pharmaceutical methods, Dosage Forms, Drug Liberation physiology, Gastric Emptying physiology, Humans, Hydrogen-Ion Concentration, Intestine, Small metabolism, Kinetics, Solubility, Aspirin chemistry, Aspirin metabolism, Coated Materials, Biocompatible chemistry

Abstract

The aim of this work was to develop a phosphate buffer based dissolution method for enteric-coated formulations with improved biopredictivity for fasted conditions. Two commercially available enteric-coated aspirin products were used as model formulations (Aspirin Protect 300 mg, and Walgreens Aspirin 325 mg). The disintegration performance of these products in a physiological 8 mM pH 6.5 bicarbonate buffer (representing the conditions in the proximal small intestine) was used as a standard to optimize the employed phosphate buffer molarity. To account for the fact that a pH and buffer molarity gradient exists along the small intestine, the introduction of such a gradient was proposed for products with prolonged lag times (when it leads to a release lower than 75% in the first hour post acid stage) in the proposed buffer. This would allow the method also to predict the performance of later-disintegrating products. Dissolution performance using the accordingly developed method was compared to that observed when using two well-established dissolution methods: the United States Pharmacopeia (USP) method and blank fasted state simulated intestinal fluid (FaSSIF). The resulting dissolution profiles were convoluted using GastroPlus software to obtain predicted pharmacokinetic profiles. A pharmacokinetic study on healthy human volunteers was performed to evaluate the predictions made by the different dissolution setups. The novel method provided the best prediction, by a relatively wide margin, for the difference between the lag times of the two tested formulations, indicating its being able to predict the post gastric emptying onset of drug release with reasonable accuracy. Both the new and the blank FaSSIF methods showed potential for establishing in vitro-in vivo correlation (IVIVC) concerning the prediction of Cmax and AUC0-24 (prediction errors not more than 20%). However, these predictions are strongly affected by the highly variable first pass metabolism necessitating the evaluation of an absorption rate metric that is more independent of the first-pass effect. The Cmax/AUC0-24 ratio was selected for this purpose. Regarding this metric's predictions, the new method provided very good prediction of the two products' performances relative to each other (only 1.05% prediction error in this regard), while its predictions for the individual products' values in absolute terms were borderline, narrowly missing the regulatory 20% prediction error limits (21.51% for Aspirin Protect and 22.58% for Walgreens Aspirin). The blank FaSSIF-based method provided good Cmax/AUC0-24 ratio prediction, in absolute terms, for Aspirin Protect (9.05% prediction error), but its prediction for Walgreens Aspirin (33.97% prediction error) was overwhelmingly poor. Thus it gave practically the same average but much higher maximum prediction errors compared to the new method, and it was strongly overdiscriminating as for predicting their performances relative to one another. The USP method, despite not being overdiscriminating, provided poor predictions of the individual products' Cmax/AUC0-24 ratios. This indicates that, overall, the new method is of improved biopredictivity compared to established methods.

Published

2016

27. Advancing Product Quality: a Summary of the Second FDA/PQRI Conference.

Author

Yu LX, Akseli I, Allen B, Amidon G, Bizjak TG, Boam A, Caulk M, Doleski D, Famulare J, Fisher AC, Furness S, Hasselbalch B, Havel H, Hoag SW, Iser R, Johnson BD, Ju R, Katz P, Lacana E, Lee SL, Lostritto R, McNally G, Mehta M, Mohan G, Nasr M, Nosal R, Oates M, O'Connor T, Polli J, Raju GK, Ramanadham M, Randazzo G, Rosencrance S, Schwendeman A, Selen A, Seo P, Shah V, Sood R, Thien MP, Tong T, Trout BL, Tyner K, Vaithiyalingam S, VanTrieste M, Walsh F, Wesdyk R, Woodcock J, Wu G, Wu L, Yu L, and Zezza D

Subjects

Chemistry, Pharmaceutical trends, Congresses as Topic trends, Drug Industry trends, Humans, United States, United States Food and Drug Administration trends, Chemistry, Pharmaceutical standards, Congresses as Topic standards, Drug Industry standards, Quality Control, United States Food and Drug Administration standards

Published

2016

28. Understanding pharmaceutical quality by design.

Author

Yu LX, Amidon G, Khan MA, Hoag SW, Polli J, Raju GK, and Woodcock J

Subjects

Chemistry, Pharmaceutical, Drug Industry, Humans, Quality Improvement, Technology, Pharmaceutical, Drug Design, Pharmaceutical Preparations standards

Abstract

This review further clarifies the concept of pharmaceutical quality by design (QbD) and describes its objectives. QbD elements include the following: (1) a quality target product profile (QTPP) that identifies the critical quality attributes (CQAs) of the drug product; (2) product design and understanding including identification of critical material attributes (CMAs); (3) process design and understanding including identification of critical process parameters (CPPs), linking CMAs and CPPs to CQAs; (4) a control strategy that includes specifications for the drug substance(s), excipient(s), and drug product as well as controls for each step of the manufacturing process; and (5) process capability and continual improvement. QbD tools and studies include prior knowledge, risk assessment, mechanistic models, design of experiments (DoE) and data analysis, and process analytical technology (PAT). As the pharmaceutical industry moves toward the implementation of pharmaceutical QbD, a common terminology, understanding of concepts and expectations are necessary. This understanding will facilitate better communication between those involved in risk-based drug development and drug application review.

Published

2014

29. The impact of hot melt extrusion and spray drying on mechanical properties and tableting indices of materials used in pharmaceutical development.

Author

Iyer R, Hegde S, Zhang YE, Dinunzio J, Singhal D, Malick A, and Amidon G

Subjects

Cellulose chemistry, Chemistry, Pharmaceutical methods, Excipients chemistry, Methylcellulose analogs & derivatives, Methylcellulose chemistry, Pyrrolidines chemistry, Vinyl Compounds chemistry, Drug Compounding methods, Hardness, Hot Temperature, Shear Strength, Tablets chemistry, Tensile Strength

Abstract

The impact of melt extrusion (HME) and spray drying (SD) on mechanical properties of hypromellose acetate succinate (HPMCAS), copovidone, and their formulated blends was studied and compared with that of reference excipients. Tensile strength (TS), compression pressure (CP), elastic modulus (E), and dynamic hardness (Hd ) were determined along with Hiestand indices using compacts prepared at a solid fraction of ∼0.85. HPMCAS and copovidone exhibited lower Hd , lower CP, and lower E than the reference excipients and moderate TS. HPMCAS was found to be highly brittle based on brittle fracture index values. The CP was 24% and 61% higher for HPMCAS after SD and HME, respectively, than for unprocessed material along with a higher Hd . Furthermore, the TS of HPMCAS and copovidone decreased upon HME. Upon blending melt-extruded HPMCAS with plastic materials such as microcrystalline cellulose, the TS increased. These results suggest that SD and HME could impact reworkability by reducing deformation of materials and in case of HME, likely by increasing density due to heating and shear stress in a screw extruder. A somewhat similar effect was observed for the dynamic binding index (BId ) of the excipients and formulated blends. Such data can be used to quantitate the impact of processing on mechanical properties of materials during tablet formulation development., (© 2013 Wiley Periodicals, Inc. and the American Pharmacists Association.)

Published

2013

30. Rapid in vivo dissolution of ketoprofen: implications on the biopharmaceutics classification system.

Author

Granero GE, Ramachandran C, and Amidon GL

Subjects

Animals, Anti-Inflammatory Agents, Non-Steroidal pharmacokinetics, Biopharmaceutics, Chromatography, High Pressure Liquid, Dogs, Female, Ketoprofen pharmacokinetics, Male, Phenolsulfonphthalein, Solubility, Therapeutic Equivalency, Anti-Inflammatory Agents, Non-Steroidal chemistry, Ketoprofen chemistry

Abstract

The aim of this paper was to investigate the in vivo dissolution behavior of ketoprofen, a Class II drug according to the Biopharmaceutics Classification System (BCS), in the upper small intestine of dogs. An intubations method was used, where no blocking balloons were used to prevent luminal drug transport along the GI tract. Our design allowed the drug to be transported freely to more distal parts of the GI tract and also, it was supported by a pharmacokinetic study. Pharmacokinetic parameters of ketoprofen were determined in dogs after administering approximately 0.27 mg kg(-1) (solution) or approximately 1.47 mg kg(-1) (suspension) in oral bolus doses. There were not statistical significant differences in plasma concentrations for both formulations, either in the maximum concentrations C(max) or AUC following oral dose administration. The rapid disappearance of ketoprofen from the intestinal lumen, reflected by low mass recovery in the supernatant and sediment of the collected intestinal fluid samples, in comparison to that recovery of the non-absorbable marker phenol red, suggests that ketoprofen is emptying into the small intestine and is rapidly dissolved and absorbed. In this study, the in vivo results clearly show that the absorption rate of ketoprofen is not dissolution limited; therefore ketoprofen would be essentially equivalent to Class I drugs and could be considered for waiver of bioavailability and bioequivalence testing.

Published

2006

31. Biowaiver monographs for immediate release solid oral dosage forms: acetaminophen (paracetamol).

Author

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

32. Biowaiver monographs for immediate release solid oral dosage forms based on biopharmaceutics classification system (BCS) literature data: verapamil hydrochloride, propranolol hydrochloride, and atenolol.

Author

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

33. Applying the biopharmaceutics classification system to veterinary pharmaceutical products. Part II. Physiological considerations.

Author

Martinez M, Amidon G, Clarke L, Jones WW, Mitra A, and Riviere J

Subjects

Animals, Biological Availability, Gastrointestinal Transit, Humans, Intestinal Absorption, Solubility, Species Specificity, Veterinary Drugs administration & dosage, Veterinary Drugs chemistry, Animal Feed, Digestive System Physiological Phenomena, Food-Drug Interactions, Veterinary Drugs pharmacokinetics

Abstract

In comparing product bioavailability across animal species, it is not unusual to observe marked interspecies differences. For many compounds, these differences reflect presystemic drug metabolism. However, a host of other variables must also be considered such as in vivo drug solubility, gastric transit time, intestinal permeability, diet, and species-by-formulation interactions. By combining information on drug solubility and intestinal permeability with an understanding of the interrelationship between pH, product dissolution and gastrointestinal physiology, we attempt to define those conditions under which in vitro dissolution data may be used as a surrogate for data on in vivo bioavailability. We consider the likely physiological causes for species-related differences in the absolute and relative bioavailability of orally administered pharmaceuticals, and examine the potential for these normal interspecies differences to reflect bioavailability changes that can occur with various human pathologies.

Published

2002

34. The effect of amiloride on the in vivo effective permeability of amoxicillin in human jejunum: experience from a regional perfusion technique.

Author

Lennernäs H, Knutson L, Knutson T, Hussain A, Lesko L, Salmonson T, and Amidon GL

Subjects

Adult, Amiloride pharmacokinetics, Diuretics pharmacokinetics, Diuretics pharmacology, Drug Interactions, Drug Stability, Female, Humans, Jejunum drug effects, Male, Penicillins pharmacokinetics, Perfusion statistics & numerical data, Permeability drug effects, Amiloride pharmacology, Amoxicillin pharmacokinetics, Intestinal Absorption drug effects, Jejunum metabolism, Perfusion methods

Abstract

The purpose of this human intestinal perfusion study (in vivo) was twofold. Firstly, we aimed to determine the effective in vivo jejunal permeability (P(eff)) of amoxicillin and to classify it according to the Biopharmaceutics Classification System (BCS). Secondly, we investigated the acute effect of amiloride on the jejunal P(eff) of amoxicillin. Amoxicillin, a beta-lactam antibiotic, has been reported to be absorbed across the intestinal mucosa by both passive diffusion and active transport. A regional single-pass perfusion of the jejunum was performed using a Loc-I-Gut perfusion tube in 14 healthy volunteers. Each perfusion lasted for 200 min and was divided into two periods of 100 min each. The concentration of amoxicillin entering the jejunal segment was 300 mg/l in both periods, and amiloride, an inhibitor of the Na+/H+ exchanger, was added at 25 mg/l in period 2. The concentrations of amoxicillin and amiloride in the outlet jejunal perfusate were measured with two different HPLC-methods. Antipyrine and [14C]PEG 4000 were added as internal standards to the perfusion solution. Amiloride had no significant effect on the jejunal P(eff) of amoxicillin. The human in vivo jejunal P(eff) for amoxicillin was 0.34+/-0.11 x 10(-4) and 0.46+/-0.12 x 10(-4) cm/s in periods 1 and 2, respectively. The high jejunal P(eff) for amiloride was 1.63+/-0.51 x 10(-4) cm/s which predicts an intestinal absorption of more than 90%. Following the BCS amoxicillin was classified as a low P(eff) drug, and amiloride had no acute effect on the in vivo jejunal P(eff) of amoxicillin.

Published

2002

35. Novel method to assess gastric emptying in humans: the Pellet Gastric Emptying Test.

Author

Choe SY, Neudeck BL, Welage LS, Amidon GE, Barnett JL, and Amidon GL

Subjects

Acetaminophen administration & dosage, Acetaminophen blood, Acetaminophen pharmacokinetics, Adult, Analgesics, Non-Narcotic administration & dosage, Analgesics, Non-Narcotic blood, Analgesics, Non-Narcotic pharmacokinetics, Analysis of Variance, Area Under Curve, Caffeine administration & dosage, Caffeine blood, Caffeine pharmacokinetics, Central Nervous System Stimulants administration & dosage, Central Nervous System Stimulants blood, Central Nervous System Stimulants pharmacokinetics, Cross-Over Studies, Drug Implants administration & dosage, Drug Implants pharmacokinetics, Fasting blood, Female, Food-Drug Interactions physiology, Humans, Male, Reproducibility of Results, Tablets, Enteric-Coated administration & dosage, Gastric Emptying physiology, Tablets, Enteric-Coated pharmacokinetics

Abstract

To further validate the Pellet Gastric Emptying Test (PGET) as a marker of gastric emptying, a randomized, four-way crossover study was conducted with 12 healthy subjects. The study consisted of oral co-administration of enteric coated caffeine (CAFF) and acetaminophen (APAP) pellets in four treatment phases: Same Size (100 kcal), Fasted, Small Liquid Meal (100 kcal), and Standard Meal (847 kcal). The time of first appearance of measurable drug marker in plasma, t(initial), was taken as the emptying time for the markers. Co-administration of same size enteric coated pellets of CAFF and APAP (0.7 mm in diameter) revealed no statistically significant differences in t(initial) values indicating that emptying was dependent only on size and not on chemical make-up of the pellets. Co-administration of different size pellets indicated that the smaller 0.7-mm diameter (CAFF) pellets were emptied and absorbed significantly earlier than the larger 3.6-mm diameter (APAP) pellets with both the Small Liquid Meal (by 35 min) and the Standard Meal (by 33 min) (P<0.05). The differences in emptying of the pellets were not significant in the Fasted Phase. The results suggest that the pellet gastric emptying test could prove useful in monitoring changes in transit times in the fasted and fed states and their impact on drug absorption.

Published

2001

36. Correlation between epithelial cell permeability of cephalexin and expression of intestinal oligopeptide transporter.

Author

Chu XY, Sánchez-Castaño GP, Higaki K, Oh DM, Hsu CP, and Amidon GL

Subjects

Algorithms, Animals, Blotting, Western, Caco-2 Cells, Cell Membrane Permeability physiology, Chromatography, High Pressure Liquid, Humans, Intestinal Absorption physiology, Kinetics, Male, Peptide Transporter 1, Perfusion, Phenotype, Rats, Rats, Sprague-Dawley, Carrier Proteins biosynthesis, Cephalexin metabolism, Cephalosporins metabolism, Epithelial Cells metabolism, Symporters

Abstract

The proton-coupled oligopeptide transporter (PEPT1) has been shown to mediate mucosal cell transport of di- and tripeptide, and some peptidomimetic drugs. In this study, we determined the correlation between PEPT1 protein expression and the permeability of cephalexin, a substrate of PEPT1, in human PEPT1 (hPEPT1)-overexpressed Caco-2 cells (Caco-2/hPEPT1 cells) and rat jejunum. Caco-2/hPEPT1 cells with various levels of hPEPT1 expression were established by an adenoviral transfection system. The effective intestinal permeability (P(eff)) in rat jejunum was evaluated using a single pass in situ perfusion method. The level of PEPT1 in Caco-2/hPEPT1 cells and rat intestinal mucosal samples was quantitated by densitometry after immunoblotting and enhanced chemiluminescence detection. In Caco-2/hPEPT1 cells, an excellent correlation was observed between cephalexin uptake and hPEPT1 expression (R2 = 0.96, P < 0.005). This demonstrates that cephalexin uptake is directly proportional to hPEPT1 expression. In the rat perfusion study, the mean P(eff) +/- S.D. (n = 15) of cephalexin was 3.89 +/- 1.63 x 10(-5) cm/s. A very significant correlation between PEPT1 expression and cephalexin permeability with an R2 = 0.63 (P < 0.001) was observed. This indicates that the variation in PEPT1 expression is one of the major factors accounting for variable intestinal cephalexin absorption. To our knowledge, this is the most direct evidence that variation of PEPT1 expression is correlated with absorption permeability variation of peptide-like compounds in vitro and in vivo.

Published

2001

37. Human jejunal permeability of two polar drugs: cimetidine and ranitidine.

Author

Takamatsu N, Kim ON, Welage LS, Idkaidek NM, Hayashi Y, Barnett J, Yamamoto R, Lipka E, Lennernäs H, Hussain A, Lesko L, and Amidon GL

Subjects

Adolescent, Adult, Humans, Intestinal Absorption physiology, Perfusion methods, Permeability, Anti-Ulcer Agents pharmacokinetics, Cimetidine pharmacokinetics, Jejunum metabolism, Ranitidine pharmacokinetics

Abstract

Purpose: To determine the human jejunal permeability of cimetidine and ranitidine using a regional jejunal perfusion approach, and to integrate such determinations with previous efforts to establish a baseline correlation between permeability and fraction dose absorbed in humans for soluble drugs., Methods: A sterile multi-channel perfusion tube, Loc-I-Gut, was inserted orally and positioned in the proximal region of the jejunum. A solution containing cimetidine or ranitidine and phenylalanine, propranolol, PEG 400, and PEG 4000 was perfused through a 10 cm jejunal segment in 6 and 8 subjects, respectively., Results: The mean Peff (+/- se) of cimetidine and ranitidine averaged over both phases were 0.30 (0.045) and 0.27 (0.062) x 10(-4) cm/s, respectively, and the differences between the two were found to be statistically insignificant. The mean permeabilities for propranolol, phenylalanine, and PEG 400 averaged over both phases and studies were 3.88 (0.72), 3.36 (0.50), and 0.56 (0.08) x 10(-4) cm/s, respectively. The differences in permeability for a given marker were not significant between phases or between the two studies., Conclusions: The 10-fold lower permeabilities found for cimetidine and ranitidine in this study, compared to propranolol and phenylalanine, appear to be consistent with their less than complete absorption in humans.

Published

2001

38. Time-dependent oral absorption models.

Author

Higaki K, Yamashita S, and Amidon GL

Subjects

Administration, Oral, Adrenergic beta-Antagonists blood, Adrenergic beta-Antagonists pharmacokinetics, Gastric Emptying physiology, Humans, Propranolol blood, Propranolol pharmacokinetics, Time Factors, Intestinal Absorption physiology, Models, Biological, Nonlinear Dynamics

Abstract

The plasma concentration-time profiles following oral administration of drugs are often irregular and cannot be interpreted easily with conventional models based on first- or zero-order absorption kinetics and lag time. Six new models were developed using a time-dependent absorption rate coefficient, ka(t), wherein the time dependency was varied to account for the dynamic processes such as changes in fluid absorption or secretion, in absorption surface area, and in motility with time, in the gastrointestinal tract. In the present study, the plasma concentration profiles of propranolol obtained in human subjects following oral dosing were analyzed using the newly derived models based on mass balance and compared with the conventional models. Nonlinear regression analysis indicated that the conventional compartment model including lag time (CLAG model) could not predict the rapid initial increase in plasma concentration after dosing and the predicted Cmax values were much lower than that observed. On the other hand, all models with the time-dependent absorption rate coefficient, ka(t), were superior to the CLAG model in predicting plasma concentration profiles. Based on Akaike's Information Criterion (AIC), the fluid absorption model without lag time (FA model) exhibited the best overall fit to the data. The two-phase model including lag time, TPLAG model was also found to be a good model judging from the values of sum of squares. This model also described the irregular profiles of plasma concentration with time and frequently predicted Cmax values satisfactorily. A comparison of the absorption rate profiles also suggested that the TPLAG model is better at prediction of irregular absorption kinetics than the FA model. In conclusion, the incorporation of a time-dependent absorption rate coefficient ka(t) allows the prediction of nonlinear absorption characteristics in a more reliable manner.

Published

2001

39. Drug inhibition of Gly-Sar uptake and hPepT1 localization using hPepT1-GFP fusion protein.

Author

Sun D, Landowski CP, Chu X, Wallsten R, Komorowski TE, Fleisher D, and Amidon GL

Subjects

Acyclovir pharmacology, Blotting, Western, Caco-2 Cells, Carrier Proteins genetics, Cell Membrane metabolism, Cephalexin pharmacology, Depression, Chemical, Green Fluorescent Proteins, HeLa Cells, Humans, Microscopy, Confocal, Peptide Transporter 1, Recombinant Fusion Proteins genetics, Subcellular Fractions metabolism, Transfection, Valacyclovir, Valine pharmacology, Acyclovir analogs & derivatives, Carrier Proteins metabolism, Dipeptides metabolism, Luminescent Proteins genetics, Recombinant Fusion Proteins metabolism, Symporters, Valine analogs & derivatives

Abstract

An hPepT1-GFP fusion construct was made to study drug inhibition of dipeptide uptake and apical, basolateral, or subcellular hPepT1 localization. The hPepT1 stop codon was mutated by polymerase chain reaction and was subsequently cloned into the pEGFP-N1 vector. The hPepT1-GFP fusion construct was then transfected into Caco-2 and HeLa cells, and drug inhibition was studied by inhibiting 3H-Gly-Sar uptake. Western blot analysis was used to determine hPepT1-GFP expression levels and confocal microscopy was used to examine the localization. Both anti-hPepT1 antibody and anti-GFP antibody recognized a 120-kd hPepT1-GFP fusion protein in the transfected cells. The 3H-Gly-Sar uptake in transfected HeLa cells was enhanced more than 20 times compared with the control. Valacyclovir (5 mmol/L) was able to completely inhibit 3H-Gly-Sar uptake in these transfected cells. Confocal microscopy showed that the hPepT1-GFP mainly localized in the Caco-2 cell apical membrane, but was present throughout the entire HeLa cell membranes. The hPepT1-GFP fusion protein was not found in either early endosome or lysosome of Caco-2 cells under normal conditions; however, it was detected in some subsets of lysosomes and early endosomes in phorbol 12-myristate 13-acetate (PMA)-treated Caco-2 cells.

Published

2001

40. Protein denaturation during freezing and thawing in phosphate buffer systems: monomeric and tetrameric beta-galactosidase.

Author

Pikal-Cleland KA, Rodríguez-Hornedo N, Amidon GL, and Carpenter JF

Subjects

Buffers, Cryopreservation, Enzyme Stability, Galactosides chemistry, Hydrogen-Ion Concentration, Phosphates chemistry, Potassium Compounds chemistry, Protein Denaturation, Protein Structure, Quaternary, Spectrophotometry, Infrared, Temperature, Galactosides metabolism

Abstract

During freezing in sodium and potassium phosphate (NaP and KP) buffer solutions, changes in pH may impact the stability of proteins. Since the degradation pathways for the model proteins, monomeric and tetrameric beta-galactosidase (beta-gal), chosen for this study are governed by conformational changes (i.e., physical instability) as opposed to chemical transformations, we explored how the stresses of freezing and thawing alter the protein's native structure and if preservation of the native conformation during freeze-thawing is a requisite for optimal recovery of activity. During freezing in NaP buffer, a significant pH decrease from 7.0 to as low as 3.8 was observed due to the selective precipitation of the disodium phosphate; however, the pH during freezing in KP buffer only increased by at most 0.3 pH units. pH-induced inactivation was evident as seen by the lower recovery of activity when freeze-thawing in NaP buffer as compared to KP buffer for both sources of beta-gal. In addition, we investigated the effects of cooling rate and warming rate on the recovery of activity for monomeric and tetrameric beta-gal. Optimal recovery of activity for the NaP samples was obtained when the processing protocol involved a fast cool/fast warm combination, which minimizes exposure to acidic conditions and concentrated solutes. Alterations in the native secondary structure of monomeric beta-gal as measured by infrared spectroscopy were more significant when freezing and thawing in NaP buffer as opposed to KP buffer. Conformational and activity analyses indicate that pH changes during freezing in NaP buffer contribute to denaturation of beta-gal. These results suggest that proteins formulated in NaP buffer should be frozen and thawed rapidly to minimize exposure to low pH and high buffer salts.

Published

2000

41. A peptide prodrug approach for improving bisphosphonate oral absorption.

Author

Ezra A, Hoffman A, Breuer E, Alferiev IS, Mönkkönen J, El Hanany-Rozen N, Weiss G, Stepensky D, Gati I, Cohen H, Törmälehto S, Amidon GL, and Golomb G

Subjects

Administration, Oral, Alendronate analogs & derivatives, Alendronate chemistry, Alendronate pharmacokinetics, Animals, Biological Availability, Caco-2 Cells, Carrier Proteins metabolism, Chemical Precipitation, Dipeptides chemistry, Dipeptides pharmacokinetics, Diphosphonates chemistry, Diphosphonates pharmacokinetics, Durapatite chemistry, Humans, Injections, Intravenous, Intestinal Absorption, Pamidronate, Peptide Transporter 1, Prodrugs chemistry, Prodrugs pharmacokinetics, Rats, Tissue Distribution, Alendronate administration & dosage, Alendronate chemical synthesis, Dipeptides chemical synthesis, Diphosphonates administration & dosage, Diphosphonates chemical synthesis, Prodrugs chemical synthesis, Symporters

Abstract

This work was aimed at improving the absorption of bisphosphonates by targeting carrier systems in the intestine and the intestinal peptide carrier system (hPEPT1), in particular. (14)C-Labeled pamidronate and alendronate as well as radiolabeled and "cold" peptidyl-bisphosphonates, Pro-[(3)H]Phe-[(14)C]pamidronate, and Pro-[(3)H]Phe-[(14)C]alendronate were synthesized. In situ single-pass perfusion studies revealed competitive inhibition of transport by Pro-Phe, suggesting peptide carrier-mediated transport. Prodrug transport in the Caco-2 cell line was significantly better than that of the parent drugs, and the prodrugs exhibited high affinity to the intestinal tissue. Oral administration of the dipeptidyl prodrugs resulted in a 3-fold increase in drug absorption following oral administration in rats, and the bioavailability of Pro-Phe-alendronate was 3.3 (F(TIBIA)) and 1.9 (F(URINE)) times higher than that of the parent drug. The results indicate that the oral absorption of bisphosphonates can be improved by peptidyl prodrugs via the hPEPT1; however, other transporters may also be involved.

Published

2000

42. Modern bioavailability, bioequivalence and biopharmaceutics classification system. New scientific approaches to international regulatory standards.

Author

Löbenberg R and Amidon GL

Subjects

Biopharmaceutics legislation & jurisprudence, Biopharmaceutics standards, International Cooperation, Biological Availability, Biopharmaceutics classification, Therapeutic Equivalency

Abstract

In the last decade, the regulatory bioequivalence (BE) requirements of drug products have undergone major changes. The introduction of the biopharmaceutics drug classification system (BCS) into the guidelines of the Food and Drug Administration (FDA) is a major step forward to classify the biopharmaceutical properties of drugs and drug products. Based on mechanistic approaches to the drug absorption and dissolution processes, the BCS enables the regulatory bodies to simplify and improve the drug approval process. The knowledge of the BCS characteristics of a drug in a formulation can also be utilized by the formulation scientist to develop a more optimized dosage form based on fundamental mechanistic, rather than empirical, information. This report gives a brief overview of the BCS and its implications.

Published

2000

43. Dissolution testing as a prognostic tool for oral drug absorption: dissolution behavior of glibenclamide.

Author

Löbenberg R, Krämer J, Shah VP, Amidon GL, and Dressman JB

Subjects

Administration, Oral, Bile metabolism, Glyburide administration & dosage, Hydrogen-Ion Concentration, Hypoglycemic Agents administration & dosage, Solubility, Solvents, Glyburide pharmacokinetics, Hypoglycemic Agents pharmacokinetics

Abstract

Purpose: The dissolution behavior of two commercially available glibenclamide formulations was tested in various media. The aim of the study was to investigate whether the use of biorelevant dissolution media (BDM) would be advantageous over the use of standard media for predicting the in vivo performance of the two formulations., Methods: The dissolution tests were performed using USP 23 apparatus 2. Conventional buffers and USP media were compared with two BDM containing different amounts of lecithin and sodium taurocholate., Results: The dissolution of two drug powders was highly dependent on wetting, particle size, pH, and the composition of the medium used. In addition, the dissolution behavior of the two glibenclamide formulations showed differences in all media tested. The dissolution results of the two formulations were compared with those from an in vivo bioequivalence study undertaken by the central quality control laboratory of the German pharmacists (ZL). The bioequivalence criterion set by the ZL requires more than 80% drug release within 10 minutes. Results in FaSSIF, one of the BDMs, met the ZL criterion and this medium was also able to discriminate between the two formulations. This was not the case for the other media tested., Conclusions: The study indicates that BDM are better able to discriminate between glibenclamide formulations than standard dissolution media.

Published

2000

44. Immune response with biodegradable nanospheres and alum: studies in rabbits using staphylococcal enterotoxin B-toxoid.

Author

Desai MP, Hilfinger JM, Amidon GL, Levy RJ, and Labhasetwar V

Subjects

Alum Compounds administration & dosage, Animals, Biodegradation, Environmental, Dose-Response Relationship, Immunologic, Drug Carriers, Drug Stability, Electrophoresis, Polyacrylamide Gel, Enterotoxins administration & dosage, Enzyme-Linked Immunosorbent Assay, Immunoglobulin A blood, Immunoglobulin G blood, Immunoglobulin M blood, Injections, Subcutaneous, Male, Microscopy, Electron, Scanning, Microspheres, Particle Size, Rabbits, Staphylococcal Toxoid administration & dosage, Adjuvants, Immunologic administration & dosage, Alum Compounds chemistry, Enterotoxins chemistry, Enterotoxins immunology, Staphylococcal Toxoid chemistry, Staphylococcal Toxoid immunology

Abstract

In this study, the adjuvant effect of the sustained release biodegradable nanospheres (100-150 nm in diameter) has been compared with alum. Nanospheres were formulated using a biodegradable polylactic polyglycolic acid copolymer (PLGA, 50:50) containing Staphylococcal Enterotoxin B (SEB) toxoid as a model vaccine antigen. Systemic immune response of the nanospheres containing toxoid was studied in rabbits by subcutaneous immunization. The data demonstrated that approximately 30% of the toxoid activity was lost following its encapsulation into nanospheres. Under in vitro conditions, nanospheres demonstrated sustained release of the toxoid. However, only 20% of the antigenic toxoid was released over the first 2 weeks of the release study. Immunization of animals with equal doses of toxoid, either using nanospheres or alum induced a comparable systemic immune response (IgG, IgM and IgA). The immune response reached a maximum level at 7 weeks post-immunization, which then gradually declined with time. The booster dose of toxoid at 19 weeks, either using alum or nanospheres induced similar immune response in both the groups, but was greater than the primary immune response. The studies, thus, suggest that biodegradable nanospheres could be used as a vaccine adjuvant.

Published

2000

45. Dissolution of ionizable water-insoluble drugs: the combined effect of pH and surfactant.

Author

Jinno J, Oh Dm, Crison JR, and Amidon GL

Subjects

Anti-Inflammatory Agents, Non-Steroidal pharmacokinetics, Kinetics, Micelles, Models, Chemical, Piroxicam pharmacokinetics, Regression Analysis, Sodium Dodecyl Sulfate chemistry, Sodium Dodecyl Sulfate pharmacokinetics, Solubility, Surface-Active Agents pharmacokinetics, Water chemistry, Anti-Inflammatory Agents, Non-Steroidal chemistry, Hydrogen-Ion Concentration, Piroxicam chemistry, Surface-Active Agents chemistry

Abstract

This study reports the results of the combined effect of pH and surfactant on the dissolution of piroxicam (PX), an ionizable water-insoluble drug in physiological pH. The intrinsic dissolution rate (J(total)) of PX was measured in the pH range from 4.0 to 7.8 with 0%, 0.5%, and 2.0% sodium lauryl sulfate (SLS) using the rotating disk apparatus. Solubility (c(total)) was also measured in the same pH and SLS concentration ranges. A simple additive model including an ionization (PX <--> H(+) + PX(-)) and two micellar solubilization equilibria (PX + micelle <--> [PX](micelle), PX(-) + micelle <--> [PX(-)](micelle)) were considered in the convective diffusion reaction model. J(total) and c(total) of PX increased with increasing pH and SLS concentration in an approximately additive manner. Nonlinear regression analysis showed that observed experimental data were well described with the proposed model (r(2) = 0.86, P < 0.001 for J(total) and r(2) = 0.98, P < 0.001 for c(total)). The pK(a) value of 5.63 +/- 0.02 estimated from c(total) agreed well with the reported value. The micellar solubilization equilibrium coefficient for the unionized drug was estimated to be 348 +/- 77 L/mol, while the value for the ionized drug was nearly equal to zero. The diffusion coefficients of the species PX, PX(-), and [PX](micelle) were estimated from the experimental results as (0. 93 +/- 0.35) x 10(-5), (1.4 +/- 0.30) x 10(-5), and (0.59 +/- 0.21) x 10(-5) cm(2)/s, respectively. The total flux enhancement is less than the total solubility enhancement due to the smaller diffusion coefficients of the micellar species. This model may be useful in predicting the dissolution of an ionizable water insoluble drug as a function of pH and surfactant and for establishing in vitro-in vivo correlations, IVIVC, for maintaining bioequivalence of drug products., (Copyright 2000 Wiley-Liss, Inc.)

Published

2000

46. Human proton/oligopeptide transporter (POT) genes: identification of putative human genes using bioinformatics.

Author

Botka CW, Wittig TW, Graul RC, Nielsen CU, Higaka K, Amidon GL, and Sadée W

Subjects

Blotting, Northern, Carrier Proteins metabolism, Contig Mapping, Databases, Protein, Expressed Sequence Tags, Humans, Organ Specificity, Peptoids, Protein Isoforms genetics, Protein Isoforms metabolism, Reverse Transcriptase Polymerase Chain Reaction, Software, Carrier Proteins genetics, Dipeptides metabolism, Histidine genetics, Membrane Transport Proteins, Nerve Tissue Proteins

Abstract

The proton-dependent oligopeptide transporters (POT) gene family currently consists of approximately 70 cloned cDNAs derived from diverse organisms. In mammals, two genes encoding peptide transporters, PepT1 and PepT2 have been cloned in several species including humans, in addition to a rat histidine/peptide transporter (rPHT1). Because the Candida elegans genome contains five putative POT genes, we searched the available protein and nucleic acid databases for additional mammalian/human POT genes, using iterative BLAST runs and the human expressed sequence tags (EST) database. The apparent human orthologue of rPHT1 (expression largely confined to rat brain and retina) was represented by numerous ESTs originating from many tissues. Assembly of these ESTs resulted in a contiguous sequence covering approximately 95% of the suspected coding region. The contig sequences and analyses revealed the presence of several possible splice variants of hPHT1. A second closely related human EST-contig displayed high identity to a recently cloned mouse cDNA encoding cyclic adenosine monophosphate (cAMP)-inducible 1 protein (gi:4580995). This contig served to identify a PAC clone containing deduced exons and introns of the likely human orthologue (termed hPHT2). Northern analyses with EST clones indicated that hPHT1 is primarily expressed in skeletal muscle and spleen, whereas hPHT2 is found in spleen, placenta, lung, leukocytes, and heart. These results suggest considerable complexity of the human POT gene family, with relevance to the absorption and distribution of cephalosporins and other peptoid drugs.

Published

2000

47. Targeted prodrug design to optimize drug delivery.

Author

Han HK and Amidon GL

Subjects

Animals, Antibodies, Monoclonal chemistry, Biological Availability, Carrier Proteins genetics, Carrier Proteins metabolism, Drug Design, Enzymes genetics, Enzymes metabolism, Gene Transfer Techniques, Humans, Intestinal Absorption, Intestines enzymology, Membrane Proteins genetics, Membrane Proteins metabolism, Peptide Transporter 1, Peptides metabolism, Pharmaceutical Preparations chemistry, Symporters genetics, Symporters metabolism, Drug Delivery Systems, Pharmaceutical Preparations administration & dosage, Prodrugs metabolism

Abstract

Classical prodrug design often represents a nonspecific chemical approach to mask undesirable drug properties such as limited bioavailability, lack of site specificity, and chemical instability. On the other hand, targeted prodrug design represents a new strategy for directed and efficient drug delivery. Particularly, targeting the prodrugs to a specific enzyme or a specific membrane transporter, or both, has potential as a selective drug delivery system in cancer chemotherapy or as an efficient oral drug delivery system. Site-selective targeting with prodrugs can be further enhanced by the simultaneous use of gene delivery to express the requisite enzymes or transporters. This review highlights evolving strategies in targeted prodrug design, including antibody-directed enzyme prodrug therapy, gene-directed enzyme prodrug therapy, and peptide transporter-associated prodrug therapy.

Published

2000

48. Caco-2 versus Caco-2/HT29-MTX co-cultured cell lines: permeabilities via diffusion, inside- and outside-directed carrier-mediated transport.

Author

Hilgendorf C, Spahn-Langguth H, Regårdh CG, Lipka E, Amidon GL, and Langguth P

Subjects

ATP Binding Cassette Transporter, Subfamily B, Member 1 metabolism, Antipyrine pharmacokinetics, Atenolol pharmacokinetics, Biological Transport, Active, Caco-2 Cells physiology, Caco-2 Cells ultrastructure, Cell Membrane Permeability physiology, Cellular Senescence physiology, Coculture Techniques, Furosemide pharmacokinetics, HT29 Cells physiology, HT29 Cells ultrastructure, Humans, Intestinal Mucosa metabolism, Ketoprofen pharmacokinetics, Mannitol pharmacokinetics, Metoprolol pharmacokinetics, Microscopy, Electron, Piroxicam pharmacokinetics, Reproducibility of Results, Terbutaline pharmacokinetics, Caco-2 Cells metabolism, Carrier Proteins metabolism, HT29 Cells metabolism, Intestinal Absorption physiology

Abstract

Purpose: The objective of this study was a systematic characterization and evaluation of cell culture models based on mixtures of Caco-2/HT29-MTX co-cultures for their use in screening for drug absorption and intestinal permeability in comparison to the properties of the respective mono-cultures., Methods: Co-cultures of Caco-2 cells (absorptive-type) and HT29-MTX cells (goblet-type) were set up. Three different co-cultures (initial seeding ratios Caco-2/HT29-MTX: 90/10, 70/30, and 50/50) were grown on permeable filter supports, and monolayers were used for permeability studies with model compounds for paracellular absorption (atenolol, furosemide, H334/75, mannitol, terbutaline), transcellular absorption (antipyrine, ketoprofen, metoprolol, piroxicam), carrier-mediated absorption (D-glucose, Gly-Pro, and L-phenylalanine) as well as substrates for carrier-mediated secretion via P-glycoprotein (cimetidine and talinolol). Electrophysiological and microscopic controls were performed to characterize the cell cultures., Results: For compounds undergoing passive intestinal absorption permeabilities were generally higher in co-cultures than in Caco-2 monolayers, yielding highest values in pure HT29-MTX monolayers. This difference was most obvious for compounds transported via the paracellular pathway, where HT29-MTX cells may be up to 30 times more permeable than Caco-2 cells, whereas for lipophilic and highly permeable compounds, the difference in permeability values was less obvious. For drugs undergoing intestinal secretion mediated by P-glycoprotein, co-cultivation of Caco-2 cells with HT29-MTX cells led to increased apical to basolateral permeability which was decreased in the opposite direction, consistent with the fact that HT29-MTX cells do not express P-glycoprotein. When a carrier-mediated absorption mechanism is involved, the permeabilities observed were lower than the values reported for human small intestine and co-cultivation of HT29-MTX cells with Caco-2 cells resulted in even lower values as compared to the plain Caco-2 cultures., Conclusions: Co-cultures of HT29-MTX and Caco-2 cells offer the opportunity of modifying the permeability barrier of the cell monolayers both with respect to paracellular resistance and secretory transport via P-gp. Thus, in special cases, they allow more flexibility in adapting the in vitro system to the in vivo situation as compared to the monocultures. Another advantage is the obvious robustness of the method with respect to the reproducibility of the results. A problem remaining, however, is the quantitative expression of carriers involved in intestinal uptake of many nutrients and drugs., (Copyright 2000 Wiley-Liss, Inc. and the American Pharmaceutical Association J Pharm Sci 89: 63-75, 2000)

Published

2000

49. A pH- and ionic strength-responsive polypeptide hydrogel: synthesis, characterization, and preliminary protein release studies.

Author

Markland P, Zhang Y, Amidon GL, and Yang VC

Subjects

Hydrogen-Ion Concentration, Biocompatible Materials chemical synthesis, Biocompatible Materials chemistry, Drug Delivery Systems, Hydrogels chemical synthesis, Hydrogels chemistry, Peptides chemical synthesis, Peptides chemistry

Abstract

A novel polypeptide hydrogel has been synthesized by crosslinking poly(L-glutamic acid) (PLG) with poly(ethylene glycol) (PEG). The PLG-PEG hydrogel was shown to be highly hydrophilic, and the extent of swelling varied with pH, increasing at higher ionization of the PLG. Aside from electrostatic effects, such as ion-ion repulsion and internal ion osmotic pressure, circular dichroism studies showed that swelling response to pH also is affected by secondary structural attributes associated with the polypeptide backbone. Modification of the polypeptide by changing its hydrophobicity and degree of ionization was an effective method for altering the overall extent of pH-responsive swelling. Rapid de-swelling (contraction) was observed when the PLG-PEG hydrogel was transferred from high to low pH buffer solution, and this swelling/de-swelling behavior was reversible over repeated cycles. Drug release from swollen hydrogels was examined using the model protein lysozyme. Rapid de-swelling of the hydrogel was found to be an effective means of facilitating lysozyme release. The crosslinking of synthetic polypeptides with PEG appears to be a highly versatile approach to the preparation of pH-responsive biodegradable hydrogels., (Copyright 1999 John Wiley & Sons, Inc.)

Published

1999

50. Setting bioequivalence requirements for drug development based on preclinical data: optimizing oral drug delivery systems.

Author

Lipka E and Amidon GL

Subjects

Administration, Oral, Databases, Factual, Dosage Forms, Drug Evaluation, Humans, Intestinal Absorption, Permeability, Solubility, Drug Delivery Systems, Pharmaceutical Preparations, Therapeutic Equivalency

Abstract

The recently proposed Biopharmaceutics Classification System can be used to classify drugs and set standards for scale-up and post-approval changes as well as standards for in vitro/in vivo correlation for immediate and controlled release products. This classification scheme is based on determining the underlying process that is controlling the drug absorption rate and extent, namely, drug solubility and intestinal membrane permeability. Theoretical analysis and experimental results suggest that a permeability/solubility classification scheme can be used to set more rationale drug standards. In particular, high solubility/high permeability, rapidly dissolving drugs may be regulated on the basis of a single point rapid dissolution test while low solubility dissolution rate limited drugs can be regulated based on an in vitro dissolution test that reflects the in vivo dissolution process. This dissolution test may include multiple time points, media change, as well as surfactants in order to reflect the in vivo dissolution process and would be used by the manufacturer for requesting a waiver from a bioequivalence (BE) trial. For controlled release products, the regulation of bioequivalence standards is more complex due to the potential differences in position-dependent permeability/solubility and metabolism of drugs along the gastrointestinal tract. These differences may result in drug absorption rates that are highly transit time dependent. This paper will present the current status of the biopharmaceutic drug classification scheme, the underlying developed data base and its application to optimizing IR and CR products.

Published

1999