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Formulation of domperidone in gastro-retentive floating tablets

Research Abstract
The aim of this work was to enhance the oral bioavailability of water-insoluble, weaklybasic, anti-emetic drug; Domperidone (DMP), which has a poor oral bioavailability (13-17%). Adsorption of drug onto the surface of Aerosil 200 was achieved by solvent evaporation method to enhance the drug dissolution rate. Then, the adsorbates were formulated into gastro-retentive floating tablets to retain the drug in the acidic medium of stomach which is favorable for the drug dissolution. Different drug: adsorbent ratios were prepared and tested for their in-vitro dissolution rate to select the best ratio for the final formulation. Different concentrations of several polymers were used in the preparation of tablets matrices together with sodium bicarbonate to induce the floating effect via reaction with gastric HCl. Drug-excipient compatibility studies were performed using Fouriertransform Infrared Spectroscopy (FT-IR) and Differential Scanning Calorimetry (DSC)which confirmed the absence of incompatibilities between the drug and the used excipients. The tablets were prepared by direct compression technique and evaluated for their weight uniformity, drug content, friability, hardness, thickness, floating properties, in-vitro dissolution rate and kinetics of drug release. Formulae F7 (containing 30% w/w sodium alginate) and F8 (containing 40% w/w sodium alginate) showed the best results and thus; they were selected for in-vivo studies in rabbits. The selected formulae showed marked enhancement of domperidone bioavailability compared with the commercial conventional immediate-release tablets; Motinorm®, with relative bioavailability values of 298.26±11.53% and 315.04±13.39% for F7 and F8, respectively and proved that the selected formulae successfully controlled the drug release.
Research Authors
Ahmed E. Aboutaleb, Sayed I. Abdel-Rahman, Mahrous O. Ahmed, Mahmoud A. Younis
Research Department
Research Journal
Journal of Innovations in Pharmaceuticals and Biological Sciences
Research Publisher
NULL
Research Rank
1
Research Vol
(2)3
Research Website
http://jipbs.com/VolumeArticles/FullTextPDF/206_JIPBSV3I213.pdf
Research Year
2016

DESIGN AND EVALUATION OF DOMPERIDONE SUBLINGUAL TABLETS

Research Abstract
Objective: The aim of this work was to enhance the bioavailability of poorly soluble, anti-emetic drug; domperidone (DMP) having a poor oral bioavailability (13-17%) due to extensive first pass metabolism. The goal of this study was achieved through solubilization of DMP using solid dispersion technology followed by incorporation of solid dispersions into sublingual tablets to bypass pre-systemic metabolism. Methods: Solid dispersions of DMP with Pluronic F-68 were prepared in different weight ratios by fusion method and they were evaluated for their in vitro dissolution rate to select the best ratio for final formulation. Then, solid dispersions were formulated into sublingual tablets in combination with various soluble excipients. Sublingual tablets were prepared by direct compression technique and evaluated for their physical properties, in vitro dissolution rate and kinetics of drug release. The best formulae were selected for in vivo studies in rabbits in comparison with marketed oral tablets; Motinorm®. Results: Solid dispersions of DMP with Pluronic F-68 in a weight ratio of 1:7 (w/w) showed the highest dissolution rate and were selected for sublingual tablets formulation. Sublingual tablets formulae S16 (containing Fructose and 10% w/w Ac-Di-Sol) and S20 (containing Fructose and 10% w/w Explotab) showed the best results and were selected for in vivo studies in rabbits. The selected formulae showed marked enhancement of DMP bioavailability compared with the commercial oral tablets; Motinorm®, with relative bioavailability values of 432.49±10.13% and 409.32±11.59 % for S16 and S20, respectively. Conclusion: The results confirmed that sublingual tablets were an effective tool for DMP delivery with marked enhancement of bioavailability.
Research Authors
Ahmed E. Aboutaleb, Sayed I. Abdel-Rahman, Mahrous O. Ahmed, Mahmoud A. Younis
Research Department
Research Journal
International Journal of Pharmacy and Pharmaceutical Sciences
Research Publisher
Innovare Academic Sciences Pvt Ltd
Research Rank
1
Research Vol
(6)8
Research Website
http://innovareacademics.in/journals/index.php/ijpps/article/view/11362
Research Year
2016

DESIGN AND EVALUATION OF DOMPERIDONE SUBLINGUAL TABLETS

Research Abstract
Objective: The aim of this work was to enhance the bioavailability of poorly soluble, anti-emetic drug; domperidone (DMP) having a poor oral bioavailability (13-17%) due to extensive first pass metabolism. The goal of this study was achieved through solubilization of DMP using solid dispersion technology followed by incorporation of solid dispersions into sublingual tablets to bypass pre-systemic metabolism. Methods: Solid dispersions of DMP with Pluronic F-68 were prepared in different weight ratios by fusion method and they were evaluated for their in vitro dissolution rate to select the best ratio for final formulation. Then, solid dispersions were formulated into sublingual tablets in combination with various soluble excipients. Sublingual tablets were prepared by direct compression technique and evaluated for their physical properties, in vitro dissolution rate and kinetics of drug release. The best formulae were selected for in vivo studies in rabbits in comparison with marketed oral tablets; Motinorm®. Results: Solid dispersions of DMP with Pluronic F-68 in a weight ratio of 1:7 (w/w) showed the highest dissolution rate and were selected for sublingual tablets formulation. Sublingual tablets formulae S16 (containing Fructose and 10% w/w Ac-Di-Sol) and S20 (containing Fructose and 10% w/w Explotab) showed the best results and were selected for in vivo studies in rabbits. The selected formulae showed marked enhancement of DMP bioavailability compared with the commercial oral tablets; Motinorm®, with relative bioavailability values of 432.49±10.13% and 409.32±11.59 % for S16 and S20, respectively. Conclusion: The results confirmed that sublingual tablets were an effective tool for DMP delivery with marked enhancement of bioavailability.
Research Authors
Ahmed E. Aboutaleb, Sayed I. Abdel-Rahman, Mahrous O. Ahmed, Mahmoud A. Younis
Research Department
Research Journal
International Journal of Pharmacy and Pharmaceutical Sciences
Research Publisher
Innovare Academic Sciences Pvt Ltd
Research Rank
1
Research Vol
(6)8
Research Website
http://innovareacademics.in/journals/index.php/ijpps/article/view/11362
Research Year
2016

DESIGN AND EVALUATION OF DOMPERIDONE SUBLINGUAL TABLETS

Research Abstract
Objective: The aim of this work was to enhance the bioavailability of poorly soluble, anti-emetic drug; domperidone (DMP) having a poor oral bioavailability (13-17%) due to extensive first pass metabolism. The goal of this study was achieved through solubilization of DMP using solid dispersion technology followed by incorporation of solid dispersions into sublingual tablets to bypass pre-systemic metabolism. Methods: Solid dispersions of DMP with Pluronic F-68 were prepared in different weight ratios by fusion method and they were evaluated for their in vitro dissolution rate to select the best ratio for final formulation. Then, solid dispersions were formulated into sublingual tablets in combination with various soluble excipients. Sublingual tablets were prepared by direct compression technique and evaluated for their physical properties, in vitro dissolution rate and kinetics of drug release. The best formulae were selected for in vivo studies in rabbits in comparison with marketed oral tablets; Motinorm®. Results: Solid dispersions of DMP with Pluronic F-68 in a weight ratio of 1:7 (w/w) showed the highest dissolution rate and were selected for sublingual tablets formulation. Sublingual tablets formulae S16 (containing Fructose and 10% w/w Ac-Di-Sol) and S20 (containing Fructose and 10% w/w Explotab) showed the best results and were selected for in vivo studies in rabbits. The selected formulae showed marked enhancement of DMP bioavailability compared with the commercial oral tablets; Motinorm®, with relative bioavailability values of 432.49±10.13% and 409.32±11.59 % for S16 and S20, respectively. Conclusion: The results confirmed that sublingual tablets were an effective tool for DMP delivery with marked enhancement of bioavailability.
Research Authors
Ahmed E. Aboutaleb, Sayed I. Abdel-Rahman, Mahrous O. Ahmed, Mahmoud A. Younis
Research Department
Research Journal
International Journal of Pharmacy and Pharmaceutical Sciences
Research Publisher
Innovare Academic Sciences Pvt Ltd
Research Rank
1
Research Vol
(6)8
Research Website
http://innovareacademics.in/journals/index.php/ijpps/article/view/11362
Research Year
2016

DESIGN AND EVALUATION OF DOMPERIDONE SUBLINGUAL TABLETS

Research Abstract
Objective: The aim of this work was to enhance the bioavailability of poorly soluble, anti-emetic drug; domperidone (DMP) having a poor oral bioavailability (13-17%) due to extensive first pass metabolism. The goal of this study was achieved through solubilization of DMP using solid dispersion technology followed by incorporation of solid dispersions into sublingual tablets to bypass pre-systemic metabolism. Methods: Solid dispersions of DMP with Pluronic F-68 were prepared in different weight ratios by fusion method and they were evaluated for their in vitro dissolution rate to select the best ratio for final formulation. Then, solid dispersions were formulated into sublingual tablets in combination with various soluble excipients. Sublingual tablets were prepared by direct compression technique and evaluated for their physical properties, in vitro dissolution rate and kinetics of drug release. The best formulae were selected for in vivo studies in rabbits in comparison with marketed oral tablets; Motinorm®. Results: Solid dispersions of DMP with Pluronic F-68 in a weight ratio of 1:7 (w/w) showed the highest dissolution rate and were selected for sublingual tablets formulation. Sublingual tablets formulae S16 (containing Fructose and 10% w/w Ac-Di-Sol) and S20 (containing Fructose and 10% w/w Explotab) showed the best results and were selected for in vivo studies in rabbits. The selected formulae showed marked enhancement of DMP bioavailability compared with the commercial oral tablets; Motinorm®, with relative bioavailability values of 432.49±10.13% and 409.32±11.59 % for S16 and S20, respectively. Conclusion: The results confirmed that sublingual tablets were an effective tool for DMP delivery with marked enhancement of bioavailability.
Research Authors
Ahmed E. Aboutaleb, Sayed I. Abdel-Rahman, Mahrous O. Ahmed, Mahmoud A. Younis
Research Department
Research Journal
International Journal of Pharmacy and Pharmaceutical Sciences
Research Publisher
Innovare Academic Sciences Pvt Ltd
Research Rank
1
Research Vol
(6)8
Research Website
http://innovareacademics.in/journals/index.php/ijpps/article/view/11362
Research Year
2016

Improvement of Domperidone Solubility and Dissolution Rate by Dispersion in Various Hydrophilic Carriers

Research Abstract
The aim of this work was to improve the solubility and dissolution rate of poorly-soluble, weakly-basic, antiemetic drug; domperidone (DMP) using solid dispersion technique. Solubility studies of DMP with various hydrophilic carriers including sorbitol, mannitol, PEG 4000, PEG 6000, pluronic F-68 and pluronic F-127 were performed. Pluronic F-68 and pluronic F-127 showed the highest solubilizing effect on DMP and therefore; they were selected for the preparation of solid dispersions in different weight ratios by the fusion method. The solid dispersions were characterized using Fourier-transform infrared spectroscopy (FT-IR), Differential Scanning Calorimetry (DSC), Powder X-ray Diffractometry (P-XRD), solubility determination and in-vitro dissolution rate studies. FT-IR and DSC studies confirmed the absence of incompatibilities between DMP and the used carriers. DSC and P-XRD studies proved the transformation of drug from crystalline to amorphous state in the prepared solid dispersions. The results showed marked improvement of DMP solubility and dissolution rate from the solid dispersions compared with the pure drug and indicated the superiority of solid dispersions prepared with pluronic F-68 over those prepared with pluronic F-127. It can be concluded that solid dispersion technique was an effective tool in the enhancement of DMP dissolution.
Research Authors
Ahmed E. Aboutaleb, Sayed I. Abdel-Rahman, Mahrous O. Ahmed, Mahmoud A. Younis
Research Department
Research Journal
Journal of applied pharmaceutical science
Research Publisher
NULL
Research Rank
1
Research Vol
(7)6
Research Website
http://www.japsonline.com/admin/php/uploads/1931_pdf.pdf
Research Year
2016

Improvement of Domperidone Solubility and Dissolution Rate by Dispersion in Various Hydrophilic Carriers

Research Abstract
The aim of this work was to improve the solubility and dissolution rate of poorly-soluble, weakly-basic, antiemetic drug; domperidone (DMP) using solid dispersion technique. Solubility studies of DMP with various hydrophilic carriers including sorbitol, mannitol, PEG 4000, PEG 6000, pluronic F-68 and pluronic F-127 were performed. Pluronic F-68 and pluronic F-127 showed the highest solubilizing effect on DMP and therefore; they were selected for the preparation of solid dispersions in different weight ratios by the fusion method. The solid dispersions were characterized using Fourier-transform infrared spectroscopy (FT-IR), Differential Scanning Calorimetry (DSC), Powder X-ray Diffractometry (P-XRD), solubility determination and in-vitro dissolution rate studies. FT-IR and DSC studies confirmed the absence of incompatibilities between DMP and the used carriers. DSC and P-XRD studies proved the transformation of drug from crystalline to amorphous state in the prepared solid dispersions. The results showed marked improvement of DMP solubility and dissolution rate from the solid dispersions compared with the pure drug and indicated the superiority of solid dispersions prepared with pluronic F-68 over those prepared with pluronic F-127. It can be concluded that solid dispersion technique was an effective tool in the enhancement of DMP dissolution.
Research Authors
Ahmed E. Aboutaleb, Sayed I. Abdel-Rahman, Mahrous O. Ahmed, Mahmoud A. Younis
Research Department
Research Journal
Journal of applied pharmaceutical science
Research Publisher
NULL
Research Rank
1
Research Vol
(7)6
Research Website
http://www.japsonline.com/admin/php/uploads/1931_pdf.pdf
Research Year
2016

Improvement of Domperidone Solubility and Dissolution Rate by Dispersion in Various Hydrophilic Carriers

Research Abstract
The aim of this work was to improve the solubility and dissolution rate of poorly-soluble, weakly-basic, antiemetic drug; domperidone (DMP) using solid dispersion technique. Solubility studies of DMP with various hydrophilic carriers including sorbitol, mannitol, PEG 4000, PEG 6000, pluronic F-68 and pluronic F-127 were performed. Pluronic F-68 and pluronic F-127 showed the highest solubilizing effect on DMP and therefore; they were selected for the preparation of solid dispersions in different weight ratios by the fusion method. The solid dispersions were characterized using Fourier-transform infrared spectroscopy (FT-IR), Differential Scanning Calorimetry (DSC), Powder X-ray Diffractometry (P-XRD), solubility determination and in-vitro dissolution rate studies. FT-IR and DSC studies confirmed the absence of incompatibilities between DMP and the used carriers. DSC and P-XRD studies proved the transformation of drug from crystalline to amorphous state in the prepared solid dispersions. The results showed marked improvement of DMP solubility and dissolution rate from the solid dispersions compared with the pure drug and indicated the superiority of solid dispersions prepared with pluronic F-68 over those prepared with pluronic F-127. It can be concluded that solid dispersion technique was an effective tool in the enhancement of DMP dissolution.
Research Authors
Ahmed E. Aboutaleb, Sayed I. Abdel-Rahman, Mahrous O. Ahmed, Mahmoud A. Younis
Research Department
Research Journal
Journal of applied pharmaceutical science
Research Publisher
NULL
Research Rank
1
Research Vol
(7)6
Research Website
http://www.japsonline.com/admin/php/uploads/1931_pdf.pdf
Research Year
2016

Improvement of Domperidone Solubility and Dissolution Rate by Dispersion in Various Hydrophilic Carriers

Research Abstract
The aim of this work was to improve the solubility and dissolution rate of poorly-soluble, weakly-basic, antiemetic drug; domperidone (DMP) using solid dispersion technique. Solubility studies of DMP with various hydrophilic carriers including sorbitol, mannitol, PEG 4000, PEG 6000, pluronic F-68 and pluronic F-127 were performed. Pluronic F-68 and pluronic F-127 showed the highest solubilizing effect on DMP and therefore; they were selected for the preparation of solid dispersions in different weight ratios by the fusion method. The solid dispersions were characterized using Fourier-transform infrared spectroscopy (FT-IR), Differential Scanning Calorimetry (DSC), Powder X-ray Diffractometry (P-XRD), solubility determination and in-vitro dissolution rate studies. FT-IR and DSC studies confirmed the absence of incompatibilities between DMP and the used carriers. DSC and P-XRD studies proved the transformation of drug from crystalline to amorphous state in the prepared solid dispersions. The results showed marked improvement of DMP solubility and dissolution rate from the solid dispersions compared with the pure drug and indicated the superiority of solid dispersions prepared with pluronic F-68 over those prepared with pluronic F-127. It can be concluded that solid dispersion technique was an effective tool in the enhancement of DMP dissolution.
Research Authors
Ahmed E. Aboutaleb, Sayed I. Abdel-Rahman, Mahrous O. Ahmed, Mahmoud A. Younis
Research Department
Research Journal
Journal of applied pharmaceutical science
Research Publisher
NULL
Research Rank
1
Research Vol
(7)6
Research Website
http://www.japsonline.com/admin/php/uploads/1931_pdf.pdf
Research Year
2016

Solid dispersion technology, a contemporary overview on a well established technique

Research Abstract
Solubility is a significant physicochemical parameter that affects the absorption, bioavailability and therapeutic effectiveness of any drug. Formulation development would fail if drug has a poor aqueous solubility. The low aqueous solubility of drug substances will lead to inadequate absorption and consequently, low bioavailability. Improvement of the aqueous solubility and dissolution rate of hydrophobic drugs remains one of the most difficult challenges in drug development process. Among various techniques used to improve poor aqueous solubility of drugs, solid dispersion technology has been extensively used in the literature and has become one of the well-established pharmaceutical procedures during formulation process. Although the technique seems to be “a part of the past”, literature tells us that it is still used and developed to suit current needs of pharmaceutical industry. This review article highlights recent advances in solid dispersion technology and its applications in contemporary pharmaceutical research.
Research Authors
Mahmoud A. Younis
Research Department
Research Journal
Universal Journal of Pharmaceutical Research
Research Publisher
NULL
Research Rank
1
Research Vol
(3)2
Research Website
http://www.ujpr.org/wp-content/themes/asb-ujpr/images/review/UJPR-2-3-RW1.pdf
Research Year
2017
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