Transdermal delivery of selegiline from alginate–Pluronic composite thermogels

Representative visual inspection of the aqueous copolymer system at 15 °C (A), 20 °C (B), 25 °C (C), 30 °C (D), and 35 °C (E) (left to right: PF127 (20%), alginate and PF127 blending (A + P, 20% + 0.63%), and the alginate–Pluronic F127 composite copolymer (AP, 15%)). The present work was carried out...

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Published in	International journal of pharmaceutics Vol. 415; no. 1; pp. 119 - 128
Main Authors	Chen, Chih-Chieh, Fang, Chia-Lang, Al-Suwayeh, Saleh A., Leu, Yann-Lii, Fang, Jia-You
Format	Journal Article
Language	English
Published	Amsterdam Elsevier B.V 30.08.2011 Elsevier
Subjects	Administration, Cutaneous Alginate Alginates - chemistry Animals Biological and medical sciences Chromatography, High Pressure Liquid composite polymers Drug Carriers - chemical synthesis Drug Carriers - chemistry Drug Compounding Female Freeze Drying gelatinization temperature gels General pharmacology Glucuronic Acid - chemistry Hexuronic Acids - chemistry hydrocolloids Hydrogels In Vitro Techniques Medical sciences Mice Mice, Nude Microscopy, Electron, Scanning Monoamine Oxidase Inhibitors - administration & dosage Monoamine Oxidase Inhibitors - chemistry Monoamine Oxidase Inhibitors - pharmacokinetics Pharmaceutical technology. Pharmaceutical industry Pharmacology. Drug treatments Phase Transition Pluronic F127 Poloxamer - chemistry porosity scanning electron microscopy Selegiline Selegiline - administration & dosage Selegiline - chemistry Selegiline - pharmacokinetics Skin - metabolism Skin Absorption Skin Temperature Surface Properties Swine Thermogel Transdermal delivery Transition Temperature Selegiline Transdermal delivery Pluronic F127 Alginate Thermogel Monoamine oxidase B inhibitor Vehicle(excipient) Uronide polymer Laxative Composite material Percutaneous route Cyclic ether copolymer Propylene oxide copolymer Pharmaceutical technology Enzyme Enzyme inhibitor Alginates Ethylene oxide copolymer Antiparkinson agent Amine oxidase (flavin-containing) Polyelectrolyte Triblock copolymer Poloxamer Oside polymer Oxidoreductases
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ISSN	0378-5173 1873-3476 1873-3476
DOI	10.1016/j.ijpharm.2011.05.060

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Abstract	Representative visual inspection of the aqueous copolymer system at 15 °C (A), 20 °C (B), 25 °C (C), 30 °C (D), and 35 °C (E) (left to right: PF127 (20%), alginate and PF127 blending (A + P, 20% + 0.63%), and the alginate–Pluronic F127 composite copolymer (AP, 15%)). The present work was carried out to design a practical, controlled-release transdermal system for selegiline using thermosensitive hydrogels. The copolymers of alginate and Pluronic F127 (PF127) were used to design thermogels by either physical blending (A + P) or chemical grafting (AP). The thermogels were characterized in terms of the sol–gel temperature, scanning electron microscopy (SEM), degradation ratio, and skin permeation behavior. The chemical grafting of alginate to PF127 could delay the sol–gel temperature from 24.1 to 30.4 °C, which is near the temperature of the skin surface. The gelling temperature of the physical mixture of alginate and PF127 (A + P) did not significantly differ. The porosity of the A + P structure was greater compared to that of the AP structure. AP thermogels were regularly degraded, with 60% of the gel matrix remaining after a 48-h incubation. PF127 and A + P hydrogels showed almost no degradation. The results of skin permeation across porcine skin and nude mouse skin suggested that the thermogels could produce sustained selegiline release, with AP showing the most-sustained permeation. AP hydrogels exhibited linear permeation properties for the transdermal delivery of selegiline. Inter-subject variations in skin permeation were reduced by incorporation of the thermogel. Such a thermosensitive hydrogel can be advantageous as a topical therapeutic formulation for selegiline.
AbstractList	The present work was carried out to design a practical, controlled-release transdermal system for selegiline using thermosensitive hydrogels. The copolymers of alginate and Pluronic F127 (PF127) were used to design thermogels by either physical blending (A+P) or chemical grafting (AP). The thermogels were characterized in terms of the sol-gel temperature, scanning electron microscopy (SEM), degradation ratio, and skin permeation behavior. The chemical grafting of alginate to PF127 could delay the sol-gel temperature from 24.1 to 30.4°C, which is near the temperature of the skin surface. The gelling temperature of the physical mixture of alginate and PF127 (A+P) did not significantly differ. The porosity of the A+P structure was greater compared to that of the AP structure. AP thermogels were regularly degraded, with 60% of the gel matrix remaining after a 48-h incubation. PF127 and A+P hydrogels showed almost no degradation. The results of skin permeation across porcine skin and nude mouse skin suggested that the thermogels could produce sustained selegiline release, with AP showing the most-sustained permeation. AP hydrogels exhibited linear permeation properties for the transdermal delivery of selegiline. Inter-subject variations in skin permeation were reduced by incorporation of the thermogel. Such a thermosensitive hydrogel can be advantageous as a topical therapeutic formulation for selegiline. The present work was carried out to design a practical, controlled-release transdermal system for selegiline using thermosensitive hydrogels. The copolymers of alginate and Pluronic F127 (PF127) were used to design thermogels by either physical blending (A+P) or chemical grafting (AP). The thermogels were characterized in terms of the sol-gel temperature, scanning electron microscopy (SEM), degradation ratio, and skin permeation behavior. The chemical grafting of alginate to PF127 could delay the sol-gel temperature from 24.1 to 30.4°C, which is near the temperature of the skin surface. The gelling temperature of the physical mixture of alginate and PF127 (A+P) did not significantly differ. The porosity of the A+P structure was greater compared to that of the AP structure. AP thermogels were regularly degraded, with 60% of the gel matrix remaining after a 48-h incubation. PF127 and A+P hydrogels showed almost no degradation. The results of skin permeation across porcine skin and nude mouse skin suggested that the thermogels could produce sustained selegiline release, with AP showing the most-sustained permeation. AP hydrogels exhibited linear permeation properties for the transdermal delivery of selegiline. Inter-subject variations in skin permeation were reduced by incorporation of the thermogel. Such a thermosensitive hydrogel can be advantageous as a topical therapeutic formulation for selegiline.The present work was carried out to design a practical, controlled-release transdermal system for selegiline using thermosensitive hydrogels. The copolymers of alginate and Pluronic F127 (PF127) were used to design thermogels by either physical blending (A+P) or chemical grafting (AP). The thermogels were characterized in terms of the sol-gel temperature, scanning electron microscopy (SEM), degradation ratio, and skin permeation behavior. The chemical grafting of alginate to PF127 could delay the sol-gel temperature from 24.1 to 30.4°C, which is near the temperature of the skin surface. The gelling temperature of the physical mixture of alginate and PF127 (A+P) did not significantly differ. The porosity of the A+P structure was greater compared to that of the AP structure. AP thermogels were regularly degraded, with 60% of the gel matrix remaining after a 48-h incubation. PF127 and A+P hydrogels showed almost no degradation. The results of skin permeation across porcine skin and nude mouse skin suggested that the thermogels could produce sustained selegiline release, with AP showing the most-sustained permeation. AP hydrogels exhibited linear permeation properties for the transdermal delivery of selegiline. Inter-subject variations in skin permeation were reduced by incorporation of the thermogel. Such a thermosensitive hydrogel can be advantageous as a topical therapeutic formulation for selegiline. Representative visual inspection of the aqueous copolymer system at 15 °C (A), 20 °C (B), 25 °C (C), 30 °C (D), and 35 °C (E) (left to right: PF127 (20%), alginate and PF127 blending (A + P, 20% + 0.63%), and the alginate–Pluronic F127 composite copolymer (AP, 15%)). The present work was carried out to design a practical, controlled-release transdermal system for selegiline using thermosensitive hydrogels. The copolymers of alginate and Pluronic F127 (PF127) were used to design thermogels by either physical blending (A + P) or chemical grafting (AP). The thermogels were characterized in terms of the sol–gel temperature, scanning electron microscopy (SEM), degradation ratio, and skin permeation behavior. The chemical grafting of alginate to PF127 could delay the sol–gel temperature from 24.1 to 30.4 °C, which is near the temperature of the skin surface. The gelling temperature of the physical mixture of alginate and PF127 (A + P) did not significantly differ. The porosity of the A + P structure was greater compared to that of the AP structure. AP thermogels were regularly degraded, with 60% of the gel matrix remaining after a 48-h incubation. PF127 and A + P hydrogels showed almost no degradation. The results of skin permeation across porcine skin and nude mouse skin suggested that the thermogels could produce sustained selegiline release, with AP showing the most-sustained permeation. AP hydrogels exhibited linear permeation properties for the transdermal delivery of selegiline. Inter-subject variations in skin permeation were reduced by incorporation of the thermogel. Such a thermosensitive hydrogel can be advantageous as a topical therapeutic formulation for selegiline.
Author	Chen, Chih-Chieh Fang, Jia-You Leu, Yann-Lii Al-Suwayeh, Saleh A. Fang, Chia-Lang
Author_xml	– sequence: 1 givenname: Chih-Chieh surname: Chen fullname: Chen, Chih-Chieh organization: Pharmaceutics Laboratory, Graduate Institute of Natural Products, Chang Gung University, Kweishan, Taoyuan, Taiwan – sequence: 2 givenname: Chia-Lang surname: Fang fullname: Fang, Chia-Lang organization: Department of Pathology, College of Medicine, Taipei Medical University, Taipei, Taiwan – sequence: 3 givenname: Saleh A. surname: Al-Suwayeh fullname: Al-Suwayeh, Saleh A. organization: Department of Pharmaceutics, College of Pharmacy, King Saud University, Riyadh, Saudi Arabia – sequence: 4 givenname: Yann-Lii surname: Leu fullname: Leu, Yann-Lii organization: Natural Products Laboratory, Graduate Institute of Natural Products, Chang Gung University, Kweishan, Taoyuan, Taiwan – sequence: 5 givenname: Jia-You surname: Fang fullname: Fang, Jia-You email: fajy@mail.cgu.edu.tw organization: Pharmaceutics Laboratory, Graduate Institute of Natural Products, Chang Gung University, Kweishan, Taoyuan, Taiwan
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Keywords	Selegiline Transdermal delivery Pluronic F127 Alginate Thermogel Monoamine oxidase B inhibitor Vehicle(excipient) Uronide polymer Laxative Composite material Percutaneous route Cyclic ether copolymer Propylene oxide copolymer Pharmaceutical technology Enzyme Enzyme inhibitor Alginates Ethylene oxide copolymer Antiparkinson agent Amine oxidase (flavin-containing) Polyelectrolyte Triblock copolymer Poloxamer Oside polymer Oxidoreductases
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Snippet	Representative visual inspection of the aqueous copolymer system at 15 °C (A), 20 °C (B), 25 °C (C), 30 °C (D), and 35 °C (E) (left to right: PF127 (20%),... The present work was carried out to design a practical, controlled-release transdermal system for selegiline using thermosensitive hydrogels. The copolymers of...
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SubjectTerms	Administration, Cutaneous Alginate Alginates - chemistry Animals Biological and medical sciences Chromatography, High Pressure Liquid composite polymers Drug Carriers - chemical synthesis Drug Carriers - chemistry Drug Compounding Female Freeze Drying gelatinization temperature gels General pharmacology Glucuronic Acid - chemistry Hexuronic Acids - chemistry hydrocolloids Hydrogels In Vitro Techniques Medical sciences Mice Mice, Nude Microscopy, Electron, Scanning Monoamine Oxidase Inhibitors - administration & dosage Monoamine Oxidase Inhibitors - chemistry Monoamine Oxidase Inhibitors - pharmacokinetics Pharmaceutical technology. Pharmaceutical industry Pharmacology. Drug treatments Phase Transition Pluronic F127 Poloxamer - chemistry porosity scanning electron microscopy Selegiline Selegiline - administration & dosage Selegiline - chemistry Selegiline - pharmacokinetics Skin - metabolism Skin Absorption Skin Temperature Surface Properties Swine Thermogel Transdermal delivery Transition Temperature
Title	Transdermal delivery of selegiline from alginate–Pluronic composite thermogels
URI	https://dx.doi.org/10.1016/j.ijpharm.2011.05.060 https://www.ncbi.nlm.nih.gov/pubmed/21645593 https://www.proquest.com/docview/1678561783 https://www.proquest.com/docview/876188929
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