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2021 (5)

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Book
Advanced Materials in Drug Release and Drug Delivery Systems
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Year: 2021 Publisher: Basel, Switzerland MDPI - Multidisciplinary Digital Publishing Institute

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Abstract

Development of new drug molecules is costly and requires longitudinal, wide-ranging studies; therefore, designing advanced pharmaceutical formulations for existing and well-known drugs seems to be an attractive device for the pharmaceutical industry. Properly formulated drug delivery systems can improve pharmacological activity, efficacy and safety of the active substances. Advanced materials applied as pharmaceutical excipients in designing drug delivery systems can help solve problems concerning the required drug release—with the defined dissolution rate and at the determined site. Novel drug carriers enable more effective drug delivery, with improved safety and with fewer side effects. Investigations concerning advanced materials represent a rapidly growing research field in material/polymer science, chemical engineering and pharmaceutical technology. Exploring novel materials or modifying and combining existing ones is now a crucial trend in pharmaceutical technology. Eleven articles included in the the Special Issue “Advanced Materials in Drug Release and Drug Delivery Systems” present the most recent insights into the utilization of different materials with promising potential in drug delivery and into different formulation approaches that can be used in the design of pharmaceutical formulations.

Keywords

Technology: general issues --- mesoporous silica --- layer-by-layer --- FITC-peptide --- hyaluronic acid --- multilayer film --- host-guest interaction --- total alkaloids from Alstonia scholaris leaves --- mPEG-PLA --- microspheres --- drug release --- biocompatibility --- CO administration --- therapeutic agent --- pharmaceutical drugs --- heme oxygenase --- CO-releasing materials --- CO-releasing molecules --- organometallic complexes --- pharmacokinetic functions --- pathological role --- CO kinetic profile --- cellular targets --- GQDs --- real-time tracking --- optical-magneto nanoparticles --- in vivo --- ethylcellulose --- polymeric material --- cellulose derivative --- pharmaceutical excipient --- hydrogel --- drug delivery --- polymer --- immobilization of drug --- gelatin --- gastro-resistant --- films --- capsules --- structure --- sirolimus --- electrospinning --- polycaprolactone --- 3D matrix --- drug-eluting stents --- spray drying --- microparticles --- rupatadine fumarate --- orodispersible minitablets --- taste masking --- Bicalutamide --- Poloxamer® 407 --- Macrogol 6000 --- supercritical carbon dioxide --- solid dispersions --- dissolution rate --- amorphization --- 3D printing --- fused deposition modeling --- hot-melt extrusion --- solid dosage forms --- itraconazole --- mesoporous silica --- layer-by-layer --- FITC-peptide --- hyaluronic acid --- multilayer film --- host-guest interaction --- total alkaloids from Alstonia scholaris leaves --- mPEG-PLA --- microspheres --- drug release --- biocompatibility --- CO administration --- therapeutic agent --- pharmaceutical drugs --- heme oxygenase --- CO-releasing materials --- CO-releasing molecules --- organometallic complexes --- pharmacokinetic functions --- pathological role --- CO kinetic profile --- cellular targets --- GQDs --- real-time tracking --- optical-magneto nanoparticles --- in vivo --- ethylcellulose --- polymeric material --- cellulose derivative --- pharmaceutical excipient --- hydrogel --- drug delivery --- polymer --- immobilization of drug --- gelatin --- gastro-resistant --- films --- capsules --- structure --- sirolimus --- electrospinning --- polycaprolactone --- 3D matrix --- drug-eluting stents --- spray drying --- microparticles --- rupatadine fumarate --- orodispersible minitablets --- taste masking --- Bicalutamide --- Poloxamer® 407 --- Macrogol 6000 --- supercritical carbon dioxide --- solid dispersions --- dissolution rate --- amorphization --- 3D printing --- fused deposition modeling --- hot-melt extrusion --- solid dosage forms --- itraconazole


Book
Paediatric Formulation: Design and Development
Authors: ---
Year: 2021 Publisher: Basel, Switzerland MDPI - Multidisciplinary Digital Publishing Institute

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Abstract

The development of paediatric medicines can be challenging since this is a different patient population with specific needs. A medicine designed for use in paediatric patients must consider the following aspects: patient population variability; the need for dose flexibility; route of administration; patient compliance; excipient tolerability. For example, the toxicity of excipients may differ in children compared to adults and children have different taste preferences. Globally, about 75% of drugs do not carry regulatory approval for use in children; worldwide, many medications prescribed for the treatment of paediatric diseases are used off-label, and less than 20% of package inserts have sufficient information for treating children. This book provides an update on both state-of-the-art methodology and operational challenges in paediatric formulation design and development. It aims at re-evaluating what is needed for more progress in the design and development of age-appropriate treatments for paediatric diseases, focusing on: formulation development; drug delivery design; efficacy, safety, and tolerability of drugs and excipients.

Keywords

Medicine --- dasatinib --- Duchenne muscular dystrophy --- cyclodextrin inclusion complex --- phase solubility studies --- paediatric age --- liquid formulation --- tumorspheres --- retinoblastoma --- topotecan --- penetration --- confocal microscopy --- poorly water soluble drug --- solubility enhancement --- grinding --- spray congealing --- neglected tropical diseases --- polymorph --- Norvir® --- ritonavir --- poorly soluble compound --- pediatric --- palatability assessment --- bioavailability --- flavor profile --- Interleukin-1 --- anakinra --- canakinumab --- innovative biotechnologies --- autoinflammatory disease --- Kawasaki disease --- systemic juvenile idiopathic arthritis --- personalized medicine --- child --- pediatrics --- neonates --- formulation --- product development --- formulation development --- oral --- parenteral --- topical --- inhaled --- intra nasal --- biopharmaceutics --- administration --- excipient --- NICU --- device --- medication error --- dosage form --- modified release --- drug delivery --- paediatric formulation development --- paediatric dosage forms --- chronic myeloid leukemia --- tyrosine kinase inhibitors --- pediatric age --- imatinib --- nilotinb --- ponatinib --- Orodispersible formulation --- pyrazinamide --- pediatric drug delivery --- tuberculosis --- design of experiments --- children --- edible films --- development --- design --- paediatric --- age-related --- palatable --- taste-masking --- acceptable --- dasatinib --- Duchenne muscular dystrophy --- cyclodextrin inclusion complex --- phase solubility studies --- paediatric age --- liquid formulation --- tumorspheres --- retinoblastoma --- topotecan --- penetration --- confocal microscopy --- poorly water soluble drug --- solubility enhancement --- grinding --- spray congealing --- neglected tropical diseases --- polymorph --- Norvir® --- ritonavir --- poorly soluble compound --- pediatric --- palatability assessment --- bioavailability --- flavor profile --- Interleukin-1 --- anakinra --- canakinumab --- innovative biotechnologies --- autoinflammatory disease --- Kawasaki disease --- systemic juvenile idiopathic arthritis --- personalized medicine --- child --- pediatrics --- neonates --- formulation --- product development --- formulation development --- oral --- parenteral --- topical --- inhaled --- intra nasal --- biopharmaceutics --- administration --- excipient --- NICU --- device --- medication error --- dosage form --- modified release --- drug delivery --- paediatric formulation development --- paediatric dosage forms --- chronic myeloid leukemia --- tyrosine kinase inhibitors --- pediatric age --- imatinib --- nilotinb --- ponatinib --- Orodispersible formulation --- pyrazinamide --- pediatric drug delivery --- tuberculosis --- design of experiments --- children --- edible films --- development --- design --- paediatric --- age-related --- palatable --- taste-masking --- acceptable


Book
Advanced Materials in Drug Release and Drug Delivery Systems
Author:
Year: 2021 Publisher: Basel, Switzerland MDPI - Multidisciplinary Digital Publishing Institute

Loading...
Export citation

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Bookmark

Abstract

Development of new drug molecules is costly and requires longitudinal, wide-ranging studies; therefore, designing advanced pharmaceutical formulations for existing and well-known drugs seems to be an attractive device for the pharmaceutical industry. Properly formulated drug delivery systems can improve pharmacological activity, efficacy and safety of the active substances. Advanced materials applied as pharmaceutical excipients in designing drug delivery systems can help solve problems concerning the required drug release—with the defined dissolution rate and at the determined site. Novel drug carriers enable more effective drug delivery, with improved safety and with fewer side effects. Investigations concerning advanced materials represent a rapidly growing research field in material/polymer science, chemical engineering and pharmaceutical technology. Exploring novel materials or modifying and combining existing ones is now a crucial trend in pharmaceutical technology. Eleven articles included in the the Special Issue “Advanced Materials in Drug Release and Drug Delivery Systems” present the most recent insights into the utilization of different materials with promising potential in drug delivery and into different formulation approaches that can be used in the design of pharmaceutical formulations.


Book
Paediatric Formulation: Design and Development
Authors: ---
Year: 2021 Publisher: Basel, Switzerland MDPI - Multidisciplinary Digital Publishing Institute

Loading...
Export citation

Choose an application

Bookmark

Abstract

The development of paediatric medicines can be challenging since this is a different patient population with specific needs. A medicine designed for use in paediatric patients must consider the following aspects: patient population variability; the need for dose flexibility; route of administration; patient compliance; excipient tolerability. For example, the toxicity of excipients may differ in children compared to adults and children have different taste preferences. Globally, about 75% of drugs do not carry regulatory approval for use in children; worldwide, many medications prescribed for the treatment of paediatric diseases are used off-label, and less than 20% of package inserts have sufficient information for treating children. This book provides an update on both state-of-the-art methodology and operational challenges in paediatric formulation design and development. It aims at re-evaluating what is needed for more progress in the design and development of age-appropriate treatments for paediatric diseases, focusing on: formulation development; drug delivery design; efficacy, safety, and tolerability of drugs and excipients.


Book
Advanced Materials in Drug Release and Drug Delivery Systems
Author:
Year: 2021 Publisher: Basel, Switzerland MDPI - Multidisciplinary Digital Publishing Institute

Loading...
Export citation

Choose an application

Bookmark

Abstract

Development of new drug molecules is costly and requires longitudinal, wide-ranging studies; therefore, designing advanced pharmaceutical formulations for existing and well-known drugs seems to be an attractive device for the pharmaceutical industry. Properly formulated drug delivery systems can improve pharmacological activity, efficacy and safety of the active substances. Advanced materials applied as pharmaceutical excipients in designing drug delivery systems can help solve problems concerning the required drug release—with the defined dissolution rate and at the determined site. Novel drug carriers enable more effective drug delivery, with improved safety and with fewer side effects. Investigations concerning advanced materials represent a rapidly growing research field in material/polymer science, chemical engineering and pharmaceutical technology. Exploring novel materials or modifying and combining existing ones is now a crucial trend in pharmaceutical technology. Eleven articles included in the the Special Issue “Advanced Materials in Drug Release and Drug Delivery Systems” present the most recent insights into the utilization of different materials with promising potential in drug delivery and into different formulation approaches that can be used in the design of pharmaceutical formulations.

Listing 1 - 5 of 5
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