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THIAMINE --- RIBOFLAVIN --- PYRIDOXINE --- NIACINAMIDE --- HPLC --- ELECTROPHORESIS --- ANALYSIS --- ANALYSIS --- ANALYSIS --- ANALYSIS --- THIAMINE --- RIBOFLAVIN --- PYRIDOXINE --- NIACINAMIDE --- HPLC --- ELECTROPHORESIS --- ANALYSIS --- ANALYSIS --- ANALYSIS --- ANALYSIS

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This book focuses on the design of polymeric delivery systems for biomedical and nanomedicine applications as well as on understanding how such biomaterials interact in the physiological environment. The reader will find an encompassing view on the state-of-the-art of polymeric carriers, showing how current research deals with new stimuli-responsive systems for cancer therapies and biomedical challenges, namely overcoming the skin barrier. The published papers cover topics ranging from novel production methods and insights on hybrid polymers to applications as diverse as nanoparticles, hydrogels and microneedles for antifungal skin therapy, peptide and siRNA delivery, enhanced skin absorption of bioactive molecules, and anticancer therapy. The book comprises one review paper and nine research papers.

osteoarthritis --- monosodium iodoacetate --- p47phox --- PLGA nanoparticles --- reactive oxygen species --- full factorial design --- optimization --- metronidazole --- nanocomposites --- sodium alginate --- chitosan --- PLGA --- hybrid polymers --- chitosan-PLGA polymer --- NMR --- DSC --- FT-IR --- covalent drug conjugation --- therapeutic nanodevice --- polymeric nanoparticles --- cancer therapy --- controlled drug delivery --- redox responsive PEG-block-PLA --- nanocarriers --- disulfide bond --- controlled release --- retinol --- nanosponge --- hydrogel --- Box–Behnken design --- pharmacokinetic --- terbinafine hydrogel --- niacinamide --- polyethene glycol (PEG) 400 --- solvent --- dermal delivery --- finite dose --- porcine skin --- dissolving microneedles --- multiple sclerosis --- PLP --- transdermal delivery --- tyrosol --- nanoparticles --- Design of Experiment (DoE) --- β cyclodextrin --- DNA binding --- glyconanoparticles --- immunotherapy --- infectious diseases --- mannose receptors --- nutraceuticals --- n/a --- Box-Behnken design

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Even in ancient times, semi-solid preparations for cutaneous application, popularly known as ointments, played an important role in human society. An advanced scientific investigation of “ointments” as dosage forms was initiated in the 1950s. It was only from then on that the intensive physico-chemical characterization of ointments as well as the inclusion of dermatological aspects led to a comprehensive understanding of the various interactions between the vehicle, the active ingredient and the skin. From then on, many researchers were involved in optimizing semi-solid formulations with respect to continuously changing therapeutic and patient needs. Aspects that have been dealt with were the optimization of dermato-biopharmaceutical properties and many different issues related to patient compliance, such as skin tolerance, applicability, and cosmetic appeal. Moreover, processing technology has been improved and analytical techniques were developed and refined in order to enable the improved characterization of the formulation itself as well as its interaction with the skin. This Special Issue serves to highlight and capture the contemporary progress and current research on semi-solid formulations as dermal drug delivery systems. We invite articles on all aspects of semi-solid formulations, highlighting the research currently undertaken to improve and better understand these complex drug delivery systems with respect to their formulation, processing and characterization issues.

Medicine --- dermal drug delivery --- diffusion cell --- Franz diffusion --- Skin-PAMPA --- Strat-M® membrane --- nanocarrier --- nonivamide --- methyl cellulose --- skin penetration --- substantivity --- thermogel --- tacrolimus formulation --- nanogels --- drug delivery --- human excised skin --- Jurkat cells --- in situ hydrogel-forming powder --- nitric oxide-releasing formulation --- S-nitrosoglutathione (GSNO) --- antibacterial --- wound dressing --- wound healing --- dermal delivery --- porcine skin --- in vitro permeation --- methadone --- pain --- in vitro --- permeation --- niacinamide --- solvent --- PAMPA --- skin --- curcumin --- deformable liposomes --- liposome surface charge --- hydrogel --- chitosan --- wound therapy --- IVRT --- metronidazole --- topical cream --- semisolid dosage forms --- sameness --- FDA’s SUPAC-SS guidance --- acceptance criteria --- positive and negative controls --- discriminatory ability --- Amphotericin B --- Sepigel 305® --- Leishmania infantum --- cutaneous leishmaniasis --- topical treatment --- birch bark extract --- oleogels --- hydrogen bonding --- triterpene --- rheology --- gel strength --- eosinophilic esophagitis --- budesonide --- xanthan gum --- guar gum --- mucoadhesion --- esophagus permeability --- rheological characterization --- pediatric medicine --- compounded preparation --- non-ionic emulsifiers --- intercellular lipids --- confocal Raman spectroscopy (CRS) --- polyethylene glycol alkyl ethers --- polyethylene glycol sorbitan fatty acid esters --- n/a --- FDA's SUPAC-SS guidance

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• Reference Manager
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Even in ancient times, semi-solid preparations for cutaneous application, popularly known as ointments, played an important role in human society. An advanced scientific investigation of “ointments” as dosage forms was initiated in the 1950s. It was only from then on that the intensive physico-chemical characterization of ointments as well as the inclusion of dermatological aspects led to a comprehensive understanding of the various interactions between the vehicle, the active ingredient and the skin. From then on, many researchers were involved in optimizing semi-solid formulations with respect to continuously changing therapeutic and patient needs. Aspects that have been dealt with were the optimization of dermato-biopharmaceutical properties and many different issues related to patient compliance, such as skin tolerance, applicability, and cosmetic appeal. Moreover, processing technology has been improved and analytical techniques were developed and refined in order to enable the improved characterization of the formulation itself as well as its interaction with the skin. This Special Issue serves to highlight and capture the contemporary progress and current research on semi-solid formulations as dermal drug delivery systems. We invite articles on all aspects of semi-solid formulations, highlighting the research currently undertaken to improve and better understand these complex drug delivery systems with respect to their formulation, processing and characterization issues.

Medicine --- dermal drug delivery --- diffusion cell --- Franz diffusion --- Skin-PAMPA --- Strat-M® membrane --- nanocarrier --- nonivamide --- methyl cellulose --- skin penetration --- substantivity --- thermogel --- tacrolimus formulation --- nanogels --- drug delivery --- human excised skin --- Jurkat cells --- in situ hydrogel-forming powder --- nitric oxide-releasing formulation --- S-nitrosoglutathione (GSNO) --- antibacterial --- wound dressing --- wound healing --- dermal delivery --- porcine skin --- in vitro permeation --- methadone --- pain --- in vitro --- permeation --- niacinamide --- solvent --- PAMPA --- skin --- curcumin --- deformable liposomes --- liposome surface charge --- hydrogel --- chitosan --- wound therapy --- IVRT --- metronidazole --- topical cream --- semisolid dosage forms --- sameness --- FDA's SUPAC-SS guidance --- acceptance criteria --- positive and negative controls --- discriminatory ability --- Amphotericin B --- Sepigel 305® --- Leishmania infantum --- cutaneous leishmaniasis --- topical treatment --- birch bark extract --- oleogels --- hydrogen bonding --- triterpene --- rheology --- gel strength --- eosinophilic esophagitis --- budesonide --- xanthan gum --- guar gum --- mucoadhesion --- esophagus permeability --- rheological characterization --- pediatric medicine --- compounded preparation --- non-ionic emulsifiers --- intercellular lipids --- confocal Raman spectroscopy (CRS) --- polyethylene glycol alkyl ethers --- polyethylene glycol sorbitan fatty acid esters --- dermal drug delivery --- diffusion cell --- Franz diffusion --- Skin-PAMPA --- Strat-M® membrane --- nanocarrier --- nonivamide --- methyl cellulose --- skin penetration --- substantivity --- thermogel --- tacrolimus formulation --- nanogels --- drug delivery --- human excised skin --- Jurkat cells --- in situ hydrogel-forming powder --- nitric oxide-releasing formulation --- S-nitrosoglutathione (GSNO) --- antibacterial --- wound dressing --- wound healing --- dermal delivery --- porcine skin --- in vitro permeation --- methadone --- pain --- in vitro --- permeation --- niacinamide --- solvent --- PAMPA --- skin --- curcumin --- deformable liposomes --- liposome surface charge --- hydrogel --- chitosan --- wound therapy --- IVRT --- metronidazole --- topical cream --- semisolid dosage forms --- sameness --- FDA's SUPAC-SS guidance --- acceptance criteria --- positive and negative controls --- discriminatory ability --- Amphotericin B --- Sepigel 305® --- Leishmania infantum --- cutaneous leishmaniasis --- topical treatment --- birch bark extract --- oleogels --- hydrogen bonding --- triterpene --- rheology --- gel strength --- eosinophilic esophagitis --- budesonide --- xanthan gum --- guar gum --- mucoadhesion --- esophagus permeability --- rheological characterization --- pediatric medicine --- compounded preparation --- non-ionic emulsifiers --- intercellular lipids --- confocal Raman spectroscopy (CRS) --- polyethylene glycol alkyl ethers --- polyethylene glycol sorbitan fatty acid esters