There is, I think, something ethereal about i —the square root of minus one. I remember first hearing about it at school. It seemed an odd beast at that time—an intruder hovering on the edge of reality.

Usually familiarity dulls this sense of the bizarre, but in the case of i it was the reverse: over the years the sense of its surreal nature intensified. It seemed that it was impossible to write mathematics that described the real world in …

I and i

The structure and function of the skin details the individual components of the epidermis, dermis, and their roles in normal skin health. The individual cell types in the epidermis, the different epidermal layers, and the roles of the keratinocyte are explained. The epidermis and dermis, and their important relation to each other through the dermoepidermal junction are described. The dermal adnexal structures of hair follicles (pilosebaceous units), sweat glands, and nerves are all considered. The functions of skin and barrier function are also listed. Rare but important causes of disordered sweating (hyperhidrosis and hypohidrosis) are described. In addition, presentations of hyperhidrosis are discussed.

Structure and function of the skin

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Emerging trends in the novel drug delivery approaches for the treatment of lung cancer

Nanoemulsions have attracted great attention in research, dosage form design and pharmacotherapy. This is as a result of a number of attributes peculiar to nanoemulsions such as optical clarity, ease of preparation, thermodynamic stability and increased surface area. Nanoemulsions also known as submicron emulsions serve as vehicles for the delivery of active pharmaceutical ingredients as well as other bioactives. They are designed to address some of the problems associated with conventional drug delivery systems such as low bioavailability and noncompliance. The importance of design and development of emulsion nanocarrier systems aimed at controlling and/or improving required bioavailability levels of therapeutic agents cannot be overemphasized. Reducing droplet sizes to the nanoscale leads to some very interesting physical properties, such as optical transparency and unusual elastic behaviour. This review sheds light on the current state of nanoemulsions in the delivery of drugs and other bioactives. The morphology, formulation, characteristics and characterization of nanoemulsions were also addressed.

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Current State of Nanoemulsions in Drug Delivery

Background: Nanotechnology explores a variety of promising approaches in the area of material sciences on a molecular level, and silver nanoparticles (AgNPs) are of leading interest in the present scenario This review is a comprehensive contribution in the field of green synthesis, characterization, and biological activities of AgNPs using different biological sources Methods: Biosynthesis of AgNPs can be accomplished by physical, chemical, and green synthesis; however, synthesis via biological precursors has shown remarkable outcomes In available reported data, these entities are used as reducing agents where the synthesized NPs are characterized by ultraviolet-visible and Fourier-transform infrared spectra and X-ray diffraction, scanning electron microscopy, and transmission electron microscopy Results: Modulation of metals to a nanoscale drastically changes their chemical, physical, and optical properties, and is exploited further via antibacterial, antifungal, anticancer, antioxidant, and cardioprotective activities Results showed excellent growth inhibition of the microorganism Conclusion: Novel outcomes of green synthesis in the field of nanotechnology are appreciable where the synthesis and design of NPs have proven potential outcomes in diverse fields The study of green synthesis can be extended to conduct the in silco and in vitro research to confirm these findings

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Green nanotechnology: a review on green synthesis of silver nanoparticles - an ecofriendly approach.

Various new technologies have been developed for the transdermal delivery of some important drugs. Physical and chemical means of crossing the lipophilic stratum corneum, the outermost layer of the skin, are being explored. A thorough understanding of skin physiology and the basics behind the new technologies would be useful for understanding these exciting new drug delivery systems. Alternative techniques of physical sciences including electrical signals, ultrasonic and laser radiations are being used to facilitate delivery of drugs across the epidermal barrier. Several approaches in form of carriers/ vehicles are also being developed for efficient delivery of drugs. Another major concern is regulatory issues of transdermal products to be launched in the market. This review deals with a brief insight on physiological properties of the skin, several techniques for drug permeation enhancement and regulatory issues over transdermal drug delivery.

Transdermal drug delivery system: a review

The mechanisms of pinacidil-induced direct vasodilation were studied in vitro in RMA and RAO. In RMA, pinacidil produced dose-dependent relaxations of norepinephrine (5 microM)-induced contractions with an IC50 of 0.2 microM. This component of pinacidil relaxation appeared to be dependent on K+ conductance because pretreatment with tetraethylammonium (10 mM), Ba++ (0.5 mM), glyburide (1 microM) and 20 mM K+ all caused a rightward shift of the pinacidil dose-response curve (DRC) and a corresponding increase in the pinacidil IC50. However, additional relaxation effects of pinacidil were still evident in the presence of various K+ channel blockers. Pinacidil also showed a relaxation DRC under the condition of 80 mM K+ contraction in both RMA and RAO with IC50 values of 27 and 50 microM, respectively. Pinacidil could also produce maximal relaxation in RMA and RAO remained unaffected in 145 mM K+ (zero Na+) depolarizing solution suggesting a lack of dependence on Na(+)-Ca++ exchange mechanism for this action of pinacidil. Studies using 1 or 3 min pulse labeling with 45Ca showed an absence of an inhibitory effect of pinacidil (at 50 and 100 microM) on unidirectional 45Ca influx stimulated by high-K+. Net 45Ca uptake studies showed that pinacidil inhibited high-K+ stimulated 45Ca uptake at 100 but not at 50 microM. Ryanodine (10-100 microM) was used as a tool to investigate the role of sarcoplasmic reticulum (SR) in this action of pinacidil. Under the condition in which ryanodine (10-100 microM) treatment was found to cause the SR to be nonfunctional, pinacidil relaxation DRC remained unaltered, suggesting a lack of a stimulatory effect of pinacidil on SR Ca++ accumulation. These data thus show that the K+ channel-independent effect of pinacidil does not involve to any significant degree an effect of pinacidil on plasmalemmal voltage-sensitive Ca++ channels, SR Ca++ stores, Na(+)-Ca++ exchange or membrane hyperpolarization.(ABSTRACT TRUNCATED AT 250 WORDS)

Characterization of K+ channel-dependent as well as -independent components of pinacidil-induced vasodilation.

Diclofenac sodium loaded solid lipid nanoparticles (SLNs) were formulated using guggul lipid as major lipid component and analyzed for physical parameters, permeation profile, and anti-inflammatory activity. The SLNs were prepared using melt-emulsion sonication/low temperature-solidification method and characterized for physical parameters, in vitro drug release, and accelerated stability studies, and formulated into gel. Respective gels were compared with a commercial emulgel (CEG) and plain carbopol gel containing drug (CG) for ex vivo and in vivo drug permeation and anti-inflammatory activity. The SLNs were stable with optimum physical parameters. GMS nanoparticle 1 (GMN-1) and stearic acid nanoparticle 1 (SAN-1) gave the highest in vitro drug release. Guggul lipid nanoparticle gel 3 (GLNG-3) showed 104.68 times higher drug content than CEG in receptor fluid. The enhancement ratio of GLNG-3 was 39.43 with respect to CG. GLNG-3 showed almost 8.12 times higher Cmax than CEG at 4 hours. The AUC value of GLNG-3 was 15.28 times higher than the AUC of CEG. GLNG-3 showed edema inhibition up to 69.47% in the first hour. Physicochemical properties of major lipid component govern the properties of SLN. SLN made up of guggul lipid showed good physical properties with acceptable stability. Furthermore, it showed a controlled drug release profile along with a promising permeation profile.

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Solid Lipid Nanoparticles of Guggul Lipid as Drug Carrier for Transdermal Drug Delivery

Purpose: This study aimed at the preparation and characterization of preformed and in situ formed liposomes for sustained delivery to the lungs. Methods: Two different liposome formulations were prepared and subjected to characterization of physical parameters and drug release profile (% cumulative drug release and % drug retained). Formulations were then subjected to accelerated stability studies as per ICH guidelines. Results: In situ formed liposome showed better sustained release profile than the preformed liposome as it released sufficient amount of drug while retaining considerable amount of drug. Upon subjection to accelerated conditions for 60 days, preformed liposome lost the objective of being controlled release formulation.

Targeted drug delivery of Rifampicin to the lungs: formulation, characterization, and stability studies of preformed aerosolized liposome and in situ formed aerosolized liposome

Context: Transdermal formulations contain permeation enhancer which causes skin damage. Ceramide 2 is natural lipid found in stratum corneum (SC).Objective: Drug-loaded nanovesicles of ceramide-2, cholesterol, palmitic acid, cholesteryl sulfate were formulated and analyzed for physical and biological properties. Diclofenac was used as a model drug.Materials and method: The vesicles were prepared using the film hydration method and characterized for physical parameters, in vitro drug release, accelerated stability studies and formulated into gel. Respective gels were compared with a commercial formulation (CEG) and plain carbopol gel (CG) containing drug for ex vivo, in vivo drug permeation and anti-inflammatory activity.Results: The vesicles were stable with optimum physical parameters. DCG-1 showed 92.89% in vitro drug release. Ceramide vesicles showed drug release between 18 and 25 μg/cm2 whereas CG and CEG released 0.33 and 1.35 μg/cm2 drug, respectively. DCG-1 and CEG showed corresponding Cmax...

Suresh Purohit

Papers

Transdermal drug delivery system: a review

Characterization of K+ channel-dependent as well as -independent components of pinacidil-induced vasodilation.

Solid Lipid Nanoparticles of Guggul Lipid as Drug Carrier for Transdermal Drug Delivery

Targeted drug delivery of Rifampicin to the lungs: formulation, characterization, and stability studies of preformed aerosolized liposome and in situ formed aerosolized liposome

Preparation, characterization and permeation studies of a nanovesicular system containing diclofenac for transdermal delivery