Ikksheta Sharma scite author profile

BackgroundLow-dose methoxyflurane and nitrous oxide (N2O; 50:50 with oxygen) are both self-administered, self-titrated, rapid-acting, nonnarcotic, and noninvasive inhalational agents with similar onset times of pain relief. The aim of this review was to compare the clinical efficacy, safety, and tolerability of these analgesics in emergency care.Materials and methodsA systematic literature search and review according to Preferred Reporting Items for Systematic Reviews and Meta-analyses guidelines were performed using Embase, Medline, the Cochrane Library, several clinical trial registers, and emergency-medicine conference material.ResultsAlthough both compounds have been used for many years in emergency care, the search found only a few controlled studies and no head-to-head trials performed in this setting. Two double-blind, randomized studies comparing their respective study medication (low-dose methoxyflurane or N2O) to placebo were identified that could be compared in an indirect approach by using placebo as a bridging comparator. Both agents provided rapid pain relief to trauma patients, with no significant differences between them; both treatments were generally well tolerated.ConclusionBoth low-dose methoxyflurane and N2O are suitable options for the pain treatment of trauma patients in the emergency setting. Due to the ease of administration and portability, inhaled low-dose methoxyflurane, however, may not only offer advantages in emergency situations in remote or difficult-to-reach locations and mass-casualty situations but also be of significant value in urban and rural environments.

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Development and Evaluation of Curcumin-loaded Elastic Vesicles as an Effective Topical Anti-inflammatory Formulation

Agrawal

Sandhu

Sharma

et al. 2014

AAPS PharmSciTech

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Abstract. Curcumin has diverse biological activities including antioxidant and anti-inflammatory activity. However, its clinical use for topical application is limited due to its poor aqueous solubility and thus, minimal cutaneous bioavailability. Elastic vesicles (EVs) of curcumin were prepared to improve its cutaneous bioavailability and to use it for topical anti-inflammatory effect. Ex vivo skin permeation and retention studies were performed to check if incorporation of curcumin into EVs could improve its permeation into and retention in the skin. Evaluation of acute and chronic anti-inflammatory effect was done using xylene-induced acute ear edema in mice and cotton pellet-induced chronic inflammation in rats, respectively. A significant improvement in flux (nine times) across murine skin was observed when aqueous dispersion of curcumin (flux−0.46±0.02 μg/h/cm 2 ) was compared with curcumin-loaded EVs (flux−4.14±0.04 μg/h/cm 2 ). Incorporation of these curcumin-loaded EVs into a hydrophilic ointment base resulted in higher skin retention (51.66%) in contrast to free curcumin ointment (1.64%) and a marketed formulation (VICCO® turmeric skin cream). The developed ointment showed an effect similar (p<0.05) to the marketed diclofenac sodium ointment (Omni-gel®) in suppression of acute inflammation in mouse; a significant inhibition (28.8% versus 3.91% for free curcumin) of cotton pellet-induced chronic inflammation was also observed. Thus, curcumin-loaded EVs incorporated in hydrophilic ointment is a promising topical anti-inflammatory formulation.

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Ikksheta Sharma

Issues and concerns in nanotech product development and its commercialization

Management of trauma pain in the emergency setting: low-dose methoxyflurane or nitrous oxide? A systematic review and indirect treatment comparison

Development and Evaluation of Curcumin-loaded Elastic Vesicles as an Effective Topical Anti-inflammatory Formulation

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