Abstract
The present paper provides an updated overview of the methodologies applied in photodegradation studies of non-steroidal anti-inflammatory drugs. Photostability tests, performed according to international standards, have clearly demonstrated the photolability of many drugs belonging to this class, observed during the preparation of commercial forms, administration or when dispersed in the environment. The photodegradation profile of these drugs is usually monitored by spectrophotometric or chromatographic techniques and in many studies the analytical data are processed by chemometric procedures. The application of multivariate analysis in the resolution of often-complex data sets makes it possible to estimate the pure spectra of the species involved in the degradation process and their concentration profiles. Given the wide use of these drugs, several pharmaceutical formulations have been investigated to improve their photostability in solution or gel, as well as the pharmacokinetic profile. The use of lipid nanocarriers as liposomes, niosomes or solid lipid nanoparticles has demonstrated to both minimize photodegradation and improve the controlled release of the entrapped drugs.
Highlights
Non-steroidal anti-inflammatory drugs (NSAIDs) represent a class of drugs usually applied in the treatment of acute or chronic conditions involved in pain and inflammation [1]
This review provides an exhaustive collection of the most widely used approaches in the investigation of the photodegradation profile of NSAIDs and the lipid delivery devices proposed for their photoprotection
Different nanocarriers have been applied to enhance the permeation of NSAIDs through the layers of the skin and reach the site of inflammation, such as liposomes and niosomes
Summary
Non-steroidal anti-inflammatory drugs (NSAIDs) represent a class of drugs usually applied in the treatment of acute or chronic conditions involved in pain and inflammation [1] These analgesic properties have been linked to their inhibitory activity of cyclooxygenases (COX), presents in two major forms, which convert arachidonic acid into various prostaglandins [2]. Despite most of the anti-inflammatory drugs for topical use showing simplicity of application and minimal systemic absorption, adverse cutaneous photosensitivity reactions have been reported [13]. Such photosensitivity reactions are commonly due to an abnormal light-induced chemical reaction in which the drugs can form various photoproducts by absorbing radiation. This review provides an exhaustive collection of the most widely used approaches in the investigation of the photodegradation profile of NSAIDs and the lipid delivery devices proposed for their photoprotection
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