Litcius/Paper detail

Management of epileptic disorders using nanotechnology-based strategies for nose-to-brain drug delivery

Mihika Shringarpure, Sankalp Gharat, Munira Momin, Abdelwahab Omri

2020Expert Opinion on Drug Delivery69 citationsDOI

Abstract

INTRODUCTION: Epilepsy, a major neurological disorder affects about 1% of the Indian population. The discovery of noninvasive strategies for epilepsy presents a challenge for the scientists. Different types of nose-to-brain dosage-forms have been studied for epilepsy management. It aims to give new perspectives for developing new and existing anti-epileptic drugs. Combining nanotechnology with nose-to-brain approach can help in promoting the treatment efficacy by site-specific delivery. Also, it will minimize the side-effects and patient noncompliance observed in conventional administration routes. Peptide delivery can be an interesting approach for the management of epilepsy. Drug-loaded intranasal nanoformulations exhibit diverse prospective potentials in the management of epilepsy. Considering that, nanotherapy using nose-to-brain delivery as a prospective technique for the efficient management of epilepsy is reviewed. AREAS COVERED: The authors have compiled all recently available data pertaining to the nose-to-brain delivery of therapeutics using nanotechnological strategies. The fundamental mechanism of nose-to-brain delivery, claims for intranasal delivery and medical devices for epilepsy are discussed. EXPERT OPINION: Drug-loaded intranasal nanoformulations exhibit different prospective potentials in the management of epilepsy. Considering the foregoing research done in the field of nanotechnology, globally, authors propose nose-to-brain delivery of nanoformulations as a potential technique for the efficient management of epilepsy.

Topics & Concepts

EpilepsyDrug deliveryMedicineNasal administrationNoseIntensive care medicineNanotechnologyPharmacologyPsychiatrySurgeryMaterials scienceAdvanced Drug Delivery SystemsInhalation and Respiratory Drug DeliveryNanoparticle-Based Drug Delivery