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Single oral dose of cannabinoid derivate loaded PLGA nanocarriers relieves neuropathic pain for eleven days

Berrocoso, Esther; Rey-Brea, Raquel; Fernandez-Arevalo, Mercedes; Antonio Mico, Juan; Martin-Banderas, Lucia

NANOMEDICINE-NANOTECHNOLOGY BIOLOGY AND MEDICINE
2017
VL / 13 - BP / 2623 - EP / 2632
abstract
Neuropathic pain, resistant to opiates and other drugs, is a chronic/persistent state with a complex treatment and often poor efficacy. In this scenario, cannabinoids are increasingly regarded as a genuine alternative. In this paper, and in an experimental animal model of neuropathic pain, we studied the efficacy of three kinds of PLGA nanoparticles containing synthetic cannabinoid CB13: (i) plain nanoparticles (PLGA); (ii) particles coated with PEG chains (PLGA + PEG) and (iii) particles possessing hydrophilic surfaces obtained by covalently binding PEG chains (PLGA-PEG). The optimized formulation, CB13-PLGA-PEG, showed high drug loading (13%) and small size (< 300 nm) with a narrow distribution and controlled surface properties (near-neutral zeta potential and stable PEG corona). Animal nociceptive behavioral studies were conducted by paw pressure and acetone tests. Versus the free CB13, CB13-PLGA-PEG nanoparticles showed a very noticeable analgesic efficacy with the longest sustained pain-relieving effect, lasting up to eleven days after one oral dose. (C) 2017 Elsevier Inc. All rights reserved.

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