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<p>Bio Micro-Nano Technologies of Antioxidants Optimised Their Pharmacological and Cellular Effects, ex vivo, in Pancreatic β-Cells</p>

Armin Mooranian, Nassim Zamani, Momir Mikov, Svetlana Goločorbin-Kon, Goran M. Stojanović, Frank Arfuso, Božica Kovačević, Hani Al‐Salami

2020Nanotechnology Science and Applications15 citationsDOIOpen Access PDF

Abstract

INTRODUCTION: Recent formulation and microencapsulation studies of probucol (PB) using the polymer sodium alginate (SA) and bile acids have shown promising results but PB stability, and pharmacology profiles remain suboptimal. This study aimed to investigate novel polymers for the nano and micro encapsulation of PB, with the anti-inflammatory bile acid ursodeoxycholic acid (UDCA). MATERIAL AND METHODS: Six formulations using three types of polymers were investigated with and without UDCA. The polymers were NM30D, RL30D, and RS30D and they were mixed with SA and PB at set ratios and microencapsulated using oscillating-voltage-mediated nozzle technology coupled with ionic gelation. The microcapsules were examined for physical and biological effects using pancreatic β-cells. RESULTS AND DISCUSSION: UDCA addition did not adversely affect the morphology and physical features of the microcapsules. Despite thermal stability remaining unchanged, bile acid incorporation did enhance the electrokinetic stability of the formulation system for NM30D and RL30D polymers. Mechanical stability remained similar in all groups. Enhanced uptake of PB from the microcapsule by pancreatic β-cells was only seen with NM30D-UDCA-intercalated microcapsules and this effect was sustained at both glucose levels of 5.5 and 35.5 mM. CONCLUSION: UDCA addition enhanced PB delivery and biological effects in a formulation-dependent manner.

Topics & Concepts

Ursodeoxycholic acidChemistryIn vivoPolymerGenipinEx vivoBiophysicsBiochemistryIn vitroOrganic chemistryChitosanBiologyBiotechnologyAdvanced Drug Delivery SystemsPancreatic function and diabetesDrug Solubulity and Delivery Systems
<p>Bio Micro-Nano Technologies of Antioxidants Optimised Their Pharmacological and Cellular Effects, ex vivo, in Pancreatic β-Cells</p> | Litcius