pH-sensitive pectin beads were proposed as a protective capsule for layered zinc hydroxide-drug (LZH-Drug) nanohybrids in the gastrointestinal tract in this paper. Baclofen was intercalated between LZH layers using the… Click to show full abstract
pH-sensitive pectin beads were proposed as a protective capsule for layered zinc hydroxide-drug (LZH-Drug) nanohybrids in the gastrointestinal tract in this paper. Baclofen was intercalated between LZH layers using the co-precipitation method as a model drug. By combining LZH-baclofen with pectin, the resulting nanohybrid (LZH-baclofen) was used to make bio-nanocomposite hydrogel beads. FTIR, XRD, and SEM analyses were used to characterize the produced products. Baclofen anions are vertical to the LZH layers in the shape of a monolayer, according to the interlayer space of 19.6Å. The presence of nanocomposites is demonstrated by FTIR, which exhibits a peak at 3489 cm−1 for the OH group, 1564 and 1384 cm−1 for the–COO− vibration mode, indicating that baclofen is intercalated between the layered structures. After intercalation, baclofen’s thermal stability is greatly improved. The nanohybrid is more compact, with agglomerates and flat surfaces of the intercalated substance, shown by SEM. In vitro release behaviors of baclofen from LZH and bio-nanocomposites in buffer solution were examined under pH values (pH = 1.2, 6.8, 7.4) chosen from a model of the passing materials through the gastrointestinal tract. For pectin encapsulated LZH-baclofen nanohybrid, drug release studies indicated superior protection against stomach pH and regulated release under intestinal tract conditions. Furthermore, nanohybrid and nanocomposite treatment of a normal fibroblast cell line resulted in cell survival up to 12.5 g/mL for a 24-h period, with inhibition reducing dose-dependently at higher concentrations. A novel intercalation molecule with a sustained release mode and improved toxicity against normal fibroblast cell lines has been produced as a result of the strong host-guest contacts between the LZH lattice and the baclofen anion. Further study into the utilization of brucite-like host materials in drug delivery systems should be based on these findings.
               
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