Abstract
Due to their biocompatibility, biodegradability, and non-toxicity, lignocellulosic-derived nanoparticles are very potential materials for drug carriers in drug delivery applications. There are three main lignocellulosic-derived nanoparticles discussed in this review. First, lignin nanoparticles (LNPs) are an amphiphilic nanoparticle which has versatile interactions toward hydrophilic or hydrophobic drugs. The synthesis methods of LNPs play an important role in this amphiphilic characteristic. Second, xylan nanoparticles (XNPs) are a hemicellulose-derived nanoparticle, where additional pretreatment is needed to obtain a high purity xylan before the synthesis of XNPs. This process is quite long and challenging, but XNPs have a lot of potential as a drug carrier due to their stronger interactions with various drugs. Third, cellulose nanocrystals (CNCs) are a widely exploited nanoparticle, especially in drug delivery applications. CNCs have low cytotoxicity, therefore they are suitable for use as a drug carrier. The research possibilities for these three nanoparticles are still wide and there is potential in drug delivery applications, especially for enhancing their characteristics with further surface modifications adjusted to the drugs.
Highlights
Drug delivery systems have an important role in medical treatments, especially in carrying drugs to specific targets in the human body
The composition and characteristics of lignocellulosic biomass are the main consideration for selecting an appropriate pretreatment method. Due to their superior properties, these three constituents of lignocellulosic biomass can be used as the raw material of lignocellulosic-derived nanoparticles which can further be used in drug delivery applications
There are several types of lignocellulosic-derived nanoparticles that have been widely investigated for drug delivery systems, i.e., lignin nanoparticles (LNPs), xylan nanoparticles (XNPs), and cellulose nanocrystals (CNCs)
Summary
Drug delivery systems have an important role in medical treatments, especially in carrying drugs to specific targets in the human body. Excellent results have been generated in the various disease treatments using the nanoparticle-supported method [2] This method can control the drug release and side effects for a targeted delivery [1,3]. The composition and characteristics of lignocellulosic biomass are the main consideration for selecting an appropriate pretreatment method. Due to their superior properties, these three constituents of lignocellulosic biomass can be used as the raw material of lignocellulosic-derived nanoparticles which can further be used in drug delivery applications. There are several types of lignocellulosic-derived nanoparticles that have been widely investigated for drug delivery systems, i.e., lignin nanoparticles (LNPs), xylan nanoparticles (XNPs), and cellulose nanocrystals (CNCs). High supersaturation and mechanical energy increase the collision and aggregation rates so that the formation of larger LNPs size can be avoided
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