Journal ArticleDOI
Engineering Nano- and Microparticles as Oral Delivery Vehicles to Promote Intestinal Lymphatic Drug Transport.
Yang-Bao Miao,Yu-Jung Lin,Chen Kuan-Hung,Po-Kai Luo,Shun-Hao Chuang,Yu-Tzu Yu,Hsien-Meng Tai,Chiung-Tong Chen,Kun-Ju Lin,Hsing-Wen Sung +9 more
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TLDR
In this paper, the authors describe the anatomical structures and physiological characteristics of the intestinal lymphatic system (ILS), with an emphasis on enterocytes and microfold (M) cells, which are the main gateways for the transport of particulate delivery vehicles across the intestinal epithelium into the lymphatics.Abstract:
Targeted oral delivery of a drug via the intestinal lymphatic system (ILS) has the advantages of protecting against hepatic first-pass metabolism of the drug and improving its pharmacokinetic performance. It is also a promising route for the oral delivery of vaccines and therapeutic agents to induce mucosal immune responses and treat lymphatic diseases, respectively. This article describes the anatomical structures and physiological characteristics of the ILS, with an emphasis on enterocytes and microfold (M) cells, which are the main gateways for the transport of particulate delivery vehicles across the intestinal epithelium into the lymphatics. A comprehensive overview of recent advances in the rational engineering of particulate vehicles, along with the challenges and opportunities that they present for improving ILS drug delivery, is provided, and the mechanisms by which such vehicles target and transport through enterocytes or M cells are discussed. The use of naturally sourced materials, such as yeast microcapsules and their derived polymeric β-glucans, as novel ILS-targeting delivery vehicles is also reviewed. Such use is the focus of an emerging field of research. Their potential use in the oral delivery of nucleic acids, such as mRNA vaccines, is proposed.read more
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Bioinspired and Biomimetic Nanomedicines for Targeted Cancer Therapy
Xiaoqiu Xu,Tong Li,Ke Jin +2 more
TL;DR: This review focuses on recent advances in the development of bioinspired and biomimetic nanomedicines (such as mammalian cell-based drug delivery systems and pathogen-based nanoparticles) for targeted cancer therapy.
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Yeast Microcapsule Mediated Natural Products Delivery for Treating Ulcerative Colitis through Anti-Inflammatory and Regulation of Macrophage Polarization.
Xingxing Feng,Qingguo Xie,Hongbo Xu,Tiantian Zhang,Xiaonan Li,Yinmei Tian,Hongbing Lan,Li Kong,Zhiping Zhang +8 more
TL;DR: This BBR/MPN@YM targeted oral drug delivery system provided a new macrophages-targeting strategy for the clinical treatment of UC.
Journal ArticleDOI
Nanotechnology-Based Approaches to Promote Lymph Node Targeted Delivery of Cancer Vaccines.
TL;DR: The possible mechanisms by which nanoparticle properties affect LN targeting and antigen cross-presentation are outlined and an overview of state-of-the-art advances in improving these biological outcomes with nanotechnology are given.
Journal ArticleDOI
Mechanisms of uptake and transport of particulate formulations in the small intestine.
TL;DR: In this article , the authors review the relevant literature and critically discuss absorption pathways with a focus on the role of specific intestinal epithelial and immune cells, concluding that while Microfold (M) cells are a valid target for oral vaccines, enterocytes play a greater role in the systemic bioavailability of orally administrated particulate formulations, particularly within the sub-micron size range.
Journal ArticleDOI
Ligand-modified nanocarriers for oral drug delivery: Challenges, rational design, and applications.
TL;DR: In this paper , the extracellular and cellular barriers to orally administered nanocarriers in the gastrointestinal (GI) tract and new discoveries regarding the GI protein corona and the sequential transport barriers that impede the preplanned movements of LMNCs after oral administration are discussed.
References
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Lipids and lipid-based formulations: optimizing the oral delivery of lipophilic drugs
TL;DR: The mechanisms by which lipids and lipidic excipients affect the oral absorption of lipophilic drugs are detailed and a perspective on the possible future applications of lipid-based delivery systems is provided.
Journal ArticleDOI
Mucus-penetrating nanoparticles for drug and gene delivery to mucosal tissues.
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