Nanotechnology-empowered combination therapy for rheumatoid arthritis: principles, strategies, and challenges

Rheumatoid arthritis (RA) is an autoimmune disease with multifactorial etiology and intricate pathogenesis. In RA, repeated monotherapy is frequently associated with inadequate efficacy, drug resistance, and severe side effects. Therefore, a shift has occurred in clinical practice toward combination...

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Published in:Journal of nanobiotechnology 2024-07, Vol.22 (1), p.431-33, Article 431
Main Authors: Ren, Shujing, Xu, Yuhang, Dong, Xingpeng, Mu, Qingxin, Chen, Xia, Yu, Yanyan, Su, Gaoxing
Format: Article
Language:English
Subjects:
Animals
Antirheumatic agents
Antirheumatic Agents - therapeutic use
Arthritis, Rheumatoid - drug therapy
Co-delivery
Combination therapy
Combined Modality Therapy
Diagnosis
Dosage and administration
Drug Delivery Systems - methods
Drug resistance
Drug therapy
Drug therapy, Combination
Humans
Multifunctional nanomedicine
Multimodal therapy
Nanomedicine - methods
Nanoparticles - chemistry
Nanostructures - chemistry
Nanostructures - therapeutic use
Nanotechnology - methods
Nonsteroidal anti-inflammatory drugs
Patient outcomes
Prevention
Review
Rheumatoid arthritis
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container_start_page 431
container_title Journal of nanobiotechnology
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creator Ren, Shujing
Xu, Yuhang
Dong, Xingpeng
Mu, Qingxin
Chen, Xia
Yu, Yanyan
Su, Gaoxing
description Rheumatoid arthritis (RA) is an autoimmune disease with multifactorial etiology and intricate pathogenesis. In RA, repeated monotherapy is frequently associated with inadequate efficacy, drug resistance, and severe side effects. Therefore, a shift has occurred in clinical practice toward combination therapy. However, conventional combination therapy encounters several hindrances, including low selectivity to arthritic joints, short half-lives, and varying pharmacokinetics among coupled drugs. Emerging nanotechnology offers an incomparable opportunity for developing advanced combination therapy against RA. First, it allows for co-delivering multiple drugs with augmented physicochemical properties, targeted delivery capabilities, and controlled release profiles. Second, it enables therapeutic nanomaterials development, thereby expanding combination regimens to include multifunctional nanomedicines. Lastly, it facilitates the construction of all-in-one nanoplatforms assembled with multiple modalities, such as phototherapy, sonodynamic therapy, and imaging. Thus, nanotechnology offers a promising solution to the current bottleneck in both RA treatment and diagnosis. This review summarizes the rationale, advantages, and recent advances in nano-empowered combination therapy for RA. It also discusses safety considerations, drug-drug interactions, and the potential for clinical translation. Additionally, it provides design tips and an outlook on future developments in nano-empowered combination therapy. The objective of this review is to achieve a comprehensive understanding of the mechanisms underlying combination therapy for RA and unlock the maximum potential of nanotechnology, thereby facilitating the smooth transition of research findings from the laboratory to clinical practice.
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subjects Animals
Antirheumatic agents
Antirheumatic Agents - therapeutic use
Arthritis, Rheumatoid - drug therapy
Co-delivery
Combination therapy
Combined Modality Therapy
Diagnosis
Dosage and administration
Drug Delivery Systems - methods
Drug resistance
Drug therapy
Drug therapy, Combination
Humans
Multifunctional nanomedicine
Multimodal therapy
Nanomedicine - methods
Nanoparticles - chemistry
Nanostructures - chemistry
Nanostructures - therapeutic use
Nanotechnology - methods
Nonsteroidal anti-inflammatory drugs
Patient outcomes
Prevention
Review
Rheumatoid arthritis
title Nanotechnology-empowered combination therapy for rheumatoid arthritis: principles, strategies, and challenges
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