Your search keyword '"smart hydrogels"' showing total 7 results

1. Smart responsive in situ hydrogel systems applied in bone tissue engineering

Author

Shunli Wu, Tingting Gai, Jie Chen, Xiguang Chen, and Weikai Chen

Subjects

exogenous stimulus, endogenous stimulus, in situ hydrogels, smart hydrogels, bone tissue engineering, Biotechnology, TP248.13-248.65

Abstract

The repair of irregular bone tissue suffers severe clinical problems due to the scarcity of an appropriate therapeutic carrier that can match dynamic and complex bone damage. Fortunately, stimuli-responsive in situ hydrogel systems that are triggered by a special microenvironment could be an ideal method of regenerating bone tissue because of the injectability, in situ gelatin, and spatiotemporally tunable drug release. Herein, we introduce the two main stimulus-response approaches, exogenous and endogenous, to forming in situ hydrogels in bone tissue engineering. First, we summarize specific and distinct responses to an extensive range of external stimuli (e.g., ultraviolet, near-infrared, ultrasound, etc.) to form in situ hydrogels created from biocompatible materials modified by various functional groups or hybrid functional nanoparticles. Furthermore, “smart” hydrogels, which respond to endogenous physiological or environmental stimuli (e.g., temperature, pH, enzyme, etc.), can achieve in situ gelation by one injection in vivo without additional intervention. Moreover, the mild chemistry response-mediated in situ hydrogel systems also offer fascinating prospects in bone tissue engineering, such as a Diels–Alder, Michael addition, thiol-Michael addition, and Schiff reactions, etc. The recent developments and challenges of various smart in situ hydrogels and their application to drug administration and bone tissue engineering are discussed in this review. It is anticipated that advanced strategies and innovative ideas of in situ hydrogels will be exploited in the clinical field and increase the quality of life for patients with bone damage.

Published

2024

2. Boost Tendon/Ligament Repair With Biomimetic and Smart Cellular Constructs

Author

Jianping Zhao, Xiang Wang, Jinyu Han, Yin Yu, Fei Chen, and Jun Yao

Subjects

tendon/ligament repair, biomimetic, smart hydrogels, anisotropic adhesion, gene therapy, Biotechnology, TP248.13-248.65

Abstract

Tendon and ligament are soft connective tissues that play essential roles in transmitting forces from muscle to bone or bone to bone. Despite significant progress made in the field of ligament and tendon regeneration over the past decades, many strategies struggle to recapitulate basic structure-function criteria of native ligament/tendon. The goal here is to provide a fundamental understanding of the structure and composition of ligament/tendon and highlight few key challenges in functional regeneration of these connective tissues. The remainder of the review will examine several biomaterials strategies including biomimetic scaffold with non-linear mechanical behavior, hydrogel patch with anisotropic adhesion and gene-activated scaffold for interactive healing of tendon/ligament. Finally, emerging technologies and research avenues are suggested that have the potential to enhance treatment outcomes of tendon/ligament injuries.

Published

2021

3. Injectable Hydrogels for Localized Cancer Therapy

Author

Dao-yang Fan, Yun Tian, and Zhong-jun Liu

Subjects

smart hydrogels, injectable, localized chemotherapy, stimuli responsive, drug delivery, Chemistry, QD1-999

Abstract

Traditional intravenous chemotherapy is relative to many systemic side effects, including myelosuppression, liver or kidney dysfunction, and neurotoxicity. As an alternative method, the injectable hydrogel can efficiently avoid these problems by releasing drugs topically at the tumor site. With advantages of localized drug toxicity in the tumor site, proper injectable hydrogel as the drug delivery system has become a research hotspot. Based on different types and stages of cancer, a variety of hydrogel drug delivery systems were developed, including thermosensitive, pH-sensitive, photosensitive, and dual-sensitive hydrogel. In this review, the latest developments of these hydrogels and related drug delivery systems were summarized. In summary, our increasing knowledge of injectable hydrogel for localized cancer therapy ensures us that it is a more durable and effective approach than traditional chemotherapy. Smart release system reacting to different stimuli at different time according to the micro-environment changes in the tumor site is a promising tendency for further studies.

Published

2019

4. Rational Design of Peptide-based Smart Hydrogels for Therapeutic Applications

Author

Debapratim Das and Saurav Das

Subjects

chemistry.chemical_classification, stimuli responsive, Rational design, Peptide, Nanotechnology, General Chemistry, Review, self-assembly, peptide, Chemistry, chemistry, Smart hydrogels, tissue engineering, drug delivery, hydrogel, QD1-999

Abstract

Peptide-based hydrogels have captivated remarkable attention in recent times and serve as an excellent platform for biomedical applications owing to the impressive amalgamation of unique properties such as biocompatibility, biodegradability, easily tunable hydrophilicity/hydrophobicity, modular incorporation of stimuli sensitivity and other functionalities, adjustable mechanical stiffness/rigidity and close mimicry to biological molecules. Putting all these on the same plate offers smart soft materials that can be used for tissue engineering, drug delivery, 3D bioprinting, wound healing to name a few. A plethora of work has been accomplished and a significant progress has been realized using these peptide-based platforms. However, designing hydrogelators with the desired functionalities and their self-assembled nanostructures is still highly serendipitous in nature and thus a roadmap providing guidelines toward designing and preparing these soft-materials and applying them for a desired goal is a pressing need of the hour. This review aims to provide a concise outline for that purpose and the design principles of peptide-based hydrogels along with their potential for biomedical applications are discussed with the help of selected recent reports.

Published

2021

5. Rational Design of Smart Hydrogels for Biomedical Applications

Author

Yanyu Zhang and Yishun Huang

Subjects

chemistry.chemical_classification, natural polymer, Low toxicity, Biocompatibility, Computer science, Biomolecule, Mini Review, Cancer therapy, Rational design, technology, industry, and agriculture, Nanotechnology, General Chemistry, macromolecular substances, complex mixtures, biomedical, lcsh:Chemistry, Chemistry, chemistry, Smart hydrogels, lcsh:QD1-999, Drug delivery, Self-healing hydrogels, synthetic polymer, responsibility, hydrogel

Abstract

Hydrogels are polymeric three-dimensional network structures with high water content. Due to their superior biocompatibility and low toxicity, hydrogels play a significant role in the biomedical fields. Hydrogels are categorized by the composition from natural polymers to synthetic polymers. To meet the complicated situation in the biomedical applications, suitable host–guest supramolecular interactions are rationally selected. This review will have an introduction of hydrogel classification based on the formulation molecules, and then a discussion over the rational design of the intelligent hydrogel to the environmental stimuli such as temperature, irradiation, pH, and targeted biomolecules. Further, the applications of rationally designed smart hydrogels in the biomedical field will be presented, such as tissue repair, drug delivery, and cancer therapy. Finally, the perspectives and the challenges of smart hydrogels will be outlined.

Published

2021

6. Recent Advances on Magnetic Sensitive Hydrogels in Tissue Engineering

Author

Zhongyang Liu, Jianheng Liu, Xiang Cui, Xing Wang, Licheng Zhang, and Peifu Tang

Subjects

Materials science, Biocompatibility, functional recovery, Nanotechnology, magnetic field, Review, 02 engineering and technology, Magnetic particle inspection, 010402 general chemistry, 01 natural sciences, lcsh:Chemistry, magnetic particle, Smart hydrogels, Tissue engineering, Regeneration (biology), technology, industry, and agriculture, General Chemistry, magnetic hydrogel, 021001 nanoscience & nanotechnology, Functional recovery, equipment and supplies, 0104 chemical sciences, Chemistry, lcsh:QD1-999, tissue engineering, Self-healing hydrogels, 0210 nano-technology, human activities

Abstract

Tissue engineering is a promising strategy for the repair and regeneration of damaged tissues or organs. Biomaterials are one of the most important components in tissue engineering. Recently, magnetic hydrogels, which are fabricated using iron oxide-based particles and different types of hydrogel matrices, are becoming more and more attractive in biomedical applications by taking advantage of their biocompatibility, controlled architectures, and smart response to magnetic field remotely. In this literature review, the aim is to summarize the current development of magnetically sensitive smart hydrogels in tissue engineering, which is of great importance but has not yet been comprehensively viewed.

Published

2020

7. Injectable Hydrogels for Localized Cancer Therapy

Author

Zhongjun Liu, Daoyang Fan, and Yun Tian

Subjects

localized chemotherapy, medicine.medical_treatment, Injectable hydrogels, Review, Pharmacology, complex mixtures, lcsh:Chemistry, medicine, Drug toxicity, injectable, Chemotherapy, Localized Cancer, business.industry, stimuli responsive, Neurotoxicity, technology, industry, and agriculture, General Chemistry, smart hydrogels, medicine.disease, Tumor site, Chemistry, lcsh:QD1-999, Drug delivery, Self-healing hydrogels, drug delivery, business

Abstract

Traditional intravenous chemotherapy is relative to many systemic side effects, including myelosuppression, liver or kidney dysfunction, and neurotoxicity. As an alternative method, the injectable hydrogel can efficiently avoid these problems by releasing drugs topically at the tumor site. With advantages of localized drug toxicity in the tumor site, proper injectable hydrogel as the drug delivery system has become a research hotspot. Based on different types and stages of cancer, a variety of hydrogel drug delivery systems were developed, including thermosensitive, pH-sensitive, photosensitive, and dual-sensitive hydrogel. In this review, the latest developments of these hydrogels and related drug delivery systems were summarized. In summary, our increasing knowledge of injectable hydrogel for localized cancer therapy ensures us that it is a more durable and effective approach than traditional chemotherapy. Smart release system reacting to different stimuli at different time according to the micro-environment changes in the tumor site is a promising tendency for further studies.

Published

2019