Current Trends in Improving of Artificial Joints Design and Technologies for Their Arthroplasty

Poliakov, Aleksandr; Pakhaliuk, Vladimir; Popov, Valentin L.

doi:10.3389/fmech.2020.00004

Cited by 27 publications

(39 citation statements)

References 110 publications

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“…Scaffold material plays an important role in tissue engineering. An ideal scaffold material should have the following characteristics: nonimmunogenicity, nontoxicity, good biocompatibility, high porosity, degradability, appropriate degradation rate, and easy manufacturing [81]. With the development of cartilage tissue engineering, the composite of hydrogel/cells is one of the main materials for cartilage regeneration [82].…”

Section: Wound Dressingmentioning

confidence: 99%

Poly(vinyl alcohol) Hydrogels: The Old and New Functional Materials

Wang

Bai

Shao

et al. 2021

International Journal of Polymer Science

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Hydrogels have three-dimensional network structures, high water content, good flexibility, biocompatibility, and stimulation response, which have provided a unique role in many fields such as industry, agriculture, and medical treatment. Poly(vinyl alcohol) PVA hydrogel is one of the oldest composite hydrogels. It has been extensively explored due to its chemical stability, nontoxic, good biocompatibility, biological aging resistance, high water-absorbing capacity, and easy processing. PVA-based hydrogels have been widely investigated in drug carriers, articular cartilage, wound dressings, tissue engineering, and other intelligent materials, such as self-healing and shape-memory materials, supercapacitors, sensors, and other fields. In this paper, the discovery, development, preparation, modification methods, and applications of PVA functionalized hydrogels are reviewed, and their potential applications and future research trends are also prospected.

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Section: Wound Dressingmentioning

confidence: 99%

Poly(vinyl alcohol) Hydrogels: The Old and New Functional Materials

Wang

Bai

Shao

et al. 2021

International Journal of Polymer Science

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“…Artificial joints are used to replace the malfunctioning bones, enabling thousands of people to enjoy an active lifestyle [ 1 , 2 , 3 , 4 ]. The latest technologies in the field of joint replacement include bone integration of artificial joints, improvements in bone replacement materials, implants, and rehabilitation devices, and joint replacement technology based on dynamic bone synthesis models [ 5 , 6 ]. New bone materials, such as PVA-H [ 7 , 8 , 9 ] and UHMWPE, with a high modulus of elasticity, biocompatibility, and mechanical properties, were studied systematically and in depth [ 10 , 11 , 12 ].…”

Section: Introductionmentioning

confidence: 99%

Porous Ultrahigh Molecular Weight Polyethylene/Functionalized Activated Nanocarbon Composites with Improved Biocompatibility

Fan

Xiuqin

et al. 2021

Materials

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Ultrahigh molecular weight polyethylene (UHMWPE) materials have been prevalent joint replacement materials for more than 45 years because of their excellent biocompatibility and wear resistance. In this study, functionalized activated nanocarbon (FANC) was prepared by grafting maleic anhydride polyethylene onto acid-treated activated nanocarbon. A novel porous UHMWPE composite was prepared by incorporating the appropriate amount of FANC and pore-forming agents during the hot-pressing process for medical UHMWPE powder. The experimental results showed that the best prepared porous UHMWPE/FANC exhibited appropriate tensile strength, porosity, and excellent hydrophilicity, with a contact angle of 65.9°. In vitro experiments showed that the porous UHMWPE/FANC had excellent biocompatibility, which is due to its porous structure and hydrophilicity caused by FANC. This study demonstrates the potential viability for our porous UHMWPE/FANC to be used as cartilage replacement material for biomedical applications.

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“…The most effective medical procedure in such cases is synovial joints arthroplasty, which consists in replacing it with an artificial analogue-an endoprosthesis. Despite the fact that modern endoprostheses are made from special biomaterials similar in properties to biological tissues [100], and their designs create high-tech products [101,102], they do not fully ensure the functionality of natural joints. First of all, they do not provide the lubrication conditions inherent in natural synovial joints and the natural coefficient of friction, which leads to their wear and, as a result, to metalosis, and ultimately to the need for reprosthetics.…”

Section: Discussionmentioning

confidence: 99%

Synovial Joints. Tribology, Regeneration, Regenerative Rehabilitation and Arthroplasty

2021

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Synovial joints are unique biological tribosystems that allow a person to perform a wide range of movements with minimal energy consumption. In recent years, they have been increasingly called “smart friction units” due to their ability to self-repair and adapt to changing operating conditions. However, in reality, the elements of the internal structure of the joints under the influence of many factors can degrade rather quickly, leading to serious disease such as osteoarthritis. According to the World Health Organization, osteoarthritis is already one of the 10 most disabling diseases in developed countries. In this regard, at present, fundamental research on synovial joints remains highly relevant. Despite the fact that the synovial joints have already been studied fully, many issues related to their operating, prevention, development of pathology, diagnosis and treatment require more detailed consideration. In this article, we discuss the urgent problems that need to be solved for the development of new pharmacological agents, biomaterials, scaffolds, implants and rehabilitation devices for the prevention, rehabilitation and improvement of the treatment effectiveness of synovial joints at various stages of osteoarthritis.

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Current Trends in Improving of Artificial Joints Design and Technologies for Their Arthroplasty

Cited by 27 publications

References 110 publications

Poly(vinyl alcohol) Hydrogels: The Old and New Functional Materials

Poly(vinyl alcohol) Hydrogels: The Old and New Functional Materials

Porous Ultrahigh Molecular Weight Polyethylene/Functionalized Activated Nanocarbon Composites with Improved Biocompatibility

Synovial Joints. Tribology, Regeneration, Regenerative Rehabilitation and Arthroplasty

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