2023
DOI: 10.3389/fbioe.2023.1050916
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The potential therapeutic role of extracellular vesicles in critical-size bone defects: Spring of cell-free regenerative medicine is coming

Abstract: In recent years, the incidence of critical-size bone defects has significantly increased. Critical-size bone defects seriously affect patients’ motor functions and quality of life and increase the need for additional clinical treatments. Bone tissue engineering (BTE) has made great progress in repairing critical-size bone defects. As one of the main components of bone tissue engineering, stem cell-based therapy is considered a potential effective strategy to regenerate bone tissues. However, there are some dis… Show more

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Cited by 4 publications
(3 citation statements)
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References 198 publications
(223 reference statements)
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“…However, in case of a significant fracture defect, the defect site will not heal without the help of implants or surgical intervention. Significant bone fracture defects, also called critical-sized bone defects, are often 1–2 cm in size or bigger or when the bone circumference loss is >50% owing to disease, high-energy trauma, or accident ( Nauth et al, 2018 ; Liu F. et al, 2023 ; Han et al, 2023 ; Su et al, 2023 ; Xia et al, 2023 ). These deformities are challenging to treat since surgical procedures only stabilize the bone fracture.…”
Section: Gelatin-based Hydrogels Printed Formulation For Btementioning
confidence: 99%
“…However, in case of a significant fracture defect, the defect site will not heal without the help of implants or surgical intervention. Significant bone fracture defects, also called critical-sized bone defects, are often 1–2 cm in size or bigger or when the bone circumference loss is >50% owing to disease, high-energy trauma, or accident ( Nauth et al, 2018 ; Liu F. et al, 2023 ; Han et al, 2023 ; Su et al, 2023 ; Xia et al, 2023 ). These deformities are challenging to treat since surgical procedures only stabilize the bone fracture.…”
Section: Gelatin-based Hydrogels Printed Formulation For Btementioning
confidence: 99%
“…Several biomaterials have been used in combination with MSCs aiming to promote their adhesion, proliferation, and osteoblastic differentiation, as well as production of the collagen matrix that subsequently undergoes mineralization [11]. Moreover, biomaterials must be resorbable and allow the ingrowth of newly formed blood vessels from the neighboring tissues [12]. The majority of scaffolds investigated for bone regeneration applications are natural polymers (e.g., chitosan, fibrin, hyaluronic acid, and collagen) or synthetic polymers (e.g., polylactic acid, polycaprolactone); bioactive ceramics such as coralline, hydroxyapatite, tricalcium phosphate, sulphate, bioactive glass, and calcium silicate; and hybrid combinations of two or more materials with different properties in the form of copolymers, polymer-polymer blends, or polymer-ceramic composites [13].…”
Section: Introductionmentioning
confidence: 99%
“…As bone tissue engineering technology has advanced, the use of tissue engineering to construct tissue engineering bone has become one of the most promising methods of bone repair over the past few years [1,2] . Currently, Mesenchymal Stem Cells (MSCs) are used as seed cells for bone tissue engineering.…”
mentioning
confidence: 99%