The enhanced angiogenic responses to ionic dissolution products from a boron-incorporated calcium silicate coating

Li, Kai; Lü, Xiang; Razanau, Ihar; Wu, Xiaodong; Hu, Tao; Liu, Shiwei; Xie, Yi; Huang, Liping; Zheng, Xiaofeng

doi:10.1016/j.msec.2019.04.009

Cited by 28 publications

(14 citation statements)

References 36 publications

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“…It was indicated that the cardiac complications interacted with the vascular eNOS/NO pathway and MDA downregulated (Ding et al, 2019). In an experimental study, the in vitro induction of angiogenesis by boron-incorporated calcium silicate coating extract appeared to involve oxidative stress-induced nitrosative stress (Li et al, 2019).…”

Section: Lithium Tetraborate Reduces the Heart Injury Induced By Rena...mentioning

confidence: 98%

The effect of lithium tetraborate as a novel cardioprotective agent after renal ischemia-reperfusion injury

Koç

Geyikoğlu

Yilmaz

et al. 2022

Braz. J. Pharm. Sci.

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Epidemiological studies suggest that acute kidney injury has certain effect on myocardial function. In this study, for the first time, we tested a boron compound namely lithium tetraborate an act as an anti-oxidant and anti-inflammatory agent in ischemia-reperfusion injury. For this, we employed an in vivo rat model with kidney ischemia reperfusion injury to evaluate cardiac injury to clarify the mechanisms of lithium tetraborate. The evaluation of cardiac injury through kidney artery occlusion and reperfusion rat model indicated that lithium tetraborate could (1) reduce oxidative stress-induced endothelial dysfunction; (2) attenuate the inflammatory response of cardiac cells; and (3) alleviate the apoptosis and necrosis of myocytes. In summary, lithium tetraborate demonstrates significant therapeutic properties that contribute to the amelioration of cardiac damage, and it could be a promising candidate for future applications in myocardial dysfunction.

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Section: Lithium Tetraborate Reduces the Heart Injury Induced By Rena...mentioning

confidence: 98%

The effect of lithium tetraborate as a novel cardioprotective agent after renal ischemia-reperfusion injury

Koç

Geyikoğlu

Yilmaz

et al. 2022

Braz. J. Pharm. Sci.

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“…The glass is degrading and inducing HA/HCA precipitation at a rate that is a function of the amount of boron: the higher the boron content in bioactive borosilicate glasses, the faster the dissolution rate, and the higher the thickness of the precipitated HA layer [17,18]. Furthermore, boron has been discovered to promote angiogenesis, which is fundamental for the vascularization of the just regenerated tissue and, consequently, for the health of the new tissue itself and the success of the implant [19,20].…”

Section: Introductionmentioning

confidence: 99%

Surface modification of silicate, borosilicate and phosphate bioactive glasses to improve/control protein adsorption: PART I

Gobbo

Parihar

Prato

et al. 2023

Ceramics International

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“…Ceramic materials, such as hydroxyapatite (HA) and calcium phosphate (CaP), are the most common materials used for bone tissue engineering applications 11 . They are the crystalline form of CaP and constitute 60–70% of bone tissue, providing mechanical strength to the tissue 12,13 . Also, bioglasses (BGs) and glass ceramics (with the composition of Na 2 O‐CaO‐SiO 2 ‐P 2 O 5 system) are widely used as bone grafts, having the ability to bond to bone tissue, forming a HA layer on the surface, which acts as a template for newly bone formation 14‐16 …”

Section: Introductionmentioning

confidence: 99%

Bone substitutes and photobiomodulation in bone regeneration: A systematic review in animal experimental studies

Magri

Parisi

Andrade

et al. 2021

J Biomedical Materials Res

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In general, bone fractures are able of healing by itself. However, in critical situations such as large bone defects, poor blood supply or even infections, the biological capacity of repair can be impaired, resulting in a delay of the consolidation process or even in non‐union fractures. Thus, technologies able of improving the process of bone regeneration are of high demand. In this context, ceramic biomaterials‐based bone substitutes and photobiomodulation (PBM) have been emerging as promising alternatives. Thus, the present study performed a systematic review targeting to analyze studies in the literature which investigated the effects of the association of ceramic based bone substitutes and PBM in the process of bone healing using animal models of bone defects. The search was conducted from March and April of 2019 in PubMed, Web of Science and Scopus databases. After the eligibility analyses, 16 studies were included in this review. The results showed that the most common material used was hydroxyapatite (HA) followed by Biosilicate associated with infrared PBM. Furthermore, 75% of the studies demonstrated positive effects to stimulate bone regeneration from association of ceramic biomaterials and PBM. All studies used low‐level laser therapy (LLLT) device and the most studies used LLLT infrared. The evidence synthesis was moderate for all experimental studies for the variable histological analysis demonstrating the efficacy of techniques on the process of bone repair stimulation. In conclusion, this review demonstrates that the association of ceramic biomaterials and PBM presented positive effects for bone repair in experimental models of bone defects.

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The enhanced angiogenic responses to ionic dissolution products from a boron-incorporated calcium silicate coating

Cited by 28 publications

References 36 publications

The effect of lithium tetraborate as a novel cardioprotective agent after renal ischemia-reperfusion injury

The effect of lithium tetraborate as a novel cardioprotective agent after renal ischemia-reperfusion injury

Surface modification of silicate, borosilicate and phosphate bioactive glasses to improve/control protein adsorption: PART I

Bone substitutes and photobiomodulation in bone regeneration: A systematic review in animal experimental studies

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