Biodegradable Cements for Bone Regeneration

Liu, Dachuan; Cui, Chen; Chen, Wei-Cheng; Shi, Jiaxu; Li, Bin; Chen, Song

doi:10.3390/jfb14030134

Cited by 22 publications

(11 citation statements)

References 107 publications

(139 reference statements)

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“…While a metal PWC would be suitably inert and highly reusable, the volume required to support enclosed microchannels ultimately resulted in parts that were too heavy. Acrylic materials are biocompatible and used for implantable lenses [ 29 ] or bone cement [ 30 ] and offer chemical resistance to sterilizing agents. Ultimately, the acrylic‐based print material best met our needs and was thus selected for ongoing prototyping.…”

Section: Resultsmentioning

confidence: 99%

Perfusion Window Chambers Enable Interventional Analyses of Tumor Microenvironments

Korolj,

Kohler,

Scott

et al. 2023

Advanced Science

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Intravital microscopy (IVM) allows spatial and temporal imaging of different cell types in intact live tissue microenvironments. IVM has played a critical role in understanding cancer biology, invasion, metastases, and drug development. One considerable impediment to the field is the inability to interrogate the tumor microenvironment and its communication cascades during disease progression and therapeutic interventions. Here, a new implantable perfusion window chamber (PWC) is described that allows high‐fidelity in vivo microscopy, local administration of stains and drugs, and longitudinal sampling of tumor interstitial fluid. This study shows that the new PWC design allows cyclic multiplexed imaging in vivo, imaging of drug action, and sampling of tumor‐shed materials. The PWC will be broadly useful as a novel perturbable in vivo system for deciphering biology in complex microenvironments.

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Section: Resultsmentioning

confidence: 99%

Perfusion Window Chambers Enable Interventional Analyses of Tumor Microenvironments

Korolj,

Kohler,

Scott

et al. 2023

Advanced Science

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“…Bone cements are defined as biomaterials obtained from the mixing of a powder phase with a liquid phase, which can be molded and implanted as a paste and can set within the body [ 32 ]. They are intended as bone-filling materials rather than bone substitutes [ 30 ] and are widely used in different orthopedic procedures, such as vertebroplasty and kyphoplasty [ 4 ], and dental implant fixations [ 33 ]. Their moldable and injectable nature makes them attractive for minimally invasive surgical procedures, allowing for the filling of irregular bone defects [ 5 ].…”

Section: Bone Cementsmentioning

confidence: 99%

An Overview of Magnesium-Phosphate-Based Cements as Bone Repair Materials

Gelli,

Ridi

2023

JFB

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In the search for effective biomaterials for bone repair, magnesium phosphate cements (MPCs) are nowadays gaining importance as bone void fillers thanks to their many attractive features that overcome some of the limitations of the well-investigated calcium-phosphate-based cements. The goal of this review was to highlight the main properties and applications of MPCs in the orthopedic field, focusing on the different types of formulations that have been described in the literature, their main features, and the in vivo and in vitro response towards them. The presented results will be useful to showcase the potential of MPCs in the orthopedic field and will suggest novel strategies to further boost their clinical application.

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“…Still, these are also often combined with a polymer coating or matrix to afford injectability or moldability within irregular shapes, as well as to circumvent brittleness in certain cases. 16 The use of poly(methyl methacrylate) (PMMA) is associated with exothermic cures, post-cure shrinkage, lack of porosity, and non-degradability, as well as brittle mechanical properties. 17,18 To mitigate brittleness and afford replacement by neotissue, numerous degradable synthetic and natural polymers have been employed.…”

Section: Introductionmentioning

confidence: 99%