Medical imaging of tissue engineering and regenerative medicine constructs

Adequate vascularisation is key in determining the clinical outcome of stem cells and engineered tissue in regenerative medicine. Numerous imaging modalities have been developed and used for the visualization of vascularisation in tissue engineering. In this review, we briefly discuss the very recent advances aiming at high performance imaging of vasculature. We classify the vascular imaging modalities into three major groups: nonoptical methods (X-ray, magnetic resonance, ultrasound, and positron emission imaging), optical methods (optical coherence, fluorescence, multiphoton, and laser speckle imaging), and hybrid methods (photoacoustic imaging). We then summarize the strengths and challenges of these methods for preclinical and clinical applications.

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Use of Imaging Techniques to Assess Skin Wound Healing for Tissue Engineering and Regenerative Medicine

International Journal of Biological Instrumentation ◽

10.35840/2631-5025/5102 ◽

2018 ◽

Vol 1 (1) ◽

Author(s):

Feldman Dale

Keyword(s):

Tissue Engineering ◽

Wound Healing ◽

Regenerative Medicine ◽

Imaging Techniques ◽

Skin Wound ◽

Skin Wound Healing

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Tissue engineering in regenerative medicine

Forum Zakażeń ◽

10.15374/fz2015052 ◽

2015 ◽

Vol 6 (5) ◽

pp. 291-298

Author(s):

Barbara Różalska ◽

Bartłomiej Micota ◽

Małgorzata Paszkiewicz ◽

Beata Sadowska

Keyword(s):

Tissue Engineering ◽

Regenerative Medicine

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Graphene and Graphene-Based Materials in Biomedical Applications

Current Medicinal Chemistry ◽

10.2174/0929867326666190705155854 ◽

2019 ◽

Vol 26 (38) ◽

pp. 6834-6850 ◽

Cited By ~ 5

Author(s):

Mohammad Omaish Ansari ◽

Kalamegam Gauthaman ◽

Abdurahman Essa ◽

Sidi A. Bencherif ◽

Adnan Memic

Keyword(s):

Tissue Engineering ◽

Thermal Properties ◽

Gene Delivery ◽

Regenerative Medicine ◽

Biomedical Research ◽

Biomedical Applications ◽

Biomedical Application ◽

Two Dimensional ◽

Drug And Gene Delivery ◽

Biomedical Fields

: Nanobiotechnology has huge potential in the field of regenerative medicine. One of the main drivers has been the development of novel nanomaterials. One developing class of materials is graphene and its derivatives recognized for their novel properties present on the nanoscale. In particular, graphene and graphene-based nanomaterials have been shown to have excellent electrical, mechanical, optical and thermal properties. Due to these unique properties coupled with the ability to tune their biocompatibility, these nanomaterials have been propelled for various applications. Most recently, these two-dimensional nanomaterials have been widely recognized for their utility in biomedical research. In this review, a brief overview of the strategies to synthesize graphene and its derivatives are discussed. Next, the biocompatibility profile of these nanomaterials as a precursor to their biomedical application is reviewed. Finally, recent applications of graphene-based nanomaterials in various biomedical fields including tissue engineering, drug and gene delivery, biosensing and bioimaging as well as other biorelated studies are highlighted.

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