Since the complex microenvironment in vivo, efficient tumor therapy, and tissue regeneration have remained a critical challenge. The emergence of nanomedicine has opened up a promising window to address the drawbacks of cancer therapy and tissue regeneration. A wide range of functional biomaterial-based nanosystems or nanoplatforms with different shapes, sizes, and compositions have been developed for various biomedical applications. The functional biomaterial nanosystem has been increasingly used in various applications in drug delivery, bioimaging, cancer therapy, and tissue regeneration. Recently, numerous functional biomaterial nanosystems with the desired ability, such as simultaneous diagnosis and targeted cancer therapy, stimuli-responsive drug release, wound healing and tissue regeneration, have been reported. The multidisciplinary attempts led to the development of several exciting clinically approved nanotherapeutics. The good development of the functional biomaterial nanosystem is closely associated with their future clinical application for improving patients' health and life. In this issue, the most significant achievements and latest advances in the functional biomaterial nanosystem development for cancer therapy and tissue regeneration are critically discussed.
The goal of this research topic is to publish research articles in full length, short communications, review articles, and opinions covering the latest studies, progress, and challenges on functional biomaterial nanosystems for tumor therapy and tissue regeneration. This Research Topic aims to become the reference relevant to the design, modification, construction, characterization, and evaluation of the functional biomaterial nanosystem for their current or future application in tumor therapy and tissue regeneration.
The main scope of the Research Topic encompasses new concepts in functional biomaterial nanosystem design, modification, characterization, and evaluation, studies into the interaction of functional biomaterial nanosystem with the cell/tissue, and the fabrication of functional biomaterial nanosystem for tumor therapy and tissue regeneration. We welcome submissions in the following themes, but are not limited to:
(1) Design, preparation, and characterization of functional biomaterial nanosystem,
(2) Interaction between biomaterials and cells,
(3) Functional biomaterial nanosystem for drug delivery, bioimaging, tumor therapy or tissue regeneration,
(4) Surface modification strategies of the functional biomaterial nanosystem,
(5) Topological nano/micro functional of the functional biomaterial nanosystem,
(6) Biomimetic material,
(7) Nanomaterials and drug delivery nanosystem,
(8) Mechanism on cell-biomaterials interaction,
(9) Investigation methods/modeling for functional biomaterial nanosystem development,
(10) Implanted nanoplatforms for tumor therapy and tissue regeneration,
(11) New biosafety assessment techniques and characterization of the functional biomaterial nanosystem.
Since the complex microenvironment in vivo, efficient tumor therapy, and tissue regeneration have remained a critical challenge. The emergence of nanomedicine has opened up a promising window to address the drawbacks of cancer therapy and tissue regeneration. A wide range of functional biomaterial-based nanosystems or nanoplatforms with different shapes, sizes, and compositions have been developed for various biomedical applications. The functional biomaterial nanosystem has been increasingly used in various applications in drug delivery, bioimaging, cancer therapy, and tissue regeneration. Recently, numerous functional biomaterial nanosystems with the desired ability, such as simultaneous diagnosis and targeted cancer therapy, stimuli-responsive drug release, wound healing and tissue regeneration, have been reported. The multidisciplinary attempts led to the development of several exciting clinically approved nanotherapeutics. The good development of the functional biomaterial nanosystem is closely associated with their future clinical application for improving patients' health and life. In this issue, the most significant achievements and latest advances in the functional biomaterial nanosystem development for cancer therapy and tissue regeneration are critically discussed.
The goal of this research topic is to publish research articles in full length, short communications, review articles, and opinions covering the latest studies, progress, and challenges on functional biomaterial nanosystems for tumor therapy and tissue regeneration. This Research Topic aims to become the reference relevant to the design, modification, construction, characterization, and evaluation of the functional biomaterial nanosystem for their current or future application in tumor therapy and tissue regeneration.
The main scope of the Research Topic encompasses new concepts in functional biomaterial nanosystem design, modification, characterization, and evaluation, studies into the interaction of functional biomaterial nanosystem with the cell/tissue, and the fabrication of functional biomaterial nanosystem for tumor therapy and tissue regeneration. We welcome submissions in the following themes, but are not limited to:
(1) Design, preparation, and characterization of functional biomaterial nanosystem,
(2) Interaction between biomaterials and cells,
(3) Functional biomaterial nanosystem for drug delivery, bioimaging, tumor therapy or tissue regeneration,
(4) Surface modification strategies of the functional biomaterial nanosystem,
(5) Topological nano/micro functional of the functional biomaterial nanosystem,
(6) Biomimetic material,
(7) Nanomaterials and drug delivery nanosystem,
(8) Mechanism on cell-biomaterials interaction,
(9) Investigation methods/modeling for functional biomaterial nanosystem development,
(10) Implanted nanoplatforms for tumor therapy and tissue regeneration,
(11) New biosafety assessment techniques and characterization of the functional biomaterial nanosystem.