In recent years, cell biology has been revolutionized by applying emerging bio/nanomaterials. These advancements, particularly in tumor nanomedicine, tissue engineering, and regenerative medicine, pave the way for new diagnostic and therapeutic strategies. By enhancing drug delivery, cell therapy, regulation of cell fate, and immune modulation, these technologies are significantly advancing our understanding and treatment of various diseases. Despite these promising developments, there remain significant gaps in our knowledge, particularly concerning the precise mechanisms by which these materials interact with biological systems at the cellular level. Ongoing debates focus on the safety, efficacy, and long-term impacts of these technologies, necessitating further investigation. While significant studies have demonstrated the potential of biomaterials and nanotechnology in improving therapeutic outcomes, there is a pressing need for more comprehensive research to address these challenges and optimize their application in clinical settings.
This research topic aims to highlight the latest research progress in the application of advanced bioengineering technologies within cell biology. We seek to explore innovations such as precise drug delivery to target cells, regulated cell death mechanisms, cell regeneration and repair, immune activation, and advanced cell imaging techniques. Our goal is to expand the application scope and value of these technologies in cell biology and provide a platform for interdisciplinary research. By addressing these objectives, we hope to contribute to the development of more effective and targeted therapies for a range of diseases.
To gather further insights in the integration of biomaterials and nanotechnology in cell biology, we welcome articles addressing, but not limited to, the following themes:
- Tumor nanomedicine.
- Targeted drug delivery.
- Tissue regenerative medicine.
- Nanoregulated cell death.
- Nano-immunomodulation.
In recent years, cell biology has been revolutionized by applying emerging bio/nanomaterials. These advancements, particularly in tumor nanomedicine, tissue engineering, and regenerative medicine, pave the way for new diagnostic and therapeutic strategies. By enhancing drug delivery, cell therapy, regulation of cell fate, and immune modulation, these technologies are significantly advancing our understanding and treatment of various diseases. Despite these promising developments, there remain significant gaps in our knowledge, particularly concerning the precise mechanisms by which these materials interact with biological systems at the cellular level. Ongoing debates focus on the safety, efficacy, and long-term impacts of these technologies, necessitating further investigation. While significant studies have demonstrated the potential of biomaterials and nanotechnology in improving therapeutic outcomes, there is a pressing need for more comprehensive research to address these challenges and optimize their application in clinical settings.
This research topic aims to highlight the latest research progress in the application of advanced bioengineering technologies within cell biology. We seek to explore innovations such as precise drug delivery to target cells, regulated cell death mechanisms, cell regeneration and repair, immune activation, and advanced cell imaging techniques. Our goal is to expand the application scope and value of these technologies in cell biology and provide a platform for interdisciplinary research. By addressing these objectives, we hope to contribute to the development of more effective and targeted therapies for a range of diseases.
To gather further insights in the integration of biomaterials and nanotechnology in cell biology, we welcome articles addressing, but not limited to, the following themes:
- Tumor nanomedicine.
- Targeted drug delivery.
- Tissue regenerative medicine.
- Nanoregulated cell death.
- Nano-immunomodulation.