About this Research Topic
Amidst advances pushing cancer nanomedicines closer to clinical settings, nanotechnology-enhanced bioimaging showed unmatched sensitivity and resolution, visualizing the tumorigenesis/progression, or surgical/therapeutic process. This Research Topic aims to explore the latest developments of nanotechnology-enhanced bioimaging in cancer detection and treatment, within a special orientation for their clinical translation. Imaging modality spans from optically active bioluminescence and fluorescence, to radiologically traceable positron emission tomography (PET) and computed tomography (CT), with state-of-the-art techniques based on one specific imaging modality, such as near-infrared fluorescence imaging, or multimodality imaging, such as a combination of PET/CT, etc. Also, we are keen to investigate tumor samples that represent certain pathophysiological status in cancers, recently analyzed by nanotechnology-pertaining spectroscopic (e.g., surface-enhanced Raman spectroscopy) or microscopical (e.g., atomic force microscopy) techniques.
By this collection of studies, peer researchers can share a forum to present articles of Original Research or Review covering the following areas (recommended but are not limited to):
- Nanotechnology-enhanced bioluminescence imaging in monitoring cancer growth and/or metastasis.
- Advanced fluorescence techniques in cancer imaging, e.g., through near-infrared transparency windows or fluorescence emission beyond 1000 nm.
- Applications of nanoscale materials in radiologically active imaging approaches, such as PET/CT, etc., in early cancer diagnosis.
- Nanotechnology in improving spatial resolution of nuclear medicine, including magnetic resonance imaging.
- Nanoprobe-aided and imaging-guided detection, surgery, or/and treatment of cancers.
- Nanomaterial-pertaining novel bioimaging in cancer detection, like acoustic imaging.
- Nanotechnology improved pathophysiological analyses on cancer samples.
- Multimodality imaging in nanoparticle-improved cancer detection, delivery, and therapeutics.
Keywords: nanotechnology, nanomaterial, imaging, cancer, translational medicine, diagnosis, treatment
Important Note: All contributions to this Research Topic must be within the scope of the section and journal to which they are submitted, as defined in their mission statements. Frontiers reserves the right to guide an out-of-scope manuscript to a more suitable section or journal at any stage of peer review.