A 3D imaging approach that enables prolonged functional assessment of the mouse oviduct (or fallopian tube) in vivo.
Imaging Biological Filament Systems
In their review in BioEssays, David Popp et al. discuss how recent advances in structural biology have provided new insights into biological filament systems.
Optic Imaging to Understand the Healing of Diabetic Wounds
A team of North American researchers demonstrated a label-free and more direct way to observe and quantify microvascular and metabolic healing mechanisms, and the biological response to a topical treatment, utilizing a multimodal microscope equipped with OCT and FLIM.
Leveraging the Full Potential of Abundant Iron Catalysts
Improved control over synthesis process of iron catalysts leads to significantly increased number of reactive sites.
Cellular Reprogramming: A New Way to Understand Aging Mechanisms
This rise in the elderly population brings forward the concept of healthy aging and encourages scientists to conduct extensive research in cellular reprogramming.
Ultrasensitive Photodetector for Thermal Imaging and Sensing
A team of researchers design broadband field-effect phototransistors based on molybdenum disulfide. The photodetector has the ability to detect very weak optical signals and is promising for applications in thermal imaging and sensing.
Multifunctional Titania Now Ready for Medical Imaging and Photodynamic Therapy?
Multifunctional gadolinium-doped titania nanoparticles perform combined diagnostics and treament without compromising the advantages of their components.
Imaging Blood Flow with Optical Tomography and Speckle Detection
A team of Dutch scientist report the use of ultrasound modulated optical tomography (UOT) with heterodyne parallel detection to locally sense and image blood flow deep inside a highly scattering medium.
Timing of Neuronal Plasticity in Development and Aging
An overview of the many key pathways and neuronal clocks that have been linked to the regulation of regenerative capacity is provided.
Live–Cell Imaging via a Clickable Probe With an Exceptionally Long Lifetime Shift
–Cells are highly complex and organized entities which are composed of various biological events. Real-time live-cell imaging is important for understanding these physiological processes. However, many existing fluorescent probes are unsuitable for these purposes due...