Spatial-temporal correlations in the speckle pattern for the characterization of cellular motion within a 3D object.

Dynamic light scattering analysis has been demonstrated recently to be a promising tool for the assessment of structural changes taking place inside opaque tissue samples. Specifically, quantification of velocity and direction of cellular motion inside spheroids and organoids has attracted much attention as a potent indicator in personalized therapy research. Here, we propose a method for the quantitative extraction of cellular motion, velocity, and direction, by applying a concept of speckle spatial-temporal correlation dynamics.

Tracking of magnetite labeled nanoparticles in the rat brain using MRI.

This study was performed to explore the feasibility of tracing nanoparticles for drug transport in the healthy rat brain with a clinical MRI scanner. Phantom studies were performed to assess the R1 ( =  1/T1) relaxivity of different magnetically labeled nanoparticle (MLNP) formulations that were based on biodegradable human serum albumin and that were labeled with magnetite of different size. In vivo MRI measurements in 26 rats were done at 3T to study the effect and dynamics of MLNP uptake in the rat brain and body.

PA-GFP: a window into the subcellular adventures of the individual mitochondrion.

Mitochondrial connectivity is characterized by matrix lumen continuity and by dynamic rewiring through fusion and fission events. While these mechanisms homogenize the mitochondrial population, a number of studies looking at mitochondrial membrane potential have demonstrated that mitochondria exist as a heterogeneous population within individual cells. To address the relationship between mitochondrial dynamics and heterogeneity, we tagged and tracked individual mitochondria over time while monitoring their mitochondrial membrane potential (deltapsi(m)).

Tagging and tracking individual networks within a complex mitochondrial web with photoactivatable GFP.

Assembly of mitochondria into networks supports fuel metabolism and calcium transport and is involved in the cellular response to apoptotic stimuli. A mitochondrial network is defined as a continuous matrix lumen whose boundaries limit molecular diffusion. Observation of individual networks has proven challenging in live cells that possess dense populations of mitochondria.

Fluorescence polarization: a novel indicator of cardiomyocyte contraction.

The changes measured in intracellular fluorescein fluorescence polarization (IFFP) are used as a new tool for tracing cytoplasmic effects during contractile cycles of cardiac myocytes (1-2-day-old rat hearts), in addition to the established Ca(2+) monitoring and/or videometric methods of tracking cell-shortening. This novel method was found to be non-intrusive to the contraction cycles. The decay of the transient IFFP signal (from 0.