Mitochondrial complex I activity in microglia sustains neuroinflammation.

Sustained smouldering, or low-grade activation, of myeloid cells is a common hallmark of several chronic neurological diseases, including multiple sclerosis. Distinct metabolic and mitochondrial features guide the activation and the diverse functional states of myeloid cells. However, how these metabolic features act to perpetuate inflammation of the central nervous system is unclear.

Genetic determinants of micronucleus formation in vivo.

Genomic instability arising from defective responses to DNA damage or mitotic chromosomal imbalances can lead to the sequestration of DNA in aberrant extranuclear structures called micronuclei (MN). Although MN are a hallmark of ageing and diseases associated with genomic instability, the catalogue of genetic players that regulate the generation of MN remains to be determined. Here we analyse 997 mouse mutant lines, revealing 145 genes whose loss significantly increases (n = 71) or decreases (n = 74) MN formation, including many genes whose orthologues are linked to human disease.

Investigation of non-fatal occupational accidents and their causes in Turkish shipyards.

This study reports new data for 1028 non-fatal occupational accidents dated between January 2010 and April 2015 by applying the analytical hierarchy process (AHP) technique. A comprehensive survey was conducted at four shipyards in Tuzla, Istanbul and Yalova regions in Turkey and a workplace questionnaire appropriate for the AHP technique was carried out. The obtained results indicated that inadequate safety equipment and protective clothing, unsuitable usage of machines and tools, and disobeying occupational health and safety (OHS) procedures were the most common risk factors for the accidents.

Sheared two-dimensional radiofrequency excitation for off-resonance robustness and fat suppression in reduced field-of-view imaging.

Purpose: Two-dimensional (2D) echo-planar radiofrequency (RF) pulses are widely used for reduced field-of-view (FOV) imaging in applications such as diffusion-weighted imaging. However, long pulse durations render the 2D RF pulses sensitive to off-resonance effects, causing local signal losses in reduced-FOV images. This work aims to achieve off-resonance robustness for 2D RF pulses via a sheared trajectory design.

2D RF pulse design for optimized reduced field-of-view imaging at 1.5T and 3T.

Two-dimensional spatially selective radiofrequency (2DRF) excitation pulses are widely used for reduced field-of-view (FOV) targeted high-resolution diffusion weighted imaging (DWI), especially for anatomically small regions such as the spinal cord and prostate. The reduction in FOV achieved by 2DRF pulses significantly improve the in-plane off-resonance artifacts in single-shot echo planar imaging (ss-EPI). However, long durations of 2DRF pulses create a sensitivity to through-plane off-resonance effects, especially at 3T where the off-resonance field doubles with respect to 1.