87 research outputs found
Twisting of light around rotating black holes
Kerr black holes are among the most intriguing predictions of Einstein's
general relativity theory. These rotating massive astrophysical objects drag
and intermix their surrounding space and time, deflecting and phase-modifying
light emitted nearby them. We have found that this leads to a new relativistic
effect that imposes orbital angular momentum onto such light. Numerical
experiments, based on the integration of the null geodesic equations of light
from orbiting point-like sources in the Kerr black hole equatorial plane to an
asymptotic observer, indeed identify the phase change and wavefront warping and
predict the associated light-beam orbital angular momentum spectra. Setting up
the best existing telescopes properly, it should be possible to detect and
measure this twisted light, thus allowing a direct observational demonstration
of the existence of rotating black holes. Since non-rotating objects are more
an exception than a rule in the Universe, our findings are of fundamental
importance.Comment: Article: 18 pages (11 pages in form of an Appendix). Total number of
figures:
Mechanical properties measured by Atomic Force Microscopy define health biomarkers in ageing C. elegans
Genetic and environmental factors are key drivers regulating organismal lifespan but how these impact healthspan is less well understood. Techniques capturing biomechanical properties of tissues on a nano-scale level are providing new insights into disease mechanisms. Here, we apply Atomic Force Microscopy (AFM) to quantitatively measure the change in biomechanical properties associated with ageing Caenorhabditis elegans in addition to capturing high-resolution topographical images of cuticle senescence. We show that distinct dietary restriction regimes and genetic pathways that increase lifespan lead to radically different healthspan outcomes. Hence, our data support the view that prolonged lifespan does not always coincide with extended healthspan. Importantly, we identify the insulin signalling pathway in C. elegans and interventions altering bacterial physiology as increasing both lifespan and healthspan. Overall, AFM provides a highly sensitive technique to measure organismal biomechanical fitness and delivers an approach to screen for health-improving conditions, an essential step towards healthy ageing
Usefulness of molecular biology performed with formaldehyde-fixed paraffin embedded tissue for the diagnosis of combined pulmonary invasive mucormycosis and aspergillosis in an immunocompromised patient
Immunocompromised patients who develop invasive filamentous mycotic infections can be efficiently treated if rapid identification of the causative fungus is obtained. We report a case of fatal necrotic pneumonia caused by combined pulmonary invasive mucormycosis and aspergillosis in a 66 year-old renal transplant recipient. Aspergillus was first identified during the course of the disease by cytological examination and culture (A. fumigatus) of bronchoalveolar fluid. Hyphae of Mucorales (Rhizopus microsporus) were subsequently identified by culture of a tissue specimen taken from the left inferior pulmonary lobe, which was surgically resected two days before the patient died. Histological analysis of the lung parenchyma showed the association of two different filamentous mycoses for which the morphological features were evocative of aspergillosis and mucormycosis. However, the definitive identification of the associative infection was made by polymerase chain reaction (PCR) performed on deparaffinized tissue sections using specific primers for aspergillosis and mucormycosis. This case demonstrates that discrepancies between histological, cytological and mycological analyses can occur in cases of combined mycotic infection. In this regard, it shows that PCR on selected paraffin blocks is a very powerful method for making or confirming the association of different filamentous mycoses and that this method should be made available to pathology laboratories
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