Effect of waste materials on acoustical properties of semi-dense asphalt mixtures

Among the urban societal burdens rolling noise generation from tire pavement interaction and urban waste stand apart. Many urban waste materials can be used in pavements with comparable mechanical performance. Noise-related pavement characteristics such as porosity, sound absorption and surface texture, were measured for semi-dense low noise pavement mixtures using urban waste materials namely: recycled concrete aggregates, crumb rubber, polyethylene terephthalate and polyethylene. The results show that the use of these materials is a viable sustainable option for low noise pavements, however that may affect the noise reduction properties. With values around 0.2 at 1000 Hz, the sound absorption of all the mixtures is relatively low and the use of mean profile depth (MPD) alone is not enough to characterize the noise reduction properties. Surface texture was altered in different degrees depending on the waste material used. The results presented can aid in policy pertaining to noise abatement and waste reduction

Junction-based lamellipodia drive endothelial cell rearrangements in vivo via a VE-cadherin-F-actin based oscillatory cell-cell interaction

Angiogenesis and vascular remodeling are driven by extensive endothelial cell movements. Here, we present in vivo evidence that endothelial cell movements are associated with oscillating lamellipodia-like structures, which emerge from cell junctions in the direction of cell movements. High-resolution time-lapse imaging of these junction-based lamellipodia (JBL) shows dynamic and distinct deployment of junctional proteins, such as F-actin, VE-cadherin and ZO1, during JBL oscillations. Upon initiation, F-actin and VE-cadherin are broadly distributed within JBL, whereas ZO1 remains at cell junctions. Subsequently, a new junction is formed at the front of the JBL, which then merges with the proximal junction. Rac1 inhibition interferes with JBL oscillations and disrupts cell elongation-similar to a truncation in ve-cadherin preventing VE-cad/F-actin interaction. Taken together, our observations suggest an oscillating ratchet-like mechanism, which is used by endothelial cells to move over each other and thus provides the physical means for cell rearrangements

Towards a general framework for including noise impacts in LCA

Industrial Ecolog

Generating sequences of acoustic scintillations

Spatial and temporal inhomogeneities in temperature and wind velocity affect sound propagation resulting in amplitude and phase fluctuations called scintillations. A computationally efficient method is presented to generate sequences of scintillations. The method, already used in the field of wireless communication to predict the performance of wireless communication links, could be used in the field of acoustics to create more perceptually valid auralizations. A Gaussian spectrum and a spherical wavefront is considered, but the method can also be used in combination with other spectra like the Von Karman spectrum as well as plane waves. Two examples are given, one is a pure tone affected by the scintillations and the other is an auralization of an aircraft fly-over. The effect of the transverse speed of the source is demonstrated as well

Entorses de cheville : six pièges à connaître [Six pitfalls around the ankle sprains]

Ankle sprains are frequently encountered. They result most of the time in lesions of the lateral ligament complex. Nevertheless, in the context of an ankle sprains, more severe injuries including fracture of the lateral process of the talus, fracture of the base of the 5th metatarsal, tear of the medial ligament complex, lesion of the syndesmosis, sprain of the Chopart joint, and peroneal tendons luxation are potentially overlooked and, if treated inadequately, may be associated with poor functional outcome. The goal of the present paper is to make the emergency practitioner aware of these potential lesions, and to help him making the correct diagnosis in order to initiate the adequate treatment

Intermittency ratio : a metric reflecting short-term temporal variations of transportation noise exposure

Most environmental epidemiology studies model health effects of noise by regressing on acoustic exposure metrics that are based on the concept of average energetic dose over longer time periods (i.e. the Leq and related measures). Regarding noise effects on health and wellbeing, average measures often cannot satisfactorily predict annoyance and somatic health effects of noise, particularly sleep disturbances. It has been hypothesized that effects of noise can be better explained when also considering the variation of the level over time and the frequency distribution of event-related acoustic measures, such as for example, the maximum sound pressure level. However, it is unclear how this is best parametrized in a metric that is not correlated with the Leq, but takes into account the frequency distribution of events and their emergence from background. In this paper, a calculation method is presented that produces a metric which reflects the intermittency of road, rail and aircraft noise exposure situations. The metric termed intermittency ratio (IR) expresses the proportion of the acoustical energy contribution in the total energetic dose that is created by individual noise events above a certain threshold. To calculate the metric, it is shown how to estimate the distribution of maximum pass-by levels from information on geometry (distance and angle), traffic flow (number and speed) and single-event pass-by levels per vehicle category. On the basis of noise maps that simultaneously visualize Leq, as well as IR, the differences of both metrics are discussed

Junction-based lamellipodia drive endothelial cell arrangements in vivo via a VE-cadherin/F-actin based oscillatory ratchet mechanism

Angiogenesis and vascular remodeling are driven by a wide range of endothelial cell behaviors, such as cell divisions, cell movements, cell shape and polarity changes. To decipher the cellular and molecular mechanism of cell movements, we have analyzed the dynamics of different junctional components during blood vessel anastomosis in vivo. We show that endothelial cell movements are associated with oscillating lamellipodia-like structures, which are orientated in the direction of these movements. These structures emerge from endothelial cell junctions and we thus call them junction-based lamellipodia (JBL). High-resolution time-lapse imaging shows that JBL are formed by F-actin based protrusions at the front end of moving cells. These protrusions also contain diffusely distributed VE-cadherin, whereas the junctional protein ZO-1 (Zona occludens 1) remains at the junction. Subsequently, a new junction is formed at the front of the JBL and the proximal junction is pulled towards the newly established distal junction. JBL function is highly dependent on F-actin dynamics. Inhibition of F-actin polymerization prevents JBL formation, whereas Rac-1 inhibition interferes with JBL oscillations. Both interventions disrupt endothelial junction formation and cell elongation. To examine the role of VE-cadherin (encoded by cdh5 gene) in this process, we generated a targeted mutation in VE-cadherin gene (cdh5ubs25), which prevents VE-cad/F-actin interaction. Although homozygous ve-cadherin mutants form JBL, these JBL are less dynamic and do not promote endothelial cell elongation. Taken together, our observations suggest a novel oscillating ratchet-like mechanism, which is used by endothelial cells to move along or over each other and thus provides the physical means for cell rearrangements