Facial trauma in motor vehicle accidents: etiological factors.

The effects of seat belts and the use of alcohol and drugs have been studied as etiological factors in facial trauma to occupants of motor vehicle accidents (MVAs). During a 15-month period, 461 patients were admitted to a regional trauma center as a result of injuries sustained in MVAs. Two hundred thirty-seven (51%) of these patients had facial trauma. Facial trauma was the single most common injury in these patients. One hundred eighty-five patients (78%) had major soft tissue injury, and 52 patients (22%) had facial bone fractures. Forty-two of 237 patients (18%) with facial trauma were wearing seat belts compared with 74 of 224 patients (33%) without facial trauma who were wearing seat belts at the time of the accident. Large numbers of patients who were wearing seat belts at the time of the accident had minor injuries and were never admitted to the hospital. Sixty-five of 224 patients (24%) without facial trauma and 121 of 237 patients (51%) with facial trauma tested positive for alcohol or drugs. The majority of the patients who tested positive for alcohol had blood alcohol levels of more than 100 mg/dL. Head injuries and blunt chest trauma were most commonly associated injuries in these patients. This study suggests that use of alcohol and drugs in occupants of the motor vehicle had a major effect on the etiology of facial trauma. Also it supports the data that suggests that the use of seat belts prevents a wide range of injuries including facial trauma in MVAs

Facial trauma in motor vehicle accidents: etiological factors.

The effects of seat belts and the use of alcohol and drugs have been studied as etiological factors in facial trauma to occupants of motor vehicle accidents (MVAs). During a 15-month period, 461 patients were admitted to a regional trauma center as a result of injuries sustained in MVAs. Two hundred thirty-seven (51%) of these patients had facial trauma. Facial trauma was the single most common injury in these patients. One hundred eighty-five patients (78%) had major soft tissue injury, and 52 patients (22%) had facial bone fractures. Forty-two of 237 patients (18%) with facial trauma were wearing seat belts compared with 74 of 224 patients (33%) without facial trauma who were wearing seat belts at the time of the accident. Large numbers of patients who were wearing seat belts at the time of the accident had minor injuries and were never admitted to the hospital. Sixty-five of 224 patients (24%) without facial trauma and 121 of 237 patients (51%) with facial trauma tested positive for alcohol or drugs. The majority of the patients who tested positive for alcohol had blood alcohol levels of more than 100 mg/dL. Head injuries and blunt chest trauma were most commonly associated injuries in these patients. This study suggests that use of alcohol and drugs in occupants of the motor vehicle had a major effect on the etiology of facial trauma. Also it supports the data that suggests that the use of seat belts prevents a wide range of injuries including facial trauma in MVAs

Brillouin scattering of cluster-assembled carbon films

The low frequency vibrational spectrum of cluster beam deposited carbon films was studied by Brillouin light scattering. In thin films the values of both bulk modulus and shear modulus has been estimated from the shifts of surface phonon peaks. The values found indicate a mainly sp2 coordinated random network with low density. In thick films a bulk longitudinal phonon peak was detected in a spectral range compatible with the value of the index of refraction and of the elastic constants of thin films. High surface roughness, combined with a rather strong bulk central peak, prevented the observation of surface phonon features. © 1998 Elsevier Science Ltd. All rights reserved

Synthesis and characterization of cluster-assembled carbon thin films

Nanostructured carbon thin films have been produced by deposition of supersonic cluster beams. The clusters are generated by a pulsed arc cluster ion source modified in order to achieve high fluxes and stability. Scanning electron microscopy, Raman, and optical spectroscopy show that the films are a low density network of nanometer-size particles. The nature of the films is essentially graphite-like with a large number of distorted bonds

Density and sp³ Content in Diamond-Like Carbon Films by X-ray Reflectivity and Electron Energy Loss Spectroscopy

ABSTRACTGrazing angle x-ray reflectivity (XRR) is used to study density, thickness, internal layering and roughness of a variety of carbon samples, with and without hydrogen and nitrogen. The bulk mass density of optimised tetrahedral amorphous carbon (ta-C) is 3.26 g/cm2, for which Electron Energy Loss Spectroscopy (EELS) found a sp3 fraction of 85%. Combining XRR and EELS we benchmark the dependence of sp3 fraction on density for hydrogen-free carbons. Hydrogenated ta-C (ta-C:H) deposited by electron cyclotron wave resonance (ECWR) reactor from acetylene gas, has a density of 2.35 g/cm3, 75% sp3 and ∼30% hydrogen. These data provide a similar validation for density and sp3 EELS data for hydrogenated DLCs. XRR can also reveal internal layering in films, and indeed less dense layers may be found at the surface or interface of ta-C films, but no such layers are found in ta-C:H films.</jats:p