398 research outputs found
Strain-based optimization of human tissue-engineered small diameter blood vessels
Coronary arteries originate from the root of the aorta and supply blood to the heart. These arteries can become stiffer and narrowed due to the buildup of atherosclerotic plaque in the inner vessel layers. As the plaque increases in size, the lumen of the coronary arteries decreases and less blood can flow through them. Eventually, coronary artery disease (CAD) can lead to chest pain or a myocardial infarction. Treatment for this disease includes medicines, minimally invasive interventional procedures such as angioplasty and stent implantation, and coronary artery bypass grafting (CABG). Today most CABG operations are performed using combinations of the autologous left internal mammary artery and the saphenous vein. These grafts, especially the latter, perform suboptimal. In addition, a relative large part of all patients do not have suitable veins or arteries, caused by disease of the replacement vessel itself, usage in previous surgeries, the need for multiple bypasses or a combination of all these factors. Therefore, other types of vascular grafts have been proposed to replace the native substitute. Synthetic grafts, such ePTFE and Dacron, perform well at diameters >6mm, but are not suitable for small-diameter
Atypical visual-auditory predictive coding in Autism Spectrum Disorder:Electrophysiological evidence from stimulus omissions
Autism spectrum disorder is a pervasive neurodevelopmental disorder that has been linked to a range of perceptual processing alterations, including hypo- and hyperresponsiveness to sensory stimulation. A recently proposed theory that attempts to account for these symptoms, states that autistic individuals have a decreased ability to anticipate upcoming sensory stimulation due to overly precise internal prediction models. Here, we tested this hypothesis by comparing the electrophysiological markers of prediction errors in auditory prediction by vision between a group of autistic individuals and a group of age-matched individuals with typical development. Between-group differences in prediction error signaling were assessed by comparing event-related potentials evoked by unexpected auditory omissions in a sequence of audiovisual recordings of a handclap in which the visual motion reliably predicted the onset and content of the sound. Unexpected auditory omissions induced an increased early negative omission response in the autism spectrum disorder group, indicating that violations of the prediction model produced larger prediction errors in the autism spectrum disorder group compared to the typical development group. The current results show that autistic individuals have alterations in visual-auditory predictive coding, and support the notion of impaired predictive coding as a core deficit underlying atypical sensory perception in autism spectrum disorder. Lay abstract: Many autistic individuals experience difficulties in processing sensory information (e.g. increased sensitivity to sound). Here we show that these difficulties may be related to an inability to process unexpected sensory stimulation. In this study, 29 older adolescents and young adults with autism and 29 age-matched individuals with typical development participated in an electroencephalography study. The electroencephalography study measured the participants’ brain activity during unexpected silences in a sequence of videos of a handclap. The results showed that the brain activity of autistic individuals during these silences was increased compared to individuals with typical development. This increased activity indicates that autistic individuals may have difficulties in processing unexpected incoming sensory information, and might explain why autistic individuals are often overwhelmed by sensory stimulation. Our findings contribute to a better understanding of the neural mechanisms underlying the different sensory perception experienced by autistic individuals
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