Uneven Terrain Recognition Using Neuromorphic Haptic Feedback.

Recent years have witnessed relevant advancements in the quality of life of persons with lower limb amputations thanks to the technological developments in prosthetics. However, prostheses that provide information about the foot-ground interaction, and in particular about terrain irregularities, are still missing on the market. The lack of tactile feedback from the foot sole might lead subjects to step on uneven terrains, causing an increase in the risk of falling.

A meta-learning algorithm for respiratory flow prediction from FBG-based wearables in unrestrained conditions.

The continuous monitoring of an individual's breathing can be an instrument for the assessment and enhancement of human wellness. Specific respiratory features are unique markers of the deterioration of a health condition, the onset of a disease, fatigue and stressful circumstances. The early and reliable prediction of high-risk situations can result in the implementation of appropriate intervention strategies that might be lifesaving.

Development and validation of low-intensity pulsed ultrasound systems for highly controlled in vitro cell stimulation.

This work aims to describe the development and validation of two low-intensity pulsed ultrasound stimulation systems able to control the dose delivered to the biological target. Transducer characterization was performed in terms of pressure field shape and intensity, for a high-frequency range (500 kHz to 5 MHz) and for a low-frequency value (38 kHz). This allowed defining the distance, on the beam axis, at which biological samples should be placed during stimulation and to exactly know the intensity at the target.

[Double cardiac fibroma in a newborn infant].

The authors describe the autopsy finding of two fibromas within the left ventricular wall of a five-day-old newborn. Histochemistry and immunohistochemistry showed the lesion as a purely fibroblastic proliferation, with intense elastic fibers formation and secondary morphological alteration and biological damage of the pre-existing muscular fibers. The authors, on the basis of the phases of the cardiac metamers development and of myocardial tissue differentiation, exclude any relationship with disembryogenetic factors, and hence the hamartomatous origin of the lesion, despite their onset in the first months of intrauterine growth.