Wattmeter based on tunnel-effect magnetoresistance sensor.

This work shows how the tunnel-effect based magnetoresistance (TMR) technology can be used as a competitive sensing method in electrical current and power processors. The sensor is arranged in a Wheatstone bridge topology, and each magnetoresistance was composed of a series connection of 360 magnetic tunnel junction elements with the following structure (thickness in nm): 100 SiO2/5 Ta/15 Ru/5 Ta/15 Ru/5 Ta/5 Ru/20 IrMn/2 CoFe30/0.85 Ru/2.

Characterization of Magnetoresistive Shunts and Its Sensitivity Temperature Compensation.

The main purpose of the paper is to show how a magnetoresistive (MR) element can work as a current sensor instead of using a Wheatstone bridge composed by four MR elements, defining the concept of a magnetoresistive shunt (MR-shunt). This concept is reached by considering that once the MR element is biased at a constant current, the voltage drop between its terminals offers information, by the MR effect, of the current to be measured, as happens in a conventional shunt resistor. However, an MR-shunt has the advantage of being a non-dissipative shunt since the current of interest does not circulate through the material, preventing its self-heating.

Embedded bleeding detector into a PMMA applicator for electron intraoperative radiotherapy.

Purpose: The aim of this work is to present a ready to industrialize low-cost and easy-to-install bleeding detector for use in intraoperative electron radiation therapy (IOERT). The detector works in stand-alone mode and is embedded into a translucent polymethylmethacrylate (PMMA) applicator avoiding any contact with the patient, which represent a novelty compared to previous designs. The use of this detector will prevent dose misadministration during irradiation in the event of accumulation of fluids in the applicator.

Improving bleeding detector features for electron intraoperative radiotherapy.

Purpose: The aim of this work is to improve the potential bleeding detection during intraoperative radiotherapy with linac polymethyl methacrylate applicators (PMMA), based on one previously developed. The improvements carried out have been focused on: i) minimizing the impact of the detector on the visual through the plastic applicators and ii) avoiding the asymmetry in the detection capability when the applicator is tilted.

Methods: Simulations have been made to select the geometry that provides a reduced visual impact on the applicator as well as allowing an independent response with the tilting angle of the applicator.

Development and optimisation of an animal model for the study of ganglion cells in degenerative diseases of the retina and optic nerve.

Introduction: Multiple sclerosis is an autoimmune, chronic and inflammatory disease of the central nervous system with axonal demyelination, gliosis and neurodegeneration. It is considered a frequent cause of neurological disability in young adults. In this work, an Experimental Autoimmune Encephalomyelitis (EAE) model was optimised by injecting a myelin oligodendrocyte glycoprotein (MOG).

Detector for monitoring potential bleeding during electron intraoperative radiotherapy.

Purpose: The aim of this work is to develop a bleeding detector integrated into the acrylic circular applicators for specific mobile linacs. Thus, a bleeding detector has been developed based on a capacitive sensor to be used with plastic applicators, as in the case of LIAC HWL from Sordina IORT Technologies SpA. According to the clinical impact, we have selected 0.

Coexistent central retinal vein and artery occlusion in a patient with psoriasis receiving ustekinumab.

A 44 year-old Caucasian male with a history of plaque psoriasis currently being treated with ustekinumab presented with sudden loss of vision in his left eye. Fundus examination showed central retinal vein occlusion coexisting with central retinal artery occlusion. Posterior examination revealed mild polycythemia, being the underlying cause unknown.

[Non-infectious corneal macroperforations treated with a combination of Tachosil(®) and Tutopach(®). A report of 2 cases].

Clinical Case: We report 2 cases of patients affected by non-infectious corneal macroperforations treated with TachoSil(®) and Tutopach(®), which closed the defect.

Discussion: This procedure is an excellent choice for the emergency treatment of corneal perforation, especially in those centres that have no other therapeutic options, preserving the eye and visual acuity.