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10 mm to open the tips to 30.9 °. The results show that the tool can safely cauterize a porcine brain specimen at various settings on the electrosurgical unit, and increasing the setting increases the area of tissue affected by the electricity. Repeatability was demonstrated and exhaustion was reached after the tool was opened and closed 73 times. Future work will involve improving the current design to increase the number of cycles the tool can survive before losing function.Chronic pain affects both adolescent and adult Canadians. To study the effect of social rejection on pain management in adolescents with chronic pain, an algometer can be used in conjunction with functional Magnetic Resonance Imaging (fMRI) to measure brain activity in real time. The algometer uses an automated pneumatic control system that follows a customizable pain schedule, controlling the amount of airflow in and out of a pressure cuff wrapped around a human participant's thigh. Plastic components allow compatibility with an fMRI environment. Measurable pain stimuli allow repeatable pressure schedules to be administered with a standard deviation between trials of 300 Pa (2.25 mmHg). A Failure Mode Effects Analysis was used to reduce participant, researcher and facility harm, with multiple safety features incorporated into the design. Through the analysis of medical standards and studies, the algometer is shown to be biologically safe to use on research subjects within the suggested usage parameters of a maximum pressure of 42.6 kPa (320 mmHg) and a pressure application period of up to one hour. This makes it feasible for research studies using fMRI machines.Contrast sensitivity is a key visual ability for everyday tasks, as well as a potential indicator of important optical and neurological diseases. Current clinical standards, based on visual discrimination performance on printed charts, present problems that could be bypassed using electronic devices. This work describes the development of new tests for contrast sensitivity, based on the detection of a moving target on a computer screen and in virtual reality headset. It presents preliminary evaluation of these innovations by comparison of their performance, using healthy adults with normal vision and by artificially altering their contrast sensitivity. The results demonstrate consistent correlation between all test modalities explored.During vitreoretinal surgery, the surgeon is required to precisely manipulate multiple tools in a confined intraocular environment, while the tool tip to retina contact forces are at the limit of human sensation limits. During typical vitrectomy procedures, the surgeon inserts various tools through small incisions performed on the sclera of the eye (sclerotomies), and manipulates them to perform surgical tasks. During intraocular procedures, tool-tissue interactions occur at the sclerotomy ports and at the tool-tip when it contacts retina. Measuring such interactions may be valuable for providing force feedback necessary for robotic guidance. In this paper, we measure and analyze force measurements at the sclerotomy ports. To the best of our knowledge, this is the first time that the scleral forces are measured in an in vivo eye model. A force sensing instrument utilizing Fiber Bragg Grating (FBG) strain sensors was used to measure the scleral forces while two retinal surgeons performed intraocular tool manipulation (ITM) task in rabbit eyes as well as a dry phantom. The mean of the measured sclera forces were 129.11 mN and 80.45 mN in in vivo and dry phantom experiments, respectively.Pectus Arcuatum (PA) is a congenital chest wall deformity which produces a superior manubrial and sternal protrusion, particularly at the sternal angle. PA surgical correction to reduce the angle of the sternum always includes the removal of bone portion by means of horizontal sternal osteotomies, resection of deformed rib cartilage and finally stabilization of the anterior thoracic wall. Within this process an incorrect assessment of the sternotomy angle during the procedure may lead to the need for bone or cartilage grafts to fill the left voids. This problem has been addressed with a patient-specific cutting template, realized with Reverse Engineering and Additive Manufacturing techniques, which proved to be a key element to simplify the procedure and avoid the occurrence of this type of complications. SLF1081851 purchase In this work is presented and validated a procedure that, through common CAD operations, realizes in a completely automatic way the CAD model of the custom cutting template, so as to make non-expert users independent in the realization of the medical device.In dental hygienist education, many skills are taught that cannot be acquired without repeated training. To make this training more efficient, we need to measure the students' skills and show correction points in real-time. In this research, we focus on hand scaling work, which is one of the most important tasks of dental hygienists. We developed a measurement system to measure both the motion and force exerted during hand scaling work. This measured data can be used to quantitatively evaluate students' skills. In the experiment, we measured the hand scaling motion of several participants with different levels of job experience, including dental hygienist teachers, dental hygienists, and dental hygienist students. We showed that it is possible to extract from the measured results a quantitative index for discriminating different individual skills.Gender parity aims to the integration of women on equality of conditions in the major activities in society. Although the context under which the concept is generally used orients to the political sphere, female participation in leadership positions where decision-making has an essential impact on society extends to such important aspects as health and education. Due to the increasing importance that it has gained over the years, this paper presents an analysis of gender parity from education in Biomedical Engineering. The study focused on the participation of female students in the bachelor's admission processes from 2010 to 2019 at Universidad Autonoma Metropolitana in Mexico. We used statistical analysis as well as the adaptation of the gender parity index (GPI). The results show that the female average accepted students represent 41.82% of the total number of accepted aspirants. The analysis of the data and GPIs also show a slightly better behavior than the data reported by organizations such as UNESCO or OCDE.