https://www.selleckchem.com/products/ver155008.html Results Optimum conditions of intermittent field (ON/OFF 50/100 in s, Duty Cycle 33%, magnetic field 45mT) are then examined in ex-vivo samples verifying the successful suppression of eddy currents. Simultaneously, a well-elaborated theoretical approach provides a rapid calculation of temperature increase and, furthermore, the ability to quickly simulate a variety of duty cycle times and field controls may save experimental time.Conclusion Eventually, the application of an intermittent field mode in a magnetic particle hyperthermia protocol, succeeds in eddy current mitigation in surrounding tissues and allows for the application of larger field amplitudes that may augment hyperthermia efficiency without objecting typical biomedical applicability field constraints such as Brezovich criterion.This report outlines an exploratory study that investigated whether the "Never Events" system - first used in healthcare contexts to identify and investigate preventable incidents that cause serious harm or death as a result of human error - could be adapted in the context of UK multi-agency child protection. Using a sequential design, two online surveys were carried out that explored practitioners' (n = 46) views about the feasibility of adopting the Never Events model and what, if any, incidents or events could be investigated plausibly using such a model. Practitioners were drawn from a purposive sample. An inter-disciplinary panel of senior practitioners - drawn from nursing, public health, social work and child mental health services- discussed the surveys' findings and the list of proposed child protection Never Events. The findings indicate that the complex, judgment-based nature of child protection contributes to difficulties creating shared understandings about what constitutes harm and the extent to which multi-agency systems can share decision-making and responsibility for the way they identify and support families.