Teaching precision farming and entrepreneurship for European students: Sparkle online course

Within the framework of the European project named ‘SPARKLE’, an online course was created after studying educational needs on precision agriculture (PA), state of the art of technologies and a prospective study of the commercial sector. Five educational and research institutions, high-tech farms and enterprises specializing in technology transfer created the syllabus of the course and the platform contents. The course was designed to provide 30 h of student dedication, via online presentations, documents and videos for each topic. A free pilot course started in April 2020 and 385 students from Italy, Portugal, Greece & Spain enrolled. To trace performance and acquisition of competences, questionnaires were completed by students for each topic and a final overall test. Students’ opinions about the course were also registered using anonymous polls, and results evaluated, to be able to enhance the Sparkle course for subsequent editions. Students also took part in a business model competition, to solve real challenges proposed by farms, related to the use of these technologies

A novel lamina/cmutationinafamilywith dilated cardiomyopathy andastrong history of sudden cardiac death

Diseases related to lamin A/C mutations (laminopathies) are extremely heterogeneous. The common cardiac phenotype is idiopathic dilated cardiomyopathy with atrioventricular block and/or arrhythmias. Moreover, patients with lamin A/C gene mutations are at increased risk for sudden cardiac death. Here we present a family with a strong positive history of sudden cardiac death in presence of idiopathic dilated cardiomyopathy and cardiac conduction abnormalities, related to a novel lamin A/C mutation in exon 3

LESM: a laser-driven sub-MeV electron source delivering ultra-high dose rate on thin biological samples

We present a laser-driven source of electron bunches with average energy 260 keV and picosecond duration, which has been setup for radiobiological tests covering the previously untested sub-MeV energy range. Each bunch combines high charge with short duration and sub-millimeter range into a record instantaneous dose rate, as high as 10(9) Gy s(-1). The source can be operated at 10 Hz and its average dose rate is 35 mGy s(-1). Both the high instantaneous dose rate and high level of relative biological effectiveness, attached to sub-MeV electrons, make this source very attractive for studies of ultrafast radiobiology on thin cell samples. The source reliability, in terms of shot-to-shot stability of features such as mean energy, bunch charge and transverse beam profile, is discussed, along with a dosimetric characterization. Finally, a few preliminary biological tests performed with this source are presented