Department of Pharmacy, University of Pisa Via Bonanno 6 56126 Pisa Italy giulia.bononi@farm.unipi.it valentina.citi@unipi.it alma.martelli@unipi.it giulio.poli@unipi.it tiziano.tuccinardi@unipi.it carlotta.granchi@unipi.it lara.testai@unipi.it vincenzo.calderone@unipi.it filippo.minutolo@unipi.it.
Department of Pharmacy, University of Pisa Via Bonanno 6 56126 Pisa Italy giulia.bononi@farm.unipi.it valentina.citi@unipi.it alma.martelli@unipi.it giulio.poli@unipi.it tiziano.tuccinardi@unipi.it carlotta.granchi@unipi.it lara.testai@unipi.it vincenzo.calderone@unipi.it filippo.minutolo@unipi.it.
Department of Pharmacy, University of Pisa Via Bonanno 6 56126 Pisa Italy giulia.bononi@farm.unipi.it valentina.citi@unipi.it alma.martelli@unipi.it giulio.poli@unipi.it tiziano.tuccinardi@unipi.it carlotta.granchi@unipi.it lara.testai@unipi.it vincenzo.calderone@unipi.it filippo.minutolo@unipi.it.
Center for Instrument Sharing of the University of Pisa (CISUP) Lungarno Pacinotti 43 56126 Pisa Italy.
Department of Pharmacy, University of Pisa Via Bonanno 6 56126 Pisa Italy giulia.bononi@farm.unipi.it valentina.citi@unipi.it alma.martelli@unipi.it giulio.poli@unipi.it tiziano.tuccinardi@unipi.it carlotta.granchi@unipi.it lara.testai@unipi.it vincenzo.calderone@unipi.it filippo.minutolo@unipi.it.
Department of Pharmacy, University of Pisa Via Bonanno 6 56126 Pisa Italy giulia.bononi@farm.unipi.it valentina.citi@unipi.it alma.martelli@unipi.it giulio.poli@unipi.it tiziano.tuccinardi@unipi.it carlotta.granchi@unipi.it lara.testai@unipi.it vincenzo.calderone@unipi.it filippo.minutolo@unipi.it.
Center for Instrument Sharing of the University of Pisa (CISUP) Lungarno Pacinotti 43 56126 Pisa Italy.
Department of Pharmacy, University of Pisa Via Bonanno 6 56126 Pisa Italy giulia.bononi@farm.unipi.it valentina.citi@unipi.it alma.martelli@unipi.it giulio.poli@unipi.it tiziano.tuccinardi@unipi.it carlotta.granchi@unipi.it lara.testai@unipi.it vincenzo.calderone@unipi.it filippo.minutolo@unipi.it.
Center for Instrument Sharing of the University of Pisa (CISUP) Lungarno Pacinotti 43 56126 Pisa Italy.
Department of Pharmacy, University of Pisa Via Bonanno 6 56126 Pisa Italy giulia.bononi@farm.unipi.it valentina.citi@unipi.it alma.martelli@unipi.it giulio.poli@unipi.it tiziano.tuccinardi@unipi.it carlotta.granchi@unipi.it lara.testai@unipi.it vincenzo.calderone@unipi.it filippo.minutolo@unipi.it.
Center for Instrument Sharing of the University of Pisa (CISUP) Lungarno Pacinotti 43 56126 Pisa Italy.
Department of Pharmacy, University of Pisa Via Bonanno 6 56126 Pisa Italy giulia.bononi@farm.unipi.it valentina.citi@unipi.it alma.martelli@unipi.it giulio.poli@unipi.it tiziano.tuccinardi@unipi.it carlotta.granchi@unipi.it lara.testai@unipi.it vincenzo.calderone@unipi.it filippo.minutolo@unipi.it.
Center for Instrument Sharing of the University of Pisa (CISUP) Lungarno Pacinotti 43 56126 Pisa Italy.
Department of Pharmacy, University of Pisa Via Bonanno 6 56126 Pisa Italy giulia.bononi@farm.unipi.it valentina.citi@unipi.it alma.martelli@unipi.it giulio.poli@unipi.it tiziano.tuccinardi@unipi.it carlotta.granchi@unipi.it lara.testai@unipi.it vincenzo.calderone@unipi.it filippo.minutolo@unipi.it.
Center for Instrument Sharing of the University of Pisa (CISUP) Lungarno Pacinotti 43 56126 Pisa Italy.
Department of Animal Sciences, The Robert H. Smith Faculty of Agriculture, Food and Environment, The Hebrew University of Jerusalem, Rehovot 761001, Israel.
School of Pharmaceutical Science and Technology, Hangzhou Institute for Advanced Study, University of Chinese Academy of Sciences, Hangzhou 310024, China.
State Key Laboratory of Chemical Biology, Shanghai Institute of Materia Medica, Chinese Academy of Sciences, Shanghai 201203, China.
Through the information exchange of the Internet of Things, resources in multiple fields can be integrated to provide users with more comprehensive, diverse, and high-quality services. The computer mo...
(1) The "Systematic Review Support" system has a high degree of perceived usability....
(2) Its use facilitates the exclusion of duplicate references and the selection of studies....
(3) Remote and synchronous usability testing made research possible during the pandemic....
(4) Combining usability techniques made it possible to identify the necessary adjustments....
(5) The method used expanded the test's capacity in a real context of use....
to evaluate the usability of the "Systematic Review Support" computer system....
methodological study involving 21 students who evaluated the computer system in a remote and synchronous usability test. Two activities were carried out, containing 21 tasks simulating the initial ste...
in a total of 21 tasks, the participants had an assisted completion rate of 9% and an average time of 55.1 minutes (the expected time being 60 minutes). The average score provided by the System Usabil...
the computer system has the effectiveness and efficiency parameters required of a computer review tool. It has a usability score of 82.4 on a scale of 0 to 100 assessed by the System Usability Scale i...
With the progress of society and the rapid development of science and technology, computer translation technology has become an important auxiliary tool in the fields of software localization and tech...
Several research that assesses, or assess computer systems has been undertaken in previous decades. Choosing an appropriate DBMS system in a computer application, though, was never completely arbitrar...
With the continuous development of Internet of Things technology, this technology is not limited to the laboratory but is more and more applied in the process of commercialization. Large-scale machine...
The Neural Clinical Score for tuberculosis (NCS-TB) is a computer system developed to improve the triage of presumed pulmonary TB (pPTB)....
A study was performed with cohorts of pPTB patients cared for at a reference hospital in Northeast Brazil....
The NCS-TB sensitivity was 76.5% for TB diagnosis, which shortened the time from triage to smear microscopy results (3.3 to 2.5 days; p<0.001) and therapy initiation (6.7 to 4.1 days; p=0.045)....
Although the NCS-TB was not suitable as a screening tool, it was able to optimize laboratory diagnosis and shorten the time to treatment initiation....
The purpose of this systematic review is to synthesize the existing literature reporting the effects of computerized cognitive trainings on the executive functions of children with ADHD....
A systematic review was carried out following the PRISMA statement; the primary sources used were five electronic databases (Scopus, Science Direct, Pubmed, Springer, Taylor & Francis)....
20 articles met the eligibility criteria, data on the training characteristics and the effects on executive functions were extracted, followed by an analysis of bias and the methodological quality of ...
Some training based on computer systems showed positive effects on the executive functions of working memory, attention, and inhibitory control in children with ADHD. However, other training sessions ...
Ternary Optical Computer (TOC) is more advanced than traditional computer systems in parallel computing, which is characterized by huge amounts of repeated computations. However, the application of th...
The discovery of entorhinal grid cells has generated considerable interest in how and why hexagonal firing fields might emerge in a generic manner from neural circuits, and what their computational si...
Capsule endoscopy (CE) is a widely used medical imaging tool for the diagnosis of gastrointestinal tract abnormalities like bleeding. However, CE captures a huge number of image frames, constituting a...
