Receive a weekly summary and discussion of the top papers of the week by leading researchers in the field.

In Journal of neurosurgery ; h5-index 64.0

Big data has transformed into a trend phrase in healthcare and neurosurgery, becoming a pervasive and inescapable phrase in everyday life. The upsurge in big data applications is a direct consequence of the drastic boom in information technology as well as the growing number of internet-connected devices called the Internet of Things in healthcare. Compared with business, marketing, and other sectors, healthcare applications are lagging due to a lack of technical knowledge among healthcare workers, technological limitations in acquiring and analyzing the data, and improper governance of healthcare big data. Despite these limitations, the medical literature is flooded with big data-related articles, and most of these are filled with abstruse terminologies such as machine learning, artificial intelligence, artificial neural network, and algorithm. Many of the recent articles are restricted to neurosurgical registries, creating a false impression that big data is synonymous with registries. Others advocate that the utilization of big data will be the panacea to all healthcare problems and research in the future. Without a proper understanding of these principles, it becomes easy to get lost without the ability to differentiate hype from reality. To that end, the authors give a brief narrative of big data analysis in neurosurgery and review its applications, limitations, and the challenges it presents for neurosurgeons and healthcare professionals naive to this field. Awareness of these basic concepts will allow neurosurgeons to understand the literature regarding big data, enabling them to make better decisions and deliver personalized care.

Raju Bharath, Jumah Fareed, Ashraf Omar, Narayan Vinayak, Gupta Gaurav, Sun Hai, Hilden Patrick, Nanda Anil

2020-Oct-02

AI = artificial intelligence, ANN = artificial neural network, EHR = electronic health record, IoT = Internet of Things, algorithm, artificial intelligence, artificial neural network, big data, deep learning, machine learning, robotics