Gurinder Singh1,2. 1. The University of Kansas Medical Center, Kansas City, KS, USA. 2. The University of Missouri-Kansas City Medical Center, Kansas City, MO, USA.
Terminology used in computer sciences has gradually made in-roads into medical sciences (1-4). In the recent past, especially, during the last two three decades, computers and artificial intelligence (AI) has exponentially grown into almost every aspect of human life. Physical and clinical examination to derive inferences by trained human being is being fast replaced by computer gathered data and analysis. Such an example is the article by Li et al. (1) where the data analysis and the terminology used is computer based. I subtly suggested to the authors to change (or elaborate on) the terms used in the manuscript but they have continued to prefer the terms which are widely ‘accepted’ in published literature. These terms are commonly used and understood in the medical research field but need to be understood, I feel, by clinicians for application in day-to-day practice of medicine. I was not surprised to find out that medical students, residents in training and even clinical practitioners were not fully informed about such terms. That made me put together the following commentary that, I hope, will facilitate readers not familiar with the ‘borrowed’ terminology to make better sense of the article.Since the concept was introduced in 1950s, most of us are familiar with the term ‘AI’. AI is computer generated information (intelligence) where computers are made to think and reason in a way ‘similar’ to human brain. Software programs are developed and fed to the computers for data analysis and derive inferences from it.That leads us to the term “machine learning”. Machine learning is making the machines (computers) be able to think and learn without explicitly programming for each and every step of data analysis.It is further refined to make “deep learning”. Deep learning is the learning of a computer to analyze raw data fed to it and reach at some algorithm(s). That information is checked for accuracy (or inaccuracy) by human being. The refined data is further fed to the next ‘neural layer’ of ‘the computer’ (not neural layer of human brain) for better analysis, rechecked for accuracy (or inaccuracy) and fed to next neural layer of computer and so on; going deeper and deeper into the ‘computer brain’ for better and more refined data analysis. Deep learning is refining and improving the process of machines (computers) learn new things, and mimic how human brain learns new information.Now we reach at the next term called “ground truth”. Ground truth is the term used in analyzing ‘satellite’ generated imagery of a particular location on the ground. Data gathered by satellite is compared with the ‘true information of materials and features on the ground’ gathered by human being. This term has been used in the published literature and in this referenced article (1) to compare the data gathered by the used technology with the ‘true’ information of the choroidal thickness as determined by clinical information, optical coherence tomography (OCT) or otherwise.More and more published literature is accumulating in ophthalmic journals using these words and such terminology. Therefore, it becomes ‘imperative’ for the authors to explain and elaborate on such terminology, which is relatively new in medicine but making inroads in medical field. I hope this above explanation would facilitate the readers not familiar with the terminology to better understand the article(s).The article’s supplementary files as