Paper Title
Prostate Cancer Identification And Classification From Microscopy Scans Of Prostate Biopsy Samples Using Machine Learning Algorithms
Article Identifiers
Authors
Prajval V , Shubhashaya S.I
Keywords
Prostate cancer, Diagnostic, Imaging, and pathology, Microscopy scans
Abstract
This research explores how to apply machine learning (ML) to prostate MRI within the field of radiology (MRI). The fundamentals of machine learning (ML) and traditional rule-based algorithms are first covered, followed by a discussion of supervised, unsupervised, or reinforcement learning. In the last part of this article, the distinctive characteristics of deep learning (DL), an emerging kind of machine learning, are dissected in minute detail. Although ML and DL both possess the potential to really be employed for prostate MRI, the manner in which they accomplish this goal are different. Plain MRI is used in every one of the clinical contexts that are listed below. Detection and diagnosis of prostate cancer, as well as repeatability of location readings; differentiation of malignancies from benign hyperplasia associated with prostatitis; local staging or pre-treatment evaluation. The therapeutic applicability of these results seems to be promising; nevertheless, in order to fully appreciate their potential, more validation will be required across a variety of scanner manufacturers, field strengths, and institutions. Our healthcare systems are being transformed by artificial intelligence (AI), which refers to the ability of a computer to conduct out cognitive processes to attain a goal based on the information supplied. Artificial intelligence (AI) refers to a computer's ability to reason its way to a solution based on the data at hand. Artificial intelligence (AI) is defined as the capacity of a computer to perform cognitive activities in pursuit of a goal using just the information it has been supplied. Bioinformatics, medical imaging, but instead healthcare robotics are just a few examples of fields that have benefited from the widespread availability of powerful computers, sophisticated information processing algorithms, and cutting-edge image processing software capable of extremely fast processing speeds. This is the case for two reasons: first, as a consequence of a availability of ever-increasing computing capabilities, computer-based systems that are also trained to perform complicated things have emerged in. The development of AIs specifically designed to carry out such activities has made it possible for computer systems to assume such responsibilities. Computer-based systems that can be configured to do the aforementioned tasks have progressed to the point where they can actually perform those tasks. Having access to "big data" has made it possible for "cognitive" computers to sift through vast amounts of unstructured information, pull out the pertinent details, and confidently identify previously hidden patterns. Machine learning (ML)-based computerized decision-support systems may transform healthcare by performing challenging tasks now performed by specialists. The medical field would be forever altered if this were to happen. These responsibilities include, but are not limited to, reducing human resource costs, increasing throughput efficiency, optimizing clinical workflow, extending treatment alternatives, and strengthening diagnostic precision. These features may be particularly helpful in the diagnosis and treatment of prostate cancer, where they are increasingly being used in areas such as digital pathology, genomics, surgical procedures, competency assessment, and training and evaluation of surgical abilities. Urologists, oncologists, radiologists, and pathologists use imaging and pathology frequently and should be familiar with this emerging field. They should also be aware that the development of highly accurate AI-based decision-support applications of ML will necessitate the cooperation of data scientists, computer researchers, and engineers. The medical industry must advance in order to remain competitive. Specialties such as urology, oncology, radiology, and pathology make extensive use of imaging and pathology.
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How To Cite
"Prostate Cancer Identification And Classification From Microscopy Scans Of Prostate Biopsy Samples Using Machine Learning Algorithms", IJNRD - INTERNATIONAL JOURNAL OF NOVEL RESEARCH AND DEVELOPMENT (www.IJNRD.org), ISSN:2456-4184, Vol.8, Issue 1, page no.b500-b508, January-2023, Available :https://ijnrd.org/papers/IJNRD2301159.pdf
Issue
Volume 8 Issue 1, January-2023
Pages : b500-b508
Other Publication Details
Paper Reg. ID: IJNRD_186100
Published Paper Id: IJNRD2301159
Downloads: 000121127
Research Area: Engineering
Country: Bangalore, Karnataka, India
Published Paper PDF: https://ijnrd.org/papers/IJNRD2301159.pdf
Published Paper URL: https://ijnrd.org/viewpaperforall?paper=IJNRD2301159
About Publisher
Journal Name: INTERNATIONAL JOURNAL OF NOVEL RESEARCH AND DEVELOPMENT(IJNRD)
ISSN: 2456-4184 | IMPACT FACTOR: 8.76 Calculated By Google Scholar | ESTD YEAR: 2016
An International Scholarly Open Access Journal, Peer-Reviewed, Refereed Journal Impact Factor 8.76 Calculate by Google Scholar and Semantic Scholar | AI-Powered Research Tool, Multidisciplinary, Monthly, Multilanguage Journal Indexing in All Major Database & Metadata, Citation Generator
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