A new biomarker panel of ultraconserved long non-coding RNAs for bladder cancer prognosis by a machine learning based methodology

Ciaramella, Angelo; Nardo, Emanuel Di; Terracciano, Daniela; Conte, Lia; Febbraio, Ferdinando; Cimmino, Amelia

doi:10.1186/s12859-023-05167-6

Cited by 4 publications

(1 citation statement)

References 26 publications

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“…Zambalde et al presented two panels of T-UCRs as diagnostic biomarkers for breast cancer and a third panel that distinguished with high sensitivity and specificity luminal A from triplenegative patients [87]. Finally, we come to studies such as that by Ciaramella et al in which the authors propose a new biomarker panel of T-UCRs using machine learning techniques [97]. This signature panel of 13 T-UCRs is able to efficiently discriminate between normal and bladder cancer patient samples or patients with different survival extents, identifying sub-types of bladder cancer patients with different prognoses regardless of cancer grade.…”

Section: Clinical Significance Of T-ucrs In Cancer and Other Diseasesmentioning

confidence: 88%

Transcribed-Ultra Conserved Regions (T-UCRs) a New Light on a Dark Matter

Radanova

2024

Genetics

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Transcribed Ultra-Conserved Regions (T-UCRs) are a novel class of long non-coding RNAs derived from Ultra-Conserved Regions (UCRs) of DNA. The discovery of cancer-specific mutations in UCRs and their location in cancer-associated genomic regions suggests that T-UCRs also play a role in carcinogenesis. However, the mechanisms behind their actions remain unclear. Their interactions with microRNAs are not well understood and are currently a subject of debate. Like other non-coding RNAs, T-UCRs exhibit tissue- and disease-specific expression, making them promising candidates for biomarkers or therapeutic targets in cancer and other diseases. This chapter aims to review the current knowledge on the functional effects of T-UCRs in cancer and other diseases, discuss the role of T-UCRs as regulators and regulated, and present their potential as disease monitoring biomarkers.

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Section: Clinical Significance Of T-ucrs In Cancer and Other Diseasesmentioning

confidence: 88%

Transcribed-Ultra Conserved Regions (T-UCRs) a New Light on a Dark Matter

Radanova

2024

Genetics

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Assessment of Prostate and Bladder Cancer Genomic Biomarkers Using Artificial Intelligence: a Systematic Review

Bazarkin,

Morozov,

Androsov

et al. 2023

Curr Urol Rep

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Artificial intelligence application in the diagnosis and treatment of bladder cancer: advance, challenges, and opportunities

Ma,

Zhang,

et al. 2024

Front. Oncol.

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Bladder cancer (BC) is a serious and common malignant tumor of the urinary system. Accurate and convenient diagnosis and treatment of BC is a major challenge for the medical community. Due to the limited medical resources, the existing diagnosis and treatment protocols for BC without the assistance of artificial intelligence (AI) still have certain shortcomings. In recent years, with the development of AI technologies such as deep learning and machine learning, the maturity of AI has made it more and more applied to the medical field, including improving the speed and accuracy of BC diagnosis and providing more powerful treatment options and recommendations related to prognosis. Advances in medical imaging technology and molecular-level research have also contributed to the further development of such AI applications. However, due to differences in the sources of training information and algorithm design issues, there is still room for improvement in terms of accuracy and transparency for the broader use of AI in clinical practice. With the popularization of digitization of clinical information and the proposal of new algorithms, artificial intelligence is expected to learn more effectively and analyze similar cases more accurately and reliably, promoting the development of precision medicine, reducing resource consumption, and speeding up diagnosis and treatment. This review focuses on the application of artificial intelligence in the diagnosis and treatment of BC, points out some of the challenges it faces, and looks forward to its future development.

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A new biomarker panel of ultraconserved long non-coding RNAs for bladder cancer prognosis by a machine learning based methodology

Cited by 4 publications

References 26 publications

Transcribed-Ultra Conserved Regions (T-UCRs) a New Light on a Dark Matter

Transcribed-Ultra Conserved Regions (T-UCRs) a New Light on a Dark Matter

Assessment of Prostate and Bladder Cancer Genomic Biomarkers Using Artificial Intelligence: a Systematic Review

Artificial intelligence application in the diagnosis and treatment of bladder cancer: advance, challenges, and opportunities

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