Early Predictor Tool of Disease Using Label-Free Liquid Biopsy-Based Platforms for Patient-Centric Healthcare

Li, Wei; Zhou, Yunli; Deng, Yanlin; Khoo, Bee Luan

doi:10.3390/cancers14030818

Cited by 7 publications

(9 citation statements)

References 41 publications

(78 reference statements)

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“…Circulating tumor cells (CTCs) shredded from the primary and secondary tumors can also be detected from liquid blood or urine biopsies (4-7). The cancer cells can be further utilized to generate human-derived tumor models for drug efficacy and high throughput screening assessment (8,9). In 2004, FDA approved an assay using magnetophoretic separation using ferromagnetic microparticles with antibodies targeting epithelial markers for clinical use (Cellsearch) (10).…”

Section: Multiple-cancer Early-detection Testsmentioning

confidence: 99%

“…A multiple-cancer detection blood test (Galleri) has also been commercialized (2). There are also efforts to introduce label-free technologies to identify patients at high cancer risk based on proliferative capabilities (9), biochemical cues (11), and physical attributes (4) to complement conventional screens with automated analysis for robust and high throughput screening (8). However, since its introduction, many cancer specialists warn that we might not be ready to endorse these new cancer detection tests.…”

Section: Multiple-cancer Early-detection Testsmentioning

confidence: 99%

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Are we ready to endorse new multiple cancer early-detection tests?

WONG¹,

KHOO²

2023

World J. Adv. Res. Rev.

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Cancer detection tests open a new era of developing cancer markers, allowing early detection and improving cancer treatments. Existing cancer detection technologies, for example, CA125, CA 19.9, CT, MRI, and others, are either not highly sensitive or specific enough for early detection. Recent technological development of “liquid biopsy” research led to more sensitive biomarkers. Newly developed multiple-cancer early-detection tests can screen up to multiple cancers in asymptomatic individuals with one blood draw. These tests, however, might pose significant challenges in our clinical practice. This paper highlights the issues we face and how to solve their problems.

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Section: Multiple-cancer Early-detection Testsmentioning

confidence: 99%

Section: Multiple-cancer Early-detection Testsmentioning

confidence: 99%

Are we ready to endorse new multiple cancer early-detection tests?

WONG¹,

KHOO²

2023

World J. Adv. Res. Rev.

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“…Indeed, the information that can be gleaned from these techniques is intrinsically linked to the separation methodologythis has knock-on effects for disease diagnosis and prognosis. 167,168 Traditionally, isolation of cells and cellular products (such as extracellular vesicles) from complex tissue samples has relied on mechanical methods such as centrifugation and filtration, or fluorescence/magnetic-activated sorting performed using complex and expensive instrumentation. [169][170][171] Unsurprisingly, over the last two decades there has been much interest in applying microfluidic technologies to cell sorting, by employing passive, active or immunoaffinity-based approaches.…”

Section: Cytology and Hematologymentioning

confidence: 99%

“…Indeed, the information that can be gleaned from these techniques is intrinsically linked to the separation methodology – this has knock-on effects for disease diagnosis and prognosis. 167,168…”

Section: Integrated Systemsmentioning

confidence: 99%

Simplifying the complex: accessible microfluidic solutions for contemporary processes within in vitro diagnostics

et al. 2022

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“…However, in the last decade, an increasing attention has been focused on techniques for the detection and isolation of the CTCs [12][13][14] , including label-free approaches and microfluidic inspection systems [15][16][17] . Recently, new perspectives have been foreseen in finding new strategies based on intelligent lab-on-a-chip for detecting tumor cells 18 .…”

mentioning

confidence: 99%

Label-free liquid biopsy through the identification of tumor cells by machine learning-powered tomographic phase imaging flow cytometry

Pirone

Montella

Sirico

et al. 2023

Sci Rep

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Image-based identification of circulating tumor cells in microfluidic cytometry condition is one of the most challenging perspectives in the Liquid Biopsy scenario. Here we show a machine learning-powered tomographic phase imaging flow cytometry system capable to provide high-throughput 3D phase-contrast tomograms of each single cell. In fact, we show that discrimination of tumor cells against white blood cells is potentially achievable with the aid of artificial intelligence in a label-free flow-cyto-tomography method. We propose a hierarchical machine learning decision-maker, working on a set of features calculated from the 3D tomograms of the cells’ refractive index. We prove that 3D morphological features are adequately distinctive to identify tumor cells versus the white blood cell background in the first stage and, moreover, in recognizing the tumor type at the second decision step. Proof-of-concept experiments are shown, in which two different tumor cell lines, namely neuroblastoma cancer cells and ovarian cancer cells, are used against monocytes. The reported results allow claiming the identification of tumor cells with a success rate higher than 97% and with an accuracy over 97% in discriminating between the two cancer cell types, thus opening in a near future the route to a new Liquid Biopsy tool for detecting and classifying circulating tumor cells in blood by stain-free method.

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Early Predictor Tool of Disease Using Label-Free Liquid Biopsy-Based Platforms for Patient-Centric Healthcare

Cited by 7 publications

References 41 publications

Are we ready to endorse new multiple cancer early-detection tests?

Are we ready to endorse new multiple cancer early-detection tests?

Simplifying the complex: accessible microfluidic solutions for contemporary processes within in vitro diagnostics

Label-free liquid biopsy through the identification of tumor cells by machine learning-powered tomographic phase imaging flow cytometry

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