Dhruvajyoti Roy scite author profile

The limited performance of guideline-recommended abdominal ultrasound and serum alpha-fetoprotein (AFP) highlights the urgent, unmet need for new biomarkers for more accurate detection of early hepatocellular carcinoma (HCC). To this end, we have conducted a prospective clinical validation study to evaluate the performance of the HelioLiver Test, a multi-analyte blood test combining cell-free DNA methylation patterns, clinical variables, and protein tumor markers. A blinded, multicenter validation study was performed with 247 subjects, including 122 subjects with HCC and 125 control subjects with chronic liver disease. The performance of the HelioLiver Test was compared with AFP and the GALAD score as established HCC surveillance blood tests. The performance of the HelioLiver Test (area under the receiver operating characteristic curve [AUROC] = 0.944) was superior to both AFP (AUROC

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“Seeing and Counting” Individual Antigens Captured on a Microarrayed Spot with Force-Based Atomic Force Microscopy

Roy

Kwon

Kwak

et al. 2010

Anal. Chem.

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The mapping capability of atomic force microscopy (AFM) enabled us to see captured prostate-specific antigens (PSAs) on a spot microarrayed with the corresponding antibody and count the number of the antigens in a submicrometer area. To enhance the reliability and the reproducibility of the approach, a third-generation dendron was employed for the surface treatment. The specific force between the captured PSA and the detection antibody (5A6) was measured after cross-linking, and the mean unbinding force was 56 +/- 2 pN. At 100 fM, there were 12 captured antigens in 4.32 x 10(4) nm(2), and the number was dependent upon the concentration. A larger hydrodynamic distance (8 +/- 2 nm) of the immunocomplex resulted in a cluster of pixels corresponding to the single complex in a map recorded over a selected area with a positional interval of 3 nm, and this feature helped to discriminate between pixels of the specific interaction and the nonspecific ones. The results indicate that the approach can be applicable to the quantitative analysis of the antigen in a sample and imply that it can be extended to a sample of very low copy numbers as long as the size of the microarrayed spot is reduced.

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Quantification of Fewer than Ten Copies of a DNA Biomarker without Amplification or Labeling

Lee¹,

Kim²,

Lee³

et al. 2016

J. Am. Chem. Soc.

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Polymerase chain reaction (PCR) is a highly sensitive diagnosis technique for detection of nucleic acids and for monitoring residual disease; however, PCR can be unreliable for samples containing very few target molecules. Here, we describe a quantification method, using force-distance (FD) curve based atomic force microscopy (AFM) to detect a target DNA bound to small (1.4-1.9 μm diameter) probe DNA spots, allowing mapping of entire spots to nanometer resolution. Using a synthetic BCR-ABL fusion gene sequence target, we examined samples containing between one and 10 target copies. A high degree of correlation (r(2) = 0.994) between numbers of target copies and detected probe clusters was observed, and the approach could detect the BCR-ABL biomarker when only a single copy was present, although multiple screens were required. Our results clearly demonstrate that FD curve-based imaging is suitable for quantitative analysis of fewer than 10 copies of DNA biomarkers without amplification, modification, or labeling.

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The Potential of Aptamer-Mediated Liquid Biopsy for Early Detection of Cancer

Roy¹,

Pascher

Juratli

et al. 2021

IJMS

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The early detection of cancer favors a greater chance of curative treatment and long-term survival. Exciting new technologies have been developed that can help to catch the disease early. Liquid biopsy is a promising non-invasive tool to detect cancer, even at an early stage, as well as to continuously monitor disease progression and treatment efficacy. Various methods have been implemented to isolate and purify bio-analytes in liquid biopsy specimens. Aptamers are short oligonucleotides consisting of either DNA or RNA that are capable of binding to target molecules with high specificity. Due to their unique properties, they are considered promising recognition ligands for the early detection of cancer by liquid biopsy. A variety of circulating targets have been isolated with high affinity and specificity by facile modification and affinity regulation of the aptamers. In this review, we discuss recent progress in aptamer-mediated liquid biopsy for cancer detection, its associated challenges, and its future potential for clinical applications.

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Dhruvajyoti Roy

Diagnostic Power of DNA Methylation Classifiers for Early Detection of Cancer

A multi‐analyte cell‐free DNA–based blood test for early detection of hepatocellular carcinoma

“Seeing and Counting” Individual Antigens Captured on a Microarrayed Spot with Force-Based Atomic Force Microscopy

Quantification of Fewer than Ten Copies of a DNA Biomarker without Amplification or Labeling

The Potential of Aptamer-Mediated Liquid Biopsy for Early Detection of Cancer

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