Bing Melody Zhang scite author profile

Bing Melody Zhang

3Publications

15Citation Statements Received

100Citation Statements Given

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Affiliations

Stanford University, Palo Alto University, Stanford Blood Center

Publications

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Detection of Circulating Tumor DNA with a Single-Molecule Sequencing Analysis Validated for Targeted and Immunotherapy Selection

Atkins¹,

Gupta²,

Zhang

et al. 2019

Mol Diagn Ther

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Introduction Comprehensive genetic cancer profiling using circulating tumor DNA has enabled the detection of National Comprehensive Cancer Network (NCCN) guideline-recommended somatic alterations from a single, non-invasive blood draw. However, reliably detecting somatic variants at low variant allele fractions (VAFs) remains a challenge for next-generation sequencing (NGS)-based tests. We have developed the single-molecule sequencing (SMSEQ) platform to address these challenges. Methods The OncoLBx assay utilizes the SMSEQ platform to optimize cell-free DNA extraction and library preparation with variant type-specific calling algorithms to improve sensitivity and specificity. OncoLBx is a pan-cancer panel for solid tumors targeting 75 genes and five microsatellite sites analyzing five classes of NCCN-recommended somatic variants: single-nucleotide variants (SNVs), insertions and deletions (indels), copy number variants (CNVs), fusions and microsatellite instability (MSI). Circulating DNA was extracted from plasma, followed by library preparation using SMSEQ. Analytical validation was performed according to recently published American College of Medical Genetics and Genomics (ACMG)/Association for Molecular Pathology (AMP) guidelines and established the limit of detection (LOD), sensitivity, specificity, accuracy and reproducibility using 126 gold-standard reference samples, healthy donor samples verified by whole-exome sequencing by an external College of American Pathologists (CAP) reference lab and cell lines with known variants. Results were analyzed using a locus-specific modeling algorithm. Results We have demonstrated that OncoLBx detects VAFs of ≥ 0.1% for SNVs and indels, ≥ 0.5% for fusions, ≥ 4.5 copies for CNVs and ≥ 2% for MSI, with all variant types having specificity ≥ 99.999%. Diagnostic performance of paired samples displays 80% sensitivity and > 99.999% clinical specificity. Clinical utility and performance were assessed in 416 solid tumor samples. Variants were detected in 79% of samples, for which 87.34% of positive samples had available targeted therapy. Electronic supplementary material The online version of this article (10.1007/s40291-019-00406-0) contains supplementary material, which is available to authorized users.

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Next‐generation sequencing confirms T‐cell clonality in a subset of pediatric pityriasis lichenoides

et al. 2021

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Background Pityriasis lichenoides (PL) is a papulosquamous disease that affects both adults and children. Previous studies have shown a subset of this entity to have clonal T‐cell populations via PCR‐based assays. In this study, we sought to implement next‐generation sequencing (NGS) as a more sensitive and specific test to examine for T‐cell clonality within the pediatric population. Methods We identified 18 biopsy specimens from 12 pediatric patients with clinical and histopathologic findings compatible with PL. Patient demographics, clinical features, management, and histopathologic findings were reviewed. All specimens were analyzed for clonality with NGS of T‐cell receptor beta (TRB) and gamma (TRG) genes. Results Of the 12 patients, 9 (75%) had complete resolution of lesions at the time of data collection (mean follow‐up 31 months). The remaining three patients significantly improved with methotrexate (with or without acitretin). Interestingly, 7 of 12 patients (58%) and 9 of 17 biopsy specimens (53%) showed evidence of T‐cell clonality. Two patients showed matching TRB clones from different anatomic sites. Conclusions T‐cell clonality is a common finding in PL, probably representing a “reactive clonality” rather than a true lymphoproliferative disorder. Clonality alone cannot be used as a means to distinguish PL from lymphomatoid papulosis or cutaneous lymphoma.

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Assessment by Extended-Coverage Next-Generation Sequencing Typing of DPA1 and DPB1 Mismatches in Siblings Matching at HLA-A, -B, -C, -DRB1, and -DQ Loci

Mariano

Zhang

Osoegawa

et al. 2019

Biology of Blood and Marrow Transplantation

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Allogeneic hematopoietic stem cell transplant from an HLA matched sibling donor is usually the preferable choice. The use of next-generation sequencing (NGS) for HLA typing in clinical practice provides broader coverage and higher resolution of HLA genes. We evaluated the frequency of DPB1 crossing-over events among patients and potential related donors typed with NGS. From July 2016 to January 2018, 593 patients and 2385 siblings were typed. We evaluated sibling matching status in 546 patients, and 44.8% of these patients had siblings that matched at HLA-A,-B,-C,-DRB1, and-DQB1 loci. In 306 patientÀHLA matched sibling pairs, we found 6 pairs (1.96%) with 1 DPB1 mismatch, and 5 of these pairs included an additional mismatch in DPA1. No additional mismatches were observed at the low expression loci. Using the T cell epitope algorithm, 4 of these DP mismatches were classified as permissive, 1 as nonpermissive in the host-versus-graft direction, and 1 as nonpermissive in the graft-versushost direction. The frequency of DPB1 and DPA1 mismatches is low, and their impact in related donor transplants is not well established. Although DP typing in related transplants goes beyond guidelines, it is especially relevant for sensitized patients. NGS-based HLA typing provides full gene coverage, and its use in clinical practice can enable better donor selection.

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