Circulating Cell Free DNA as the Diagnostic Marker for Ovarian Cancer: A Systematic Review and Meta-Analysis

Zhou, Quan; Li, Wei; Leng, Bingjie; Zheng, Wenfei; He, Ze; Zuo, Mingzhang; Chen, Aihua

doi:10.1371/journal.pone.0155495

Cited by 61 publications

(60 citation statements)

References 42 publications

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“…Regarding temporal heterogeneity, some studies of high-grade ovarian serous cancer show that most clonal characteristics evident in recurrent or metastatic disease are present as subclonal populations within the primary tumor [40,49,52], although one study showed evidence of ongoing tumor evolution [51]. In this context, it is worth noting that assays for sequencing tumor cell-free circulating DNA from the bloodstream, while still evolving, have the potential to detect ovarian cancer at an early stage, to provide simultaneous genomic information on multiple tumor foci and to reveal ongoing changes in tumor genomic characteristics that occur following surgery and subsequent therapy, thereby circumventing many of the limitations imposed by direct sampling of heterogeneous tumors [54]. In addition, next-generation/high throughput sequencing studies of STIC specimens may provide an opportunity to uncover molecular processes involved in tumorigenesis and the development of tumor heterogeneity in the setting of high-grade serous ovarian cancer [7].…”

Section: Ovarian Cancer As a Heterogeneous Diseasementioning

confidence: 99%

Molecular Characterization of Epithelial Ovarian Cancer: Implications for Diagnosis and Treatment

Rojas

Hirshfield

Ganesan

et al. 2016

IJMS

191

177

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Epithelial ovarian cancer is a highly heterogeneous disease characterized by multiple histological subtypes. Molecular diversity has been shown to occur within specific histological subtypes of epithelial ovarian cancer, between different tumors of an individual patient, as well as within individual tumors. Recent advances in the molecular characterization of epithelial ovarian cancer tumors have provided the basis for a simplified classification scheme in which these cancers are classified as either type I or type II tumors, and these two categories have implications regarding disease pathogenesis and prognosis. Molecular analyses, primarily based on next-generation sequencing, otherwise known as high-throughput sequencing, are allowing for further refinement of ovarian cancer classification, facilitating the elucidation of the site(s) of precursor lesions of high-grade serous ovarian cancer, and providing insight into the processes of clonal selection and evolution that may be associated with development of chemoresistance. Potential therapeutic targets have been identified from recent molecular profiling studies of these tumors, and the effectiveness and safety of a number of specific targeted therapies have been evaluated or are currently being studied for the treatment of women with this disease.

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Section: Ovarian Cancer As a Heterogeneous Diseasementioning

confidence: 99%

Molecular Characterization of Epithelial Ovarian Cancer: Implications for Diagnosis and Treatment

Rojas

Hirshfield

Ganesan

et al. 2016

IJMS

191

177

View full text Add to dashboard Cite

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“…The discrepancies probably occur due to the different methods and pre-analytical conditions, the use of serum instead of plasma by some researchers and the different volumes of plasma/serum for cfDNA extraction. Many studies focused on the potential use of cfDNA as a diagnostic, prognostic and predictive biomarker in ovarian cancer and a recent meta-analysis by Zhou et al attempted to evaluate the role of cfDNA in ovarian cancer diagnosis [41]. An overview of the research studies on cfDNA in ovarian cancer is summarized in Table 2.…”

Section: Cell-free Dna (Cfdna)mentioning

confidence: 99%

Liquid biopsy in ovarian cancer: recent advances on circulating tumor cells and circulating tumor DNA

Giannopoulou

Kasimir‐Bauer

Lianidou

2017

Clinical Chemistry and Laboratory Medicine (CCLM)

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Ovarian cancer remains the most lethal disease among gynecological malignancies despite the plethora of research studies during the last decades. The majority of patients are diagnosed in an advanced stage and exhibit resistance to standard chemotherapy. Circulating tumor cells (CTCs) and circulating tumor DNA (ctDNA) represent the main liquid biopsy approaches that offer a minimally invasive sample collection. Both have shown a diagnostic, prognostic and predictive value in many types of solid malignancies and recent studies attempted to shed light on their role in ovarian cancer. This review is mainly focused on the clinical value of both CTCs and ctDNA in ovarian cancer and, more specifically, on their potential as diagnostic, prognostic and predictive tumor biomarkers.

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“…Currently, the assessment of cell‐free nDNA or mtDNA in different body fluids has gained attention in many areas of medicine . For example, in obstetrics, maternal blood cell‐free nDNA of fetal origin has been mainly used for noninvasive prenatal diagnosis .…”

Section: Introductionmentioning

confidence: 99%

“…[12][13][14][15][16][17][18] Currently, the assessment of cell-free nDNA or mtDNA in different body fluids has gained attention in many areas of medicine. [19][20][21][22][23] For example, in obstetrics, maternal blood cell-free nDNA of fetal origin has been mainly used for noninvasive prenatal diagnosis. 20 Additionally, its levels have been shown to be increased in various pregnancy complications such as miscarriage, preeclampsia, fetal growth restriction, and preterm delivery.…”

Section: Introductionmentioning

confidence: 99%

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Amniotic fluid cell‐free DNA in preterm prelabor rupture of membranes

et al. 2018

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Introduction We evaluated the levels of cell‐free nuclear DNA (nDNA) and cell‐free mitochondrial DNA (mtDNA) in the amniotic fluid supernatant from pregnancies complicated by preterm prelabor rupture of membranes (PPROM) based on evidence of microbial invasion of the amniotic cavity (MIAC) and/or intra‐amniotic inflammation (IAI). Material and methods A total of 155 women with PPROM were included in this study. Amniotic fluid samples were obtained by transabdominal amniocentesis. The levels of cell‐free nDNA and mtDNA in the amniotic fluid supernatant were assessed and quantified by real‐time polymerase chain reaction. Results The levels of cell‐free nDNA and mtDNA were higher in women with MIAC and IAI than in women without these conditions (nDNA: with MIAC: median 3.9 × 104 genome equivalent [GE]/mL vs without MIAC: median 1.2 × 104 GE/mL, with IAI: median: 5.3 × 104 GE/mL vs without IAI: median 1.2 × 104 GE/mL; mtDNA: with MIAC: median 9.2 × 105 GE/mL vs without MIAC: median 2.5 × 105 GE/mL, with IAI: median 1.1 × 106 GE/mL vs without IAI: median 2.5 × 105; all P values ≤ 0.01). Women with the microbial‐associated IAI showed the highest levels of cell‐free nDNA and mtDNA. Conclusions Cell‐free nDNA and mtDNA are constituents of the amniotic fluid supernatant from PPROM pregnancies. Both cell‐free nDNA and mtDNA are involved in the intra‐amniotic inflammatory response in women with PPROM.

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Circulating Cell Free DNA as the Diagnostic Marker for Ovarian Cancer: A Systematic Review and Meta-Analysis

Cited by 61 publications

References 42 publications

Molecular Characterization of Epithelial Ovarian Cancer: Implications for Diagnosis and Treatment

Molecular Characterization of Epithelial Ovarian Cancer: Implications for Diagnosis and Treatment

Liquid biopsy in ovarian cancer: recent advances on circulating tumor cells and circulating tumor DNA

Amniotic fluid cell‐free DNA in preterm prelabor rupture of membranes

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