Application of Microfluidics in Detection of Circulating Tumor Cells

Li, Can; He, Wei; Wang, Nan; Xi, Zhaodong; Deng, Rongrong; Liu, Xiyu; Kang, Ran; Xie, Lihua; Liu, Xin

doi:10.3389/fbioe.2022.907232

Cited by 15 publications

(10 citation statements)

References 182 publications

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“…Despite the diagnostic methods and therapeutic strategies of LUAD achieving advanced developments, the LUAD patients still need further clinical improvement to prolong their lifetime [4][5][6][7][8]. The earlier diagnosis often provides preactive treatments, which means greater bene ts are achieved during the whole course of the cancer therapy [9][10][11][12].…”

Section: Introductionmentioning

confidence: 99%

WITHDRAWN: Upregulated HMGB3 resulting in the poor prognosis of lung adenocarcinoma by activating stromal angiogenesis through immune microenvironment

Feng

Bai

2022

Preprint

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HMGB3 belongs to the high mobility group box (HMGB) family and the abnormally increased HMGB3 is associated with various types of malignancy progression. However, there is exiguous well clarified research to illustrate the correlation between HMGB3 and lung cancer. The expression profile data of lung adenocarcinoma (LUAD) were obtained from GEO and TCGA databases. The differential expression, prognostic survival, clinical characters, functional enrichment and immune infiltration were analyzed through R software, Kaplan–Meier (KM) plotter, ClusterProfiler package and ssGSEA algorithm. Besides, further research on HMGB3 expression level was confirmed using xenograft mice through immunohistochemistry and western blot assays. Results showed that HMGB3 was highly expressed in LUAD samples compared with adjacent normal samples. The T stage, pathologic stage, smoker and angiogenesis within the LUAD patients were positively correlated with HMGB3 expression. Functional enrichment analysis indicated that the correlative genes of HMGB3 are most related to the cell cycle process. HMGB3 is weakly related to the immune infiltration cells in LUAD stromal. However, increased existence of HMGB3 induced active angiogenesis in LUAD stromal and possibly accelerated the tumor progression through immune microenvironment. In conclusion, we confirmed that HMGB3 is a biomarker of poor prognosis for LUAD. The operative mechanism of which is activating tumor angiogenesis through immune infiltration cells. Further study will focus on exploring the related pathways in angiogenesis and immune microenvironment.

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Section: Introductionmentioning

confidence: 99%

WITHDRAWN: Upregulated HMGB3 resulting in the poor prognosis of lung adenocarcinoma by activating stromal angiogenesis through immune microenvironment

Feng

Bai

2022

Preprint

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“…Microfluidic chips are being developed in combination with other biomarker detection techniques for use in clinical applications (reviewed in Reference [ 119 ]). For example, microfluidic chips have been optimized to detect cancer-associated proteins in oral cancer [ 120 ] or to capture CTCs by using new methods combining cell size and immunoaffinity in prostate cancer [ 93 ].…”

Section: Techniques Used To Detect Molecular Cancer Biomarkersmentioning

confidence: 99%

Molecular Biomarkers in Cancer

2022

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Molecular cancer biomarkers are any measurable molecular indicator of risk of cancer, occurrence of cancer, or patient outcome. They may include germline or somatic genetic variants, epigenetic signatures, transcriptional changes, and proteomic signatures. These indicators are based on biomolecules, such as nucleic acids and proteins, that can be detected in samples obtained from tissues through tumor biopsy or, more easily and non-invasively, from blood (or serum or plasma), saliva, buccal swabs, stool, urine, etc. Detection technologies have advanced tremendously over the last decades, including techniques such as next-generation sequencing, nanotechnology, or methods to study circulating tumor DNA/RNA or exosomes. Clinical applications of biomarkers are extensive. They can be used as tools for cancer risk assessment, screening and early detection of cancer, accurate diagnosis, patient prognosis, prediction of response to therapy, and cancer surveillance and monitoring response. Therefore, they can help to optimize making decisions in clinical practice. Moreover, precision oncology is needed for newly developed targeted therapies, as they are functional only in patients with specific cancer genetic mutations, and biomarkers are the tools used for the identification of these subsets of patients. Improvement in the field of cancer biomarkers is, however, needed to overcome the scientific challenge of developing new biomarkers with greater sensitivity, specificity, and positive predictive value.

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“…[114] The minute sample and reagent consumption, easy operation, physiological environment mimicking real-time monitoring facilities, and accurate fluid flow control with rapid detection have facilitated miniaturized microfluidics as one of the widely used tools in liquid biopsy for CTC detection and isolation, biomarker identification, and clinical implications. [115] Microfluidic techniques use different approaches for the detection of CTCs, including biophysical, biochemical, and immunogenic properties. [115a] Besides, the incorporation of nanocarrier synthesis and delivery capability has further facilitated the utility of microfluidics in clinical prospects for CTC diagnosis and prognosis because microfluidic systems with a nanobiological interface may be able to identify and analyze CTCs with greater specificity and sensitivity.…”

Section: Utility Of Microfluidic-facilitated Nanocarriers In Circulat...mentioning

confidence: 99%

“…[116] The microfluidic-based detection of CTCs using different label-free and label-dependent methods can be found elsewhere by interested readers. [114][115][116] This study in this section is aimed at discussing the applications of nanocarrier-facilitated microfluidic systems for CTC detection and isolation and molecular analyses. For instance, Myung et al developed a NP-incorporated microfluidic device called CapioCyte that was functionalized with aEpCAM, aEGFR, and aHER-2 for sensitive and specific capturing of CTCs.…”

Section: Utility Of Microfluidic-facilitated Nanocarriers In Circulat...mentioning

confidence: 99%

Nanocarrier‐Based Drug Delivery Systems using Microfluidic‐Assisted Techniques

Alam

2023

Advanced NanoBiomed Research

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Nanocarrier‐mediated drug delivery in life science and patient care is now highly recognized and has gained significant traction in pharmaceuticals for clinical applications. Besides, the incorporation of microfluidic technology for the synthesizing and delivery of nanocarriers facilitates preclinical drug testing under biomimicking physiological conditions, which further increases the prospect of nanocarrier drug delivery systems in clinical use. Indeed, an inherent amenability of microfluidics shows fine‐tuned manipulation and controlled release of nanocarrier drugs in a spatiotemporal manner. The progress of microfluidic‐assisted potential drug delivery platforms is reviewed and summarized with a focus on factors determining the design of novel nanodrug delivery microfluidic systems, on‐chip functionalization and synthesis mechanisms of nanodrugs, and stimulation‐responsive and organ‐specific drug delivery platforms, including different challenges associated with developing platforms in benchtop research that hinder platforms’ clinical translation. Moreover, the commercial scenario and prospects of the microfluidic nanodrug delivery platforms are evaluated, and further predictive suggestions are provided for developing multitargeting microfluidic/organ‐on‐a‐chip nanodrug delivery platforms and overcoming the challenges associated with commercialization. This review recognizes that although numerous reports have reinforced the promise of microfluidic nanodrug delivery platforms, much remains to be done in lab and benchtop works to realize it in clinical practice through commercialization.

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Application of Microfluidics in Detection of Circulating Tumor Cells

Cited by 15 publications

References 182 publications

WITHDRAWN: Upregulated HMGB3 resulting in the poor prognosis of lung adenocarcinoma by activating stromal angiogenesis through immune microenvironment

WITHDRAWN: Upregulated HMGB3 resulting in the poor prognosis of lung adenocarcinoma by activating stromal angiogenesis through immune microenvironment

Molecular Biomarkers in Cancer

Nanocarrier‐Based Drug Delivery Systems using Microfluidic‐Assisted Techniques

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