Performance Evaluation of a Novel Ultrafast Molecular Diagnostic Device Integrated With Microfluidic Chips and Dual Temperature Modules

Lin, Shan; Song, Xiaojun; Shao, Quanyu; Chen, Yinhang; Cheng, Wei; Lei, Zhijing; Chen, Yu; Luo, Yan; Jin, Dazhi

doi:10.3389/fbioe.2022.895236

Cited by 3 publications

(4 citation statements)

References 45 publications

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“…Clinical stool samples were collected from June to September in 2021 at the First Affiliated Hospital of Zhejiang University School of Medicine, and were stored at −80°C for subsequent detection within 48 h. Patients with diarrhea were defined as CDI when their stool samples tested positive for toxigenic C. difficile using the GeneXpert C. difficile assay combined with the TC assay ( Lin et al, 2022 ). Individuals without diarrhea were characterized as having CDC when toxigenic C. difficile were detected in their stool samples using the GeneXpert C. difficile assay ( Lin et al, 2022 ). Clinical information including gender, age, type of underlying medical condition, presence of diarrhea and fever, history of antimicrobial use within 8 weeks, and CDI severities determined according to the guideline ( Cohen et al, 2010 ), was documented.…”

Section: Methodsmentioning

confidence: 99%

Rapid discrimination between clinical Clostridioides difficile infection and colonization by quantitative detection of TcdB toxin using a real-time cell analysis system

Shen,

Lin,

You

et al. 2024

Front. Microbiol.

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ObjectivesIt is important to accurately discriminate between clinical Clostridioides difficile infection (CDI) and colonization (CDC) for effective antimicrobial treatment.MethodsIn this study, 37 stool samples were collected from 17 CDC and 20 CDI cases, and each sample were tested in parallel through the real-time cell analysis (RTCA) system, real-time PCR assay (PCR), and enzyme-linked immunosorbent assay (ELISA).ResultsRTCA-measured functional and toxical C. difficile toxin B (TcdB) concentrations in the CDI group (302.58 ± 119.15 ng/mL) were significantly higher than those in the CDC group (18.15 ± 11.81 ng/mL) (p = 0.0008). Conversely, ELISA results revealed no significant disparities in TcdB concentrations between the CDC (26.21 ± 3.57 ng/mL) and the CDI group (17.07 ± 3.10 ng/mL) (p = 0.064). PCR results indicated no significant differences in tcdB gene copies between the CDC (774.54 ± 357.89 copies/μL) and the CDI group (4,667.69 ± 3,069.87 copies/μL) (p = 0.407). Additionally, the functional and toxical TcdB concentrations secreted from C. difficile isolates were measured by the RTCA. The results from the CDC (490.00 ± 133.29 ng/mL) and the CDI group (439.82 ± 114.66 ng/mL) showed no significant difference (p = 0.448). Notably, RTCA-measured functional and toxical TcdB concentration was significantly decreased when mixed with pooled CDC samples supernatant (p = 0.030).ConclusionThis study explored the novel application of the RTCA assay in effectively discerning clinical CDI from CDC cases.

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Section: Methodsmentioning

confidence: 99%

Rapid discrimination between clinical Clostridioides difficile infection and colonization by quantitative detection of TcdB toxin using a real-time cell analysis system

Shen,

Lin,

You

et al. 2024

Front. Microbiol.

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“…The use of 3D printing technology significantly simplifies the processing of microfluidic chips and is more flexible in the selection of printing materials. The chips constructed using 3D printing microfluidic approach have attracted more and more attention in early cancer diagnosis thanks to its remarkable advantages including LOD, repeatable mass production, and low cost [86].…”

Section: Diagnosis Using a Microfluidic Equipmentmentioning

confidence: 99%

Application of 3D printing technology in tumor diagnosis and treatment

Wu,

Liang,

et al. 2023

Biomed. Mater.

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3D printing technology is an increasing approach consisting of material manufacturing through the selective incremental delamination of materials to form a 3D structure to produce products. This technology has different advantages, including low cost, short time, diversification, and high precision. Widely adopted additive manufacturing technologies enable the creation of diagnostic tools and expand treatment options. Coupled with its rapid deployment, 3D printing is endowed with high customizability that enables users to build prototypes in shorts amounts of time which translates into faster adoption in the medical field. This review mainly summarizes the application of 3D printing technology in the diagnosis and treatment of cancer, including the challenges and the prospects combined with other technologies applied to the medical field.

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“…37 It is able to save about 2/3 of the amplification time compared to conventional PCR, showing a promising future in achieving fast molecular detection. 38,39 Taking advantage of the rapid amplification of VPCR and the excellent SNP recognition ability of CRISPR-Cas13a, we developed for the first time a rapid, specific, and sensitive genotyping method for CYP2C19. We term this approach "V" shape PCR-coupled CRISPR/Cas13a (VPC).…”

Section: Introductionmentioning

confidence: 99%

“…To address these challenges, the “V” shape polymerase chain reaction (VPCR) can complete three procedures of PCR during the dynamic heating and cooling process, greatly shortening the amplification time . It is able to save about 2/3 of the amplification time compared to conventional PCR, showing a promising future in achieving fast molecular detection. , …”

Section: Introductionmentioning

confidence: 99%

Integration of CRISPR/Cas13a and V-Shape PCR for Rapid, Sensitive, and Specific Genotyping of CYP2C19 Gene Polymorphisms

Liu

Chang

et al. 2023

Anal. Chem.

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Rapid detection of single nucleotide polymorphisms (SNPs) in the CYP2C19 gene is of great significance for clopidogrel-accurate medicine. CRISPR/Cas systems have been increasingly used in SNP detection due to their single-nucleotide mismatch specificity. PCR, as a powerful amplification tool, has been incorporated into the CRISPR/Cas system to improve the sensitivity. However, the complicated three-step temperature control of the conventional PCR impeded rapid detection. The “V” shape PCR can shorten about 2/3 of the amplification time compared with conventional PCR. Herein, we present a new system termed the “V” shape PCR-coupled CRISPR/Cas13a (denoted as VPC) system, achieving the rapid, sensitive, and specific genotyping of CYP2C19 gene polymorphisms. The wild- and mutant-type alleles in CYP2C19*2, CYP2C19*3, and CYP2C19*17 genes can be discriminated by using the rationally programmed crRNA. A limit of detection (LOD) of 102 copies/μL was obtained within 45 min. In addition, the clinical applicability was demonstrated by genotyping SNPs in CYP2C19*2, CYP2C19*3, and CYP2C19*17 genes from clinical blood samples and buccal swabs within 1 h. Finally, we conducted the HPV16 and HPV18 detections to validate the generality of the VPC strategy.

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Performance Evaluation of a Novel Ultrafast Molecular Diagnostic Device Integrated With Microfluidic Chips and Dual Temperature Modules

Cited by 3 publications

References 45 publications

Rapid discrimination between clinical Clostridioides difficile infection and colonization by quantitative detection of TcdB toxin using a real-time cell analysis system

Rapid discrimination between clinical Clostridioides difficile infection and colonization by quantitative detection of TcdB toxin using a real-time cell analysis system

Application of 3D printing technology in tumor diagnosis and treatment

Integration of CRISPR/Cas13a and V-Shape PCR for Rapid, Sensitive, and Specific Genotyping of CYP2C19 Gene Polymorphisms

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