Your search keyword '"lateral flow assay"' showing total 1,969 results

1. Determination of Morphine Using Carboxylated Multiwalled Carbon Nanotubes (MWCNTs) as the Label for an Immunochromatographic Assay (ICA).

Author

Gavanji, Kiana, Babaei Afrapoli, Zoha, Rahimnia, Ramin, Negahdari, Babak, and Faridi-Majidi, Reza

Subjects

*MULTIWALLED carbon nanotubes, *FIELD emission, *ULTRAVIOLET-visible spectroscopy, *RAMAN spectroscopy, *ZETA potential

Abstract

This study evaluated the application of carboxylated multi-walled carbon nanotubes (MWCNTs) as a label in immunochromatographic assay for morphine detection. MWCNTs were carboxylated using nitric acid and characterized by Fourier-transform infrared (FTIR) spectroscopy, Raman spectroscopy, field emission scanning microscopy (FESEM), and dynamic light scattering (DLS). The optimum concentration of polyvinyl pyrrolidone (PVP) as a surfactant for homogenous dispersion of MWCNTs was determined by ultraviolet-visible spectroscopy to be 0.5 mg/mL. The zeta potential of MWCNTs before adding PVP was −41.9 ± 1.02 mV, and after adding PVP, −54.1 ± 0.25 mV. On the surface of MWCNTs, the anti-morphine antibody (AM antibody) had a binding effectiveness ranging from 91.1% to 95.5%. The AM antibody-MWCNTs were conjugated to create immunochromatographic test strips. The visual limit of detection (vLOD) was 1.0 ng/mL and the cutoff concentration (COC) was 10.0 ng/mL. Compared to previous study, carboxylated-MWCNTs as a one-dimensional nanomaterial improved the sensitivity of immunochromatographic assay strips and may be utilized to develop the sensitive immunochromatographic assays. [ABSTRACT FROM AUTHOR]

Published

2024

2. Integrated Ultrasound‐Enrichment and Machine Learning in Colorimetric Lateral Flow Assay for Accurate and Sensitive Clinical Alzheimer's Biomarker Diagnosis.

Author

Wang, Shuqing, Zhu, Yan, Zhou, Zhongzeng, Luo, Yong, Huang, Yan, Liu, Yibiao, and Xu, Tailin

Subjects

*ALZHEIMER'S disease, *GOLD nanoparticles, *TAU proteins, *COLLOIDAL gold, *CLINICAL medicine

Abstract

The colloidal gold nanoparticle (AuNP)‐based colorimetric lateral flow assay (LFA) is one of the most promising analytical tools for point‐of‐care disease diagnosis. However, the low sensitivity and insufficient accuracy still limit its clinical application. In this work, a machine learning (ML)‐optimized colorimetric LFA with ultrasound enrichment is developed to achieve the sensitive and accurate detection of tau proteins for early screening of Alzheimer's disease (AD). The LFA device is integrated with a portable ultrasonic actuator to rapidly enrich microparticles using ultrasound, which is essential for sample pre‐enrichment to improve the sensitivity, followed by ML algorithms to classify and predict the enhanced colorimetric signals. The results of the undiluted serum sample testing show that the protocol enables efficient classification and accurate quantification of the AD biomarker tau protein concentration with an average classification accuracy of 98.11% and an average prediction accuracy of 99.99%, achieving a limit of detection (LOD) as sensitive as 10.30 pg mL−1. Further point‐of‐care testing (POCT) of human plasma samples demonstrates the potential use of LFA in clinical trials. Such a reliable lateral flow immunosensor with high precision and superb sensing performance is expected to put LFA in perspective as an AD clinical diagnostic platform. [ABSTRACT FROM AUTHOR]

Published

2024

3. Comparative Characteristics of Immunochromatographic Test Systems for Tylosin Antibiotic in Meat Products.

Author

Barshevskaya, Lyubov V., Sotnikov, Dmitriy V., Zvereva, Elena A., Dzantiev, Boris B., and Zherdev, Anatoly V.

Subjects

*GOLD nanoparticles, *MACROLIDE antibiotics, *VETERINARY drugs, *ANIMAL products, *GROUND meat

Abstract

Tylosin (TYL) is a macrolide antibiotic widely used in animal husbandry. Due to associated health risks, there is a demand for sensitive methods for mass screening of TYL in products of animal origin. This article describes the development of lateral flow immunoassays (LFIAs) for TYL detection using direct (anti-TYL antibodies conjugated with nanoparticles) and indirect antibody labeling (anti-species antibodies conjugated with nanoparticles and combined with native anti-TYL antibodies). The choice of LFIA conditions, such as concentrations of hapten–protein conjugates, specific antibodies, and gold nanoparticle (GNP) conjugates with antibodies, as well as incubation time of reagents and the concentration of detergent in the sample buffer, is presented. The achieved limits of TYL detection using LFIAs with indirect labeling were 0.8 ng/mL (visual) and 0.07 ng/mL (instrumental), compared to 4 ng/mL (visual) and 0.4 ng/mL (instrumental) for the case of direct labeling. The sensitivity of the LFIA using the indirect format was up to seven times higher, allowing the determination of the target analyte at low concentrations. TYL detection in ground meat using LFIA with indirect antibody labeling ranged from 76–119%. [ABSTRACT FROM AUTHOR]

Published

2024

4. Development of Lateral Flow Assays for Rapid Detection of Troponin I: A Review.

Author

Mohammadinejad, Arash, Nooranian, Samin, Kazemi Oskuee, Reza, Mirzaei, Sepideh, Aleyaghoob, Ghazaleh, Zarrabi, Ali, Selda Gunduz, Emine, Nuri Ertas, Yavuz, and Sheikh Beig Goharrizi, Mohammad Ali

Subjects

*TROPONIN I, *MYOCARDIAL infarction, *HEART failure, *APTAMERS, *POINT-of-care testing

Abstract

Troponin I as a particular and major biomarker of cardiac failure is released to blood demonstrating hurt of myocardial cells. Unfortunately, troponin I detection in the first hours of acute myocardial infarction usually faces with most negligence. Therefore, developments of point of care devices such as lateral flow strips are highly required for timely diagnosis and prognosis. Lateral flow assays are low-cost paper-based detection platforms relying on specific diagnostic agents such as aptamers and antibodies for a rapid, selective, quantitative and semi-quantitative detection of the analyte in a complex mixture. Moreover, lateral flow assay devices are portable, and their simplicity of use eliminates the need for experts or any complicated equipment to operate and interpret the test results. Additionally, by coupling the lateral flow assay technology with nanotechnology, for labeling and signal amplification, many breakthroughs in the field of diagnostics have been achieved. The present study reviews the use of lateral flow assays in early stage, quantitative, and sensitive detection of cardiac troponin I and mainly focuses on the structure of each type of developed lateral flow assays. Finally, this review summarized the improvements, detection time, and limit of detection of each study as well as the advantages and disadvantages. [ABSTRACT FROM AUTHOR]

Published

2024

5. A review of rapid food safety testing: using lateral flow assay platform to detect foodborne pathogens.

Author

Younes, Nadin, Yassine, Hadi M., Kourentzi, Katerina, Tang, Patrick, Litvinov, Dmitri, Willson, Richard C., Abu-Raddad, Laith J., and Nasrallah, Gheyath K.

Subjects

*FOODBORNE diseases, *FOOD pathogens, *HIGH performance liquid chromatography, *FOOD testing, *FOOD safety

Abstract

The detrimental impact of foodborne pathogens on human health makes food safety a major concern at all levels of production. Conventional methods to detect foodborne pathogens, such as live culture, high-performance liquid chromatography, and molecular techniques, are relatively tedious, time-consuming, laborious, and expensive, which hinders their use for on-site applications. Recurrent outbreaks of foodborne illness have heightened the demand for rapid and simple technologies for detection of foodborne pathogens. Recently, Lateral flow assays (LFA) have drawn attention because of their ability to detect pathogens rapidly, cheaply, and on-site. Here, we reviewed the latest developments in LFAs to detect various foodborne pathogens in food samples, giving special attention to how reporters and labels have improved LFA performance. We also discussed different approaches to improve LFA sensitivity and specificity. Most importantly, due to the lack of studies on LFAs for the detection of viral foodborne pathogens in food samples, we summarized our recent research on developing LFAs for the detection of viral foodborne pathogens. Finally, we highlighted the main challenges for further development of LFA platforms. In summary, with continuing improvements, LFAs may soon offer excellent performance at point-of-care that is competitive with laboratory techniques while retaining a rapid format. [ABSTRACT FROM AUTHOR]

Published

2024

6. Perspectives in Aptasensor-Based Portable Detection for Biotoxins.

Author

Li, Congying, Zhu, Ziyuan, Yao, Jiahong, Chen, Zhe, and Huang, Yishun

Subjects

*GLUCOSE, *SMARTPHONES, *HUMAN beings, *APTAMERS

Abstract

Biotoxins are pervasive in food and the environment, posing significant risk to human health. The most effective strategy to mitigate the risk arising from biotoxin exposure is through their specific and sensitive detection. Aptasensors have emerged as pivotal tools, leveraging aptamers as biorecognition elements to transduce the specificity of aptamer-target interactions into quantifiable signals for analytical applications, thereby facilitating the meticulous detection of biotoxins. When integrated with readily portable devices such as lateral flow assays (LFAs), personal glucose meters (PGMs), smartphones, and various meters measuring parameters like pH and pressure, aptasensors have significantly advanced the field of biotoxin monitoring. These commercially available devices enable precise, in situ, and real-time analysis, offering great potential for portable biotoxin detection in food and environmental matrices. This review highlights the recent progress in biotoxin monitoring using portable aptasensors, discussing both their potential applications and the challenges encountered. By addressing these impediments, we anticipate that a portable aptasensor-based detection system will open new avenues in biotoxin monitoring in the future. [ABSTRACT FROM AUTHOR]

Published

2024

7. CRISPR/Cas and Argonaute-powered lateral flow assay for pathogens detection.

Author

Li, Yaru, Zhao, Lu, Ma, Long, Bai, Yunfeng, and Feng, Feng

Abstract

AbstractPathogens contamination is a pressing global public issue that has garnered significant attention worldwide, especially in light of recent outbreaks of foodborne illnesses. Programmable nucleases like CRISPR/Cas and Argonaute hold promise as tools for nucleic acid testing owning to programmability and the precise target sequence specificity, which has been utilized for the development pathogens detection. At present, fluorescence, as the main signal output method, provides a simple response mode for sensing analysis. However, the dependence of fluorescence output on large instruments and correct analysis of output data limited its use in remote areas. Lateral flow strips (LFS), emerging as a novel flexible substrate, offer a plethora of advantages, encompassing easy-to-use, rapidity, visualization, low-cost, portability, etc. The integration of CRISPR/Cas and Argonaute with LFS, lateral flow assay (LFA), rendered a new and on-site mode for pathogens detection. In the review, we introduced two programmable nucleases CRISPR/Cas and Argonaute, followed by the structure, principle and advantages of LFA. Then diversified engineering detection pattens for viruses, bacteria, parasites, and fungi based on CRISPR/Cas and Argonaute were introduced and summarized. Finally, the challenge and perspectives involved in on-site diagnostic assays were discussed. [ABSTRACT FROM AUTHOR]

Published

2024

8. Gold/DNA-Cu 2+ Complex Nanozyme-Based Aptamer Lateral Flow Assay for Highly Sensitive Detection of Kanamycin.

Author

Li, Xiuping, Chang, Rui, Tai, Shengmei, Mao, Minxin, and Peng, Chifang

Subjects

*SIGNAL detection, *SMALL molecules, *KANAMYCIN, *SYNTHETIC enzymes, *HONEY

Abstract

Aptamer-based lateral flow analysis (Apt-LFAs) has promising applications in many fields. Nanozymes have demonstrated high potential in improving the performance of Apt-LFAs and have been increasingly utilized in recent studies. In this study, we developed a nanozyme-based Apt-LFA for the rapid and sensitive detection of kanamycin by using a novel dual-functionalized AuNPs@polyA-DNA/GpG-Cu2+ nanozyme as a nanoprobe. In the nanoprobe design, the polyA-cDNA strand can discriminate a kanamycin aptamer from the kanamycin/aptamer complex, and the GpG-Cu2+ complex can amplify the detection signal by catalyzing the chromogenic reaction. The nanozyme Apt-LFA can quantify kanamycin in the range of 1–250 ng/mL with an LOD of 0.08 ng/mL, which demonstrated a 4-fold sensitivity improvement and had a wider linear range than the conventional AuNP-based LFA. The Apt-LFA was successfully applied to the detection of kanamycin in honey with good recoveries. Our dual-functionalized AuNP nanoprobe is easily prepared and can be highly compatible with the conventional AuNP-DNA-based LFA platform; thus, it can be extended to the application of Apt-LFAs for other small molecules. [ABSTRACT FROM AUTHOR]

Published

2024

9. Lateral flow assay sensitivity and signal enhancement via laser µ-machined constrains in nitrocellulose membrane.

Author

Khatmi, Gazy, Klinavičius, Tomas, Simanavičius, Martynas, Silimavičius, Laimis, Tamulevičienė, Asta, Rimkutė, Agnė, Kučinskaitė-Kodzė, Indrė, Gylys, Gintautas, and Tamulevičius, Tomas

Subjects

*SARS-CoV-2, *LASER beams, *IMAGE analysis, *VIDEO recording, *NITROCELLULOSE

Abstract

Lateral flow assay (LFA) is a handful diagnostic technology that can identify severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) and other common respiratory viruses in one strip, which can be tested at the point-of-care without the need for equipment or skilled personnel outside the laboratory. Although its simplicity and practicality make it an appealing solution, it remains a grand challenge to substantially enhance the colorimetric LFA sensitivity. In this work, we present a straightforward approach to enhance the sensitivity of LFA by imposing the flow constraints in nitrocellulose (NC) membranes via a number of vertical femtosecond laser micromachined microchannels which is important for prolonged specific binding interactions. Porous NC membrane surfaces were structured with different widths and densities µ-channels employing a second harmonic of the Yb:KGW femtosecond laser and sample XYZ translation over a microscope objective-focused laser beam. The influence of the microchannel parameters on the vertical wicking speed was evaluated from the video recordings. The obtained results indicated that µ-channel length, width, and density in NC membranes controllably increased the immunological reaction time between the analyte and the labeled antibody by 950%. Image analysis of the colorimetric indicators confirmed that the flow rate delaying strategy enhanced the signal sensitives by 40% compared with pristine NC LFA. [ABSTRACT FROM AUTHOR]

Published

2024

10. Quantitative and Ultrasensitive Detection of Four Inflammatory Biomarkers by Gold Nanoparticle‐Based Paper Sensor.

Author

Ye, Liya, Wu, Aihong, Liu, Liqiang, Kuang, Hua, Xu, Chuanlai, and Xu, Xinxin

Subjects

GOLD nanoparticles, COLLOIDAL gold, CHEMILUMINESCENCE immunoassay, COMMUNICABLE diseases, SPECIAL drawing rights

Abstract

Due to the complexity and diversity of infectious diseases, diagnosis based solely on symptoms and imaging manifestations is associated with a high rate of misdiagnosis, so it is particularly important to find reliable and accurate biomarkers. Four inflammatory biomarkers (CRP, IL‐6, PCT and SAA) have different manifestations and roles in different infectious diseases and stages of infection, and the diagnosis and identification of infectious diseases can be realized through quantitative analysis of these four biomarkers simultaneously. In this study, we developed a colloidal gold nanoparticle (AuNP)‐based multiplex LFA strip using eight highly‐sensitive monoclonal antibodies that simultaneously detected CRP, IL‐6, PCT and SAA in serum within 15 min. And quantitative analysis was achieved with a portable strip reader, the LODs were 2.5 μg/mL, 25.3 pg/mL 0.87 ng/mL and 8.8 μg/mL for CRP, IL‐6, PCT and SAA, while detection ranges were 2.5–200 μg/mL, 25.3–8000 pg/mL 0.87–100 ng/mL and 8.8–200 μg/mL. Moreover, the quantitative colloidal gold assay correlated well with the results of a chemiluminescence immunoassay when testing clinical serum samples. Our developed method was reliable and accurate according to the recovery test results. Therefore, the strip can be used as an alternative method for the simultaneous monitoring of CRP, IL‐6, PCT and SAA in serum samples. [ABSTRACT FROM AUTHOR]

Published

2024

11. Diagnostic Performances of an in-House Immunochromatography Test Based on the Monoclonal Antibody 18B7 to Glucuronoxylomannan for Clinical Suspected Cryptococcosis: a Large-Scale Prototype Evaluation in Northern Thailand.

Author

Pruksaphon, Kritsada, Amsri, Artid, Thammasit, Patcharin, Nosanchuk, Joshua D., Aiumurai, Pisinee, and Youngchim, Sirida

Abstract

Objective: Cryptococcosis predominantly presents as a meningoencephalitis in Thailand. Early and expeditious diagnosis is essential for reducing both mortality and morbidity associated with cryptococcal meningitis. We aim to define and establish the diagnostic performances between the benchmark commercially available diagnostic kit (CrAg® LFA) and the large-scale prototype of an inexpensive in-house immunochromatographic test (ICT) based on monoclonal antibody (MAb) 18B7. Methods: We have developed the large-scale prototype for the rapid detection of cryptococcal polysaccharide antigens by utilizing a single antibody sandwich ICT format employing MAb 18B7, which is highly specific to Cryptococcus neoformans glucuronoxylomannan (GXM) antigens. An in-house MAb18B7 ICT was manufactured in accordance with industry standards under the control of the International Organization for Standardization (ISO) 13485. Results: The diagnostic sensitivity, specificity, and accuracy for the in-house MAb 18B7 ICT were 99.10%, 97.61%, and 97.83%, respectively. The agreement kappa (κ) coefficient was 0.968 based on the retrospective evaluation of 580 specimens from patients living in northern Thailand with clinically suspected cryptococcosis. Conclusion: The data suggest that this in-house MAb 18B7 ICT will be highly beneficial for addressing the issue of cryptococcal infection in Thailand. Moreover, it is anticipated that this inexpensive ICT can play a pivotal role in various global strategies aimed at eradicating cryptococcal meningitis among individuals living with HIV by 2030. [ABSTRACT FROM AUTHOR]

Published

2024

12. Validation of Recombinase Polymerase Amplification with In-House Lateral Flow Assay for mcr-1 Gene Detection of Colistin Resistant Escherichia coli Isolates.

Author

Ullah, Naeem, Suchanta, Nutchaba, Pimpitak, Umaporn, Santanirand, Pitak, Am-In, Nutthee, and Chaichanawongsaroj, Nuntaree

Subjects

ESCHERICHIA coli, GENETIC variation, ANIMAL culture, PATHOGENIC bacteria, COLISTIN

Abstract

Background/Objectives: The emergence of the mobilized colistin resistance 1 (mcr-1) gene, which causes colistin resistance, is a serious concern in animal husbandry, particularly in pigs. Although antibiotic regulations in many countries have prohibited the use of colistin in livestock, the persistence and dissemination of this plasmid-mediated gene require effective and rapid monitoring. Therefore, a rapid, sensitive, and specific method combining recombinase polymerase amplification (RPA) with an in-house lateral flow assay (LFA) for the mcr-1 gene detection was developed. Methods: The colistin agar test and broth microdilution were employed to screen 152 E. coli isolates from pig fecal samples of five antibiotic-used farms. The established RPA-in-house LFA was validated with PCR for mcr-1 gene detection. Results: The RPA-in-house LFA was completed within 35 min (20 min of amplification and 5–15 min on LFA detection) at 37 °C. The sensitivity, specificity, and accuracy were entirely 100% in concordance with PCR results. No cross-reactivity was detected with seven common pathogenic bacteria or other mcr gene variants. Conclusions: Therefore, the in-house RPA-LFA serves as a point-of-care testing tool that is rapid, simple, and portable, facilitating effective surveillance of colistin resistance in both veterinary and clinical settings, thereby enhancing health outcomes. [ABSTRACT FROM AUTHOR]

Published

2024

13. Transitions in Immunoassay Leading to Next-Generation Lateral Flow Assays and Future Prospects.

Author

Fujiuchi, Koyu, Aoki, Noriko, Ohtake, Tetsurou, Iwashita, Toshihide, and Kawasaki, Hideya

Subjects

SERS spectroscopy, ELECTRON detection, EMERGENCY management, POINT-of-care testing, MAGNETORESISTANCE

Abstract

In the field of clinical testing, the traditional focus has been on the development of large-scale analysis equipment designed to process high volumes of samples with fully automatic and high-sensitivity measurements. However, there has been a growing demand in recent years for the development of analytical reagents tailored to point-of-care testing (POCT), which does not necessitate a specific location or specialized operator. This trend is epitomized using the lateral flow assay (LFA), which became a cornerstone during the 2019 pandemic due to its simplicity, speed of delivering results—within about 10 min from minimal sample concentrations—and user-friendly design. LFAs, with their paper-based construction, combine cost-effectiveness with ease of disposal, addressing both budgetary and environmental concerns comprehensively. Despite their compact size, LFAs encapsulate a wealth of technological ingenuity, embodying years of research and development. Current research is dedicated to further evolving LFA technology, paving the way for the next generation of diagnostic devices. These advancements aim to redefine accessibility, empower individuals, and enhance responsiveness to public health challenges. The future of LFAs, now unfolding, promises even greater integration into routine health management and emergency responses, underscoring their critical role in the evolution of decentralized and patient-centric healthcare solutions. In this review, the historical development of LFA and several of the latest LFA technologies using catalytic amplification, surface-enhanced Raman scattering, heat detection, electron chemical detections, magnetoresistance, and detection of reflected electrons detection are introduced to inspire readers for future research and development. [ABSTRACT FROM AUTHOR]

Published

2024

14. Development and evaluation of two rapid lateral flow assays for on-site detection of African swine fever virus.

Author

Lihua Wang, Juhun Kim, Hyangju Kang, Hong-Je Park, Min-Jong Lee, Sung-Hee Hong, Chang-Won Seo, Madera, Rachel, Yuzhen Li, Craig, Aidan, Retallick, Jamie, Matias-Ferreyra, Franco, Eun-Ju Sohn, and Shi, Jishu

Subjects

FERAL swine, AFRICAN swine fever, AFRICAN swine fever virus, SWINE, NICOTIANA benthamiana

Abstract

Introduction: African swine fever (ASF) is a lethal and highly contagious transboundary animal disease with the potential for rapid international spread. In the absence of a widely available and definitively proven vaccine, rapid and early detection is critical for ASF control. The quick and user-friendly lateral flow assay (LFA) can easily be performed by following simple instructions and is ideal for on-site use. This study describes the development and validation of two LFAs for the rapid detection of ASF virus (ASFV) in pig serum. Methods: The highly immunogenic antigens (p30 and p72) of ASFV Georgia 2007/1 (genotype II) were expressed in plants (Nicotiana benthamiana) and were used to immunize BALB/c mice to generate specific monoclonal antibodies (mAbs) against the p30 and p72 proteins. mAbs with the strongest binding ability to each protein were used to develop p30_LFA and p72_LFA for detecting the respective ASFV antigens. The assays were first evaluated using a spike-in test by adding the purified p30 or p72 protein to a serum sample from a healthy donor pig. Further validation of the tests was carried out using serum samples derived from experimentally infected domestic pigs, field domestic pigs, and feral pigs, and the results were compared with those of ASFV real-time PCR. Results: p30_LFA and p72_LFA showed no cross-reaction with common swine viruses and delivered visual results in 15  min. When testing with serially diluted proteins in swine serum samples, analytical sensitivity reached 10  ng/test for p30_LFA and 20  ng/test for p72_LFA. Using real-time PCR as a reference, both assays demonstrated high sensitivity (84.21% for p30_LFA and 100% for p72_LFA) with experimentally ASFV-infected pig sera. Specificity was 100% for both LFAs using a panel of PBS-inoculated domestic pig sera. Excellent specificity was also shown for field domestic pig sera (100% for p30_LFA and 93% for p72_LFA) and feral pig sera (100% for both LFAs). Conclusion: The results obtained in this study suggest that p30_LFA and p72_ LFA hold promise as rapid, sensitive, user-friendly, and field-deployable tools for ASF control, particularly in settings with limited laboratory resources. [ABSTRACT FROM AUTHOR]

Published

2024

15. Hybrid chain reaction nanoscaffold-based functional nucleic acid nanomaterial cascaded with rolling circle amplification for signal enhanced miRNA let-7a detection.

Author

Jiang, Hao, Peng, Zhao, Lv, Xuefei, Liu, Ying, Li, Xiaoqiong, and Deng, Yulin

Subjects

*MICRORNA, *DETECTION limit, *NANOSTRUCTURED materials, *PROBLEM solving, *DIAGNOSIS

Abstract

A novel functional nucleic acid (FNA) nanomaterial based on hybrid chain reaction (HCR) nanoscaffolds is proposed to solve the problem of time superposition and repeated primer design in sensitive miRND detection using cascade amplification technique. Rolling circle amplification (RCA) was cascaded with the prepared FNA nanomaterials for miRNA let-7a (as a model target) sensitive detection by lateral flow assay (LFA). Under the optimal conditions, the proposed RCA-FNA-LFA assay demonstrated the specificity and accuracy for miRNA let-7a detection with a detection limit of 1.07 pM, which increased sensitivity by nearly 20 times compared with that of RCA -LFA assay. It is worth noting that the non-target-dependent self-assembly process of HCR nanoscaffolds does not take up the whole detection time, thus, less time is taken than that of the conventional cascaded method. Moreover, the proposed assay does not need to consider the system compatibility between two kinds of isothermal amplification techniques. As for detection of different miRNAs, only the homologous arm of the padlock probe of RCA needs to be changed, while the FNA nanomaterial does not need any change, which greatly simplifies the primer design of the cascaded amplification techniques. With further development, the proposed RCA-FNA-LFA assay might achieve more sensitive and faster results to better satisfy the requirements of clinical diagnosis combing with more sensitive labels or small strip reader. [ABSTRACT FROM AUTHOR]

Published

2024

16. Multiplex Loop-Mediated Isothermal Amplification Coupled Lateral Flow Assay for Point-of-Care Detection of Syphilis.

Author

Priya, Krishnamoorthy, Saranya, Elangovan, Kapoor, Ashish, and Ramya, Mohandass

Subjects

*SEXUALLY transmitted diseases, *RESOURCE-limited settings, *SYPHILIS, *POINT-of-care testing, *DIAGNOSIS

Abstract

Syphilis is a re-emerging sexually transmitted disease caused by the pathogenic spirochete T. pallidum. Every year more than 5 million cases are reported globally. The current diagnostic methods are primarily based on serological assays, which are less sensitive at an early stage of infection. To improve the disease diagnosis, there is a need to develop a rapid, simple, sensitive, and cost-effective point-of-care application, which plays an effective role in the detection of syphilis infection. In this study, we developed a multiplex loop-mediated isothermal amplification coupled lateral flow assay (multiplex LAMP-LFA) for the detection of syphilis. Two different genes, the target amplicon (polA) and the internal control amplicon (human RNase P) were amplified using multiplex LAMP assay. The amplified products were detected using LFA strips coated with Anti-FITC and Anti-DIG antibodies within 5 minutes of flowthrough. Multiplex LAMP LFA detection limit was found to be 3.8 × 103 copies/mL with high specificity. The developed strip was tested with 130 clinically suspected cases and 50 healthy individuals. With the clinical samples, the method shows a sensitivity of 93.84% and a specificity of 100%. The Multiplex LAMP LFA has the potential to overcome the limitations of both Non Treponemal tests and Treponemal tests which are prone to prozone effects and expensive reagents respectively. The proposed method holds promise for sensitive, rapid, and visual detection of T. pallidum, thereby offering a facile and affordable alternative to existing diagnostic methods. This approach is poised to advance the development of point-of-care diagnostics, addressing a critical need in public healthcare, particularly in resource-limited settings. [ABSTRACT FROM AUTHOR]

Published

2024

17. The significance of low titer serum cryptococcal antigen testing from 2017 to 2023 performed in a tertiary care center.

Author

Myint, Thein, Wilson, Jenna R, Bhatt, Mahesh, Irwin, Mark E, and Ribes, Julie A

Abstract

Several false positive low serum cryptococcal antigen (SCrAg) reports by lateral flow assay (LFA) were identified in late 2016 at our tertiary care hospital. After the recall and correction of the problem in the reagent, we studied the significance of SCrAg LFA ≤ 1:10 from January 2017 to October 2023. Of 20 patients with 31 samples of SCrAg LFA ≤ 1:10, 14 patients (70%) were classified as true positives, four (20%) were indeterminate, and only two (10%) patients were false positives. If a new SCrAg LFA ≤ 1:10 is detected, it should be repeated, and additional workup should be pursued. [ABSTRACT FROM AUTHOR]

Published

2024

18. Current and emerging technologies to develop Point-of-Care Diagnostics in medical mycology.

Author

Matsuo, Takahiro, Wurster, Sebastian, Hoenigl, Martin, and Kontoyiannis, Dimitrios P.

Abstract

Introduction: Advances in diagnostic technologies, particularly Point-of-Care Diagnostics (POCDs), have revolutionized clinical practice by providing rapid, user-friendly, and affordable testing at or near the patient's location. POCDs have been increasingly introduced in medical mycology and hold promise to improve patient outcomes in a variety of important human fungal diseases. Areas covered: This review focuses on validated POCDs, particularly lateral flow assays (LFAs), for various fungal diseases. Additionally, we discuss emerging innovative techniques such as body fluid analysis, imaging methods, loop-mediated isothermal amplification (LAMP), microfluidic systems, clustered regularly interspaced short palindromic repeats (CRISPR)-based diagnostics, and the emerging role of artificial intelligence. Expert opinion: Compact and user-friendly POCDs have been increasingly introduced in medical mycology, and some of these tests (e.g. Cryptococcus and Histoplasma antigen LFAs) have become mainstream diagnostics, while others, such as LFA in invasive aspergillosis show promise to become part of our routine diagnostic armamentarium. POCDs offer immense benefits such as timely and accurate diagnostic results, reduced patient discomfort, and lower healthcare costs and might contribute to antifungal stewardship. Integrated fluidics combined with microtechnology having multiplex capabilities will be pivotal in medical mycology. [ABSTRACT FROM AUTHOR]

Published

2024

19. Nucleic Acid Based Testing (NABing): A Game Changer Technology for Public Health.

Author

Khera, Harvinder Kour and Mishra, Rakesh

Abstract

Timely and accurate detection of the causal agent of a disease is crucial to restrict suffering and save lives. Mere symptoms are often not enough to detect the root cause of the disease. Better diagnostics applied for screening at a population level and sensitive detection assays remain the crucial component of disease surveillance which may include clinical, plant, and environmental samples, including wastewater. The recent advances in genome sequencing, nucleic acid amplification, and detection methods have revolutionized nucleic acid-based testing (NABing) and screening assays. A typical NABing assay consists of three modules: isolation of the nucleic acid from the collected sample, identification of the target sequence, and final reading the target with the help of a signal, which may be in the form of color, fluorescence, etc. Here, we review current NABing assays covering the different aspects of all three modules. We also describe the frequently used target amplification or signal amplification procedures along with the variety of applications of this fast-evolving technology and challenges in implementation of NABing in the context of disease management especially in low-resource settings. [ABSTRACT FROM AUTHOR]

Published

2024

20. Enhancing Colorimetric Detection of Nucleic Acids on Nitrocellulose Membranes: Cutting-Edge Applications in Diagnostics and Forensics.

Author

Subhashini, Nidhi, Kerler, Yannick, Menger, Marcus M., Böhm, Olga, Witte, Judith, Stadler, Christian, and Griberman, Alexander

Subjects

MOLECULAR biology, COST control, INDUSTRIAL costs, DETECTION limit, TEST methods

Abstract

This study re-introduces a protein-free rapid test method for nucleic acids on paper based lateral flow assays utilizing special multichannel nitrocellulose membranes and DNA-Gold conjugates, achieving significantly enhanced sensitivity, easier protocols, reduced time of detection, reduced costs of production and advanced multiplexing possibilities. A protein-free nucleic acid-based lateral flow assay (NALFA) with a limit of detection of 1 pmol of DNA is shown for the first time. The total production duration of such an assay was successfully reduced from the currently known several days to just a few hours. The simplification and acceleration of the protocol make the method more accessible and practical for various applications. The developed method supports multiplexing, enabling the simultaneous detection of up to six DNA targets. This multiplexing capability is a significant improvement over traditional line tests and offers more comprehensive diagnostic potential in a single assay. The approach significantly reduces the run time compared to traditional line tests, which enhances the efficiency of diagnostic procedures. The protein-free aspect of this assay minimizes the prevalent complications of cross-reactivity in immunoassays especially in cases of multiplexing. It is also demonstrated that the NALFA developed in this study is amplification-free and hence does not rely on specialized technicians, nor does it involve labour-intensive steps like DNA extraction and PCR processes. Overall, this study presents a robust, efficient, and highly sensitive platform for DNA or RNA detection, addressing several limitations of current methods documented in the literature. The advancements in sensitivity, cost reduction, production time, and multiplexing capabilities mark a substantial improvement, holding great potential for various applications in diagnostics, forensics, and molecular biology. [ABSTRACT FROM AUTHOR]

Published

2024

21. Lateral flow assay sensitivity and signal enhancement via laser µ-machined constrains in nitrocellulose membrane

Author

Gazy Khatmi, Tomas Klinavičius, Martynas Simanavičius, Laimis Silimavičius, Asta Tamulevičienė, Agnė Rimkutė, Indrė Kučinskaitė-Kodzė, Gintautas Gylys, and Tomas Tamulevičius

Subjects

Lateral flow assay, Nitrocellulose, Μ-channels, Laser µ-machining, Reaction time, Calorimetric sensing, Medicine, Science

Abstract

Abstract Lateral flow assay (LFA) is a handful diagnostic technology that can identify severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) and other common respiratory viruses in one strip, which can be tested at the point-of-care without the need for equipment or skilled personnel outside the laboratory. Although its simplicity and practicality make it an appealing solution, it remains a grand challenge to substantially enhance the colorimetric LFA sensitivity. In this work, we present a straightforward approach to enhance the sensitivity of LFA by imposing the flow constraints in nitrocellulose (NC) membranes via a number of vertical femtosecond laser micromachined microchannels which is important for prolonged specific binding interactions. Porous NC membrane surfaces were structured with different widths and densities µ-channels employing a second harmonic of the Yb:KGW femtosecond laser and sample XYZ translation over a microscope objective-focused laser beam. The influence of the microchannel parameters on the vertical wicking speed was evaluated from the video recordings. The obtained results indicated that µ-channel length, width, and density in NC membranes controllably increased the immunological reaction time between the analyte and the labeled antibody by 950%. Image analysis of the colorimetric indicators confirmed that the flow rate delaying strategy enhanced the signal sensitives by 40% compared with pristine NC LFA.

Published

2024

22. Fluorescent Quantum Dots Based Lateral Flow Assay for Rapid Quantitative Detection of Ciliary Neurotrophic Factor in Glaucoma.

Author

Wu, Yue, Zhang, Yihan, Hu, Yubing, Jiang, Nan, Patel, Radhika Pooja, Yetisen, Ali K., and Cordeiro, Maria Francesca

Subjects

*GLAUCOMA, *ENZYME-linked immunosorbent assay, *EYE drops, *QUANTUM dots, *VISION disorders, *MOBILE apps, *INTRAMOLECULAR proton transfer reactions

Abstract

Early and accurate diagnosis of glaucoma is crucial to prevent the progressive deterioration that leads to irreversible vision loss. It is imperative to develop an effective screening tool for glaucoma. Ciliary neurotrophic factor (CNTF) is a tear biomarker implicated in glaucoma pathogenesis. Lateral flow assay (LFA) provides an ideal platform for detection of glaucoma in tear fluid. A quantum dot‐based fluorescence LFA, integrated with a 3D printed readout box, is developed for fast (30 min), sensitive, and quantitative CNTF detection in tears. A standard curve is firstly generated for the quantitative detection of CNTF. The limit of detection (LOD) of the obtained LFA strip at 6.45 pg·mL−1 is comparable to that of the enzyme‐linked immunosorbent assay (ELISA) at 6.42 pg·mL−1. This enables the identification of low CNTF levels (25.7 ± 14.9 pg·mL−1) reported in tear fluid from glaucoma patients. This LFA is found to be highly selective for CNTF and maintained consistent results in different pH condition. The strip remaines stablewhen stored in the darkat room temperature. A smartphone app is developed to simplify analysis and enable prompt and easily obtainable results. This method shows great potential to be a powerful tool for point‐of‐care glaucoma screening. [ABSTRACT FROM AUTHOR]

Published

2024

23. Optimized detection of Salmonella typhimurium using aptamer lateral flow assay.

Author

Abedi, Nafise, Zeinoddini, Mehdi, and Shoushtari, Mohammad

Subjects

SALMONELLA typhimurium, SALMONELLA detection, APTAMERS, FOODBORNE diseases, TYPHOID fever, PATHOGENIC bacteria, SALMONELLA enterica serovar Typhi

Abstract

Salmonella typhimurium, a pathogenic bacterium with significant implications in medicine and the food industry, poses a substantial threat by causing foodborne illnesses such as typhoid fever. Accurate diagnosis of S. typhimurium is challenging due to its overlap symptoms with various diseases. This underscores the need for a precise and efficient diagnostic approach. In this study, we developed a biosensor using the Taguchi optimization method based on aptamer lateral flow assay (LFA) for the detection of S. typhimurium. Therefore, signal probe and nanobioprobe were designed using anti-Salmonella aptamer, conjugated with gold nanoparticles (GNPs), and used in LFA. The strategy of this test is based on a competitive format between the bacteria immobilized on the membrane and the bacteria present in the tested sample. Moreovere, the optimization of various factors affecting the aptamer LFA, including the concentration of bacteria (immobilized and into the sample) and the concentration of nanobioprop, were performed using the Taguchi test designing method. The data showed that the optimal conditions for the LFA reaction was 108 CFU/mL of immobilized bacteria and 1.5 μg/μL of nanobioprop concentration. Then, the visual detection limit of S. typhimurium was estimated as 105 CFU/mL. The reaction results were obtained within 20 min, and there were no significant cross-reactions with other food pathogens. In conclusion, the aptamer-LFA diagnostic method, optimized using the Taguchi approach, emerges as a reliable, straightforward, and accurate tool for the detection of S. typhimurium. Overall, this method can be a portable diagnostic kit for the detection and identification of bacteria. [ABSTRACT FROM AUTHOR]

Published

2024

24. Design of a handheld and portable fluorescence imaging system for quantitative detection of pregnancy-specific biomarkers in cattle.

Author

Hussain, Iftak, Rial, Clara, Boza, Juan, Tompkins, Sheridan, Branen, Josh, Giordano, Julio, and Erickson, David

Subjects

*IMAGING systems, *FLUORESCENCE, *CATTLE pregnancy, *BIOMARKERS, *CATTLE, *FETAL ultrasonic imaging, *PREGNANCY, *CATTLE reproduction

Abstract

Reproductive management significantly impacts dairy farm productivity, necessitating accurate timely pregnancy detection in cattle. This paper presents a novel handheld and portable fluorescence imaging system designed for quantitative assessment of pregnancy-specific biomarkers, addressing the limitations of current detection methods. The objective was to develop a cost-effective, at-farm solution for detecting pregnancy-specific protein B (PSPB) in bovine plasma samples. The system integrates an imaging module and a custom software application, enabling image capture, data processing, and PSPB concentration determination. Calibration utilizing known PSPB concentrations achieved a 0.6 ng/mL limit of detection. Validation encompassed a comparison with a standard ELISA method using 100 bovine plasma samples; minimal bias and good agreement were observed within the linear range of the calibration curve for both methods. The system offers portability, user-friendliness, and potential for multiplex detection, promising real-time, at-farm reproductive management. This study demonstrates the successful development and validation of a portable fluorescence imaging system, offering an efficient and accurate approach to detecting pregnancy-specific biomarkers in cattle. Its implications extend to improving dairy farm productivity by enabling timely and reliable reproductive management practices. [ABSTRACT FROM AUTHOR]

Published

2024

25. Unlocking the NIR‐II AIEgen for High Brightness through Intramolecular Electrostatic Locking.

Author

Wang, Xinyuan, Yang, Xueqin, Jiang, Guanyu, Hu, Zhubin, Liao, Tao, Wang, Guoxin, Zhang, Xun, He, Xinyuan, Zhang, Jianyu, Zhang, Jianquan, Cao, Wuke, Zhang, Kaizhen, Lam, Jacky W. Y., Sun, Jianwei, Sun, Haitao, Liang, Yongye, and Tang, Ben Zhong

Subjects

*FLUOROPHORES, *SIGNAL-to-noise ratio, *MEDICAL research, *CLINICAL medicine, TUMOR surgery

Abstract

Fluorescent imaging and biosensing in the near‐infrared‐II (NIR‐II) window holds great promise for non‐invasive, radiation‐free, and rapid‐response clinical diagnosis. However, it's still challenging to develop bright NIR‐II fluorophores. In this study, we report a new strategy to enhance the brightness of NIR‐II aggregation‐induced emission (AIE) fluorophores through intramolecular electrostatic locking. By introducing sulfur atoms into the side chains of the thiophene bridge in TSEH molecule, the molecular motion of the conjugated backbone can be locked through intramolecular interactions between the sulfur and nitrogen atoms. This leads to enhanced NIR‐II fluorescent emission of TSEH in both solution and aggregation states. Notably, the encapsulated nanoparticles (NPs) of TSEH show enhanced brightness, which is 2.6‐fold higher than TEH NPs with alkyl side chains. The in vivo experiments reveal the feasibility of TSEH NPs in vascular and tumor imaging with a high signal‐to‐background ratio and precise resection for tiny tumors. In addition, polystyrene nanospheres encapsulated with TSEH are utilized for antigen detection in lateral flow assays, showing a signal‐to‐noise ratio 1.9‐fold higher than the TEH counterpart in detecting low‐concentration antigens. This work highlights the potential for developing bright NIR‐II fluorophores through intramolecular electrostatic locking and their potential applications in clinical diagnosis and biomedical research. [ABSTRACT FROM AUTHOR]

Published

2024

26. A Glycoprotein-Based Surface-Enhanced Raman Spectroscopy–Lateral Flow Assay Method for Abrin and Ricin Detection.

Author

Xiao, Lan, Luo, Li, Liu, Jia, Liu, Luyao, Han, Han, Xiao, Rui, Guo, Lei, Xie, Jianwei, and Tang, Li

Subjects

*CONCANAVALIN A, *TOXINS, *BIOLOGICAL weapons, *SERS spectroscopy, *CYTOTOXINS, *RICIN

Abstract

Abrin and ricin, both type II ribosome-inactivating proteins, are toxins of significant concern and are under international restriction by the Chemical Weapons Convention and the Biological and Toxin Weapons Convention. The development of a rapid and sensitive detection method for these toxins is of the utmost importance for the first emergency response. Emerging rapid detection techniques, such as surface-enhanced Raman spectroscopy (SERS) and lateral flow assay (LFA), have garnered attention due to their high sensitivity, good selectivity, ease of operation, low cost, and disposability. In this work, we generated stable and high-affinity nanotags, via an efficient freezing method, to serve as the capture module for SERS-LFA. We then constructed a sandwich-style lateral flow test strip using a pair of glycoproteins, asialofetuin and concanavalin A, as the core affinity recognition molecules, capable of trace measurement for both abrin and ricin. The limit of detection for abrin and ricin was 0.1 and 0.3 ng/mL, respectively. This method was applied to analyze eight spiked white powder samples, one juice sample, and three actual botanic samples, aligning well with cytotoxicity assay outcomes. It demonstrated good inter-batch and intra-batch reproducibility among the test strips, and the detection could be completed within 15 min, indicating the suitability of this SERS-LFA method for the on-site rapid detection of abrin and ricin toxins. [ABSTRACT FROM AUTHOR]

Published

2024

27. A sensitive gold nanoflower-based lateral flow assay coupled with gold staining technique for the detection of SARS-CoV-2 antigen.

Author

Liang, Rushi, Wang, Feiqian, Li, Shanshan, Niu, Yajing, Sun, Yinuo, Hong, Sile, and Fan, Aiping

Subjects

*SARS-CoV-2, *GOLD, *CARBON electrodes

Abstract

An enhanced lateral flow assay (LFA) is presented for rapid and highly sensitive detection of acute respiratory syndrome coronavirus-2 (SARS-CoV-2) antigens with gold nanoflowers (Au NFs) as signaling markers and gold enhancement to amplify the signal intensities. First, the effect of the morphology of gold nanomaterials on the sensitivity of LFA detection was investigated. The results showed that Au NFs prepared by the seed growth method showed a 5-fold higher detection sensitivity than gold nanoparticles (Au NPs) of the same particle size, which may benefit from the higher extinction coefficient and larger specific surface area of Au NFs. Under the optimized experimental conditions, the Au NFs-based LFA exhibited a detection limit (LOD) of 25 pg mL−1 for N protein using 135 nm Au NFs as the signaling probes. The signal was further amplified by using a gold enhancement strategy, and the LOD for the detection of N protein achieved was 5 pg mL−1. The established LFA also exhibited good repeatability and stability and showed applicability in the diagnosis of SARS-CoV-2 infection. [ABSTRACT FROM AUTHOR]

Published

2024

28. Diagnostic accuracy of a novel lateral flow assay for histoplasmosis.

Author

Burrows, Megan, Miller, Janice, Liesman, Rachael M, and Bahr, Nathan C

Abstract

Antigen testing is an important diagnostic tool for histoplasmosis but has limited availability globally. We evaluated the OIDx urine lateral flow antigen assay among 204 persons suspected to have histoplasmosis. Among patients with proven histoplasmosis, sensitivity was 33.3% (3/9, 95% CI 7.5%–70.1%) and specificity 80.5% (157/195, 95% CI 74.3%–85.8%). The MiraVista urine antigen test had better specificity (96.9%) and equal sensitivity. The OIDx test demonstrated 33.3% (3/9) positive agreement and 84.0% (163/194) negative agreement with the MiraVista test. These results should be considered in the context of our low HIV prevalence population with a mixture of pulmonary and disseminated disease. [ABSTRACT FROM AUTHOR]

Published

2024

29. Advances in the Application of Materials in the Fabrication of Lateral Flow Assay-Based Methods for Food Safety Control.

Author

Abdullaev, Sherzod, Abomughaid, Mosleh Mohammad, Elawady, Ahmed, Ibrahim, Safaa Mohammed, Abd Al Khidhir Abdullah, Sajid, Khalid, Hassan, Mohammed Ali Jeddoa, Zuhair, Majdi, Hasan, Jabir, Majid, Al-Rubaye, Ameer H., Kumar, Abhinav, Al-Anber, Mohammed A., and Jasim, Dheyaa J.

Subjects

*FOOD supply, *OPTICAL detectors, *LIGHT sources, *PHOTODETECTORS, *SIGNAL-to-noise ratio, *FOOD safety

Abstract

Lateral flow assays (LFAs) offer some attractive features that are utilized as portable devices in food safety control. However, these platforms have faced challenges such as low specificity, poor detection ability, providing only semi-quantitative and qualitative results, limiting their practical uses. These challenges may sometimes produce false positive or false negative results, leading to unreliability. To address these challenges, many research groups have focused on improving their analytical performances, incorporating multiplex detection, and applying new strategies for quantitative detection. This review article discusses the application of new materials in fabricating LFAs for food safety control. It also explores the influence of various detection techniques, including optical and electrochemical in fabricating sensing probes for food control. The technology gaps of the portable LFAs, including the creation of high-throughput light sources and detectors for optical and sensitive electrochemical substrates to enhance the signal-to-noise ratio, were discussed. By considering the advantages and disadvantages, investors are interested in giving priority to the development of commercial LFA-based platforms for food safety control. [ABSTRACT FROM AUTHOR]

Published

2024

30. Inoculum Size and False-Positive Detection of NDM- and OXA-48-Type Carbapenemases Using Two Multiplex Lateral Flow Assays.

Author

Lee, Chung-Ho, Cao, Huiluo, Jiang, Shuo, Wong, Tammy Ting-Yan, Tse, Cindy Wing-Sze, and Ho, Pak-Leung

Subjects

*WHOLE genome sequencing, *AMINO acid sequence, *SERRATIA, *CARBAPENEMASE, *MEDICAL microbiology

Abstract

The NG-Test CARBA 5 and Carbapenem-resistant K.N.I.V.O. Detection K-Set are lateral flow assays (LFAs) that rapidly detect five carbapenemases (KPC, NDM, IMP, VIM and OXA-48-like). We evaluated the effect of inoculum size on the performance of these two assays using 27 Enterobacterales isolates. Whole-genome sequencing (WGS) was used as the reference method. Using the NG-Test CARBA 5, eight Serratia spp. and six M. morganii isolates showed false-positive NDM results with a high inoculum. Using the Carbapenem-resistant K.N.I.V.O. Detection K-Set, eight M. morganii, four Serratia spp. and one K. pneumoniae isolates showed false-positive NDM and/or OXA-48-like bands at large inoculum sizes, while the other two M. morganii isolates demonstrated false-positive NDM and OXA-48-like results at all inoculum sizes. The false-positive bands varied in intensity. WGS confirmed that no carbapenemase gene was present. No protein sequence with a ≥50% identity to NDM or OXA-48-like enzymes was found. This study emphasizes the importance of assessing inoculum size in the diagnostic evaluation of LFAs. [ABSTRACT FROM AUTHOR]

Published

2024

31. Histoplasmosis in domestic cats: new minimally invasive diagnostic techniques.

Author

Palha de Brito Jardim, Mariana, Hanzlicek, Andrew S, Cid, Gabriela C, Makita, Mario T, and Souza, Heloisa JM

Abstract

Objectives: The aim of the present study was to evaluate minimally invasive diagnostic techniques, such as the semi-quantitative indirect IgG antibody enzyme immunoassay (EIA) using blood serum and the urinary lateral flow assay (LFA), for the detection of Histoplasma capsulatum in cats with histoplasmosis. Methods: Eight client-owned domestic cats diagnosed with histoplasmosis were selected based on cytological, histopathological, mycological, molecular or antigenic techniques. The blood serum of these animals was tested in a semi-quantitative indirect IgG antibody EIA for the detection of H capsulatum. Urine samples were tested for H capsulatum antigen using LFA. Results: Five cats were seropositive on IgG EIA (5/8, with diagnostic sensitivity equal to 62.5%; 95% confidence interval [CI] 24.5–91.5) and five cats were positive on H capsulatum antigen LFA (5/7, with diagnostic sensitivity equal to 71.4%; 95% CI 29.0–96.3). The combined diagnostic sensitivity when interpreted in parallel was 87.5% (7/8, 95% CI 47.3–99.7). The specificity for the anti- Histoplasma IgG EIA was 100% (95% CI 71.5–100) and for the H capsulatum antigen LFA it was also 100% (95% CI 71.5–100). Conclusions and relevance: The semi-quantitative indirect IgG antibody EIA for the detection of H capsulatum in blood serum and the urinary LFA for the detection of the same agent emerge as new minimally invasive diagnostic techniques that can assist in the approach to disseminated and pulmonary feline histoplasmosis, especially when both techniques are considered together. [ABSTRACT FROM AUTHOR]

Published

2024

32. Integrated Ultrasound‐Enrichment and Machine Learning in Colorimetric Lateral Flow Assay for Accurate and Sensitive Clinical Alzheimer's Biomarker Diagnosis

Author

Shuqing Wang, Yan Zhu, Zhongzeng Zhou, Yong Luo, Yan Huang, Yibiao Liu, and Tailin Xu

Subjects

alzheimer's disease, colorimetric biosensing, lateral flow assay, machine learning, ultrasound enrichment, Science

Abstract

Abstract The colloidal gold nanoparticle (AuNP)‐based colorimetric lateral flow assay (LFA) is one of the most promising analytical tools for point‐of‐care disease diagnosis. However, the low sensitivity and insufficient accuracy still limit its clinical application. In this work, a machine learning (ML)‐optimized colorimetric LFA with ultrasound enrichment is developed to achieve the sensitive and accurate detection of tau proteins for early screening of Alzheimer's disease (AD). The LFA device is integrated with a portable ultrasonic actuator to rapidly enrich microparticles using ultrasound, which is essential for sample pre‐enrichment to improve the sensitivity, followed by ML algorithms to classify and predict the enhanced colorimetric signals. The results of the undiluted serum sample testing show that the protocol enables efficient classification and accurate quantification of the AD biomarker tau protein concentration with an average classification accuracy of 98.11% and an average prediction accuracy of 99.99%, achieving a limit of detection (LOD) as sensitive as 10.30 pg mL−1. Further point‐of‐care testing (POCT) of human plasma samples demonstrates the potential use of LFA in clinical trials. Such a reliable lateral flow immunosensor with high precision and superb sensing performance is expected to put LFA in perspective as an AD clinical diagnostic platform.

Published

2024

33. Nanotechnology in Bacterial Livestock Disease Diagnosis

Author

Mamatha, Dodla, Maurya, Saumya, Swati, Kumari, Kumar, Alla Yaswanth Naveen, Varshney, Rajat, Yadav, Pavan Kumar, Prasad, Minakshi, Ghosh, Mayukh, Singh, Rameshwar, Editorial Board Member, Malik, Yashpal Singh, Series Editor, Gehlot, A. K., Editorial Board Member, Raj, G. Dhinakar, Editorial Board Member, Bujarbaruah, K. M., Editorial Board Member, Goyal, Sagar M., Editorial Board Member, Tikoo, Suresh K., Editorial Board Member, Prasad, Minakshi, editor, Kumar, Rajesh, editor, Ghosh, Mayukh, editor, Syed, Shafiq M., editor, and Chakravarti, Soumendu, editor

Published

2024

34. Design of a Printer–Based Line Dispenser for Lateral Flow Assay Fabrication

Author

Luong, Tien, Van, An, Tran, Doan Hong Ngoc, Nguyen, Dang Phu-Hai, Nguyen, Thanh-Qua, Tran, Le-Giang, Huynh, Khon, Magjarević, Ratko, Series Editor, Ładyżyński, Piotr, Associate Editor, Ibrahim, Fatimah, Associate Editor, Lackovic, Igor, Associate Editor, Rock, Emilio Sacristan, Associate Editor, Vo, Van Toi, editor, Nguyen, Thi-Hiep, editor, Vong, Binh Long, editor, Le, Ngoc Bich, editor, and Nguyen, Thanh Qua, editor

Published

2024

35. In vitro selection of DNA aptamers against staphylococcal enterotoxin A

Author

Ricardo Oliveira, Eva Pinho, Maria Margarida Barros, Nuno Filipe Azevedo, and Carina Almeida

Subjects

SEA, Aptamers, SELEX, Lateral flow assay, Medicine, Science

Abstract

Abstract Staphylococcal enterotoxin A (SEA) is the most frequently reported in staphylococcal food poisoning (SFP) outbreaks. Aptamers are single-stranded nucleic acids that are seen as promising alternatives to antibodies in several areas, including diagnostics. In this work, systematic evolution of ligands by exponential enrichment (SELEX) was used to select DNA aptamers against SEA. The SELEX protocol employed magnetic beads as an immobilization matrix for the target molecule and real-time quantitative PCR (qPCR) for monitoring and optimizing sequence enrichment. After 10 selection cycles, the ssDNA pool with the highest affinity was sequenced by next generation sequencing (NGS). Approximately 3 million aptamer candidates were identified, and the most representative cluster sequences were selected for further characterization. The aptamer with the highest affinity showed an experimental dissociation constant (KD) of 13.36 ± 18.62 nM. Increased temperature negatively affected the affinity of the aptamer for the target. Application of the selected aptamers in a lateral flow assay demonstrated their functionality in detecting samples containing 100 ng SEA, the minimum amount capable of causing food poisoning. Overall, the applicability of DNA aptamers in SEA recognition was demonstrated and characterized under different conditions, paving the way for the development of diagnostic tools.

Published

2024

36. Evaluation of a point of care lateral flow assay for antibody detection following SARS CoV-2 mRNA vaccine series

Author

Lee, Won and Kurien, Philip

Subjects

Biomedical and Clinical Sciences, Clinical Sciences, Biotechnology, Emerging Infectious Diseases, Clinical Research, Biodefense, Infectious Diseases, Prevention, Vaccine Related, Immunization, Detection, screening and diagnosis, 4.1 Discovery and preclinical testing of markers and technologies, Infection, Good Health and Well Being, Humans, BNT162 Vaccine, 2019-nCoV Vaccine mRNA-1273, Point-of-Care Systems, COVID-19, Prospective Studies, SARS-CoV-2, Antibodies, Viral, Point-of-care, Antibodies, Vaccination, Lateral flow assay, Immunology

Abstract

BackgroundBreakthrough cases of SARS-CoV-2 infection correlate with decreased antibody immunity following mRNA vaccination. Measuring kinetics of vaccine efficacy using traditional laboratory approaches is more expensive and can be impractical. In this study, we evaluated the diagnostic performance of a validated COVID-19 point-of-care lateral flow assay (LFA) kit in detecting post-vaccination antibody response.MethodsWe conducted a prospective cohort study of whole blood and plasma samples to evaluate the performance of a LFA in detecting SARS-CoV-2-specific antibodies following mRNA vaccination compared to enzyme-linked immunosorbent assays (ELISAs). Health care workers at 2 tertiary centers who completed an initial BNT162b2 (n = 103) or mRNA-1273 (n = 35) vaccine series were enrolled between June and August of 2021. We performed an exploratory analysis to correlate band strength and antibody concentration of LFAs and ELISAs respectively.ResultsWhen compared to the ELISA, LFA results showed similar test positivity for plasma samples (P = 0.55), but not for whole blood samples (P

Published

2023

37. Spectrally separated dual-label upconversion luminescence lateral flow assay for cancer-specific STn-glycosylation in CA125 and CA15-3.

Author

Ekman, Miikka, Salminen, Teppo, Raiko, Kirsti, Soukka, Tero, Gidwani, Kamlesh, and Martiskainen, Iida

Subjects

*PHOTON upconversion, *OVARIAN epithelial cancer, *LUMINESCENCE, *ANTIBODY titer, *OVARIAN cancer

Abstract

Multiplexed lateral flow assays (LFAs) offer efficient on-site testing by simultaneously detecting multiple biomarkers from a single sample, reducing costs. In cancer diagnostics, where biomarkers can lack specificity, multiparameter detection provides more information at the point-of-care. Our research focuses on epithelial ovarian cancer (EOC), where STn-glycosylated forms of CA125 and CA15-3 antigens can better discriminate cancer from benign conditions. We have developed a dual-label LFA that detects both CA125-STn and CA15-3-STn within a single anti-STn antibody test line. This utilizes spectral separation of green (540 nm) and blue (450 nm) emitting erbium (NaYF4:Yb3+, Er3+)- and thulium (NaYF4: Yb3+, Tm3+)-doped upconverting nanoparticle (UCNP) reporters conjugated with antibodies against the protein epitopes in CA125 or CA15-3. This technology allows the simultaneous detection of different antigen variants from a single test line. The developed proof-of-concept dual-label LFA was able to distinguish between the ascites fluid samples from diagnosed ovarian cancer patients (n = 10) and liver cirrhosis ascites fluid samples (n = 3) used as a negative control. The analytical sensitivity of CA125-STn for the dual-label LFA was 1.8 U/ml in buffer and 3.6 U/ml in ascites fluid matrix. Here we demonstrate a novel approach of spectrally separated measurement of STn-glycosylated forms of two different cancer-associated protein biomarkers by using UCNP reporter technology. [ABSTRACT FROM AUTHOR]

Published

2024

38. Sample-to-answer lateral flow assay with integrated plasma separation and NT-proBNP detection.

Author

Strohmaier-Nguyen, Dan, Horn, Carina, and Baeumner, Antje J.

Subjects

*ERYTHROCYTES, *BLOOD volume, *MEMBRANE separation, *IMMUNE complexes, *BLOOD agglutination, *HEMODILUTION

Abstract

Through enabling whole blood detection in point-of-care testing (POCT), sedimentation-based plasma separation promises to enhance the functionality and extend the application range of lateral flow assays (LFAs). To streamline the entire process from the introduction of the blood sample to the generation of quantitative immune-fluorescence results, we combined a simple plasma separation technique, an immunoreaction, and a micropump-driven external suction control system in a polymer channel-based LFA. Our primary objective was to eliminate the reliance on sample-absorbing separation membranes, the use of active separation forces commonly found in POCT, and ultimately allowing finger prick testing. Combining the principle of agglutination of red blood cells with an on-device sedimentation-based separation, our device allows for the efficient and fast separation of plasma from a 25-µL blood volume within a mere 10 min and overcomes limitations such as clogging, analyte adsorption, and blood pre-dilution. To simplify this process, we stored the agglutination agent in a dried state on the test and incorporated a filter trench to initiate sedimentation-based separation. The separated plasma was then moved to the integrated mixing area, initiating the immunoreaction by rehydration of probe-specific fluorophore-conjugated antibodies. The biotinylated immune complex was subsequently trapped in the streptavidin-rich detection zone and quantitatively analyzed using a fluorescence microscope. Normalized to the centrifugation-based separation, our device demonstrated high separation efficiency of 96% and a yield of 7.23 µL (= 72%). Furthermore, we elaborate on its user-friendly nature and demonstrate its proof-of-concept through an all-dried ready-to-go NT-proBNP lateral flow immunoassay with clinical blood samples. [ABSTRACT FROM AUTHOR]

Published

2024

39. In vitro selection of DNA aptamers against staphylococcal enterotoxin A.

Author

Oliveira, Ricardo, Pinho, Eva, Barros, Maria Margarida, Azevedo, Nuno Filipe, and Almeida, Carina

Subjects

*APTAMERS, *DEOXYRIBOZYMES, *NUCLEOTIDE sequencing, *ENTEROTOXINS, *NUCLEIC acids, *FOOD poisoning, *DNA

Abstract

Staphylococcal enterotoxin A (SEA) is the most frequently reported in staphylococcal food poisoning (SFP) outbreaks. Aptamers are single-stranded nucleic acids that are seen as promising alternatives to antibodies in several areas, including diagnostics. In this work, systematic evolution of ligands by exponential enrichment (SELEX) was used to select DNA aptamers against SEA. The SELEX protocol employed magnetic beads as an immobilization matrix for the target molecule and real-time quantitative PCR (qPCR) for monitoring and optimizing sequence enrichment. After 10 selection cycles, the ssDNA pool with the highest affinity was sequenced by next generation sequencing (NGS). Approximately 3 million aptamer candidates were identified, and the most representative cluster sequences were selected for further characterization. The aptamer with the highest affinity showed an experimental dissociation constant (KD) of 13.36 ± 18.62 nM. Increased temperature negatively affected the affinity of the aptamer for the target. Application of the selected aptamers in a lateral flow assay demonstrated their functionality in detecting samples containing 100 ng SEA, the minimum amount capable of causing food poisoning. Overall, the applicability of DNA aptamers in SEA recognition was demonstrated and characterized under different conditions, paving the way for the development of diagnostic tools. [ABSTRACT FROM AUTHOR]

Published

2024

40. Development of DNA-Based Lateral Flow Assay for Detection of LDLR Gene Mutation for Familial Hypercholesterolemia.

Author

SAIDI, Lina Khalida, MD RANI, Zam Zureena, SULAIMAN, Siti Aishah, JAMAL, Rahman, ISMAIL, Aziah, ALIM, Anis Amirah, AYOB, Sharipah Nadzirah Syed Ahmad, DEE Chang Fu, HAMZAH, Azrul Azlan, and ABDUL MURAD, Nor Azian

Subjects

*DNA analysis, *PREDICTIVE tests, *RESEARCH funding, *POLYMERASE chain reaction, *FAMILIAL hypercholesterolemia, *GENES, *GENETIC variation, *LOW density lipoproteins, *IMMUNOASSAY, *GENETIC mutation, *POINT-of-care testing, *CELL receptors, *SINGLE nucleotide polymorphisms, *SEQUENCE analysis, *GENOTYPES, *SENSITIVITY & specificity (Statistics)

Abstract

Background: The techniques for detecting single nucleotide polymorphisms (SNP) require lengthy and complex experimental procedures and expensive instruments that may only be available in some laboratories. Thus, a deoxyribonucleic acid (DNA)-based lateral flow assay (LFA) was developed as a point-of-care test (POCT) diagnostic tool for genotyping. In this study, single nucleotide variation (E101K) in the low-density lipoprotein receptor (LDLR) gene leading to familial hypercholesterolemia (FH) was chosen as a model. Methods: Hypercholesterolemic individuals (n = 103) were selected from the Malaysian Cohort project (UKM Medical Molecular Biology Institute) while the control samples were selected from the Biobank (UKM Medical Molecular Biology Institute). The DNA samples were isolated from whole blood. Polymerase chain reaction (PCR) amplification process was performed using bifunctional labelled primers specifically designed to correspond to the variant that differentiates wild-type and mutant DNA for visual detection on LFA. The variant was confirmed using Sanger sequencing, and the sensitivity and specificity of the LFA detection method were validated using the Agena MassARRAY® technique. Results: Out of 103 hypercholesterolemic individuals, 5 individuals (4.8%) tested positive for E101K, LDLR mutation and the rest, including healthy control individuals, tested negative. This result was concordant with Sanger sequencing and Agena MassARRAY®. These five individuals could be classified as Definite FH, as the DNA diagnosis was confirmed. The sensitivity and specificity of the variant detection by LFA is 100% compared to results using the genotyping method using Agena MassARRAY®. Conclusion: The developed LFA can potentially be used in the POC setting for detecting the E101K variant in the LDLR gene. This LFA can also be used to screen family members with E101K variant in the LDLR gene and is applicable for other SNP's detection. [ABSTRACT FROM AUTHOR]

Published

2024

41. Recent advances in the biosensors application for reviving infectious disease management in silkworm model: a new way to combat microbial pathogens.

Author

Mondal, Rittick, Shaw, Shubhajit, Mandal, Pankaj, Dam, Paulami, and Mandal, Amit Kumar

Abstract

Silkworms are an essential economic insect but are susceptible to diseases during rearing, leading to yearly losses in cocoon production. While chemical control is currently the primary method to reduce disease incidences, its frequent use can result in loss of susceptibility to pathogens and, ultimately, antibiotic resistance. To effectively prevent or control disease, growers must accurately, sensitively, and quickly detect causal pathogens to determine the best management strategies. Accurate recognition of diseased silkworms can prevent pathogen transmission and reduce cocoon loss. Different pathogen detection methods have been developed to achieve this objective, but they need more precision, specificity, consistency, and promptness and are generally unsuitable for in-situ analysis. Therefore, detecting silkworm diseases under rearing conditions is still an unsolved problem. As a consequence of this, there is an enormous interest in the development of biosensing systems for the early and precise identification of pathogens. There is also significant room for improvement in translating novel biosensor techniques to identify silkworm pathogens. This study explores the types of silkworm diseases, their symptoms, and their causal microorganisms. Moreover, we compare the traditional approaches used in silkworm disease diagnostics along with the latest sensing technologies, with a precise emphasis on lateral flow assay-based biosensors that can detect and manage silkworm pathogens. [ABSTRACT FROM AUTHOR]

Published

2024

42. Evaluation of the Analytical Performance of a Lateral Flow Assay for the Detection of Anti- Coccidioides Antibodies in Human Sera—Argentina.

Author

Viale, Mariana N., Caceres, Diego H., Mansilla, Patricia E., Lopez-Joffre, María C., Vivot, Flavia G., Motter, Andrea N., Toranzo, Adriana I., and Canteros, Cristina E.

Subjects

*ENDEMIC diseases, *MYCOSES, *IMMUNOGLOBULINS, *COCCIDIOIDOMYCOSIS, *LABORATORY equipment & supplies, *SERUM

Abstract

Coccidiomycosis is a potentially life-threatening fungal infection endemic to certain regions of Argentina. The infection is caused by Coccidioides spp. and is primarily diagnosed by Coccidioides antibody (Ab) detection. Access to rapid, highly accurate diagnostic testing is critical to ensure prompt antifungal therapy. The sōna Coccidioides Ab Lateral Flow Assay (LFA) performs faster and requires less laboratory infrastructure and equipment compared with other Ab detection assays, potentially providing a substantial improvement for rapid case screening in coccidioidomycosis-endemic regions; however, validation of this test is needed. Thus, we aimed to evaluate the analytical performance of the sōna Coccidioides Ab (LFA) and compare agreement with anti-Coccidioides Ab detection assays. A total of 103 human sera specimens were tested, including 25 specimens from patients with coccidioidomycosis and 78 from patients without coccidioidomycosis. The sōna Coccidioides Ab Lateral Flow Assay (LFA) was performed with a sensitivity of 88%, and specificity and accuracy of 87%. Furthermore, the Coccidioides Ab LFA had good agreement with other anti-Coccidioides Ab detection assays. Our findings suggest the sōna Coccidioides Ab LFA has satisfactory performance and may be useful for diagnosing coccidioidomycosis in endemic regions. [ABSTRACT FROM AUTHOR]

Published

2024

43. Iridium Nanoparticles as Highly Effective Peroxidase Mimics: Synthesis, Characterization, and Application in Biosensing.

Author

Gao, Weiwei, Sun, Xiaohan, Yishay, Tamar, Wei, Zhiyuan, Zhu, Xiangyu, Kim, Moon J., and Xia, Xiaohu

Subjects

PEROXIDASE, IRIDIUM, HORSERADISH peroxidase, CARCINOEMBRYONIC antigen, NANOPARTICLES, ROUGH surfaces, DETECTION limit

Abstract

Peroxidase mimics made of inorganic nanomaterials as alternatives to natural peroxidases have been extensively developed over the past few decades, owing to their superior properties relative to their natural counterparts. Nevertheless, it has been still a challenge to substantially enhance the catalytic efficiency of peroxidase mimics. In this work, we report a type of highly efficient peroxidase mimics that are made of iridium nanoparticles (Ir NPs) with rough surfaces. The Ir NPs possess an ultrahigh catalytic efficiency with a catalytic constant (Kcat) at the regime of 1010 s−1, orders of magnitude higher than the Kcat of horseradish peroxidase as a natural peroxidase. As a proof‐of‐concept demonstration, the Ir NPs were applied to colorimetric lateral flow assay (CLFA). Using carcinoembryonic antigen as a model disease biomarker, the Ir NPs‐based CLFA achieved a low limit of detection (LoD) of 39 pg/mL, which was ~28 times lower than the LoD of conventional gold nanoparticles‐based CLFA using the same antibodies. [ABSTRACT FROM AUTHOR]

Published

2024

44. Seasonal variation of mycotoxin levels in poultry feeds and feed ingredients in Oyo State, Nigeria.

Author

Esan, Oluwaseun Olanrewaju, Okanlawon, Abioye Abiodun, Ogunro, Bamidele Nyemike, Abiola, John Olusoji, Olaogun, Sunday Charles, and Aliyu, Victor Ayodele

Abstract

Mycotoxins pose a major problem to poultry production as a result of feed contamination which has deleterious consequences such as production losses and human health risks. A total of 158 chicken feed samples were randomly collected from 46 consenting poultry farms in Oyo State throughout the wet season (April–October; 91 samples) and the dry season (November–March; 67 samples), including compounded feed (n = 129) and feed ingredients (n = 29). Samples were promptly transported to the laboratory in sterile plastic vials for lateral flow assay for mycotoxins using six different commercial mycotoxin test kits each for aflatoxin B1, zearalenone, deoxynivalenol, ochratoxin A, fumonisin, and T-2 toxin/HT-2 toxin. Summary values of mycotoxin levels (µg/kg) in the feedstuffs were represented as frequency or median (and range). Fisher exact or Mann-Whitney U tests were carried out where appropriate at α = 0.05. Every sample contained at least four mycotoxins. Aflatoxins and fumonisin co-occurred in 80% of the samples. Aflatoxin and fumonisin concentrations were above the permissible limits in 32.9% and 18.4% respectively in feedstuff sampled in the dry season while the values were 17.1% and 6.3% respectively during the wet season. Among feed ingredients, peanut cake and maize had the highest median concentration of aflatoxin and fumonisin, respectively. Median aflatoxin concentration in the feedstuff was significantly higher than the permissible limit irrespective of season. There is a need to frequently monitor mycotoxin levels of feed and feed ingredients and improve storage system for feed ingredients in order to reduce the risk associated with high mycotoxin intake in poultry. [ABSTRACT FROM AUTHOR]

Published

2024

45. NT-proBNP detection with a one-step magnetic lateral flow channel assay.

Author

Strohmaier-Nguyen, Dan, Horn, Carina, and Baeumner, Antje J.

Subjects

*CHANNEL flow, *IMMUNOASSAY, *POINT-of-care testing, *BLOOD volume, *BLOOD testing, *DETECTION limit

Abstract

Point-of-care sensors targeting blood marker analysis must be designed to function with very small volumes since acquiring a blood sample through a simple, mostly pain-free finger prick dramatically limits the sample size and comforts the patient. Therefore, we explored the potential of converting a conventional lateral flow assay (LFA) for a significant biomarker into a self-contained and compact polymer channel-based LFA to minimize the sample volume while maintaining the analytical merits. Our primary objective was to eliminate the use of sample-absorbing fleece and membrane materials commonly present in LFAs. Simultaneously, we concentrated on developing a ready-to-deploy one-step LFA format, characterized by dried reagents, facilitating automation and precise sample transport through a pump control system. We targeted the detection of the heart failure biomarker NT-proBNP in only 15 µL human whole blood and therefore implemented strategies that ensure highly sensitive detection. The biosensor combines streptavidin-functionalized magnetic beads (MNPs) as a 3D detection zone and fluorescence nanoparticles as signal labels in a sandwich-based immunoassay. Compared to the currently commercialized LFA, our biosensor demonstrates comparable analytical performance with only a tenth of the sample volume. With a detection limit of 43.1 pg∙mL−1 and a mean error of 18% (n ≥ 3), the biosensor offers high sensitivity and accuracy. The integration of all-dried long-term stable reagents further enhances the convenience and stability of the biosensor. This lateral flow channel platform represents a promising advancement in point-of-care diagnostics for heart failure biomarkers, offering a user-friendly and sensitive platform for rapid and reliable testing with low finger-prick blood sample volumes. [ABSTRACT FROM AUTHOR]

Published

2024

46. Organic Fluorophores with Large Stokes Shift for the Visualization of Rapid Protein and Nucleic Acid Assays.

Author

Yang, Jingkai, Xu, Ziyi, Yu, Le, Wang, Bingyun, Hu, Ruibin, Tang, Jiahu, Lv, Jiahui, Xiao, Hongjun, Tan, Xuan, Wang, Guanghui, Li, Jia‐Xin, Liu, Ying, Shao, Pan‐Lin, and Zhang, Bo

Subjects

*STOKES shift, *DATA visualization, *EXCITATION spectrum, *MONKEYPOX, *FLUORESCENT dyes, *FLEXIBLE structures, *FLUOROPHORES, *NUCLEIC acids

Abstract

Organic small‐molecule fluorophores, characterized by flexible chemical structure and adjustable optical performance, have shown tremendous potential in biosensing. However, classical organic fluorophore motifs feature large overlap between excitation and emission spectra, leading to the requirement of advanced optical set up to filter desired signal, which limits their application in scenarios with simple settings. Here, a series of wavelength‐tunable small‐molecule fluorescent dyes (PTs) bearing simple organic moieties have been developed, which exhibit Stokes shift up to 262 nm, molar extinction coefficients ranged 30,000–100,000 M−1 cm−1, with quantum yields up to 54.8 %. Furthermore, these dyes were formulated into fluorescent nanoparticles (PT‐NPs), and applied in lateral flow assay (LFA). Consequently, limit of detection for SARS‐CoV‐2 nucleocapsid protein reached 20 fM with naked eye, a 100‐fold improvement in sensitivity compared to the pM detection level for colloidal gold‐based LFA. Besides, combined with loop‐mediated isothermal amplification (LAMP), the LFA system achieved the visualization of single copy level nucleic acid detection for monkeypox (Mpox). [ABSTRACT FROM AUTHOR]

Published

2024

47. LATERAL FLOW ASSAY AND POLYMERASE CHAIN REACTION BASED DIAGNOSIS AND MANAGEMENT OF FELINE PARVOVIRAL INFECTION IN A PERSIAN KITTEN.

Author

B., Athulya, Y., Ajith, and P. V., Tresamol

Subjects

*POLYMERASE chain reaction, *VETERINARY hospitals, *VETERINARIANS, *VETERINARY health risk assessment, *SPECIES diversity

Abstract

Feline parvoviral infection, caused by the highly contagious feline panleukopenia virus (FPV), poses a significant threat to feline populations worldwide. This paper presents a case study detailing the successful diagnosis and management of feline parvoviral infection in a seven-month-old Persian kitten. Diagnostic evaluation was performed using a comprehensive approach including Complete Blood Count (CBC), Lateral flow assay and Polymerase Chain Reaction (PCR). The treatment focused on administering supportive care along with antibiotics. In conclusion, this case study underscores the importance of using appropriate molecular diagnostic techniques like LFA and PCR for timely prompt diagnosis and aggressive supportive care in the management of feline parvoviral infection, infection, particularly in susceptible breeds like Persian cats. [ABSTRACT FROM AUTHOR]

Published

2024

48. Barcode-style lateral flow immunochromatographic strip for the semi-quantitative detection of ochratoxin A in coffee samples.

Author

Contreras Alvarez, Luis Alberto, Lazo Jara, Marcia Daniela, Campos, Fabiana Vasconcelos, de Oliveira, Jairo Pinto, and Guimarães, Marco César Cunegundes

Subjects

*OCHRATOXINS, *POISONS, *GOLD nanoparticles, *COFFEE, *FARM produce, *DETECTION limit

Abstract

Ochratoxin A (OTA) is a mycotoxin contaminating agricultural products produced by fungi, associated with important toxic effects. Thus, the development of fast, sensitive, and economical approaches for OTA detection is crucial. In this study, a barcode-style lateral flow assay for the semi-quantitative detection of OTA in coffee samples was developed. To achieve this goal, a BSA-OTA complex was immobilized in three test zones to compete with OTA molecules in the sample for binding with anti-OTA antibodies labeled with gold nanoparticles. Different concentrations of OTA in the sample produced distinct colour patterns, allowing semi-quantification of the analyte. The assay exhibited high sensitivity, with a limit of detection of 2.5 µg.L−1, and high reproducibility, with variation coefficient values between 2% and 13%. Moreover, the colour patterns obtained in the analysis with coffee samples were similar to the results obtained with standard OTA solutions, demonstrating a reliable applicability in real samples. [ABSTRACT FROM AUTHOR]

Published

2024

49. Point-of-care detection of Monkeypox virus clades using high-performance upconversion nanoparticle-based lateral flow assay.

Author

Jin, Birui, Ma, Chuan, Zhang, Chuyao, Yin, Huiling, Zhao, Guoxu, Hu, Jie, and Li, Zedong

Abstract

There is an urgent need for a point-of-care testing (POCT) method in developing and underserved regions to distinguish between two Monkeypox virus (MPXV) clades, given their varying transmissibility and clinical manifestations. In this paper, we target the specific complement protein gene fragment of two MPXV clades and construct a high-performance upconversion nanoparticles–based lateral flow assay (UCNPs-based LFA) with double T-lines and a shared C-line. This enables qualitative and quantitative dual-mode detection when combined with a smartphone and a benchtop fluorescence analyzer. The developed LFA exhibits stable performance, convenient operation, rapid readout (within 8 min), and a much lower limit of detection (LOD) (~ pM level) compared to existing POCT methods. The proposed detection platform demonstrates significant potential for pathogen diagnosis using a POCT approach. [ABSTRACT FROM AUTHOR]

Published

2024

50. Resistivity detection of perfluoroalkyl substances with fluorous polyaniline in an electrical lateral flow sensor.

Author

Sohyun Park, Gordon, Collette T., and Swager, Timothy M.

Subjects

*FLUOROALKYL compounds, *FLOW sensors, *PERFLUOROOCTANOIC acid, *POLYANILINES, *ENVIRONMENTAL health

Abstract

Perfluoroalkyl substances (PFAS), known as "forever chemicals," are a growing concern in the sphere of human and environmental health. In response, rapid, reproducible, and inexpensive methods for PFAS detection in the environment and home water supplies are needed. We have developed a simple and inexpensive perfluoroalkyl acid detection method based on an electrically read lateral flow assay (e-LFA). Our method employs a fluorous surfactant formulation with undoped polyaniline (F-PANI) fabricated to create test lines for the lateral flow assay. In perfluoroalkyl acid sensing studies, an increase in conductivity of the F-PANI film is caused by acidification and doping of PANI. A conductivity enhancement by 104-fold can be produced by this method, and we demonstrate a limit of detection for perfluorooctanoic acid (PFOA) of 400 ppt and perfluorobutanoic acid of 200 ppt. This method for PFOA detection can be expanded for wide-scale environmental and at-home water testing. [ABSTRACT FROM AUTHOR]

Published

2024