Your search keyword '"Ying Feng Chang"' showing total 45 results

1. Memristive True Random Number Generator with Intrinsic Two-Dimensional Physical Unclonable Function

Author

Bo Liu, Jing Ma, Han Hsiang Tai, Dharmendra Verma, Mamina Sahoo, Ying-Feng Chang, Hanyuan Liang, Shiwei Feng, Lain-Jong Li, Tuo-Hung Hou, and Chao-Sung Lai

Subjects

Materials Chemistry, Electrochemistry, Electronic, Optical and Magnetic Materials

Published

2023

2. Bi2O2Se-Based True Random Number Generator for Security Applications

Author

Bo Liu, Ying-Feng Chang, Juzhe Li, Xu Liu, Le An Wang, Dharmendra Verma, Hanyuan Liang, Hui Zhu, Yudi Zhao, Lain-Jong Li, Tuo-Hung Hou, and Chao-Sung Lai

Subjects

General Engineering, General Physics and Astronomy, General Materials Science

Published

2022

3. Bi

Author

Bo, Liu, Ying-Feng, Chang, Juzhe, Li, Xu, Liu, Le An, Wang, Dharmendra, Verma, Hanyuan, Liang, Hui, Zhu, Yudi, Zhao, Lain-Jong, Li, Tuo-Hung, Hou, and Chao-Sung, Lai

Abstract

The fast development of the Internet of things (IoT) promises to deliver convenience to human life. However, a huge amount of the data is constantly generated, transmitted, processed, and stored, posing significant security challenges. The currently available security protocols and encryption techniques are mostly based on software algorithms and pseudorandom number generators that are vulnerable to attacks. A true random number generator (TRNG) based on devices using stochastically physical phenomena has been proposed for auditory data encryption and trusted communication. In the current study, a Bi

Published

2023

4. Easy and Rapid Approach to Obtaining the Binding Affinity of Biomolecular Interactions Based on the Deep Learning Boost

Author

Ying-Feng Chang, Sin-You Chen, Chi-Ching Lee, Jenhui Chen, and Chao-Sung Lai

Subjects

Kinetics, Deep Learning, Artificial Intelligence, Reproducibility of Results, Analytical Chemistry, Protein Binding

Abstract

Recently, the deep learning (DL) dimension of artificial intelligence has received much attention from biochemical researchers and thus has gradually become the key approach adopted in the area of biosensing applications. Studies have shown that the use of DL techniques for sensing can not only shorten the time of data analysis but also significantly increase the accuracy of data analysis and prediction, resulting in the performance improvement of biosensing systems in comparison to conventional methods. However, obtaining reliable equilibrium and rate constants of biomolecular interactions during the detection process remains difficult and time-consuming to date. In this study, we propose a transformed model based on the deep transfer learning and sequence-to-sequence autoencoder that can successfully transfer the SPR sensorgram to the protein-binding constants, that is, the association rate constant (

Published

2022

5. Amplification-free Detection of Cytomegalovirus miRNA Using a Modification-free Surface Plasmon Resonance Biosensor

Author

Ying-Feng Chang, Ja-an Annie Ho, Li-Chen Su, Yi-Te Chou, Jen-Fu Hsu, and Chia-Yu Cheng

Subjects

Detection limit, Analyte, Chemistry, 010401 analytical chemistry, Congenital cytomegalovirus infection, Infant, Newborn, Cytomegalovirus, Metal Nanoparticles, Biosensing Techniques, Surface Plasmon Resonance, 010402 general chemistry, medicine.disease, 01 natural sciences, 0104 chemical sciences, Analytical Chemistry, Nonspecific adsorption, MicroRNAs, microRNA, medicine, Humans, Gold, Surface plasmon resonance, Biosensor, Plasmon, Biomedical engineering

Abstract

Cytomegalovirus (CMV) is the most frequent cause of congenital infection worldwide; congenital CMV may lead to significant mortality, morbidity, or long-term sequelae, such as sensorineural hearing loss. The current study presents a newly designed surface plasmon resonance (SPR) biosensor for CMV-specific microRNAs that does not involve extra care for receptor immobilization or treatment to prevent fouling on bare gold surfaces. The modification-free approach, which utilizes a poly-adenine [poly(A)]-Au interaction, exhibited a high affinity that was comparable to that of the gold-sulfur (Au-S) interaction. In addition, magnetic nanoparticles (MNPs) were used to separate the analyte from complex sample matrixes that significantly reduced nonspecific adsorption. Moreover, the MNPs also played an important role in SPR signal amplification due to the binding-induced change in the refractive index. Our SPR biosensing platform was used successfully for the multi-detection of the microRNAs, UL22A-5p, and UL112-3p, which were associated with CMV. Our SPR biosensor offered the detection limits of 108 fM and 24 fM for UL22A-5p and UL112-3p, respectively, with an R2 of 0.9661 and 0.9985, respectively. The precision of this biosensor has an acceptable CV (coefficient of variation) value of

Published

2021

6. Targeting triple-negative breast cancer with an aptamer-functionalized nanoformulation: a synergistic treatment that combines photodynamic and bioreductive therapies

Author

Ling-Chun Hung, Chih-Yu Lin, Ying-Feng Chang, Chia-Min Yang, Jyun-Wei Wen, Ja-an Annie Ho, Yi-Te Chou, and Li-Chen Wu

Subjects

medicine.medical_treatment, Pharmaceutical Science, Medicine (miscellaneous), Photodynamic therapy, Triple Negative Breast Neoplasms, 02 engineering and technology, Applied Microbiology and Biotechnology, chemistry.chemical_compound, Mice, 0302 clinical medicine, Prodrugs, Triple-negative breast cancer, Aptamers, Nucleotide, DNA aptamer, 021001 nanoscience & nanotechnology, Silicon Dioxide, Combined Modality Therapy, Tumor Burden, lcsh:R855-855.5, 030220 oncology & carcinogenesis, Molecular Medicine, Female, Tirapazamine, 0210 nano-technology, lcsh:Medical technology, Combination therapy, lcsh:Biotechnology, Biomedical Engineering, Bioengineering, Antineoplastic Agents, Bioreductive prodrug, 03 medical and health sciences, Breast cancer, lcsh:TP248.13-248.65, Cell Line, Tumor, medicine, Triple‐negative breast cancer, Animals, Humans, Tumor hypoxia, Research, medicine.disease, Hollow mesoporous silica nanoparticle, Xenograft Model Antitumor Assays, Oxygen, chemistry, Photochemotherapy, Cancer cell, Cancer research, Nanoparticles, Nanocarriers, Reactive Oxygen Species

Abstract

Background Areas of hypoxia are often found in triple-negative breast cancer (TNBC), it is thus more difficult to treat than other types of breast cancer, and may require combination therapies. A new strategy that combined bioreductive therapy with photodynamic therapy (PDT) was developed herein to improve the efficacy of cancer treatment. Our design utilized the characteristics of protoporphyrin IX (PpIX) molecules that reacted and consumed O2 at the tumor site, which led to the production of cytotoxic reactive oxygen species (ROS). The low microenvironmental oxygen levels enabled activation of a bioreductive prodrug, tirapazamine (TPZ), to become a toxic radical. The TPZ radical not only eradicated hypoxic tumor cells, but it also promoted therapeutic efficacy of PDT. Results To achieve the co-delivery of PpIX and TPZ for advanced breast cancer therapy, thin-shell hollow mesoporous Ia3d silica nanoparticles, designated as MMT-2, was employed herein. This nanocarrier designed to target the human breast cancer cell MDA-MB-231 was functionalized with PpIX and DNA aptamer (LXL-1), and loaded with TPZ, resulting in the formation of TPZ@LXL-1-PpIX-MMT-2 nanoVector. A series of studies confirmed that our nanoVectors (TPZ@LXL-1-PpIX-MMT-2) facilitated in vitro and in vivo targeting, and significantly reduced tumor volume in a xenograft mouse model. Histological analysis also revealed that this nanoVector killed tumor cells in hypoxic regions efficiently. Conclusions Taken together, the synergism and efficacy of this new therapeutic design was confirmed. Therefore, we concluded that this new therapeutic strategy, which exploited a complementary combination of PpIX and TPZ, functioned well in both normoxia and hypoxia, and is a promising medical procedure for effective treatment of TNBC.

Published

2020

7. Rapid screening of Mycobacterium tuberculosis complex (MTBC) in clinical samples by a modular portable biosensor

Author

Azharul Alom, Hsin-Chih Lai, Nan Fu Chiu, Briliant Adhi Prabowo, Yu Ying Lee, Li Chen Su, Kou-Chen Liu, Ying Feng Chang, Koji Hatanaka, and Parthasarathi Pal

Subjects

0301 basic medicine, Tuberculosis, Pcr cloning, Nanotechnology, 02 engineering and technology, 03 medical and health sciences, Materials Chemistry, medicine, Electrical and Electronic Engineering, Instrumentation, biology, business.industry, Metals and Alloys, Remote area, 021001 nanoscience & nanotechnology, Condensed Matter Physics, medicine.disease, biology.organism_classification, Virology, Surfaces, Coatings and Films, Electronic, Optical and Magnetic Materials, Nontuberculous mycobacterium, 030104 developmental biology, Mycobacterium tuberculosis complex, Sputum, medicine.symptom, 0210 nano-technology, business, Biosensor, Nested polymerase chain reaction

Abstract

Mycobacterium tuberculosis complex (MTBC) is the well-known causative agents of tuberculosis (TB). Transmission of bacteria via airborne routes makes infection control difficult. Hence, rapid and accurate identification of TB from clinical sputum samples is essential for minimizing the spread of the disease. However, traditional bacterial identification methods for TB are time consuming and labor intensive. The aim of this study is to propose a straightforward and rapid screening platform for MTBC using a portable organic light-emitting diode- (OLED-) based surface plasmon resonance (SPR) biosensor integrated with a nested PCR technique. Experimentally, the limit of detection (LOD) for MTBC PCR products measurement was estimated to be around 63 pg/mL. In addition, the biosensor can successfully differentiate MTBC from other nontuberculous mycobacterium strains. In 600 clinical sputum specimens, the sensitivity and specificity were 96.6% (86/89) and 98.4% (503/511), respectively. These results indicate that the portable OLED-based SPR biosensor may be taken into account as a suitable and convenient tool employed in the remote area and developing country for diagnosing TB diseases.

Published

2018

8. Enhanced Plasmonic Biosensor Utilizing Paired Antibody and Label-Free Fe3O4 Nanoparticles for Highly Sensitive and Selective Detection of Parkinson’s α-Synuclein in Serum

Author

Chiung-Mei Chen, Kuo-Hsuan Chang, Kou-Chen Liu, Samuel Husin Surya Mandala, Ying-Feng Chang, Chao-Sung Lai, Kuo-Kang Liu, Tai-Jan Liu, and Mochamad Januar

Subjects

medicine.drug_class, Fe3O4 nanoparticles, Clinical Biochemistry, MathematicsofComputing_GENERAL, Biosensing Techniques, Monoclonal antibody, Article, Antibodies, RS, Mice, chemistry.chemical_compound, α-synuclein, paired antibody, medicine, Animals, Humans, QD, Surface plasmon resonance, Plasmon, Detection limit, biology, Chemistry, Parkinson Disease, General Medicine, QP, R1, human serum, Highly sensitive, TheoryofComputation_MATHEMATICALLOGICANDFORMALLANGUAGES, alpha-Synuclein, Parkinson’s disease, biology.protein, Nanoparticles, Rabbits, Antibody, Biosensor, surface plasmon resonance, TP248.13-248.65, Iron oxide nanoparticles, RC, Biotechnology, Biomedical engineering

Abstract

Parkinson’s disease (PD) is an acute and progressive neurodegenerative disorder, and diagnosis of the disease at its earliest stage is of paramount importance to improve the life expectancy of patients. α-Synuclein (α-syn) is a potential biomarker for the early diagnosis of PD, and there is a great need to develop a biosensing platform that precisely detects α-syn in human body fluids. Herein, we developed a surface plasmon resonance (SPR) biosensor based on the label-free iron oxide nanoparticles (Fe3O4 NPs) and paired antibody for the highly sensitive and selective detection of α-syn in serum samples. The sensitivity of the SPR platform is enhanced significantly by directly depositing Fe3O4 NPs on the Au surface at a high density to increase the decay length of the evanescent field on the Au film. Moreover, the utilization of rabbit-type monoclonal antibody (α-syn-RmAb) immobilized on Au films allows the SPR platform to have a high affinity-selectivity binding performance compared to mouse-type monoclonal antibodies as a common bioreceptor for capturing α-syn molecules. As a result, the current platform has a detection limit of 5.6&nbsp, fg/mL, which is 20,000-fold lower than that of commercial ELISA. The improved sensor chip can also be easily regenerated to repeat the α-syn measurement with the same sensitivity. Furthermore, the SPR sensor was applied to the direct analysis of α-syn in serum samples. By using a format of paired α-syn-RmAb, the SPR sensor provides a recovery rate in the range from 94.5% to 104.3% to detect the α-syn in diluted serum samples precisely. This work demonstrates a highly sensitive and selective quantification approach to detect α-syn in human biofluids and paves the way for the future development in the early diagnosis of PD.

Published

2021

9. Reducing scan time of paediatric 99mTc-DMSA SPECT via deep learning

Author

Ying-Feng Chang, Huai-Hsuan Huang, Chwan-Fwu Lin, Chun-Chia Cheng, and H.-Y. Chiu

Subjects

Image quality, business.industry, 99mTc-DMSA, Diagnostic accuracy, General Medicine, 030218 nuclear medicine & medical imaging, Computed tomographic, Scan time, 03 medical and health sciences, 0302 clinical medicine, Dimercaptosuccinic acid, 030220 oncology & carcinogenesis, Spect imaging, Medicine, Radiology, Nuclear Medicine and imaging, business, Nuclear medicine, Technetium-99m, medicine.drug

Abstract

AIM To investigate the feasibility of reducing the scan time of paediatric technetium 99m (99mTc) dimercaptosuccinic acid (DMSA) single-photon-emission computed tomographic (SPECT) using a deep learning (DL) method. MATERIAL AND METHODS A total of 112 paediatric 99mTc-DMSA renal SPECT scans were analysed retrospectively. Of the 112 examinations, 88 (84 for training and four for validation) were used to train a DL-based model that could generate full-acquisition-time reconstructed SPECT images from half-time acquisition. The remaining 24 examinations were used to evaluate the performance of the trained model. RESULTS DL-based SPECT images obtained from half-time acquisition have image quality similar to the standard clinical SPECT images obtained from full-acquisition-time acquisition. Moreover, the accuracy, sensitivity and specificity of the DL-based SPECT images for detection of affected kidneys were 91.7%, 83.3%, and 100%, respectively. CONCLUSION These preliminary results suggest that DL has the potential to reduce the scan time of paediatric 99mTc-DMSA SPECT imaging while maintaining diagnostic accuracy.

Published

2021

10. Tyramine detection using PEDOT:PSS/AuNPs/1-methyl-4-mercaptopyridine modified screen-printed carbon electrode with molecularly imprinted polymer solid phase extraction

Author

Ja-an Annie Ho, Ying-Feng Chang, Chi-Wei Lai, Chang-Feng Tsai, Hsin-Yi Chan, Ying Li, Li-Chen Wu, and Cheng-Hung Hsieh

Subjects

Pyridines, Biomedical Engineering, Biophysics, Metal Nanoparticles, Tyramine, Biosensing Techniques, Thiophenes, 02 engineering and technology, 01 natural sciences, Molecular Imprinting, chemistry.chemical_compound, PEDOT:PSS, Electrochemistry, Animals, Humans, Solid phase extraction, Electrodes, Conductive polymer, Chromatography, Solid Phase Extraction, 010401 analytical chemistry, Molecularly imprinted polymer, Electrochemical Techniques, Equipment Design, General Medicine, 021001 nanoscience & nanotechnology, Carbon, 0104 chemical sciences, Milk, chemistry, Colloidal gold, Polystyrenes, Gold, Differential pulse voltammetry, 0210 nano-technology, Molecular imprinting, Biotechnology

Abstract

Tyramine (4-hydroxyphenethylamine), which is a monoamine metabolized by monoamine oxidase (MAO), exists widely in plants, animals, fermented foods, and salted foods. The incidence of hypertension, or "cheese effect", which is associated with a large dietary intake of tyramine while taking MAO inhibitors has been reported; therefore, the measurement of tyramine is an urgent concern. Herein, an efficient approach that integrates a molecular imprinting polymer for solid phase extraction (MISPE) technique with a sensitive electrochemical sensing platform (SPCE/PEDOT: PSS/AuNP/1-m-4-MP) for the quantification of tyramine is presented. Enhanced electrode conductivity was achieved sequentially by constructing a conductive polymer (PEDOT: PSS) on a screen-printed carbon electrode (SPCE), followed by electrodeposition with gold nanoparticles (AuNPs) and, finally, by modification with positively charged 1-methyl-4-mercaptopyridine (1-m-4-MP) using an Au-S bond. Tyramine was isolated selectively and pre-concentrated by the MISPE technique; electroanalysis that used differential pulse voltammetry (DPV) in NaOH (0.1M, pH 13) was conducted successively. Experimental parameters (such as modes of electrode modification, ratio of PEDOT: PSS, pH of electrolyte, time required for AuNP deposition, and 1-m-4-MP concentrations) that were associated with optimal detection conditions were evaluated also. We obtained a linear concentration range (5-100nM, R2=0.9939) with LOD and sensitivity at 2.31nM, and 3.11μAnM-1cm-2, respectively. The applicability of our technique was demonstrated by analyzing tyramine in spiked serum and milk. The feature of our newly developed analytical methods that coupled sample pre-treatment (sample clean-up and pre-concentration) with sensitive detection makes it a promising tool for quantifying of tyramine.

Published

2017

11. Diagnosing the RGS11 Lung Cancer Biomarker: The Integration of Competitive Immunoassay and Isothermal Nucleic Acid Exponential Amplification Reaction

Author

Ying-Feng Chang, Ja-an Annie Ho, Yi-Qi Huang, Kun-Ming Wu, Neng-Yao Shih, and Amily Fang-ju Jou

Subjects

Lung Neoplasms, 010402 general chemistry, 01 natural sciences, Analytical Chemistry, Metastasis, Antigen-Antibody Reactions, Magnetics, Limit of Detection, medicine, Biomarkers, Tumor, Humans, Histidine, Lung cancer, Immunoassay, medicine.diagnostic_test, biology, Chemistry, 010401 analytical chemistry, Serum samples, medicine.disease, 0104 chemical sciences, biology.protein, Cancer research, Nucleic acid, Biomarker (medicine), Competitive immunoassay, Antibody, Antibodies, Immobilized, Nucleic Acid Amplification Techniques, Oligopeptides, RGS Proteins

Abstract

Lung cancer is the primary cause of cancer-associated mortality worldwide, which makes the identification of reliable lung cancer biomarkers a pressing need for early diagnosis and prognosis. RGS11, which is a regulator of G-protein signaling and also a lung cancer biomarker, plays an important role in cancer-related metastasis. However, trace levels of RGS11 (in the range of pg/mL) in serum samples make it difficult to quantify using currently available enzyme-linked immunosorbent assay (ELISA) kits and, therefore, this hinders progress in the discovery of new approaches for treating lung cancer. The aim of this study is to develop a rapid, sensitive, and reliable platform for the detection of RGS11 lung cancer biomarker based on a suspension immunoassay coupled with an isothermal exponential amplification strategy. Our study was initiated by the functionalization of magnetic beads with anti-RGS11 antibodies (Ab-MB) by EDC (1-ethyl-3-(3-(dimethylamino)propyl)-carbodiimide)/NHS ( N-hydroxysulfosuccinimide) activation. Ab-MB served as a sensing probe for the competitive immunorecognitions between known concentrations of His-tag RGS11 and unknown concentrations of target RGS11 in serum. The reporter anti-His antibodies, which were modified with primers that induced an isothermal exponential amplification reaction, were subsequently introduced to the reaction mixture that resulted in the formation of immunosandwich complexes. The exponentially amplified DNA duplex that was intercalated with SYBR Green was designated as a signal reporter for the assessment of RGS11 in an inversely proportional relationship. The sensing platform was excellent for the determination of RGS11 with an exceptional detection limit of 148 fg/mL and a linear dynamic range of 0.1-10 pg/mL using a minimal sample volume (20 μL) and with a reaction time of 1.5 h. In addition, we challenged the sensing platform with RGS11-spiked samples (in 2× diluted serum), and an acceptable recovery rate (90%) was observed. Finally, 24 clinical samples acquired from patients with advanced lung cancer (C), inflammation (I), and heart failure (H) were analyzed by this newly developed sensing platform and a commercial ELISA kit for validation. This sensing platform has potential in biomedical applications for clinically diagnosing liquid biopsy samples for patients with lung cancer. Moreover, the universal design of our proposed system is easily adapted to detect any other protein if a His-tag recombinant protein is available.

Published

2019

12. Four-Layered Sensor Chip for Wavelength-based Surface Plasmon Resonance Biosensor

Author

Ying-Feng Chang, Briliant Adhi Prabowo, Kou-Chen Liu, and Azharul Alom

Subjects

Wavelength, Materials science, business.industry, Optoelectronics, Surface plasmon resonance biosensor, Surface plasmon resonance, business, Chip, Biosensor, Refractive index

Abstract

In this study, we designed a four-layered (Al/Au/Ag/Au) sensor chip for surface plasmon resonance (SPR) biosensor and demonstrated that the structure shows a better performance than conventional SPR chip in our system.

Published

2019

13. Performance of white organic light-emitting diode for portable optical biosensor

Author

Kou-Chen Liu, Nan Fu Chiu, Ying Feng Chang, Briliant Adhi Prabowo, Li Chen Su, and Hsin-Chih Lai

Subjects

Materials science, 02 engineering and technology, 01 natural sciences, 010309 optics, Optics, 0103 physical sciences, Materials Chemistry, OLED, Electrical and Electronic Engineering, Surface plasmon resonance, Instrumentation, Diode, Detection limit, business.industry, Metals and Alloys, 021001 nanoscience & nanotechnology, Condensed Matter Physics, Ray, Surfaces, Coatings and Films, Electronic, Optical and Magnetic Materials, Optoelectronics, Prism, 0210 nano-technology, business, Biosensor, Refractive index

Abstract

A white organic light-emitting diode (OLED) with enhanced sensitivity has been demonstrated as a novel light source in a portable surface plasmon resonance (SPR) optical biosensor. A disposable broad-spectral OLED was employed on the leg side of isosceles trapezoid prism for a fixed angle of incident light. Bimetallic Ag/Au composition layers were used as sensing layers and their structures evaluated such that the wavelength resonance occurred at the peak of the light spectrum. The SPR signal detection applied differential intensities at two reference wavelengths. We show that the integration of a white spectral OLED on an SPR sensor improved the sensor's sensitivity by ∼19.29% compared to an SPR sensor system using a green OLED for a bimetallic Ag/Au sensing layer. The limit of detection (LOD) of 2.4 × 10−6 refractive index units (RIU) has been established in the range of refractive index samples (Δn) around 3.6 × 10−3 RIU. This optical sensor demonstrated the capability of rapid, real-time monitoring operation. The activation of self-assembled monolayer (SAM), antibody immobilization, and biomolecular interaction detection of immunoglobulin G (IgG) protein are recorded successfully with a detection limit around 40.3 pg/mL.

Published

2016

14. Simple Strategy for Rapid and Sensitive Detection of Avian Influenza A H7N9 Virus Based on Intensity-Modulated SPR Biosensor and New Generated Antibody

Author

Ying Feng Chang, Yi Ming Arthur Chen, Wen Hung Wang, Ruei Yu Yuan, Sheng-Fan Wang, Li Chen Su, Yu Wen Huang, Yi Wei Hong, Kuan Hsuan Chen, Yen-Hsu Chen, and Po-Liang Lu

Subjects

0301 basic medicine, medicine.drug_class, Hemagglutinin Glycoproteins, Influenza Virus, medicine.disease_cause, Monoclonal antibody, Influenza A Virus, H7N9 Subtype, 01 natural sciences, Virus, Analytical Chemistry, Birds, 03 medical and health sciences, Limit of Detection, Influenza, Human, Influenza A virus, medicine, Animals, Humans, Surface plasmon resonance, Detection limit, biology, Chemistry, 010401 analytical chemistry, Antibodies, Monoclonal, Equipment Design, Surface Plasmon Resonance, Virology, Influenza A virus subtype H5N1, 0104 chemical sciences, 030104 developmental biology, Influenza in Birds, biology.protein, Antibody, Biosensor, Antibodies, Immobilized

Abstract

In 2013 a new reassortant avian influenza A H7N9 virus emerged in China, causing human infection with high mortality. An accurate and timely diagnosis is crucial for controlling the outbreaks of the disease. We therefore propose a simple strategy for rapidly and sensitively detecting the H7N9 virus using an intensity-modulated surface plasmon resonance (IM-SPR) biosensor integrated with a new generated monoclonal antibody. The novel antibody exhibits significant specificity to recognize H7N9 virus compared with other clinical human influenza isolates (p0.01). Experimentally, the detection limit of the proposed approach for H7N9 virus detection is estimated to be 144 copies/mL, which is a 20-fold increase in sensitivity compared with homemade target-captured ELISA using the identical antibody. For the measurement of mimic clinical specimens containing the H7N9 virus mixed with nasal mucosa from flu-like syndrome patients, the detection limit is calculated to be 402 copies/mL, which is better than conventional influenza detection assays; quantitative reverse transcription polymerase chain reaction (qRT-PCR) and rapid influenza diagnostic test (RIDT). Most importantly, the assay time took less than 10 min. Combined, the results of this study indicate that the proposed simple strategy demonstrates high sensitivity and time-saving in H7N9 virus detection. By incorporating a high specific recognizer, the proposed technique has the potential to be used in applications and development of other emerging or re-emerging microbe detection platforms.

Published

2018

15. Diagnosis of human metapneumovirus in patients hospitalized with acute lower respiratory tract infection using a metal-enhanced fluorescence technique

Author

Pei-Chun Yu, Yu-Chi Chen, Ying-Feng Chang, Chien Chou, Yhu-Chering Huang, Yi-Chun Liu, and Kuo-Chien Tsao

Subjects

Male, medicine.medical_specialty, viruses, Biosensing Techniques, Immunofluorescence, Sensitivity and Specificity, Gastroenterology, Fluorescence, Human metapneumovirus, Nasopharyngeal aspirate, Nasopharynx, Virology, Internal medicine, Acute lower respiratory tract infection, medicine, Humans, In patient, Respiratory Tract Infections, Respiratory samples, Paramyxoviridae Infections, biology, medicine.diagnostic_test, Clinical Laboratory Techniques, Diagnostic Tests, Routine, Infant, Newborn, Sputum, Infant, virus diseases, biology.organism_classification, respiratory tract diseases, Hospitalization, medicine.anatomical_structure, Child, Preschool, Female, Metapneumovirus, medicine.symptom, Respiratory tract

Abstract

Human metapneumovirus (hMPV) is a common respiratory tract infection in children. However, conventional immunofluorescence assays (IFAs) for detecting hMPV in respiratory samples have limited reliability with a sensitivity and false-negative predictive value of 58.1% and approximately 17.8%, respectively. In this study, hMPV was measured in 91 clinical respiratory samples (55 sputum and 36 nasopharyngeal aspirate samples), which were obtained from children under three years of age, utilizing our previously developed high-throughput metal-enhanced fluorescence (MEF)-based biosensor (HT-MEFB). The sensitivity of HT-MEFB for hMPV detection in the 91 samples was improved by up to 77.4% compared with that obtained with IFAs, and the specificity of HT-MEFB for hMPV detection was 91.7%. In addition, the specificity and accuracy obtained after the selection of 55 sputum samples as the analyzed specimen reached 92.3% and 90.9%, respectively. Thus, in terms of accuracy, high throughput, and sensitivity, HT-MEFB exhibits considerable potential for hMPV detection in clinical settings.

Published

2015

16. Application of an OLED integrated with BEF and giant birefringent optical (GBO) film in a SPR biosensor

Author

Li Chen Su, Ying Feng Chang, Yen-Heng Lin, Kou-Chen Liu, Chien Chou, Yu Ying Lee, Nan Fu Chiu, Briliant Adhi Prabowo, Hsin-Chih Lai, and Chih-Jen Yu

Subjects

Detection limit, Brightness, Birefringence, Materials science, business.industry, education, Metals and Alloys, Condensed Matter Physics, Noise (electronics), Signal, Surfaces, Coatings and Films, Electronic, Optical and Magnetic Materials, Optics, Materials Chemistry, OLED, Optoelectronics, Electrical and Electronic Engineering, Surface plasmon resonance, business, Instrumentation, Biosensor

Abstract

This study aims to improve the signal sensitivity of a portable surface plasmon resonance (SPR) sensor system. An organic light emitting diode (OLED) was integrated with a brightness enhancement film (BEF) and a giant birefringent optical (GBO) film as a light source to construct the SPR based on an OLED–BEF–GBO film. A method for calculating the SPR signal by summing the differences in optical intensity at two different wavelengths was used to minimize the effect of the noise error that particularly occurs in a portable SPR device. The experimental results indicated that the limit of detection (LOD) of the SPR using an Au sensing layer has an effective refractive index change of 7.8 × 10−6 RIU. Furthermore, for the SPR using Au/Ag sensing metal layers, an LOD of 3.2 × 10−6 RIU was achieved due to the improved sensitivity and resolution value compared with the use of an Au sensing layer. The use of the SPR device in a bio-affinity assay to test the interaction between goat anti-mouse immunoglobulin G (IgG) and mouse IgG protein achieved a LOD of approximately 40.6 pg/mL.

Published

2014

17. An innovative application of time-domain spectroscopy on localized surface plasmon resonance sensing

Author

Ying Feng Chang, Cheng-Chung Lee, Chien Cheng Kuo, Ja-an Annie Ho, Yu Xen Lin, Huai Yi Wang, Li Chen Su, and Meng Chi Li

Subjects

Multidisciplinary, Materials science, Spectrometer, business.industry, 02 engineering and technology, 021001 nanoscience & nanotechnology, 01 natural sciences, Article, 010309 optics, Interferometry, 0103 physical sciences, Optoelectronics, Time domain, Surface plasmon resonance, 0210 nano-technology, business, Spectroscopy, Biosensor, Refractive index, Localized surface plasmon

Abstract

White-light scanning interferometry (WLSI) is often used to study the surface profiles and properties of thin films because the strength of the technique lies in its ability to provide fast and high resolution measurements. An innovative attempt is made in this paper to apply WLSI as a time-domain spectroscopic system for localized surface plasmon resonance (LSPR) sensing. A WLSI-based spectrometer is constructed with a breadboard of WLSI in combination with a spectral centroid algorithm for noise reduction and performance improvement. Experimentally, the WLSI-based spectrometer exhibits a limit of detection (LOD) of 1.2 × 10−3 refractive index units (RIU), which is better than that obtained with a conventional UV-Vis spectrometer, by resolving the LSPR peak shift. Finally, the bio-applicability of the proposed spectrometer was investigated using the rs242557 tau gene, an Alzheimer’s and Parkinson’s disease biomarker. The LOD was calculated as 15 pM. These results demonstrate that the proposed WLSI-based spectrometer could become a sensitive time-domain spectroscopic biosensing platform.

Published

2017

18. Biosensor Based on Degree of Coherence of A Pair of Surface Plasma Waves

Author

Chien-Wa Ho, Chien Chou, Ying-Feng Chang, Li-Chen Su, Sheng-Yi Chang, Nai-Chuan Chen, and Cheng-Chung Lee

Subjects

Detection limit, Dynamic range, Chemistry, Waves in plasmas, Analytical chemistry, Degree of coherence, Dielectric, Plasma, Molecular physics, Surfaces, Coatings and Films, Electronic, Optical and Magnetic Materials, General Energy, Excited state, Physical and Theoretical Chemistry, Biosensor

Abstract

A novel “degree of coherence paired surface plasma wave biosensor” (DOC-PSPWB) is proposed wherein the principle of detection involves the degree of coherence of highly correlated surface plasma waves when these are excited on a metal/dielectric interface within the DOC-PSPWB. Using the sensor, the concentration of total PSA (t-PSA) in a phosphate-buffered saline solution was measured, and a detection limit of 0.015pg/mL was determined experimentally. Finally, the dynamic range of the DOC-PSPWB when used on samples with ultralow molecular concentrations is discussed.

Published

2012

19. Detection of urine cofilin-1 from patients hospitalized in the intensive care unit using the metal-enhanced fluorescence technique

Author

Yu-Sun Chang, Yi Jang Lee, Cheng Han Chao, Lih-Yuan Lin, Ying Feng Chang, Pei Chun Yu, Hsien Ching Chen, and Chien Chou

Subjects

medicine.medical_specialty, business.industry, Metals and Alloys, Acute kidney injury, Urology, macromolecular substances, Urine, Cofilin, Condensed Matter Physics, medicine.disease, Actin cytoskeleton, Intensive care unit, Surfaces, Coatings and Films, Electronic, Optical and Magnetic Materials, law.invention, Excretion, law, Cofilin 1, Shock (circulatory), Materials Chemistry, Medicine, Electrical and Electronic Engineering, medicine.symptom, business, Instrumentation

Abstract

Ischemic shock and acute kidney injury (AKI) are the primary causes of high mortality in the intensive care unit (ICU) patients. In a rat model, ischemia is able to disrupt the actin cytoskeleton of proximal tubule cells. This effect is associated with the expression and excretion of actin depolymerizing factor (ADF)/cofilin. However, the human evidence of ADF/cofilin excreted in ICU patients with ischemic shock and/or AKI remains to be addressed. Here we developed a 96-well high-throughput, localized surface plasmon-coupled fluorescence biosensor (HT-LSPCFB) combining a sandwich immunoassay to measure the urine cofilin-1 in 57 ICU patients and 8 healthy controls. A linear relationship between 1 and 10 5 pg/mL of human cofilin-1 recombinant protein was determined ( R 2 = 0.9845) in this study. The highest normalized cofilin-1 levels obtained in the ICU patients and healthy adults were 1.985 and 0.726, respectively. The mean normalized cofilin-1 level of total ICU patients (0.7403) was also significantly higher than that of healthy adults (0.4759) ( p = 0.0052). An examination of the receiver operating characteristic (ROC) curve and area under curve (AUC) showed that cofilin-1 is acceptable for assessing the ICU patients (AUC = 0.775) and shock (AUC = 0.713), but not for AKI (AUC = 0.681). Therefore, the HT-LSPCFB is suitable for detecting the urine cofilin-1 which potentially becomes a prognostic factor for ICU patients with shock.

Published

2012

20. Rapid and Highly Sensitive Method for Influenza A (H1N1) Virus Detection

Author

Chien Chou, Ying-Feng Chang, Yu-Sun Chang, Chung-Ming Chang, Ying-Chang Li, Li-Chen Su, and Ya-Ling Tseng

Subjects

Detection limit, Time Factors, Chromatography, Swine, Chemistry, Analytical chemistry, Equipment Design, Surface Plasmon Resonance, medicine.disease_cause, Orders of magnitude (mass), Analytical Chemistry, Highly sensitive, Influenza A Virus, H1N1 Subtype, Real-time polymerase chain reaction, Orthomyxoviridae Infections, Limit of Detection, In vivo, Influenza A virus, medicine, Animals, Humans, Surface plasmon resonance, Biosensor

Abstract

In this study, we applied the developed paired surface plasma waves biosensor (PSPWB) in a dual-channel biosensor for rapid and sensitive detection of swine-origin influenza A (H1N1) virus (S-OIV). In conjunction with the amplitude ratio of the signal and the reference channel, the stability of the PSPWB system is significantly improved experimentally. The theoretical limit of detection (LOD) of the dual-channel PSPWB for S-OIV is 30 PFU/mL (PFU, plaque-forming unit), which was calculated from the fitting curve of the surface plasmon resonance signal with a S-OIV clinical isolate concentration in phosphate-buffered saline (PBS) over a range of 18-1.8 × 10(6) PFU/mL. The LOD is 2 orders of magnitude more sensitive than the commercial rapid influenza diagnostic test at worst and an order of magnitude less sensitive than real-time quantitative polymerase chain reaction (PCR) whose LOD for S-OIV in PBS was determined to be 3.5 PFU/mL in this experiment. Furthermore, under in vivo conditions, this experiment demonstrates that the assay successfully measured S-OIV at a concentration of 1.8 × 10(2) PFU/mL in mimic solution, which contained PBS-diluted normal human nasal mucosa. Most importantly, the assay time took less than 20 min. From the results, the dual-channel PSPWB potentially offers great opportunity in developing an alternative PCR-free diagnostic method for rapid, sensitive, and accurate detection of viral pathogens with epidemiological relevance in clinical samples by using an appropriate pathogen-specific antibody.

Published

2012

21. A Multiplexed Biosensor Based on White-light Scanning Interferometer

Author

Ying Feng Chang, Cheng-Chung Lee, Yu Xen Lin, Menh Chi Li, Huai Yi Wang, and Li Chen Su

Subjects

Interferometry, Optics, White light scanner, Materials science, Interference (communication), business.industry, Colloidal gold, Multiplex, Surface plasmon resonance, business, Biosensor, Interference microscopy

Abstract

A multiplexed biosensor based on WLSI is capable to measure various gold nanoparticles accompanied by the LSPR extinction spectrum shift simultaneously. In this paper, the multiplex detection can be realized by the WLSI system.

Published

2016

22. A Fiber Optic Biosensor for the Identification of E. coli in Pure Cultures Isolated from Blood

Author

Ying-Feng Chang, Kwok-Woon Yu, Yu-Min Huang, Bao-Yu Hsieh, Yung-Cheng Chung, Tsung-Chain Chang, and Chien Chou

Subjects

Biomaterials, Chromatography, Materials science, Biomedical Engineering, Identification (biology), A fibers, Biosensor, Biotechnology, Microbiology

Published

2007

23. Localized Surface Plasmon Coupled Fluorescence Fiber-Optic Biosensor with Gold Nanoparticles

Author

Chien Chou, Ying Feng Chang, Bao-Yu Hsieh, Wei Chih Liu, Chao Hsiung Lin, Hsieh Ting Wu, and Ming Yaw Ng

Subjects

Optical fiber, Surface Properties, Fluorescence spectrometry, Analytical chemistry, Biosensing Techniques, macromolecular substances, Sensitivity and Specificity, Analytical Chemistry, law.invention, Mice, law, Animals, Fiber Optic Technology, Polymethyl Methacrylate, Optical Fibers, Fluorescent Dyes, Chemistry, Surface plasmon, technology, industry, and agriculture, Surface Plasmon Resonance, Fluorescence, Colloidal gold, Immunoglobulin G, Biomolecular complex, Nanoparticles, Gold, Biosensor, Localized surface plasmon

Abstract

A novel fiber-optic biosensor based on a localized surface plasmon coupled fluorescence (LSPCF) system is proposed and developed. This biosensor consists of a biomolecular complex in a sandwich format ofantibody/antigen/Cy5-antibody-gold nanoparticle (GNP). It is immobilized on the surface of an optical fiber where aCy5-antibody-GNPcomplex forms the fluorescence probe and is produced by mixing Cy5-labeled antibody and protein A conjugated gold nanoparticles (Au-PA). The LSPCF is excited by localized surface plasmon on the GNP surface where the evanescent field is applied near the core surface of the optical fiber. At the same time, the fluorescence signal is detected by a photomultiplier tube located beside the unclad optical fiber with high collection efficiency. Experimentally, this novel LSPCF biosensor is able to detect mouse immunoglobulin G (IgG) at a minimum concentration of 1 pg/mL (7 fM) during the biomolecular interaction of the IgG with anti-mouse IgG. The analysis is expanded by a discussion of the amplification of the LSPCF intensity by GNP coupling, and overall, this LSPCF biosensor is confirmed experimentally as a biosensor with very high sensitivity.

Published

2007

24. Use of liposomal amplifiers in total internal reflection fluorescence fiber-optic biosensors for protein detection

Author

Chien Chou, Chen Fu, Yi-Ting Chen, Amily Fang-ju Jou, Ying Feng Chang, Chii Chang Chen, and Ja-an Annie Ho

Subjects

Materials science, Optical fiber, Biomedical Engineering, Biophysics, Protein Array Analysis, 02 engineering and technology, Biosensing Techniques, 01 natural sciences, law.invention, law, Electrochemistry, medicine, Fiber Optic Technology, Detection limit, Immunoassay, Chromatography, Total internal reflection fluorescence microscope, medicine.diagnostic_test, 010401 analytical chemistry, General Medicine, Equipment Design, 021001 nanoscience & nanotechnology, Fluorescence, 0104 chemical sciences, Equipment Failure Analysis, Spectrometry, Fluorescence, Immunoglobulin G, Liposomes, Target protein, 0210 nano-technology, Biosensor, Biotechnology

Abstract

Evanescent-wave excited fluorescence technology has been demonstrated to enhance sensitivity and reduce matrix effects, making it suitable for biosensor development. In this study, we developed a liposome-based, total internal reflection fluorescence, fiber-optic biosensor (TIRF-FOB) for protein detection, which integrates a liposomal amplifier and sandwich immunoassay format with TIRF-FOB. In addition, the antibody-tagged and fluorophore-entrapped liposomes for heterogeneous detection of target molecules were designed and synthesized. This biosensor successfully detected the target protein (model analyzed here is IgG) with a limit of detection (LOD) of 2.0 attomoles for the target protein (equivalent to 2.0 pg/mL of protein presented in 150 μL of sample solution). The features of this ultra-sensitive liposomal TIRF-FOB are (i) fluorescence is excited via evanescent waves and amplified via liposomes; (ii) the use of two polyclonal antibodies in the sandwich assay format increases the specificity and lowers the cost of our assay. Based on the exceptional detection sensitivity and cost-effectiveness, we believe that the proposed biosensor has great potential as a practical, clinical diagnostic tool in the near future.

Published

2015

25. Facile preparation of high-quantum-yield gold nanoclusters: application to probing mercuric ions and biothiols

Author

Ja-an Annie Ho, Heng-Chia Chang, Ying-Feng Chang, and Nien-Chu Fan

Subjects

Detection limit, Chemistry, Metal ions in aqueous solution, Fatty Acids, Quantum yield, Metal Nanoparticles, Photochemistry, Fluorescence, Nanoclusters, Ion, Spectrometry, Fluorescence, Quantum Dots, Humans, Nanotechnology, General Materials Science, Gold, Sulfhydryl Compounds, Selectivity, Cysteine

Abstract

This paper describes an eco-friendly, one-pot strategy for the synthesis of water-soluble, high-quantum-yield gold nanoclusters (AuNCs) stabilized with 11-mercaptoundecanoic acid (MUA) on their surfaces. The as-prepared ultrasmall MUA-AuNCs (1.9 nm) exhibited a quantum yield (QY) of 13%, higher than those of most previously described thiol-protected AuNCs. We applied these MUA-AuNCs as a versatile probe to develop a fluorescence "turn-off" assay for sensing Hg(2+) ions as well as a fluorescence "turn-on" assay for sensing biothiols. The former assay operated through aggregation-induced fluorescence quenching upon interaction of the MUA-AuNCs with Hg(2+) ions in a buffer containing 2,6-pyridinedicarboxylic acid (PDCA); this probe provided high sensitivity and remarkable selectivity over other selected metal ions with a limit of detection (LOD) for Hg(2+) ions of 450 pM and linearity from 2 to 50 nM. In the latter assay for biothiols [i.e., cysteine (Cys), homocysteine (Hcy), glutathione (GSH)], the fluorescence of the Hg(2+)-MUA-AuNCs complexes was turned on because the affinity of Hg(2+) ions toward the SH group of the biothiols was greater than that toward the COOH groups of the MUA units on the surface of the AuNCs. This assay provided good linearity for the tested biothiols, ranging from 10 to 100 nM for Cys, from 10 to 100 nM for Hcy, and from 5 to 75 nM for GSH, with LODs of 5.4, 4.2, and 2.1 nM, respectively. In addition, these environmentally and biologically friendly AuNC probes tested satisfactorily against interference from a range of amino acids.

Published

2014

26. Determination of urine cofilin-1 level in acute kidney injury using a high-throughput localized surface plasmon-coupled fluorescence biosensor

Author

Yi Jang Lee, Cheng Han Chao, Ying Feng Chang, Chien Chou, Lih-Yuan Lin, and Cheng Han Tsai

Subjects

Adult, Cofilin 1, Male, medicine.medical_specialty, Pathology, Biomedical Engineering, Urology, Metal Nanoparticles, macromolecular substances, Urine, Biosensing Techniques, urologic and male genital diseases, environment and public health, Cell Line, Biomaterials, medicine, Humans, RENAL DISORDERS, Aged, Aged, 80 and over, Kidney, Receiver operating characteristic, business.industry, Acute kidney injury, Fluorescence biosensor, Cofilin, Acute Kidney Injury, Middle Aged, Surface Plasmon Resonance, medicine.disease, Atomic and Molecular Physics, and Optics, Electronic, Optical and Magnetic Materials, High-Throughput Screening Assays, Oxidative Stress, medicine.anatomical_structure, Spectrometry, Fluorescence, ROC Curve, Case-Control Studies, Female, Gold, business

Abstract

The actin-depolymerizing factor (ADF)/cofilin protein family has been reported to be associated with ischemia-induced renal disorders. We examine whether cofilin-1 is associated with acute kidney injury (AKI) using human urine samples. We exploited a 96-well based high-throughput biosensor that uses gold nanoparticles and a sandwich immunoassay to detect the urine cofilin-1 level of AKI patients. The mean urine cofilin-1 level of the AKI patients (n=37 from 47 cases analyzed) was twofold higher than that of healthy adults (n=21 from 29 cases analyzed). The receiver operating characteristic (ROC) curve showed that cofilin-1 was acceptable for discriminating AKI patients from healthy adults. However, an increase of the sample size is required to conclude the importance of urine cofilin-1 on AKI diagnosis, and the high-throughput ultrasensitive biosensor used in this study would greatly accelerate the measurement of urine cofilin-1 in an increased sample size.

Published

2013

27. Rapid detection of urinary polyomavirus BK by heterodyne-based surface plasmon resonance biosensor

Author

Chien Chou, Ying-Feng Chang, Li-Chen Su, Chao-Sung Lai, and Ya-Chung Tian

Subjects

Heterodyne, Polyomavirus Infections, Chromatography, Chemistry, Polyomavirus BK, viruses, Urinary system, Biomedical Engineering, virus diseases, Nanotechnology, Surface plasmon resonance biosensor, Surface Plasmon Resonance, Rapid detection, Kidney Transplantation, Atomic and Molecular Physics, and Optics, Electronic, Optical and Magnetic Materials, Biomaterials, Tumor Virus Infections, Renal transplant, Limit of Detection, BK Virus, Humans, Kidney Diseases, Surface plasmon resonance, Biosensor

Abstract

In renal transplant patients, immunosuppressive therapy may result in the reactivation of polyomavirus BK (BKV), leading to polyomavirus-associated nephropathy (PVAN), which inevitably causes allograft failure. Since the treatment outcomes of PVAN remain unsatisfactory, early identification and continuous monitoring of BKV reactivation and reduction of immunosuppressants are essential to prevent PVAN development. The present study demonstrated that the developed dual-channel heterodyne-based surface plasmon resonance (SPR) biosensor is applicable for the rapid detection of urinary BKV. The use of a symmetrical reference channel integrated with the poly(ethylene glycol)-based low-fouling self-assembled monolayer to reduce the environmental variations and the nonspecific noise was proven to enhance the sensitivity in urinary BKV detection. Experimentally, the detection limit of the biosensor for BKV detection was estimated to be around 8500 copies/mL. In addition, urine samples from five renal transplant patients were tested to rapidly distinguish PVAN-positive and PVAN-negative renal transplant patients. By virtue of its simplicity, rapidity, and applicability, the SPR biosensor is a remarkable potential to be used for continuous clinical monitoring of BKV reactivation.

Published

2013

28. Assessments of urine cofilin-1 in patients hospitalized in the intensive care units with acute kidney injury

Author

Cheng Han Chao, Chien Chou, Yi Jang Lee, and Ying Feng Chang

Subjects

Kidney, medicine.medical_specialty, Receiver operating characteristic, business.industry, Acute kidney injury, macromolecular substances, Urine, Cofilin, urologic and male genital diseases, medicine.disease, environment and public health, Intensive care unit, female genital diseases and pregnancy complications, law.invention, medicine.anatomical_structure, law, Intensive care, Cofilin 1, Internal medicine, medicine, business

Abstract

The actin depolymerizing factor (ADF)/cofilin protein family has been reported to be associated with ischemia induced renal disorders. Here we examine if cofilin-1 is associated with acute kidney injury (AKI). We exploited a 96-well based fiber-optic biosensor that uses conjugated gold nanoparticles and a sandwich immunoassay to detect the urine cofilin-1 level of AKI patients. The mean urine cofilin-1 level of the AKI patients was two-fold higher than that of healthy adults. The receiver operating characteristic (ROC) curve showed that cofilin-1 is a potential biomarker for discriminating AKI patients from healthy adults for intensive care patients.

Published

2013

29. Paired surface plasma waves biosensor using degree of coherence

Author

Ying-Feng Chang, Sheng-Yi Chang, Nai-Chuan Chen, Chien-Wa Ho, and Chien Chou

Subjects

Materials science, Phonon, business.industry, Surface plasmon, Physics::Optics, Degree of coherence, Plasma, Laser, Signal, law.invention, Optics, law, Surface plasmon resonance, business, Biosensor

Abstract

Degree of coherence (DOC) of a paired surface plasma waves (PSPWs) in the paired surface plasma waves biosensor (PSPWB) is proposed and discussed in which a paired of surface plasma waves are excited by using a pair of highly spatial and temporal correlated P-polarized waves in a SPR device of the Kretschmann configuration. The heterodyne signal from reflected paired P-polarized laser beam is generated where the visibility of the signal is proportional to DOC of PSPWs in term of the ratio of AC and DC components of the signal. The experimental result shows that the DOC of PSPWs versus incident angle of laser beam which relates to intrinsic phonon distribution in metal film becomes much sensitive than conventional amplitude or intensity sensitive surface plasmon resonance (SPR) biosensor. Finally, the dynamic range of protein-protein interaction at ultralow concentrations is discussed.

Published

2013

30. The utility of a high-throughput scanning biosensor in the detection of the pancreatic cancer marker ULBP2

Author

Jau-Song Yu, Chao-Sung Lai, Yu-Sun Chang, Li-Chen Su, Chih-Ching Wu, Chien Chou, Ying-Feng Chang, and Ya-Ting Chang

Subjects

Biomedical Engineering, Biophysics, Biosensing Techniques, GPI-Linked Proteins, Sensitivity and Specificity, Pancreatic cancer, Electrochemistry, medicine, Biomarkers, Tumor, Humans, Sandwich immunoassay, Detection limit, Immunoassay, Chromatography, medicine.diagnostic_test, biology, Chemistry, technology, industry, and agriculture, Reproducibility of Results, General Medicine, Equipment Design, medicine.disease, Molecular biology, Highly sensitive, Equipment Failure Analysis, Pancreatic Neoplasms, Spectrometry, Fluorescence, Polyclonal antibodies, Clinical diagnosis, biology.protein, Intercellular Signaling Peptides and Proteins, Biosensor, Biotechnology

Abstract

In this study, a novel high-throughput biosensor based on metal-enhanced fluorescence technique and harmonic intensity-modulated fluorescence technique was developed and demonstrated to be highly sensitive for the detection of a pancreatic cancer marker, UL16-binding protein 2 (ULBP2), in diluted serum. Experimentally, the biosensor is able to detect ULBP2 at 16-18 pg/mL in 1% BSA-PBS and in 10-fold-diluted human serum. Compared with the limit of detection (LOD) of the conventional enzyme-linked immunosorbent assay (ELISA) method, the LOD of the proposed biosensor for ULBP2 is significantly improved by 100-fold under the same conditions. In addition, the proposed method uses two identical polyclonal antibodies for the sandwich immunoassay, simplifying the experiment in terms of the reagents needed. Consequently, this biosensor is a cost-effective tool for clinical diagnosis. We believe that the proposed high-throughput biosensor has great potential to become a clinical diagnostic tool for the detection of a pancreatic cancer marker in the near future.

Published

2012

31. Discrimination of breast cancer by measuring prostate-specific antigen levels in women's serum

Author

Chien Chou, Li Chen Su, Chao-Sung Lai, Shuo Hui Hung, Yi Jang Lee, Ran Chou Chen, and Ying Feng Chang

Subjects

Immunoassay, medicine.medical_specialty, Chromatography, medicine.diagnostic_test, Chemistry, Urology, Fluorescence spectrometry, Breast Neoplasms, Prostate-Specific Antigen, Surface Plasmon Resonance, urologic and male genital diseases, medicine.disease, Analytical Chemistry, Prostate-specific antigen, Breast cancer, Antigen, Potential biomarkers, Case-Control Studies, medicine, Mammography, Humans, Female, Localized surface plasmon

Abstract

Prostate-specific antigen (PSA) has been reported to be a potential biomarker of breast cancer. Serum PSA of normal women is around 1 pg/mL, which is usually undetectable by current assay methods; thus an ultrasensitive measurement of PSA expression in women's serum is necessary to distinguish normal from malignant breast diseases. To enhance the sensitivity of conventional immunoassay technology for the detection of PSA in sera, we adopted a localized surface plasmon coupled fluorescence fiber-optic biosensor, which combines a sandwich immunoassay with the localized surface plasmon technique. The concentration of total PSA (t-PSA) (from 0.1 to 1000 pg/mL) in phosphate-buffered saline solution and the normalized fluorescence signal exhibit a linear relationship where the correlation coefficient is 0.9574. In addition, the concentration of additional t-PSA in 10-fold-diluted healthly women's serum across a similar range was measured. The correlation coefficient for this measurement is 0.9142. In clinical serum samples, moreover, the experimental results of t-PSA detection show that both the mean value and median of normalized fluorescence signals in the breast cancer group (155.2 and 145.7, respectively) are higher than those in the noncancer group (46.6 and 37.1, respectively). We also examined the receiver operating characteristic curve for t-PSA, and the area under the curve (AUC) is estimated to be 0.9063, the AUC being used to measure the performance of a test to correctly identify diseased and nondiseased subjects.

Published

2011

32. Binding kinetics of biomolecule interaction at ultralow concentrations based on gold nanoparticle enhancement

Author

Ying-Feng Chang, Chien Chou, Li-Dek Chou, Ja-an Annie Ho, Ying-Chang Li, Li-Chen Su, and Cheng-Chung Lee

Subjects

Kinetics, Analytical chemistry, Fluorescence spectrometry, Metal Nanoparticles, Biosensing Techniques, Analytical Chemistry, Substrate Specificity, Chemical kinetics, Mice, Reaction rate constant, Limit of Detection, Animals, Humans, Surface plasmon resonance, Equilibrium constant, Optical Fibers, Chromatography, Chemistry, Receptor–ligand kinetics, Dissociation constant, Spectrometry, Fluorescence, Immunoglobulin G, Cattle, Gold, Antibodies, Immobilized, Protein Binding

Abstract

Measuring the kinetic constants of protein-protein interactions at ultralow concentrations becomes critical in characterizing biospecific affinity, and exploring the feasibility of clinical diagnosis with respect to detection sensitivity, efficiency and accuracy. In this study, we propose a method that can calculate the binding constants of protein-protein interactions in sandwich assays at ultralow concentrations at the pg/mL level, using a localized surface plasmon coupled fluorescence fiber-optic biosensor (LSPCF-FOB). We discuss a two-compartment model to achieve reaction-limited kinetics under the stagnant conditions of the reaction chamber. The association rate constant, dissociation rate constant, and the equilibrium dissociation constant, that is, k(a), k(d), K(D), respectively, of the kinetics of binding between total prostate-specific antigen (t-PSA) and anti-t-PSA at concentrations from 0.1 pg/mL to 1 ng/mL, were measured either in PBS or in human serum. This is the first time that k(a), k(d), and K(D) have been measured at such a low concentration range in a complex sample such as human serum.

Published

2011

33. Detection Sensitivity Enhancement in a Paired Surface Plasma Waves Biosensor using Gold Nanoparticles

Author

Chien Chou, Li-Chen Su, Ying-Feng Chang, and Ying-Chang Li

Subjects

Materials science, business.industry, Colloidal gold, Optoelectronics, Sensitivity (control systems), Plasma, business, Biosensor

Published

2011

34. Measuring binding kinetics of biomolecular interactions using a localized surface plasmon couple fluorescence fiber optic biosensor

Author

Cheng-Chung Lee, Ying-Chang Li, Chien Chou, Li-Chen Su, Ying-Feng Chang, and Jo-Ping Hsieh

Subjects

chemistry.chemical_classification, business.industry, Chemistry, Biomolecule, Surface plasmon, Fluorescence, Receptor–ligand kinetics, Optics, Reaction rate constant, Biophysics, business, Luminescence, Biosensor, Localized surface plasmon

Abstract

In this study, we describe a novel method for analyzing protein-protein binding kinetics at ultra-low concentration (1 pg/mL) using a localized surface plasmon coupled fluorescence fiber-optic biosensor (LSPCF-FOB). The association and dissociation rate constants, ka and kd, respectively, for the binding kinetics of the mouse IgG/ anti-mouse IgG interaction have been calculated to be ka = (5.9928±3.1540)x106 M-1s-1 and kd = (1.0587±0.5572)x10-3 s-1. The theoretical basis of this analytical approach is a rapid-mixing model integrated with a two-compartment model; has been experimentally verified in this study as well. The LSPCF-FOB provides a potentially alternative option for characterizing the interaction of biomolecules at ultra-low concentrations.

Published

2010

35. Detection of swine-origin influenza A (H1N1) viruses using a paired surface plasma waves biosensor

Author

Ying-Feng Chang, Li-Chen Su, Cheng-Chung Lee, Chien Chou, Jo-Ping Hsieh, and Ying-Chang Li

Subjects

Detection limit, Heterodyne, Chromatography, Chemistry, Diagnostic test, Swine origin, Influenza a, Plasma, Biosensor

Abstract

In order to enhance the sensitivity of conventional rapid test technique for the detection of swine-origin influenza A (H1N1) viruses (S-OIVs), we used a paired surface plasma waves biosensor (PSPWB) based on SPR in conjunction with an optical heterodyne technique. Experimentally, PSPWB showed a 125-fold improvement at least in the S-OIV detection as compared to conventional enzyme linked immunosorbent assay. Moreover, the detection limit of the PSPWB for the S-OIV detection was enhanced 250-fold in buffer at least in comparison with that of conventional rapid influenza diagnostic test.

Published

2010

36. Detection of prostate-specific antigen with a paired surface plasma wave biosensor

Author

Chien Chou, Ying Chang Li, Cheng-Chung Lee, Ying Feng Chang, Ran Chou Chen, Yi Jang Lee, and Li Chen Su

Subjects

Detection limit, Male, Analyte, Chromatography, Waves in plasmas, Chemistry, Analytical chemistry, Biosensing Techniques, Prostate-Specific Antigen, Surface Plasmon Resonance, Orders of magnitude (mass), Analytical Chemistry, Prostate-specific antigen, Limit of Detection, Wide dynamic range, Humans, Surface plasmon resonance, Biosensor

Abstract

In this study, we demonstrated that an amplitude-sensitive paired surface plasma wave biosensor (PSPWB) is capable of real-time detection of prostate-specific antigen (PSA) in diluted human serum without labeling. Experimentally, the detection limit of PSPWB was 8.4 x 10(-9) refractive index unit (RIU) and the PSPWB could measure PSA in a phosphate buffered saline solution from 10 fg/mL ( approximately 300 aM) to 100 pg/mL ( approximately 3 pM) successfully, with demonstration of a linear relationship between PSA concentrations and surface plasmon resonance (SPR) signals. Therefore, results were obtained over a wide dynamic range 5 orders of magnitude for analyte concentration. In addition, the PSPWB successfully detected PSA in diluted human serum as well. These experimental results indicate that the PSPWB is capable of detection with high sensitivity over a wide range by using SPR-based biosensors and has a capability of detecting biological analytes in clinical sample without complicated operating procedures.

Published

2010

37. The prognostic values of soft tissue sonography for adult cellulitis without pus or abscess formation

Author

Song-Chou Hsieh, Cheng-Han Wu, Min-Nung Huang, Chia-Li Yu, and Ying-Feng Chang

Subjects

Male, medicine.medical_specialty, medicine.drug_class, Antibiotics, Anti-Infective Agents, Predictive Value of Tests, Internal Medicine, medicine, Humans, Abscess, Aged, Ultrasonography, Aged, 80 and over, Suppuration, business.industry, Clinical judgement, Soft Tissue Infections, Soft tissue, Cellulitis, Middle Aged, medicine.disease, Prognosis, Surgery, Current practice, Intravenous antibiotics, Female, Thickening, Radiology, business

Abstract

The current practice for cellulitis in diagnosis and treatment is mainly based on subjective clinical judgement without validated objective guidance. For patients with non-purulent cellulitis needing intravenous antibiotic treatment in hospital, we found soft tissue sonography performed around 4 days after initiation of antibiotics might have prognostic values. The patients with soft tissue sonographic pattern of subcutaneous thickening alone had shorter duration of antibiotic treatment and higher rate of early treatment response to antibiotics than those with the pattern of cobblestone appearance. Larger-scale research may be warranted to validate the prognostic roles of sonography in cellulitis management.

Published

2010

38. Localized surface plasmon coupled fluorescence fiber-optic biosensor for severe acute respiratory syndrome coronavirus nucleocapsid protein detection

Author

Yi Ming Arthur Chen, Ying-Feng Chang, Li-Chen Su, Jason C. Huang, Chien Chou, and Chii Chang Chen

Subjects

Detection limit, Materials science, viruses, Surface plasmon, technology, industry, and agriculture, macromolecular substances, medicine.disease_cause, Molecular biology, Fluorescence, medicine, Respiratory system, Biosensor, Plasmon, Localized surface plasmon, Coronavirus

Abstract

Detection of severe acute respiratory syndrome (SARS) coronavirus nucleocapsid protein in human serum using localized surface plasmon coupled fluorescence (LSPCF) fiber-optic biosensor. The detection limit at 1pg/mL in human serum is successfully demonstrated.

Published

2009

39. Paired surface plasma waves biosensor on PSA detection

Author

Ying-Feng Chang, Cheng-Chung Lee, Ying-Chang Li, Li-Chen Su, and Chien Chou

Subjects

Detection limit, Patient diagnosis, Materials science, Chromatography, Analytical chemistry, Plasma, Surface plasmon resonance, urologic and male genital diseases, Biosensor

Abstract

Prostate-specific antigen (PSA) in diluted human serum was detected by using a novel amplitude-sensitive paired surface plasma waves biosensor (PSPWB). The detection limit on PSA concentration in diluted human serum at 61pg/mL (2pM) was demonstrated.

Published

2009

40. Quantitative measurement of binding kinetics in sandwich assay using a fluorescence detection fiber-optic biosensor

Author

Chih-Jen Yu, Ying Feng Chang, Chao Hsiung Lin, Bao-Yu Hsieh, Chien Chou, Hsaing Yin Chen, Chu Hsin Hsieh, and Pen Li Lu

Subjects

Biophysics, Analytical chemistry, Biosensing Techniques, Fatty Acid-Binding Proteins, Biochemistry, Antibodies, Fluorescence, Antigen-Antibody Reactions, Reaction rate constant, medicine, Humans, Fiber, Molecular Biology, Optical Fibers, Immunoassay, medicine.diagnostic_test, Chemistry, Myocardium, Heart, Cell Biology, Receptor–ligand kinetics, Dissociation constant, Kinetics, Excited state, Biosensor

Abstract

Fiber-optic biosensors have been studied intensively because they are very useful and important tools for monitoring biomolecular interactions. Here we describe a fluorescence detection fiber-optic biosensor (FD–FOB) using a sandwich assay to detect antibody–antigen interaction. In addition, the quantitative measurement of binding kinetics, including the association and dissociation rate constants for immunoglobulin G (IgG)/anti-mouse IgG, is achieved, indicating 0.38 × 10 6 M −1 s −1 for k a and 3.15 × 10 −3 s −1 for k d . These constants are calculated from the fluorescence signals detected on fiber surface only where the excited evanescent wave can be generated. Thus, a confined fluorescence-detecting region is achieved to specifically determine the binding kinetics at the vicinity of the interface between sensing materials and uncladded fiber surface. With this FD–FOB, the mathematical deduction and experimental verification of the binding kinetics in a sandwich immunoassay provide a theoretical basis for measuring rate constants and equilibrium dissociation constants. A further measurement to study the interaction between human heart-type fatty acid-binding protein and its antibody gave the calculated kinetic constants k a , k d , and K D as 8.48 × 10 5 M −1 s −1 , 1.7 × 10 −3 s −1 , and 2.0 nM, respectively. Our study is the first attempt to establish a theoretical basis for the florescence-sensitive immunoassay using a sandwich format. Moreover, we demonstrate that the FD–FOB as a high-throughput biosensor can provide an alternative to the chip-based biosensors to study real-time biomolecular interaction.

Published

2008

41. Differential-phase surface plasmon resonance biosensor

Author

Ying-Feng Chang, Chien Chou, Ying-Chang Li, and Li-Chen Su

Subjects

Glycerol, Sucrose, Dynamic range, Chemistry, Analytical chemistry, Water, Biosensing Techniques, Surface Plasmon Resonance, Differential phase, Analytical Chemistry, Amplitude modulation, Solutions, Immunoglobulin G, Sensitivity (control systems), Surface plasmon resonance, Biosensor, Phase modulation, Envelope detector

Abstract

In this paper, a novel differential-phase-sensitive surface plasmon resonance biosensor (DP-SPRB) is proposed and developed, in which a two-frequency laser is integrated with a differential amplifier in order to analytically convert the phase modulation into amplitude modulation. With the use of the conventional envelope detection technique, the differential phase is precisely decoded in real time in terms of the demodulated amplitude. In order to verify high detection sensitivity of the DP-SPRB, a sucrose-water solution and glycerin-water solution at low concentrations were both tested, and the experimental results confirm that the detection sensitivity on wt % concentration of the sucrose solution is 0.00001%. Moreover, the real-time monitoring mouse IgG/antimouse IgG interaction shows the minimum concentration of mouse IgG to be at 10 fg/mL. To our knowledge, this is the highest sensitivity ever measured by a surface plasmon resonance biosensor. However, because of the limited dynamic range of DP-SPRB, it can only apply to biomolecule interactions at extremely low concentration.

Published

2008

42. Localized surface plasmon coupled fluorescence fiber-optic biosensor for alpha-fetoprotein detection in human serum

Author

Li Chen Su, Shu Chen Chao, Yi Jang Lee, Ying Feng Chang, Ran Chou Chen, Chien Chou, and Ying Chang Li

Subjects

Biomedical Engineering, Biophysics, Biosensing Techniques, Sensitivity and Specificity, Electrochemistry, medicine, Fiber Optic Technology, Humans, Surface plasmon resonance, Detection limit, Immunoassay, Chromatography, medicine.diagnostic_test, Chemistry, Surface plasmon, technology, industry, and agriculture, Reproducibility of Results, General Medicine, Equipment Design, Surface Plasmon Resonance, Fluorescence, Equipment Failure Analysis, Spectrometry, Fluorescence, alpha-Fetoproteins, Alpha-fetoprotein, Biosensor, Blood Chemical Analysis, Biotechnology, Localized surface plasmon

Abstract

In this study, we demonstrated that the fiber-optic biosensor based on localized surface plasmon coupled fluorescence (LSPCF) is capable of detecting alpha-fetoprotein (AFP) in human serum. The sensitivity of LSPCF fiber-optic biosensor is not only enhanced but also the specific selectivity is improved since the fluorophores are excited by the localized surface plasmon with high efficiency. Experimentally, this fiber-optic biosensor is able to detect AFP concentration in phosphate buffered saline (PBS) solution from 0.1ng/mL to 100ng/mL whereas the linear relationship between the AFP concentrations and the fluorescence signals is shown. Furthermore, a linear response between the fluorescence signals and the concentrations of AFP in human serum from 2.33ng/mL to 143.74ng/mL is also obtained. As a result, the detection limit of the LSPCF fiber-optic biosensor on AFP detection is comparable with the conventional enzyme-linked immunosorbent assay (ELISA). Additionally, the LSPCF fiber-optic biosensor benefits on inexpensive, disposable and simpler optical geometry that can become a high efficient immunoassay comparable with the conventional ELISA and radioimmunoassay (RIA) clinically.

Published

2008

43. Alpha-fetoprotein detection by using a localized surface plasmon coupled fluorescence fiber-optic biosensor

Author

Ying-Feng Chang, Chien Chou, Bao-Yu Hsieh, Ran-Chou Chen, Ying-Chang Li, and Chih-Jen Yu

Subjects

Materials science, Colloidal gold, Surface plasmon, technology, industry, and agriculture, Analytical chemistry, Nanoparticle, Alpha-fetoprotein, Luminescence, Biosensor, Fluorescence, Localized surface plasmon

Abstract

Alpha-fetoprotein (AFP) detection by using a localized surface plasmon coupled fluorescence (LSPCF) fiber-optic biosensor is setup and experimentally demonstrated. It is based on gold nanoparticle (GNP) and coupled with localized surface plasmon wave on the surface of GNP. In this experiment, the fluorophores are labeled on anti-AFP which are bound to protein A conjugated GNP. Thus, LSPCF is excited with high efficiency in the near field of localized surface plasmon wave. Therefore, not only the sensitivity of LSPCF biosensor is enhanced but also the specific selectivity of AFP is improved. Experimentally, the ability of real time measurement in the range of AFP concentration from 0.1ng/ml to 100ng/ml was detected. To compare with conventional methods such as enzyme-linked immunosorbent assay (ELISA) or radioimmunoassay (RIA), the LSPCF fiber-optic biosensor performs higher or comparable detection sensitivity, respectively.

Published

2007

44. Polarized photon-pairs heterodyne polarimetry for ultrasensitive optical activity detection of a chiral medium

Author

Chien Chou, Kuan-Yung Liao, Chu En Lin, Ying-Feng Chang, and Kun-Huei Chiang

Subjects

Heterodyne, Photon, Polarimetry, Physics::Optics, Optics, Materials Chemistry, Sensitivity (control systems), Physical and Theoretical Chemistry, Optical rotation, Physics, Photons, Birefringence, business.industry, Lasers, Detector, Water, Polarimeter, Stereoisomerism, Surfaces, Coatings and Films, Solutions, Refractometry, Glucose, Optoelectronics, business, Algorithms

Abstract

A polarized photon-pairs heterodyne polarimetry is proposed in order to measure in an ultrasensitive manner the circular birefringence of a chiral medium via optical rotation detection. A balanced detector is integrated into this polarimeter. Thus, shot-noise-limited detection by this polarimeter can be achieved. Experimentally, the detection sensitivity for the circular birefringence of a glucose-water solution up to partial differential |n(r) - n(l)| = 2 x 10(-11) at 10 mg/dL is verified. To our knowledge, this is the highest sensitivity ever measured of a chiral liquid solution based on single traveling sample cell geometry. Finally, when compared to a fiber loop ring-resonator in the frequency domain for a chiral liquid, this polarimeter shows an order of 10(4) enhancement on the sensitivity of natural optical activity measurement.

Published

2007

45. Sensitivity enhancement of fiber optic biosensor by localized surface plasmon-coupled emission with gold nanoparticles

Author

Ying Feng Chang, Yung Chang Chung, Wei Chih Liu, Chien Chou, Bao-Yu Hsieh, Hsiang Yin Chen, Hsieh Ting Wu, and Ming Yaw Ng

Subjects

Materials science, Optical fiber, Surface plasmon, technology, industry, and agriculture, Nanoparticle, Nanotechnology, macromolecular substances, Fluorescence, law.invention, Colloidal gold, law, Biosensor, Plasmon, Localized surface plasmon

Abstract

We proposed and developed a novel fiber-optic biosensor based on localized surface plasmon coupled emission (LSPCE) which consists of sandwich format of immuno-complex. It is immobilized on the surface of optical fiber where is a fluorescence probe produced by mixing Cy5 labeled antibody and protein A conjugated gold nanoparticles (Au-PA). The fluorophores are excited by localized surface plasmon (LSP) on gold nanoparticle (GNP) surface where the evanescent field is applied near the core surface of unclad optical fiber. Meanwhile, the fluorescence signal is detected by a photomultiplier tube being set beside the unclad optical fiber with high collection efficiency. In the experiment, this novel LSPCE biosensor demonstrates the minimum detectable concentration of mouse immunoglobulin G (IgG) at 1pg/ml (7fM) in the biomolecular interaction with anti-mouse IgG. From the experimental result, it verifies that LSPCE biosensor is a very high sensitive biosensor which is capable of measuring biomolecular interaction at very low concentration.

Published

2007