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1.
Euro Surveill ; 17(16)2012 Apr 19.
Article in English | MEDLINE | ID: mdl-22551464

ABSTRACT

The National Immunisation Program Schedule in Australia is formulated and funded nationally under the population-wide Medicare system. The policy is implemented by the eight state and territory jurisdictions. The national immunisation registers consist of the Australian Childhood Immunisation Register (ACIR), and, more recently, the National Human Papillomavirus (HPV) Vaccination Program Register. Moreover, a variety of jurisdiction-based registers and primary care practice software systems exist, which interact with the national registers. General practitioners can obtain reports listing patients under seven years attending their practice and recorded as 'not fully immunised', and immunisation coverage rates for their practice linked to government incentives through Medicare. A 2011 report documents national coverage of 91.8% fully immunised at 12 months, and 92.6% at 24 months. The HPV register provides information on vaccination coverage with the potential to link with a register of cervical cancer screening results. Limitations of current national register include inability to easily access immunisation histories beyond seven years of age, and issues of underreporting and timeliness, which impact significantly the immunisation coverage estimates. The linkage of these registers with healthcare outcome data will further enhance public health outcomes by enabling rapid, population-level vaccine safety and effectiveness investigations in a nation with a track record as an 'early adopter' of new childhood vaccines.


Subject(s)
Communicable Disease Control/organization & administration , Communicable Disease Control/statistics & numerical data , Immunization Programs/statistics & numerical data , Information Systems , Registries , Vaccination/statistics & numerical data , Australia , Child , Child, Preschool , Communicable Disease Control/trends , Humans , Immunization Programs/organization & administration , Immunization Schedule , Infant
2.
Lab Chip ; 10(8): 1072-8, 2010 Apr 21.
Article in English | MEDLINE | ID: mdl-20358116

ABSTRACT

This paper presents a novel optofluidic Michelson interferometer based on droplet microfluidics used to create a droplet grating. The droplet grating is formed by a stream of plugs in the microchannel with constant refractive index variation. It has a real-time tunability in the grating period through varying the flow rates of the liquids and index variation via different combinations of liquids. The optofluidic Michelson interferometer is highly sensitive and is suitable for the measurement of biomedical and biochemical buffer solutions. The experimental results show that it has a sensitivity of 66.7 nm per refractive index unit (RIU) and a detection range of 0.086 RIU.


Subject(s)
Biosensing Techniques/instrumentation , Interferometry/instrumentation , Microfluidic Analytical Techniques/instrumentation , Optical Devices , Refractometry/instrumentation , Equipment Design , Equipment Failure Analysis
3.
Opt Lett ; 35(11): 1890-2, 2010 Jun 01.
Article in English | MEDLINE | ID: mdl-20517452

ABSTRACT

This Letter presents a reconfigurable optical diffraction grating using multiphase droplets on a microfluidic chip. The uniform and evenly spaced circular droplets are generated by continuously dispersing two immiscible liquids into a T junction to produce plugs, which are then transformed into a circular shape at a sudden expansion of the microchannel. In experiments, the droplet grating shows a detection limit of ~6.3x10(-5) when used as an opto fl uidic refractometer and produces different colors as a color filter. Such a grating has the advantages of high stability and wide tunability in droplet size, grating period, and refractive index, making it promising for biochemical and biomaterial applications.


Subject(s)
Lenses , Microfluidics/instrumentation , Refractometry/instrumentation , Solutions/chemistry , Equipment Design , Equipment Failure Analysis
4.
Nat Commun ; 10(1): 2349, 2019 05 28.
Article in English | MEDLINE | ID: mdl-31138800

ABSTRACT

Single chip integrated spectrometers are critical to bring chemical and biological sensing, spectroscopy, and spectral imaging into robust, compact and cost-effective devices. Existing on-chip spectrometer approaches fail to realize both high resolution and broad band. Here we demonstrate a microring resonator-assisted Fourier-transform (RAFT) spectrometer, which is realized using a tunable Mach-Zehnder interferometer (MZI) cascaded with a tunable microring resonator (MRR) to enhance the resolution, integrated with a photodetector onto a single chip. The MRR boosts the resolution to 0.47 nm, far beyond the Rayleigh criterion of the tunable MZI-based Fourier-transform spectrometer. A single channel achieves large bandwidth of ~ 90 nm with low power consumption (35 mW for MRR and 1.8 W for MZI) at the expense of degraded signal-to-noise ratio due to time-multiplexing. Integrating a RAFT element array is envisaged to dramatically extend the bandwidth for spectral analytical applications such as chemical and biological sensing, spectroscopy, image spectrometry, etc.

5.
Nat Commun ; 10(1): 1227, 2019 03 12.
Article in English | MEDLINE | ID: mdl-30862795

ABSTRACT

The original version of this Article omitted the author Kuan Wang, who is from the 'College of Biomedical Engineering, Taipei Medical University, Taipei 11031, Taiwan' and 'Nanyang Environment & Water Research Institute, Nanyang Technological University, Singapore 637141, Singapore.'Also, the author S.H. Lim was incorrectly given as L.S. Hoi and A. Larsson was incorrectly given as A. Larson.The "Author contributions" was amended to reflect the authorship changes. It previously read 'Y.Z.S., C.-W.Q., and A.Q.L. jointly conceived the idea. Y.Z.S., S.X., Y.Z., J.B.Z., W.S., J.H.W., T.N.C., Z.C.Y., Y.L.H., B.L., P.H.Y., D.P.T., and C.-W.Q. performed the numerical simulations and theoretical analysis. Y.Z.S., S.X., and L.K.C. did the fabrication and experiments of particle hopping, biomolecule binding and flow cytometry. A.L. and L.S.H. did the SPR experiments. S.X., Y.Z.S., Y.Z., C.-W.Q., Y.-Y.C., L.K.C., T.H.Z., and A.Q.L. prepared the manuscript. S.X., Y.Z., C.-W.Q., and A.Q.L. supervised and coordinated all the work. All authors commented on the manuscript.' The correct version states 'B.L., K. W., P.H.Y.' instead of 'B.L., P.H.Y.' and 'S.H.L.' in place of 'L.S.H.'This has been corrected in both the PDF and HTML versions of the Article.

6.
Anal Bioanal Chem ; 391(7): 2443-52, 2008 Aug.
Article in English | MEDLINE | ID: mdl-18286269

ABSTRACT

The paper reviews the state-of-art for micro optical fluidic systems (MOFS), or optofluidics, which employs optics and fluidics in a microsystem environment to perform novel functionalities and in-depth analysis in the biophysical area. Various topics, which include the introduction of MOFS in biomedical engineering, the implementation of near-field optics and also the applications of MOFS to biophysical studies, are discussed. Different optical detection techniques, such as evanescent wave, surface plasmon resonance, surface enhanced Raman scattering, resonators and transistors, have been studied extensively and integrated into MOFS. In addition, MOFS also provides a platform for various studies of cell biophysics, such as cell mass determination and cell Young's modulus measurement.


Subject(s)
Microfluidic Analytical Techniques/methods , Optics and Photonics , Biophysical Phenomena , Biophysics , Cytological Techniques , Spectrum Analysis, Raman/methods , Surface Plasmon Resonance/methods
7.
Nat Commun ; 9(1): 815, 2018 02 26.
Article in English | MEDLINE | ID: mdl-29483548

ABSTRACT

Particle trapping and binding in optical potential wells provide a versatile platform for various biomedical applications. However, implementation systems to study multi-particle contact interactions in an optical lattice remain rare. By configuring an optofluidic lattice, we demonstrate the precise control of particle interactions and functions such as controlling aggregation and multi-hopping. The mean residence time of a single particle is found considerably reduced from 7 s, as predicted by Kramer's theory, to 0.6 s, owing to the mechanical interactions among aggregated particles. The optofluidic lattice also enables single-bacteria-level screening of biological binding agents such as antibodies through particle-enabled bacteria hopping. The binding efficiency of antibodies could be determined directly, selectively, quantitatively and efficiently. This work enriches the fundamental mechanisms of particle kinetics and offers new possibilities for probing and utilising unprecedented biomolecule interactions at single-bacteria level.


Subject(s)
Bacteria , Nanoparticles/chemistry , Kinetics , Microfluidic Analytical Techniques/methods
8.
Lab Chip ; 17(14): 2443-2450, 2017 07 11.
Article in English | MEDLINE | ID: mdl-28634603

ABSTRACT

An optofluidic chip is demonstrated in experiments for high-resolution and multi-range particle separation through the optically-induced microscopic vibration effect, where nanoparticles are trapped in loosely overdamped optical potential wells created with combined optical and fluidic constraints. It is the first demonstration of separating single nanoparticles with diameters ranging from 60 to 100 nm with a resolution of 10 nm. Nanoparticles vibrate with an amplitude of 3-7 µm in the loosely overdamped potential wells in the microchannel. The proposed optofluidic device is capable of high-resolution particle separation at both nanoscale and microscale without reconfiguring the device. The separation of bacteria from other larger cells is accomplished using the same chip and operation conditions. The unique trapping mechanism and the superb performance in high-resolution and multi-range particle separation of the proposed optofluidic chip promise great potential for a diverse range of biomedical applications.

9.
Lab Chip ; 16(9): 1617-24, 2016 04 26.
Article in English | MEDLINE | ID: mdl-27050492

ABSTRACT

This paper reports an optofluidic lens with low spherical and low field curvature aberrations through the desired refractive index profile by precisely controlling the mixing between ethylene glycol and deionized water in an optofluidic chip. The experimental results demonstrate that the spherical aberration is reduced to 19.5 µm and the full width at half maximum of the focal point is 7.8 µm with a wide divergence angle of 35 degrees. In addition, the optofluidic lens can focus light at different off-axis positions on the focal plane with Δx' < 6.8 µm and at opposite transverse positions with |Δy - Δy'| < 5.7 µm. This is the first demonstration of a special optofluidic lens that significantly reduces both the spherical and field curvature aberrations, which enhances the focusing power and facilitates multiple light source illumination using a single lens. It is anticipated to have high potential for applications such as on-chip light manipulation, sample illumination and multiplexed detection.

10.
Lab Chip ; 16(4): 634-44, 2016 Feb 21.
Article in English | MEDLINE | ID: mdl-26732872

ABSTRACT

Cell refractive index is a key biophysical parameter, which has been extensively studied. It is correlated with other cell biophysical properties including mechanical, electrical and optical properties, and not only represents the intracellular mass and concentration of a cell, but also provides important insight for various biological models. Measurement techniques developed earlier only measure the effective refractive index of a cell or a cell suspension, providing only limited information on cell refractive index and hence hindering its in-depth analysis and correlation. Recently, the emergence of microfluidic, photonic and imaging technologies has enabled the manipulation of a single cell and the 3D refractive index of a single cell down to sub-micron resolution, providing powerful tools to study cells based on refractive index. In this review, we provide an overview of cell refractive index models and measurement techniques including microfluidic chip-based techniques for the last 50 years, present the applications and significance of cell refractive index in cell biology, hematology, and pathology, and discuss future research trends in the field, including 3D imaging methods, integration with microfluidics and potential applications in new and breakthrough research areas.


Subject(s)
Cell Biology , Disease , Refractometry/methods , Animals , Hematology , Humans
11.
Lab Chip ; 16(11): 2135, 2016 Jun 07.
Article in English | MEDLINE | ID: mdl-27149105

ABSTRACT

Correction for 'Optofluidic lens with low spherical and low field curvature aberrations' by H. T. Zhao et al., Lab Chip, 2016, 16, 1617-1624.

12.
Biochim Biophys Acta ; 1117(2): 232-4, 1992 Sep 15.
Article in English | MEDLINE | ID: mdl-1525184

ABSTRACT

The carbohydrate specificity of mistletoe toxic lectin-I (ML-I) was studied by haemagglutination-inhibition assay. The results indicated that ML-I has a broad range of affinity for Gal alpha,beta linked sequences. The galabiose (E, Gal alpha 1----4Gal) sequence, a receptor of the uropathogenic E. coli ligand, was one of the best disaccharide inhibitors tested. The lectin also exhibits affinity for Lac(Gal beta 1----4Glc), T(Gal beta 1----3GalNAc), I/II(Gal beta 1----3/4GlcNAc) and B(Gal alpha 1----3Gal) sequences. Gal alpha 1----4Gal and Gal beta 1----4Glc are frequently occurring sequences of many glycosphingolipids located at the mammalian cell membranes, such as intestinal and red blood cell membranes, for ligand binding and toxin attachment. This finding provides important information concerning the possible mechanism of intoxication of cells by the mistletoe preparation.


Subject(s)
Carbohydrate Metabolism , Plant Preparations , Plant Proteins , Toxins, Biological/metabolism , Binding Sites , Carbohydrate Conformation , Carbohydrate Sequence , Cell Membrane/metabolism , Disaccharides/metabolism , Galactose/metabolism , Glycosphingolipids/metabolism , Hemagglutination Inhibition Tests , Humans , Molecular Sequence Data , Ribosome Inactivating Proteins, Type 2
13.
Lab Chip ; 15(6): 1451-7, 2015 Mar 21.
Article in English | MEDLINE | ID: mdl-25605556

ABSTRACT

Here we report the first demonstration on droplet generation from the transformation of a single bubble in a nanofluidic channel by a laser-induced jet. A viscous two-dimensional Rayleigh-Plesset-type model is derived to describe the bubble dynamics in the nanofluidic channel, which accounts for the effect of shear stresses from the channel wall. The droplet generation (number and volume) is investigated experimentally by controlling the jet velocity via laser energy and distance. This study expands the understanding of jetting in the nanofluidic channel and demonstrates a novel method for femtoliter-volume single or multiple droplet formation. It is envisioned that this work will open new doors in on-demand generation of nanodroplets.

14.
Lab Chip ; 15(10): 2158-61, 2015 May 21.
Article in English | MEDLINE | ID: mdl-25812076

ABSTRACT

In this paper, for the first time, the tensile strength of water is directly measured using an optofluidic chip based on the displacement of air-water interface deformation with homogeneous nucleation. When water in a microchannel is stretched dynamically via laser-induced shock reflection at the air-water interface, the shock pressures are determined by measuring the displacements of the deformed interface. Observation of the vapor bubbles is used as a probe to identify the cavitation threshold with a critical distance, and the tensile strength of water at 20 °C is measured to be -33.3 ± 2.8 MPa. This method can be extended to investigate the tensile strength of other soft materials such as glycerol, which is measured to be -59.8 ± 10.7 MPa at 20 °C.


Subject(s)
Lab-On-A-Chip Devices , Models, Theoretical , Tensile Strength , Water/chemistry , Glycerol/chemistry
15.
J Nucl Med ; 40(6): 1072-9, 1999 Jun.
Article in English | MEDLINE | ID: mdl-10452326

ABSTRACT

UNLABELLED: Fluorinated derivatives of etanidazole are being explored as probes for tumor hypoxia. Our research group has synthesized [18F]fluoroetanidazole (FETA) and now reports the oxygen dependency of binding to cells in vitro, the biodistribution of the tracer in tumor-bearing mice and the analysis of metabolites in their plasma and urine. METHODS: Four cultured rodent cell lines (V79, 36B10, EMT6 and RIF1) were incubated with [18F]FETA for various times under graded O2 concentrations. We also compared the biodistributions of [18F]FETA and [18F]fluoromisonidazole (FMISO) at 2 and 4 h postinjection in C3H mice bearing KHTn tumors (130-430 mg). Reverse-phase high-performance liquid chromatography was used to distinguish metabolites from parent drugs in urine and plasma of mice injected with [18F]FETA or [18F]FMISO. RESULTS: In cells labeled in vitro, O2 levels of 600-1300 ppm inhibited binding by 50% relative to uptake under anoxic conditions (<10 ppm). These inhibitory values are not statistically different from those reported for [18F]FMISO in the same cell lines (700-1500 ppm). In the biodistribution studies, uptake in heart, intestine, kidney and tumor was similar for both tracers 4 h after injection, whereas retention of [18F]FETA in liver and lung was significantly lower. Less uptake of [18F]FETA in liver suggests that this nitroimidazole is metabolized less than [18F]FMISO. The brain-to-blood ratios indicate that [18F]FETA readily crosses the blood-brain barrier. High-performance liquid chromatography of urine demonstrated that 10% of [18F]FETA-derived activity was in metabolites at 2 h postinjection, with 15% in metabolites by 4 h; comparable values for [18F]FMISO were 36% and 57%, respectively. CONCLUSION: We conclude from these data that [18F]FETA holds promise as a new hypoxia tracer in patients, having oxygen dependency of binding similar to [18F]FMISO in vitro and displaying less retention in liver and fewer metabolites in vivo.


Subject(s)
Contrast Media , Fluorine Radioisotopes , Neoplasms, Experimental/diagnostic imaging , Radiopharmaceuticals , Animals , Binding Sites , Blood-Brain Barrier , Cell Hypoxia , Chromatography, High Pressure Liquid , Cricetinae , Cricetulus , Etanidazole/analogs & derivatives , Etanidazole/pharmacokinetics , Female , Fibroblasts/metabolism , Fibrosarcoma/diagnostic imaging , Fibrosarcoma/metabolism , Fluorine Radioisotopes/pharmacokinetics , Glioma/diagnostic imaging , Glioma/metabolism , Lung/cytology , Lung/metabolism , Male , Mammary Neoplasms, Experimental/diagnostic imaging , Mammary Neoplasms, Experimental/metabolism , Mice , Mice, Inbred C3H , Misonidazole/analogs & derivatives , Misonidazole/pharmacokinetics , Neoplasms, Experimental/metabolism , Oxygen/metabolism , Radionuclide Imaging , Radiopharmaceuticals/pharmacokinetics , Rats , Sarcoma, Experimental/diagnostic imaging , Sarcoma, Experimental/metabolism , Time Factors , Tissue Distribution , Tumor Cells, Cultured
16.
Radiat Res ; 153(1): 84-92, 2000 Jan.
Article in English | MEDLINE | ID: mdl-10630981

ABSTRACT

The usefulness of radiolabeled nitroimidazoles for measuring hypoxia will be clarified by defining the relationship between tracer uptake and radiobiologically hypoxic fraction. We determined the radiobiologically hypoxic fraction from radiation response data in 36B10 rat gliomas using the paired cell survival curve technique and compared the values to the radiobiologically hypoxic fraction inferred from mathematical modeling of time-activity data acquired by PET imaging of [(18)F]FMISO uptake. Rats breathed either air or 10% oxygen during imaging, and timed blood samples were taken. The uptake of [(3)H]FMISO by 36B10 cells in vitro provided cellular binding characteristics of this radiopharmaceutical as a function of oxygen concentration. The radiobiologically hypoxic fraction determined for tumors in air-breathing rats using the paired survival curve technique was 6.1% (95% CL = 4.3- 8.6%), which agreed well with that determined by modeling FMISO time-activity data (7. 4%; 95% CL = 2.5-17.3%). These results are consistent with the agreement between the two techniques for measuring radiobiologically hypoxic fraction in Chinese hamster V79 cell spheroids. In contrast, the FMISO-derived radiobiologically hypoxic fraction in rats breathing 10% oxygen was 13.1% (95% CL 7.9-8.3%), much lower than the radiobiologically hypoxic fraction of 43% determined from the radiation response data. This discrepancy may be due to the failure of FMISO to identify hypoxic cells residing at or above an oxygen level of 2-3 mmHg that will still confer substantial protection against radiation. The presence of transiently hypoxic cells in rats breathing reduced oxygen may also be under-reported by nitroimidazole binding, which is strongly dependent on time and concentration.


Subject(s)
Glioma/diagnostic imaging , Glioma/metabolism , Misonidazole/analogs & derivatives , Radiation-Sensitizing Agents/pharmacokinetics , Radiopharmaceuticals/pharmacokinetics , Administration, Inhalation , Animals , Cell Hypoxia/drug effects , Cell Hypoxia/radiation effects , Cell Survival/drug effects , Cell Survival/radiation effects , Dose-Response Relationship, Radiation , Glioma/pathology , Glioma/radiotherapy , Male , Misonidazole/pharmacokinetics , Models, Biological , Oxygen/administration & dosage , Oxygen Consumption/radiation effects , Predictive Value of Tests , Rats , Rats, Inbred F344 , Tomography, Emission-Computed
17.
In Vitro Cell Dev Biol Anim ; 31(8): 582-9, 1995 Sep.
Article in English | MEDLINE | ID: mdl-8528512

ABSTRACT

Six rodent cell lines (36B10 rat glioma cells, 9L rat gliosarcoma cells, V79 Chinese hamster lung fibroblasts, EMT6/UW and EMT6/Ro mouse mammary sarcoma cells, and RIF-1 mouse fibrosarcoma cells) were tested for growth in cylindrical threads of Matrigel. These cells grew in the threads with doubling times of 17-23 h, reaching maximum cell densities on the order of 10(8) cells/ml. Histological sections of these threads showed a heterogeneous cell distribution: cells grew to confluence at the thread surface and at somewhat lower cell densities in the thread core. [H-3]thymidine labeling index and radiation sensitivity were measured for 9L and EMT6/UW cells in Matrigel threads. For both cell types, the labeling index in Matrigel was lower than observed in cell monolayers, with higher labeling indexes at the thread periphery than in the thread core. When these threads were grown in stirred medium, lower thread diameters, higher cell yields per thread, and higher labeling indices were obtained. EMT6 cell monolayers coated with Matrigel were less radiosensitive than cells in uncoated monolayers. This protective effect was eliminated by irradiating in the presence of 1 mg/ml misonidazole. EMT6 cells consume nearly three times as much oxygen (mole/cm3-sec) as do 9L cells, which are equally radiosensitive in monolayers with or without a Matrigel coating. The radiation sensitivity of EMT6/UW cells in Matrigel threads was similar to that for monolayers of plateau phase cells, whereas for 9L cells, the response in threads was more similar to exponentially growing cells. We conclude that Matrigel threads provide an alternative in vitro model for studying the radiation response of cells in a three-dimensional geometry.


Subject(s)
Cell Culture Techniques , Cell Division , Collagen , Culture Media , Laminin , Proteoglycans , Animals , Cell Aggregation , Cell Count , Cell Division/drug effects , Cell Division/radiation effects , Cell Membrane/metabolism , Cell Survival/drug effects , Cell Survival/radiation effects , Cricetinae , Drug Combinations , Isotope Labeling , Magnetic Resonance Spectroscopy , Mice , Oxygen Consumption , Radiation Tolerance , Rats , Tumor Cells, Cultured
18.
Lab Chip ; 14(21): 4237-43, 2014 Nov 07.
Article in English | MEDLINE | ID: mdl-25205636

ABSTRACT

In this paper, for the first time, an on-chip optofluidic imaging system is innovated to measure the biophysical signatures of single waterborne bacteria, including both their refractive indices and morphologies (size and shape), based on immersion refractometry. The key features of the proposed optofluidic imaging platform include (1) multiple sites for single-bacterium trapping, which enable parallel measurements to achieve higher throughput, and (2) a chaotic micromixer, which enables efficient refractive index variation of the surrounding medium. In the experiments, the distinctive refractive index of Echerichia coli, Shigella flexneri and Vibrio cholera are measured with a high precision of 5 × 10(-3) RIU. The developed optofluidic imaging system has high potential not only for building up a database of biophysical signatures of waterborne bacteria, but also for developing single-bacterium detection in treated water that is in real-time, label-free and low cost.


Subject(s)
Gram-Negative Facultatively Anaerobic Rods/chemistry , Microfluidic Analytical Techniques/instrumentation , Microfluidic Analytical Techniques/methods , Optical Imaging/instrumentation , Optical Imaging/methods , Biophysical Phenomena , Equipment Design , Refractometry , Water Microbiology
19.
Lab Chip ; 14(18): 3519-24, 2014 Sep 21.
Article in English | MEDLINE | ID: mdl-25008551

ABSTRACT

Bacteriophages are considered as attractive indicators for determining drinking water quality since its concentration is strongly correlated with virus concentrations in water samples. Previously, bacteriophage detection was based on a plague assay that required a complicated labelling technique and a time-consuming culture assay. Here, for the first time, a label-free bacteriophage detection is reported by using droplet optofluidic imaging, which uses host-cell-containing microdroplets as reaction carriers for bacteriophage infection due to a higher contact ratio. The optofluidic imaging is based on the effective refractive index changes in the microdroplet correlated with the growth rate of the infected host cells, which is highly sensitive, i.e. can detect one E. coli cell. The droplet optofluidic system is not only used in drinking water quality monitoring, but also has high potential applications for pathogenic bacteria detection in clinical diagnosis and food industry.


Subject(s)
Bacteriophage lambda , Food Microbiology , Light , Microfluidic Analytical Techniques , Scattering, Radiation , Coculture Techniques , Escherichia coli K12/growth & development , Escherichia coli K12/virology , Food Microbiology/instrumentation , Food Microbiology/methods , Microfluidic Analytical Techniques/methods
20.
Lab Chip ; 13(14): 2693-700, 2013 Jul 21.
Article in English | MEDLINE | ID: mdl-23620256

ABSTRACT

To better understand how hyperglycemia induces endothelial cell dysfunction under the diabetic conditions, a hemodynamic microfluidic chip system was developed. The system combines a caspase-3-based fluorescence resonance energy transfer (FRET) biosensor cell line which can detect endothelial cell apoptosis in real-time, post-treatment effect and with a limited cell sample, by using a microfluidic chip which can mimic the physiological pulsatile flow profile in the blood vessel. The caspase-3-based FRET biosensor endothelial cell line (HUVEC-C3) can produce a FRET-based sensor protein capable of probing caspase-3 activation. When the endothelial cells undergo apoptosis, the color of the sensor cells changes from green to blue, thus sensing apoptosis. A double-labeling fluorescent technique (yo pro-1 and propidium iodide) was used to validate the findings revealed by the FRET-based caspase sensor. The results show high rates of apoptosis and necrosis of endothelial cells when high glucose concentration was applied in our hemodynamic microfluidic chip combined with an exhaustive pulsatile flow profile. The two apoptosis detection techniques (fluorescent method and FRET biosensor) are comparable; but FRET biosensor offers more advantages such as real-time observation and a convenient operating process to generate more accurate and reliable data. Furthermore, the activation of the FRET biosensor also confirms the endothelial cell apoptosis induced by the abnormal pulsatile shear stress and high glucose concentration is through caspase-3 pathway. A 12% apoptotic rate (nearly a 4-fold increase compared to the static condition) was observed when the endothelial cells were exposed to a high glucose concentration of 20 mM under 2 h exhaustive pulsatile shear stress of 30 dyne cm(-2) and followed with another 10 h normal pulsatile shear stress of 15 dyne cm(-2). Therefore, the most important finding of this study is to develop a novel endothelial cell apoptosis detection method, which combines the microfluidic chip system and FRET biosensor. This finding may provide new insight into how glucose causes endothelial cell dysfunction, which is the major cause of diabetes-derived complications.


Subject(s)
Apoptosis , Biosensing Techniques/methods , Endothelial Cells/pathology , Fluorescence Resonance Energy Transfer/methods , Microfluidic Analytical Techniques/methods , Biosensing Techniques/instrumentation , Caspase 3/genetics , Caspase 3/metabolism , Cell Culture Techniques , Culture Media , Diabetes Mellitus/enzymology , Diabetes Mellitus/pathology , Diabetes Mellitus/physiopathology , Endothelium, Vascular/enzymology , Endothelium, Vascular/pathology , Endothelium, Vascular/physiopathology , Equipment Design , Fluorescence Resonance Energy Transfer/instrumentation , Fluorescent Dyes/chemistry , Glucose/metabolism , Human Umbilical Vein Endothelial Cells , Humans , Microfluidic Analytical Techniques/instrumentation , Pulsatile Flow/physiology , Shear Strength/physiology , Transfection
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