Your search keyword '"Kao FJ"' showing total 35 results

1. Investigating cartilage-related diseases by polarization-resolved second harmonic generation (P-SHG) imaging.

Author

Makkithaya KN, Mazumder N, Wang WH, Chen WL, Chen MC, Lee MX, Lin CY, Yeh YJ, Tsay GJ, Chopperla S, Mahato KK, Kao FJ, and Zhuo GY

Abstract

Establishing quantitative parameters for differentiating between healthy and diseased cartilage tissues by examining collagen fibril degradation patterns facilitates the understanding of tissue characteristics during disease progression. These findings could also complement existing clinical methods used to diagnose cartilage-related diseases. In this study, cartilage samples from normal, osteoarthritis (OA), and rheumatoid arthritis (RA) tissues were prepared and analyzed using polarization-resolved second harmonic generation (P-SHG) imaging and quantitative image texture analysis. The enhanced molecular contrast obtained from this approach is expected to aid in distinguishing between healthy and diseased cartilage tissues. P-SHG image analysis revealed distinct parameters in the cartilage samples, reflecting variations in collagen fibril arrangement and organization across different pathological states. Normal tissues exhibited distinct χ 33 / χ 31 values compared with those of OA and RA, indicating collagen type transition and cartilage erosion with chondrocyte swelling, respectively. Compared with those of normal tissues, OA samples demonstrated a higher degree of linear polarization, suggesting increased tissue birefringence due to the deposition of type-I collagen in the extracellular matrix. The distribution of the planar orientation of collagen fibrils revealed a more directional orientation in the OA samples, associated with increased type-I collagen, while the RA samples exhibited a heterogeneous molecular orientation. This study revealed that the imaging technique, the quantitative analysis of the images, and the derived parameters presented in this study could be used as a reference for disease diagnostics, providing a clear understanding of collagen fibril degradation in cartilage., Competing Interests: The authors have no conflicts to disclose., (© 2024 Author(s).)

Published

2024

2. Label-free characterization of collagen fibers in cancerous esophagus tissues using ratiometric nonlinear optical microscopy.

Author

Chen WC, Chen YJ, Lin ST, Hung WH, Chan MC, Wu IC, Wu MT, Kuo CT, Das S, Kao FJ, and Zhuo GY

Subjects

Adult, Aged, Esophageal Squamous Cell Carcinoma metabolism, Esophageal Squamous Cell Carcinoma pathology, Esophagus pathology, Evaluation Studies as Topic, Humans, Male, Middle Aged, Nonlinear Optical Microscopy methods, Collagen metabolism, Esophageal Neoplasms metabolism, Esophageal Neoplasms pathology, Esophagus metabolism

Abstract

Impact Statement: The issue of classifying esophageal cancer at various developmental stages is crucial for determining the optimized treatment protocol for the patients, as well as the prognosis. Precision improvement in staging esophageal cancer keeps seeking quantitative and analytical imaging methods that could augment histopathological techniques. In this work, we used nonlinear optical microscopy for ratiometric analysis on the intrinsic signal of two-photon excited fluorescence (TPEF) and second harmonic generation (SHG) from single collagen fibers only in submucosa of esophageal squamous cell carcinoma (ESCC). The blind tests of TPEF/SHG and forward (F)/backward (B) SHG were demonstrated to compare with the histology conclusion. The discussion of sensitivity and specificity was provided via statistical comparison between the four stages of esophageal cancer. To the best of our knowledge, this is the first study of using these two ratios in combination for staging ESCC.

Published

2020

3. Spontaneous loss versus stimulation gain in pump-probe microscopy: a proof of concept demonstration.

Author

Das S, Rehman KU, Zhuo GY, and Kao FJ

Subjects

Photons, Signal-To-Noise Ratio, Image Enhancement methods, Microscopy instrumentation, Proof of Concept Study

Abstract

Significance: The large background, narrow dynamic range, and detector saturation have been the common limiting factors in stimulated emission (SE)-based pump-probe microscopy, attributed to the very small signal overriding the very intense laser probe beam. To better differentiate the signal of interest from the background, lock-in detection is used to measure the fluorescence quenching, which is termed spontaneous loss (SL). The advantages are manifold. The spontaneous fluorescence signal can be well separated from both the pump and the probe beams with filters, thus eliminating the background, enlarging the dynamic range, and avoiding the saturation of the detector., Aim: We propose and demonstrate an integrated pump-probe microscopy technique based on lock-in detection for background removal and dynamic range enhancement through SL detection., Approach: The experimental setup is configured with a pulsed diode laser at a wavelength λpu  =  635  nm, acting as a pump (excitation) and a mode-locked Ti:sapphire laser at a central wavelength λpr  =  780  nm, serving as the probe beam (stimulation). Both pulse trains are temporally synchronized through high precision delay control by adjusting the length of the triggering cables. The pump and probe beams are alternatively modulated at different frequencies f1 and f2 to extract the stimulated gain (SG) and SL signal., Results: SG signal shows saturation due to the irradiation of the intense probe beam onto the photodetector. However, the detector saturation does not occur at high probe beam power for SL detection. The fluorescence lifetime images are acquired with reduced background. The theoretical signal-to-noise ratios for SG and SL are also estimated by photon statistics., Conclusion: We have confirmed that the detection of SL allows the elimination of the large background without photodetector saturation, which commonly exists in SG configuration. This modality would allow unprecedented manipulation and investigation of fluorophores in fluorescence imaging.

Published

2020

4. Synchronized subharmonic modulation in stimulated emission microscopy.

Author

Das S, Liang YC, Tanaka S, Ozeki Y, and Kao FJ

Abstract

In this work, we have demonstrated a stimulated emission (SE)-based pump-probe microscopy with subharmonic fast gate synchronization, which allows over an order of magnitude improvement in signal-to-noise ratio. Critically, the alternative way of modulation is implemented with the highest possible frequency that follows the lasers' repetition rate. Its working is based on a homemade frequency divider that divides the repetition frequency (76 MHz) of the Ti:sapphire (probe) laser to half of the repetition frequency, 38 MHz, which is used to synchronously drive the pump laser and to provide the reference signal for the ensuing lock-in detection. In this way, SE can be detected with sensitivity reaching the theoretical (shot noise) limits, with a much lower time constant (0.1 ms) for faster image acquisition.

Published

2019

5. Direct mineralogical imaging of economic ore and rock samples with multi-modal nonlinear optical microscopy.

Author

Kao MC, Pegoraro AF, Kingston DM, Stolow A, Kuo WC, Mercier PHJ, Gogoi A, Kao FJ, and Ridsdale A

Abstract

Multi-modal nonlinear optical (NLO) microscopy, including stimulated Raman scattering (SRS) and second harmonic generation (SHG), was used to directly image mineralogical features of economic ore and rock samples. In SRS/SHG imaging, ore samples generally require minimal preparation and may be rapidly imaged, even in their wet state. 3D structural details, at submicron resolution, are revealed tens of microns deep within samples. Standard mineral imaging based on scanning electron microscopy (SEM), with elemental analysis via energy dispersive X-Ray spectroscopy, was used to independently validate the mineral composition of the samples. Spatially-resolved SRS from dominant Raman-resonant bands precisely maps the locations of specific minerals contained within the samples. SHG imaging reveals locally non-centrosymmetric structures, such as quartz grains. Competing absorption and nonlinear scattering processes, however, can reduce contrast in SRS imaging. Importantly, the correlation between standard electron microscopy and multi-modal NLO optical microscopy shows that the latter offers rapid image contrast based on the mineral content of the sample.

Published

2018

6. Corrigendum: Investigating starch gelatinization through Stokes vector resolved second harmonic generation microscopy.

Author

Mazumder N, Xiang LY, Qiu J, and Kao FJ

Published

2017

7. Investigating starch gelatinization through Stokes vector resolved second harmonic generation microscopy.

Author

Mazumder N, Xiang LY, Qiu J, and Kao FJ

Abstract

The changes of the morphology during heating and the degree of crystallinity of dry and hydrated starch granules are investigated using second harmonic generation (SHG) based Stokes polarimetry. A spatial distribution of various polarization parameters, such as the degree of polarization (DOP), the degree of linear polarization (DOLP), and the degree of circular polarization (DOCP) are extracted and compared with the two dimensional second harmonic (SH) Stokes images of starch granules. The SH signal from hydrated and dry starch on heating differed significantly in DOLP and DOCP values, indicating that hydrated starch has a greater degree of ultrastructural amylopectin disorder. The detail of denaturation and the phase transition of hydrated starch demonstrate the significant influence of thermal processing.

Published

2017

8. Supercontinuum as a light source for miniaturized endoscopes.

Author

Lu MK, Lin HY, Hsieh CC, and Kao FJ

Abstract

In this work, we have successfully implemented supercontinuum based illumination through single fiber coupling. The integration of a single fiber illumination with a miniature CMOS sensor forms a very slim and powerful camera module for endoscopic imaging. A set of tests and in vivo animal experiments are conducted accordingly to characterize the corresponding illuminance, spectral profile, intensity distribution, and image quality. The key illumination parameters of the supercontinuum, including color rendering index (CRI: 72%~97%) and correlated color temperature (CCT: 3,100K~5,200K), are modified with external filters and compared with those from a LED light source (CRI~76% & CCT~6,500K). The very high spatial coherence of the supercontinuum allows high luminosity conduction through a single multimode fiber (core size~400μm), whose distal end tip is attached with a diffussion tip to broaden the solid angle of illumination (from less than 10° to more than 80°).

Published

2016

9. Three-dimensional trace measurements for fast-moving objects using binary-encoded fringe projection techniques.

Author

Su WH, Kuo CY, and Kao FJ

Subjects

Reproducibility of Results, Sensitivity and Specificity, Algorithms, Image Enhancement methods, Image Interpretation, Computer-Assisted methods, Imaging, Three-Dimensional methods, Motion, Pattern Recognition, Automated methods, Refractometry methods

Abstract

A fringe projection technique to trace the shape of a fast-moving object is proposed. A binary-encoded fringe pattern is illuminated by a strobe lamp and then projected onto the moving object at a sequence of time. Phases of the projected fringes obtained from the sequent measurements are extracted by the Fourier transform method. Unwrapping is then performed with reference to the binary-encoded fringe pattern. Even though the inspected object is colorful, fringe orders can be identified. A stream of profiles is therefore retrieved from the sequent unwrapped phases. This makes it possible to analyze physical properties of the dynamic objects. Advantages of the binary-encoded fringe pattern for phase unwrapping also include (1) reliable performance for colorful objects, spatially isolated objects, and surfaces with large depth discontinuities; (2) unwrapped errors only confined in a local area; and (3) low computation cost.

Published

2014

10. Compact light-emitting diode lighting ring for video-assisted thoracic surgery.

Author

Lu MK, Chang FC, Wang WZ, Hsieh CC, and Kao FJ

Subjects

Animals, Electrodes, Equipment Design, Female, Light, Swine, Lighting instrumentation, Thoracic Surgery, Video-Assisted instrumentation

Abstract

In this work, a foldable ring-shaped light-emitting diode (LED) lighting assembly, designed to attach to a rubber wound retractor, is realized and tested through porcine animal experiments. Enabled by the small size and the high efficiency of LED chips, the lighting assembly is compact, flexible, and disposable while providing direct and high brightness lighting for more uniform background illumination in video-assisted thoracic surgery (VATS). When compared with a conventional fiber bundle coupled light source that is usually used in laparoscopy and endoscopy, the much broader solid angle of illumination enabled by the LED assembly allows greatly improved background lighting and imaging quality in VATS.

Published

2014

11. Dynamic photopatterning of cells in situ by Q-switched neodymium-doped yttrium ortho-vanadate laser.

Author

Deka G, Okano K, and Kao FJ

Subjects

Cell Movement physiology, HeLa Cells, Humans, Neodymium, Vanadates, Yttrium, Cell Culture Techniques instrumentation, Lasers, Optics and Photonics instrumentation, Optics and Photonics methods

Abstract

Cellular micropattering has been increasingly adopted in quantitative biological experiments. A Q-switched pulsed neodymium-doped yttrium ortho-vanadate (Nd∶YVO4) laser directed in-situ microfabrication technique for cell patterning is presented. A platform is designed uniquely to achieve laser ablation. The platform is comprised of thin gold coating over a glass surface that functions as a thermal transducer and is over-layered by a cell repellant polymer layer. Micropatterns are engraved on the platform, subsequently exposing specific cell adhesive micro-domains by ablating the gold-polymer coating photothermally. Experimental results indicate that the proposed approach is applicable under culture conditions, viable toward cells, and has a higher engraving speed. Possible uses in arraying isolated single cells on the platform are also shown. Additionally, based on those micro-patterns, dynamic cellular morphological changes and migrational speed in response to geometrical barriers are studied to demonstrate the potential applications of the proposed approach. Our results further demonstrate that cells in narrower geometry had elongated shapes and higher migrational speed than those in wider geometry. Importantly, the proposed approach will provide a valuable reference for efforts to study single cell dynamics and cellular migration related processes for areas such as cell division, wound healing, and cancer invasion.

Published

2014

12. Special section guest editorial: advanced biomedical imaging and sensing.

Author

Sun CK, Chiou A, Kao FJ, Chou C, and Dong CY

Subjects

Biosensing Techniques methods, Congresses as Topic, Diagnostic Imaging methods, Humans, Optics and Photonics, Taiwan, Biosensing Techniques trends, Diagnostic Imaging trends

Published

2014

13. Fluorescence lifetime imaging of alterations to cellular metabolism by domain 2 of the hepatitis C virus core protein.

Author

Mazumder N, Lyn RK, Singaravelu R, Ridsdale A, Moffatt DJ, Hu CW, Tsai HR, McLauchlan J, Stolow A, Kao FJ, and Pezacki JP

Subjects

Cell Line, Tumor, Green Fluorescent Proteins metabolism, Humans, Liver metabolism, NADP metabolism, Protein Binding, Reverse Transcriptase Polymerase Chain Reaction, Viral Core Proteins genetics, Optical Imaging methods, Viral Core Proteins metabolism

Abstract

Hepatitis C virus (HCV) co-opts hepatic lipid pathways to facilitate its pathogenesis. The virus alters cellular lipid biosynthesis and trafficking, and causes an accumulation of lipid droplets (LDs) that gives rise to hepatic steatosis. Little is known about how these changes are controlled at the molecular level, and how they are related to the underlying metabolic states of the infected cell. The HCV core protein has previously been shown to independently induce alterations in hepatic lipid homeostasis. Herein, we demonstrate, using coherent anti-Stokes Raman scattering (CARS) microscopy, that expression of domain 2 of the HCV core protein (D2) fused to GFP is sufficient to induce an accumulation of larger lipid droplets (LDs) in the perinuclear region. Additionally, we performed fluorescence lifetime imaging of endogenous reduced nicotinamide adenine dinucleotides [NAD(P)H], a key coenzyme in cellular metabolic processes, to monitor changes in the cofactor's abundance and conformational state in D2-GFP transfected cells. When expressed in Huh-7 human hepatoma cells, we observed that the D2-GFP induced accumulation of LDs correlated with an increase in total NAD(P)H fluorescence and an increase in the ratio of free to bound NAD(P)H. This is consistent with an approximate 10 fold increase in cellular NAD(P)H levels. Furthermore, the lifetimes of bound and free NAD(P)H were both significantly reduced--indicating viral protein-induced alterations in the cofactors' binding and microenvironment. Interestingly, the D2-expressing cells showed a more diffuse localization of NAD(P)H fluorescence signal, consistent with an accumulation of the co-factor outside the mitochondria. These observations suggest that HCV causes a shift of metabolic control away from the use of the coenzyme in mitochondrial electron transport and towards glycolysis, lipid biosynthesis, and building of new biomass. Overall, our findings demonstrate that HCV induced alterations in hepatic metabolism is tightly linked to alterations in NAD(P)H functional states.

Published

2013

14. In vivo wound healing diagnosis with second harmonic and fluorescence lifetime imaging.

Author

Deka G, Wu WW, and Kao FJ

Subjects

Animals, Cicatrix pathology, Collagen chemistry, Fluorescence, Inflammation, Male, NAD chemistry, Photons, Rats, Rats, Sprague-Dawley, Time Factors, Microscopy, Fluorescence, Multiphoton, Skin pathology, Wound Healing

Abstract

Skin wounds heal when a series of cell lineages are triggered, followed by collagen deposition, to reconstruct damaged tissues. This study evaluates the regeneration of collagen and change in cellular metabolic rate in vivo during wound healing in rats, with second harmonic generation (SHG) and fluorescence lifetime imaging microscopy respectively. The metabolic rate of cells is reflected through the lifetime of the autofluorescence from the co-enzyme protein, reduced nicotinamide adenine dinucleotide, due to its change in the relative concentration of bound and free forms. A higher than normal cellular metabolic rate is observed during the first week of healing, which decreases gradually after eight days of wound formation. SHG signal intensity change indicates the net degradation of collagen during the inflammatory phase, and net regeneration begins on day five. Eventually, the quantity of collagen increases gradually to form a scar tissue as the final product. Importantly, this work demonstrates the feasibility of an in vivo imaging approach for a normal wound on rat skin, which has the potential to supplement the noninvasive clinical diagnosis of wounds.

Published

2013

15. In vivo wound healing diagnosis with second harmonic and fluorescence lifetime imaging.

Author

Deka G, Wu WW, and Kao FJ

Subjects

Animals, Cicatrix pathology, Collagen chemistry, Male, NAD analysis, NAD metabolism, Rats, Rats, Sprague-Dawley, Skin chemistry, Skin injuries, Skin pathology, Microscopy, Fluorescence methods, Optical Imaging methods, Wound Healing physiology

Abstract

Skin wounds heal when a series of cell lineages are triggered, followed by collagen deposition, to reconstruct damaged tissues. This study evaluates the regeneration of collagen and change in cellular metabolic rate in vivo during wound healing in rats, with second harmonic generation (SHG) and fluorescence lifetime imaging microscopy respectively. The metabolic rate of cells is reflected through the lifetime of the autofluorescence from the co-enzyme protein, reduced nicotinamide adenine dinucleotide, due to its change in the relative concentration of bound and free forms. A higher than normal cellular metabolic rate is observed during the first week of healing, which decreases gradually after eight days of wound formation. SHG signal intensity change indicates the net degradation of collagen during the inflammatory phase, and net regeneration begins on day five. Eventually, the quantity of collagen increases gradually to form a scar tissue as the final product. Importantly, this work demonstrates the feasibility of an in vivo imaging approach for a normal wound on rat skin, which has the potential to supplement the noninvasive clinical diagnosis of wounds.

Published

2013

16. Stokes vector based polarization resolved second harmonic microscopy of starch granules.

Author

Mazumder N, Qiu J, Foreman MR, Romero CM, Török P, and Kao FJ

Abstract

We report on the measurement and analysis of the polarization state of second harmonic signals generated by starch granules, using a four-channel photon counting based Stokes-polarimeter. Various polarization parameters, such as the degree of polarization (DOP), the degree of linear polarization (DOLP), the degree of circular polarization (DOCP), and anisotropy are extracted from the 2D second harmonic Stokes images of starch granules. The concentric shell structure of a starch granule forms a natural photonic crystal structure. By integration over all the solid angle, it will allow very similar SHG quantum efficiency regardless of the angle or the states of incident polarization. Given type I phase matching and the concentric shell structure of a starch granule, one can easily infer the polarization states of the input beam from the resulting SH micrograph.

Published

2013

17. Fluorescence lifetime imaging with pulsed diode laser enabled stimulated emission.

Author

Ge J, Kuang C, Lee SS, and Kao FJ

Subjects

Equipment Design, Equipment Failure Analysis, Image Enhancement instrumentation, Lasers, Semiconductor, Lighting instrumentation, Microscopy, Fluorescence instrumentation

Abstract

We present here a stimulated emission based fluorescence lifetime imaging (FLIM) scheme using a pair of synchronized diode lasers operating at gain switched pulse mode. The two semiconductor lasers, with wavelengths at 635 nm and 700 nm, serve as the excitation and the stimulation light sources for the ATTO647N labeled sample, respectively. FLIM is readily achieved with their relative time delay controlled electronically. The coherent nature of the stimulated emission signal also allows FLIM at long working distance. In this way, a high performance all-semiconductor FLIM module is realized in a flexible, compact, and cost effective configuration.

Published

2012

18. Metabolism of HeLa cells revealed through autofluorescence lifetime upon infection with enterohemorrhagic Escherichia coli.

Author

Buryakina TY, Su PT, Syu W Jr, Chang CA, Fan HF, and Kao FJ

Subjects

Apoptosis, Flavin-Adenine Dinucleotide chemistry, Flavin-Adenine Dinucleotide metabolism, Flow Cytometry, HeLa Cells, Host-Pathogen Interactions, Humans, NAD chemistry, NAD metabolism, Enterohemorrhagic Escherichia coli metabolism, Escherichia coli Infections metabolism, Microscopy, Fluorescence methods, Models, Biological, Optical Imaging methods

Abstract

Fluorescence lifetime imaging microscopy (FLIM) is a sensitive technique in monitoring functional and conformational states of nicotinamide adenine dinucleotide reduced (NADH) and flavin adenine dinucleotide (FAD),main compounds participating in oxidative phosphorylation in cells. In this study, we have applied FLIM to characterize the metabolic changes in HeLa cells upon bacterial infection and made comparison with the results from the cells treated with staurosporine (STS), a well-known apoptosis inducer. The evolving of NADH's average autofluorescence lifetime during the 3 h after infection with enterohemorragic Escherichia coli (EHEC) or STS treatment has been observed. The ratio of the short and the long lifetime components' relative contributions of NADH increases with time, a fact indicating cellular metabolic activity, such as a decrease of oxidative phosphorylation over the course of infection, while opposite dynamics is observed in FAD. Being associated with mitochondria, FAD lifetimes and redox ratio could indicate heterogeneous mitochondrial function, microenvironment with bacterial infection, and further pathway to cell death. The redox ratios for both EHEC-infected and STS-treated HeLa cells have been observed and these observations also indicate possible apoptosis induced by bacterial infection.

Published

2012

19. Polarization-resolved second harmonic generation microscopy with a four-channel Stokes-polarimeter.

Author

Mazumder N, Qiu J, Foreman MR, Romero CM, Hu CW, Tsai HR, Török P, and Kao FJ

Subjects

Equipment Design, Equipment Failure Analysis, Reproducibility of Results, Sensitivity and Specificity, Microscopy, Confocal instrumentation, Scanning Laser Polarimetry instrumentation

Abstract

We developed a four-channel photon counting based Stokes-polarimeter for spatial characterization of polarization effects in second harmonic generation (SHG). We have implemented a calibration technique allowing quantitative measurement of polarization parameters, such as the degree of polarization (DOP), degree of linear polarization (DOLP), degree of circular polarization (DOCP), as well as anisotropy from the acquired Stokes parameters. The technique is used as contrast mechanism to characterize the polarization properties from two potassium dihydrogen phosphate (KDP) micro-crystals and collagen type-I in SHG microscopy.

Published

2012

20. Long working distance fluorescence lifetime imaging with stimulated emission and electronic time delay.

Author

Lin PY, Lee SS, Chang CS, and Kao FJ

Subjects

Computer Simulation, Electronics, Equipment Design, Fluorescent Dyes chemistry, Hydrogen-Ion Concentration, Light, Photochemistry methods, Semiconductors, Time Factors, Optics and Photonics, Spectrometry, Fluorescence methods

Abstract

In this work, long working distance fluorescence lifetime imaging is realized with stimulated emission in combination with electronic time delay control. Spatial coherence, as a result of stimulated emission, supports unattenuated fluorescence detection at extended distance, using low NA optics. An electronic time delayed trigger provides an advantageous way in adjusting the pulse separation and probing the fluorescence lifetime in the nanosecond ranges. The fluorescence lifetime of selected fluorophores is accurately determined through the pump-probe configuration. The characteristics and applications in fluorescence lifetime measurement of stimulated emission are investigated and summarized succinctly here.

Published

2012

21. Long-distance fluorescence lifetime imaging using stimulated emission.

Author

Dellwig T, Lin PY, and Kao FJ

Subjects

Equipment Design, Ethanol, Fluorescent Dyes chemistry, Glycerol, Indocyanine Green chemistry, Microscopy, Fluorescence instrumentation, Rhodamines chemistry, Microscopy, Fluorescence methods

Abstract

Long-distance stimulated emission imaging has recently been demonstrated as a novel approach for the characterization and imaging of samples containing fluorescent moieties. We present an extension of this methodology through a pump-probe setup for fluorescence lifetime determination and imaging. We measure fluorescence lifetimes of Rhodamine 6G at different solutions and indocyanine green using long-distance fluorescence lifetime imaging.

Published

2012

22. Forward-collected simultaneous fluorescence lifetime imaging and coherent anti-Stokes Raman scattering microscopy.

Author

Slepkov AD, Ridsdale A, Wan HN, Wang MH, Pegoraro AF, Moffatt DJ, Pezacki JP, Kao FJ, and Stolow A

Subjects

Equipment Design, Equipment Failure Analysis, Reproducibility of Results, Sensitivity and Specificity, Image Enhancement instrumentation, Microscopy, Fluorescence instrumentation, Spectrum Analysis, Raman instrumentation, Tomography, Optical Coherence instrumentation

Abstract

We demonstrate the simultaneous collection and separation of femtosecond-laser-based forward-collected coherent anti-Stokes Raman scattering (F-CARS) and two-photon-excitation-induced fluorescence lifetime images (FLIM) using time-correlated single photon counting (TCSPC). We achieve this in a nondescanned geometry using a single multimode fiber without significant loss of light, field of view, and most importantly, TCSPC timing fidelity. In addition to showing the ability to separate CARS images from FLIM images using time gating, we also demonstrate composite multimodal epicollected FLIM imaging with fiber-collected F-CARS imaging in live cells.

Published

2011

23. Imaging carious dental tissues with multiphoton fluorescence lifetime imaging microscopy.

Author

Lin PY, Lyu HC, Hsu CY, Chang CS, and Kao FJ

Abstract

In this study, multiphoton excitation was utilized to image normal and carious dental tissues noninvasively. Unique structures in dental tissues were identified using the available multimodality (second harmonic, autofluorescence, and fluorescence lifetime analysis) without labeling. The collagen in dentin exhibits a strong second harmonic response. Both dentin and enamel emit strong autofluorescence that reveals in detail morphological features (such as dentinal tubules and enamel rods) and, despite their very similar spectral profiles, can be differentiated by lifetime analysis. Specifically, the carious dental tissue exhibits a greatly reduced autofluorescence lifetime, which result is consistent with the degree of demineralization, determined by micro-computed tomography. Our findings suggest that two-photon excited fluorescence lifetime imaging may be a promising tool for diagnosing and monitoring dental caries.

Published

2010

24. Visualization of the Orai1 homodimer and the functional coupling of Orai1-STIM1 by live-cell fluorescence lifetime imaging.

Author

Huang PC, Chiu TY, Wang LC, Teng HC, Kao FJ, and Yang DM

Subjects

Animals, Cell Line, Fluorescence Resonance Energy Transfer, Green Fluorescent Proteins genetics, Green Fluorescent Proteins metabolism, ORAI1 Protein, Protein Binding, Rats, Staining and Labeling methods, Stromal Interaction Molecule 1, Calcium Channels metabolism, Dimerization, Image Processing, Computer-Assisted methods, Membrane Glycoproteins metabolism, Microscopy, Fluorescence methods

Abstract

The Orai1-STIM1 constructed store-operated Ca2+ channels (SOCs) have been found to exert several essential Ca2+ entry/signaling cascades, e.g., the generation of immune response in T lymphocytes. Although biochemical and novel imaging evidence appear to indicate that Orai1 and STIM1 interact with each other to achieve store-operated Ca2+ entry (SOCE), the detailed mechanism of functional SOCE in situ has yet to be fully understood. In this study, green fluorescence protein (EGFP as donor) targeted to either the N- or C-terminal of Orai1 (wild type or delta1-90+delta267-301 double deletion type) and mOrange (as acceptor) tagged STIM1 were used to comprise a fluorescence resonance energy transfer (FRET) pair within living PC12 cells. The fluorescence lifetime map and histogram/distribution of each single cell, determined by one-photon excitation fluorescence lifetime imaging microscopy (FLIM), was used to visualize FRET and show the Orai1 homodimer and Orai1-STIM1 binding. Both the color-coded lifetime map and the distribution of EGFP-tagged Orai1 significantly changed after the administration of thapsigargin, the SOCE stimulating agent. The FRET efficiency from each experimental set was also calculated and compared using double exponential analysis. In summary, we show the detailed interactions Orai1-Orai1 and Orai1-STIM1 within intact living cells by using the FLIM-FRET technique.

Published

2010

25. Enhancing fluorescence of quantum dots by silica-coated gold nanorods under one- and two-photon excitation.

Author

Li X, Kao FJ, Chuang CC, and He S

Subjects

Gold radiation effects, Nanotubes ultrastructure, Silicon Dioxide radiation effects, Gold chemistry, Image Enhancement methods, Lighting methods, Microscopy, Fluorescence, Multiphoton methods, Nanotubes chemistry, Quantum Dots, Silicon Dioxide chemistry

Abstract

Nano-composites of quantum dots (QDs) and gold nanorods (GNRs) or silica-coated GNRs (GNRs_SiO2) were synthesized. The attached GNRs modify the excitation intensity and spontaneous emission of QDs through the surface plasmonic effects. The fluorescence from QDs is enhanced and can be optimized by modifying the thickness of silica coated on GNRs, under both one- and two-photon excitations. The measurements of fluorescence intensity and lifetime demonstrate that the enhancement may be attributed to the matching of the localized surface plasmon resonance of GNR to the excitation wavelength. In addition to enhancing QD-fluorescence in QD-GNR@SiO2, GNRs also present as an effective contrast agent for bio-imaging, through light scattering and or two-photon emission, as well as for photo-thermal therapy. The composite's multifunctional characteristics are highly valuable and to be exploited in bio-applications.

Published

2010

26. Fluorescence lifetime dynamics of enhanced green fluorescent protein in protein aggregates with expanded polyglutamine.

Author

Ghukasyan V, Hsu CC, Liu CR, Kao FJ, and Cheng TH

Subjects

Analysis of Variance, Anisotropy, Cell Growth Processes physiology, Color, Green Fluorescent Proteins chemistry, Green Fluorescent Proteins genetics, Microscopy, Fluorescence, Multiprotein Complexes chemistry, Multiprotein Complexes metabolism, Peptides chemistry, Peptides genetics, Proteins chemistry, Proteins genetics, Recombinant Fusion Proteins chemistry, Recombinant Fusion Proteins genetics, Recombinant Fusion Proteins metabolism, Refractometry, Fluorescence Resonance Energy Transfer methods, Green Fluorescent Proteins metabolism, Peptides metabolism, Proteins metabolism

Abstract

Protein aggregation is one of the characteristic steps in a number of neurodegenerative diseases eventually leading to neuronal death and thorough study of aggregation is required for the development of effective therapy. We apply fluorescence lifetime imaging for the characterization of the fluorescence dynamics of the enhanced green fluorescent protein (eGFP) in fusion with the polyQ-expanded polyglutamine stretch. At the expansion of polyQ above 39 residues, it has an inherent propensity to form amyloid-like fibrils and aggregates, and is responsible for Huntington's disease. The results of the experiments show that expression of the eGFP in fusion with the 97Q protein leads to the decrease of the eGFP fluorescence lifetime by approximately 300 ps. This phenomenon does not appear in Hsp104-deficient cells, where the aggregation in polyQ is prevented. We demonstrate that the lifetime decrease observed is related to the aggregation per se and discuss the possible role of refractive index and homo-FRET in these dynamics.

Published

2010

27. Membrane targeting and coupling of NHE1-integrinalphaIIbbeta3-NCX1 by lipid rafts following integrin-ligand interactions trigger Ca2+ oscillations.

Author

Yi YH, Ho PY, Chen TW, Lin WJ, Gukassyan V, Tsai TH, Wang DW, Lew TS, Tang CY, Lo SJ, Chen TY, Kao FJ, and Lin CH

Subjects

Animals, Biological Clocks physiology, CHO Cells, Cation Transport Proteins genetics, Cricetinae, Cricetulus, Fibrinogen genetics, Fibrinogen metabolism, Humans, Inositol 1,4,5-Trisphosphate, Membrane Microdomains genetics, Platelet Glycoprotein GPIIb-IIIa Complex genetics, Protein Transport physiology, Sodium metabolism, Sodium-Calcium Exchanger genetics, Sodium-Hydrogen Exchanger 1, Sodium-Hydrogen Exchangers genetics, Type C Phospholipases genetics, Type C Phospholipases metabolism, Calcium metabolism, Calcium Signaling physiology, Cation Transport Proteins metabolism, Membrane Microdomains metabolism, Platelet Glycoprotein GPIIb-IIIa Complex metabolism, Sodium-Calcium Exchanger metabolism, Sodium-Hydrogen Exchangers metabolism

Abstract

The cyclic calcium release and uptake during calcium oscillation are thought to result from calcium-induced calcium release (CICR); however, it is unclear, especially in nonexcitable cells, how the initial calcium mobilization that triggers CICR occurs. We report here a novel mechanism, other than conventional calcium channels or the phopholipase C-inositol trisphosphate system, for initiating calcium oscillation downstream of integrin signaling. Upon integrin alphaIIbbeta3 binding to fibrinogen ligand or the disintegrin rhodostomin, sodium-proton exchanger NHE1 and sodium-calcium exchanger NCX1 are actively transported to the plasma membrane, and they become physically coupled to integrin alphaIIbbeta3. Lipid raft-dependent mechanisms modulate the membrane targeting and formation of the NHE1-integrin alphaIIbbeta3-NCX1 protein complex. NHE1 and NCX1 within such protein complex are functionally coupled, such that a local increase of sodium concentration caused by NHE1 can drive NCX1 to generate sodium efflux in exchange for calcium influx. The resulting calcium increase inside the cell can then trigger CICR as a prelude to calcium oscillation downstream of integrin alphaIIbbeta3 signaling. Fluorescence resonance energy transfer based on fluorescence lifetime measurements is employed here to monitor the intermolecular interactions among NHE1-integrin alphaIIbbeta3-NCX1, which could not be properly detected using conventional biochemical assays.

Published

2009

28. In-depth fluorescence lifetime imaging analysis revealing SNAP25A-Rabphilin 3A interactions.

Author

Lee JD, Huang PC, Lin YC, Kao LS, Huang CC, Kao FJ, Lin CC, and Yang DM

Subjects

Adaptor Proteins, Signal Transducing genetics, Animals, Cell Line, Exocytosis, Fluorescence Resonance Energy Transfer, Image Processing, Computer-Assisted, Luminescent Proteins genetics, Luminescent Proteins metabolism, Nerve Tissue Proteins genetics, Neuroendocrine Cells cytology, Neuroendocrine Cells metabolism, Protein Binding, Protein Transport, Rats, Recombinant Fusion Proteins genetics, Recombinant Fusion Proteins metabolism, Synaptosomal-Associated Protein 25 genetics, Vesicular Transport Proteins genetics, Rabphilin-3A, Adaptor Proteins, Signal Transducing metabolism, Microscopy, Fluorescence, Multiphoton, Nerve Tissue Proteins metabolism, Synaptosomal-Associated Protein 25 metabolism, Vesicular Transport Proteins metabolism

Abstract

The high sensitivity and spatial resolution enabled by two-photon excitation fluorescence lifetime imaging microscopy/fluorescence resonance energy transfer (2PE-FLIM/FRET) provide an effective approach that reveals protein-protein interactions in a single cell during stimulated exocytosis. Enhanced green fluorescence protein (EGFP)-labeled synaptosomal associated protein of 25 kDa (SNAP25A) and red fluorescence protein (mRFP)-labeled Rabphillin 3A (RPH3A) were co-expressed in PC12 cells as the FRET donor and acceptor, respectively. The FLIM images of EGFP-SNAP25A suggested that SNAP25A/RPH3A interaction was increased during exocytosis. In addition, the multidimensional (three-dimensional with time) nature of the 2PE-FLIM image datasets can also resolve the protein interactions in the z direction, and we have compared several image analysis methods to extract more accurate and detailed information from the FLIM images. Fluorescence lifetime was fitted by using one and two component analysis. The lifetime FRET efficiency was calculated by the peak lifetime (taupeak) and the left side of the half-peak width (tau1/2), respectively. The results show that FRET efficiency increased at cell surface, which suggests that SNAP25A/RPH3A interactions take place at cell surface during stimulated exocytosis. In summary, we have demonstrated that the 2PE-FLIM/FRET technique is a powerful tool to reveal dynamic SNAP25A/RPH3A interactions in single neuroendocrine cells.

Published

2008

29. Differentiation of apoptosis from necrosis by dynamic changes of reduced nicotinamide adenine dinucleotide fluorescence lifetime in live cells.

Author

Wang HW, Gukassyan V, Chen CT, Wei YH, Guo HW, Yu JS, and Kao FJ

Subjects

Cell Line, Tumor, HeLa Cells, Humans, Reproducibility of Results, Sensitivity and Specificity, Apoptosis physiology, NAD analysis, Necrosis metabolism, Osteosarcoma metabolism, Osteosarcoma pathology, Spectrometry, Fluorescence methods

Abstract

Direct monitoring of cell death (i.e., apoptosis and necrosis) during or shortly after treatment is desirable in all cancer therapies to determine the outcome. Further differentiation of apoptosis from necrosis is crucial to optimize apoptosis-favored treatment protocols. We investigated the potential modality of using tissue intrinsic fluorescence chromophore, reduced nicotinamide adenine dinucleotide (NADH), for cell death detection. We imaged the fluorescence lifetime changes of NADH before and after staurosporine (STS)-induced mitochondria-mediated apoptosis and hydrogen peroxide (H2O2)-induced necrosis, respectively, using two-photon fluorescence lifetime imaging in live HeLa cells and 143B osteosarcoma. Time-lapsed lifetime images were acquired at the same site of cells. In untreated cells, the average lifetime of NADH fluorescence was approximately 1.3 ns. The NADH average fluorescence lifetime increased to approximately 3.5 ns within 15 min after 1 microM STS treatment and gradually decreased thereafter. The NADH fluorescence intensity increased within 15 min. In contrast, no significant dynamic lifetime change was found in cells treated with 1 mM H2O2. Our findings suggest that monitoring the NADH fluorescence lifetime may be a valuable noninvasive tool to detect apoptosis and distinguish apoptosis from necrosis for the optimization of apoptosis-favored treatment protocols and other clinical applications.

Published

2008

30. Reduced nicotinamide adenine dinucleotide fluorescence lifetime separates human mesenchymal stem cells from differentiated progenies.

Author

Guo HW, Chen CT, Wei YH, Lee OK, Gukassyan V, Kao FJ, and Wang HW

Subjects

Cells, Cultured, Humans, Oxidation-Reduction, Mesenchymal Stem Cells cytology, Mesenchymal Stem Cells metabolism, Microscopy, Fluorescence methods, NAD analysis, Osteoblasts cytology, Osteoblasts metabolism, Osteogenesis physiology, Spectrometry, Fluorescence methods

Abstract

The metabolic changes of human mesenchymal stem cells (hMSCs) during osteogenic differentiation were accessed by reduced nicotinamide adenine dinucleotide (NADH) fluorescence lifetime. An increase in mean fluorescence lifetime and decrease in the ratio between free NADH and protein-bound NADH correlated with our previously reported increase in the adenosine triphosphate (ATP) level of hMSCs during differentiation. These findings suggest that NADH fluorescence lifetime may serve as a new optical biomarker for noninvasive selection of stem cells from differentiated progenies.

Published

2008

31. Application of fluorescence resonance energy transfer resolved by fluorescence lifetime imaging microscopy for the detection of enterovirus 71 infection in cells.

Author

Ghukasyan V, Hsu YY, Kung SH, and Kao FJ

Subjects

Enterovirus Infections diagnosis, HeLa Cells, Humans, Image Enhancement methods, Enterovirus isolation & purification, Enterovirus metabolism, Enterovirus Infections metabolism, Enterovirus Infections virology, Fluorescence Resonance Energy Transfer methods, Microscopy, Fluorescence methods, Peptide Hydrolases analysis

Abstract

Timely and effective virus infection detection is critical for the clinical management and prevention of the disease spread in communities during an outbreak. A range of methods have been developed for this purpose, of which classical serological and viral nucleic acids detection are the most popular. We describe an alternative, imaging-based approach that utilizes fluorescence resonance energy transfer (FRET) resolved by fluorescence lifetime imaging microscopy (FLIM) and demonstrate it on the example of enterovirus 71 (EV71) infection detection. A plasmid construct is developed with the sequence for GFP2 and DsRed2 fluorescent proteins, linked by a 12-amino-acid-long cleavage recognition site for the 2A protease (2A(pro)), encoded by the EV71 genome and specific for the members of Picornaviridae family. In the construct expressed in HeLa cells, the linker binds the fluorophores within the Forster distance and creates a condition for FRET to occur, thus resulting in shortening of the GFP2 fluorescence lifetime. On cells infection with EV71, viral 2A(pro) released to the cytoplasm cleaves the recognition site, causing disruption of FRET through separation of the fluorophores. Thus, increased GFP2 lifetime to the native values, manifested by the time-correlated single-photon counting, serves as an efficient and specific indicator of the EV71 virus infection.

Published

2007

32. Microsurface plasmon resonance biosensing based on gold-nanoparticle film.

Author

Hong X and Kao FJ

Subjects

Antigen-Antibody Reactions immunology, Biosensing Techniques instrumentation, Coated Materials, Biocompatible chemical synthesis, Immunoassay instrumentation, Immunoassay methods, Reproducibility of Results, Sensitivity and Specificity, Staining and Labeling instrumentation, Streptavidin chemistry, Surface Plasmon Resonance instrumentation, Biosensing Techniques methods, Coated Materials, Biocompatible chemistry, Gold, Nanotubes chemistry, Staining and Labeling methods, Streptavidin analysis, Streptavidin immunology, Surface Plasmon Resonance methods

Abstract

We use a gold-nanoparticle coated film to achieve highly spatially resolved biosensing that is based on localized surface-plasmon resonance. Unlike the planar gold film employed for conventional surface-plasmon resonance sensing, the gold-nanoparticle film relies exclusively on shifting of the peak extinction wavelength for detection of biointeraction and does not depend critically on the angle of incidence. These characteristics permit integration of surface-plasmon resonance with large-numerical-aperture optics to achieve biosensing with high sensitivity and spatial resolution as high as 25 microm.

Published

2004

33. Engagement of inducible nitric oxide synthase at the rostral ventrolateral medulla during mevinphos intoxication in the rat.

Author

Chang AY, Chan JY, Kao FJ, Huang CM, and Chan SH

Subjects

Acetylcholine metabolism, Animals, Cholinesterase Inhibitors administration & dosage, Cholinesterase Inhibitors pharmacology, Electrophysiology, Hemodynamics drug effects, Immunohistochemistry, Insecticides administration & dosage, Male, Medulla Oblongata chemistry, Medulla Oblongata cytology, Mevinphos administration & dosage, Microinjections, Microscopy, Electron, Scanning, Neurons chemistry, Nitric Oxide metabolism, Nitric Oxide physiology, Nitric Oxide Synthase metabolism, Nitric Oxide Synthase Type II, Rats, Rats, Sprague-Dawley, Receptor, Muscarinic M2, Receptors, Muscarinic metabolism, Vasomotor System, Insecticides pharmacology, Medulla Oblongata enzymology, Mevinphos toxicity, Nitric Oxide Synthase drug effects

Abstract

We evaluated the relationship between the toxicity induced by the organophosphate mevinphos (Mev) and inducible nitric oxide synthase (iNOS) in the rostral ventrolateral medulla (RVLM), the medullary origin of sympathetic neurogenic vasomotor tone. Adult Sprague-Dawley rats that were anesthetized and maintained with propofol were used. Laser scanning confocal microscopic analysis revealed colocalization of the M2 subtype of muscarinic receptors (M(2)R) and iNOS immunoreactivity in RVLM neurons. Comicroinjection bilaterally of Mev (10 nmol) and artificial cerebrospinal fluid (aCSF) into the RVLM elicited a progressive decline in systemic arterial pressure (SAP) and heart rate. This was accompanied during phase 1 Mev intoxication by an increase in the power density of the very high-frequency (VHF; 5-9 Hz), high-frequency (HF; 0.8-2.4 Hz), low-frequency (LF; 0.25- 0.8 Hz) and very low-frequency (VLF; 0-0.25 Hz) components of SAP signals. Phase 2 exhibited a reversal of the VHF and VLF power to control levels and a further reduction in the power density of both HF and LF components to below baseline. Hypotension and bradycardia promoted by Mev were significantly blunted on coadministration into the RVLM of the selective iNOS inhibitors S-methylisothiourea (250 pmol) or aminoguanidine (250 pmol). Not only was the augmented power density of HF and LF components during phase 1 Mev intoxication further enhanced, the reduced power of these two spectral components during phase 2 was appreciably antagonized. On the other hand, the temporal changes in VHF and VLF power were essentially the same as with coadministration of Mev and aCSF. We conclude that, as a cholinesterase inhibitor, Mev may induce toxicity via nitric oxide produced by iNOS on activation of the M(2)R by the accumulated acetylcholine in the RVLM., (Copyright 2001 National Science Council, ROC and S. Karger AG, Basel)

Published

2001

34. Streptococcal pyrogenic exotoxin B induces apoptosis and reduces phagocytic activity in U937 cells.

Author

Kuo CF, Wu JJ, Tsai PJ, Kao FJ, Lei HY, Lin MT, and Lin YS

Subjects

Cysteine Proteinase Inhibitors pharmacology, Exotoxins genetics, Hot Temperature, Humans, Mutagenesis, Site-Directed, Streptococcus pyogenes enzymology, U937 Cells, Apoptosis immunology, Bacterial Proteins, Exotoxins physiology, Immunosuppressive Agents pharmacology, Membrane Proteins, Phagocytosis immunology, Pyrogens physiology, Streptococcus pyogenes immunology

Abstract

Treatment of U937 human monocyte-like cells with Streptococcus pyogenes led to an induction of apoptosis in these cells. A comparison between the wild-type strain and its isogenic protease-negative mutant indicated that the production of streptococcal pyrogenic exotoxin B (SPE B), a cysteine protease, caused a greater extent of apoptosis in U937 cells. Further study using purified SPE B showed that this protease alone could induce U937 cells to undergo apoptosis, which was characterized by morphologic changes, DNA fragmentation laddering on the gel, and an increase in the percentages of hypodiploid cells. The protease activity of SPE B was required for apoptosis to proceed, since treatment with cysteine protease inhibitor E64 or heat inactivation abrogated this death-inducing effect. The SPE B-induced apoptosis pathway was interleukin-1beta converting enzyme (ICE) family protease dependent. Further experiments showed that the phagocytic activity of U937 cells was reduced by SPE B. Treatment with E64 and heat inactivation both abrogated this phagocytosis-inhibitory effect. Taken together, the present data show that SPE B not only possesses the ability to induce apoptosis in monocytic cells but also helps bacteria to resist phagocytosis by host cells.

Published

1999

35. Polarization-Dependent Periodic Pulse Oscillation in a Diode-Laser-Pumped and Intracavity Frequency-Doubled Nd:YVO 4 Laser.

Author

Huang SL, Kao FJ, Hsieh HS, and Hsu CS

Abstract

We demonstrate that two cross-polarized longitudinal modes can have 50% higher conversion efficiency than two parallel-polarized longitudinal modes in a diode-laser-pumped and intracavity frequency-doubled Nd:YVO(4) laser when operated under periodic pulse oscillation. Through simulations of the rate equations for primary frequency intensities and gains, we also verify that this effect can be attributed to gain competition and complementary conversion coefficient between second-harmonic and sum-frequency generations.

Published

1998