共查询到20条相似文献,搜索用时 15 毫秒
1.
Kwasi Kwakwa Alexander Savell Timothy Davies Ian Munro Simona Parrinello Marco A. Purbhoo Paul M.W. French 《Journal of biophotonics》2016,9(9):948-957
TIRF and STORM microscopy are super‐resolving fluorescence imaging modalities for which current implementations on standard microscopes can present significant complexity and cost. We present a straightforward and low‐cost approach to implement STORM and TIRF taking advantage of multimode optical fibres and multimode diode lasers to provide the required excitation light. Combined with open source software and relatively simple protocols to prepare samples for STORM, including the use of Vectashield for non‐TIRF imaging, this approach enables TIRF and STORM imaging of cells labelled with appropriate dyes or expressing suitable fluorescent proteins to become widely accessible at low cost.
2.
Toward the measurement of multiple fluorescence lifetimes in flow cytometry: maximizing multi‐harmonic content from cells and microspheres 下载免费PDF全文
Flow cytometry is a powerful means for in vitro cellular analyses where multi‐fluorescence and multi‐angle light scattering can indicate unique biochemical or morphological features of single cells. Yet, to date, flow cytometry systems have lacked the ability to capture complex fluorescence dynamics due to the transient nature of flowing cells. In this contribution we introduce a simple approach for measuring multiple fluorescence lifetimes from a single cytometric event. We leverage square wave modulation, Fourier analysis, and high frequency digitization and show the ability to resolve more than one fluorescence lifetime from fluorescently‐labelled cells and microspheres.
3.
Earu Banoth Vamshi Krishna Kasula Veerendra Kalyan Jagannadh Sai Siva Gorthi 《Journal of biophotonics》2016,9(6):610-618
In this work, an optofluidic flow analyzer, which can be used to perform malaria diagnosis at the point‐of‐care is demonstrated. The presented technique is based on quantitative optical absorption measurements carried out on a single cell level for a given population of Human Red Blood Cells (RBCs). By measuring the optical absorption of each RBC, the decrease in the Hemoglobin (Hb) concentration in the cytoplasm of the cell due to the invasion of malarial parasite is detected. Cells are assessed on a single cell basis, as they pass through a microfluidic channel. The proposed technique has been implemented with inexpensive off‐the‐shelf components like laser diode, photo‐detector and a micro‐controller. The ability of the optofluidic flow analyzer to asses about 308,049 cells within 3 minutes has been demonstrated. The presented technique is capable of detecting very low parasitemia levels with high sensitivity.
4.
Inside Front Cover: Combining hyperspectral imaging and chemometrics to assess and interpret the effects of environmental stressors on zebrafish eye images at tissue level (J. Biophotonics 3/2018) 下载免费PDF全文
Víctor Olmos Mònica Marro Pablo Loza‐Alvarez Demetrio Raldúa Eva Prats Francesc Padrós Benjamin Piña Romà Tauler Anna de Juan 《Journal of biophotonics》2018,11(3)
Raman images were used to study the effect of the contaminant chlorpyriphos‐oxon on zebrafish eye samples. Multivariate Curve Resolution‐Alternating Least Squares (MCR‐ALS) was used to obtain the distribution maps and spectral signatures of biological components present in the images analyzed. The use of MCRALS spectral signatures as starting information for Partial Least Squares‐Discriminant Analysis allowed statistical assessment of the effect of the contaminant at a specific tissue level. Further details can be found in the article by Víctor Olmos et al. ( e201700089 ).
5.
Label‐free and non‐invasive discrimination of HaCaT
and melanoma cells in a co‐culture model
by hyperspectral confocal reflectance microscopy 下载免费PDF全文
Francesca R. Bertani Elisabetta Botti Luisa Ferrari Valentina Mussi Antonio Costanzo Marco D'Alessandro Francesco Cilloco Stefano Selci 《Journal of biophotonics》2016,9(6):619-625
A novel hyperspectral confocal microscopy method to separate different cell populations in a co‐culture model is presented here. The described methodological and instrumental approach allows discrimination of different cell types using a non‐invasive, label free method with good accuracy with a single cell resolution. In particular, melanoma cells are discriminated from HaCaT cells by hyperspectral confocal imaging, principal component analysis and optical frequencies signing, as confirmed by fluorescence labelling cross check. The identification seems to be quite robust to be insensitive to the cellular shape within the studied samples, enabling to separate cells according to their cytotype down to a single cell sensitivity.
6.
Fluorescence life‐time imaging and steady state polarization for examining binding of fluorophores to gold nanoparticles 下载免费PDF全文
Shmulik Schwartz Dror Fixler Rachela Popovtzer Orit Shefi 《Journal of biophotonics》2015,8(11-12):944-951
Nanocomposites as multifunctional agents are capable of combing imaging and cell biology technologies. The conventional methods used for validation of the conjugation process of nanoparticles (NPs) to fluorescent molecules such as spectroscopy analysis and surface potential measurements, are not sufficient. In this paper we present a new and highly sensitive procedure that uses the combination of (1) fluorescence spectrum, (2) fluorescence lifetime, and (3) steady state fluorescence polarization measurements. We characterize and analyze gold NPs with Lucifer yellow (LY) surface coating as a model. We demonstrate the ability to differentiate between LY‐GNP (the conjugated complex) and a mixture of coated NP and free dyes. We suggest the approach for neuroscience applications where LY is used for detecting and labeling cells, studying morphology and intracellular communications.
7.
High speed sCMOS‐based oblique plane microscopy applied to the study of calcium dynamics in cardiac myocytes 下载免费PDF全文
Vincent Maioli Christina Rowlands Fabiana Gordon Sian E. Harding Alexander R. Lyon Chris Dunsby 《Journal of biophotonics》2016,9(3):311-323
Oblique plane microscopy (OPM) is a form of light sheet microscopy that uses a single high numerical aperture microscope objective for both fluorescence excitation and collection. In this paper, measurements of the relative collection efficiency of OPM are presented. An OPM system incorporating two sCMOS cameras is then introduced that enables single isolated cardiac myocytes to be studied continuously for 22 seconds in two dimensions at 667 frames per second with 960 × 200 pixels and for 30 seconds with 960 × 200 × 20 voxels at 25 volumes per second. In both cases OPM is able to record in two spectral channels, enabling intracellular calcium to be studied via the probe Fluo‐4 AM simultaneously with the sarcolemma and transverse tubule network via the membrane dye Cellmask Orange. The OPM system was then applied to determine the spatial origin of spontaneous calcium waves for the first time and to measure the cell transverse tubule structure at their point of origin. Further results are presented to demonstrate that the OPM system can also be used to study calcium spark parameters depending on their relationship to the transverse tubule structure.
8.
Non‐Invasive Multi‐Dimensional Two‐Photon Microscopy enables optical fingerprinting (TPOF) of immune cells 下载免费PDF全文
Uta Gehlsen Marta Szaszák Andreas Gebert Norbert Koop Gereon Hüttmann Philipp Steven 《Journal of biophotonics》2015,8(6):466-479
Mucosal surfaces are constantly exposed to pathogens and show high immunological activity. In a broad variety of ocular surface disorders inflammation is common, but underlying mechanisms are often not fully understood. However, the main clinical problem is that inflammatory processes are difficult to characterize and quantify due to the impossibility of repeated tissue probing of the delicate ocular surface. Therefore non‐invasive optical methods are thought to have the potential for intravital investigation of ocular surface inflammation. This study demonstrates the general potential of two‐photon microscopy to non‐invasively detect and discriminate key players of inflammation in the ocular surface by using intrinsic fluorescence‐based features without the necessity of tissue probing or the use of dyes. The use of wavelength dependent measurements of fluorescence lifetime, in addition to autofluorescence intensity enables a functional differentiation of isolated immune cells in vitro at excitation wavelengths between 710 to 830 nm. Mixed cell cultures and first in vivo results indicate the use of excitation wavelength of 710 to 750 nm for further experiments and future use in patients.
9.
Rapid and label‐free detection and assessment of bacteria by terahertz time‐domain spectroscopy 下载免费PDF全文
Shihan Yan Yueping Liu Shu Yu Mingkun Zhang Zhongbo Yang Xiaoyan Zhu Qing Huang Hong‐Liang Cui Weiling Fu 《Journal of biophotonics》2016,9(10):1050-1058
Here we demonstrated the potential and applicability of terahertz (THz) spectroscopy to detect four commonly found bacteria in the infectious diseases. Besides the different spectral characteristics between bacterial species, THz absorption differences for living bacteria, dead bacteria and bacterial powder of the same species were also investigated. Our results revealed that small differences in water contents between bacterial cells account for distinct discrepancies of the absorption coefficients, which can be used for bacterial species identification. Furthermore, living and dead bacteria showed different absorption coefficients as a result of their different hydration levels, suggesting that THz spectroscopy can be used to rapidly assess the living state of bacteria under test. Our results clearly demonstrated the ability of THz spectroscopy for time‐saving and label‐free detection of bacteria with minimal sample preparation, potentially to be utilized for point‐of‐care tests in the near future.
10.
An infrared sensor analysing label‐free the secondary structure of the Abeta peptide in presence of complex fluids 下载免费PDF全文
Andreas Nabers Julian Ollesch Jonas Schartner Carsten Kötting Just Genius Ute Haußmann Hans Klafki Jens Wiltfang Klaus Gerwert 《Journal of biophotonics》2016,9(3):224-234
The secondary structure change of the Abeta peptide to beta‐sheet was proposed as an early event in Alzheimer's disease. The transition may be used for diagnostics of this disease in an early state. We present an Attenuated Total Reflection (ATR) sensor modified with a specific antibody to extract minute amounts of Abeta peptide out of a complex fluid. Thereby, the Abeta peptide secondary structure was determined in its physiological aqueous environment by FTIR‐difference‐spectroscopy. The presented results open the door for label‐free Alzheimer diagnostics in cerebrospinal fluid or blood. It can be extended to further neurodegenerative diseases.
11.
Rapid SERS monitoring of lipid‐peroxidation‐derived protein modifications in cells using photonic crystal
fiber sensor 下载免费PDF全文
Tianxun Gong Nan Zhang Kien Voon Kong Douglas Goh Cui Ying Jean‐Louis Auguste Perry Ping Shum Lei Wei Georges Humbert Ken‐Tye Yong Malini Olivo 《Journal of biophotonics》2016,9(1-2):32-37
We proposed a side channel photonic crystal fiber (SC‐PCF) based Surface enhanced Raman spectroscopy (SERS) platform which is able to accurately monitor lipid peroxidation derived protein modifications in cells. This platform incorporates linoleamide alkyne (LAA), which is oxidized and subsequently modifies proteins in cells with alkyne functional group upon lipid peroxidation. By loading the side channel of SC‐PCF with a mixture of gold nanoparticles and LAA treated cells, and subsequently measuring the interference‐free alkyne Raman peak from these proteins in cells, strong SERS signal was obtained. The platform provides a method for the rapid monitoring of lipid peroxidation derived protein modification in cells.
12.
Probe‐based confocal laser endomicroscopy (pCLE) – a new imaging technique for in situ localization of spermatozoa 下载免费PDF全文
Matthias Trottmann Herbert Stepp Ronald Sroka Michael Heide Bernhard Liedl Sven Reese Armin J. Becker Christian G. Stief Sabine Kölle 《Journal of biophotonics》2015,8(5):415-421
In azoospermic patients, spermatozoa are routinely obtained by testicular sperm extraction (TESE). However, success rates of this technique are moderate, because the site of excision of testicular tissue is determined arbitrarily. Therefore the aim of this study was to establish probe‐based laser endomicroscopy (pCLE) a noval biomedical imaging technique, which provides the opportunity of non‐invasive, real‐time visualisation of tissue at histological resolution. Using pCLE we clearly visualized longitudinal and horizontal views of the tubuli seminiferi contorti and localized vital spermatozoa. Obtained images and real‐time videos were subsequently compared with confocal laser scanning microscopy (CLSM) of spermatozoa and tissues, respectively.
13.
Volumetric hand‐held optoacoustic angiography as a tool for real‐time screening of dense breast 下载免费PDF全文
X. Luís Deán‐Ben Thomas F. Fehm Monika Gostic Daniel Razansky 《Journal of biophotonics》2016,9(3):253-259
Existing mammographic screening solutions are generally associated with several major drawbacks, such as exposure to ionizing radiation or insufficient sensitivity in younger populations with radiographically‐dense breast. Even when combined with ultrasound or magnetic resonance imaging, X‐Ray mammography may still attain unspecific or false positive results. Thus, development of new breast imaging tools represents a timely medical challenge. We report on a new approach to high‐resolution functional and anatomical breast angiography using volumetric hand‐held optoacoustic tomography, which employs light intensities safe for human use. Experiments in young healthy volunteers with fibroglandular‐dominated dense breasts revealed the feasibility of rendering three‐dimensional images representing vascular anatomy and functional blood oxygenation parameters at video rate. Sufficient contrast was achieved at depths beyond 2 cm within dense breasts without compromising the real‐time imaging performance. The suggested solution may thus find applicability as a standalone or supplemental screening tool for early detection and follow‐up of carcinomas in radiographically‐dense breasts.
14.
Ekaterina V. Gubarkova Varvara V. Dudenkova Felix I. Feldchtein Lidia B. Timofeeva Elena B. Kiseleva Sergei S. Kuznetsov Boris E. Shakhov Alexander A. Moiseev Valentin M. Gelikonov Gregory V. Gelikonov Alex Vitkin Natalia D. Gladkova 《Journal of biophotonics》2016,9(10):1009-1020
We combined cross‐polarization optical coherence tomography (CP OCT) and non‐linear microscopy based on second harmonic generation (SHG) and two‐photon‐excited fluorescence (2PEF) to assess collagen and elastin fibers and other vascular structures in the development of atherosclerosis, including identification of vulnerable plaques, which remains an important clinical problem and imaging application. CP OCT's ability to visualize tissue birefringence and cross‐scattering adds new information about the microstructure and composition of the plaque. However its interpretation can be ambiguous, because backscattering contrast may have a similar appearance to the birefringence related fringes. Our results represent a step towards minimally invasive characterization and monitoring of different stages of atherosclerosis, including vulnerable plaques. CP OCT image of intimal thickening in the human coronary artery. The dark stripe in the cross‐polarization channel (arrow) is a polarization fringe related to the phase retardation between two eigen polarization states. It is histologically located in the area of the lipid pool, however this stripe is a polarization artifact, rather than direct visualization of the lipid pool.
15.
Label‐free and non‐invasive monitoring of porcine trophoblast derived cells: differentiation in serum and serum‐free media 下载免费PDF全文
Qifei Li Edison Suasnavas Lifu Xiao Sierra Heywood Xiaojun Qi Anhong Zhou S. Clay Isom 《Journal of biophotonics》2015,8(8):638-645
Traditional approaches to characterize stem cell differentiation are time‐consuming, lengthy and invasive. Here, Raman microspectroscopy (RM) and atomic force microscopy (AFM) – both considered as non‐invasive techniques – are applied to detect the biochemical and biophysical properties of trophoblast derived stem‐like cells incubated up to 10 days under conditions designed to induce differentiation. Significant biochemical and biophysical differences between control cells and differentiated cells were observed. Quantitative real time PCR was also applied to analyze gene expression. The relationship between cell differentiation and associated cellular biochemical and biomechanical changes were discussed.
16.
Dual‐polarization Raman spectral imaging to extract overlapping molecular fingerprints of living cells 下载免费PDF全文
Liang‐da Chiu Almar F. Palonpon Nicholas I. Smith Satoshi Kawata Mikiko Sodeoka Katsumasa Fujita 《Journal of biophotonics》2015,8(7):546-554
Raman spectral imaging is gaining more and more attention in biological studies because of its label‐free characteristic. However, the discrimination of overlapping chemical contrasts has been a major challenge. In this study, we introduce an optical method to simultaneously obtain two orthogonally polarized Raman images from a single scan of the sample. We demonstrate how this technique can improve the quality and quantity of the hyperspectral Raman dataset and how the technique is expected to further extend the horizons of Raman spectral imaging in biological studies by providing more detailed chemical information.
17.
Wide‐field hyperspectral 3D imaging of functionalized gold nanoparticles targeting cancer cells by reflected light microscopy 下载免费PDF全文
Sergiy Patskovsky Eric Bergeron David Rioux Michel Meunier 《Journal of biophotonics》2015,8(5):401-407
We present a new hyperspectral reflected light microscopy system with a scanned broadband supercontinuum light source. This wide‐field and low phototoxic hyperspectral imaging system has been successful for performing spectral three‐dimensional (3D) localization and spectroscopic identification of CD44‐targeted PEGylated AuNPs in fixed cell preparations. Such spatial and spectral information is essential for the improvement of nanoplasmonic‐based imaging, disease detection and treatment in complex biological environment. The presented system can be used for real‐time 3D NP tracking as spectral sensors, thus providing new avenues in the spatio‐temporal characterization and detection of bioanalytes.
18.
Investigation of the differentiation of ex vivo nerve and fat tissues using laser‐induced breakdown spectroscopy (LIBS): Prospects for tissue‐specific laser surgery 下载免费PDF全文
Fanuel Mehari Maximillian Rohde Rajesh Kanawade Christian Knipfer Werner Adler Florian Klämpfl Florian Stelzle Michael Schmidt 《Journal of biophotonics》2016,9(10):1021-1032
In the present study, the elemental compositions of fat and nerve tissue during their plasma mediated laser ablation are studied in the context of tissue differentiation for laser surgery applications by using Laser‐Induced Breakdown Spectroscopy (LIBS). Tissue samples of porcine fat and nerve were prepared as ex vivo experimental objects. Plasma mediated laser ablation is performed using an Nd : YAG laser in open air and under normal stray light conditions. The performed measurements suggest that the two tissue types show a high similarity in terms of qualitative elemental composition while at the same time revealing a distinct difference in the concentration of the constituent elements. Different analysis approaches are evaluated and discussed to optimize the tissue‐differentiation performance of the LIBS approach.
19.
Synergistic effects of atmospheric pressure plasma‐emitted components on DNA oligomers: a Raman spectroscopic study 下载免费PDF全文
Eugen Edengeiser Jan‐Wilm Lackmann Erik Bründermann Simon Schneider Jan Benedikt Julia E. Bandow Martina Havenith 《Journal of biophotonics》2015,8(11-12):918-924
Cold atmospheric‐pressure plasmas have become of increasing importance in sterilization processes especially with the growing prevalence of multi‐resistant bacteria. Albeit the potential for technological application is obvious, much less is known about the molecular mechanisms underlying bacterial inactivation. X‐jet technology separates plasma‐generated reactive particles and photons, thus allowing the investigation of their individual and joint effects on DNA. Raman spectroscopy shows that particles and photons cause different modifications in DNA single and double strands. The treatment with the combination of particles and photons does not only result in cumulative, but in synergistic effects. Profilometry confirms that etching is a minor contributor to the observed DNA damage in vitro.
20.
Back Cover: Non‐invasive optical method for real‐time assessment of intracorneal riboflavin concentration and efficacy of corneal cross‐linking (J. Biophotonics 7/2018) 下载免费PDF全文
Giuseppe Lombardo Valentina Villari Norberto L. Micali Nancy Leone Cristina Labate Maria P. De Santo Marco Lombardo 《Journal of biophotonics》2018,11(7)
We disclose a theranostic device for performing image‐guided riboflavin/UV‐A corneal cross‐linking. The device determines treatment efficacy by real time monitoring of riboflavin concentration in the corneal stroma. The study shows efficacy of the device in eye bank human donor tissues. Further details can be found in the article by Giuseppe Lombardo et al. ( e201800028 )