Your search keyword '"Linbo Liu"' showing total 100 results

1. Dual beam optical coherence tomography angiography for decoupling axial velocity gradient

Author

Zhengyang Xu, Yukun Wang, Xi Chen, Kan Lin, and Linbo Liu

Subjects

Medicine, Science

Abstract

Abstract Axial velocity gradient (AVG) in the optical coherence tomography angiography (OCTA) signal affects measurement accuracy when the flow is not perpendicular to the scanning beam. We developed a dual beam OCTA method to decouple the contribution of AVG from the decorrelation signal. Decoupling is first verified by phantom experiments which reduces measurement uncertainty from 1.5 to 0.7% (standard deviation). We also tested the method in human skin in vivo and the results indicate that the contribution of AVG to decorrelation signal is reduced.

Published

2024

2. Exosomes derived from epidermal growth factor-like domain protein 6-preconditioned mesenchymal stem cells for diabetic wound healing

Author

Chen Gong, Chengde Xia, and Linbo Liu

Subjects

Diabetic wound healing, Mesenchymal stem cells, Epidermal growth factor-like domain protein 6, Exosomes, Hydrogel, Medicine (General), R5-920, Cytology, QH573-671

Abstract

Diabetic wounds are difficult to repair effectively in the clinic. Tissue engineering based on mesenchymal stem cells (MSCs) showed great therapeutic potential in wound healing. MSCs-derived exosome could reproduce the effect of MSCs by transferring the bioactive substance to the recipient cells. The biological function of exosomes was determined by the state of the derived MSCs. In this study, we cultured hUC-MSCs with EGFL6 and isolated EGFL6-preconditioned exosomes (EGF-Exos), and then investigated the effect of EGF-Exos on wound healing. The results revealed that EGF-Exos promoted the proliferation and migration of HUVECs, had the anti-inflammtory function and improved angiogenesis. Moreover, we fabricated Gelama hydrogel to load EGF-Exos to repair diabetic wounds. In vivo results showed that EGF-Exos contributed to the repair of diabetic wound and provided valuable data for understanding the role of EGF-Exos in diabetic wound healing.

Published

2024

3. Physiological and metabolomic analyses reveal the mechanism by which exogenous spermine improves drought resistance in alfalfa leaves (Medicago sativa L.)

Author

Wenjuan Wang, Wenjuan Kang, Shangli Shi, and Linbo Liu

Subjects

alfalfa, exogenous, spermine, physiological, metabolomics, drought resistance, Plant culture, SB1-1110

Abstract

IntroductionAlfalfa (Medicago sativa L.) is a globally important legume crop with high nutritional and ecological value. Drought poses a serious threat to alfalfa acreage and yields. Spermine (Spm) has been shown to protect plants from drought damage. The aim of this study was to clarify the mechanism of exogenous Spm to improve drought resistance of alfalfa. MethodsIn this study, we root applied 0.1, 0.5, and 1 mM Spm to Gannong No. 3 (G3) alfalfa under drought stress, and then determined their physiological and metabolic changes. ResultsThe results showed that exogenous Spm increased chlorophyll content, chlorophyll fluorescence parameters and gas exchange parameters, enhanced antioxidant enzymes activity, improved ascorbic acid-glutathione (AsA-GSH) cycle, increased osmoregulatory substances content, reduced hydrogen peroxide and superoxide anion levels, and inhibited malondialdehyde accumulation in alfalfa under drought stress, thereby increasing plant height and leaf relative water content and enhancing drought tolerance of alfalfa. The redundancy analysis of the above physiological indicators showed that the addition of the optimal Spm to improve drought tolerance of alfalfa under drought stress was mainly achieved by increasing catalase activity and improving the ASA-GSH cycle. In addition, metabolomics analysis revealed that exogenous Spm increased the content of oxobutanedioic acid, citric acid, fumaric acid and malic acid to enhance the tricarboxylic acid cycle. Meanwhile, exogenous Spm increased endogenous Spm and proline (Pro) content to resist drought stress by enhancing Spm and Pro metabolism. Moreover, exogenous Spm increased the accumulation of the signaling substance abscisic acid. DiscussionIn conclusion, exogenous Spm enhanced drought resistance of alfalfa leaves under drought stress.

Published

2024

4. Deblurring, artifact-free optical coherence tomography with deconvolution-random phase modulation

Author

Xin Ge, Si Chen, Kan Lin, Guangming Ni, En Bo, Lulu Wang, and Linbo Liu

Subjects

deconvolution, random phase masks, deblurring, Optics. Light, QC350-467, Applied optics. Photonics, TA1501-1820

Abstract

Deconvolution is a commonly employed technique for enhancing image quality in optical imaging methods. Unfortunately, its application in optical coherence tomography (OCT) is often hindered by sensitivity to noise, which leads to additive ringing artifacts. These artifacts considerably degrade the quality of deconvolved images, thereby limiting its effectiveness in OCT imaging. In this study, we propose a framework that integrates numerical random phase masks into the deconvolution process, effectively eliminating these artifacts and enhancing image clarity. The optimized joint operation of an iterative Richardson-Lucy deconvolution and numerical synthesis of random phase masks (RPM), termed as Deconv-RPM, enables a 2.5-fold reduction in full width at half-maximum (FWHM). We demonstrate that the Deconv-RPM method significantly enhances image clarity, allowing for the discernment of previously unresolved cellular-level details in nonkeratinized epithelial cells ex vivo and moving blood cells in vivo.

Published

2024

5. Method for Extracting Optical Element Information Using Optical Coherence Tomography

Author

Jiucheng Nie, Yukun Wang, Dacheng Wang, Yue Ding, Chengchen Zhou, Jincheng Wang, Shuangshuang Zhang, Junwei Song, Mengxue Cai, Junlin Wang, Zhongxu Cui, Yuhan Hou, Si Chen, Linbo Liu, and Xiaokun Wang

Subjects

spectral-domain OCT, thickness measurement, curvature measurement, multilayer film, Chemical technology, TP1-1185

Abstract

This study examines the measurement of film thickness, curvature, and defects on the surface or inside of an optical element using a highly accurate and efficient method. This is essential to ensure their quality and performance. Existing methods are unable to simultaneously extract the three types of information: thickness, curvature, and defects. Spectral-domain optical coherence tomography (SD-OCT), a non-invasive imaging technique with imaging depths down to the millimeter scale, provides the possibility of detecting the optical element components’ parameters. In this paper, we propose an error correction model for compensating delay differences in A-scan, field curvature, and aberration to improve the accuracy of system fitting measurements using SD-OCT. During data processing, we use the histogram-equalized gray stretching (IAH-GS) method to deal with strong reflections in the thin film layers inside the optics using individual A-scan averages. In addition, we propose a window threshold cutoff algorithm to accurately identify defects and boundaries in OCT images. Finally, the system is capable of rapidly detecting the thickness and curvature of film layers in optical elements with a maximum measurement depth of 4.508 mm, a diameter of 15 × 15 mm, a resolution of 5.69 microns, and a sampling rate of 70 kHz. Measurements were performed on different standard optical elements to verify the accuracy and reliability of the proposed method. To the best of our knowledge, this is the first time that thickness, curvature, and defects of an optical film have been measured simultaneously, with a thickness measurement accuracy of 1.924 µm, and with a difference between the calibrated and nominal curvature measurements consistently within 1%. We believe that this research will greatly advance the use of OCT technology in the testing of optical thin films, thereby improving productivity and product quality.

Published

2024

6. Overexpression of ZxABCG11 from Zygophyllum xanthoxylum enhances tolerance to drought and heat in alfalfa by increasing cuticular wax deposition

Author

Linbo Liu, Aike Bao, Hujun Li, Wanpeng Bai, Haishuang Liu, Ye Tian, Yiying Zhao, Fangchen Xia, and Suomin Wang

Subjects

Alfalfa, ZxABCG11, Cuticular wax, Yield, Stress tolerance, Agriculture, Agriculture (General), S1-972

Abstract

Drought and heat stresses cause yield losses in alfalfa, a forage crop cultivated worldwide. Improving its drought and heat tolerance is desirable for maintaining alfalfa productivity in hot, arid regions. Cuticular wax forms a protective barrier on aerial surfaces of land plants against environmental stresses. ABCG11 encodes an ATP binding cassette (ABC) transporter that functions in the cuticular wax transport pathway. In this study, ZxABCG11 from the xerophyte Zygophyllum xanthoxylum was introduced into alfalfa by Agrobacterium tumefaciens-mediated transformation. Compared to the wild type (WT), transgenic alfalfa displayed faster growth, higher wax crystal density, and thicker cuticle on leaves under normal condition. Under either drought or heat treatment in greenhouse conditions, the plant height and shoot biomass of transgenic lines were significantly higher than those of the WT. Transgenic alfalfa showed excellent growth and 50% greater hay yield than WT under field conditions in a hot, arid region. Overexpression of ZxABCG11 up-regulated wax-related genes and resulted in more cuticular wax deposition, which contributed to reduction of cuticle permeability and thus increased water retention and photosynthesis capacity of transgenic alfalfa. Thus, overexpression of ZxABCG11 can simultaneously improve biomass yield, drought and heat tolerance in alfalfa by increasing cuticular wax deposition. Our study provides a promising avenue for developing novel forage cultivars suitable for planting in hot, arid, marginal lands.

Published

2023

7. Comparative Physiological and Transcriptomic Analyses of Oat (Avena sativa) Seedlings under Salt Stress Reveal Salt Tolerance Mechanisms

Author

Xiangrui Zhou, Miaomiao Wang, Li Yang, Wenping Wang, Yuehua Zhang, Linbo Liu, Jikuan Chai, Huan Liu, and Guiqin Zhao

Subjects

oat, salt stress, transcriptome, molecular mechanism, DEGs, Botany, QK1-989

Abstract

Soil salinity is a major abiotic stress limiting crop production globally. Oat (Avena sativa) is an annual cereal with a strong salt tolerance, a high yield, and nutritional quality, although the mechanisms underlying its salt stress response remain largely unknown. We examined the physiological and transcriptomic responses of A. sativa seedlings to salt stress in tolerant cultivar Qingyongjiu 195 and sensitive cultivar 709. Under salt stress, Qingyongjiu 195 maintained a higher photosynthetic efficiency, antioxidant enzymes activity, and leaf K+ accumulation but a lower Na+ uptake than 709. RNA-seq revealed 6616 differentially expressed genes (DEGs), including 4265 up- and 2351 downregulated. These were enriched in pathways like plant–pathogen interaction, phenylpropanoid biosynthesis, and MAPK signaling. We specifically highlight DEGs involved in photosynthesis (chlG, CP47 psbB, COX2, LHCB) and antioxidants (trxA, GroES). Qingyongjiu 195 also appeared to enhance K+ uptake via KAT1 and AKT2 and sequester Na+ in vacuoles via NHX2. Additionally, HKT restricted Na+ while promoting K+ transport to shoots, maintaining K+/Na+. The expression levels of CAX, ACA, CML, CaM, and CDPK in Qingyongjiu 195 were higher than those in 709. Oats regulated Ca2+ concentration through CAX and ACA after salt stress, decoded Ca2+ signals through CML, and then transferred Ca2+ signals to downstream receptors through the Ca2+ sensors CaM and CDPK, thereby activating K+/Na+ transporters, such as SOS1 and NHX, etc. Our results shed light on plant salt stress response mechanisms and provide transcriptomic resources for molecular breeding in improving salt tolerance in oats.

Published

2024

8. Impact of Porphyromonas gingivalis-odontogenic infection on the pathogenesis of non-alcoholic fatty liver disease

Author

Linbo Liu, Yan Geng, and Chaoliang Xiong

Subjects

Porphyromonas gingivalis, non-alcoholic fatty liver disease, hepatic steatosis, insulin resistance, inflammation, intestinal microbiota, Medicine

Abstract

AbstractAim: Non-alcoholic fatty liver disease is characterized by diffuse hepatic steatosis and has quickly risen to become the most prevalent chronic liver disease. Its incidence is increasing yearly, but the pathogenesis is still not fully understood. Porphyromonas gingivalis (P. gingivalis) is a major pathogen widely prevalent in periodontitis patients. Its infection has been reported to be a risk factor for developing insulin resistance, non-alcoholic fatty liver disease (NAFLD), non-alcoholic steatohepatitis (NASH), and metabolic syndrome. The aim of this review is to evaluate the association between P. gingivalis infection and NAFLD, identify the possible etiopathogenetic mechanisms, and raise public awareness of oral health to prevent and improve NAFLD.Methods: After searching in PubMed and Web of Science databases using ‘Porphyromonas gingivalis’, ‘non-alcoholic fatty liver disease’, and ‘hepatic steatosis’ as keywords, studies related were compiled and examined.Results: P. gingivalis infection is a direct risk factor for NAFLD based on clinical and basic research. Moreover, it induces systematic changes and systemic abnormalities by disrupting metabolic, inflammatory, and immunologic homeostasis.Conclusion: P. gingivalis-odontogenic infection promotes the occurrence and development of NAFLD. Further concerns are needed to emphasize oral health and maintain good oral hygiene for the prevention and treatment of NAFLD.

Published

2023

9. The establishment of COPD organoids to study host-pathogen interaction reveals enhanced viral fitness of SARS-CoV-2 in bronchi

Author

Louisa L. Y. Chan, Danielle E. Anderson, Hong Sheng Cheng, Fransiskus Xaverius Ivan, Si Chen, Adrian E. Z. Kang, Randy Foo, Akshamal M. Gamage, Pei Yee Tiew, Mariko Siyue Koh, Ken Cheah Hooi Lee, Kristy Nichol, Prabuddha S. Pathinayake, Yik Lung Chan, Tsin Wen Yeo, Brian G. Oliver, Peter A. B. Wark, Linbo Liu, Nguan Soon Tan, Lin-Fa Wang, and Sanjay H. Chotirmall

Subjects

Science

Abstract

Chronic obstructive pulmonary disease (COPD) is a chronic inflammatory respiratory disease characterized by airflow limitation and infective exacerbations. Here, Chan et al. report the generation of nasopharyngeal and bronchial COPD organoids derived from adult stem cells and employ them in the study of host-pathogen interactions, including SARS-CoV-2 and Pseudomonas aeruginosa.

Published

2022

10. Synergistic efficacy of PI3Kδ inhibitor with anti-PD-1 mAbs in immune-humanized PDX model of endocrine resistance hormone receptor-positive advanced breast cancer

Author

Yingjue Li, Yiwen Li, Yu Yang, Yuwei Deng, Xiangdong Ni, Bochen Zhao, Zhaoqi Yan, Wen He, Yixin Li, Shuhui Li, Linbo Liu, and Dan Lu

Subjects

Breast cancer (BC), Patient-derived xenograft, Immune checkpoint inhibitors, PI3Kδ inhibitor, Endocrine therapy resistance, Humanized mice, Science (General), Q1-390, Social sciences (General), H1-99

Abstract

Purpose: Endocrine resistance hormone receptor-positive (HR+) advanced breast cancer (ABC) is generally insensitive to immunecheckpoint inhibitors (ICIs). This study sought to determine whether PI3Kδ inhibitor could enhance the sensitivity of endocrine resistance HR + advanced BC to ICIs by reducing immune evasion. Methods: Patient-derived HR + ABC xenografts were implanted into immune-humanized NSG mice and subsequently treated with YY20394 (PI3Kδ inhibitor) and camrelizumab. The mice were monitored for tumor progression, biochemical blood indicators, and peripheral blood T-cell subsets. The xenografted tumors were collected at the end of the treatment cycle and subjected to HE staining, immunohistochemistry and protein phosphorylation analysis. Besides, the xenografted tumors were also used to isolate primary breast cancer cells (BCCs) and regulatory T-cells (Tregs), which were subsequently used to evaluate drug sensitivity in vitro. Results: The humanized PDX model showed a favorable initial treatment response to camrelizumab combined with YY20394 and manageable toxicity. YY20394 plus camrelizumab showed a strong inhibitory effect on HR + BC in vivo mediated by suppression of Treg activity and an increased proportion of CD8+ T cells. Mice bearing tumors treated with YY20394 and camrelizumab had less invasion, mitotic figures, and ki67 expression, while having higher IL-12 expression compared with other groups. Mechanistically, YY20394 only effectively inhibited the PI3K pathway and proliferation activity in Tregs but not in BCCs. Conclusion: Our study suggests PI3Kδ inhibitor could the enhance the efficacy of ICIs in HR + BC PDX models by combating immune suppression and provides a feasible approach that may overcome the resistance of ICIs in HR + BC patients.

Published

2023

11. The prevalence of lower eyelid epiblepharon and its association with refractive errors in Chinese preschool children: a cross-sectional study

Author

Deyi Zhuo, Si Chen, Xiaofang Ren, Bingsong Wang, Linbo Liu, and Lin Xiao

Subjects

Lower eyelid epiblepharon, Astigmatism, Myopia, Refractive error, Preschool children, Ophthalmology, RE1-994

Abstract

Abstract Background To assess the prevalence and demographics of lower eyelid epiblepharon in Chinese preschool children and to evaluate its association with refractive errors. Methods In this population-based, cross-sectional study, a total of 3170 children aged 3 to 6 years from Beijing, China underwent examinations including weight, height, cycloplegic autorefraction and slit-lamp examination of external eyes. The prevalence of lower eyelid epiblepharon in preschool children was evaluated and its association with age, sex, body mass index (BMI), and refractive errors was analyzed using logistic regression analysis. Results The prevalence of lower eyelid epiblepharon was 26.2%, which decreased with age, with prevalence in 3-, 4-, 5-, and 6-year-olds of 30.6, 28.0, 15.0, and 14.3%, respectively. Boys had a higher risk of having epiblepharon than girls (OR = 1.41; 95%CI, (1.20–1.66)) and no significant correlation was detected between BMI and epiblepharon after adjusting for age and sex (p = 0.062). Epiblepharon was significantly associated with a higher risk of refractive errors, including astigmatism (OR = 3.41; 95% CI, (2.68–4.33)), myopia (OR = 3.55; 95% CI, (1.86–6.76)), and hyperopia (OR = 1.53; 95% CI, (1.18–1.99)). Conclusions There is a high prevalence of lower eyelid epiblepharon in Chinese preschool children, particularly among boys and younger children. Preschoolers with lower eyelid epiblepharon are subject to a higher risk of developing astigmatism, myopia, and hyperopia, than those without. Increased attention should be paid to this eyelid abnormality in the preschool population.

Published

2021

12. Aberration Mitigation in High-Resolution Optical Coherence Tomography Implementing Elliptical Beam Design

Author

Jinhan Li, Jun Xie, and Linbo Liu

Subjects

Interferometry, optical coherence tomography, spectroscopy, Applied optics. Photonics, TA1501-1820, Optics. Light, QC350-467

Abstract

We report an elliptical beam design for aberration mitigation in high-resolution optical coherence tomography (OCT). We polished a large angle on the fiber terminal facet in the sample arm to make a non-rotational symmetric beam with different numerical apertures (NA) for the two axes vertical to the optical axis. By sacrificing the resolution in the out-of-plane transverse direction, the elliptical beam mitigated the aberration introduced by the focusing optics in the OCT system. The elliptical beam with a doubled NA in the in-plane transverse direction promoted the axial field-of-view (FOV) by about 50% and increased the signal back-coupling efficiency by about 25%. We verified the feasibility of the design by imaging the USAF 1951 resolution chart, swine cornea ex vivo, and human skin in vivo. Results show that the proposed method relieves aberration-related problems in high-resolution OCT.

Published

2021

13. Inspection of Intraocular Lens With Dual-Side View Optical Coherence Tomography

Author

Qian Wu, Xiwen Wang, Linbo Liu, and Jianhua Mo

Subjects

Optical coherence tomography, dual-side view, intraocular lens, inspection, in vitro measurement, Applied optics. Photonics, TA1501-1820, Optics. Light, QC350-467

Abstract

Intraocular lens (IOL) is widely used for cataract treatment. Its optical properties are crucial to obtain a good treatment efficacy and thus need to be evaluated and controlled. In this study, we propose a novel method based on optical coherence tomography (OCT) for noncontact and accurate in vitro measurement of thickness, refractive index and dioptric power of IOL implants. The OCT setup is specially designed to create two sampling optics, called dual-side view OCT (DSV-OCT), which allows for imaging IOL from the two opposite sides simultaneously in single OCT volume scanning. This can produce a three-dimensional surface contour without suffering image distortions due to the refraction of the curved surface. Then, the thickness and surface curvature can be easily computed from the surface contours. In addition, DSV-OCT is able to measure the refractive index. Three IOLs with different dioptric powers (5D, 20D and 28D) were chosen to evaluate this method. The results show that this method is capable to provide a comprehensive and accurate evaluation of IOLs from the aspects of thickness, refractive index and dioptric power, and hence can be potentially used as a quality assurance tool by IOL manufacturers.

Published

2021

14. Design of a Broadband Fiber Optic Mode Coupler for Multimode Optical Coherence Tomography

Author

Dora Juan Juan Hu, Linbo Liu, Hui Dong, and Hailiang Zhang

Subjects

multimode optical coherence tomography, few-mode fiber (FMF), broadband fiber optic mode coupler, Applied optics. Photonics, TA1501-1820

Abstract

In this paper, we propose an optical fiber-based broadband mode coupler for multimode optical coherence tomography (OCT) in the O-band (1.26–1.36 μm). The proposed device uses a tapered few-mode fiber (FMF) to lower the effective mode index of the selected higher-order mode, which can be phase matched to the fundamental mode of the single-mode fiber (SMF). The tapered FMF and the SMF are side polished to reduce the core-to-core separation to achieve efficient mode coupling. Key design parameters such as the tapering ratio of the FMF, FMF core to SMF core separation, coupler length, and coupling ratio in the O-band are studied thoroughly. Higher-order modes of the FMF will be effectively coupled from the fundamental mode of SMF in the sample arm of the multimode OCT system. The reflected signals of the higher-order modes from the sample will be separated into several single-mode signals using the same fiber device before interfering with the reference light, which was not possible before. The proposed fiber device will be a key component to efficiently achieve multimode OCT operation with better signal collection efficiency and improved penetration depth for deep tissue imaging.

Published

2023

15. Strain Sensor-Inserted Microchannel for Gas Viscosity Measurement

Author

Kota Shiba, Linbo Liu, and Guangming Li

Subjects

viscosity, gas, microchannel, strain, sensor, PDMS, Biotechnology, TP248.13-248.65

Abstract

Quantifying the viscosity of a gas is of great importance in determining its properties and can even be used to identify what the gas is. While many techniques exist for measuring the viscosities of gases, it is still challenging to probe gases with a simple, robust setup that will be useful for practical applications. We introduce a facile approach to estimating gas viscosity using a strain gauge inserted in a straight microchannel with a height smaller than that of the gauge. Using a constrained geometry for the strain gauge, in which part of the gauge deforms the channel to generate initial gauge strain that can be transduced into pressure, the pressure change induced via fluid flow was measured. The change was found to linearly correlate with fluid viscosity, allowing estimation of the viscosities of gases with a simple device.

Published

2023

16. Step emulsification: high-throughput production of monodisperse droplets

Author

Linbo Liu, Nan Xiang, Zhonghua Ni, Xing Huang, Juanjuan Zheng, Yunhua Wang, and Xingcai Zhang

Subjects

high throughput, microchannel arrays, microfluidics, monodisperse droplets, spontaneous transformation, step emulsification, Biology (General), QH301-705.5

Published

2020

17. Feasibility evaluation of micro-optical coherence tomography (μOCT) for rapid brain tumor type and grade discriminations: μOCT images versus pathology

Author

Xiaojun Yu, Chi Hu, Wenfei Zhang, Jie Zhou, Qianshan Ding, M. T. Sadiq, Zeming Fan, Zhaohui Yuan, and Linbo Liu

Subjects

Glioma, Meningioma, Micro-OCT, Patholgoy, Tumor discrimination, Medical technology, R855-855.5

Abstract

Abstract Background Precise identification, discrimination and assessment of central nervous system (CNS) tumors is of critical importance to brain neoplasm treatment. Due to the complexity and limited resolutions of the existing diagnostic tools, however, it is difficult to identify the tumors and their boundaries precisely in clinical practice, and thus, the conventional way of brain neoplasm treatment relies mainly on the experiences of neurosurgeons to make resection decisions in the surgery process. The purpose of this study is to explore the potential of Micro-optical coherence tomography (μOCT) as an intraoperative diagnostic imaging tool for identifying and discriminating glioma and meningioma with their microstructure imaging ex vivo, which thus may help neurosurgeons to perform precise surgery with low costs and reduced burdens. Methods Fresh glioma and meningioma samples were resected from patients, and then slices of such samples were excised and imaged instantly ex vivo with a lab-built μOCT, which achieves a spatial resolution of ~ 2.0 μm (μm). The acquired optical coherence tomography (OCT) images were pathologically evaluated and compared to their corresponding histology for both tumor type and tumor grade discriminations in different cases. Results By using the lab-built μOCT, both the cross-sectional and en face images of glioma and meningioma were acquired ex vivo. Based upon the morphology results, both the glioma and meningioma types as well as the glioma grades were assessed and discriminated. Comparisons between OCT imaging results and histology showed that typical tissue microstructures of glioma and meningioma could be clearly identified and confirmed the type and grade discriminations with satisfactory accuracy. Conclusions μOCT could provide high-resolution three-dimensional (3D) imaging of the glioma and meningioma tissue microstructures rapidly ex vivo. μOCT imaging results could help discriminate both tumor types and grades, which illustrates the potential of μOCT as an intraoperative diagnostic imaging tool to help neurosurgeons perform their surgery precisely in tumor treatment process.

Published

2019

18. AN EXPERIMENTAL STUDY ON PERFORMANCE OF SHAPE MEMORY ALLOY SUSPENSION PENDULUM DAMPING SYSTEM

Author

Ergang Xiong, Sheliang Wang, Tuanjie Fan, Linbo Liu, Kun Zu, and Yanghong Xi

Subjects

superelasticity, sma suspension pendulum damping system, phase relation, equivalent damping force, Engineering (General). Civil engineering (General), TA1-2040

Abstract

A systematic study is conducted on variation regularities for such properties of SMA wires with the diameter of wires, strain amplitude and loading cycles as the stress-strain curve, characteristic stresses, energy dissipation capacity, equivalent damping ratio. The results show: The diameter increase of SMA wires can degrade the mechanical properties of SMA wires; SMA wires can exhibit a good and stable hysteretic performance when the strain amplitude is 6% and the loading cycle is 15. Utilizing the superelasticity of SMA and combining the operating principle of the tuned mass damper, a new kind of SMA suspension pendulum damping system, which is easy to disassemble, was designed and fabricated with the trained SMA wires. Corresponding experiments were conducted to analyse the natural frequency of the damping system, phase relations between the mass vibrators and the controlled structure, variation regularity of the equivalent damping force with the mass vibrators and length of pendulum rod. The results indicate that phase relations between the mass vibrators and the controlled structure can desirably fall within 150°~180° when this damping system subjected to the sine waves and real earthquake waves. Meanwhile, the equivalent damping force increases significantly with the amplitude of external loads. In conclusion, this kind of damping system can provide a stable and efficient damping force and be simply applied to structural vibration control, thus to protect structures free from strong dynamic disasters.

Published

2019

19. Geometry-Dependent Spectroscopic Contrast in Deep Tissues

Author

Xin Ge, Hongying Tang, Xianghong Wang, Xinyu Liu, Si Chen, Nanshuo Wang, Guangming Ni, Xiaojun Yu, Shufen Chen, Haitao Liang, En Bo, Lulu Wang, Cilwyn Shalitha Braganza, Chenjie Xu, Steven M. Rowe, Guillermo J. Tearney, and Linbo Liu

Subjects

Science

Abstract

Summary: Nano-structures of biological systems can produce diverse spectroscopic effects through interactions with broadband light. Although structured coloration at the surface has been extensively studied, natural spectroscopic contrasts in deep tissues are poorly understood, which may carry valuable information for evaluating the anatomy and function of biological systems. Here we investigated the spectroscopic characteristics of an important geometry in deep tissues at the nanometer scale: packed nano-cylinders, in the near-infrared window, numerically predicted and experimentally proved that transversely oriented and regularly arranged nano-cylinders could selectively backscatter light of the long wavelengths. Notably, we found that the spectroscopic contrast of nanoscale fibrous structures was sensitive to the pressure load, possibly owing to the changes in the orientation, the degree of alignment, and the spacing. To explore the underlying physical basis, we further developed an analytical model based on the radial distribution function in terms of their radius, refractive index, and spatial distribution. : Infrared Optics; Medical Imaging; Optical Imaging; Spectroscopy Subject Areas: Infrared Optics, Medical Imaging, Optical Imaging, Spectroscopy

Published

2019

20. Optical Coherence Tomography With Gapped Spectrum

Author

Nanshuo Wang, Xinyu Liu, Xiaojun Yu, Si Chen, Shi Chen, and Linbo Liu

Subjects

Optical coherence tomography, Applied optics. Photonics, TA1501-1820, Optics. Light, QC350-467

Abstract

The axial resolution of optical coherence tomography (OCT) is determined by the spectral shape and bandwidth of the detected light, which are limited by the gaps in the wavelength range of illumination, transmission, and detection. In this paper, we demonstrate that the axial resolution deteriorated by gaps in OCT spectra can be restored by adopting the gapped amplitude and phase estimation (GAPES) method. GAPES estimates the missing parts between separated spectral bands and obtains the axial profile of tissue with reduced sidelobe artifacts compared to the gapped spectra and significantly improved axial resolution over the individual bands. This technique may make it possible to combine spectrally separated sources and detectors to improve axial resolution in OCT images.

Published

2019

21. Nondestructive Measurement of Conformal Coating Thickness on Printed Circuit Board With Ultra-High Resolution Optical Coherence Tomography

Author

Xiao Shao, Xinjian Chen, Xiaojun Yu, Ya Hu, Linbo Liu, Fei Shi, Wei Shao, and Jianhua Mo

Subjects

Optical coherence tomography, conformal coating, thickness measurement, image segmentation, Electrical engineering. Electronics. Nuclear engineering, TK1-9971

Abstract

Conformal coating (CC) is widely used to protect printed circuit board from corrosion, mold growth, and electrical failures. To ensure effective protection, the thickness of the CC layer needs to be well controlled. However, to date, the coating thickness is usually measured in a destructive way under microscopes. In this paper, we proposed to use optical coherence tomography (OCT) to measure the CC thickness nondestructively. Specifically, to obtain a good accuracy in thickness measurement, we constructed a spectral domain OCT with the ultra-high axial resolution to image the CC layer in three dimensions and developed an image segmentation algorithm to detect the CC layer from the OCT images. Finally, we evaluated the effectiveness of the proposed method by comparing it with the conventional method, and the results demonstrate that the measurement by our method is consistent with that by the microscope. This also indicates that OCT with high axial resolution can potentially be used to measure the CC thickness accurately and nondestructively.

Published

2019

22. Imaging Cellular Structures of Atherosclerotic Coronary Arteries Using Circumferentially Scanning Micro-Optical Coherence Tomography Fiber Probe Ex Vivo

Author

Yuemei Luo, En Bo, Haitao Liang, Xianghong Wang, Xiaojun Yu, Dongyao Cui, Xin Ge, Jianhua Mo, and Linbo Liu

Subjects

Optical fiber devices, optical coherence tomography, fiber optics imaging, intravascular imaging, Electrical engineering. Electronics. Nuclear engineering, TK1-9971

Abstract

Development and progression of coronary atherosclerotic lesions is mediated by a number of cellular components that are not readily visualized using the current clinical investigation tools. Visualizing these cellular components in situ and in vivo may allow early detection of the vulnerable plaques, with implications for coronary artery disease therapy and for the prevention of acute myocardial infarction. In this paper, we have developed a fiber-optic micro-optical coherence tomography (μ OCT) probe for intravascular use. We conducted ex vivo imaging experiments in normal swine aorta and human atherosclerotic coronary arteries and demonstrated that the fiber-probe-based μ OCT could delineate not only the layered structures of arterial wall but also the cellular-level anatomical structures of atherosclerotic plaques, including foam cells and smooth muscle cells. These results demonstrate the feasibility of intravascular μ OCT imaging.

Published

2018

23. Pixel-Reassigned Spectral-Domain Optical Coherence Tomography

Author

En Bo, Lulu Wang, Jun Xie, Xin Ge, and Linbo Liu

Subjects

Optical coherence tomography (OCT), coherent imaging, biophotonics instrumentation, medical photonics instrumentation, Applied optics. Photonics, TA1501-1820, Optics. Light, QC350-467

Abstract

A novel method of pixel reassignment (PRA) is proposed to achieve transverse superresolution in the confocal microscopy. Inspired by it, for the first time, we report a pixel-reassigned spectral-domain optical coherence tomography (OCT) with ~1.5 times transverse resolution improvement both in numerical simulations and imaging experiments. PRA is implemented by transversely shifting the detection fiber from the on-axis position to five off-axis positions, capturing cross-sectional images at each shifting step of the detection fiber and digitally reassigning them together to give a sharper image with moderately extended depth of focus and enhanced intensity. So, we believe that the PRA technique will improve the imaging performance and be beneficial to the development of the OCT community.

Published

2018

24. Structure–activity relationship investigation of tertiary amine derivatives of cinnamic acid as acetylcholinesterase and butyrylcholinesterase inhibitors: compared with that of phenylpropionic acid, sorbic acid and hexanoic acid

Author

Xiaohui Gao, Jingjing Tang, Haoran Liu, Linbo Liu, Lu Kang, and Wen Chen

Subjects

Cinnamic acid, tertiary amine, AChE inhibitors, benzene ring, double bond, Therapeutics. Pharmacology, RM1-950

Abstract

In the present investigation, 48 new tertiary amine derivatives of cinnamic acid, phenylpropionic acid, sorbic acid and hexanoic acid (4d–6g, 10d–12g, 16d–18g and 22d–24g) were designed, synthesized and evaluated for the effect on AChE and BChE in vitro. The results revealed that the alteration of aminoalkyl types and substituted positions markedly influences the effects in inhibiting AChE. Almost of all cinnamic acid derivatives had the most potent inhibitory activity than that of other acid derivatives with the same aminoalkyl side chain. Unsaturated bond and benzene ring in cinnamic acid scaffold seems important for the inhibitory activity against AChE. Among them, compound 6g revealed the most potent AChE inhibitory activity (IC50 value: 3.64 µmol/L) and highest selectivity over BChE (ratio: 28.6). Enzyme kinetic study showed that it present a mixed-type inhibition against AChE. The molecular docking study suggested that it can bind with the catalytic site and peripheral site of AChE.

Published

2018

25. Visualizing Micro-anatomical Structures of the Posterior Cornea with Micro-optical Coherence Tomography

Author

Si Chen, Xinyu Liu, Nanshuo Wang, Xianghong Wang, Qiaozhou Xiong, En Bo, Xiaojun Yu, Shufen Chen, and Linbo Liu

Subjects

Medicine, Science

Abstract

Abstract Diagnosis of corneal disease and challenges in corneal transplantation require comprehensive understanding of corneal anatomy, particularly that of the posterior cornea. Micro-optical coherence tomography (µOCT) is a potentially suitable tool to meet this need, owing to its ultrahigh isotropic spatial resolution, high image acquisition rate and depth priority scanning mode. In this study, we explored the ability of µOCT to visualize micro-anatomical structures of the posterior cornea ex vivo and in vivo using small and large animals. µOCT clearly delineated cornea layers and revealed micro-anatomical structures, including not only polygonal endothelial cells, stellate keratocytes, collagen fibres and corneal nerve fibres but also new structures such as the dome-shaped basolateral side of endothelial cells and lattice structures at the interface between endothelium and Descemet’s membrane. Based on these observations, a short post-harvest longitudinal study was conducted on rat cornea to test the feasibility of using µOCT to monitor the quality of endothelial cells. This study successfully reveals a series of morphological features and pathological changes in the posterior cornea at the cellular level in situ and in real time with µOCT. These findings enrich knowledge of corneal anatomy and suggest that µOCT may be a promising imaging tool in corneal transplantation.

Published

2017

26. Understanding optical reflectance contrast for real‐time characterization of epithelial precursor lesions

Author

Si Chen, Xin Ge, Xinyu Liu, Qianshan Ding, Nanshuo Wang, Xianghong Wang, Shufen Chen, Haitao Liang, Yunchao Deng, Qiaozhou Xiong, Guangming Ni, En Bo, Chenjie Xu, Honggang Yu, and Linbo Liu

Subjects

epithelial cancer, keratin filament, mucin granule, optical biopsy, optical coherence tomography, optical reflectance contrast, Chemical engineering, TP155-156, Biotechnology, TP248.13-248.65, Therapeutics. Pharmacology, RM1-950

Abstract

Abstract Detecting early‐stage epithelial cancers and their precursor lesions are challenging as lesions could be subtle and focally or heterogeneously distributed over large mucosal areas. Optical coherence tomography (OCT) that enables wide‐field imaging of subsurface microstructures in vivo is a promising screening tool for epithelial diseases. However, its diagnostic capability has not been fully appreciated since the optical reflectance contrast is poorly understood. We investigated the back‐scattered intensities from clustered or packed nanometer scale intracellular scatterers using finite‐difference time‐domain method and 1‐μm resolution form of OCT, and uncovered that there existed correlations between the reflectance contrasts and the ultrastructural clustering or packing states of these scatterers, which allows us to interpret the physiological state of the cells. Specifically, both polarized goblet cells and foveolar cells exhibited asymmetric reflectance contrast, but they could be differentiated by the optical intensity of the mucin cup due to the different ultrastructural make‐ups of the mucin granules; keratinocytes could demonstrate varied cytoplasmic intensity and their cytoplasmic contrast was closely correlated with the packing state of keratin filaments. Further preliminary study demonstrated that these new understandings of OCT image contrast enables the characterization of precancerous lesions, which could complement the current morphology‐based criteria in realizing “virtual histology” and would have a profound impact for the screening and surveillance of epithelial cancers.

Published

2019

27. Prediction of the engendering mechanism and specific genes of primary melanoma by bioinformatics analysis

Author

Lei Wu, Bin Dong, Fang Zhang, Yonglin Li, and Linbo Liu

Subjects

differentially expressed gene, melanoma, protein–protein interaction network, transcription factor, tumor-associated gene, Dermatology, RL1-803

Abstract

Objective: Our aim was to explore the engendering mechanism and gene targets for melanoma. Methods: The microarray data of GSE46517 were downloaded from the Gene Expression Omnibus database. The differentially expressed genes (DEGs) between primary melanoma samples and normal controls were analyzed using the GEO2R online tool. The screened DEGs were mapped to a protein–protein interaction network based on the Search Tool for the Retrieval of Interacting Genes database. The functions and pathways involved with DEGs were analyzed using the Database for Annotation Visualization and Integrated Discovery software) online tools. Then, the DEGs were further annotated via the TRANSFAC, Tumor-Suppressor Gene, and Tumor-Associated Gene databases. Results: A total of 1095 DEGs including 511 upregulated genes and 584 down-regulated ones were screened out. The nodes of CCL5, ISG15, CDKN2A, EGFR, and ERBB2 showed a high connectivity degree in protein–protein interaction networks and were mainly enriched in Biological Process GO terms such as the regulation of catalytic activity and cell adhesion, as well as the pathways of cytochrome P450. The DEGs were classified into 31 transcription factors and 43 downregulated tumor associated genes. Conclusion: Catalytic activity, cell adhesion, and the cytochrome P450 associated pathways are dysregulated in the melanoma formation. The significant nodes such as ISG15, IRF4, ERBB2 and EGFP may be potential targets for primary melanoma treatment.

Published

2016

28. Microfluidic Production of Autofluorescent BSA Hydrogel Microspheres and Their Sequential Trapping for Fluorescence-Based On-Chip Permanganate Sensing

Author

Linbo Liu, Guangming Li, Nan Xiang, Xing Huang, and Kota Shiba

Subjects

droplet-based microfluidics, hydrodynamic trapping, BSA microspheres, autofluorescence, on-chip sensing, Chemical technology, TP1-1185

Abstract

Microfabrication technologies have extensively advanced over the past decades, realizing a variety of well-designed compact devices for material synthesis, separation, analysis, monitoring, sensing, and so on. The performance of such devices has been undoubtedly improved, while it is still challenging to build up a platform by rationally combining multiple processes toward practical demands which become more diverse and complicated. Here, we present a simple and effective microfluidic system to produce and immobilize a well-defined functional material for on-chip permanganate (MnO4−) sensing. A droplet-based microfluidic approach that can continuously produce monodispersed droplets in a water-in-oil system is employed to prepare highly uniform microspheres (average size: 102 μm, coefficient of variation: 3.7%) composed of bovine serum albumin (BSA) hydrogel with autofluorescence properties in the presence of glutaraldehyde (GA). Each BSA hydrogel microsphere is subsequently immobilized in a microchannel with a hydrodynamic trapping structure to serve as an independent fluorescence unit. Various anions such as Cl−, NO3−, PO43−, Br−, BrO3−, ClO4−, SCN−, HCO3−, and MnO4− are individually flowed into the microchannel, resulting in significant fluorescence quenching only in the case of MnO4−. Linear correlation is confirmed at an MnO4− concentration from 20 to 80 μM, and a limit of detection is estimated to be 1.7 μM. Furthermore, we demonstrate the simultaneous immobilization of two kinds of different microspheres in parallel microchannels, pure BSA hydrogel microspheres and BSA hydrogel microspheres containing rhodamine B molecules, making it possible to acquire two fluorescence signals (green and yellow). The present microfluidics-based combined approach will be useful to record a fingerprint of complicated samples for sensing/identification purposes by flexibly designing the size and composition of the BSA hydrogel microspheres, immobilizing them in a desired manner and obtaining a specific pattern.

Published

2020

29. Toward High-Speed Imaging of Cellular Structures in Rat Colon Using Micro-optical Coherence Tomography

Author

Xiaojun Yu, Yuemei Luo, Xinyu Liu, Si Chen, Xianghong Wang, Shi Chen, and Linbo Liu

Subjects

Optical coherence tomography, biophotonics instrumentation, coherence imaging, scanning microscopy, medical photonics instrumentation, Applied optics. Photonics, TA1501-1820, Optics. Light, QC350-467

Abstract

The mucosal microanatomy of the large intestine is characterized by the presence of crypts of Lieberkühn, which is associated predominantly with goblet cells. Such cellular-level intestinal microstructures undergo morphological changes during the progression of bowel diseases, such as colon cancer or ulcerative colitis. As an indicator of gastric cancers, intestinal metaplasia in the large intestine is characterized by the appearance of goblet cells in gastric epithelium, and therefore, visualization of intestinal microstructure changes in cross-sectional view, particularly in vivo, in a high-speed fashion would assist early disease diagnosis and its treatment. In this paper, we investigated the capability of micro-optical coherence tomography (μOCT) for high-speed cellular-level crypt and goblet cell structures imaging ex vivo and in vivo . The adopted μOCT system achieved a resolution of 2.0 μm in both the lateral and axial directions in air. Ex vivo and video-rate in vivo images acquired in 3-D at respective imaging rates of 20 and 60 frames/s are presented and compared with the histology images. Imaging results show that the detailed microstructures, such as the crypt lumen and the goblet cells, could be clearly identified and are also comparable with those in histology images. Such comparisons also indicate that high-resolution μOCT could be a powerful tool to perform “optical biopsy” in colorectal tissue. This is the first work, to the best of our knowledge, on cellular-level structure imaging in intestinal mucosa using spectral-domain OCT.

Published

2016

30. Modeling of Mechanical Stress Exerted by Cholesterol Crystallization on Atherosclerotic Plaques.

Author

Yuemei Luo, Dongyao Cui, Xiaojun Yu, Si Chen, Xinyu Liu, Hongying Tang, Xianghong Wang, and Linbo Liu

Subjects

Medicine, Science

Abstract

Plaque rupture is the critical cause of cardiovascular thrombosis, but the detailed mechanisms are not fully understood. Recent studies have found abundant cholesterol crystals in ruptured plaques, and it has been proposed that the rapid expansion of cholesterol crystals in a limited space during crystallization may contribute to plaque rupture. To evaluate the effect of cholesterol crystal growth on atherosclerotic plaques, we modeled the expansion of cholesterol crystals during the crystallization process in the necrotic core and estimated the stress on the thin cap with different arrangements of cholesterol crystals. We developed a two-dimensional finite element method model of atherosclerotic plaques containing expanding cholesterol crystals and investigated the effect of the magnitude and distribution of crystallization on the peak circumferential stress born by the cap. Using micro-optical coherence tomography (μOCT), we extracted the cross-sectional geometric information of cholesterol crystals in human atherosclerotic aorta tissue ex vivo and applied the information to the model. The results demonstrate that (1) the peak circumference stress is proportionally dependent on the cholesterol crystal growth; (2) cholesterol crystals at the cap shoulder impose the highest peak circumference stress; and (3) spatial distributions of cholesterol crystals have a significant impact on the peak circumference stress: evenly distributed cholesterol crystals exert less peak circumferential stress on the cap than concentrated crystals.

Published

2016

31. Retraction Note: Circ_0002770, acting as a competitive endogenous RNA, promotes proliferation and invasion by targeting miR-331-3p in melanoma

Author

Qian, Peng, Linbo, Liu, Xiaomei, Zhai, and Hui, Pei

Published

2024

32. Feasibility of the assessment of cholesterol crystals in human macrophages using micro optical coherence tomography.

Author

Manabu Kashiwagi, Linbo Liu, Kengyeh K Chu, Chen-Hsin Sun, Atsushi Tanaka, Joseph A Gardecki, and Guillermo J Tearney

Subjects

Medicine, Science

Abstract

The presence of cholesterol crystals is a hallmark of atherosclerosis, but until recently, such crystals have been considered to be passive components of necrotic plaque cores. Recent studies have demonstrated that phagocytosis of cholesterol crystals by macrophages may actively precipitate plaque progression via an inflammatory pathway, emphasizing the need for methods to study the interaction between macrophages and crystalline cholesterol. In this study, we demonstrate the feasibility of detecting cholesterol in macrophages in situ using Micro-Optical Coherence Tomography (µOCT), an imaging modality we have recently developed with 1-µm resolution. Macrophages containing cholesterol crystals frequently demonstrated highly scattering constituents in their cytoplasm on µOCT imaging, and µOCT was able to evaluate cholesterol crystals in cultured macrophage cells. Our results suggest that µOCT may be useful for the detection and characterization of inflammatory activity associated with cholesterol crystals in the coronary artery.

Published

2014

33. Method for quantitative study of airway functional microanatomy using micro-optical coherence tomography.

Author

Linbo Liu, Kengyeh K Chu, Grace H Houser, Bradford J Diephuis, Yao Li, Eric J Wilsterman, Suresh Shastry, Gregory Dierksen, Susan E Birket, Marina Mazur, Suzanne Byan-Parker, William E Grizzle, Eric J Sorscher, Steven M Rowe, and Guillermo J Tearney

Subjects

Medicine, Science

Abstract

We demonstrate the use of a high resolution form of optical coherence tomography, termed micro-OCT (μOCT), for investigating the functional microanatomy of airway epithelia. μOCT captures several key parameters governing the function of the airway surface (airway surface liquid depth, periciliary liquid depth, ciliary function including beat frequency, and mucociliary transport rate) from the same series of images and without exogenous particles or labels, enabling non-invasive study of dynamic phenomena. Additionally, the high resolution of μOCT reveals distinguishable phases of the ciliary stroke pattern and glandular extrusion. Images and functional measurements from primary human bronchial epithelial cell cultures and excised tissue are presented and compared with measurements using existing gold standard methods. Active secretion from mucus glands in tissue, a key parameter of epithelial function, was also observed and quantified.

Published

2013

34. Synthesis of Poly(L-lactide) via Solvothermal Method

Author

Ling Fang, Rongrong Qi, Linbo Liu, Gongwen Juan, and Suangwu Huang

Subjects

Chemical technology, TP1-1185

Abstract

Poly(L-lactide) was obtained from the ring-opening polymerization of L-lactide through a solvothermal process. Tin (II) chloride (SnC12) was used as the catalyst for the polymerization reaction. The focus of this paper was on the effect of solvents, catalyst usage, temperature, time, and antioxidants on the ring-opening reaction in the solvothermal synthesis. Ubbelohde viscometer, FTIR, GPC, and DSC were used to characterize the products. It is found that the optimal reaction condition for the highest molecular weight of PLA is at 160∘C for 10 hour with 0.4% SnCl2 in 10 mL toluene as solvent, and the high crystallinity can be obtained. The addition of antioxidant prior to the polymerization is conducive to obtaining high molecular weight and augment Tm, Tc and Xc values of PLA.

Published

2009

35. RETRACTED ARTICLE: Circ_0002770, acting as a competitive endogenous RNA, promotes proliferation and invasion by targeting miR-331-3p in melanoma

Author

Qian, Peng, Linbo, Liu, Xiaomei, Zhai, and Hui, Pei

Published

2020

36. Noise Metrics and Subjective Assessment of Automotive HVAC Systems.

Author

Bennouna, Saâd, Muhr, Sebastian, Dutta, Soumya, Linbo Liu, and Kurniawan, Darius

Subjects

HEATING & ventilation industry, NOISE measurement, ACTUATORS, ELECTRIFICATION, DATA analysis

Abstract

HVAC systems are of critical importance in ensuring passengers' thermal comfort inside the car cabin as well as safety requirements for defogging functions. These systems involve various components and subcomponents such as blowers, thermal exchangers or actuators, with a wide range of well-known technologies and also new ones on recently introduced innovative products. Currently, within established electrification trends worldwide, the HVAC system is becoming the most important embedded system that can induce major contribution of noise and vibration. These NVH issues can emerge through different transfer paths inside the car cabin possibly causing significant discomfort to passengers. During developments, the NVH issues are mastered and contained by both suppliers according to internal requirements and OEMs according to specifications. However, OEM specifications are mainly defined by overall noise levels and improvements over the years are generally consisting of reducing these specified levels. Furthermore, some HVAC NVH issues may not be well detected when using regular NVH metrics. This raises concerns about the limitations of the regularly used metrics in ensuring specification compliance and, above all, in depicting a subjective assessment at component level. Throughout a statistical analysis of HVAC systems population, this paper first focuses on the discrepancies between the data provided by traditional NVH metrics and subjective evaluations. Then, a deeper analysis involving psychoacoustic metrics provides a relevance overview of the applied metrics depending on the encountered issues and compared to a subjective assessment. Finally, from a responsibility perspective, these findings raise questions about the relevance of regular metrics used by OEMs and the right way to handle HVAC NVH topics nowadays. [ABSTRACT FROM AUTHOR]

Published

2023

37. Optical coherence tomography-guided confocal Raman microspectroscopy for rapid measurements in tissues

Author

Xiaojing Ren, Kan Lin, Chao-Mao Hsieh, Linbo Liu, Xin Ge, Quan Liu, School of Chemical and Biomedical Engineering, and School of Electrical and Electronic Engineering

Subjects

Bioengineering [Engineering], Confocal Raman Microspectroscopy, Electrical and electronic engineering [Engineering], Electrically Tunable, Atomic and Molecular Physics, and Optics, Article, Biotechnology

Abstract

We report a joint system with both confocal Raman spectroscopy (CRS) and optical coherence tomography (OCT) modules capable of quickly addressing the region of interest in a tissue for targeted Raman measurements from OCT. By using an electrically tunable lens in the Raman module, the focus of the module can be adjusted to address any specific depth indicated in an OCT image in a few milliseconds. We demonstrate the performance of the joint system in the depth dependent measurements of an ex vivo swine tissue and in vivo human skin. This system can be useful in measuring samples embedded with small targets, for example, to identify tumors in skin in vivo and assessment of tumor margins, in which OCT can be used to perform initial real-time screening with high throughput based on morphological features to identify suspicious targets then CRS is guided to address the targets in real time and fully characterize their biochemical fingerprints for confirmation. Agency for Science, Technology and Research (A*STAR) Ministry of Education (MOE) Published version Ministry of Education - Singapore (MOE2017-T2-2-057, RG129/19, RT16/19); Agency for Science, Technology and Research (H17/01/a0/008, H17/01/a0/0F9).

Published

2021

38. Long Non-Coding RNA HOXA11-AS Modulates Proliferation, Apoptosis, Metastasis and EMT in Cutaneous Melanoma Cells Partly via miR-152-3p/ITGA9 Axis

Author

Qiangqiang Zhang, Yongfei Xu, Hangxing Xu, Linbo Liu, and Jianwen Zhang

Subjects

0301 basic medicine, Gene knockdown, Chemistry, Cell growth, Melanoma, Cell, medicine.disease, HOXA11-AS, Metastasis, Antisense RNA, ITGA9, 03 medical and health sciences, 030104 developmental biology, 0302 clinical medicine, medicine.anatomical_structure, Oncology, Apoptosis, Cancer Management and Research, 030220 oncology & carcinogenesis, miR-152-3p, Cutaneous melanoma, melanoma, medicine, Cancer research, Original Research

Abstract

Yongfei Xu,1,2 Jianwen Zhang,1 Qiangqiang Zhang,3 Hangxing Xu,4 Linbo Liu1 1Department of Plastic Surgery, The First Affiliated Hospital of Zhengzhou University, Zhengzhou City, Henan, People’s Republic of China; 2Department of Plastic Surgery, The First Affiliated Hospital of Henan University of Science and Technology, Luoyang City, Henan, People’s Republic of China; 3Burn Plastic Surgery, Luoyang Central Hospital Affiliated to Zhengzhou University, Luoyang City, Henan, People’s Republic of China; 4Department of Surgery, Luoyang Central Tunnel Hospital, Luoyang City, Henan, People’s Republic of ChinaCorrespondence: Linbo LiuDepartment of Plastic Surgery, The First Affiliated Hospital of Zhengzhou University, No. 1 Jianshe East Road, Jinshui District, Zhengzhou, 450000, Henan, People’s Republic of ChinaTel +86-13937196215Email pingtengfut8s@126.comBackground: Long non-coding RNA homeobox A11 antisense RNA (HOXA11-AS) was showed to participate in the progression of different kinds of tumors, but the specific role of HOXA11-AS in cutaneous melanoma is not entirely unambiguous.Methods: The levels of HOXA11-AS, microRNA-152-3p (miR-152-3p) and integrin alpha9 (ITGA9) were measured by quantitative real-time polymerase chain reaction (qRT-PCR). Cell proliferation was detected via 3-(4, 5-dimethylthiazol-2-y1)-2, 5-diphenyl tetrazolium bromide (MTT), and apoptosis was measured by flow cytometry. The assessment of cell metastasis was performed by transwell migration and invasion assays. The protein levels were detected through Western blot. Dual-luciferase reporter assay was utilized to explore the target relationship among HOXA11-AS, miR-152-3p and ITGA9. The effect of HOXA11-AS on melanoma in vivo was investigated via xenograft experiment.Results: HOXA11-AS and ITGA9 were up-regulated while miR-152-3p was down-regulated in melanoma. Knockdown of HOXA11-AS refrained cell proliferation, metastasis and epithelial–mesenchymal transition (EMT) but induced apoptosis in melanoma cells. HOXA11-AS targeted miR-152-3p and overexpression of HOXA11-AS mitigated the miR-152-3p-induced effects on melanoma cellular behaviors. ITGA9 was a target of miR-152-3p and miR-152-3p inhibitor relieved the repression on proliferation, metastasis and EMT while elevation on apoptosis caused by si-ITGA9 via elevating ITGA9. HOXA11-AS knockdown restrained ITGA9 expression via up-regulating miR-152-3p. Suppression of HOXA11-AS inhibited melanoma progression in part through increasing miR-152-3p and decreasing ITGA9 expression in vivo.Conclusion: HOXA11-AS modulated proliferation, apoptosis, metastasis and EMT in melanoma cells by regulating miR-152-3p/ITGA9 axis in part. HOXA11-AS could promote melanoma development and be used as a promising biomarker in the diagnosis and treatment for cutaneous melanoma.Keywords: melanoma, HOXA11-AS, miR-152-3p, ITGA9

Published

2021

39. Photodynamic bubble-generating microneedles for enhanced transdermal cancer therapy

Author

Yating Yang, Christian Wiraja, Chenjie Xu, Wei Liu, Xiaoyu Ning, Jangsun Hwang, Si Chen, Chi Zhang, Linbo Liu, School of Electrical and Electronic Engineering, Interdisciplinary Graduate School (IGS), School of Chemical and Biomedical Engineering, and NTU Institute for Health Technologies

Subjects

Bioengineering [Engineering], Polymers and Plastics, Nanotechnology [Engineering], business.industry, Process Chemistry and Technology, medicine.medical_treatment, Organic Chemistry, Cancer therapy, Frozen Immersion, Photodynamic therapy, Sonophoresis, Interstitial fluid, medicine, Bubble-Generating Microneedles, business, Biomedical engineering, Transdermal

Abstract

Active bubble-generating microneedles (MNs) upon skin interstitial fluid (ISF) contact facilitate deeper and more efficient delivery of intradermal therapeutics. However, bubble-generating MN platforms are sensitive to moisture, which limits their variety to load various functional drugs. This article presents a frozen immersion method that facilitates both hydrophobic and hydrophilic drug loading onto bubble-generating MNs without compromising both drug and MN properties. The formed bubbles upon ISF contact induce distinct vortex flow that produces a propulsion force to enhance drug transportation. The efficiency of transdermal drug delivery is further enhanced by sonophoresis. The drug delivery efficiency of this platform is first evaluated ex vivo using fresh mouse skins and human keloid tissues. Later, in the tumor-bearing mouse model, the platform enhances the skin penetration of photosensitizers (i.e., methylene blue) and correspondingly improves the efficacy of photodynamic therapy. Agency for Science, Technology and Research (A*STAR) Ministry of Education (MOE) Ministry of Health (MOH) National Medical Research Council (NMRC) Submitted/Accepted version This project is supported by the Singapore Agency for Science, Technology and Research (A*STAR) Science and Engineering Research Council Additive Manufacturing for Biological Materials (AMBM) program (A18A8b0059). C.X. acknowledges the funding support from the City University of Hong Kong (#9610472), General Research Fund (GRF) from the University Grants Committee of Hong Kong (UGC) Research Grant Council (RGC) (#9042951 and 9043133), and NSFC/ RGC Joint Research Scheme (#N_CityU118/20). L.L. acknowledges the funding support from the Singapore Ministry of Health’s National Medical Research Council under its Open Fund Individual Research Grant (MOH-OFIRG19may-0009), and the Ministry of Education Singapore under its Academic Research Funding Tier 2 (MOE-T2EP30120-0001).

Published

2021

40. The prevalence of lower eyelid epiblepharon and its association with refractive errors in Chinese preschool children : a cross-sectional study

Author

Lin Xiao, Deyi Zhuo, Bingsong Wang, Si Chen, Xiao-fang Ren, Linbo Liu, School of Electrical and Electronic Engineering, and School of Chemical and Biomedical Engineering

Subjects

Male, China, Pediatrics, medicine.medical_specialty, Refractive error, genetic structures, Cross-sectional study, Population, Astigmatism, Logistic regression, lcsh:Ophthalmology, Prevalence, Myopia, Humans, Medicine, Epiblepharon, Child, education, education.field_of_study, business.industry, Preschool children, Eyelids, General Medicine, Refractive Errors, medicine.disease, eye diseases, Ophthalmology, Cross-Sectional Studies, medicine.anatomical_structure, lcsh:RE1-994, Beijing, Child, Preschool, Electrical and electronic engineering [Engineering], Female, Eyelid, Lower eyelid epiblepharon, business, Lower Eyelid Epiblepharon, Body mass index, Research Article

Abstract

Background: To assess the prevalence and demographics of lower eyelid epiblepharon in Chinese preschool children and to evaluate its association with refractive errors. Methods: In this population-based, cross-sectional study, a total of 3170 children aged 3 to 6 years from Beijing, China underwent examinations including weight, height, cycloplegic autorefraction and slit-lamp examination of external eyes. The prevalence of lower eyelid epiblepharon in preschool children was evaluated and its association with age, sex, body mass index (BMI), and refractive errors was analyzed using logistic regression analysis. Results: The prevalence of lower eyelid epiblepharon was 26.2%, which decreased with age, with prevalence in 3-, 4-, 5-, and 6-year-olds of 30.6, 28.0, 15.0, and 14.3%, respectively. Boys had a higher risk of having epiblepharon than girls (OR = 1.41; 95%CI, (1.20–1.66)) and no significant correlation was detected between BMI and epiblepharon after adjusting for age and sex (p = 0.062). Epiblepharon was significantly associated with a higher risk of refractive errors, including astigmatism (OR = 3.41; 95% CI, (2.68–4.33)), myopia (OR = 3.55; 95% CI, (1.86–6.76)), and hyperopia (OR = 1.53; 95% CI, (1.18–1.99)). Conclusions: There is a high prevalence of lower eyelid epiblepharon in Chinese preschool children, particularly among boys and younger children. Preschoolers with lower eyelid epiblepharon are subject to a higher risk of developing astigmatism, myopia, and hyperopia, than those without. Increased attention should be paid to this eyelid abnormality in the preschool population. Agency for Science, Technology and Research (A*STAR) Ministry of Education (MOE) Ministry of Health (MOH) National Medical Research Council (NMRC) Published version This study was supported by the Ministry of Education Singapore under its Academic Research Fund Tier 1 (2018-T1-001-144), Agency for Science,Technology and Research (A*STAR) under its Industrial Alignment Fund (Pre-positioning) (H17/01/a0/008), National Medical Research Council Singapore under its Open Fund - Individual Research Grant (MOH-OFIRG19may-0009), and Beijing Shijitan Hospital, Capital Medical University under its Hospital Fund (2017-C07). The Funding sponsors were not involved in the study design, data analysis, results interpretation, or manuscript writing.

Published

2021

41. Automatic differentiation of nonkeratinized stratified squamous epithelia and columnar epithelia through feature structure extraction using OCT

Author

Nanshuo Wang, En Bo, Si Chen, Jun Xie, Lulu Wang, Linbo Liu, and School of Electrical and Electronic Engineering

Subjects

Pathology, medicine.medical_specialty, 0206 medical engineering, Biomedical Engineering, Health Informatics, 02 engineering and technology, 03 medical and health sciences, 0302 clinical medicine, Optical coherence tomography, Metaplasia, Biopsy, medicine, medicine.diagnostic_test, business.industry, Sampling error, Precancerous lesion, 020601 biomedical engineering, Clinical Practice, Signal Processing, Electrical and electronic engineering [Engineering], Classification methods, medicine.symptom, Optical Coherence Tomography, business, 030217 neurology & neurosurgery

Abstract

As a type of precancerous lesion, metaplasia is usually considered to be associated with developing cancer. In clinical practice, surveillance of metaplastic cases usually relies on excisional biopsy followed by histological processing and analysis. As it is an invasive method accompanied by other complications, non-invasive imaging methods such as optical coherence tomography (OCT) can complement the existing method by enabling large area scanning. However, because it takes time to review large amount of data acquired from the whole suspected mucosal areas, an automatic classification method is preferred to alleviate the laboring hours and to avoid ‘sampling errors’ during image analysis. In this study, we report an automatic method to differentiate non-keratinized squamous epithelia and columnar epithelia in OCT images. A high detection accuracy is achieved by using feature structure extraction techniques in intact tissues. Agency for Science, Technology and Research (A*STAR) Ministry of Education (MOE) Nanyang Technological University National Research Foundation (NRF) This research was supported in part by A*STAR Biomedical Research330 Council (H1701a008), National Natural Science Foundation of China (Grant331 No. 61705184), National Research Foundation Singapore (NRF-CRP13-332 2014-05), Ministry of Education Singapore (RG 83/18 (2018-T1-001-144)), and 333 NTUAIT-MUV program in advanced biomedical imaging (NAM/15005).

Published

2020

42. Controlled fragmentation of single-atom-thick polycrystalline graphene

Author

Kaiwei Li, Zexiang Shen, Ming Chen, Juan Xia, Shaoyang Ma, Nan Zhang, Ting Zhang, Zhe Wang, Qichong Zhang, Guoqiang Gu, Mengxiao Chen, Xin Ge, Zheng Liu, Mauricio Terrones, Kazunori Fujisawa, Qingsheng Zeng, Zhixun Wang, Tingting Wu, Lei Wei, Linbo Liu, School of Electrical and Electronic Engineering, School of Materials Science and Engineering, and School of Physical and Mathematical Sciences

Subjects

Materials science, Dopant, Graphene, Graphene Controlled, Nanotechnology, Fracture mechanics, Flexible electronics, law.invention, law, Fragmentation, Monolayer, Electrical and electronic engineering [Engineering], General Materials Science, Grain boundary, Crystallite, Necking

Abstract

Controlling the fragmentation of atomically thin and brittle materials is of critical importance for both fundamental interest and technical purposes in fracture mechanics. However, the fragmentation of graphene is often random and uncontrollable because of the presence of grain boundaries and numerous defects. Here, by harnessing the strong localized strain during the necking process of thermoplastic polymers, we introduce a simple yet controllable method to tear apart a monolayer polycrystalline graphene (MPG) sheet into ordered graphene ribbons. More importantly, we show that the presence of active edges helps the graphene ribbons in exhibiting a field-effect characteristic pH response and improves the introduction of dopants. Furthermore, we demonstrate an optically transparent (∼98%), ultrathin (∼70 ± 15 nm), and skin-conformal pressure sensor for real-time tactile sensing. We believe that our results lead to further understanding of the fracture mechanics of graphene and offer unique advantages for practical applications, such as flexible electronics, chemical sensing, and biosensing. Ministry of Education (MOE) National Research Foundation (NRF) This work was supported in part by the Singapore Ministry of Education Academic Research Fund Tier 2 (MOE2015-T2-2-010) and the Singapore Ministry of Education Academic Research Fund Tier 1 (MOE 2019-T1-001-103 and MOE2019-T1-001- 111). This work was supported in part by the EEE Ignition Research Grant. This work was supported in part by the National Nature Science Foundation of China: 11804354. M.T. and K.F. acknowledge the Air Force Office of Scientific Research (AFOSR) grant 17RT0244. T.Z. acknowledges the Bureau of International Cooperation of Chinese Academy of Sciences, International Partnership Program grant 182211KYSB20170029. This work was supported in part by the Singapore National Research Foundation under NRF award numbers NRF-NRFF2013-08 and NRFCRP13-2014-05.

Published

2020

43. Interferometer-in-spectrometer for high-resolution optical coherence tomography

Author

Si Chen, Linbo Liu, Jun Xie, Lishuang Liu, School of Electrical and Electronic Engineering, and School of Chemical and Biomedical Engineering

Subjects

Materials science, genetic structures, Article Subject, High resolution, Grating, 01 natural sciences, 010309 optics, 03 medical and health sciences, Optics, Optical coherence tomography, 0103 physical sciences, medicine, T1-995, Electrical and Electronic Engineering, Instrumentation, Technology (General), 030304 developmental biology, 0303 health sciences, medicine.diagnostic_test, Spectrometer, business.industry, Bandwidth (signal processing), Ranging, Spectral Bandwidth, Interferometry, Control and Systems Engineering, Electrical and electronic engineering [Engineering], sense organs, Optical Coherence Tomography, Line scan, business

Abstract

Ultrahigh-resolution optical coherence tomography provides an axial resolution of 1-2 μm for resolving cellular structures of biological tissues critical for the diagnosis of diseases. However, it requires a relatively large spectral bandwidth which is not supported by the key components of the imaging system. We propose a novel spectral-domain OCT design, termed interferometer-in-spectrometer, which is able to compensate the bandwidth limitations of the grating and the line scan sensor by spectral shaping without compromising the signal intensity and adding the system cost. The advantage of axial resolution and ranging depth over the standard design is experimentally validated using the standard testing method and fresh swine cornea ex vivo. Moreover, opportunities that opened up by this new scheme for improving the performances of spectral-domain OCT are also discussed.

Published

2020

44. Towards indicating human skin state in vivo using geometry-dependent spectroscopic contrast imaging

Author

Xiangzhou Wang, Yong Liu, Linbo Liu, Ni Guangming, Juanxiu Liu, Jing Zhang, Xin Ge, Lin Liu, and School of Electrical and Electronic Engineering

Subjects

Materials science, integumentary system, media_common.quotation_subject, Papillary dermis, Human skin, 02 engineering and technology, Contrast imaging, Atomic and Molecular Physics, and Optics, Electronic, Optical and Magnetic Materials, 020210 optoelectronics & photonics, Nuclear magnetic resonance, In vivo, 0202 electrical engineering, electronic engineering, information engineering, Electrical and electronic engineering [Engineering], Coherence (signal processing), Contrast (vision), Tomography, Collagen, Electrical and Electronic Engineering, Reticular Dermis, media_common, Human Skin

Abstract

Skin plays a significant role in human body function and its collagen states change during the human skin ageing process, which affects skin function. We previously reported on geometry-dependent spectroscopic contrast achieved by spectroscopic micro-optical coherence tomography (SμOCT), which discovered that transversely oriented and regularly arranged nano-cylinders selectively backscatter the long-wavelength lights and generate spectral centroid (SC) shifts towards the long wavelengths within a spectral window of 700 - 950 nm. Here we further proposed a novel method towards indicating the state of human skin in vivo using geometry-dependent spectroscopic contrast imaging. The proposed method can obtain spectroscopic contrast images of different human skin layers, including the papillary dermis and reticular dermis, and provide a quantitative method towards indicating collagen state in human skin in vivo. Experimental results have shown that the proposed method may potentially have the ability to assess the state of human skin. Agency for Science, Technology and Research (A*STAR) Ministry of Education (MOE) Ministry of Health (MOH) This research was supported by the Singapore Ministry of Health’s National Medical Research Council under its Open Fund Individual Research Grant (MOH-OFIRG19may-0009), Ministry of Education Singapore under its Academic Research Fund Tier 1 (2018-T1-001-144), Agency for Science, Technology and Research (A*STAR) under its Industrial Alignment Fund (Pre-positioning) (H17/01/a0/008) and the National Natural Science Foundation of China under Grant 61905036.

Published

2020

45. Understanding optical reflectance contrast for real‐time characterization of epithelial precursor lesions

Author

Qiaozhou Xiong, Yunchao Deng, Linbo Liu, Haitao Liang, Qianshan Ding, Si Chen, Nanshuo Wang, Xinyu Liu, En Bo, Xianghong Wang, Xin Ge, Shufen Chen, Honggang Yu, Chenjie Xu, and Ni Guangming

Subjects

Research Report, epithelial cancer, lcsh:Biotechnology, Biomedical Engineering, Pharmaceutical Science, optical biopsy, Optical coherence tomography, lcsh:TP248.13-248.65, Keratin, medicine, lcsh:Chemical engineering, chemistry.chemical_classification, Keratin Filament, optical coherence tomography, medicine.diagnostic_test, keratin filament, optical reflectance contrast, Mucin, mucin granule, lcsh:RM1-950, Mucin granule, lcsh:TP155-156, Research Reports, Optical Biopsy, precancerous lesion, Foveolar cell, lcsh:Therapeutics. Pharmacology, chemistry, Ultrastructure, Biophysics, Biotechnology

Abstract

Detecting early‐stage epithelial cancers and their precursor lesions are challenging as lesions could be subtle and focally or heterogeneously distributed over large mucosal areas. Optical coherence tomography (OCT) that enables wide‐field imaging of subsurface microstructures in vivo is a promising screening tool for epithelial diseases. However, its diagnostic capability has not been fully appreciated since the optical reflectance contrast is poorly understood. We investigated the back‐scattered intensities from clustered or packed nanometer scale intracellular scatterers using finite‐difference time‐domain method and 1‐μm resolution form of OCT, and uncovered that there existed correlations between the reflectance contrasts and the ultrastructural clustering or packing states of these scatterers, which allows us to interpret the physiological state of the cells. Specifically, both polarized goblet cells and foveolar cells exhibited asymmetric reflectance contrast, but they could be differentiated by the optical intensity of the mucin cup due to the different ultrastructural make‐ups of the mucin granules; keratinocytes could demonstrate varied cytoplasmic intensity and their cytoplasmic contrast was closely correlated with the packing state of keratin filaments. Further preliminary study demonstrated that these new understandings of OCT image contrast enables the characterization of precancerous lesions, which could complement the current morphology‐based criteria in realizing “virtual histology” and would have a profound impact for the screening and surveillance of epithelial cancers.

Published

2019

46. Automatic evaluation of stratum basale and dermal papillae using ultrahigh resolution optical coherence tomography

Author

Tian Hao, Xiaojun Yu, Xianghong Wang, Linbo Liu, Chengxin Li, Jun Xie, and School of Electrical and Electronic Engineering

Subjects

Noninvasive imaging, genetic structures, Computer science, 0206 medical engineering, Biomedical Engineering, Health Informatics, 02 engineering and technology, 03 medical and health sciences, 0302 clinical medicine, Optical coherence tomography, Evaluation methods, medicine, Artifact (error), integumentary system, medicine.diagnostic_test, Dermal Papillae, Sampling error, 020601 biomedical engineering, Dermal papillae, medicine.anatomical_structure, Ultrahigh resolution, Signal Processing, Electrical and electronic engineering [Engineering], Optical Coherence Tomography, 030217 neurology & neurosurgery, Stratum basale, Biomedical engineering

Abstract

Diagnosis of many skin conditions requires evaluation of dermal papillae and stratum basale, such as vitiligo. In clinical practice, imaging dermal papillae structures relies on excisional biopsy followed by histological processing and analysis. As biopsy is invasive and associated with complications, a noninvasive imaging method such as optical coherence tomography (OCT) can complement the existing method by enabling large area scanning. However, because OCT image analysis requires training and it takes time to review OCT images from large skin areas, an automatic evaluation method is preferred to reduce the workload and avoid ‘sampling errors’ during image analysis. Here we report an automatic method to enhance and detect dermal papillae and stratum basale in ultrahigh resolution OCT images. A high detection accuracy is achieved by rejecting image artifacts using a surface flattening algorithm and an artifact recognition algorithm. We further demonstrated the efficacy of this automatic method in detecting vitiligo in human subjects. Agency for Science, Technology and Research (A*STAR) Ministry of Education (MOE) Accepted version This research is supported by the Ministry of Education Singapore under its Academic Research Fund Tier 1 (2018-T1- 001-144), and Agency for Science, Technology and Research (A*STAR) under its Industrial Alignment Fund (Pre-positioning) (H17/01/a0/008).

Published

2019

47. Toward High-Speed Imaging of Cellular Structures in Rat Colon Using Micro-optical Coherence Tomography

Author

Shi Chen, Si Chen, Linbo Liu, Xianghong Wang, Xiaojun Yu, Yuemei Luo, Xinyu Liu, School of Chemical and Biomedical Engineering, and School of Electrical and Electronic Engineering

Subjects

0301 basic medicine, lcsh:Applied optics. Photonics, Pathology, medicine.medical_specialty, 01 natural sciences, 010309 optics, 03 medical and health sciences, Optics, Intestinal mucosa, Optical coherence tomography, scanning microscopy, In vivo, 0103 physical sciences, medicine, biophotonics instrumentation, lcsh:QC350-467, Large intestine, Electrical and Electronic Engineering, Biophotonics instrumentation, Goblet cell, medicine.diagnostic_test, business.industry, Chemistry, Intestinal metaplasia, lcsh:TA1501-1820, Optical Biopsy, medicine.disease, Atomic and Molecular Physics, and Optics, 030104 developmental biology, medicine.anatomical_structure, coherence imaging, business, Ex vivo, medical photonics instrumentation, lcsh:Optics. Light

Abstract

The mucosal microanatomy of the large intestine is characterized by the presence of crypts of Lieberkühn, which is associated predominantly with goblet cells. Such cellular-level intestinal microstructures undergo morphological changes during the progression of bowel diseases, such as colon cancer or ulcerative colitis. As an indicator of gastric cancers, intestinal metaplasia in the large intestine is characterized by the appearance of goblet cells in gastric epithelium, and therefore, visualization of intestinal microstructure changes in cross-sectional view, particularly in vivo, in a high-speed fashion would assist early disease diagnosis and its treatment. In this paper, we investigated the capability of micro-optical coherence tomography (μOCT) for high-speed cellular-level crypt and goblet cell structures imaging ex vivo and in vivo . The adopted μOCT system achieved a resolution of 2.0 μm in both the lateral and axial directions in air. Ex vivo and video-rate in vivo images acquired in 3-D at respective imaging rates of 20 and 60 frames/s are presented and compared with the histology images. Imaging results show that the detailed microstructures, such as the crypt lumen and the goblet cells, could be clearly identified and are also comparable with those in histology images. Such comparisons also indicate that high-resolution μOCT could be a powerful tool to perform “optical biopsy” in colorectal tissue. This is the first work, to the best of our knowledge, on cellular-level structure imaging in intestinal mucosa using spectral-domain OCT. NRF (Natl Research Foundation, S’pore) MOE (Min. of Education, S’pore) NMRC (Natl Medical Research Council, S’pore) Published version

Published

2016

48. A two-step iteration mechanism for speckle reduction in optical coherence tomography

Author

Shufen Chen, Si Chen, Xinyu Liu, Xiaojun Yu, Nanshuo Wang, Linbo Liu, Xianghong Wang, and School of Electrical and Electronic Engineering

Subjects

Similarity (geometry), Computer science, Image Processing, Biomedical Engineering, Health Informatics, Image processing, 01 natural sciences, Multiplicative noise, 030218 nuclear medicine & medical imaging, 010309 optics, 03 medical and health sciences, Speckle pattern, symbols.namesake, 0302 clinical medicine, Optical coherence tomography, 0103 physical sciences, medicine, Computer vision, medicine.diagnostic_test, business.industry, Speckle noise, Bregman method, Gaussian noise, Signal Processing, Engineering::Electrical and electronic engineering [DRNTU], symbols, Artificial intelligence, Optical Coherence Tomography, business

Abstract

Optical coherence tomography (OCT) is an imaging tool that has been widely utilized for various disease diagnoses for its noninvasive and high-resolution properties. Due to the dual role of speckles in the imaging process, however, OCT images suffer from the unavoidable speckle noise, which is usually regarded to be multiplicative in nature and reduces image contrast and resolution. In this study, we propose to categorize OCT speckle noise into additive portion and multiplicative portion, and present a simple two-step iteration (TSI) mechanism to suppress such noises separately. With the augmented Lagrange minimization (ALM) method adopted to recover a low-rank image, the first step of TSI is to remove the additive Gaussian noise, while the second step of TSI is to suppress the multiplicative noise by employing a split Bregman method (SBM) to solve the total-variation (TV) de-noising problem. Extensive experiments with OCT images of the swine eye, human and rabbit retina are conducted to verify the effectiveness of the proposed method. Results show that the proposed TSI method outperforms the existing methods in different cases. Specifically, TSI helps improve the peak signal-to-noise ratio (PSNR) and structure similarity (SSIM) of the swine eye images from 17.19 dB to 33 dB and 0.12 to 0.92, respectively, with the important structural details well preserved. The clearer boundaries and higher image contrast obtained with the TSI method would largely facilitate image analyses and interpretations for the clinical applications of OCT systems. NRF (Natl Research Foundation, S’pore) MOE (Min. of Education, S’pore) NMRC (Natl Medical Research Council, S’pore) Accepted version

Published

2018

49. Pixel-reassigned spectral-domain optical coherence tomography

Author

Jun Xie, Linbo Liu, En Bo, Xin Ge, Lulu Wang, School of Chemical and Biomedical Engineering, and School of Electrical and Electronic Engineering

Subjects

lcsh:Applied optics. Photonics, Computer science, Spectral domain, 01 natural sciences, Coherent Imaging, 010309 optics, 03 medical and health sciences, 0302 clinical medicine, Optics, Optical coherence tomography, coherent imaging, Position (vector), 0103 physical sciences, medicine, biophotonics instrumentation, lcsh:QC350-467, Optical Coherence Tomography (OCT), Electrical and Electronic Engineering, Optical coherence tomography (OCT), medicine.diagnostic_test, Pixel, Fiber (mathematics), business.industry, lcsh:TA1501-1820, Resolution improvement, Atomic and Molecular Physics, and Optics, Intensity (physics), Transverse plane, 030220 oncology & carcinogenesis, Electrical and electronic engineering [Engineering], business, medical photonics instrumentation, lcsh:Optics. Light

Abstract

A novel method of pixel reassignment (PRA) is proposed to achieve transverse superresolution in the confocal microscopy. Inspired by it, for the first time, we report a pixel-reassigned spectral-domain optical coherence tomography (OCT) with ~1.5 times transverse resolution improvement both in numerical simulations and imaging experiments. PRA is implemented by transversely shifting the detection fiber from the on-axis position to five off-axis positions, capturing cross-sectional images at each shifting step of the detection fiber and digitally reassigning them together to give a sharper image with moderately extended depth of focus and enhanced intensity. So, we believe that the PRA technique will improve the imaging performance and be beneficial to the development of the OCT community. NRF (Natl Research Foundation, S’pore) MOE (Min. of Education, S’pore) NMRC (Natl Medical Research Council, S’pore) Published version

Published

2018

50. Multiscale skin imaging in vivo using optical coherence tomography

Author

Hongying Tang, Linbo Liu, Xianghong Wang, Chi Hu, Qianshan Ding, Xiaojun Yu, Lulu Wang, Zeming Fan, and School of Electrical and Electronic Engineering

Subjects

Materials science, Physics and Astronomy (miscellaneous), medicine.diagnostic_test, Resolution (electron density), 01 natural sciences, Visualization, 010309 optics, Imaging Systems, 030207 dermatology & venereal diseases, 03 medical and health sciences, 0302 clinical medicine, Optical coherence tomography, In vivo, 0103 physical sciences, Medical imaging, medicine, Electrical and electronic engineering [Engineering], Tomography, Optical Coherence Tomography, Instrumentation, Image resolution, Biomedical engineering, Skin imaging

Abstract

Optical coherence tomography (OCT) is a noninvasive high-resolution diagnostic imaging modality that plays an increasingly important role in dermatology. Diagnosis of skin diseases using OCT requires both cellular-level high resolution and large area skin coverage. In practice, however, there exists a trade-off between the achievable spatial resolutions and the transverse scanning range. In this study, we report a Micro-OCT (μOCT) system that is capable of providing three-dimensional images of the skin at multiple spatial scales with both cellular-level resolution (1-2 μm) mode and large area (∼ mm2) scanning mode. Specifically, in the cellular-level scanning mode, we achieve a transverse resolution of ∼1.5 μm and an axial resolution of 1.7 μm (n = 1.38) which enables the visualization of cellular-level skin microstructures. While in the large-area scanning mode, the system is capable of covering an en face imaging area reaching up to with a lateral resolution of ∼5.5 μm at a scanning speed of 60 K Alines/s. We experimentally verify the imaging capabilities of such a multiscale μOCT system including in vivo visualization of epidermal cells in the cellular-level scanning mode as well as the internal fingerprints and sweat gland ducts in the large area scanning mode. Micro-anatomical imaging at multiple spatial scales could provide comprehensive information of the skin that is valuable to disease diagnosis. NRF (Natl Research Foundation, S’pore) MOE (Min. of Education, S’pore) NMRC (Natl Medical Research Council, S’pore) Accepted version

Published

2018