Inducible nitric oxide synthase (iNOS) expression may predict distant metastasis in human melanoma

Expression of inducible nitric oxide synthase (iNOS) and its cellular localization was investigated in subcutaneous or lymph node metastases of human melanoma. Immunohistochemistry revealed that iNOS expression was limited to melanoma cells. In samples of patients without distant metastases, the number of iNOS+ tumour cells/total tumour cells was 55% ± 17% (n = 12) compared with 9% ± 8% when distant metastases of lung, liver or brain occurred within an observation period of 3 years (n = 10) (P < 0.001). Western blotting confirmed the expression of iNOS protein in select cases. Notably, iNOS is expressed in regional melanoma metastases and its expression is inversely related to the tumour's metastatic potential. Thus, iNOS expression may have predictive value for the development of distant metastases of human melanoma. © 1999 Cancer Research Campaig

Impact of Phenanthrene on Organic Acids Secretion and Accumulation by Perennial Ryegrass, Lolium perenne L., Root

A solution culture experiment was performed to investigate the impact of phenanthrene (PHE) on organic acids secretion and accumulation by Lolium perenne L. root. Data showed that, oxalic acid was the dominant composition of organic acids in root and root exudates. In root exudates, increased levels of PHE resulted in higher oxalic acid and its secrete proportion; oxalic acid arranged from 3.00 to 4.72 mg/g FW under spiked PHE treatments, in control, it was 2.33 mg/g FW. In root, oxalic acid rose to 25.61 mg/g FW at 1 mg/L PHE treatment, while the PHE concentration was continuously increasing, organic acids in root decreased

Modeling, Oscillation Analysis and Distributed Stabilization Control of Autonomous PV-based Microgrids

Driven by rising energy demand and the goal of carbon neutrality, renewable energy generations (REGs), especially photovoltaic (PV) generations, are widely used in the urban power energy systems. While the intelligent control of microgrids (MG) brings economic and efficient operation, its potential stability problem cannot be ignored. To date, most of the research on modeling, analyzing and enhancing the stability of MG usually assume the DC-link as an ideal voltage source. However, this practice of ignoring the dynamics of DC-link may omit the latent oscillation phenomena of autonomous PV-based MG. First, this paper establishes a complete dynamic model of autonomous PV-based MG including PV panels and DC-link. Different from previous conclusions of idealizing DC-link dynamics, participation factor analysis finds the potential impact of DC-link dynamics on system dynamic performance, and different influence factors including critical control parameters and non-linear V-I output characteristic of PV array are considered to further reveal oscillation mechanisms. Second, based on the average consensus algorithm, a distributed stabilization controller with strong robustness is proposed to enhance stability of the PV-based MG, which does not affect the steady-state performance of the system. Finally, the correctness of all theoretical analysis and the effectiveness of the proposed controller are verified by time domain simulation and hardware-in-loop tests.10.13039/501100001809-National Natural Science Foundation of China (Grant Number: 51907031

Improving megasite management performance through incentives : lessons learned from the Shanghai Expo Construction

Author name used in this manuscript: Carol H. K. Hon2012-2013 > Academic research: refereed > Publication in refereed journalAccepted ManuscriptPublishe

Optimal Sizing of Battery Energy Storage System in Smart Microgrid with Air-conditioning Resources

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Optimal Operation of Smart Buildings with Stochastic Connection of Electric Vehicles

Guangdong Foshan Power Construction Corporation Group Co., Ltd.; Department of Finance and Education of Guangdong Province 2016 [202]: Key Discipline Construction Program, China; Education Department of Guangdong Province: New and Integrated Energy System Theory and Technology Research Group [Project Number 2016KCXTD022]; National Natural Science Foundation of China Grant 51907031; Brunel University London BRIEF Funding

A novel approach using potable diagnostic ultrasound to inform treatment choices for hemiplegic shoulder pain – A case study

Introduction: Hemiplegic shoulder pain (HSP) has a reported incidence of up to 84% of patients. The purpose of this case study is to report findings from a patient with HSP who received problem specific treatment and underwent real-time scanning of shoulder region with a portable diagnostic ultrasound. Treatment was modified to address the problems. Methods/Case Description:The patient was a 45 year-old woman with right sided-hemiparesis resulting from a clot. Patient was undergoing rehabilitation in a private clinic and reported shoulder pain. Patient was undergoing rehabilitation (over-arm exercises, electrical stimulation, stretches, Saebo exercises) however, continued to complain of shoulder pain (VAS-7). Ultrasound scanning was undertaken and following observations were made on both affected (AF) and unaffected (UAF) shoulders. Acromion-greater tuberosity (AGT) distance (AF-3.35 cm, UAF-2.04 cm), diameter of supraspinatus in resting state (AF -1.16 cm, UAF-1.42cm) and contracted state (AF-1.14cm, UAF-1.63cm). Modified treatment included: 1) Isometric exercises to supraspinatus muscle 2) Trigger point release for trapezius 3) Electrical stimulation to lateral deltoid and supraspinatus 4) avoid over-arm activitiesResults: Ultrasound measurement suggested reduction in AGT immediately following treatment. 8 weeks later, VAS score was 3 and patient reported using her arm more for various functional tasks. Diameter of supraspinatus in resting state (AF -1.30 cm, UAF-1.45cm) and contracted state (AF-1.42cm, UAF-1.70cm) suggested some improvement.Conclusions: Real-time ultrasound has potential benefits as an assessment tool to inform treatment choices for HSP. Further studies are required in this area

Conjugation of Functionalized SPIONs with Transferrin for Targeting and Imaging Brain Glial Tumors in Rat Model

Currently, effective and specific diagnostic imaging of brain glioma is a major challenge. Nanomedicine plays an essential role by delivering the contrast agent in a targeted manner to specific tumor cells, leading to improvement in accurate diagnosis by good visualization and specific demonstration of tumor cells. This study investigated the preparation and characterization of a targeted MR contrast agent, transferrin-conjugated superparamagnetic iron oxide nanoparticles (Tf-SPIONs), for brain glioma detection. MR imaging showed the obvious contrast change of brain glioma before and after administration of Tf-SPIONs in C6 glioma rat model in vivo on T2 weighted imaging. Significant contrast enhancement of brain glioma could still be clearly seen even 48 h post injection, due to the retention of Tf-SPIONs in cytoplasm of tumor cells which was proved by Prussian blue staining. Thus, these results suggest that Tf-SPIONs could be a potential targeting MR contrast agent for the brain glioma

Model Reduction for Grid-Forming Hybrid Renewable Energy Microgrid Clusters Based on Multi-Timescale Characterization

10.13039/501100001809-National Natural Science Foundation of China (Grant Number: 51907031 and 62273104); 10.13039/501100021171-Basic and Applied Basic Research Foundation of Guangdong Province (Grant Number: 2022A1515011163); Science and Technology Program of Guangzhou, China (Grant Number: 2023A04J0273)

An approach for the calculation of one-loop effective actions, vacuum energies, and spectral counting functions

In this paper, we provide an approach for the calculation of one-loop effective actions, vacuum energies, and spectral counting functions and discuss the application of this approach in some physical problems. Concretely, we construct the equations for these three quantities; this allows us to achieve them by directly solving equations. In order to construct the equations, we introduce shifted local one-loop effective actions, shifted local vacuum energies, and local spectral counting functions. We solve the equations of one-loop effective actions, vacuum energies, and spectral counting functions for free massive scalar fields in $\mathbb{R}^{n}$, scalar fields in three-dimensional hyperbolic space $H_{3}$ (the Euclidean Anti-de Sitter space $AdS_{3}$), in $H_{3}/Z$ (the geometry of the Euclidean BTZ black hole), and in $S^{1}$, and the Higgs model in a $(1+1)$-dimensional finite interval. Moreover, in the above cases, we also calculate the spectra from the counting functions. Besides exact solutions, we give a general discussion on approximate solutions and construct the general series expansion for one-loop effective actions, vacuum energies, and spectral counting functions. In doing this, we encounter divergences. In order to remove the divergences, renormalization procedures are used. In this approach, these three physical quantities are regarded as spectral functions in the spectral problem.Comment: 37 pages, no figure. This is an enlarged and improved version of the paper published in JHE