Your search keyword '"Wang, Shouyan"' showing total 23 results

1. A 1.5 mm2 4-Channel EEG/BIOZ Acquisition ASIC With 15.2-Bit 3-Step ADC Based on a Signal-Dependent Low-Power Strategy

Author

Jin, Han, Hu, Weimin, Zhao, Yajie, Jiang, Yizhou, Ye, Yongjie, Wang, Shouyan, and Qin, Yajie

Abstract

This article presents a multichannel EEG/BIOZ acquisition application specific integrated circuit (ASIC) with 4 EEG channels and a BIOZ channel, a switch resistor low-pass filter (SR-LPF). Each EEG channel includes a frontend, and a 4-channel multiplexed analog-to-digital converter (ADC), while the BIOZ channel features a pseudo sine current generator and a pair of readout paths with multiplexed SR-LPF and ADC. The ASIC is designed for size and power minimization, utilizing a 3-step ADC with a novel signal-dependent low power strategy. The proposed ADC operates at a sampling rate of 1600 S/s with a resolution of 15.2 bits, occupying only 0.093 mm2. With the help of the proposed signal-dependent low-power strategy, the ADC's power dissipation drops from 32.2 μW to 26.4 μW, resulting in an 18% efficiency improvement without performance degradation. Moreover, the EEG channels deliver excellent noise performance with a NEF of 7.56 and 27.8 nV/√Hz at the expense of 0.16 mm2 per channel. In BIOZ measurement, a 5-bit programmable current source is used to generate pseudo sine injection current ranging from 0 to 22 μApp, and the detection sensitivity reaches 2.4 mΩ/√Hz. Finally, the presented multichannel EEG/BIOZ acquisition ASIC has a compact active area of 1.5 mm2 in an 180nm CMOS technology.

Published

2023

2. Multimodal Wireless-Powered Flexible System for Closed-Loop Neuromodulation

Author

Jin, Han, Jiang, Yizhou, Li, Jianzheng, Wang, Shouyan, and Qin, Yajie

Abstract

This article presents a wirelessly powered closed-loop neuromodulation system, containing both implantable and wearable parts. The implantable part is an implantable neuromodulator tag that contains a customized application specific integrated circuit (ASIC) for neurostimulation and recording, an off-the-shelf near-field communication (NFC) proximity integrated circuit card (PICC) chip, and one coupling coil for communication and power transferring. There is a wireless monitoring device, an NFC reader, electroencephalogram (EEG) electrodes, and near-infrared spectrum (NIRS) modules in wearable part. Intracranial neural recorder and wearable EEG/NIRS modules are able to provide multimodal biological information, such as local field potentials (LFPs), EEG, and cerebral tissue oxygen saturation (StO $_{{2}}{)}$ for algorithms to propose a more precise closed-loop stimulation strategy for better treatment effect. The ASIC chip is fabricated in a 0.18- $\mu \text{m}$ CMOS technology. The stimulator has a limited size of 0.027 mm2. Its stimulation current ranges from 0 to 0.6 mA with a bandwidth of 10 Hz–8 kHz, which is able to support precise neuromodulation. The recording channel features a bandwidth of 0.5–100 Hz with a noise floor of $0.93 \mu \text{V}_{\text {rms}}$ . The entire neuromodulator tag has a small footprint of $20\times 24\times1.4$ mm, and its weight is only 0.25 g.

Published

2023

3. Small Incision Lenticule Extraction (SMILE) and Laser in Situ Keratomileusis (LASIK) Used to Treat Myopia and Myopic Astigmatism: A Systematic Review and Meta-analysis of Randomized Clinical Trials

Author

Yao, Lin, Zhang, Minghong, Wang, Dianqiang, Zhao, Qian, Wang, Shouyan, and Bai, Haiqing

Abstract

ABSTRACTPurposesThe purpose of this meta-analysis is to systematically compare the safety, efficacy, and predictability of small incision lenticule extraction (SMILE) and laser in situ keratomileusis (LASIK).MethodsThis study covered the data searched from the PubMed, the EMBASE and the Cochrane Library. The Cochrane Handbook was also referred to as evaluating the quality of the included studies. In addition, this meta-analysis was performed using Revman 5.4 software.ResultsA total of 11 randomized controlled trails (RCTs) were included. The proportion of eyes with refraction within ±0.5D was higher in LASIK group compared with SMILE group (RR, 0.91; 95% CI, 0.83 to 0.99; p= .04). The spherical aberration (SA) was smaller in SMILE group compared with LASIK group (RR, −0.12; 95% CI, −0.23 to −0.01; p= .04). There were no significant differences between two groups with regard to final mean refractive spherical equivalent (SE) (MD, −0.04; 95% CI, −0.12 to 0.03; p = .22), proportion of eyes losing one or more lines of corrected distance visual acuity (CDVA) (RR, 1.14; 95% CI, 0.58 to 2.27; p = .70), proportion of eyes with uncorrected distance visual acuity (UCVA) of 20/20 or better (RR, 0.99; 95% CI, 0.94 to 1.05; p = .71), postoperative mean logMAR UCVA (MD, 0.01; 95% CI, −0.00 to 0.03; p = .13), postoperative refraction within ±1.0D (RR, 1.00; 95% CI, 0.98 to 1.02; p = .60), postoperative astigmatism within ±0.25, 0.5 and 1.0D (RR, 0.80, 0.99, 1.00; 95% CI, 0.35 to 1.83, 0.94 to 1.05, 0.98 to 1.02; p = .60, 0.86, 0.87), postoperative higher order aberrations (HOAs) (RR, 0.00; 95% CI, −0.16 to 0.16; p = .99).ConclusionFor predictability, LASIK was superior to SMILE. There were comparably safety and efficacy for the correction of myopia and myopic astigmatism in SMILE and LASIK. SA was smaller after SMILE than after LASIK.

Published

2023

4. Association of specific biotypes in patients with Parkinson disease and disease progression.

Author

Linbo Wang, Wei Cheng, Rolls, Edmund T., Fuli Dai, Weikang Gong, Jingnan Du, Wei Zhang, Shouyan Wang, Fengtao Liu, Jian Wang, Peter Brown, Jianfeng Feng, Wang, Linbo, Cheng, Wei, Rolls, Edmund, Dai, Fuli, Gong, Weikang, Du, Jingnan, Zhang, Wei, and Wang, Shouyan

Published

2020

5. Decoding voluntary movements and postural tremor based on thalamic LFPs as a basis for closed-loop stimulation for essential tremor.

Author

Tan, Huiling, Debarros, Jean, He, Shenghong, Pogosyan, Alek, Aziz, Tipu Z., Huang, Yongzhi, Wang, Shouyan, Timmermann, Lars, Visser-Vandewalle, Veerle, Pedrosa, David J., Green, Alexander L., and Brown, Peter

Abstract

High frequency Deep brain stimulation (DBS) targeting motor thalamus is an effective therapy for essential tremor (ET). However, conventional continuous stimulation may deliver unnecessary current to the brain since tremor mainly affects voluntary movements and sustained postures in ET. We aim to decode both voluntary movements and the presence of postural tremor from the Local field potentials (LFPs) recorded from the electrode implanted in motor thalamus for stimulation, in order to close the loop for DBS so that stimulation could be delivered on demand, without the need for peripheral sensors or additional invasive electrodes. LFPs from the motor thalamus, surface electromyographic (EMG) signals and/or behavioural measurements were simultaneously recorded in seven ET patients during temporary lead externalisation 3–5 days after the first surgery for DBS when they performed different voluntary upper limb movements. Nine different patients were recorded during the surgery, when they were asked to lift their arms to trigger postural tremor. A machine learning based binary classifier was used to detect voluntary movements and postural tremor based on features extracted from thalamic LFPs. Cross-validation demonstrated that both voluntary movements and postural tremor can be decoded with an average sensitivity of 0.8 and false detection rate of 0.2. Oscillatory activities in the beta frequency bands (13–23 Hz) and the theta frequency bands (4–7 Hz) contributed most to the decoding of movements and postural tremor, respectively, though incorporating features in different frequency bands using a machine learning approach increased the accuracy of decoding. • Essential tremor mainly affects voluntary movements and sustained postures. • Both voluntary movements and postural tremor can be decoded using LFPs recorded from electrodes implanted in motor thalamus for stimulation. • This information can potentially be used to close the loop for DBS for the treatment of essential tremor. • Closed-loop DBS for ET can be achieved without the need for peripheral sensors or additional invasive electrodes. [ABSTRACT FROM AUTHOR]

Published

2019

6. ErbB4 processing is involved in OGD/R induced neuron injury.

Author

Deng, Aiqing, Wang, Shouyan, Qin, Jianxin, Yang, Panpan, Shen, Shaoze, Zhou, Hongzhi, and Chen, Xia

Abstract

• The expression of m80 ErbB4 decreased after cerebral ischemia/reperfusion injury. • ErbB4 expression was correlated with the changes in Adrb1, Adrb2, Ldlr, and Dab2. • ErbB4 can inhibit OGD/R-induced injury. • ErbB4 was a new target for the prevention and treatment of ischemic stroke. Our previous study found that ErbB4 gene expression was changed after oxygen-glucose deprivation/reperfusion (OGD/R). However, the exact role and mechanism of ErbB4 in brain ischemia are largely unknown. In this study, we explored the protective effects of ErbB4 and its possible mechanism after OGD/R. Cerebral ischemia/reperfusion (I/R) injury model was established in vitro and in vivo. Cell viability, apoptosis, and ROS production were measured by MTT, TUNEL, and fluorescent probe 2′, 7′-dichlorofluorescein diacetate (DCFH-DA). Infarct size was evaluated by TTC. We performed bioinformatics analyses to screen for novel key genes involved in ErbB4 changes. RNA-Seq was used to transcriptome analysis. RNA and protein expression were detected by quantitative RT‒PCR and western bloting. The expression of 80-kDa ErbB4 decreased after cerebral I/R injury in vitro and in vivo. Co-expression network analysis revealed that ErbB4 expression was correlated with the changes in Adrb1, Adrb2, Ldlr, and Dab2. Quantitative RT‒PCR revealed that the mRNA expression levels of Adrb1, Adrb2, and Dab2 were upregulated, and that of Ldlr was decreased after OGD/R. Activation of ErbB4 expression by neuregulin 1 (NRG1) significantly promoted cell survival, attenuated hippocampal apoptosis, and decreased ROS production after OGD/R. Furthermore, the elimination of ErbB4 using a specific siRNA reversed these beneficial effects. Our data revealed the neuroprotective effects of ErbB4 against OGD/R injury, and the action could be related to changes in the ErbB4 membrane-associated fragment and the expression of Adrb1, Adrb2, Ldlr, and Dab2. [ABSTRACT FROM AUTHOR]

Published

2023

7. Enhancer RNAs: a missing regulatory layer in gene transcription

Author

Mao, Renfang, Wu, Yuanyuan, Ming, Yue, Xu, Yuanpei, Wang, Shouyan, Chen, Xia, Wang, Xiaoying, and Fan, Yihui

Abstract

Enhancers and super-enhancers exert indispensable roles in maintaining cell identity through spatiotemporally regulating gene transcription. Meanwhile, active enhancers and super-enhancers also produce transcripts termed enhancer RNAs (eRNAs) from their DNA elements. Although enhancers have been identified for more than 30 years, widespread transcription from enhancers are just discovered by genome-wide sequencing and considered as the key to understand longstanding questions in gene transcription. RNA-transcribed enhancers are marked by histone modifications such as H3K4m1/2 and H3K27Ac, and enriched with transcription regulatory factors such as LDTFs, P300, CBP, BRD4 and MED1. Those regulatory factors might constitute a Mega-Trans-like complex to potently activate enhancers. Compared to mRNAs, eRNAs are quite unstable and play roles at local. Functionally, it has been shown that eRNAs promote formation of enhancer-promoter loops. Several studies also demonstrated that eRNAs help the binding of RNA polymerase II (RNAPII) or transition of paused RNAPII by de-association of the negative elongation factor (NELF) complex. Nevertheless, these proposed mechanisms are not universally accepted and still under controversy. Here, we comprehensively summarize the reported findings and make perspectives for future exploration. We also believe that super-enhancer derived RNAs (seRNAs) might be informative to understand the nature of super-enhancers.

Published

2019

8. Interpolated template subtraction method for stimulation artifact removal

Author

Jalali, Bahram, Kitayama, Ken-ichi, Kong, Chui, Nie, Yingnan, and Wang, Shouyan

Published

2023

9. Induced activity in EEG in response to auditory stimulation.

Author

Hosseini, Pegah Tayaranian, Bell, Steven, Wang, Shouyan, and Simpson, David

Subjects

ELECTROENCEPHALOGRAPHY, ACOUSTIC stimulation, BRAIN research, STIMULUS & response (Biology), BIOMEDICAL signal processing

Abstract

The response of the brain to a sensory stimulus may present itself in the electroencephalogram (EEG) as evoked and/or induced activity. While the evoked response is given by peaks and troughs in the signal, time-locked and phase-locked to the stimuli, the induced response is time- but not phase-locked, and can be considered as an increase or a decrease in the power of EEG in a specific frequency band at a specific time range with regard to the stimulus onset. The induced response does not have the same phase following successive stimuli. It is believed that cognition and perception of a stimulus present themselves primarily as the induced response in the EEG. In this paper, the induced response of the brain to auditory speech stimuli is investigated and different approaches to detect induced activity are compared. It is shown that there is an increase in theta and delta power in response to words compared to the baseline, starting around 500 ms after their onset. During this time, there is also an increase in pairwise coherence between the posterior electrodes. In response to tone bursts, a change in pairwise coherence was observed in the beta band starting around 200 ms. To the best of our knowledge, this is the first time such responses have been described using simple protocols without complex stimulus manipulations being involved. Responses in the EEG to speech rather than the more conventional tone-bursts or clicks suggests that it may be feasible to use the EEG as an objective means to demonstrate brain activation to salient real world stimuli. This would be of particular benefit in investigating access to speech in patients who are unable or unwilling to reliably respond to conventional subjective experimental protocols, such as infants. [ABSTRACT FROM AUTHOR]

Published

2015

10. Bridging the Gap from Bench to Bedside: China Takes a New Look at Moving Innovative Health Care Ideas into the Marketplace.

Author

Tang, Yuguo, Wang, Shouyan, Wang, Yile, Xing, Xiaoman, Yu, Yong, and Dong, Wenfei

Subjects

MEDICAL care, MEDICAL technology, MEDICAL economics, MARKETING research, MEDICAL equipment

Abstract

The phrase ?made in China? is everywhere, just not in our health care system. China ranks as the world?s third-largest medical device market and is expected to become the second-largest market in the world in five to seven years. However, almost all of China?s hospitals, not to mention its larger first-class hospitals, use imported devices. For a very long time, foreign-made products have dominated the middle- and high-end markets, leaving to Chinese companies the low-end products with low profit margins. According to recent statistics provided by the China Chamber of Commerce for Import and Export of Medicine and Health Products, 90% of value-added high-tech devices, which account for 70% of ?China?s medical device market, are imported. Why can?t Chinese companies compete with multinational biomedical corporations? Is it because of a lack of money or intelligence? [ABSTRACT FROM PUBLISHER]

Published

2014

11. Multifunctional nanoplatforms for fluorescence imaging and photodynamic therapy developed by post-loading photosensitizer and fluorophore to polyacrylamide nanoparticles.

Author

Gupta, Anurag, Wang, Shouyan, Pera, Paula, Rao, K.V.R., Patel, Nayan, Ohulchanskyy, Tymish Y., Missert, Joseph, Morgan, Janet, Koo-Lee, Yong-Eun, Kopelman, Raoul, and Pandey, Ravindra K.

Subjects

TUMORS, MEDICAL imaging systems, PHOTOCHEMOTHERAPY, FLUORESCENCE, PHOTOSENSITIZERS, POLYACRYLAMIDE, NANOPARTICLES

Abstract

Abstract: We report a novel post-loading approach for constructing a multifunctional biodegradable polyacrylamide (PAA) nanoplatform for tumor-imaging (fluorescence) and photodynamic therapy (PDT). This approach provides an opportunity to post-load the imaging and therapeutic agents at desired concentrations. Among the PAA nanoparticles, a formulation containing the photosensitizer, HPPH [3-(1′-hexyloxyethyl)pyropheophorbide-a], and the cyanine dye in a ratio of 2:1 minimized the undesirable quenching of the HPPH electronic excitation energy because of energy migration within the nanoparticles and/or Förster (fluorescence) resonance energy transfer (FRET) between HPPH and cyanine dye. An excellent tumor-imaging (NIR fluorescence) and phototherapeutic efficacy of the nanoconstruct formulation is demonstrated. Under similar treatment parameters the HPPH in 1% Tween 80/5% aqueous dextrose formulation was less effective than the nanoconstruct containing HPPH and cyanine dye in a ratio of 2 to 1. This is the first example showing the use of the post-loading approach in developing a nanoconstructs for tumor-imaging and therapy. From the Clinical Editor: Fluorescence imaging is a rapidly evolving and relatively high-throughput tool currently only utilized in preclinical imaging. The authors of this work demonstrate a tumor-specific florescence imaging nanoplatform that enables not only imaging, but photodynamic therapy as well. [Copyright &y& Elsevier]

Published

2012

12. Sustained reduction of hypertension by deep brain stimulation.

Author

Pereira, Erlick A.C., Wang, Shouyan, Paterson, David J., Stein, John F., Aziz, Tipu Z., and Green, Alexander L.

Subjects

HYPERTENSION, BRAIN stimulation, PERIAQUEDUCTAL gray matter, THALAMUS, FACIAL pain, AMBULATORY blood pressure monitoring, REOPERATION

Abstract

Abstract: Deep brain stimulators were implanted in the left periaqueductal gray matter (PAG) and sensory thalamus for right sided neuropathic facial pain refractory to other treatments in a man aged 58years. PAG stimulation 8months later acutely reduced systolic blood pressure by 25mm Hg during revision surgery. One year post procedure, ambulatory blood pressure monitoring demonstrated significant and sustained reduction in blood pressure with PAG stimulation. Mean systolic blood pressure decreased by 12.6mm Hg and diastolic by 11.0mm Hg, alongside reductions in variability of heart rate and pulse pressure. This neurosurgical treatment may prove beneficial for medically refractory hypertension. [Copyright &y& Elsevier]

Published

2010

13. Thalamotomy versus thalamic stimulation for multiple sclerosis tremor.

Author

Bittar, Richard G, Hyam, Jonathan, Nandi, Dipankar, Wang, ShouYan, Liu, Xuguang, Joint, Carole, Bain, Peter G, Gregory, Ralph, Stein, John, and Aziz, Tipu Z

Subjects

MULTIPLE sclerosis, TREMOR, MOVEMENT disorders, THALAMOTOMY, BRAIN stimulation

Abstract

Summary: Disabling intractable tremor occurs frequently in patients with multiple sclerosis (MS). There is currently no effective medical treatment available, and the results of surgical intervention have been variable. Thalamotomy has been the mainstay of neurosurgical therapy for intractable MS tremor, however the popularisation of deep brain stimulation (DBS) has led to the adoption of chronic thalamic stimulation in an attempt to ameliorate this condition. With the goal of examining the relative efficacy and adverse effects of these two surgical strategies, we studied twenty carefully selected patients with intractable MS tremor. Thalamotomy was performed in 10 patients, with chronic DBS administered to the remaining 10. Both thalamotomy and thalamic stimulation produced improvements in postural and intention tremor. The mean improvement in postural tremor at 16.2 months following surgery was 78%, compared with a 64% improvement after thalamic stimulation (14.6 month follow-up) (P >0.05). Intention tremor improved by 72% in the group undergoing thalamotomy, a significantly larger gain than the 36% tremor reduction following DBS (P <0.05). Early postoperative complications were common in both groups. Permanent complications related to surgery occurred in four patients overall. Following thalamotomy, long-term adverse effects were observed in three patients (30%), and comprised hemiparesis and seizures. Only one patient in the thalamic stimulation group experienced a permanent deficit (monoparesis). We conclude that thalamotomy is a more efficacious surgical treatment for intractable MS tremor, however the higher incidence of persistent neurological deficits in patients receiving lesional surgery may support the use of DBS as the preferred surgical strategy. [Copyright &y& Elsevier]

Published

2005

14. Deep brain stimulation for pain relief: A meta-analysis.

Author

Bittar, Richard G., Kar-Purkayastha, Ishani, Owen, Sarah L., Bear, Renee E., Green, Alex, Wang, ShouYan, and Aziz, Tipu Z.

Subjects

BRAIN stimulation, INTRACTABLE pain, META-analysis, THALAMUS, PHARMACEUTICAL encapsulation

Abstract

Summary: Deep brain stimulation (DBS) has been used to treat intractable pain for over 50 years. Variations in targets and surgical technique complicate the interpretation of many studies. To better understand its efficacy, we performed a meta-analysis of DBS for pain relief. MEDLINE (1966 to February 2003) and EMBASE (1980 to January 2003) databases were searched using key words deep brain stimulation, sensory thalamus, periventricular gray and pain. Inclusion criteria were based on patient characteristics and protocol clarity. Six studies (between 1977–1997) fitting the criteria were identified. Stimulation sites included the periventricular/periaqueductal grey matter (PVG/PAG), internal capsule (IC), and sensory thalamus (ST). The long-term pain alleviation rate was highest with DBS of the PVG/PAG (79%), or the PVG/PAG plus sensory thalamus/internal capsule (87%). Stimulation of the sensory thalamus alone was less effective (58% long-term success) (p <0.05). DBS was more effective for nociceptive than deafferentation pain (63% vs 47% long-term success; p <0.01). Long-term success was attained in over 80% of patients with intractable low back pain (failed back surgery) following successful trial stimulation. Trial stimulation was successful in approximately 50% of those with post-stroke pain, and 58% of patients permanently implanted achieved ongoing pain relief. Higher rates of success were seen with phantom limb pain and neuropathies. We conclude that DBS is frequently effective when used in well-selected patients. Neuroimaging and neuromodulation technology advances complicate the application of these results to modern practice. Ongoing investigations should shed further light on this complex clinical conundrum. [Copyright &y& Elsevier]

Published

2005

15. Reliability of Dynamic Causal Modeling using the Statistical Parametric Mapping Toolbox

Author

Hosseini, Pegah, Wang, Shouyan, Brinton, Julie, Bell, Steven, and Simpson, David

Abstract

Dynamic causal modeling (DCM) is a recently developed approach for effective connectivity measurement in the brain. It has attracted considerable attention in recent years and quite widespread used to investigate brain connectivity in response to different tasks as well as auditory, visual, and somatosensory stimulation. This method uses complex algorithms, and currently the only implementation available is the Statistical Parametric Mapping (SPM8) toolbox with functionality for use on EEG and fMRI. The objective of the current work is to test the robustness of the toolbox when applied to EEG, by comparing results obtained from various versions of the software and operating systems when using identical datasets. Contrary to expectations, it was found that estimated connectivities were not consistent between different operating systems, the version of SPM8, or the version of MATLAB being used. The exact cause of this problem is not clear, but may relate to the high number of parameters in the model. Caution is thus recommended when interpreting the results of DCM estimated with the SPM8 software.

Published

2014

16. Covid-19 and promising solutions to combat symptoms of stress, anxiety and depression

Author

Vatansever, Deniz, Wang, Shouyan, and Sahakian, Barbara J.

Published

2021

17. Multifunctional Biodegradable Polyacrylamide Nanocarriers for Cancer TheranosticsA “See and Treat” Strategy

Author

Wang, Shouyan, Kim, Gwangseong, Lee, Yong-Eun Koo, Hah, Hoe Jin, Ethirajan, Manivannan, Pandey, Ravindra K., and Kopelman, Raoul

Abstract

We describe here the development of multifunctional nanocarriers, based on amine-functionalized biodegradable polyacrylamide nanoparticles (NPs), for cancer theranostics, including active tumor targeting, fluorescence imaging, and photodynamic therapy. The structural design involves adding primary amino groups and biodegradable cross-linkers during the NP polymerization, while incorporating photodynamic and fluorescent imaging agents into the NP matrix, and conjugating PEG and tumor-targeting ligands onto the surface of the NPs. The as-synthesized NPs are spherical, with an average diameter of 44 nm. An accelerated biodegradation study, using sodium hydroxide or porcine liver esterase, indicated a hydrogel polymer matrix chain collapse within several days. By using gel permeation chromatography, small molecules were detected, after the degradation. In vitrotargeting studies on human breast cancer cells indicate that the targeted NPs can be transported efficiently into tumor cells. Incubating the multifunctional nanocarriers into cancer cells enabled strong fluorescence imaging. Irradiation of the photosensitizing drug, incorporated within the NPs, with light of a suitable wavelength, causes significant but selective damage to the impregnated tumor cells, but only inside the illuminated areas. Overall, the potential of polymeric-based NPs as biodegradable, multifunctional nanocarriers, for cancer theranostics, is demonstrated here.

Published

2012

18. Intra-Operative Deep Brain Stimulation of the Periaqueductal Grey Matter Modulates Blood Pressure and Heart Rate Variability in Humans

Author

Green, Alexander L., Hyam, Jonathan A., Williams, Charles, Wang, Shouyan, Shlugman, David, Stein, John F., Paterson, David J., and Aziz, Tipu Z.

Abstract

Deep brain stimulation applied to the periaqueductal grey matter (PAG) of the midbrain in humans has been shown to increase or decrease arterial blood pressure during rest and to resist the postural fall on standing. The mechanism by which this effect is elicited is unknown. We hypothesize that PAG stimulation modulates performance of the autonomic nervous system.

Published

2010

19. Performance of Ethane/Oxygen Fuel Cells Using Yttrium-Doped Barium Cerate as Electrolyte at Intermediate Temperatures

Author

Wang, Shouyan, Luo, Jing-Li, R. Sanger, Alan, and T. Chuang, Karl

Abstract

Fuel cells having proton conducting membranes comprising doped barium cerate ceramic BaCe0.85Y0.15O3-(BCY15) as electrolyte and platinum as both anode and cathode electrodes performed well for conversion of ethane to ethylene at 650 and 700 °C. No deterioration in performance occurred during 20 days of operation at 700 °C. The electrolyte was stable, and the membrane remained a single perovskite phase after long-term testing. Current density at maximum power density increased with temperature from 650 to 700 °C at ethane flow rates of 100−200 mL/min. A better seal and consequently a better performance were obtained when the sealant was under compression, achieved by operating the cell in vertical attitude. Power density of 120 mW/cm2was attained at current densities in the range 300−650 mA/cm2at 700 °C and ethane flow rate 100 mL/min. There was good agreement between current and change in gaseous composition across the anode. The protonic current arose in two ways:  by conversion of hydrogen arising from dehydrogenation of ethane, and by electrochemical conversion of ethane. At 650 °C the former is the major reaction path, while at 700 °C the latter is the major path.

Published

2007

20. Deep Brain Stimulation for Neuropathic Pain

Author

Owen, Sarah L. F., Green, Alexander L., Nandi, Dipankar, Bittar, Richard G., Wang, ShouYan, and Aziz, Tipu Z.

Abstract

Objectives. To determine whether deep brain stimulation is an effective treatment for neuropathic pain of varied etiology.

Published

2006

21. Deep brain stimulation can regulate arterial blood pressure in awake humans

Author

Green, Alexander L., Wang, Shouyan, Owen, Sarah L.F., Xie, Kangning, Liu, Xuguang, Paterson, David J., Stein, John F., Bain, Peter G., and Aziz, Tipu Z.

Abstract

The periaqueductal grey matter is known to play a role in cardiovascular control in animals. Cardiovascular responses to electrical stimulation of the periventricularperiaqueductal grey matter were measured in 15 awake human study participants following implantation of deep brain stimulating electrodes for treatment of chronic pain. We found that stimulation of the ventral periventricularperiaqueductal grey matter caused a mean reduction in systolic blood pressure of 14.2±3.6 mmHg in seven patients and stimulation of the dorsal periventricularperiaqueductal grey matter caused a mean increase of 16.7±5.9 mmHg in six patients. A comparison between ventral and dorsal electrodes demonstrated significant differences (P<0.05). These changes were accompanied by analogous changes in diastolic blood pressure, pulse pressure, maximum dPdtbut not in the time interval between each R wave on the electrocardiogram.

Published

2005

22. Phantom Limb Pain Relieved with Different Modalities of Central Nervous System Stimulation: A Clinical and Functional Imaging Case Report of Two Patients

Author

Nandi, Dipankar, Yianni, John, Humphreys, Joanna, Wang, Shouyan, O'sullivan, Valerie, Shepstone, Basil, Stein, John F., and Aziz, Tipu Z.

Abstract

Phantom limb pain (PLP) is a type of neuropathic pain syndrome that has evoked much interest in scientific and clinical fields. The condition is often intractable and severely debilitating. Though there are anecdotal reports in the literature of successful management of individual cases with brain and spinal cord stimulation, it has not been possible to develop a system of management that is consistently successful, mainly due to the paucity of basic neurophysiological data about PLP and its pathways in the central nervous system (CNS). Functional imaging offers a way of collecting information about the basic mechanisms and pathways of PLP from patients without the excessive risk of more invasive penetrating electrode studies or the questionable reliability of animal data. There have been very few studies that have looked at the direct effect of CNS stimulation on regional brain activation and correlation with the pain state. We describe two cases of PLP that have been satisfactorily treated with CNS stimulation (motor cortex and then periventricular gray in one and spinal cord in the other) and have been subjected to single photon emission computed tomography (SPECT) studies when in pain and then during stimulation with recorded pain relief. We found that regardless of the site of stimulation in the CNS, pain relief is associated with blood flow changes in similar areas of the brain, mainly the parietal and cingulate cortex and also in the thalamic nuclei and the central gray matter. Further studies of this kind should reveal more about the complex mechanisms of PLP and other forms of neuropathic pain.

Published

2004

23. 179 Stimulation of the Human Periaqueductal Gray Modulates Activity in the Sensory Thalamus and Vice Versa.

Author

Wu, Dali, Wang, Shouyan, Stein, John F., Aziz, Tipu Z., and Green, Alexander L.

Published

2012