Your search keyword '"Yongzhi, Huang"' showing total 24 results

1. Paired Acute Invasive/Non-invasive Stimulation (PAINS) study: A phase I/II randomized, sham-controlled crossover trial in chronic neuropathic pain

Author

Tipu Z. Aziz, Yongzhi Huang, Martin J. Gillies, Alexander L. Green, Ashley L B Raghu, James J. FitzGerald, and Tariq Parker

Subjects

medicine.medical_treatment, Biophysics, Stimulation, Chronic pain, Neurosciences. Biological psychiatry. Neuropsychiatry, Dorsal root ganglion stimulation, medicine, Humans, Pain Management, EEG, health care economics and organizations, Cross-Over Studies, Transcranial direct-current stimulation, business.industry, General Neuroscience, Therapeutic effect, medicine.disease, Crossover study, Transcranial Magnetic Stimulation, Neuromodulation (medicine), medicine.anatomical_structure, Anesthesia, Neuropathic pain, Neuralgia, Transcranial direct current stimulation, Neurology (clinical), business, Motor cortex, RC321-571

Abstract

Background Dorsal root ganglion (DRG) stimulation, an invasive method of neuromodulation, and transcranial direct current stimulation (tDCS), a non-invasive method of altering cortical excitability, have both proven effective in relieving chronic pain. Objective We employed a randomized, sham-controlled crossover study design to investigate whether single-session tDCS would have an additive therapeutic effect alongside DRG stimulation (DRGS) in the treatment of chronic pain. Methods Sixteen neuropathic pain patients who were previously implanted with DRG stimulators were recruited. Baseline pain scores were established with DRGS-OFF. Pain scores were then recorded with DRGS-ON, after paired sham tDCS stimulation, and after paired active anodal tDCS (a-tDCS) stimulation. For active tDCS, patients were randomized to ‘MEG (magnetoencephalography) localized’ tDCS or contralateral motor cortex (M1) tDCS for 30 min. EEG recordings and evaluations of tDCS adverse effects were also collected. Results All participants reported the interventions to be tolerable with no significant adverse effects during the session. Paired DRGS/active tDCS resulted in a significant reduction in pain scores compared to paired DRGS-ON/sham tDCS or DRGS alone. There was no difference in the additive effect of M1 vs. MEG-localized tDCS. Significant augmentation of beta activity was observed between DRGS-OFF and DRGS-ON conditions, as well as between paired DRGS-ON/sham tDCS and paired DRGS-ON/active tDCS. Conclusion Our results indicate that a single session of tDCS alongside DRGS is safe and can significantly reduce pain acutely in neuropathic pain patients. Paired invasive/non-invasive neuromodulation is a promising new treatment strategy for pain management and should be evaluated further to assess long-term benefits.

Published

2021

2. Serum neuronal exosomes predict and differentiate Parkinson’s disease from atypical parkinsonism

Author

Cheng Jiang, Alessandro Padovani, Michele T.M. Hu, Jason J. Davis, John W. Ryder, Franziska Hopfner, Antigoni Katsikoudi, George K. Tofaris, Barbara Borroni, Daniela Berg, Gregor Kuhlenbaeumer, Samuel Evetts, Guenther Deuschl, Candan Catli, Hong Wang, Robert Hein, and Yongzhi Huang

Subjects

Male, Pathology, medicine.medical_specialty, Parkinson's disease, Disease, Exosomes, Progressive supranuclear palsy, Diagnosis, Differential, 03 medical and health sciences, 0302 clinical medicine, Atrophy, Parkinsonian Disorders, Humans, Medicine, Blood test, Neurodegeneration, Aged, 030304 developmental biology, Aged, 80 and over, Neurons, 0303 health sciences, Clusterin, biology, medicine.diagnostic_test, business.industry, Dementia with Lewy bodies, Parkinson Disease, Middle Aged, Multiple System Atrophy, medicine.disease, nervous system diseases, 3. Good health, Psychiatry and Mental health, Cross-Sectional Studies, biology.protein, Female, Surgery, Neurology (clinical), business, Biomarkers, 030217 neurology & neurosurgery, Frontotemporal dementia

Abstract

ObjectiveParkinson’s disease is characterised neuropathologically by α-synuclein aggregation. Currently, there is no blood test to predict the underlying pathology or distinguish Parkinson’s from atypical parkinsonian syndromes. We assessed the clinical utility of serum neuronal exosomes as biomarkers across the spectrum of Parkinson’s disease, multiple system atrophy and other proteinopathies.MethodsWe performed a cross-sectional study of 664 serum samples from the Oxford, Kiel and Brescia cohorts consisting of individuals with rapid eye movement sleep behavioural disorder, Parkinson’s disease, dementia with Lewy bodies, multiple system atrophy, frontotemporal dementia, progressive supranuclear palsy, corticobasal syndrome and controls. Longitudinal samples were analysed from Parkinson’s and control individuals. We developed poly(carboxybetaine-methacrylate) coated beads to isolate L1 cell adhesion molecule (L1CAM)-positive extracellular vesicles with characteristics of exosomes and used mass spectrometry or multiplexed electrochemiluminescence to measure exosomal proteins.ResultsMean neuron-derived exosomal α-synuclein was increased by twofold in prodromal and clinical Parkinson’s disease when compared with multiple system atrophy, controls or other neurodegenerative diseases. With 314 subjects in the training group and 105 in the validation group, exosomal α-synuclein exhibited a consistent performance (AUC=0.86) in separating clinical Parkinson’s disease from controls across populations. Exosomal clusterin was elevated in subjects with non-α-synuclein proteinopathies. Combined neuron-derived exosomal α-synuclein and clusterin measurement predicted Parkinson’s disease from other proteinopathies with AUC=0.98 and from multiple system atrophy with AUC=0.94. Longitudinal sample analysis showed that exosomal α-synuclein remains stably elevated with Parkinson’s disease progression.ConclusionsIncreased α-synuclein egress in serum neuronal exosomes precedes the diagnosis of Parkinson’s disease, persists with disease progression and in combination with clusterin predicts and differentiates Parkinson’s disease from atypical parkinsonism.

Published

2020

3. Supraspinal effects of dorsal root ganglion stimulation in chronic pain patients

Author

Tipu Z. Aziz, James J. FitzGerald, Ashley L B Raghu, Tariq Parker, Alexander L. Green, and Yongzhi Huang

Subjects

medicine.medical_treatment, 03 medical and health sciences, 0302 clinical medicine, Dorsal root ganglion, Ganglia, Spinal, Medicine, Humans, Pain Management, Neurostimulation, health care economics and organizations, medicine.diagnostic_test, business.industry, Postherpetic neuralgia, Chronic pain, General Medicine, Magnetoencephalography, medicine.disease, Anesthesiology and Pain Medicine, Complex regional pain syndrome, medicine.anatomical_structure, Neurology, Anesthesia, Neuropathic pain, Neuralgia, Neurology (clinical), Chronic Pain, business, 030217 neurology & neurosurgery

Abstract

Objectives: Dorsal root ganglion stimulation (DRGS) has become a popular neuromodulatory treatment for neuropathic pain. We used magnetoencephalography (MEG) to investigate potential biomarkers of pain and pain relief, based on the differences in power spectral density (PSD) during varying degrees of pain and how these oscillations change during DRGS-mediated pain relief. Materials and Methods: Thirteen chronic pain patients with implanted dorsal root ganglion stimulators were included in the MEG analysis. MEG Recordings were performed at rest while the stimulator was turned ON or OFF. Numerical rating scale (NRS) scores were also recorded before and after DRGS was turned OFF and ON. Power spectral and source localization analyses were then performed on preprocessed MEG recordings. Results: With DRGS-OFF, patients in severe pain had significantly increased cortical theta (4–7 Hz) power and decreased cortical alpha (7–13 Hz) power compared to patients reporting less pain. This shift in power toward lower frequencies was contrasted by a shift toward the higher frequency power spectrum (low beta 13–20 Hz activity) during DRGS-mediated pain relief. A significant correlation was found between the increase in low beta activity and the degree of reported pain relief. Conclusion: Our results demonstrate increased low-frequency power spectral activity in chronic pain patients in the absence of stimulation which shifts toward higher frequency power spectrum activity in response to therapeutic DRGS. These cortical changes in response to DRGS provide support for the use of neuroimaging in the search for potential biomarkers of pain.

Published

2021

4. Dorsal root ganglion stimulation: a new target for autonomic neuromodulation?

Author

Tipu Z. Aziz, Yrsa B. Sverrisdottir, Tariq Parker, Amir P. Divanbeighi, Alexander L. Green, and Yongzhi Huang

Subjects

medicine.medical_specialty, Neurology, medicine.anatomical_structure, Dorsal root ganglion, Endocrine and Autonomic Systems, business.industry, medicine, Stimulation, Neurology (clinical), business, Neuroscience, Neuromodulation (medicine)

Published

2021

5. Pain-Induced Beta Activity in the Subthalamic Nucleus of Parkinson’s Disease

Author

Chen Gong, Tariq Parker, Yongzhi Huang, Yue Chen, Shouyan Wang, Tipu Z. Aziz, Luming Li, and Alexander L. Green

Subjects

Deep brain stimulation, Parkinson's disease, business.industry, medicine.medical_treatment, Stimulation, Local field potential, Stimulus (physiology), medicine.disease, nervous system diseases, 030218 nuclear medicine & medical imaging, 03 medical and health sciences, Subthalamic nucleus, 0302 clinical medicine, nervous system, Basal ganglia, Noxious stimulus, Medicine, Surgery, Neurology (clinical), business, Neuroscience, 030217 neurology & neurosurgery

Abstract

Background: The subthalamic nucleus (STN) is a common target for deep brain stimulation (DBS) in Parkinson’s disease (PD) and is believed to serve a role in sensorimotor integration. In addition to therapeutic neuromodulation, DBS facilitates the recording of local-field potentials (LFPs) in order to further understand the neurophysiological basis of disease. The capacity to wirelessly transmit these signals in real time has overcome the obstacle of externalization of electrodes during LFP recordings. Objective: Using the G102RS device (PINS Medical, China), we investigated the LFP changes in response to mechanical pain stimulation to further elucidate the representation of pain sensation in the basal ganglia. Methods: LFPs from 2 patients who had undergone bilateral STN-DBS were wirelessly recorded during no stimulation, low-frequency stimulation (60 and 90 Hz), and high-frequency stimulation (130 and 150 Hz) while introducing painful and nonpainful stimuli. Power spectral analysis was conducted to compare the changes in β frequency (13–30 Hz) during each stimulus. Results: During painful stimuli, STN power spectra (n = 4) revealed a significant increase in β activity compared to non-painful and no-stimulus epochs. Both low- and high-frequency stimulation produced a significant decrease in pain-related β activity. Conclusion: These 2 cases have demonstrated the potential for acute noxious stimuli to exacerbate pathologic β oscillatory activity in the STN. Our findings represent novel evidence of the neurophysiologic representation of pain in the STN of PD patients.

Published

2020

6. Functional dynamics of thalamic local field potentials correlate with modulation of neuropathic pain

Author

Shouyan Wang, Yingnan Nie, Yongzhi Huang, Tipu Z. Aziz, Xinyi Geng, Wenjing Dai, Alexander L. Green, Huichun Luo, and Xiao Xiao

Subjects

0303 health sciences, Deep brain stimulation, Quantitative Biology::Neurons and Cognition, business.industry, General Neuroscience, medicine.medical_treatment, Physics::Medical Physics, Thalamus, Alpha (ethology), Sensory system, Local field potential, 03 medical and health sciences, 0302 clinical medicine, Neural oscillation, Neuropathic pain, Modulation (music), medicine, Humans, Neuralgia, business, Neuroscience, 030217 neurology & neurosurgery, 030304 developmental biology

Abstract

Understanding the functional dynamics of neural oscillations in the sensory thalamus is essential for elucidating the perception and modulation of neuropathic pain. Local field potentials were recorded from the sensory thalamus of twelve neuropathic pain patients. Single and combinational neural states were defined by the activity state of a single or paired oscillations. Relationships between the duration or occurrence rate of neural state and pre-operative pain level or pain relief induced by deep brain stimulation were evaluated. Results showed that the occurrence rate of the single neural state of low-beta oscillation was significantly correlated with pain relief. The duration and occurrence rate of combinational neural states of the paired low-beta with delta, theta, alpha, high-beta or low-gamma oscillations were more significantly correlated with pain relief than the single neural states. Moreover, these significant combinational neural states formed a local oscillatory network with low-beta oscillation as a key node. The results also showed correlations between measures of combinational neural states and subjective pain level as well. The duration of combinational neural states of paired alpha with delta or theta oscillations and the occurrence rate of neural states of the paired delta with low-beta or low-gamma oscillations were significantly correlated with pre-operative pain level. In conclusion, this study revealed that the integration of oscillations and the functional dynamics of neural states were differentially involved in modulation and perception of neuropathic pain. The functional dynamics could be biomarkers for developing neural state-dependent deep brain stimulation for neuropathic pain.

Published

2019

7. Cardiovascular autonomic responses in patients with Parkinson disease to pedunculopontine deep brain stimulation

Author

Alexander L. Green, David J. Paterson, Jodi Rippey, Shouyan Wang, Tipu Z. Aziz, Peter A. Silburn, Graham K. Kerr, Jonathan A. Hyam, Sean Martin, Holly A. Roy, Yongzhi Huang, Ian B. Stewart, and Terry Coyne

Subjects

Male, postural hypotension, medicine.medical_specialty, Deep brain stimulation, Valsalva Maneuver, Deep Brain Stimulation, medicine.medical_treatment, Stimulation, Primary Dysautonomias, 030204 cardiovascular system & hematology, Baroreflex, 03 medical and health sciences, Tilt table test, 0302 clinical medicine, Tilt-Table Test, Internal medicine, Pedunculopontine Tegmental Nucleus, Valsalva maneuver, Humans, Medicine, Aged, Pedunculopontine nucleus, medicine.diagnostic_test, Endocrine and Autonomic Systems, business.industry, pedunculopontine nucleus, autonomic nervous system, Dysautonomia, Parkinson Disease, Middle Aged, Blood pressure, Cardiology, Female, Neurology (clinical), medicine.symptom, business, 030217 neurology & neurosurgery

Abstract

Purpose Dysautonomia can be a debilitating feature of Parkinson disease (PD). Pedunculopontine nucleus (PPN) stimulation may improve gait disorders in PD, and may also result in changes in autonomic performance. Methods To determine whether pedunculopontine nucleus stimulation improves cardiovascular responses to autonomic challenges of postural tilt and Valsalva manoeuver, eight patients with pedunculopontine nucleus deep brain stimulation were recruited to the study; two were excluded for technical reasons during testing. Participants underwent head up tilt and Valsalva manoeuver with stimulation turned ON and OFF. Continuous blood pressure and ECG waveforms were recorded during these tests. In a single patient, local field potential activity was recorded from the implanted electrode during tilt. Results The fall in systolic blood pressure after tilt was significantly smaller with stimulation ON (mean − 8.3% versus − 17.2%, p = 0.044). Valsalva ratio increased with stimulation from median 1.15 OFF to 1.20 ON (p = 0.028). Baroreflex sensitivity increased during Valsalva compared to rest with stimulation ON versus OFF (p = 0.028). The increase in baroreflex sensitivity correlated significantly with the mean depth of PPN stimulating electrode contacts. This accounted for 89% of its variance (r = 0.943, p = 0.005). Conclusion PPN stimulation can modulate the cardiovascular system in patients with PD. In this study, it reduced the postural fall in systolic blood pressure during head-up tilt and improved the cardiovascular response during Valsalva, presumably by altering the neural control of baroreflex activation.

Published

2019

8. Gait-Phase Modulates Alpha and Beta Oscillations in the Pedunculopontine Nucleus

Author

Huiling Tan, Tipu Z. Aziz, Sean Martin, Christoph Wiest, Yongzhi Huang, Alexander L. Green, Petra Fischer, Shenghong He, Alceste Deli, Saed Khawaldeh, and Peter Brown

Subjects

Male, Deep brain stimulation, Parkinson's disease, medicine.medical_treatment, Deep Brain Stimulation, Behavioral/Cognitive, multiple system atrophy, Alpha (ethology), Local field potential, freezing of gait, Midbrain, Gait (human), Pedunculopontine Tegmental Nucleus, Medicine, Humans, Force platform, Gait, Research Articles, Pedunculopontine nucleus, Aged, business.industry, General Neuroscience, gait phase-related modulation, pedunculopontine nucleus, Electroencephalography, Parkinson Disease, Middle Aged, medicine.disease, Pons, Alpha Rhythm, Female, business, Beta Rhythm, Neuroscience, human activities

Abstract

The pedunculopontine nucleus (PPN) is a reticular collection of neurons at the junction of the midbrain and pons, playing an important role in modulating posture and locomotion. Deep brain stimulation of the PPN has been proposed as an emerging treatment for patients with Parkinson's disease (PD) or multiple system atrophy (MSA) who have gait-related atypical parkinsonian syndromes. In this study, we investigated PPN activities during gait to better understand its functional role in locomotion. Specifically, we investigated whether PPN activity is rhythmically modulated by gait cycles during locomotion. PPN local field potential (LFP) activities were recorded from PD or MSA patients with gait difficulties during stepping in place or free walking. Simultaneous measurements from force plates or accelerometers were used to determine the phase within each gait cycle at each time point. Our results showed that activities in the alpha and beta frequency bands in the PPN LFPs were rhythmically modulated by the gait phase within gait cycles, with a higher modulation index when the stepping rhythm was more regular. Meanwhile, the PPN–cortical coherence was most prominent in the alpha band. Both gait phase-related modulation in the alpha/beta power and the PPN–cortical coherence in the alpha frequency band were spatially specific to the PPN and did not extend to surrounding regions. These results suggest that alternating PPN modulation may support gait control. Whether enhancing alternating PPN modulation by stimulating in an alternating fashion could positively affect gait control remains to be tested. SIGNIFICANCE STATEMENT The therapeutic efficacy of pedunculopontine nucleus (PPN) deep brain stimulation (DBS) and the extent to which it can improve quality of life are still inconclusive. Understanding how PPN activity is modulated by stepping or walking may offer insight into how to improve the efficacy of PPN DBS in ameliorating gait difficulties. Our study shows that PPN alpha and beta activity was modulated by the gait phase, and that this was most pronounced when the stepping rhythm was regular. It remains to be tested whether enhancing alternating PPN modulation by stimulating in an alternating fashion could positively affect gait control.

Published

2021

9. Differential responses to breath-holding, voluntary deep breathing and hypercapnia in left and right dorsal anterior cingulate

Author

Jonathan A. Hyam, Patrick Holton, Tipu Z. Aziz, Nor Faizal Ahmad Bahuri, Keith L. Dorrington, David J. Paterson, Shakeeb H. Moosavi, Sandra Boccard, Alexander L. Green, and Yongzhi Huang

Subjects

Physiology, Diaphragmatic breathing, 030204 cardiovascular system & hematology, behavioral disciplines and activities, Gyrus Cinguli, Breath Holding, Hypercapnia, 03 medical and health sciences, 0302 clinical medicine, Hypocapnia, Gyrus, Physiology (medical), medicine, Humans, Anterior cingulate cortex, Cerebral Cortex, Nutrition and Dietetics, business.industry, Respiration, General Medicine, medicine.disease, Magnetic Resonance Imaging, medicine.anatomical_structure, nervous system, Cerebral cortex, Breathing, Reflex, medicine.symptom, business, Neuroscience, psychological phenomena and processes, 030217 neurology & neurosurgery

Abstract

New Findings What is the central question of this study? This study investigated the role of dorsal ACC in respiration control using local field potential recordings in human ACC. What is the main finding and its importance? The results suggest that the neurophysiological responses in dorsal ACC to different breathing tasks varied and were different between left and right ACC. In addition, the differential lateralisation of the left and right ACC was demonstrated by tractography analysis. Abstract The role of subcortical structures and cerebral cortex in the maintenance of respiratory homeostasis in humans remains poorly understood. Emerging evidence suggest an important role of the anterior cingulate cortex (ACC) in respiratory control. In this study, local field potentials (LFPs) from dorsal ACC were recorded in humans through implanted deep brain electrodes during several breathing activities, including voluntary activities of breath holding and deep breathing, and involuntary activities of inspiration of varying concentrations of carbon dioxide (1%, 3%, 5% and 7%). We found that the breath holding task induced significant unilateral left‐sided ACC changes in LFP power, including an increased activity in lower frequency bands (3‐5 Hz) and decreased activity in higher frequency bands (12‐26 Hz). The respiratory task involving reflex increase in ventilation due to hypercapnia (raised inspired CO2) was associated with bilateral changes in activity of the ACC (again with increased activity in lower frequency bands and reduced activity in higher frequency bands). The voluntary breathing task with associated hypocapnia (deep breathing) induced bilateral changes in activity within low frequency bands. Furthermore, probabilistic diffusion tractography analysis showed left‐sided connection of the ACC with the insula and frontal operculum, and bilateral connections within subsections of the cingulate gyrus and the thalamus. This electrophysiological analysis provides direct evidence for a role of the ACC in respiratory control in humans.

Published

2021

10. Dosimetric Effects on skin of supine Immobilization Device in Intensity Modulated Radiation Therapy for breast cancer: a retrospective study

Author

Guangyi Yang, Ran Lv, Yanhong Wang, and Yongzhi Huang

Subjects

medicine.medical_specialty, Supine position, Breast cancer, business.industry, medicine, Retrospective cohort study, Radiology, Intensity-modulated radiation therapy, business, medicine.disease

Abstract

BackgroundBreast immobilization devices are commonly used in supine breast radiotherapy while the dose perturbation effect is often overlooked in Intensity Modulated Radiation Therapy for breast cancer (BC). This study is to assess the dosimetric effect of supine immobilization devices on skin with a commercial treatment planning system.Methods40 women with BC were divided into four groups according to the type of primary surgery, group A and B corresponding to patients with left and right BC after radical mastectomy, received a radiotherapy of 50 Gy in 25 fractions, group C and D corresponding to patients with left and right BC after breast-conservation surgery, received a prescription of 40.05 Gy in15 fractions and tumor bed simultaneous integrated boost to 45 Gy. A 0.2 cm thick skin contour and two sets of body contours were outlined for each patient. Dose calculations were conducted for the two sets of contours using the same plan, the dose difference was assessed by comparing the dose-volume histogram parameter results and by plan subtraction.ResultsThe supine immobilization devices for BC caused a significantly increase in the skin dose which may finally lead to skin toxicity. The mean dose increased by approximately 0.5 Gy and 0.45 Gy in left (group A) and right (group B) BC after radical mastectomy, 2.7 Gy and 3.25 Gy in left (group C) and right (group D) BC after BCS; corresponding to group A, B, C, D, the V10 of skin increased1.27%,1.83%, 1.36%, 2.88% ; the V20 of skin increased 0.85%, 1.87%, 2.76%, 4.86%; the V30 of skin increased 1.3%, 1.24%, 10.58%, 11.91%; the V40 of skin increased 1.29%, 0.65%, 10%, 10.51%. The dose encompassing of planning target volume, as well as the HI and CI, showed little distinction between plan- and plan+.ConclusionThe supine immobilization devices significantly increased the dose of skin, especially for patients with BCS. The immobilization devices should be included in the external contour to account for the dose attenuation and skin dose increment.Trial registrationThis is a retrospectively study and it has no intervention on human health care, so this study was not registered.

Published

2020

11. Dosimetric effects of supine immobilization devices on the skin in intensity-modulated radiation therapy for breast cancer: a retrospective study

Author

Ran Lv, Yongzhi Huang, Guangyi Yang, and Yanhong Wang

Subjects

Adult, Organs at Risk, Cancer Research, Intensity-modulated radiation therapy, Skin dose, Supine position, medicine.medical_treatment, Breast Neoplasms, Mastectomy, Segmental, lcsh:RC254-282, 030218 nuclear medicine & medical imaging, 03 medical and health sciences, Wearable Electronic Devices, 0302 clinical medicine, Breast cancer, Supine immobilization devices, Genetics, medicine, Humans, Lead (electronics), Radiation treatment planning, Radiometry, Radical mastectomy, Aged, Skin, business.industry, Radiotherapy Planning, Computer-Assisted, Retrospective cohort study, Radiotherapy Dosage, Middle Aged, medicine.disease, lcsh:Neoplasms. Tumors. Oncology. Including cancer and carcinogens, Combined Modality Therapy, Radiation therapy, Oncology, 030220 oncology & carcinogenesis, Female, Radiotherapy, Intensity-Modulated, Nuclear medicine, business, Tomography, X-Ray Computed, Research Article

Abstract

Background The dose perturbation effect of immobilization devices is often overlooked in intensity-modulated radiation therapy (IMRT) for breast cancer (BC). This retrospective study assessed the dosimetric effects of supine immobilization devices on the skin using a commercial treatment planning system. Methods Forty women with BC were divided into four groups according to the type of primary surgery: groups A and B included patients with left and right BC, respectively, who received 50 Gy radiotherapy in 25 fractions after radical mastectomy, while groups C and D included patients with left and right BC, respectively, who received breast-conservation surgery (BCS) and 40.05 Gy in 15 fractions as well as a tumor bed simultaneous integrated boost to 45 Gy. A 0.2-cm thick skin contour and two sets of body contours were outlined for each patient. Dose calculations were conducted for the two sets of contours using the same plan. The dose differences were assessed by comparing the dose-volume histogram parameter results and by plan subtraction. Results The supine immobilization devices for BC resulted in significantly increased skin doses, which may ultimately lead to skin toxicity. The mean dose increased by approximately 0.5 and 0.45 Gy in groups A and B after radical mastectomy and by 2.7 and 3.25 Gy in groups C and D after BCS; in groups A–D, the percentages of total normal skin volume receiving equal to or greater than 5 Gy (V5) increased by 0.54, 1.15, 2.67, and 1.94%, respectively, while the V10 increased by 1.27, 1.83, 1.36, and 2.88%; the V20 by 0.85, 1.87, 2.76, and 4.86%; the V30 by 1.3, 1.24, 10.58, and 11.91%; and the V40 by 1.29, 0.65, 10, and 10.51%. The dose encompassing the planning target volume and other organs at risk, showed little distinction between IMRT plans without and with consideration of immobilization devices. Conclusions The supine immobilization devices significantly increased the dose to the skin, especially for patients with BCS. Thus, immobilization devices should be included in the external contour to account for dose attenuation and skin dose increment. Trial registration This study does not report on interventions in human health care.

Published

2020

12. Dorsal Root Ganglion Stimulation Modulates Cortical Gamma Activity in the Cognitive Dimension of Chronic Pain

Author

Raghu Alb., James J. FitzGerald, Yongzhi Huang, Alexander L. Green, Tipu Z. Aziz, and Tariq Parker

Subjects

cognition, meg, Stimulation, behavioral disciplines and activities, Article, lcsh:RC321-571, Dorsal root ganglion, Medicine, pain, lcsh:Neurosciences. Biological psychiatry. Neuropsychiatry, health care economics and organizations, medicine.diagnostic_test, Resting state fMRI, business.industry, Working memory, General Neuroscience, Chronic pain, Cognition, Magnetoencephalography, medicine.disease, medicine.anatomical_structure, Anesthesia, dorsal root ganglion stimulation, gamma, business, Cognitive load

Abstract

A cognitive task, the n-back task, was used to interrogate the cognitive dimension of pain in patients with implanted dorsal root ganglion stimulators (DRGS). Magnetoencephalography (MEG) signals from thirteen patients with implanted DRGS were recorded at rest and while performing the n-back task at three increasing working memory loads with DRGS-OFF and the task repeated with DRGS-ON. MEG recordings were pre-processed, then power spectral analysis and source localization were conducted. DRGS resulted in a significant reduction in reported pain scores (mean 23%, p = 0.001) and gamma oscillatory activity (p = 0.036) during task performance. DRGS-induced pain relief also resulted in a significantly reduced reaction time during high working memory load (p = 0.011). A significant increase in average gamma power was observed during task performance compared to the resting state. However, patients who reported exacerbations of pain demonstrated a significantly elevated gamma power (F(3,80) = 65.011612, p &lt, 0.001, adjusted p-value = 0.01), compared to those who reported pain relief during the task. Our findings demonstrate that gamma oscillatory activity is differentially modulated by cognitive load in the presence of pain, and this activity is predominantly localized to the prefrontal and anterior cingulate cortices in a chronic pain cohort.

Published

2020

13. Dynamic changes in rhythmic and arrhythmic neural signatures in the subthalamic nucleus induced by anaesthesia and intubation

Author

Huiling Tan, Dianyou Li, Kejia Hu, Bomin Sun, James J. FitzGerald, Shouyan Wang, Tipu Z. Aziz, Shikun Zhan, Yongzhi Huang, Peng Huang, Martin J. Gillies, Xin Ma, Sean Martin, Alexander L. Green, and Yixin Pan

Subjects

business.industry, medicine.medical_treatment, Alpha (ethology), Local field potential, Arousal, Subthalamic nucleus, nervous system, Anesthesia, Basal ganglia, medicine, Intubation, General anaesthesia, business, Propofol, medicine.drug

Abstract

BackgroundSubcortical structures including the basal ganglia have been proposed to be crucial for arousal, consciousness, and behavioural responsiveness. However, how basal ganglia contributes to the loss and recovery of consciousness during anaesthesia has not been well characterized.MethodsIn this study, using local field potentials (LFPs) from subthalamic nucleus (STN) and scalp electroencephalogram in 12 Parkinson’s disease patients, we investigate STN neural signatures during propofol general anaesthesia and during intubation as an arousal intervention in anaesthesia.ResultsPropofol-induced anaesthesia resulted in changes in multiple frequency bands in STN LFPs, including increased low-frequency activities (slow-wave oscillation, delta, theta, and alpha bands) and decreased higher-frequency activities. This was also accompanied by increased STN-frontal cortical coherence in alpha frequency band. Beta and high-gamma activities in the STN temporally increased during intubation compared to the status of loss of consciousness. We also show that the dynamic changes in the high frequency activities (80-180 Hz) in STN LFPs induced by propofol and intubation correlated with power-law exponent in the power spectra between 2 and 80 Hz.ConclusionsOur findings suggest that anaesthesia and intubation induced changes in the STN LFPs in multiple frequency bands. They are also consistent with the hypothesis that the power-law exponent in the power spectra between 2 and 80 Hz reflect the excitation/inhibition balance in the STN, which is modulated by anaesthesia and intubation, and further modulate the high frequency activity.

Published

2019

14. Author response for 'Functional dynamics of thalamic local field potentials correlate with modulation of neuropathic pain'

Author

Tipu Z. Aziz, Shouyan Wang, Xinyi Geng, Xiao Xiao, Wenjing Dai, Huichun Luo, Yingnan Nie, Alexander L. Green, and Yongzhi Huang

Subjects

Modulation, business.industry, Functional dynamics, Neuropathic pain, Medicine, Local field potential, business, Neuroscience

Published

2019

15. Applying a Sensing-Enabled System for Ensuring Safe Anterior Cingulate Deep Brain Stimulation for Pain

Author

Tipu Z. Aziz, Alexander L. Green, Binith Cheeran, Timothy J. Denison, and Yongzhi Huang

Subjects

Deep brain stimulation, Brain activity and meditation, medicine.medical_treatment, Stimulation, Local field potential, Stimulus (physiology), Article, lcsh:RC321-571, 03 medical and health sciences, 0302 clinical medicine, Medicine, lcsh:Neurosciences. Biological psychiatry. Neuropsychiatry, Anterior cingulate cortex, 030304 developmental biology, seizures, 0303 health sciences, local field potential, business.industry, General Neuroscience, Chronic pain, after-discharge, medicine.disease, deep brain stimulation, anterior cingulate cortex, medicine.anatomical_structure, Brain stimulation, Anesthesia, business, chronic pain, 030217 neurology & neurosurgery

Abstract

Deep brain stimulation (DBS) of the anterior cingulate cortex (ACC) was offered to chronic pain patients who had exhausted medical and surgical options. However, several patients developed recurrent seizures. This work was conducted to assess the effect of ACC stimulation on the brain activity and to guide safe DBS programming. A sensing-enabled neurostimulator (Activa PC + S) allowing wireless recording through the stimulating electrodes was chronically implanted in three patients. Stimulation patterns with different amplitude levels and variable ramping rates were tested to investigate whether these patterns could provide pain relief without triggering after-discharges (ADs) within local field potentials (LFPs) recorded in the ACC. In the absence of ramping, AD activity was detected following stimulation at amplitude levels below those used in chronic therapy. Adjustment of stimulus cycling patterns, by slowly ramping on/off (8-s ramp duration), was able to prevent ADs at higher amplitude levels while maintaining effective pain relief. The absence of AD activity confirmed from the implant was correlated with the absence of clinical seizures. We propose that AD activity in the ACC could be a biomarker for the likelihood of seizures in these patients, and the application of sensing-enabled techniques has the potential to advance safer brain stimulation therapies, especially in novel targets.

Published

2019

16. Decoding voluntary movements and postural tremor based on thalamic LFPs for closed-loop stimulation for essential tremor

Author

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

Subjects

0303 health sciences, medicine.medical_specialty, Deep brain stimulation, Essential tremor, business.industry, medicine.medical_treatment, Thalamus, Continuous stimulation, Stimulation, Postural tremor, medicine.disease, Closed loop stimulation, nervous system diseases, 03 medical and health sciences, 0302 clinical medicine, Physical medicine and rehabilitation, On demand, medicine, business, 030217 neurology & neurosurgery, 030304 developmental biology

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 recorded LFPs from the motor thalamus, surface electromyographic (EMG) signals and/or behavioural measurements in seven ET patients during temporary lead externalization after the first surgery for DBS when they performed different voluntary upper limb movements and in nine more patients during the surgery, when they were asked to lift their arms to trigger postural tremor. We show that both voluntary movements and postural tremor can be decoded based on features extracted from thalamic LFPs using a machine learning based binary classifier. This information can be used to close the loop for DBS so that stimulation could be delivered on demand, without the need for peripheral sensors or additional invasive electrodes.

Published

2018

17. Dynamic synchronization state identification

Author

Alexander L. Green, Shouyan Wang, Tipu Z. Aziz, Xueying Du, Huichun Luo, and Yongzhi Huang

Subjects

Network packet, business.industry, 05 social sciences, Pattern recognition, Sensory system, Local field potential, Periaqueductal gray, 050105 experimental psychology, Wavelet packet decomposition, 03 medical and health sciences, 0302 clinical medicine, Wavelet, Control theory, Neural oscillation, Entropy (information theory), 0501 psychology and cognitive sciences, Artificial intelligence, Psychology, business, 030217 neurology & neurosurgery

Abstract

In the sensory thalamus and periventricular gray/periaqueductal gray (PVAG) nucleus, the synchronization level of multiple frequency band oscillations of local field potentials (LFPs) have been shown to be associated with chronic pain perception and modulation. In this study, a state identification approach was generated to dynamically identify the synchronization state of neural oscillation. In this approach, a pattern extraction model was created to characterize the patterning of the neural oscillations based on wavelet packet transform. The value of wavelet packet coefficients represents the synchronization level of pattern. And then a state discrimination model was designed to distinguish the synchronization state and de-synchronization state of pattern based on calculating a suitable threshold and discrimination strategies. By using the sensory thalamus and PVAG LFPs of neuropathic pain and simulation signals, the parameters of the approach were optimized for theta pattern (6–9Hz) and alpha pattern (9–12hz) identification respectively. Finally, the mean best performance of identifying the theta pattern states from 300s simulation signals achieved 91% sensitivity and 86% specificity, and achieved 80% sensitivity and 88% specificity for alpha pattern state identification. Then this approach was applied to the sensory thalamus and PVAG LFPs, and was able to identify the synchronization state of theta and alpha pattern. This study provides a reliable approach to dynamically identify the synchronization level of pattern of neuropathic pain disease through optimizing the parameters. Based on this approach, a real-time monitoring of the pain state and an adaptive treatment regimen can be achieved.

Published

2018

18. Direct neurophysiological evidence for a role of the human anterior cingulate cortex in central command

Author

Jonathan A. Hyam, Tipu Z. Aziz, Yongzhi Huang, Alexander L. Green, and Martin J. Gillies

Subjects

Adult, Male, Local field potential, behavioral disciplines and activities, Gyrus Cinguli, Article, Arousal, Membrane Potentials, 03 medical and health sciences, Cellular and Molecular Neuroscience, 0302 clinical medicine, Heart Rate, Heart rate, Motor system, Medicine, Premovement neuronal activity, Humans, Anterior cingulate cortex, Aged, Neurons, Endocrine and Autonomic Systems, business.industry, Middle Aged, Anticipation, Psychological, Anticipation, Electrophysiology, medicine.anatomical_structure, nervous system, Female, Neurology (clinical), business, Neuroscience, 030217 neurology & neurosurgery

Abstract

Introduction The role of the anterior cingulate cortex (ACC) is still controversial. The ACC has been implicated in such diverse functions as cognition, arousal and emotion in addition to motor and autonomic control. Therefore the ACC is the ideal candidate to orchestrate cardiovascular performance in anticipation of perceived skeletal activity. The aim of this experiment was to investigate whether the ACC forms part of the neural network of central command whereby cardiovascular performance is governed by a top-down mechanism. Methods & results Direct local field potential (LFP) recordings were made using intraparenchymal electrodes in six human ACC's to measure changes in neuronal activity during performance of a motor task in which anticipation of exercise was uncoupled from skeletal activity itself. Parallel cardiovascular arousal was indexed by electrocardiographic changes in heart rate. During anticipation of exercise, ACC LFP power within the 25–60 Hz frequency band increased significantly by 21% compared to rest (from 62.7 μV2/Hz (±SE 4.94) to 76.0μV2/Hz (±SE 7.24); p = 0.004). This 25–60 Hz activity increase correlated with a simultaneous heart rate increase during anticipation (Pearson's r = 0.417, p = 0.016). Conclusions/Significance We provide the first invasive electrophysiological evidence to support the role of the ACC in both motor preparation and the top-down control of cardiovascular function in exercise. This further implicates the ACC in the body's response to the outside world and its possible involvement in such extreme responses as emotional syncope and hyperventilation. In addition we describe the frequency at which the neuronal ACC populations perform these tasks in the human.

Published

2018

19. Oscillatory local field potentials of the nucleus accumbens and the anterior limb of the internal capsule in heroin addicts

Author

Xinyi Geng, Yongzhi Huang, Nan Li, Xinjing Zhang, Lei Chen, Shunnan Ge, Shouyan Wang, Yang Li, Yukun Chen, Xuelian Wang, and Guodong Gao

Subjects

Adult, Male, 0301 basic medicine, Deep brain stimulation, Internal capsule, genetic structures, Deep Brain Stimulation, medicine.medical_treatment, Action Potentials, Local field potential, Striatum, Nucleus accumbens, Electroencephalography, Nucleus Accumbens, 03 medical and health sciences, 0302 clinical medicine, Internal Capsule, Physiology (medical), mental disorders, medicine, Humans, medicine.diagnostic_test, Heroin Dependence, business.industry, Ventral striatum, Neuropsychological test, Middle Aged, Sensory Systems, 030104 developmental biology, medicine.anatomical_structure, Neurology, Female, Neurology (clinical), business, Neuroscience, 030217 neurology & neurosurgery

Abstract

Objectives The nucleus accumbens (NAc) is known to regulate the motivation and underlie addictive behaviors, and the anterior limb of the internal capsule (ALIC) is involved in several psychiatric disorders. Our study aimed to explore the functions of NAc and ALIC electrophysiologically. Methods The local field potentials (LFPs) of the NAc and ALIC were recorded from 7 heroin addicts treated with deep brain stimulation. Correlation analysis was made between LFP powers in various frequency bands and the subjects’ neuropsychological test scores; coherence was calculated for the LFPs in NAc and ALIC. Results Both the NAc and ALIC exhibited prominent theta and alpha frequency band activity in the LFP power spectra. Additionally, a distinct beta band peak was detected in the power spectra of ALIC LFPs, which may represent the activity of striatal bridge cells. There was a significant negative correlation between the power of the theta frequency band of ALIC LFPs and visual analogue scale (VAS) scores indicative of cravings (Spearman’s ρ = −0.758, P = 0.002), and a significant positive correlation was found between the power of the alpha frequency band of NAc LFPs and subjects’ scores on the Hamilton depression inventory (ρ = 0.727, P = 0.005). LFPs of the NAc and ALIC exhibited higher coherence values in the theta and alpha frequency bands. Conclusions The results suggest that theta power in the ALIC/dorsal striatum and alpha power in the NAc may be associated with drug cravings and depressive symptoms, respectively, in heroin addicts. For these subjects, the neural activities in the dorsal and ventral striatum were mainly coordinated within the low-frequency band. Significance The study illustrates the neurophysiologic characteristics of heroin addiction and its comorbidities, providing a potential theoretical basis for optimizing deep brain stimulation (DBS) therapy.

Published

2018

20. Spectral and phase-amplitude coupling signatures in human deep brain oscillations during propofol-induced anaesthesia

Author

Yongzhi Huang, Jonathan Hyam, Shouyan Wang, D Wu, Alexander L. Green, James J. FitzGerald, Bahuri Nfa., S. Yarrow, and Tipu Z. Aziz

Subjects

Adult, Male, Consciousness, Thalamus, Alpha (ethology), Sensory system, Local field potential, Unconsciousness, Gyrus Cinguli, 03 medical and health sciences, 0302 clinical medicine, 030202 anesthesiology, Neural Pathways, Medicine, Gamma Rhythm, Humans, Wakefulness, Evoked Potentials, Propofol, Anterior cingulate cortex, Cerebral Cortex, business.industry, Brain, Electroencephalography, Middle Aged, Electrophysiology, Alpha Rhythm, Anesthesiology and Pain Medicine, medicine.anatomical_structure, Cerebral cortex, Anesthesia, Intravenous, Female, medicine.symptom, business, Neuroscience, 030217 neurology & neurosurgery, Algorithms, Anesthetics, Intravenous

Abstract

Background Both the cerebral cortex and subcortical structures play important roles in consciousness. Some evidence points to general anaesthesia-induced unconsciousness being associated with distinct patterns of superficial cortical electrophysiological oscillations, but how general anaesthetics influence deep brain neural oscillations and interactions between oscillations in humans is poorly understood. Methods Local field potentials were recorded in discrete deep brain regions, including anterior cingulate cortex, sensory thalamus, and periaqueductal grey, in humans with implanted deep brain electrodes during induction of unconsciousness with propofol. Power-frequency spectra, phase-amplitude coupling, coherence, and directed functional connectivity analysis were used to characterise local field potentials in the awake and unconscious states. Results An increase in alpha (7–13 Hz) power and decrease in gamma (30–90 Hz) power were observed in both deep cortical (ACC, anterior cingulate cortex) and subcortical (sensory thalamus, periaqueductal grey) areas during propofol-induced unconsciousness. Robust alpha-low gamma (30–60 Hz) phase-amplitude coupling induced by general anaesthesia was observed in the anterior cingulate cortex but not in other regions studied. Moreover, alpha oscillations during unconsciousness were highly coherent within the anterior cingulate cortex, and this rhythm exhibited a bidirectional information flow between left and right anterior cingulate cortex but stronger left-to-right flow. Conclusion Propofol increases alpha oscillations and attenuates gamma oscillations in both cortical and subcortical areas. The alpha-gamma phase-amplitude coupling and the functional connectivity of alpha oscillations in the anterior cingulate cortex could be specific markers for loss of consciousness.

Published

2017

21. Ocular biometric characteristics of cataract patients in western China

Author

Qing Huang, Yongzhi Huang, Qu Luo, and Wei Fan

Subjects

0301 basic medicine, Male, genetic structures, Axial length, 0302 clinical medicine, lcsh:Ophthalmology, Myopia, Prevalence, Dioptre, Aged, 80 and over, education.field_of_study, High prevalence, Keratometric power, General Medicine, Middle Aged, Axial Length, Eye, Female, Partial coherence, Research Article, medicine.medical_specialty, China, Biometry, Anterior chamber depth, Anterior Chamber, Population, Cataract, Corneal astigmatism, 03 medical and health sciences, Age Distribution, Cataracts, Ophthalmology, medicine, Humans, Sex Distribution, education, Axial myopia, IOL master, Aged, Retrospective Studies, Analysis of Variance, business.industry, Astigmatism, medicine.disease, eye diseases, 030104 developmental biology, lcsh:RE1-994, 030221 ophthalmology & optometry, business

Abstract

Background We aimed to measure ocular biometric characteristics in older cataract patients from western China. Methods Ocular biometry records were retrospectively analyzed for 6933 patients with cataracts (6933 eyes) at least 50 years old who were treated at West China Hospital of Sichuan University. Results Partial coherence laser interferometry gave the following population averages: axial length (AL), 24.32 ± 2.42 mm; anterior chamber depth (ACD), 3.08 ± 0.47 mm; keratometric power (K), 44.23 ± 1.66 diopters; and corneal astigmatism (CA), 1.00 ± 0.92 diopters. The percentage of individuals with AL > 26.5 mm was 13.66%, while the percentage with CA > 1.0 diopters was 35.54%. Mean AL and ACD showed a trend of decrease with increasing age (P

Published

2017

22. Oscillatory neural representations in the thalamus predict neuropathic pain relief by deep brain stimulation

Author

Tipu Z. Aziz, Alexander L. Green, Yongzhi Huang, Jonathan Hyam, James J. FitzGerald, and Shouyan Wang

Subjects

Deep brain stimulation, business.industry, General Neuroscience, medicine.medical_treatment, Thalamus, Biophysics, lcsh:RC321-571, Anesthesia, Neuropathic pain, Medicine, Neurology (clinical), business, Neuroscience, lcsh:Neurosciences. Biological psychiatry. Neuropsychiatry

Published

2017

23. Dynamic neural state identification in deep brain local fields potentials by wavelet packet transform

Author

Xiaoming Du, Alexander L. Green, Shouyan Wang, H. Luo, A. Aziz, and Yongzhi Huang

Subjects

Computer science, business.industry, General Neuroscience, Biophysics, Pattern recognition, Wavelet packet decomposition, lcsh:RC321-571, Identification (information), Wavelet, Neurology (clinical), Artificial intelligence, State (computer science), business, lcsh:Neurosciences. Biological psychiatry. Neuropsychiatry

Published

2017

24. A general robot application platform for machine tending

Author

Du Li and Yongzhi Huang

Subjects

Engineering, Social robot, Workstation, business.industry, Control engineering, Mobile robot, Application software, computer.software_genre, Robot learning, law.invention, Robot control, Computer Science::Robotics, law, Applications architecture, Embedded system, Robot, business, computer

Abstract

A general robot application platform in machine tending area is presented in this paper. This new robot application platform is mainly about the common machine tending application architecture, which provides a general solution for easy robot programming and operation, for robot and machine integration and for the interaction between online and offline programming.

Published

2008