Your search keyword '"Bengt Linderoth"' showing total 215 results

1. Feasibility and therapeutical potential of local intracerebral encapsulated cell biodelivery of BDNF to App NL−G−F knock-in Alzheimer mice

Author

Simone Tambaro, Sumonto Mitra, Ruchi Gera, Bengt Linderoth, Lars U. Wahlberg, Taher Darreh-Shori, Homira Behbahani, Per Nilsson, and Maria Eriksdotter

Subjects

Encapsulated cell biodelivery (ECB), Brain-derived neurotrophic factor (BDNF), Alzheimer’s disease (AD), App NL−G−F knock-in mice, Therapy, Drug delivery, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571, Neurology. Diseases of the nervous system, RC346-429

Abstract

Abstract Background Alzheimer’s disease (AD) is an age-related disease characterized by altered cognition, neuroinflammation, and neurodegeneration against which there is presently no effective cure. Brain-derived neurotrophic factor (BDNF) is a key neurotrophin involved in the learning and memory process, with a crucial role in synaptic plasticity and neuronal survival. Several findings support that a reduced BDNF expression in the human brain is associated with AD pathogenesis. BDNF has been proposed as a potential therapy for AD, but BDNF has low brain penetration. In this study, we used an innovative encapsulated cell biodelivery (ECB) device, containing genetically modified cells capable of releasing BDNF and characterized its feasibility and therapeutic effects in the novel App knock-in AD mouse model (App NL−G−F ). Methods ECB’s containing human ARPE-19 cells genetically modified to release BDNF (ECB-BDNF devices) were stereotactically implanted bilaterally into hippocampus of 3-month-old App NL−G−F mice. The stability of BDNF release and its effect on AD pathology were evaluated after 1, 2-, and 4-months post-implantation by immunohistochemical and biochemical analyses. Exploratory and memory performance using elevated plus maze (EPM) and Y-maze test were performed in the 4-months treatment group. Immunological reaction towards ECB-BDNF devices were studied under ex vivo and in vivo settings. Results The surgery and the ECB-BDNF implants were well tolerated without any signs of unwanted side effects or weight loss. ECB-BDNF devices did not induce host-mediated immune response under ex vivo set-up but showed reduced immune cell attachment when explanted 4-months post-implantation. Elevated BDNF staining around ECB-BDNF device proximity was detected after 1, 2, and 4 months treatment, but the retrieved devices showed variable BDNF release. A reduction of amyloid-β (Aβ) plaque deposition was observed around ECB-BDNF device proximity after 2-months of BDNF delivery. Conclusions The result of this study supports the use of ECB device as a promising drug-delivery approach to locally administer BBB-impermeable factors for treating neurodegenerative conditions like AD. Optimization of the mouse-sized devices to reduce variability of BDNF release is needed to employ the ECB platform in future pre-clinical research and therapy development studies.

Published

2023

2. Fast Alpha Activity in EEG of Patients With Alzheimer’s Disease Is Paralleled by Changes in Cognition and Cholinergic Markers During Encapsulated Cell Biodelivery of Nerve Growth Factor

Author

Helga Eyjolfsdottir, Thomas Koenig, Azadeh Karami, Per Almqvist, Göran Lind, Bengt Linderoth, Lars Wahlberg, Åke Seiger, Taher Darreh-Shori, Maria Eriksdotter, and Vesna Jelic

Subjects

EEG, EEG alpha activity, Alzheimer’s disease, nerve growth factor, encapsulated cell biodelivery, choline acetyltransferase, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Abstract

BackgroundBasal forebrain cholinergic neurons are dependent on nerve growth factor (NGF) for growth and survival and these cells are among the first to degenerate in Alzheimer’s disease (AD). Targeted delivery of NGF has been suggested as a potential therapy for AD. This hypothesis was tested in a clinical trial with encapsulated cell biodelivery of NGF (NGF-ECB) in AD patients. Three of six patients showed improved biomarkers for cognition by the end of the study. Here, we report on the effects of targeted delivery of NGF on human resting EEG.Materials and methodsNGF-ECB implants were implanted bilaterally in the basal forebrain of six AD patients for 12 months. EEG recordings and quantitative analysis were performed at baseline, 3 and 12 months of NGF delivery, and analyzed for correlation with changes in Mini-mental state examination (MMSE) and levels of the cholinergic marker choline acetyltransferase (ChAT) in cerebrospinal fluid (CSF).ResultsWe found significant correlations between the topographic variance of EEG spectral power at the three study points (baseline, 3 and 12 months) and changes in MMSE and CSF ChAT. This possible effect of NGF was identified in a narrow window of alpha frequency 10–11.5 Hz, where a stabilization in MMSE score during treatment was related to an increase in EEG alpha power. A similar relation was observed between the alpha power and ChAT. More theta power at 6.5 Hz was on the contrary associated with a decrease in CSF ChAT during the trial period.ConclusionIn this exploratory study, there was a positive correlative pattern between physiological high-frequency alpha activity and stabilization in MMSE and increase in CSF ChAT in AD patients receiving targeted delivery of NGF to the cholinergic basal forebrain.

Published

2022

3. The cholinergic system in subtypes of Alzheimer’s disease: an in vivo longitudinal MRI study

Author

Alejandra Machado, Daniel Ferreira, Michel J. Grothe, Helga Eyjolfsdottir, Per M. Almqvist, Lena Cavallin, Göran Lind, Bengt Linderoth, Åke Seiger, Stefan Teipel, Lars U. Wahlberg, Lars-Olof Wahlund, Eric Westman, Maria Eriksdotter, and for the Alzheimer’s Disease Neuroimaging Initiative

Subjects

Basal forebrain, Alzheimer’s disease, Heterogeneity, Subtypes, Structural MRI, Nerve growth factor, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571, Neurology. Diseases of the nervous system, RC346-429

Abstract

Abstract Background The heterogeneity within Alzheimer’s disease (AD) seriously challenges the development of disease-modifying treatments. We investigated volume of the basal forebrain, hippocampus, and precuneus in atrophy subtypes of AD and explored the relevance of subtype stratification in a small clinical trial on encapsulated cell biodelivery (ECB) of nerve growth factor (NGF) to the basal forebrain. Methods Structural MRI data was collected for 90 amyloid-positive patients and 69 amyloid-negative healthy controls at baseline, 6-, 12-, and 24-month follow-up. The effect of the NGF treatment was investigated in 10 biopsy-verified AD patients with structural MRI data at baseline and at 6- or 12-month follow-up. Patients were classified as typical, limbic-predominant, hippocampal-sparing, or minimal atrophy AD, using a validated visual assessment method. Volumetric analyses were performed using a region-of-interest approach. Results All AD subtypes showed reduced basal forebrain volume as compared with the healthy controls. The limbic-predominant subtype showed the fastest basal forebrain atrophy rate, whereas the minimal atrophy subtype did not show any significant volume decline over time. Atrophy rates of the hippocampus and precuneus also differed across subtypes. Our preliminary data from the small NGF cohort suggest that the NGF treatment seemed to slow the rate of atrophy in the precuneus and hippocampus in some hippocampal-sparing AD patients and in one typical AD patient. Conclusions The cholinergic system is differentially affected in distinct atrophy subtypes of AD. Larger studies in the future should confirm that this differential involvement of the cholinergic system may contribute to subtype-specific response to cholinergic treatment. Our preliminary findings suggest that future clinical trials should target specific subtypes of AD, or at least report treatment effects stratified by subtype. Trial registration ClinicalTrials.gov identifier: NCT01163825 . Registered 14 July 2010.

Published

2020

4. Microglia Impairs Proliferation and Induces Senescence In-Vitro in NGF Releasing Cells Used in Encapsulated Cell Biodelivery for Alzheimer’s Disease Therapy

Author

Sumonto Mitra, Ruchi Gera, Julia Sundheimer, Marine Lemee, Lars U. Wahlberg, Bengt Linderoth, Maria Eriksdotter, and Homira Behbahani

Subjects

Alzheimer’s disease (AD), amyloid beta (Aβ), drug delivery, encapsulated cell biodelivery (ECB), inflammation, microglia, Biology (General), QH301-705.5, Chemistry, QD1-999

Abstract

There is no cure yet available for Alzheimer’s disease (AD). We recently optimized encapsulated cell biodelivery (ECB) devices releasing human mature nerve growth factor (hmNGF), termed ECB-NGF, to the basal forebrain of AD patients. The ECB-NGF delivery resulted in increased CSF cholinergic markers, improved glucose metabolism, and positive effects on cognition in AD patients. However, some ECB-NGF implants showed altered hmNGF release post-explantation. To optimize the ECB-NGF platform for future therapeutic purposes, we initiated in-vitro optimization studies by exposing ECB-NGF devices to physiological factors present within the AD brain. We report here that microglia cells can impair hmNGF release from ECB-NGF devices in-vitro, which can be reversed by transferring the devices to fresh culture medium. Further, we exposed the hmNGF secreting human ARPE-19 cell line (NGC0211) to microglia (HMC3) conditioned medium (MCM; untreated or treated with IL-1β/IFNγ/Aβ40/Aβ42), and evaluated biochemical stress markers (ROS, GSH, ΔΨm, and Alamar Blue assay), cell death indicators (Annexin-V/PI), cell proliferation (CFSE retention and Ki67) and senescence markers (SA-β-gal) in NGC0211 cells. MCMs from activated microglia reduced cell proliferation and induced cell senescence in NGC0211 cells, which otherwise resist biochemical alterations and cell death. These data indicate a critical but reversible impact of activated microglia on NGC0211 cells.

Published

2022

5. Amyloid-Beta Peptides and Activated Astroglia Impairs Proliferation of Nerve Growth Factor Releasing Cells In Vitro: Implication for Encapsulated Cell Biodelivery-Mediated AD Therapy

Author

Sumonto Mitra, Silvia Turchetto, Winant Van Os, Lars U. Wahlberg, Bengt Linderoth, Homira Behbahani, and Maria Eriksdotter

Subjects

Alzheimer’s disease (AD), astrocytes, amyloid beta (Aβ), encapsulated cell biodelivery (ECB), nerve growth factor (NGF), drug delivery strategy optimization, Cytology, QH573-671

Abstract

Alzheimer’s disease (AD) treatment is constrained due to the inability of peripherally administered therapeutic molecules to cross the blood–brain barrier. Encapsulated cell biodelivery (ECB) devices, a tissue-targeted approach for local drug release, was previously optimized for human mature nerve growth factor (hmNGF) delivery in AD patients but was found to have reduced hmNGF release over time. To understand the reason behind reduced ECB efficacy, we exposed hmNGF-releasing cells (NGC0211) in vitro to human cerebrospinal fluid (CSF) obtained from Subjective Cognitive Impairment (SCI), Lewy Body Dementia (LBD), and AD patients. Subsequently, we exposed NGC0211 cells directly to AD-related factors like amyloid-β peptides (Aβ40/42) or activated astrocyte-conditioned medium (Aβ40/42/IL-1β/TNFα-treated) and evaluated biochemical stress markers, cell death indicators, cell proliferation marker (Ki67), and hmNGF release. We found that all patients’ CSF significantly reduced hmNGF release from NGC0211 cells in vitro. Aβ40/42, inflammatory molecules, and activated astrocytes significantly affected NGC0211 cell proliferation without altering hmNGF release or other parameters important for essential functions of the NGC0211 cells. Long-term constant cell proliferation within the ECB device is critically important to maintain a steady cell population needed for stable mNGF release. These data show hampered proliferation of NGC0211 cells, which may lead to a decline of the NGC0211 cell population in ECBs, thereby reducing hmNGF release. Our study highlights the need for future studies to strengthen ECB-mediated long-term drug delivery approaches.

Published

2021

6. Spinal cord stimulation prevents paclitaxel-induced mechanical and cold hypersensitivity and modulates spinal gene expression in rats

Author

Eellan Sivanesan, Kimberly E. Stephens, Qian Huang, Zhiyong Chen, Neil C. Ford, Wanru Duan, Shao-Qui He, Xinyan Gao, Bengt Linderoth, Srinivasa N. Raja, and Yun Guan

Subjects

Anesthesiology, RD78.3-87.3

Abstract

Abstract. Introduction:. Paclitaxel-induced peripheral neuropathy (PIPN) is a common dose-limiting side effect of this cancer treatment drug. Spinal cord stimulation (SCS) has demonstrated efficacy for attenuating some neuropathic pain conditions. Objective:. We aim to examine the inhibitory effect of SCS on the development of PIPN pain and changes of gene expression in the spinal cord in male rats after SCS. Methods:. We examined whether traditional SCS (50 Hz, 6–8 h/session daily for 14 consecutive days) administered during paclitaxel treatment (1.5 mg/kg, i.p.) attenuates PIPN-related pain behavior. After SCS treatment, we performed RNA-seq of the lumbar spinal cord to examine which genes are differentially expressed after PIPN with and without SCS. Results:. Compared to rats treated with paclitaxel alone (n = 7) or sham SCS (n = 6), SCS treatment (n = 11) significantly inhibited the development of paclitaxel-induced mechanical and cold hypersensitivity, without altering open-field exploratory behavior. RNA-seq showed that SCS induced upregulation of 836 genes and downregulation of 230 genes in the spinal cord of paclitaxel-treated rats (n = 3) as compared to sham SCS (n = 5). Spinal cord stimulation upregulated immune responses in paclitaxel-treated rats, including transcription of astrocyte- and microglial-related genes, but repressed transcription of multiple gene networks associated with synapse transmission, neuron projection development, γ-aminobutyric acid reuptake, and neuronal plasticity. Conclusion:. Our findings suggest that traditional SCS may attenuate the development of pain-related behaviors in PIPN rats, possibly by causing aggregate inhibition of synaptic plasticity through upregulation and downregulation of gene networks in the spinal cord.

Published

2019

7. Effects of spinal cord stimulation on heart rate variability in patients with Failed Back Surgery Syndrome.

Author

Lisa Goudman, Raf Brouns, Bengt Linderoth, and Maarten Moens

Subjects

Medicine, Science

Abstract

BACKGROUND:Building on the recent finding that chronic pain patients with impaired functioning of the descending nociceptive inhibitory system (DNIS) present lower resting heart rate variability (HRV), this study aims to investigate the impact of Spinal Cord Stimulation (SCS) on HRV in patients with Failed Back Surgery Syndrome (FBSS). More precisely, we hypothesize that SCS influences the DNIS, with increased parasympathetic tone as a consequence, as measurable by HRV analysis. METHODS:Twenty-two patients diagnosed with FBSS and treated with SCS participated in this study. HRV was measured with a 2-lead ECG registration tool during on and off states of SCS. HRV analysis for time, frequency, time-frequency and nonlinear domain parameters was based on a 5-minute recording segment. RESULTS:The mean heart rate and low frequency power were significantly lower when SCS was activated. HRV, absolute and normalized high frequency power significantly increased during SCS compared to without SCS. The ratio of low frequency/high frequency ratios, as parameter for global sympathetic-parasympathetic equilibrium, significantly decreased when SCS was activated. CONCLUSIONS:When SCS is switched off, patients with FBSS present relatively stronger sympathetic tone and weaker parasympathetic activity. Activation of the SCS, possibly via stimulation of the DNIS, restores this disbalance of autonomic activity.

Published

2019

8. Spinal Cord Stimulation Increases Chemoefficacy and Prevents Paclitaxel-Induced Pain via CX3CL1

Author

Eellan Sivanesan, Karla R. Sanchez, Chi Zhang, Shao-Qiu He, Bengt Linderoth, Kimberly E. Stephens, Srinivasa N. Raja, and Yun Guan

Subjects

Anesthesiology and Pain Medicine, Neurology, Neurology (clinical), General Medicine

Published

2023

9. Acute effect of spinal cord stimulation on autonomic nervous system function in patients with heart failure

Author

Deborah A. Jaye, Petr Doškář, Filip Málek, Bengt Linderoth, Göran Lind, Jan Naar, Marcus Ståhlberg, and Petr Neužil

Subjects

medicine.medical_specialty, Baroreceptor, Health, Toxicology and Mutagenesis, Biomedical Engineering, Stimulation, Spinal cord stimulation, Autonomic Nervous System, General Biochemistry, Genetics and Molecular Biology, Heart Rate, Artificial Intelligence, Internal medicine, medicine, Humans, Heart rate variability, General Pharmacology, Toxicology and Pharmaceutics, Balance (ability), Heart Failure, Spinal Cord Stimulation, General Immunology and Microbiology, business.industry, General Neuroscience, General Medicine, Spinal cord, medicine.disease, Autonomic nervous system, medicine.anatomical_structure, Heart failure, Cardiology, General Agricultural and Biological Sciences, business, circulatory and respiratory physiology

Abstract

Aims: To test the hypothesis that spinal cord stimulation (SCS) acutely improves heart rate variability (HRV) and baroreceptor sensitivity (BRS) in patients with heart failure (HF). Methods: SCS (15 minutes) was delivered in four different settings: 90% of maximal tolerated stimulation amplitude (MTA) targeting the T1-T4 spinal cord segments (SCS90T1-4), 60% of MTA (SCS60T1-4), 90% of MTA with cranial (SCS90CR) and caudal (SCS90CA) electrode configuration. HRV and BRS were recorded continuously and stimulation was compared to device off. Results: Fifteen HF patients were included. SCS90T1-4 did not change the standard deviation of intervals between normal beats (SDNN, p = 0.90), BRS (p = 0.55) or other HRV parameters. In patients with baseline SDNN

Published

2021

10. Effects of Spinal Cord Stimulation on Heart Rate Variability in Patients With Failed Back Surgery Syndrome: Comparison Between a 2-lead ECG and a Wearable Device

Author

Maarten Moens, Bengt Linderoth, Lisa Goudman, Raf Brouns, Supporting clinical sciences, Neurosurgery, Pain in Motion, Neuroprotection & Neuromodulation, and Radiology

Subjects

medicine.medical_specialty, Intraclass correlation, Wearable computer, Electrocardiography, Wearable Electronic Devices, 03 medical and health sciences, 0302 clinical medicine, Heart Rate, Internal medicine, Humans, Medicine, Heart rate variability, Failed Back Surgery Syndrome, Lead (electronics), Wearable technology, Spinal Cord Stimulation, business.industry, Heart rate monitor, Chronic pain, Reproducibility of Results, General Medicine, medicine.disease, Autonomic nervous system, Anesthesiology and Pain Medicine, Neurology, Cardiology, Neurology (clinical), business, 030217 neurology & neurosurgery

Abstract

Objectives Heart rate variability recordings have the potential to examine the role of the autonomic nervous system. Several wearable devices are nowadays readily available. Up until now, no studies explored whether a wearable device is able to reliably measure a treatment response in chronic pain patients. Therefore, the aim of this study is to evaluate the reliability of a Polar V800 (Polar Electro Oy, Finland) wearable device to accurately measure RR intervals in patients with failed back surgery syndrome (FBSS) during spinal cord stimulation (SCS), as compared with an eMotion 2-lead ECG recording. Materials and methods Twenty-two patients diagnosed with FBSS and treated with SCS participated in this study. HRV was measured with a 2-lead ECG registration tool and a Polar V800 during on and off state of SCS. Intraclass correlation coefficients, correlations, limits of agreement, Cronbach's α, and effect sizes were calculated. Results Analysis based on the recordings from the ECG and wearable device revealed the same HRV parameters (except for the time-frequency domain) to capture the treatment response of SCS. Parameters that are relevant for measuring the SCS treatment response have strong correlations (r ≥ .82), good ICC values (ICC ≥0.82), acceptable consistency (α ≥ .9), and limited bias. Conclusions Similar pre- to posttreatment changes were revealed between a wearable device and 2-lead ECG with reliable HRV estimates for parameters that are able to capture the treatment changes. This suggests that a wearable heart rate monitor might be a reliable wearable tool for the detection of pre- to post treatment changes of SCS, in patients with FBSS.

Published

2021

11. O003 / #714 COGNITIVE RESTORATION IN ALZHEIMER’S PATIENTS BY LOCAL INTRACEREBRAL CELL-MEDIATED NERVE GROWTH FACTOR DELIVERY: CLINICAL EFFICACY AND FURTHER METHOD OPTIMIZATION

Author

Bengt Linderoth, Sumonto Mitra, Per Almqvist, Göran Lind, Helga Eyjolfsdottir, Homira Behbahani, Taher Darreh-Shori, Gera Ruchi, Erik Westman, Åke Seiger, Lars Wahlberg, and Maria Eriksdotter

Subjects

Anesthesiology and Pain Medicine, Neurology, Neurology (clinical), General Medicine

Published

2022

12. Effects of spinal cord stimulation on voxel-based brain morphometry in patients with failed back surgery syndrome

Author

Peter Van Schuerbeek, Mats De Jaeger, Jose De Andres, Bengt Linderoth, Ronald Peeters, Lisa Goudman, Maarten Moens, Stefan Sunaert, Sander De Groote, Philippe Rigoard, Faculty of Medicine and Pharmacy, Neurosurgery, Pain in Motion, Artificial Intelligence supported Modelling in clinical Sciences, Supporting clinical sciences, Medical Imaging, Radiology, and Neuroprotection & Neuromodulation

Subjects

Male, Neuroscience(all), Middle temporal gyrus, Precuneus, effectiveness, Inferior frontal gyrus, 050105 experimental psychology, surgery, 03 medical and health sciences, 0302 clinical medicine, Inferior temporal gyrus, Physiology (medical), medicine, Humans, Middle frontal gyrus, study, 0501 psychology and cognitive sciences, Prospective Studies, Spinal Cord Stimulation, Neuronal Plasticity, High-dose spinal cord stimulation, integumentary system, business.industry, 05 social sciences, Brain morphometry, Brain, Precentral gyrus, Anatomy, Voxel-based morphometry, Middle Aged, Magnetic Resonance Imaging, Sensory Systems, Treatment Outcome, medicine.anatomical_structure, nervous system, Neurology, Female, failed back surgery syndrome, Neurology (clinical), Prediction, business, tissues, 030217 neurology & neurosurgery

Abstract

Objective Despite the clinical effectiveness of Spinal Cord Stimulation (SCS), potential structural brain modifications have not been explored. Our aim was to identify structural volumetric changes during subsensory SCS, in patients with Failed Back Surgery Syndrome (FBSS). Methods In this cohort study, twenty-two FBSS patients underwent a magnetic resonance imaging protocol before SCS and 3 months after SCS. Clinical parameters were correlated with volumetric changes, calculated with voxel-based morphometry. Results After 3 months, a significant volume decrease was found in the inferior frontal gyrus, precuneus, cerebellar posterior lobe and middle temporal gyrus. Significant increases were found in the inferior temporal gyrus, precentral gyrus and the middle frontal gyrus after SCS. Additionally, significant increases in volume of superior frontal and parietal white matter and a significant decrease in volume of white matter underlying the premotor/middle frontal gyrus were revealed after SCS. A significant correlation was highlighted between white matter volume underlying premotor/middle frontal gyrus and leg pain relief. Conclusions This study revealed for the first time that SCS is able to induce volumetric changes in gray and white matter, suggesting the reversibility of brain alterations after chronic pain treatment. Significance Volumetric brain alterations are observable after 3 months of subsensory SCS in FBSS patients.

Published

2020

13. The cholinergic system in subtypes of Alzheimer’s disease: an in vivo longitudinal MRI study

Author

Lars Wahlberg, Göran Lind, Michel J. Grothe, Maria Eriksdotter, Per Almqvist, Alejandra Machado, Helga Eyjolfsdottir, Bengt Linderoth, Daniel Ferreira, Eric Westman, Lena Cavallin, Lars-Olof Wahlund, Åke Seiger, and Stefan J. Teipel

Subjects

0301 basic medicine, medicine.medical_specialty, Pathology, Neurology, Cognitive Neuroscience, Cholinergic Agents, Precuneus, Hippocampus, lcsh:RC346-429, lcsh:RC321-571, Basal forebrain, pathology [Alzheimer Disease], 03 medical and health sciences, 0302 clinical medicine, Atrophy, Nerve growth factor, Alzheimer Disease, medicine, drug therapy [Alzheimer Disease], Humans, ddc:610, lcsh:Neurosciences. Biological psychiatry. Neuropsychiatry, lcsh:Neurology. Diseases of the nervous system, diagnostic imaging [Hippocampus], Subtypes, pathology [Atrophy], business.industry, Research, medicine.disease, Magnetic Resonance Imaging, Clinical trial, Structural MRI, pathology [Hippocampus], 030104 developmental biology, medicine.anatomical_structure, nervous system, Cholinergic, Neurology (clinical), Heterogeneity, business, diagnostic imaging [Alzheimer Disease], Alzheimer’s disease, 030217 neurology & neurosurgery, Alzheimer's Disease Neuroimaging Initiative

Abstract

Background The heterogeneity within Alzheimer’s disease (AD) seriously challenges the development of disease-modifying treatments. We investigated volume of the basal forebrain, hippocampus, and precuneus in atrophy subtypes of AD and explored the relevance of subtype stratification in a small clinical trial on encapsulated cell biodelivery (ECB) of nerve growth factor (NGF) to the basal forebrain. Methods Structural MRI data was collected for 90 amyloid-positive patients and 69 amyloid-negative healthy controls at baseline, 6-, 12-, and 24-month follow-up. The effect of the NGF treatment was investigated in 10 biopsy-verified AD patients with structural MRI data at baseline and at 6- or 12-month follow-up. Patients were classified as typical, limbic-predominant, hippocampal-sparing, or minimal atrophy AD, using a validated visual assessment method. Volumetric analyses were performed using a region-of-interest approach. Results All AD subtypes showed reduced basal forebrain volume as compared with the healthy controls. The limbic-predominant subtype showed the fastest basal forebrain atrophy rate, whereas the minimal atrophy subtype did not show any significant volume decline over time. Atrophy rates of the hippocampus and precuneus also differed across subtypes. Our preliminary data from the small NGF cohort suggest that the NGF treatment seemed to slow the rate of atrophy in the precuneus and hippocampus in some hippocampal-sparing AD patients and in one typical AD patient. Conclusions The cholinergic system is differentially affected in distinct atrophy subtypes of AD. Larger studies in the future should confirm that this differential involvement of the cholinergic system may contribute to subtype-specific response to cholinergic treatment. Our preliminary findings suggest that future clinical trials should target specific subtypes of AD, or at least report treatment effects stratified by subtype. Trial registration ClinicalTrials.gov identifier: NCT01163825. Registered 14 July 2010.

Published

2020

14. Mechanism of dorsal root ganglion stimulation for pain relief in painful diabetic polyneuropathy is not dependent on GABA release in the dorsal horn of the spinal cord

Author

Lonne Heijmans, Elbert A.J. Joosten, Sander M. J. van Kuijk, Paolo Maino, Glenn Franken, Bengt Linderoth, Jacques Debets, Eva Koetsier, Anesthesiologie, RS: MHeNs - R3 - Neuroscience, Farmacologie en Toxicologie, MUMC+: KIO Kemta (9), Epidemiologie, RS: CAPHRI - R2 - Creating Value-Based Health Care, MUMC+: MA Anesthesiologie (9), and RS: Carim - B07 The vulnerable plaque: makers and markers

Subjects

0301 basic medicine, TACTILE ALLODYNIA, Stimulation, Rats, Sprague-Dawley, 0302 clinical medicine, Dorsal root ganglion, Diabetic Neuropathies, Diabetic polyneuropathy, Ganglia, Spinal, Medicine, Pharmacology (medical), PDPN, health care economics and organizations, Pain Measurement, NEUROPATHIC PAIN, Electrodes, Implanted, PREVALENCE, Psychiatry and Mental health, medicine.anatomical_structure, Nociception, Hyperalgesia, Anesthesia, dorsal root ganglion stimulation, INTRATHECAL BACLOFEN, Immunohistochemistry, Original Article, Female, Spinal Cord Dorsal Horn, PERIPHERAL-NERVE INJURY, Pain, Electric Stimulation Therapy, gamma-aminobutyric acid, 03 medical and health sciences, TOUCH-EVOKED ALLODYNIA, Physiology (medical), Animals, Pain Management, FIELD STIMULATION, INDUCED ANALGESIA, GAMMA-AMINOBUTYRIC-ACID, Pharmacology, dorsal horn, business.industry, Horn (anatomy), animal model, spinal cord, Original Articles, Spinal cord, painful diabetic polyneuropathy, rats, GABAERGIC INHIBITION, 030104 developmental biology, nervous system, γ‐aminobutyric acid, business, 030217 neurology & neurosurgery

Abstract

Aims It is hypothesized that dorsal root ganglion stimulation (DRGS), sharing some of the mechanisms of traditional spinal cord stimulation (SCS) of the dorsal columns, induces gamma-aminobutyric acid (GABA) release from interneurons in the spinal dorsal horn. Methods We used quantitative immunohistochemical analysis in order to investigate the effect of DRGS on intensity of intracellular GABA-staining levels in the L4-L6 spinal dorsal horn of painful diabetic polyneuropathy (PDPN) animals. To establish the maximal pain relieving effect, we tested for mechanical hypersensitivity to von Frey filaments and animals received 30 minutes of DRGS at day 3 after implantation of the electrode. One day later, 4 Sham-DRGS animals and four responders-to-DRGS received again 30 minutes of DRGS and were perfused at the peak of DRGS-induced pain relief. Results No significant difference in GABA-immunoreactivity was observed between DRGS and Sham-DRGS in lamina 1-3 of the spinal levels L4-6 neither ipsilaterally nor contralaterally. Conclusions Dorsal root ganglion stimulation does not induce GABA release from the spinal dorsal horn cells, suggesting that the mechanisms underlying DRGS in pain relief are different from those of conventional SCS. The modulation of a GABA-mediated "Gate Control" in the DRG itself, functioning as a prime Gate of nociception, is suggested and discussed.

Published

2020

15. Cortical Mapping in Conventional and High Dose Spinal Cord Stimulation: An Exploratory Power Spectrum and Functional Connectivity Analysis With Electroencephalography

Author

Guy Nagels, Lisa Goudman, Eva Huysmans, Maarten Moens, Bengt Linderoth, Pain in Motion, Faculty of Physical Education and Physical Therapy, Supporting clinical sciences, Clinical sciences, Neuroprotection & Neuromodulation, Neurology, Physical Medicine and Rehabilitation, Faculty of Medicine and Pharmacy, Physiotherapy, Human Physiology and Anatomy, Interuniversity Centre For Health Economics Research, Radiology, and Neurosurgery

Subjects

Male, medicine.medical_specialty, Frequency band, High Dose SCS, Spinal cord stimulation, Electroencephalography, 03 medical and health sciences, 0302 clinical medicine, Internal medicine, Humans, Medicine, In patient, Failed Back Surgery Syndrome, Aged, Pain Measurement, Medicine(all), Cerebral Cortex, Brain Mapping, Spinal Cord Stimulation, integumentary system, medicine.diagnostic_test, business.industry, Functional connectivity, Spectral density, General Medicine, Middle Aged, Anesthesiology and Pain Medicine, medicine.anatomical_structure, nervous system, Neurology, Scalp, Cardiology, Female, Neurology (clinical), Nerve Net, business, supraspinal mechanisms, tissues, 030217 neurology & neurosurgery, Failed back surgery

Abstract

OBJECTIVES: Spinal cord stimulation (SCS) is considered an effective pain-relieving treatment for patients with Failed Back Surgery Syndrome (FBSS). Despite the clinical effectiveness, it is unknown whether the altered functional connectivity in such patients, as compared to healthy persons, can be influenced by SCS. Therefore, the goal of this study is to evaluate whether brain connectivity assessed by EEG differs between baseline and SCS in patients with FBSS. MATERIALS AND METHODS: Eight patients with FBSS underwent a resting-state EEG protocol before SCS, 1.5 months and 2.5 months after receiving SCS. At each frequency band, power spectrums were compared for no SCS, conventional (CON) SCS and High Dose (HD) SCS. Functional connectivity, with the aid of eConnectome was also calculated. RESULTS: Significant differences in the average power density spectrum over the whole scalp were observed between no SCS, CON SCS and HD SCS in delta, theta and beta frequency bands (p < 0.01). The average power spectrum for CON SCS was significantly lower than the average power spectrum for HD SCS. Marked increases in strength of the information flow between electrode pair FC3-TP9 in the beta frequency band (p = 0.006) were found in favor of HD SCS. CONCLUSIONS: The differences in power spectrum and connectivity between the three conditions lead to the hypothesis that HD SCS differs from CON SCS on average power spectrum, suggesting that HD SCS may have a higher contribution on the excitatory bottom-up pathway.

Published

2020

16. Modulation of Spinal Nociceptive Transmission by Sub-Sensory Threshold Spinal Cord Stimulation in Rats After Nerve Injury

Author

Sridevi V. Sarma, Louis P. Vera-Portocarrero, Fei Yang, Neil C. Ford, Xinyan Gao, Bengt Linderoth, Qian Huang, Yun Guan, Zhiyong Chen, Wanru Duan, Eellan Sivanesan, and Srinivasa N. Raja

Subjects

Male, Nociception, Pain Threshold, genetic structures, Stimulation, Local field potential, Synaptic Transmission, Thoracic Vertebrae, Rats, Sprague-Dawley, 03 medical and health sciences, 0302 clinical medicine, Sensory threshold, Animals, Medicine, Spinal Cord Stimulation, Lumbar Vertebrae, integumentary system, business.industry, musculoskeletal, neural, and ocular physiology, General Medicine, Nerve injury, Spinal cord, Rats, Electrophysiology, Spinal Nerves, Anesthesiology and Pain Medicine, medicine.anatomical_structure, nervous system, Neurology, Anesthesia, Neurology (clinical), Sciatic nerve, medicine.symptom, business, tissues, 030217 neurology & neurosurgery

Abstract

Objectives High-frequency spinal cord stimulation (SCS) administered below the sensory threshold (subparesthetic) can inhibit pain, but the mechanisms remain obscure. We examined how different SCS paradigms applied at intensities below the threshold of Aβ-fiber activation (sub-sensory threshold) affect spinal nociceptive transmission in rats after an L5 spinal nerve ligation (SNL). Materials and methods Electrophysiology was used to record local field potential (LFP) at L4 spinal cord before, during, and 0-60 min after SCS in SNL rats. LFP was evoked by high-intensity paired-pulse test stimulation (5 mA, 0.2 msec, 400 msec interval) at the sciatic nerve. Epidural SCS was delivered through a miniature electrode placed at T13-L1 and L2-L3 spinal levels. Four patterns of SCS (200 Hz, 1 msec; 500 Hz, 0.5 msec; 1200 Hz; 0.2 msec; 10,000 Hz, 0.024 msec, 30 min, bipolar) were tested at 90% Aβ-threshold as a subthreshold intensity. As a positive control, traditional SCS (50 Hz, 0.2 msec) was tested at 100% Aβ-plateau as a suprathreshold intensity. Results Traditional suprathreshold SCS at T13-L1 level significantly reduced LFP to C-fiber inputs (C-LFP). Subthreshold SCS of 200 and 500 Hz, but not 1200 or 10,000 Hz, also reduced C-LFP, albeit to a lesser extent than did traditional SCS (n = 7-10/group). When SCS was applied at the L2-L3 level, only traditional SCS and subthreshold SCS of 200 Hz inhibited C-LFP (n = 8-10/group). Conclusions Traditional suprathreshold SCS acutely inhibits spinal nociceptive transmission. Low-frequency subthreshold SCS with a long pulse width (200 Hz, 1 msec), but not higher-frequency SCS, also attenuates C-LFP.

Published

2020

17. Considerations for drug delivery utilizing encapsulated cells: Factors for optimal cell behavior

Author

Sumonto Mitra, Lars Wahlberg, Bengt Linderoth, Homira Behbahani, and Maria Eriksdotter

Subjects

Psychiatry and Mental health, Cellular and Molecular Neuroscience, Developmental Neuroscience, Epidemiology, Health Policy, Neurology (clinical), Geriatrics and Gerontology

Published

2021

18. Amyloid-beta peptides and activated astroglia impairs proliferation of nerve growth factor releasing cells in vitro

Author

Sumonto, Mitra, Silvia, Turchetto, Winant, Van Os, Lars U, Wahlberg, Bengt, Linderoth, Homira, Behbahani, and Maria, Eriksdotter

Subjects

Lewy Body Disease, Amyloid beta-Peptides, QH301-705.5, astrocytes, Alzheimer’s disease (AD), encapsulated cell biodelivery (ECB), drug delivery strategy optimization, Cells, Immobilized, Article, nerve growth factor (NGF), Cell Line, Alzheimer Disease, Stress, Physiological, inflammation, Culture Media, Conditioned, amyloid beta (Aβ), Nerve Growth Factor, Humans, Cognitive Dysfunction, Biology (General), Peptides, Cell Proliferation

Abstract

Alzheimer’s disease (AD) treatment is constrained due to the inability of peripherally administered therapeutic molecules to cross the blood–brain barrier. Encapsulated cell biodelivery (ECB) devices, a tissue-targeted approach for local drug release, was previously optimized for human mature nerve growth factor (hmNGF) delivery in AD patients but was found to have reduced hmNGF release over time. To understand the reason behind reduced ECB efficacy, we exposed hmNGF-releasing cells (NGC0211) in vitro to human cerebrospinal fluid (CSF) obtained from Subjective Cognitive Impairment (SCI), Lewy Body Dementia (LBD), and AD patients. Subsequently, we exposed NGC0211 cells directly to AD-related factors like amyloid-β peptides (Aβ40/42) or activated astrocyte-conditioned medium (Aβ40/42/IL-1β/TNFα-treated) and evaluated biochemical stress markers, cell death indicators, cell proliferation marker (Ki67), and hmNGF release. We found that all patients’ CSF significantly reduced hmNGF release from NGC0211 cells in vitro. Aβ40/42, inflammatory molecules, and activated astrocytes significantly affected NGC0211 cell proliferation without altering hmNGF release or other parameters important for essential functions of the NGC0211 cells. Long-term constant cell proliferation within the ECB device is critically important to maintain a steady cell population needed for stable mNGF release. These data show hampered proliferation of NGC0211 cells, which may lead to a decline of the NGC0211 cell population in ECBs, thereby reducing hmNGF release. Our study highlights the need for future studies to strengthen ECB-mediated long-term drug delivery approaches.

Published

2021

19. A Review of Techniques for Biodelivery of Nerve Growth Factor (NGF) to the Brain in Relation to Alzheimer's Disease

Author

Sumonto, Mitra, Ruchi, Gera, Bengt, Linderoth, Göran, Lind, Lars, Wahlberg, Per, Almqvist, Homira, Behbahani, and Maria, Eriksdotter

Subjects

Neurons, Basal Forebrain, Alzheimer Disease, Nerve Growth Factor, Humans

Abstract

Age-dependent progressive neurodegeneration and associated cognitive dysfunction represent a serious concern worldwide. Currently, dementia accounts for the fifth highest cause of death, among which Alzheimer's disease (AD) represents more than 60% of the cases. AD is associated with progressive cognitive dysfunction which affects daily life of the affected individual and associated family. The cognitive dysfunctions are at least partially due to the degeneration of a specific set of neurons (cholinergic neurons) whose cell bodies are situated in the basal forebrain region (basal forebrain cholinergic neurons, BFCNs) but innervate wide areas of the brain. It has been explicitly shown that the delivery of the neurotrophic protein nerve growth factor (NGF) can rescue BFCNs and restore cognitive dysfunction, making NGF interesting as a potential therapeutic substance for AD. Unfortunately, NGF cannot pass through the blood-brain barrier (BBB) and thus peripheral administration of NGF protein is not viable therapeutically. NGF must be delivered in a way which will allow its brain penetration and availability to the BFCNs to modulate BFCN activity and viability. Over the past few decades, various methodologies have been developed to deliver NGF to the brain tissue. In this chapter, NGF delivery methods are discussed in the context of AD.

Published

2021

20. Fast Alpha Activity in EEG of Patients With Alzheimer's Disease Is Paralleled by Changes in Cognition and Cholinergic Markers During Encapsulated Cell Biodelivery of Nerve Growth Factor

Author

Helga, Eyjolfsdottir, Thomas, Koenig, Azadeh, Karami, Per, Almqvist, Göran, Lind, Bengt, Linderoth, Lars, Wahlberg, Åke, Seiger, Taher, Darreh-Shori, Maria, Eriksdotter, and Vesna, Jelic

Abstract

Basal forebrain cholinergic neurons are dependent on nerve growth factor (NGF) for growth and survival and these cells are among the first to degenerate in Alzheimer's disease (AD). Targeted delivery of NGF has been suggested as a potential therapy for AD. This hypothesis was tested in a clinical trial with encapsulated cell biodelivery of NGF (NGF-ECB) in AD patients. Three of six patients showed improved biomarkers for cognition by the end of the study. Here, we report on the effects of targeted delivery of NGF on human resting EEG.NGF-ECB implants were implanted bilaterally in the basal forebrain of six AD patients for 12 months. EEG recordings and quantitative analysis were performed at baseline, 3 and 12 months of NGF delivery, and analyzed for correlation with changes in Mini-mental state examination (MMSE) and levels of the cholinergic marker choline acetyltransferase (ChAT) in cerebrospinal fluid (CSF).We found significant correlations between the topographic variance of EEG spectral power at the three study points (baseline, 3 and 12 months) and changes in MMSE and CSF ChAT. This possible effect of NGF was identified in a narrow window of alpha frequency 10-11.5 Hz, where a stabilization in MMSE score during treatment was related to an increase in EEG alpha power. A similar relation was observed between the alpha power and ChAT. More theta power at 6.5 Hz was on the contrary associated with a decrease in CSF ChAT during the trial period.In this exploratory study, there was a positive correlative pattern between physiological high-frequency alpha activity and stabilization in MMSE and increase in CSF ChAT in AD patients receiving targeted delivery of NGF to the cholinergic basal forebrain.

Published

2021

21. Supraspinal Mechanisms of Spinal Cord Stimulation for Modulation of Pain

Author

Eellan Sivanesan, Bengt Linderoth, Yun Guan, Dermot P. Maher, and Srinivasa N. Raja

Subjects

Dystonia, business.industry, medicine.medical_treatment, Multiple sclerosis, Chronic pain, Cognition, Stimulation, Disease, medicine.disease, Spinal cord, 03 medical and health sciences, 0302 clinical medicine, Anesthesiology and Pain Medicine, medicine.anatomical_structure, 030202 anesthesiology, medicine, business, Neurostimulation, Neuroscience, 030217 neurology & neurosurgery

Abstract

The field of spinal cord stimulation is expanding rapidly, with new waveform paradigms asserting supraspinal sites of action. The scope of treatment applications is also broadening from chronic pain to include cerebral ischemia, dystonia, tremor, multiple sclerosis, Parkinson disease, neuropsychiatric disorders, memory, addiction, cognitive function, and other neurologic diseases. The role of neurostimulation as an alternative strategy to opioids for chronic pain treatment is under robust discussion in both scientific and public forums. An understanding of the supraspinal mechanisms underlying the beneficial effects of spinal cord stimulation will aid in the appropriate application and development of optimal stimulation strategies for modulating pain signaling pathways. In this review, the authors focus on clinical and preclinical studies that indicate the role of supraspinal mechanisms in spinal cord stimulation–induced pain inhibition, and explore directions for future investigations.

Published

2019

22. Dependence of c-fos Expression on Amplitude of High-Frequency Spinal Cord Stimulation in a Rodent Model

Author

Kennon M. Garrett, Robert D. Foreman, Jiande D. Z. Chen, Michael A. Moffitt, Bengt Linderoth, Tianhe Zhang, Jianwen Wendy Gu, Shiying Li, Feng Ye, and Jay P. Farber

Subjects

Male, Action Potentials, Stimulation, Spinal cord stimulation, c-Fos, Biophysical Phenomena, Rats, Sprague-Dawley, 03 medical and health sciences, 0302 clinical medicine, medicine, Animals, Spinal Cord Stimulation, biology, business.industry, General Medicine, Spinal cord, Sciatic Nerve, Low back pain, Rats, Compound muscle action potential, Posterior Horn Cells, Anesthesiology and Pain Medicine, Amplitude, medicine.anatomical_structure, Neurology, Sensory Thresholds, Models, Animal, biology.protein, Neurology (clinical), Sciatic nerve, medicine.symptom, business, Proto-Oncogene Proteins c-fos, 030217 neurology & neurosurgery, Biomedical engineering

Abstract

OBJECTIVES Clinical high-frequency spinal cord stimulation (hfSCS) (>250 Hz) applied at subperception amplitudes reduces leg and low back pain. This study investigates, via labeling for c-fos-a marker of neural activation, whether 500 Hz hfSCS applied at amplitudes above and below the dorsal column (DC) compound action potential (CAP) threshold excites dorsal horn neurons. MATERIALS AND METHODS DC CAP thresholds in rats were determined by applying single biphasic pulses of SCS to T12 -T13 segments using pulse widths of 40 or 200 μsec via a ball electrode placed over the left DC and increasing amplitude until a short latency CAP was observed on the L5 DC and sciatic nerve. The result of this comparison allowed us to substitute sciatic nerve CAP for DC CAP. SCS at T12 -T13 was applied continuously for two hours using: sham or hfSCS at 500 Hz SCS, 40 μsec pulse width, and 50, 70, 90, or 140% CAP threshold. Spinal cord slices from T11 -L1 were immunolabeled for c-fos, and the number of c-fos-positive cells was quantified. RESULTS 500 Hz hfSCS applied at 90 and 140% CAP threshold produced substantial (≥6 c-fos + neurons on average per slice per segment) c-fos expression in more segments between T11 and L1 than did sham stimulation (p < 0.025, 90% CAP; p < 0.001, 140% CAP, Fisher's Exact Tests) and resulted in more c-fos-positive neurons on average per slice per segment ipsilateral to than contralateral to the SCS electrode at 70, 90, and 140% CAP threshold (p < 0.01, Wilcoxon Signed Rank Tests). CONCLUSIONS The finding of enhanced c-fos expression in the ipsilateral superficial dorsal horn provides evidence for activation/modulation of neuronal circuitry associated with subperception hfSCS.

Published

2019

23. One Hundred Eleven Percutaneous Balloon Compressions for Trigeminal Neuralgia in a Cohort of 66 Patients with Multiple Sclerosis

Author

Pär Asplund, A. Tommy Bergenheim, Bengt Linderoth, Jaleh Winter, and Göran Lind

Subjects

Adult, medicine.medical_specialty, Therapeutic touch, Multiple Sclerosis, Time Factors, Percutaneous, Neurology, Rhizotomy, Cohort Studies, Trigeminal neuralgia, medicine, Humans, Risk factor, Aged, Pain Measurement, Proportional Hazards Models, Retrospective Studies, Aged, 80 and over, business.industry, Therapeutic effect, Middle Aged, Trigeminal Neuralgia, medicine.disease, Surgery, Treatment Outcome, Trigeminal Ganglion, Cohort, Neurology (clinical), Neurosurgery, business

Abstract

BACKGROUND Trigeminal neuralgia associated with multiple sclerosis (MS-TN) is comparatively rare and larger series of percutaneous balloon compression (PBC) in such cases are few in the literature. OBJECTIVE To evaluate the results after PBC for MS-TN with regards to therapeutic effect, side effects, and complications. METHODS One hundred eleven procedures with PBC performed in 66 cases of MS-TN were analyzed. Therapeutic effect was measured as postoperative time to pain recurrence without medication. All complications were compiled and the sensory function was evaluated in a subgroup of cases. RESULTS The initial pain free rate was 67% and the median time to pain recurrence was 8 mo. Thirty-six patients were treated with PBC only, and among them, the results were worse if treated 3 to 4 times before, compared to first treatment (P = .009-.034). Patients who had several PBCs had worse results already after the first surgery (P

Published

2019

24. The Link Between Spinal Cord Stimulation and the Parasympathetic Nervous System in Patients With Failed Back Surgery Syndrome

Author

Frédéric Louis, Ann De Smedt, Maarten Moens, Lisa Goudman, Philippe Rigoard, Virginie Stalmans, Bengt Linderoth, Supporting clinical sciences, Neurosurgery, Pain in Motion, UZB Other, Physical Medicine and Rehabilitation, Clinical sciences, Neuroprotection & Neuromodulation, and Radiology

Subjects

medicine.medical_specialty, Sympathetic nervous system, Neuroscience(all), surgery, 03 medical and health sciences, Parasympathetic nervous system, 0302 clinical medicine, Parasympathetic Nervous System, Internal medicine, Neuromodulation, Heart rate, medicine, Heart rate variability, Humans, Failed Back Surgery Syndrome, Pain Measurement, Spinal Cord Stimulation, integumentary system, business.industry, Chronic pain, Cardiorespiratory fitness, General Medicine, medicine.disease, Autonomic nervous system, Anesthesiology and Pain Medicine, medicine.anatomical_structure, Treatment Outcome, nervous system, Neurology, Spinal Cord, Cardiology, Neurology (clinical), Chronic Pain, business, tissues, 030217 neurology & neurosurgery, Failed Back Surgery Syndrome/therapy

Abstract

OBJECTIVES: In patients with chronic pain, a relative lower parasympathetic activity is suggested based on heart rate variability measurements. It is hypothesized that spinal cord stimulation (SCS) is able to influence the autonomic nervous system. The aim of this study is to further explore the influence of SCS on the autonomic nervous system by evaluating whether SCS is able to influence skin conductance, blood volume pulse, heart rate, and respiration rate. MATERIALS AND METHODS: Twenty-eight patients with Failed Back Surgery Syndrome (FBSS), who are being treated with SCS, took part in this multicenter study. Skin conductance and cardiorespiratory parameters (blood volume pulse, heart rate, and respiration rate) were measured during on and off states of SCS. Paired statistics were performed on a 5-min recording segment for all parameters. RESULTS: SCS significantly decreased back and leg pain intensity scores in patients with FBSS. Skin conductance level and blood volume pulse were not altered between on and off states of SCS. Heart rate and respiration rate significantly decreased when SCS was activated. CONCLUSIONS: Parameters that are regulated by the sympathetic nervous system were not significantly different between SCS on and off states, leading to the hypothesis that SCS is capable of restoring the dysregulation of the autonomic nervous system by primarily increasing the activity of the parasympathetic system in patients with FBSS.

Published

2021

25. Identifying goals in patients with chronic pain: A European survey

Author

Ann De Smedt, Dylan J H A Henssen, Bengt Linderoth, Sam Eldabe, Lisa Goudman, Maarten Moens, Richard L Witkam, Supporting clinical sciences, Neurosurgery, Pain in Motion, UZB Other, Physical Medicine and Rehabilitation, Clinical sciences, Neuroprotection & Neuromodulation, and Radiology

Subjects

medicine.medical_specialty, medicine.medical_treatment, Neuroscience(all), Pain relief, Treatment goals, rehabilitation, Healthcare improvement science Radboud Institute for Health Sciences [Radboudumc 18], surgery, 03 medical and health sciences, 0302 clinical medicine, Surveys and Questionnaires, Health care, interdisciplinary treatment approach, medicine, Humans, In patient, 030212 general & internal medicine, Pain Measurement, Motivation, Interdisciplinary treatment, Rehabilitation, business.industry, Chronic pain, medicine.disease, Identifying goals, Treatment, Anesthesiology and Pain Medicine, Radiology Nuclear Medicine and imaging, Physical therapy, business, Psychology, chronic pain, Goals, 030217 neurology & neurosurgery

Abstract

Item does not contain fulltext BACKGROUND: Chronic pain is a major healthcare issue that often requires an interdisciplinary treatment approach. Defining relevant treatment goals is one of the crucial steps in creating successful rehabilitation schemes. Therefore, the first aim was to explore goals that patients suffering from chronic pain aim to achieve. The second aim was to translate those goals into measurable functional outcome variables which can be used to measure treatment success. METHODS: An online survey was developed and spread through local pain alliances in six European countries. Participants, patients suffering from chronic pain, were asked to report their most important goals, combined with a rank to denote the importance of each goal. For the highest ranked goals, participants were asked to decompose their goal into functional postures and the number of minutes per posture to achieve this goal. RESULTS: We approached 1,494 persons, of which 487 effectively completed this survey. The highest ranked goals were taking part in family and social activities (72.55%), pain reduction (91.18%) and household tasks (68.14%). Obtaining pain reduction was most often ranked first (55.75%), followed by improving sleep (12.25%) and taking part in family or social activities (11.00%). For all goals, walking was a crucial component. CONCLUSIONS: The goals of chronic pain patients are in line with previously explored expectations, denoting the importance of achieving pain relief combined with improvements on the level of activities and participation. This survey indicates that rehabilitation programs should definitely focus on improving walking ability, due to its importance in underpinning overall goal achievement. SIGNIFICANCE: Goals and expectations of chronic pain patients are in line with each other. Obtaining pain relief remains the highest ranked goal, however, goals on the level of activities and participation were also highly ranked. Walking seems to be the overall crucial component for goal achievement.

Published

2021

26. A Review of Techniques for Biodelivery of Nerve Growth Factor (NGF) to the Brain in Relation to Alzheimer’s Disease

Author

Maria Eriksdotter, Ruchi Gera, Bengt Linderoth, Sumonto Mitra, Lars Wahlberg, Homira Behbahani, Per Almqvist, and Göran Lind

Subjects

Basal forebrain, biology, business.industry, Context (language use), Degeneration (medical), Disease, medicine.disease, Nerve growth factor, nervous system, medicine, biology.protein, Dementia, Cholinergic neuron, business, Neuroscience, Neurotrophin

Abstract

Age-dependent progressive neurodegeneration and associated cognitive dysfunction represent a serious concern worldwide. Currently, dementia accounts for the fifth highest cause of death, among which Alzheimer’s disease (AD) represents more than 60% of the cases. AD is associated with progressive cognitive dysfunction which affects daily life of the affected individual and associated family. The cognitive dysfunctions are at least partially due to the degeneration of a specific set of neurons (cholinergic neurons) whose cell bodies are situated in the basal forebrain region (basal forebrain cholinergic neurons, BFCNs) but innervate wide areas of the brain. It has been explicitly shown that the delivery of the neurotrophic protein nerve growth factor (NGF) can rescue BFCNs and restore cognitive dysfunction, making NGF interesting as a potential therapeutic substance for AD. Unfortunately, NGF cannot pass through the blood-brain barrier (BBB) and thus peripheral administration of NGF protein is not viable therapeutically. NGF must be delivered in a way which will allow its brain penetration and availability to the BFCNs to modulate BFCN activity and viability. Over the past few decades, various methodologies have been developed to deliver NGF to the brain tissue. In this chapter, NGF delivery methods are discussed in the context of AD.

Published

2021

27. Encapsulated cell biodelivery of NGF (ECB‐NGF) for AD therapy has implications from astroglial activation and amyloid‐beta toxicity

Author

Bengt Linderoth, Homira Behbahani, Maria Eriksdotter, Sumonto Mitra, Silvia Turchetto, and Lars Wahlberg

Subjects

biology, Epidemiology, Chemistry, Amyloid beta, Health Policy, Cell, Pharmacology, Psychiatry and Mental health, Cellular and Molecular Neuroscience, medicine.anatomical_structure, Developmental Neuroscience, Toxicity, medicine, biology.protein, Neurology (clinical), Geriatrics and Gerontology

Published

2020

28. A Regions of Interest Voxel-Based Morphometry Study of the Human Brain During High-Frequency Spinal Cord Stimulation in Patients With Failed Back Surgery Syndrome

Author

Félix Buyck, Ronald Peeters, Peter Van Schuerbeek, Stefan Sunaert, Mats De Jaeger, Maarten Moens, Philippe Rigoard, Bengt Linderoth, Lisa Goudman, Sander De Groote, Faculty of Medicine and Pharmacy, Neurosurgery, Pain in Motion, Artificial Intelligence supported Modelling in clinical Sciences, Supporting clinical sciences, Medical Imaging, Radiology, and Neuroprotection & Neuromodulation

Subjects

Adult, Male, Neuroscience(all), neuroplasticity, Grey matter, computer.software_genre, structural brain alterations, Structural brain alterations, surgery, 03 medical and health sciences, 0302 clinical medicine, Regions of Interest Voxel-Based Morphometry, 030202 anesthesiology, Voxel, Neuroplasticity, medicine, Back pain, Humans, Failed Back Surgery Syndrome, Aged, Spinal Cord Stimulation, integumentary system, medicine.diagnostic_test, business.industry, Chronic pain, Brain, Magnetic resonance imaging, Voxel-based morphometry, Middle Aged, medicine.disease, Magnetic Resonance Imaging, Anesthesiology and Pain Medicine, medicine.anatomical_structure, Treatment Outcome, nervous system, Anesthesia, regions-of-interest voxel-based morphometry, Pain catastrophizing, Female, sense organs, medicine.symptom, Chronic Pain, business, tissues, computer, 030217 neurology & neurosurgery

Abstract

INTRODUCTION: The effectiveness of spinal cord stimulation (SCS) as pain-relieving treatment for failed back surgery syndrome (FBSS) has already been demonstrated. However, potential structural and functional brain alterations resulting from subsensory SCS are less clear. The aim of this study was to test structural volumetric changes in a priori chosen regions of interest related to chronic pain after 1 month and 3 months of high-frequency SCS in patients with FBSS. METHODS: Eleven patients with FBSS who were scheduled for SCS device implantation were included in this study. All patients underwent a magnetic resonance imaging protocol before SCS device implantation 1 and 3 months after high-frequency SCS. Pain intensity, pain catastrophizing, and sleep quality were also measured. Regions-of-interest voxel-based morphometry was used to explore grey matter volumetric changes over time. Additionally, volumetric changes were correlated with changes in pain intensity, catastrophizing, and sleep quality. RESULTS: Significant decreases were found in volume in the left and right hippocampus over time. More specifically, a significant difference was revealed between volumes before SCS implantation and after 3 months of SCS. Repeated-measures correlations revealed a significant positive correlation between volumetric changes in the left hippocampus and changes in back pain score over time and between volumetric changes in the right hippocampus and changes in back pain score over time. CONCLUSION: In patients with FBSS, high-frequency SCS influences structural brain regions over time. The volume of the hippocampus was decreased bilaterally after 3 months of high-frequency SCS with a positive correlation with back pain intensity. ispartof: Pain Practice vol:20 issue:8 pages:878-888 ispartof: location:United States status: published

Published

2020

29. The cholinergic system and treatment response in subtypes of Alzheimer’s disease

Author

Stefan J. Teipel, Maria Eriksdotter, Per Almqvist, Eric Westman, Bengt Linderoth, Helga Eyjolfsdottir, Alejandra Machado, Lena Cavallin, Åke Seiger, Michel J. Grothe, Lars Wahlberg, Lars-Olof Wahlund, Göran Lind, and Daniel Ferreira

Subjects

0303 health sciences, Basal forebrain, Pathology, medicine.medical_specialty, medicine.diagnostic_test, business.industry, Precuneus, Hippocampus, Disease, medicine.disease, 03 medical and health sciences, 0302 clinical medicine, Atrophy, Nerve growth factor, medicine.anatomical_structure, nervous system, Biopsy, medicine, Cholinergic, business, 030217 neurology & neurosurgery, 030304 developmental biology

Abstract

BACKGROUNDThe heterogeneity within Alzheimer’s disease (AD) seriously challenges the development of disease modifying treatments. We investigated volume of the basal forebrain, hippocampus, and precuneus in atrophy subtypes of AD, and explored the relevance of subtype stratification in a clinical trial on encapsulated cell biodelivery (ECB) of nerve growth factor (NGF) to the basal forebrain.METHODSStructural MRI data was collected for 90 amyloid-positive patients and 69 amyloid-negative healthy controls at baseline, 6-, 12-, and 24-month follow-up. The effect of the NGF treatment was investigated in 10 biopsy verified AD patients with structural MRI data at baseline and at 6- or 12-months follow-up. Patients were classified as typical, limbic-predominant, hippocampal-sparing, or minimal atrophy AD, using a validated visual assessment method. Volumetric analyses were performed using a region-of-interest approach.RESULTSAll AD subtypes showed reduced basal forebrain volume as compared with controls. Limbic-predominant subtype showed fastest basal forebrain atrophy rate, whereas minimal atrophy subtype did not show significant volume decline over time. Atrophy rates of hippocampus and precuneus also differed across subtypes. The NGF treatment seemed to slow the rate of atrophy in precuneus and hippocampus, particularly in the hippocampal-sparing AD subtype.CONCLUSIONSThe cholinergic system is differentially affected in distinct atrophy subtypes of AD, possibly contributing to their differential response to cholinergic treatment. Our findings suggest that future clinical trials should target specific subtypes of AD, or at least report treatment effects stratifying by subtype.Trial registrationClinicalTrials.gov identifier: NCT01163825. Registered 14 July 2010 - https://clinicaltrials.gov/ct2/show/NCT01163825

Published

2020

30. Magnetic Resonance Imaging Exploration of the Human Brain During 10 kHz Spinal Cord Stimulation for Failed Back Surgery Syndrome

Author

Ann De Smedt, Maarten Moens, Mats De Jaeger, Bengt Linderoth, Lisa Goudman, Sander De Groote, Ronald Peeters, Peter Vanschuerbeek, Stefan Sunaert, Faculty of Medicine and Pharmacy, Faculty of Physical Education and Physical Therapy, Supporting clinical sciences, Medical Imaging, Radiology, UZB Other, Physical Medicine and Rehabilitation, Clinical sciences, Neuroprotection & Neuromodulation, and Neurosurgery

Subjects

Male, medicine.medical_specialty, Rest, Pittsburgh Sleep Quality Index, magnetic resonance, 03 medical and health sciences, 0302 clinical medicine, Physical medicine and rehabilitation, imaging exploration, medicine, Humans, Prospective Studies, Failed Back Surgery Syndrome, human brain, Aged, Pain Measurement, Medicine(all), Spinal Cord Stimulation, medicine.diagnostic_test, business.industry, Minimal clinically important difference, Chronic pain, Brain, Magnetic resonance imaging, General Medicine, Human brain, Middle Aged, medicine.disease, Magnetic Resonance Imaging, Anesthesiology and Pain Medicine, medicine.anatomical_structure, Neurology, Connectome, Pain catastrophizing, Female, Neurology (clinical), resting state functional, failed back surgery, business, Insula, 030217 neurology & neurosurgery

Abstract

Introduction Apart from the clinical efficacy of high frequency spinal cord stimulation at 10 kHz, the underlying mechanism of action remains unclear. In parallel with spinal or segmental theories, supraspinal hypotheses have been recently proposed. In order to unveil hidden altered brain connectome patterns, a resting state functional magnetic resonance imaging (rsfMRI) protocol was performed in subjects routinely treated for back and/or leg pain with high-frequency spinal cord stimulation (HF-SCS) HF-SCS at 10 kHz. Methods RsfMRI imaging was obtained from ten patients with failed back surgery syndrome who were eligible for HF-SCS at 10 kHz. Specifically-chosen regions of interest with different connectivity networks have been investigated over time. Baseline measurements were compared with measurements after 1 month and 3 months of HF-SCS at 10 kHz. Additionally, clinical parameters on pain intensity, central sensitization, pain catastrophizing, and sleep quality were correlated with the functional connectivity strengths. Results The study results demonstrate an increased connectivity over time between the anterior insula (affective salience network) and regions of the frontoparietal network and the central executive network. After 3 months of HF-SCS, the increased strength in functional connectivity between the left dorsolateral prefrontal cortex and the right anterior insula was significantly correlated with the minimum clinically important difference (MCID) value of the Pittsburgh sleep quality index. Conclusion These findings support the hypothesis that HF-SCS at 10 kHz might influence the salience network and therefore also the emotional awareness of pain.

Published

2020

31. Cerebrospinal fluid from Alzheimer patients affects cell-mediated nerve growth factor production and cell survival in vitro

Author

Maria Eriksdotter, Sumonto Mitra, Lars Wahlberg, Lars O. Tjernberg, Bengt Linderoth, Homira Behbahani, and Manuel Navarro-Oviedo

Subjects

Lewy Body Disease, 0301 basic medicine, medicine.medical_specialty, Cell Survival, Interleukin-1beta, Cell, Inflammation, Retinal Pigment Epithelium, Nerve growth factor production, Biology, 03 medical and health sciences, 0302 clinical medicine, Alzheimer Disease, Internal medicine, Nerve Growth Factor, medicine, Humans, Cognitive Dysfunction, Viability assay, Cholinergic neuron, Cell Line, Transformed, Cerebrospinal Fluid, Basal forebrain, Amyloid beta-Peptides, Lewy body, Epithelial Cells, Cell Biology, Staurosporine, medicine.disease, Peptide Fragments, 030104 developmental biology, Nerve growth factor, medicine.anatomical_structure, Endocrinology, Gene Expression Regulation, nervous system, medicine.symptom, 030217 neurology & neurosurgery

Abstract

Alzheimer's disease (AD) is characterized by early degeneration of cholinergic neurons and decreased levels of nerve growth factor (NGF). Thus, increasing the NGF levels by for instance encapsulated cell bio-delivery (ECB) is a potential treatment strategy. The results from our previous first-in-human studies on ECB of NGF to the basal forebrain cholinergic neurons were promising, but indicated some variability of long-term viability of the encapsulated cells and associated reduced NGF-release. Here we studied the effect of amyloid beta-peptides (Aβ), interleukin 1-beta (IL-1β), and CSF from AD, Lewy body dementia (LBD) or subjective cognitive impairment (SCI) patients on the NGF overproducing cell line NGC-0295. At physiological concentrations, neither Aβ40 nor Aβ42 had any major impact on cell viability or NGF-production. In contrast, IL-1β dose-dependently affected NGF-production over time. Exposure of NGF-producing cells to CSF from AD patients showed significantly reduced NGF-release as compared to CSF from LBD or SCI patients. By mass spectrometry we found 3 proteins involved in inflammatory pathways to have an altered expression in AD CSF compared to LBD and SCI. Cell survival and NGF-release were not affected by Aβ. NGF-release was affected by IL-1β, suggesting that inflammation has a negative effect on ECB cells.

Published

2018

32. Conventional and Novel Spinal Stimulation Algorithms: Hypothetical Mechanisms of Action and Comments on Outcomes

Author

Bengt Linderoth and Robert D. Foreman

Subjects

High density, Spinal cord stimulation, 03 medical and health sciences, 0302 clinical medicine, 030202 anesthesiology, medicine, Animals, Humans, Pain Management, Paresthesia, Pain Measurement, Spinal Cord Stimulation, integumentary system, business.industry, General Medicine, Spinal cord, Low back pain, Treatment Outcome, Anesthesiology and Pain Medicine, Nociception, medicine.anatomical_structure, Spinal Cord, nervous system, Neurology, Gate control theory, Action (philosophy), Neuropathic pain, Neuralgia, Neurology (clinical), medicine.symptom, business, Low Back Pain, Algorithm, Algorithms, 030217 neurology & neurosurgery

Abstract

Objective Spinal cord stimulation (SCS) emerged as a direct clinical spin-off from the Gate Control Theory from 1965. Over the last decade, several new modes of SCS have appeared. This review discusses these novel techniques and their hypothetical mechanisms of action. Material and Methods A recent literature search on SCS coupled with the most recent data from poster presentations and congress lectures have been used to illustrate new hypothetical ways of modulating pain. Results Several physiological and neurochemical mechanisms for conventional paresthetic SCS have been described in detail. However, much less is known about the novel SCS modes of action. One new algorithm utilizes very high frequencies (up to 10 kHz) intended for direct stimulation of dorsal horns at the T9–T10 level to treat both low back pain and leg pain. Another technique uses bursts of impulses with a high internal frequency delivered to the dorsal spinal cord with a frequency of 40 Hz. Both of these therapies intend to be subparesthetic and effective both for neuropathic and nociceptive pain components. During the last few years, more moderate changes in SCS parameters have been tried in order to increase the amount of electric charge passed from the lead to the neural tissue. This strategy, called “high density SCS,” utilizes frequencies up to 1200 Hz or long pulse widths. Conclusions The present SCS therapies have developed beyond the Gate Control Concept. New hypotheses about mechanisms of action are presented and some improved results are discussed.

Published

2017

33. Spinal cord stimulation in experimental chronic painful diabetic polyneuropathy

Author

Bengt Linderoth, M. van Beek, M. van Kleef, S.M.J. van Kuijk, Elbert A.J. Joosten, Wiel Honig, Anesthesiologie, RS: MHeNs - R3 - Neuroscience, Promovendi MHN, MUMC+: CAKZ Pijnkennis Ane (9), MUMC+: MA Anesthesiologie (9), MUMC+: KIO Kemta (9), and Ondersteunend personeel MHN

Subjects

Pain Threshold, TACTILE ALLODYNIA, medicine.medical_treatment, Intraperitoneal injection, MECHANICAL HYPERALGESIA, Stimulation, Vasodilation, 030204 cardiovascular system & hematology, BACK SURGERY SYNDROME, FACTOR CORRELATE, Diabetes Mellitus, Experimental, Rats, Sprague-Dawley, 03 medical and health sciences, 0302 clinical medicine, Diabetic Neuropathies, CEREBROSPINAL-FLUID LEVELS, Diabetes mellitus, medicine, Animals, Pain Management, PDPN, Original Research, Pain Measurement, Spinal Cord Stimulation, integumentary system, BLOOD-FLOW, business.industry, RANDOMIZED CONTROLLED-TRIAL, Streptozotocin, medicine.disease, LOWER-LIMB ISCHEMIA, Pathophysiology, Rats, Anesthesiology and Pain Medicine, Peripheral neuropathy, nervous system, Spinal Cord, Anesthesia, Original Article, Female, business, tissues, 030217 neurology & neurosurgery, PERIPHERAL NEUROPATHY, medicine.drug, NEUROTROPHIC FACTOR

Abstract

Background Spinal cord stimulation (SCS) has been shown to provide pain relief in painful diabetic polyneuropathy (PDPN). As the vasculature system plays a great role in the pathophysiology of PDPN, a potential beneficial side-effect of SCS is peripheral vasodilation, with high frequency (HF) SCS in particular. We hypothesize that HF-SCS (500 Hz), compared with conventional (CON) or low frequency (LF)-SCS will result in increased alleviation of mechanical hypersensitivity in chronic experimental PDPN. Methods Diabetes was induced in 8-week-old female Sprague–Dawley rats with an intraperitoneal injection of 65 mg/kg of streptozotocin (n = 44). Rats with a significant decrease in mechanical withdrawal response to von Frey filaments over a period of 20 weeks were implanted with SCS electrodes (n = 18). Rats were assigned to a cross-over design with a random order of LF-, CON-, HF- and sham SCS and mechanical withdrawal thresholds were assessed with von Frey testing. Results Compared with sham treatment, the average 50% WT score for 5 Hz was 4.88 g higher during stimulation (p = 0.156), and 1.77 g higher post-stimulation (p = 0.008). CON-SCS resulted in 50% WT scores 5.7 g, and 2.51 g higher during (p = 0.064) and after stimulation (p

Published

2017

34. Effects of Spinal Cord Stimulation on Cardiac Sympathetic Nerve Activity in Patients with Heart Failure

Author

Filip Málek, Jodi Koehler, Bengt Linderoth, Jan Naar, Cecilia Linde, Petr Doškář, Frieder Braunschweig, Otto Lang M.D., Lars Mortensen, Lars Lund, Marcus Ståhlberg, Petr Neužil M.D., Kambiz Shahgaldi, Arthur J.H.A. Scholte, Fred Kueffer, Dianna Bone, Göran Lind, and Deborah Jaye

Subjects

Sympathetic nervous system, New York Heart Association Class, Ejection fraction, integumentary system, medicine.diagnostic_test, business.industry, General Medicine, 030204 cardiovascular system & hematology, medicine.disease, Spinal cord, Scintigraphy, Crossover study, 03 medical and health sciences, 0302 clinical medicine, medicine.anatomical_structure, nervous system, Heart failure, Anesthesia, Medicine, Premovement neuronal activity, Cardiology and Cardiovascular Medicine, business, tissues, 030217 neurology & neurosurgery

Abstract

Background Spinal cord stimulation (SCS) reduces sympathetic activity in animal models of heart failure with reduced ejection fraction (HF) but limited data exist of SCS in patients with HF. The aim of the present study was to test the primary hypothesis that SCS reduces cardiac sympathetic nerve activity in HF patients. Secondary hypotheses were that SCS improves left ventricular function and dimension, exercise capacity, and clinical variables relevant to HF. Methods HF patients with a SCS device previously participating in the DEFEAT-HF trial were included in this crossover study with 6-week intervention periods (SCS-ON and SCS-OFF). SCS (50 Hz, 210-μs pulse duration, aiming at T2–T4 segments) was delivered for 12 hours daily. Indices of myocardial sympathetic neuronal function (heart-to-mediastinum ratio, HMR) and activity (washout rate, WR) were assessed using 123I-metaiodobenzylguanidine (MIBG) scintigraphy. Echocardiography, exercise testing, and clinical data collection were also performed. Results We included 13 patients (65.3 ± 8.0 years, nine males) and MIBG scintigraphy data were available in 10. HMR was not different comparing SCS-ON (1.37 ± 0.16) and SCS-OFF (1.41 ± 0.21, P = 0.46). WR was also unchanged comparing SCS-ON (41.5 ± 5.3) and SCS-OFF (39.1 ± 5.8, P = 0.30). Similarly, average New York Heart Association class (2.4 ± 0.5 vs 2.3 ± 0.6, P = 0.34), quality of life score (24 ± 16 vs 24 ± 16, P = 0.94), and left ventricular dimension and function as well as exercise capacity were all unchanged comparing SCS-ON and SCS-OFF. Conclusion In patients with HF, SCS (12 hours daily, targeting the T2–T4 segments of the spinal cord) does not appear to influence cardiac sympathetic neuronal activity or function as assessed by MIBG scintigraphy.

Published

2017

35. Björn Meyerson 1933–2019

Author

Göran Lind, Bengt Linderoth, and Marwan Hariz

Subjects

Anesthesiology and Pain Medicine, Neurology, Philosophy, Neurology (clinical), General Medicine, Obituary, Religious studies

Published

2020

36. Effectiveness of dorsal root ganglion stimulation and dorsal column spinal cord stimulation in a model of experimental painful diabetic polyneuropathy

Author

Bengt Linderoth, Paolo Maino, Glenn Franken, Jacques Debets, Eva Koetsier, Elbert A.J. Joosten, Roberto S.G.M. Perez, Sander M. J. van Kuijk, AII - Inflammatory diseases, APH - Personalized Medicine, APH - Methodology, Anesthesiology, Promovendi MHN, Anesthesiologie, RS: MHeNs - R3 - Neuroscience, Ondersteunend personeel CD, RS: CARIM - R2.03 - ECM + Wnt signaling, Farmacologie en Toxicologie, MUMC+: KIO Kemta (9), Epidemiologie, RS: CAPHRI - R2 - Creating Value-Based Health Care, MUMC+: MA Anesthesiologie (9), and RS: Carim - H03 ECM and Wnt signaling

Subjects

0301 basic medicine, spinal cord stimulation, medicine.medical_treatment, MULTICENTER, Stimulation, Rats, Sprague-Dawley, 0302 clinical medicine, Diabetic Neuropathies, Dorsal root ganglion, QUALITY-OF-LIFE, Ganglia, Spinal, Neuromodulation, RAT MODEL, EPIDEMIOLOGY, Pharmacology (medical), PDPN, health care economics and organizations, NEUROPATHIC PAIN, Psychiatry and Mental health, medicine.anatomical_structure, Spinal Cord, dorsal root ganglion stimulation, SAFETY, Anesthesia, neuromodulation, Neuropathic pain, Female, medicine.drug, Intraperitoneal injection, Pain, Electric Stimulation Therapy, Diabetes Mellitus, Experimental, 03 medical and health sciences, Physiology (medical), medicine, Animals, Pain Management, Pharmacology, business.industry, animal model, Original Articles, painful diabetic polyneuropathy, medicine.disease, Streptozotocin, RELIEF, Disease Models, Animal, 030104 developmental biology, Peripheral neuropathy, business, PERIPHERAL NEUROPATHY, 030217 neurology & neurosurgery

Abstract

Aims Conventional dorsal root ganglion stimulation (DRGS) is known to achieve better pain-paresthesia overlap of difficult-to-reach areas like the feet compared to dorsal column spinal cord stimulation (SCS). As in painful diabetic polyneuropathy (PDPN) pain is mostly present in the feet, we hypothesized that DRGS is more effective in relieving pain in PDPN when compared to SCS. Methods Diabetes was induced in female Sprague-Dawley rats with an intraperitoneal injection of 65 mg/kg of streptozotocin (STZ; n = 48). Rats with a significant decrease in mechanical paw withdrawal response to von Frey filaments 4 weeks after injection were implanted with DRGS electrodes (n = 18). Rats were assigned to DRGS (n = 11) or sham-DRGS (n = 7). Mechanical paw withdrawal thresholds (WT, measured in grams) in response to DRGS (50 Hz, 0.18 +/- 0.05 mA) were assessed with von Frey testing. The results of the experiments on these animals were compared to the results of a previous study using exactly the same model on PDPN animals selected for SCS (n = 8) (40-50 Hz, 0.19 +/- 0.01 mA) and sham-SCS (n = 3). Results In the SCS group, the log(10) (10 000 x 50% WT) increased from 4910 to 5211 at t = 15 minutes (P

Published

2019

37. Abstract #44: Computational and Immunohistochemical Evidence of Direct Dorsal Horn Modulation by Sub-Perception Spinal Cord Stimulation

Author

Changfang Zhu, Jay P. Farber, Robert D. Foreman, Michael A. Moffitt, Shiying Li, Rosana Esteller, Bengt Linderoth, Wendy Gu, and Tianhe Zhang

Subjects

Dorsum, business.industry, French horn, General Neuroscience, Biophysics, Medicine, Immunohistochemistry, Neurology (clinical), Spinal cord stimulation, Anatomy, business, lcsh:Neurosciences. Biological psychiatry. Neuropsychiatry, lcsh:RC321-571

Published

2019

38. The influence of High Dose Spinal Cord Stimulation on the descending pain modulatory system in patients with failed back surgery syndrome

Author

Ronald Peeters, Stefan Sunaert, Bengt Linderoth, Lisa Goudman, Peter Van Schuerbeek, Sander De Groote, José De Andrés, Mats De Jaeger, Ann De Smedt, Maarten Moens, Faculty of Medicine and Pharmacy, Neurosurgery, Pain in Motion, Faculty of Physical Education and Physical Therapy, Supporting clinical sciences, Medical Imaging, Radiology, UZB Other, Physical Medicine and Rehabilitation, Clinical sciences, and Neuroprotection & Neuromodulation

Subjects

Male, Nociception, spinal cord stimulation, pain modulatory system, medicine.medical_treatment, CATASTROPHIZING SCALE, surgery, 0302 clinical medicine, Neural Pathways, Periaqueductal Gray, Prospective Studies, Cerebral Cortex, Medulla Oblongata, integumentary system, NEUROPATHIC PAIN, 05 social sciences, Brain, Regular Article, FUNCTIONAL CONNECTIVITY, Middle Aged, Amygdala, Magnetic Resonance Imaging, medicine.anatomical_structure, Neurology, Female, Brainstem, SENSITIVITY, Life Sciences & Biomedicine, tissues, Patients, Cognitive Neuroscience, INHIBITION, Clinical Neurology, Prefrontal Cortex, Neuroimaging, Gyrus Cinguli, Periaqueductal gray, 050105 experimental psychology, PERIAQUEDUCTAL GRAY, MECHANISMS, 03 medical and health sciences, medicine, Humans, 0501 psychology and cognitive sciences, Radiology, Nuclear Medicine and imaging, Neurostimulation, Anterior cingulate cortex, Aged, Science & Technology, Resting state fMRI, INTENSITY, business.industry, Functional Neuroimaging, Neural Inhibition, Spinal cord, SLEEP, FACILITATION, nervous system, Somatosensory evoked potential, Neurosciences & Neurology, Neurology (clinical), Rostral ventromedial medulla, failed back surgery syndrome, business, Neuroscience, 030217 neurology & neurosurgery

Abstract

The descending pain modulatory system (DPMS) comprises a network of cortical and subcortical brain and brainstem regions that can inhibit nociceptive afferent brain input (Ossipov et al., 2010; Tracey, 2010; Zhuo and Gebhart, 1997). These pathways seem to be altered in several chronic pain syndromes such as knee osteoarthritis, fibromyalgia, painful diabetic neuropathy and low back pain (Brietzke et al., 2019; da Graca-Tarrago et al., 2019; Kong et al., 2018; Segerdahl et al., 2018). The DPMS network comprises the bilateral anterior insulae (AI), the anterior cingulate cortex (ACC), bilateral middle frontal gyri (mFG), both amygdalae (AMY), the rostral ventromedial medulla (RVM) and the periaqueductal gray (PAG) (Goksan et al., 2018; Schweinhardt and Bushnell, 2010). In the past, it has been suggested that traditional, paresthesia-generating Spinal Cord Stimulation (SCS) induces several changes in modulation circuits located in the cerebrum and brainstem. An inhibitory effect of traditional SCS on somatosensory evoked potentials, and potential mediators like the thalamus and the anterior cingulate cortex (ACC), could play a role in the mechanism of action (MOA) of SCS as well (Bentley et al., 2016; De Ridder and Vanneste, 2016; Moens et al., 2013, 2012). Several studies have provided evidence of the impact of SCS on the DPMS resulting in this inhibitory supraspinal effect (Sankarasubramanian et al., 2018; Schuh-Hofer et al., 2018). More recently, researchers have hypothesized similar influences on the DPMS by other paradigms of SCS such as high frequency SCS at 10 kHz and Burst SCS, as well as by other forms of neurostimulation e.g. occipital nerve field stimulation (Ahmed et al., 2018a, 2018c). Tonic SCS at sub-sensory threshold and at 500 Hz and pulse width 500μsec, so called high density or high dose SCS (HD-SCS), is a SCS form based on the impact of electrical charge delivery to the spinal cord (Chen et al., 2018; Linderoth and Foreman, 2017; Miller et al., 2016; Sweet et al., 2016; Wille et al., 2017). After some initial case series studies, researchers are still exploring the clinical effect and impact on chronic pain of HD-SCS (De Jaeger et al., 2017; Provenzano et al., 2017; Wille et al., 2017). In the past, several researchers have investigated the supraspinal effects of SCS by examining human cerebral circuits via different neuroimaging techniques (e.g. MR Spectroscopy (MRS), single photon emission computerized tomography (SPECT), positron emission tomography (PET), electroencephalography (EEG) and, functional magnetic resonance imaging (fMRI)) to capture alterations in modulation circuits (De Ridder and Vanneste, 2016; Kishima et al., 2010; Moens et al., 2013, 2012; Nagamachi et al., 2006). fMRI is especially interesting due to the robustness and test-retest reliability of the functional connectivity (FC) method in clinical applications (Apkarian, 2015; Shehzad et al., 2009). Additionally, the introduction of MRI-conditioned SCS devices enables further exploration of MOA of SCS, not only during trial period but also on long-term implanted devices. Based on this knowledge, we hypothesized, in this study, that HD-SCS may alter the DPMS and indirectly, might generate an inhibitory supraspinal effect. This hypothesis-driven pilot study aimed to investigate the influence of HD-SCS on FC within the DPMS, measured by resting state fMRI.

Published

2019

39. Effects of spinal cord stimulation on heart rate variability in patients with Failed Back Surgery Syndrome

Author

Maarten Moens, Bengt Linderoth, Raf Brouns, Lisa Goudman, Pain in Motion, Faculty of Physical Education and Physical Therapy, Supporting clinical sciences, Clinical sciences, Neuroprotection & Neuromodulation, Radiology, and Neurosurgery

Subjects

Male, Sympathetic Nervous System, Physiology, Emotions, Sensory Physiology, Social Sciences, Stimulation, Spinal cord stimulation, Electrocardiography, 0302 clinical medicine, Mathematical and Statistical Techniques, 030202 anesthesiology, Heart Rate, Medicine and Health Sciences, Heart rate variability, Psychology, Failed Back Surgery Syndrome, Pain Measurement, Spinal Cord Stimulation, Multidisciplinary, Cross-Over Studies, medicine.diagnostic_test, integumentary system, Chronic pain, Software Engineering, Heart, Middle Aged, Sensory Systems, Nociception, Bioassays and Physiological Analysis, Somatosensory System, Cardiology, Engineering and Technology, Medicine, Female, Chronic Pain, Anatomy, tissues, Research Article, Adult, medicine.medical_specialty, Computer and Information Sciences, Science, Surgical and Invasive Medical Procedures, Research and Analysis Methods, 03 medical and health sciences, Parasympathetic Nervous System, Internal medicine, Heart rate, medicine, Humans, Preprocessing, Aged, business.industry, Electrophysiological Techniques, Biology and Life Sciences, Pain Sensation, medicine.disease, nervous system, Cardiovascular Anatomy, Time Domain Analysis, Cardiac Electrophysiology, business, Mathematical Functions, 030217 neurology & neurosurgery, Failed back surgery, Neuroscience

Abstract

Background Building on the recent finding that chronic pain patients with impaired functioning of the descending nociceptive inhibitory system (DNIS) present lower resting heart rate variability (HRV), this study aims to investigate the impact of Spinal Cord Stimulation (SCS) on HRV in patients with Failed Back Surgery Syndrome (FBSS). More precisely, we hypothesize that SCS influences the DNIS, with increased parasympathetic tone as a consequence, as measurable by HRV analysis. Methods Twenty-two patients diagnosed with FBSS and treated with SCS participated in this study. HRV was measured with a 2-lead ECG registration tool during on and off states of SCS. HRV analysis for time, frequency, time-frequency and nonlinear domain parameters was based on a 5-minute recording segment. Results The mean heart rate and low frequency power were significantly lower when SCS was activated. HRV, absolute and normalized high frequency power significantly increased during SCS compared to without SCS. The ratio of low frequency/high frequency ratios, as parameter for global sympathetic-parasympathetic equilibrium, significantly decreased when SCS was activated. Conclusions When SCS is switched off, patients with FBSS present relatively stronger sympathetic tone and weaker parasympathetic activity. Activation of the SCS, possibly via stimulation of the DNIS, restores this disbalance of autonomic activity.

Published

2019

40. Parameters of Spinal Cord Stimulation and Their Role in Electrical Charge Delivery: A Review

Author

Eric Buchser, Sam Eldabe, Yun Guan, Lisa M. Johanek, Jonathan P. Miller, and Bengt Linderoth

Subjects

Spinal Cord Stimulation, business.industry, Electrical Equipment and Supplies, medicine.medical_treatment, Stimulation, Charge (physics), Sensory system, General Medicine, Spinal cord stimulation, Electric charge, 03 medical and health sciences, 0302 clinical medicine, Anesthesiology and Pain Medicine, Spinal Cord, Neurology, 030202 anesthesiology, Duty cycle, Humans, Medicine, Neurology (clinical), business, Neuroscience, Neurostimulation, 030217 neurology & neurosurgery, Pulse-width modulation

Abstract

Objective All spinal cord stimulation (SCS) parameters (amplitude, pulse width, frequency) influence the interaction of stimulation with the nervous system and impact the delivery of charge. Regardless of the stimulation pattern, there are certain crucial elements related to dose, and a basic fundamental knowledge of the parameters used to administer the therapy is fundamentally important. Methods This paper reviews basic concepts of energy delivery in neurostimulation (amplitude, pulse width, and frequency) and introduces the concept of the duty cycle and charge per sec as another way to characterize stimulation patterns. Results Results from recent clinical publications indicate that an important aspect of the therapy may be the total charge delivery over a period of time. Viewed in this way, rate of charge delivery may be analogous to dosage of medication, and SCS parameters that use different duty cycles may exert distinct therapeutic effects by allowing different amounts of energy to be delivered to neural tissue with less sensory percept or even none at all. Conclusions The basic parameters of amplitude, pulse width, and frequency have important implications for the delivery of charge in SCS. Modern programming strategies require an understanding of charge delivery for conventional SCS therapy as well as new therapies such as 10 kHz and burst SCS.

Published

2016

41. Determining the Feasibility of Spinal Cord Neuromodulation for the Treatment of Chronic Systolic Heart Failure

Author

Scott A. Sarazin, Peter Van Buren, Defeat-Hf Trial Investigators, Douglas L. Mann, David Caraway, Fred Kueffer, Cecilia Linde, Douglas P. Zipes, Heinz Theres, Petr Neuzil, Bengt Linderoth, Mike J. L. DeJongste, and Clas Mannheimer

Subjects

medicine.medical_specialty, Ejection fraction, Randomization, business.industry, medicine.medical_treatment, Mean QRS Duration, 030204 cardiovascular system & hematology, medicine.disease, Confidence interval, Neuromodulation (medicine), 03 medical and health sciences, QRS complex, 0302 clinical medicine, Heart failure, Internal medicine, medicine, Cardiology, Cardiology and Cardiovascular Medicine, business, 030217 neurology & neurosurgery, Vagus nerve stimulation

Abstract

Objectives The primary objective of the study was a change in left ventricular end-systolic volume index (LVESVi) from baseline to 6 months of spinal cord stimulation (SCS) therapy in the treatment arm compared to the control arm as measured by echocardiography. Secondary objectives were changes in peak oxygen uptake and N-terminal pro–B-type natriuretic peptide (NT-proBNP) between the treatment arm and control arm from baseline through 6 months. Background Abnormal neurohormonal activation is often responsible for progression of heart failure (HF). Treatment has often included drug therapy to modulate the neurohormonal axis. The purpose of the DEFEAT-HF (Determining the Feasibility of Spinal Cord Neuromodulation for the Treatment of Chronic Heart Failure) clinical study was to evaluate whether direct modulation of the nervous system through SCS improved HF metrics, including heart size, biomarkers, functional capacity, and symptoms. Methods The DEFEAT-HF study was a prospective, multicenter randomized (3:2), parallel, single-blind, controlled study to investigate whether SCS was a feasible therapy for the treatment of systolic HF for patients with New York Heart Association functional class III HF, left ventricular ejection fraction (LVEF) ≤35%, QRS duration Results In total, 81 patients were enrolled, with 66 successfully randomized and implanted with the SCS device system. Seventy-six percent (50 of 66) had an implantable cardioverter-defibrillator at the baseline visit. Among randomized patients, the mean age was 61 years, 79% were male, mean LVEF was 27%, and mean QRS duration was 105 ms. The change in LVESVi over 6 months was not significantly different between randomization arms (SCS OFF: –2.2 [95% confidence interval: –9.1 to 4.6] vs. SCS ON: 2.1 [95% confidence interval: –2.7 to 6.9]; p = 0.30). Analyses of secondary endpoints for the study were also not significantly different. Conclusions The present study does not provide evidence to support a meaningful change in clinical outcomes for HF patients receiving SCS. (Determining the Feasibility of Spinal Cord Neuromodulation for the Treatment of Chronic Heart Failure [DEFEAT-HF]; NCT01112579 )

Published

2016

42. High-Frequency (1 kHz) Spinal Cord Stimulation—Is Pulse Shape Crucial for the Efficacy? A Pilot Study

Author

Björn A. Meyerson, Bengt Linderoth, and Zhiyang Song

Subjects

Male, Pain Threshold, SNi, Pilot Projects, Stimulation, Biophysical Phenomena, Physical Stimulation, Psychophysics, medicine, Animals, Rats, Wistar, Lead (electronics), Pain Measurement, Analysis of Variance, Spinal Cord Stimulation, integumentary system, Pulse (signal processing), business.industry, Nervous tissue, General Medicine, Nerve injury, Rats, Disease Models, Animal, Treatment Outcome, Anesthesiology and Pain Medicine, medicine.anatomical_structure, Spinal Cord, nervous system, Neurology, Hyperalgesia, Anesthesia, Neuropathic pain, Neuralgia, Neurology (clinical), Sciatic nerve, medicine.symptom, business, tissues, Biomedical engineering

Abstract

Objectives Conflicting data regarding the efficacy of high-frequency spinal cord stimulation (HF SCS) has prompted the issue of the possible importance of the shape of the stimulating pulses. The aim of this pilot study was to compare HF SCS applied with monophasic and biphasic pulses of two different durations with conventional SCS in a rat model of neuropathic pain. Materials and Methods Rats were operated with lesions of sciatic nerve branches according to the spared nerve injury procedure (SNI). Animals, which developed pathological tactile hypersensitivity after surgery, were implanted with four-polar miniature SCS leads. SCS was applied during 60 min with either conventional current parameters (monophasic pulse width [PW]: 200 μsec; 50 Hz and amplitude 80% of the motor threshold [MT]), or with high-frequency SCS (1 kHz) with monophasic or biphasic pulses, the latter with pulse widths of either 24 (12 + 12) or 48 (24 + 24) μsec. The outcomes were examined regarding change of tactile hypersensitivity during the one-hour SCS period and with two tests of thermal sensitivity. Results Conventional monophasic SCS, as well as HF SCS applied with monophasic PW = 24 μsec or with biphasic PW = 48 (24 + 24) μsec, had similar suppressive effects on tactile hypersensitivity. Solely, HF SCS applied with biphasic pulses with a total PW of 24 (12 + 12) μsec demonstrated no effect. Thermal hypersensitivity was unaffected by HF SCS with all pulse varieties. Conclusions There is no significant difference in efficacy between HF SCS applied with low amplitude (“subparesthetic”) monophasic and biphasic pulses. However, short PWs providing only 12 μsec of cathodal stimulation was ineffective, presumably because of insufficient electric charge transfer from the lead contacts to the nervous tissue.

Published

2015

43. RNA-seq of spinal cord from nerve-injured rats after spinal cord stimulation

Author

Bengt Linderoth, Zhiyong Chen, Eellan Sivanesan, Yun Guan, Sean D. Taverna, Srinivasa N. Raja, and Kimberly E. Stephens

Subjects

Male, Down-Regulation, Constriction, Pathologic, Inhibitory postsynaptic potential, Models, Biological, Rats, Sprague-Dawley, 03 medical and health sciences, Cellular and Molecular Neuroscience, 0302 clinical medicine, 030202 anesthesiology, Medicine, Animals, pain, Sex Characteristics, Spinal Cord Stimulation, business.industry, Sequence Analysis, RNA, Gene Expression Profiling, Therapeutic effect, Chronic pain, spinal cord, Nerve injury, medicine.disease, Spinal cord, Sciatic Nerve, 3. Good health, Up-Regulation, Anesthesiology and Pain Medicine, medicine.anatomical_structure, Gene Ontology, Anesthesia, Neuropathic pain, Chronic Disease, Synapses, Excitatory postsynaptic potential, gene expression, Molecular Medicine, Neuralgia, Female, Synaptic signaling, nerve injury, medicine.symptom, RNA-seq, business, 030217 neurology & neurosurgery, Research Article

Abstract

Spinal cord stimulation has become an important modality in pain treatment especially for neuropathic pain conditions refractory to pharmacotherapy. However, the molecular control of inhibitory and excitatory mechanisms observed after spinal cord stimulation are poorly understood. Here, we used RNA-seq to identify differences in the expression of genes and gene networks in spinal cord tissue from nerve-injured rats with and without repetitive conventional spinal cord stimulation treatment. Five weeks after chronic constrictive injury to the left sciatic nerve, male and female rats were randomized to receive repetitive spinal cord stimulation or no treatment. Rats receiving spinal cord stimulation underwent epidural placement of a miniature stimulating electrode and received seven sessions of spinal cord stimulation (50 Hz, 80% motor threshold, 0.2 ms, constant current bipolar stimulation, 120 min/session) over four consecutive days. Within 2 h after the last spinal cord stimulation treatment, the L4-L6 spinal segments ipsilateral to the side of nerve injury were harvested and used to generate libraries for RNA-seq. Our RNA-seq data suggest further increases of many existing upregulated immune responses in chronic constrictive injury rats after repetitive spinal cord stimulation, including transcription of cell surface receptors and activation of non-neuronal cells. We also demonstrate that repetitive spinal cord stimulation represses transcription of several key synaptic signaling genes that encode scaffold proteins in the post-synaptic density. Our transcriptional studies suggest a potential relationship between specific genes and the therapeutic effects observed in patients undergoing conventional spinal cord stimulation after nerve injury. Furthermore, our results may help identify new therapeutic targets for improving the efficacy of conventional spinal cord stimulation and other chronic pain treatments.

Published

2018

44. The Impact of Electrical Charge Delivery on Inhibition of Mechanical Hypersensitivity in Nerve-Injured Rats by Sub-Sensory Threshold Spinal Cord Stimulation

Author

Zhiyong Chen, Eellan Sivanesan, Yun Guan, Shuguang Liu, Sridevi V. Sarma, Bengt Linderoth, Qian Huang, Louis P. Vera-Portocarrero, Xueming Chen, Christine Shi, Srinivasa N. Raja, and Fei Yang

Subjects

Male, Time Factors, medicine.medical_treatment, Vertebral level, Biophysics, Stimulation, Spinal cord stimulation, Article, Rats, Sprague-Dawley, 03 medical and health sciences, 0302 clinical medicine, Sensory threshold, Medicine, Animals, Spinal nerve ligation, Neurostimulation, Pain Measurement, Spinal Cord Stimulation, integumentary system, business.industry, Subthreshold conduction, General Medicine, Nerve injury, Rats, Disease Models, Animal, Anesthesiology and Pain Medicine, Neurology, nervous system, Hyperalgesia, Anesthesia, Sensory Thresholds, Neuralgia, Neurology (clinical), medicine.symptom, business, tissues, 030217 neurology & neurosurgery

Abstract

Objectives Spinal cord stimulation (SCS) represents an important neurostimulation therapy for pain. A new ultra-high frequency (10,000 Hz) SCS paradigm has shown improved pain relief without eliciting paresthesia. We aim to determine whether sub-sensory threshold SCS of lower frequencies also can inhibit mechanical hypersensitivity in nerve-injured rats and examine how electric charge delivery of stimulation may affect pain inhibition by different patterns of subthreshold SCS. Materials and methods We used a custom-made quadripolar electrode (Medtronic Inc., Minneapolis, MN, USA) to provide bipolar SCS epidurally at the T10 to T12 vertebral level. According to previous findings, SCS was tested at 40% of the motor threshold, which is considered to be a sub-sensory threshold intensity in rats. Paw withdrawal thresholds to punctate mechanical stimulation were measured before and after SCS in rats that received an L5 spinal nerve ligation. Results Both 10,000 Hz (10 kHz, 0.024 msec) and lower frequencies (200 Hz, 1 msec; 500 Hz, 0.5 msec; 1200 Hz; 0.2 msec) of subthreshold SCS (120 min) attenuated mechanical hypersensitivity, as indicated by increased paw withdrawal thresholds after stimulation in spinal nerve ligation rats. Pain inhibition from different patterns of subthreshold SCS was not governed by individual stimulation parameters. However, correlation analysis suggests that pain inhibition from 10 kHz subthreshold SCS in individual animals was positively correlated with the electric charges delivered per second (electrical dose). Conclusions Inhibition of neuropathic mechanical hypersensitivity can be achieved with low-frequency subthreshold SCS by optimizing the electric charge delivery, which may affect the effect of SCS in individual animals.

Published

2018

45. Long-Term Spinal Cord Stimulation Alleviates Mechanical Hypersensitivity and Increases Peripheral Cutaneous Blood Perfusion in Experimental Painful Diabetic Polyneuropathy

Author

Elbert A.J. Joosten, Maarten van Beek, Wiel Honig, Denise J. H. P. Hermes, Bengt Linderoth, Maarten van Kleef, Sander M. J. van Kuijk, RS: MHeNs - R3 - Neuroscience, Promovendi MHN, Anesthesiologie, Ondersteunend personeel MHN, RS: CAPHRI - R2 - Creating Value-Based Health Care, MUMC+: KIO Kemta (9), MUMC+: CAKZ Pijnkennis Ane (9), and MUMC+: MA Anesthesiologie (9)

Subjects

Blood Glucose, Male, Time Factors, spinal cord stimulation, laser Doppler imaging, Stimulation, Rats, Sprague-Dawley, 0302 clinical medicine, 030202 anesthesiology, mechanical hypersensitivity, Laser-Doppler Flowmetry, vasodilation, PDPN, Pain Measurement, Skin, integumentary system, NEUROPATHIC PAIN, General Medicine, RANDOMIZED CONTROLLED-TRIAL, Peripheral, Nociception, Neurology, Hyperalgesia, Anesthesia, Neuropathic pain, medicine.symptom, SENSORY FIBERS, tissues, Perfusion, Blood Flow Velocity, medicine.drug, Pain Threshold, Experimental research, FREQUENCY, Diabetes Mellitus, Experimental, RATS, 03 medical and health sciences, Clinical Research, medicine, Animals, Analysis of Variance, long‐term spinal cord stimulation, business.industry, NERVE INJURY, ELECTRICAL-STIMULATION, Nerve injury, Streptozotocin, painful diabetic polyneuropathy, MODEL, Editor's Choice, Disease Models, Animal, Anesthesiology and Pain Medicine, PHYSICAL-ACTIVITY, nervous system, physiology, Neurology (clinical), business, long-term spinal cord stimulation, von Frey, 030217 neurology & neurosurgery

Abstract

Objectives This study utilizes a model of long-term spinal cord stimulation (SCS) in experimental painful diabetic polyneuropathy (PDPN) to investigate the behavioral response during and after four weeks of SCS (12 hours/day). Second, we investigated the effect of long-term SCS on peripheral cutaneous blood perfusion in experimental PDPN. Methods Mechanical sensitivity was assessed in streptozotocin induced diabetic rats (n = 50) with von Frey analysis. Hypersensitive rats (n = 24) were implanted with an internal SCS battery, coupled to an SCS electrode covering spinal levels L2-L5. The effects of four weeks of daily conventional SCS for 12 hours (n = 12) or Sham SCS (n = 12) were evaluated with von Frey assessment, and laser Doppler imaging (LDI). Results Average paw withdrawal thresholds (PWT) increased during long-term SCS in the SCS group, in contrast to a decrease in the Sham group (Sham vs. SCS; p = 0.029). Twenty-four hours after long-term SCS average PWT remained higher in the SCS group. Furthermore, the SCS group showed a higher cutaneous blood perfusion during long-term SCS compared to the Sham group (Sham vs. SCS; p = 0.048). Forty-eight hours after long-term SCS, no differences in skin perfusion were observed. Discussion We demonstrated that long-term SCS results in decreased baseline mechanical hypersensitivity and results in increased peripheral blood perfusion during stimulation in a rat model of PDPN. Together, these findings indicate that long-term SCS results in modulation of the physiological circuitry related to the nociceptive system in addition to symptomatic treatment of painful symptoms.

Published

2018

46. Poor sleep and pain: Does spinal oxidative stress play a role?

Author

Lars Gramstad and Bengt Linderoth

Subjects

chemistry.chemical_classification, Reactive oxygen species, Sleep disorder, business.industry, Chronic pain, Pain hypersensitivity, medicine.disease, Intrathecal, medicine.disease_cause, Bioinformatics, Poor sleep, Sleep deprivation, Anesthesiology and Pain Medicine, chemistry, Anesthesia, medicine, Neurology (clinical), medicine.symptom, business, Oxidative stress

Abstract

A vicious circle of sleep disorder and chronic pain has been nvisaged in recent years. Clearly, painful stimulimaycausearousal nd awakening; however, deprivation of sleepmay aswell increase he perception of pain as demonstrated by experimental data, upported also by clinical studies [1]. Mechanisms of action leadng to lower pain thresholds in sleep deprivation are not as yet stablished. Using pain hypersensitivity models being unrelated to leep, previous investigations in mice and rats indicate that spinal xidative stress may play a role, an observation which is further upported in recent studies [2,3]. In the present issue of the Joural, a paper by Wei et al. [4] is testing the hypothesis whether pinal oxidative stressmay contribute to pain-like hypersensitivity nduced by REM (rapid-eye-movement) sleep deprivation. Using n experimental technique that included intrathecal administraion of antioxidants and a reactive oxygen species (ROS) donor, the uthors provide new knowledge by indicating oxidative stress as a ontributing link between sleep deprivation and the generation of ain.

Published

2018

47. List of Contributors of Volume 1

Author

Brendan Z. Allison, Jonathan Riley, Kip A. Ludwig, Cameron C. McIntyre, Donald Y. Ye, Jeffery J. Dolce, Timothy J. Denison, Richard B. North, Jeffrey W. Cozzens, John L. Parker, Christy Gomez, Konstantin V. Slavin, Dirk De Ridder, Michael Stanton-Hicks, Bengt Linderoth, Hilarie C. Tomasiewicz, Narendra Bhadra, Erika K. Ross, Lydia C. George, Joseph J. Pancrazio, Niloy Bhadra, Changfeng Tai, Joshua M. Rosenow, Lynne V. Gauthier, John P. Donoghue, Frank G. Shellock, Michael W. Keith, Alon Y. Mogilner, Richard L. Weiner, William C. de Groat, Kerry Bradley, Jane Shipley, D. Michael Ackermann, Francesco Sammartino, Warren M. Grill, Troy A. Richter, J.T. Mortimer, Jeffrey Herron, Doug Weber, Brian Simpson, Dali Yin, Shannon W. Clark, Chad E. Bouton, Yun Guan, James P. Harris, Abidemi B. Ajiboye, Andre G. Machado, Chengyuan Wu, Toacca Taylor, Daniel M. Doleys, Nigel P. Pedersen, Ashwini Sharan, Amy M. Goodman, Elliot S. Krames, Charles D. Blaha, Kevin L. Kilgore, Benoit M. Dawant, Steve G. Manker, Steven M. Falowski, Harry A. Hoyen, Jeffrey R. Capadona, Sven Vanneste, Ali R. Rezai, William Cusack, Vibhor Krishna, Ravichandra Madineni, Dustin J. Tyler, Kristl E.J. Vonck, Robert E. Gross, Tim Vancamp, Hang Yin, Alexander R. Kent, Michael G. Kaplitt, Giancarlo Barolat, Bin He, Lars E. Larsen, Andrew J. Shoffstall, Stuart F. Cogan, Benjamin Pless, Gary Kocharian, Jeffery Kramer, P. Hunter Peckham, Peter E. Konrad, Allison Foster, Robert F. Kirsch, Elizabeth M. Mosier, Kathryn M. Schubauer, Kendall H. Lee, Michael Wolfson, Christopher L. Pulliam, Gerwin Schalk, Seth A. Hara, Pierre-François D'Haese, and Erik J. Peterson

Subjects

Petroleum engineering, Environmental science, Volume (compression)

Published

2018

48. Spinal Cord Stimulation

Author

Bengt Linderoth, Yun Guan, Elliot S. Krames, Kerry Bradley, and John L. Parker

Subjects

integumentary system, business.industry, Chronic pain, Evoked compound action potential, Spinal cord stimulation, medicine.disease, 03 medical and health sciences, Electrophysiology, 0302 clinical medicine, nervous system, Action (philosophy), 030202 anesthesiology, medicine, Clinical efficacy, Pain inhibition, business, tissues, Neuroscience, 030217 neurology & neurosurgery

Abstract

Spinal cord stimulation (SCS) has been used in managing chronic pain conditions that are refractory to current pharmacotherapies. However, conventional SCS has often been associated with suboptimal efficacy and short-lived therapeutic effects. It is important to further improve the clinical efficacy of SCS by enhancing our understanding of its mechanisms of action (MOAs). Here, we review research on MOA in the past decade (2006–2016) and highlight important findings regarding the biological basis by which different paradigms of SCS may produce pain inhibition. In addition, we discuss future research directions. The potential mechanisms and neuronal substrates that may underlie the paresthesia-free pain inhibition by the novel kilohertz high-frequency SCS are further reviewed in more detail. Additionally, we describe the recently developed methods and rationales of recording electrically evoked compound action potential as an in situ electrophysiological measure to provide diagnostic and prognostic indications for chronic pain sufferers and to evaluate SCS.

Published

2018

49. Therapeutic value of spinal cord stimulation in irritable bowel syndrome: a randomized crossover pilot study

Author

Göran Lind, Jaleh Winter, Bengt Linderoth, and Per M. Hellström

Subjects

Adult, Male, Abdominal pain, Physiology, Visual analogue scale, Pilot Projects, Stimulation, Irritable Bowel Syndrome, Quality of life, Physiology (medical), medicine, Humans, Irritable bowel syndrome, Pain Measurement, Spinal Cord Stimulation, Cross-Over Studies, integumentary system, business.industry, Chronic pain, Middle Aged, medicine.disease, Crossover study, Abdominal Pain, Diarrhea, Treatment Outcome, nervous system, Anesthesia, Quality of Life, Female, medicine.symptom, business

Abstract

Irritable bowel syndrome (IBS) is characterized by abdominal pain and changed bowel habits. Spinal cord stimulation (SCS) has been used for treatment of chronic pain syndromes. Animal studies have shown SCS to reduce the reaction to colonic balloon distension, known to be increased in IBS patients. To elucidate the potential for SCS as treatment for IBS, a pilot study was performed. Ten IBS patients (age 26–56 yr) were recruited. A SCS system with a four-polar electrode was implanted at the T5-T8 level. After a 2-wk run-in, a randomized, crossover design SCS during 6 wk was compared with no stimulation, with an ensuing stimulation period for 12 wk; total study period 28 wk. Patients recorded pain level, pain attacks, diarrheas, and global quality of life in a diary. At end of the study patients could choose to retain their SCS system or have it removed. Nine patients completed the whole trial. During stimulation periods the median pain scores were significantly reduced from visual analogue scale (VAS) 7 (4–8) to 3 (2.5–7) and to 4 (2–6) during early and late stimulation periods, respectively ( P < 0.03–0.04). Pain attacks were numerically reduced. A few patients reported reduced number of diarrheas. After study termination, six patients chose to retain their SCS system. To conclude, SCS is a minimally invasive treatment option for pain in IBS. With SCS the pain level was reduced though with merely a trend for number of attacks and diarrheas. The efficacy of SCS in IBS pain indicates a possible usefulness in other painful bowel disorders.

Published

2015

50. Brain Changes in Alzheimer's Disease Patients with Implanted Encapsulated Cells Releasing Nerve Growth Factor

Author

Andrew Simmons, Daniel Ferreira, Eric Westman, Kaj Blennow, Azadeh Karami, Per Almqvist, Taher Darreh-Shori, Helga Eyjolfsdottir, Lars Wahlberg, Maria Eriksdotter, Åke Seiger, Maria Kristoffersen Wiberg, Lars-Olof Wahlund, Bengt Linderoth, and Göran Lind

Subjects

Male, medicine.medical_specialty, Pathology, Neuroprotection, Drug Delivery Systems, Cerebrospinal fluid, Atrophy, Alzheimer Disease, Internal medicine, Nerve Growth Factor, medicine, Humans, Cholinergic neuron, Aged, Aged, 80 and over, Basal forebrain, Amyloid beta-Peptides, General Neuroscience, Brain, General Medicine, Middle Aged, medicine.disease, Magnetic Resonance Imaging, Peptide Fragments, Psychiatry and Mental health, Clinical Psychology, Treatment Outcome, Nicotinic agonist, Endocrinology, Nerve growth factor, Nerve Degeneration, Disease Progression, Female, Animal studies, Geriatrics and Gerontology, Psychology, Biomarkers

Abstract

New therapies with disease-modifying effects are urgently needed for treating Alzheimer's disease (AD). Nerve growth factor (NGF) protein has demonstrated regenerative and neuroprotective effects on basal forebrain cholinergic neurons in animal studies. In addition, AD patients treated with NGF have previously shown improved cognition, EEG activity, nicotinic binding, and glucose metabolism. However, no study to date has analyzed brain atrophy in patients treated with NGF producing cells. In this study we present MRI results of the first clinical trial in patients with AD using encapsulated NGF biodelivery to the basal forebrain. Six AD patients received the treatment during twelve months. Patients were grouped as responders and non-responders according to their twelve-months change in MMSE. Normative values were created from 131 AD patients from ADNI, selecting 36 age- and MMSE-matched patients for interpreting the longitudinal changes in MMSE and brain atrophy. Results at baseline indicated that responders showed better clinical status and less pathological levels of cerebrospinal fluid (CSF) Aβ1-42. However, they showed more brain atrophy, and neuronal degeneration as evidenced by higher CSF levels of T-tau and neurofilaments. At follow-up, responders showed less brain shrinkage and better progression in the clinical variables and CSF biomarkers. Noteworthy, two responders showed less brain shrinkage than the normative ADNI group. These results together with previous evidence supports the idea that encapsulated biodelivery of NGF might have the potential to become a new treatment strategy for AD with both symptomatic and disease-modifying effects.

Published

2014