Your search keyword '"Ganglia, Spinal"' showing total 19,916 results

1. Study on the mechanism of P2X receptors involved in electroacupuncture treatment of neuropathic pain in dorsal root ganglion and spinal cord.

Author

Si, Shuhan, Tang, Wenchao, and Wang, Fan

Abstract

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Published

2023

2. Low-frequency dorsal root stimulation is effective for various pain etiologies and pain locations.

Author

Tabatabaei P, Kakas P, Bredemo L, and Salomonsson J

Subjects

Humans, Male, Female, Middle Aged, Retrospective Studies, Adult, Aged, Ganglia, Spinal, Treatment Outcome, Pain Measurement methods, Cohort Studies, Pain Management methods, Electric Stimulation Therapy methods, Chronic Pain therapy, Spinal Nerve Roots, Neuralgia therapy, Neuralgia etiology

Abstract

Background: Dorsal root ganglion stimulation (DRG-S) has emerged as a novel therapeutic approach for managing chronic neuropathic pain., Aims: This study aims to compare the effectiveness of 4-20 Hz DRG-S through a retrospective analysis of a cohort of 28 patients with various neuropathic pain etiologies and pain locations., Materials and Methods: Patient responses to both stimulation frequencies were examined using the Numeric Rating Scale (NRS) and Patient Global Impression of Change (PGIC) assessments. Factors such as patient preference and satisfaction were also evaluated., Results: The results indicate that 4 Hz DRG-S is not only as effective as 20 Hz stimulation but may also surpass it. Among the 28 patients, 26 assessed 4 Hz stimulation to be at least as effective as 20 Hz, with the majority (22 out of 26) considering 4 Hz stimulation superior. After trying 4 Hz stimulation, 24 out of 28 patients chose it over 20 Hz, while two patients opted for a combination of both settings. Only two patients reverted to their original 20 Hz stimulation program. A statistically significant pain reduction of 24% was observed when comparing the effects of 4 Hz versus 20 Hz., Discussion: The study highlights the broader applicability of low-frequency DRG-S, extending its benefits beyond the realm of low back pain. Patients with diverse pain etiologies and locations experienced comparable positive outcomes, suggesting that the advantages of low-frequency stimulation are not confined to specific pain types or locations., Conclusion: This study emphasizes the potential of 4 Hz DRG-S as a valuable alternative to the standard 20 Hz stimulation. Although the exact mechanisms require further investigation, the observed clinical benefits and patient preferences for low-frequency stimulation suggest its viability across diverse pain indications and locations. Additional research is necessary to substantiate these findings and assess the durability and economic implications of low-frequency DRG-S., (© 2024 The Author(s). Pain Practice published by Wiley Periodicals LLC on behalf of World Institute of Pain.)

Published

2024

3. A central and peripheral dual neuromodulation strategy in pain management of zoster-associated pain.

Author

Li X, Zhang H, Zhang X, Ma K, Lv Y, Song T, Guo G, and Huang D

Subjects

Humans, Male, Female, Middle Aged, Aged, Retrospective Studies, Ganglia, Spinal, Pain Measurement, Treatment Outcome, Pulsed Radiofrequency Treatment methods, Pain Management methods, Herpes Zoster complications, Herpes Zoster therapy, Neuralgia, Postherpetic therapy, Spinal Cord Stimulation methods

Abstract

Spinal cord stimulation (SCS) has shown effectiveness in relieving zoster-associated pain (ZAP), but some patients still experience moderate or severe pain after SCS treatment. This study aims to evaluate the impact of SCS combined with dorsal root ganglion (DRG) pulsed radiofrequency (PRF) as a dual neuromodulation strategy on the prognosis of ZAP. The clinical records of patients diagnosed with ZAP who underwent SCS (SCS group) or SCS combined with PRF (SCS + PRF group) at The Third Xiangya Hospital, Central South University, were retrospectively analyzed to compare the effectiveness of the two treatment approaches for ZAP. Outcome measures included changes in Visual Analog Scale (VAS) scores before and after neuromodulation treatment, response rates, and incidence of progression to postherpetic neuralgia (PHN).13 SCS patients and 15 SCS + PRF patients were analyzed. Admission VAS scores were similar (P = 0.934). Upon discharge, no significant differences in VAS or response rates were observed (P > 0.05). However, at 6-month follow-up, the SCS + PRF group had lower VAS scores (1.53 ± 1.06 vs. 3.23 ± 1.50, P < 0.001) and a lower proportion of residual moderate pain (P = 0.041). None in the SCS + PRF group progressed to PHN in the acute/subacute phases, differing significantly from the SCS group (P = 0.038).Therefore, SCS combined with DRG PRF is feasible and effective in the treatment of ZAP. This dual neuromodulation strategy may be a more appropriate regimen for the treatment of ZAP., (© 2024. The Author(s).)

Published

2024

4. Satellite glial cell manipulation prior to axotomy enhances developing dorsal root ganglion central branch regrowth into the spinal cord.

Author

Brown RI, Barber HM, and Kucenas S

Subjects

Animals, Animals, Genetically Modified, Spinal Cord, Satellite Cells, Perineuronal physiology, Neuroglia physiology, Zebrafish Proteins metabolism, Axons physiology, Ganglia, Spinal, Zebrafish, Axotomy, Nerve Regeneration physiology

Abstract

The central and peripheral nervous systems (CNS and PNS, respectively) exhibit remarkable diversity in the capacity to regenerate following neuronal injury with PNS injuries being much more likely to regenerate than those that occur in the CNS. Glial responses to damage greatly influence the likelihood of regeneration by either promoting or inhibiting axonal regrowth over time. However, despite our understanding of how some glial lineages participate in nerve degeneration and regeneration, less is known about the contributions of peripheral satellite glial cells (SGC) to regeneration failure following central axon branch injury of dorsal root ganglia (DRG) sensory neurons. Here, using in vivo, time-lapse imaging in larval zebrafish coupled with laser axotomy, we investigate the role of SGCs in axonal regeneration. In our studies we show that SGCs respond to injury by relocating their nuclei to the injury site during the same period that DRG neurons produce new central branch neurites. Laser ablation of SGCs prior to axon injury results in more neurite growth attempts and ultimately a higher rate of successful central axon regrowth, implicating SGCs as inhibitors of regeneration. We also demonstrate that this SGC response is mediated in part by ErbB signaling, as chemical inhibition of this receptor results in reduced SGC motility and enhanced central axon regrowth. These findings provide new insights into SGC-neuron interactions under injury conditions and how these interactions influence nervous system repair., (© 2024 The Author(s). GLIA published by Wiley Periodicals LLC.)

Published

2024

5. Effectiveness of Dorsal Root Ganglion Stimulation in Chronic Pain Management: A Systematic Review.

Author

Campos-Fajardo S, Sierra-Peña JA, Suárez-Monsalve S, and Acevedo-González JC

Subjects

Humans, Treatment Outcome, Spinal Cord Stimulation methods, Chronic Pain therapy, Ganglia, Spinal, Pain Management methods

Abstract

Objective: This systematic review aims to determine the effectiveness of dorsal root ganglion stimulation (DRGS) in chronic pain management., Methods: In 2023, a comprehensive systematic review was undertaken utilizing various electronic databases, employing MeSH terms and free search terms tailored to the study's aims. This review included primary research such as cohorts, case-control studies, and clinical trials, all focusing on the efficacy of DRGS in treating various chronic pain conditions. Nonhuman or animal studies were omitted from the selection process. A review of study quality was conducted, followed by a meticulous analysis of the findings to synthesize the evidence. This review represents the most current research, with updates extending to 2024. A total of 400 articles were reviewed. Twenty-nine articles were included in our review after meticulous screening., Results: Twenty-nine articles published in the last five years meeting selection criteria were identified, encompassing patients with various diagnoses warranting the use of DRGS beyond complex regional pain syndrome. Additionally, the analysis includes different outcome measurement tools, emphasizing improvements in pain management, functionality, and quality of life. Finally, common complications such as surgical site infections and issues with electrodes are highlighted., Conclusions: This systematic review affirms the effectiveness of DRGS therapy in managing diverse chronic pain conditions, highlighting improvements in quality of life, functionality, and mood states, making it a viable alternative for patients unresponsive to traditional treatments., (Copyright © 2024 The Author(s). Published by Elsevier Inc. All rights reserved.)

Published

2024

6. Efficacy and Safety of Pulsed Radiofrequency of Dorsal Root Ganglion in Elderly Patient Population With Acute and Subacute Zoster-Related Pain.

Author

Dağıstan G and Erdine S

Subjects

Humans, Aged, Male, Female, Aged, 80 and over, Pain Measurement, Treatment Outcome, Pain Management methods, Ganglia, Spinal, Pulsed Radiofrequency Treatment methods, Neuralgia, Postherpetic therapy, Herpes Zoster complications

Abstract

Background: Herpes zoster (HZ) is typically characterized by a burning, stabbing pain, hyperalgesia, and allodynia. In some patients, despite the lesions resolving, the pain persists and becomes chronic. If the pain continues for more than 6 months after the onset of the pain phase, this condition is called postherpetic neuralgia (PHN). The frequency and severity of PHN increase with advancing age. The pain in PHN can be severe, sometimes resistant to medications, significantly impacting the patients' quality of life. The elderly patient population cannot tolerate the medications due to their side effects. In this situation, interventional pain treatment should be applied in the elderly patient group who have a high risk of developing PHN compared to other age groups. Method: We included patients over 65 years of age with HZ-related pain who underwent dorsal root ganglion (DRG) pulsed radiofrequency (PRF) within the first 6 months from the onset of pain. We divided these patients into 2 groups: patients who underwent intervention within the first 1 month from the onset of pain and patients who underwent intervention between 1 and 6 months. We recorded medication doses and Numeric Rating Scale (NRS) scores before the procedure and at 1 week, 1 month, 3 months, and 6 months after the procedure. Results: After the DRG PRF treatment, NRS scores improved significantly in both groups ( p < 0.05). The mean NRS score in the early DRG PRF group was significantly lower than that in the late DRG PRF group ( p < 0.05). The medication doses in the early DRG PRF group were significantly lower than those in the other group ( p < 0.05). Conclusions : Interventional pain treatment should be applied as soon as possible in the elderly patient group who do not respond to first-line medical treatment or cannot tolerate medical treatment due to its side effects and who have a high risk of developing PHN compared to other age groups. DRG PRF, applied in the early period of medical treatment-resistant acute HZ, is safe and effective, preventing the progression to PHN., Competing Interests: The authors declare no conflicts of interest., (Copyright © 2024 Gözde Dağıstan and Serdar Erdine.)

Published

2024

7. Letter to the Editor Regarding "Efficacy of Paravertebral Injection of Interferon-α2b Combined with High-Voltage, Long-Term Pulsed Radiofrequency in DRG in Mitigation of Postherpetic Neuralgia: A Retrospective Study".

Author

Kumar A, Arsal SA, Iqbal U, and Okon II

Subjects

Humans, Retrospective Studies, Ganglia, Spinal, Pulsed Radiofrequency Treatment methods, Interferon alpha-2 therapeutic use, Interferon alpha-2 administration & dosage, Combined Modality Therapy, Interferon-alpha administration & dosage, Treatment Outcome, Neuralgia, Postherpetic therapy

Published

2024

8. Efficacy of Mind-Regulating and Depression-Reliving Acupuncture in Combination with Radiofrequency Thermocoagulation of Dorsal Root Ganglion for Post-herpetic Neuralgia.

Author

Fei Y, Xu L, Fan H, Jiang B, Shao Z, and Liu B

Subjects

Humans, Middle Aged, Male, Female, Aged, Combined Modality Therapy methods, Treatment Outcome, Depression therapy, Mindfulness methods, Pain Measurement, Adult, Neuralgia, Postherpetic therapy, Ganglia, Spinal, Acupuncture Therapy methods, Electrocoagulation methods

Abstract

Purpose: This study is aimed at evaluating the efficacy of mind-regulating and depression-relieving acupuncture in combination with radiofrequency thermocoagulation of dorsal root ganglion (DRG) for post-herpetic neuralgia (PHN)., Methods: PHN patients who presented to the Pain Department of Affiliated Hospital of Jiaxing University from November 2021 to June 2023 were included. The participants were assigned into 2 groups using a random number table: Acupuncture + RFTC (group H, n = 44) group and RFTC (group C, n = 44) group. The pain numerical rating score (NRS), visual analogue scale scores (VAS), IL-6, Gal-3, oral dose of tramadol and gabapentin capsules levels were recorded before and after 1, 2, 4, 8 and 12 weeks of the treatment., Results: After treatment, NRS scores in both groups were significantly lower than pretreatment scores at each time point. Compared with before treatment, the VAS scores at all time points after treatment was increased in both groups. Compared with before treatment, the doses of oral gabapentin capsules and tramadol were reduced in both groups after treatment. Compared with group C, the doses of oral gabapentin capsules and tramadol after the end of the treatment course were significantly reduced in group H. Compared with before treatment, the blood levels of Gal-3 and IL-6 were reduced at all points after treatment in both groups. Compared with group C, the blood Gal-3 and IL-6 levels were significantly reduced in group H., Conclusions: Compared with RFTC alone, acupuncture combined with RFTC of DRG has a better therapeutic effect for PHN., (Copyright © 2024 The Author(s). Published by Elsevier Inc. All rights reserved.)

Published

2024

9. Human dorsal root ganglia are either preserved or completely lost after deafferentation by brachial plexus injury.

Author

Sodmann A, Degenbeck J, Aue A, Schindehütte M, Schlott F, Arampatzi P, Bischler T, Schneider M, Brack A, Monoranu CM, Gräfenhan T, Bohnert M, Pham M, Antoniadis G, Blum R, and Rittner HL

Subjects

Adult, Aged, Female, Humans, Male, Middle Aged, Young Adult, Cohort Studies, Magnetic Resonance Imaging methods, Brachial Plexus injuries, Ganglia, Spinal

Abstract

Background: Plexus injury results in lifelong suffering from flaccid paralysis, sensory loss, and intractable pain. For this clinical problem, regenerative medicine concepts set high expectations. However, it is largely unknown how dorsal root ganglia (DRG) are affected by accidental deafferentation., Methods: Here, we phenotyped DRG of a clinically and MRI-characterised cohort of 13 patients with plexus injury. Avulsed DRG were collected during reconstructive nerve surgery. For control, we used DRG from forensic autopsy. The cellular composition of the DRG was analysed in histopathological slices with multicolour high-resolution immunohistochemistry, tile microscopy, and deep-learning-based bioimage analysis. We then sequenced the bulk RNA of corresponding DRG slices., Results: In about half of the patients we found loss of the typical DRG units consisting of neurones and satellite glial cells. The DRG cells were replaced by mesodermal/connective tissue. In the remaining patients, the cellular units were well preserved. Preoperative plexus MRI neurography was not able to distinguish the two types. Patients with 'neuronal preservation' had less maximum pain than patients with 'neuronal loss'. Arm function improved after nerve reconstruction, but severe pain persisted. Transcriptome analysis of preserved DRGs revealed expression of subtype-specific sensory neurone marker genes, but downregulation of neuronal attributes. Furthermore, they showed signs of ongoing inflammation and connective tissue remodelling., Conclusions: Patients with plexus injury separate into two groups with either neuronal preservation or neuronal loss. The former could benefit from anti-inflammatory therapy. For the latter, studies should explore mechanisms of neuronal loss especially for regenerative approaches., Clinical Trial Registration: DRKS00017266., (Copyright © 2024 The Author(s). Published by Elsevier Ltd.. All rights reserved.)

Published

2024

10. Motor innervation directs the correct development of the mouse sympathetic nervous system.

Author

Erickson AG, Motta A, Kastriti ME, Edwards S, Coulpier F, Théoulle E, Murtazina A, Poverennaya I, Wies D, Ganofsky J, Canu G, Lallemend F, Topilko P, Hadjab S, Fried K, Ruhrberg C, Schwarz Q, Castellani V, Bonanomi D, and Adameyko I

Subjects

Animals, Mice, Ganglia, Spinal, Semaphorins metabolism, Semaphorins genetics, Mice, Transgenic, Neuroglia metabolism, Female, Sympathetic Nervous System embryology, Motor Neurons physiology, Schwann Cells metabolism, Neural Crest cytology, Neural Crest metabolism, Ganglia, Sympathetic cytology

Abstract

The sympathetic nervous system controls bodily functions including vascular tone, cardiac rhythm, and the "fight-or-flight response". Sympathetic chain ganglia develop in parallel with preganglionic motor nerves extending from the neural tube, raising the question of whether axon targeting contributes to sympathetic chain formation. Using nerve-selective genetic ablations and lineage tracing in mouse, we reveal that motor nerve-associated Schwann cell precursors (SCPs) contribute sympathetic neurons and satellite glia after the initial seeding of sympathetic ganglia by neural crest. Motor nerve ablation causes mispositioning of SCP-derived sympathoblasts as well as sympathetic chain hypoplasia and fragmentation. Sympathetic neurons in motor-ablated embryos project precociously and abnormally towards dorsal root ganglia, eventually resulting in fusion of sympathetic and sensory ganglia. Cell interaction analysis identifies semaphorins as potential motor nerve-derived signaling molecules regulating sympathoblast positioning and outgrowth. Overall, central innervation functions both as infrastructure and regulatory niche to ensure the integrity of peripheral ganglia morphogenesis., (© 2024. The Author(s).)

Published

2024

11. Enhancing neurite growth and neural functions on polymeric nerve conduit with BMSC-derived ECM coating.

Author

Wu M, Wang H, Xu K, Mei J, and Wang Z

Subjects

Animals, Rats, PC12 Cells, Tissue Scaffolds chemistry, Coated Materials, Biocompatible chemistry, Coated Materials, Biocompatible pharmacology, Ganglia, Spinal, Peripheral Nerve Injuries therapy, Tissue Engineering methods, Polymers chemistry, Materials Testing, Neurites metabolism, Extracellular Matrix metabolism, Cell Proliferation, Mesenchymal Stem Cells cytology, Polylactic Acid-Polyglycolic Acid Copolymer chemistry, Nerve Regeneration drug effects, Cell Survival

Abstract

The therapy of large defects in peripheral nerve injury (PNI) suffers from several drawbacks, especially the lack of autologous nerve donors. Nerve conduits are considered as a solution for nerve injury treatment, but biocompatibility improvements is still required for conduits prepared with synthetic materials. Cell-derived extracellular matrix (ECM) has drawn attention due to its lower risk of immunogenic response and independence from donor availability. The goal of this study is to coat bone mesenchymal stem cell-derived ECMs on poly(lactic-co-glycolic) acid (PLGA) conduits to enhance their ability to support neural growth and neurite extensions. The ECM-coated conduits have better hydrophilic properties than the pure PLGA conduits. A marked increase on PC12 and RSC96 cells' viability, proliferation and dorsal root ganglion neurite extension was observed. Quantitative PCR analysis exhibited a significant increase in markers for cell proliferation (GAP43), neurite extension (NF-H, MAP2, and β III-tubulin) and neural function (TREK-1). These results show the potential of ECM-coated PLGA conduits in PNI therapy., (Creative Commons Attribution license.)

Published

2024

12. Manipulation of the Myc Interactome to Enhance Nerve Regeneration in a Murine Model.

Author

Poitras TM, Komirishetty P, Areti A, Larouche M, Krishnan A, Chandrasekhar A, Munchrath E, and Zochodne DW

Subjects

Animals, Mice, Disease Models, Animal, Ganglia, Spinal, Mice, Inbred C57BL, Cells, Cultured, Female, Nerve Regeneration physiology, Proto-Oncogene Proteins c-myc metabolism, Proto-Oncogene Proteins c-myc genetics, Schwann Cells physiology, Schwann Cells metabolism, Sensory Receptor Cells physiology, Sensory Receptor Cells metabolism

Abstract

Objective: This study was undertaken to explore manipulation of the Myc protein interactome, members of an oncogene group, in enhancing the intrinsic growth of injured peripheral adult postmitotic neurons and the nerves they supply. New approaches to enhance adult neuron growth properties are a key strategy in improving nerve regeneration., Methods: Expression and impact of Myc interactome members c-Myc, N-Myc, Mad1, and Max were evaluated within naive and "preconditioned" adult sensory neurons and Schwann cells (SCs), using siRNA and transfection of CRISPR/Cas9 or luciferase reporter in vitro. Morphological, behavioral, and electrophysiological indices of nerve regeneration were analyzed in vivo., Results: c-Myc, N-Myc, Max, and Mad were expressed in adult sensory neurons and in partnering SCs. In vitro knockdown (KD) of either Mad1 or Max, competitive inhibitors of Myc, unleashed heightened neurite outgrowth in both naive uninjured or preconditioned adult neurons. In contrast, KD or inhibition of both isoforms of Myc was required to suppress growth. In SCs, Mad1 KD not only enhanced migratory behavior but also conditioned increased outgrowth in separately cultured adult sensory neurons. In vivo, local Mad1 KD improved electrophysiological, behavioral, and structural indices of nerve regeneration out to 60 days of follow-up., Interpretation: Members of the Myc interactome, specifically Mad1, are novel targets for improving nerve regeneration. Unleashing of Myc growth signaling through Mad1 KD enhances the regrowth of both peripheral neurons and SCs to facilitate better regrowth of nerves. ANN NEUROL 2024;96:216-230., (© 2024 American Neurological Association.)

Published

2024

13. Computed Tomography-Guided Dorsal Root Ganglion Ozone Injection Combined With Pulsed Radiofrequency for Acute Herpes Zoster Neuralgia Treatment of Middle-aged and Elderly People: A Randomized, Double-blinded, Controlled Trial.

Author

Wang R, Xia Z, Ma Y, Huang B, Yao M, and Ma L

Subjects

Humans, Male, Female, Middle Aged, Aged, Double-Blind Method, Treatment Outcome, Tomography, X-Ray Computed, Neuralgia, Postherpetic therapy, Combined Modality Therapy, Pain Measurement, Gabapentin administration & dosage, Gabapentin therapeutic use, Neuralgia therapy, Ozone administration & dosage, Ozone therapeutic use, Ganglia, Spinal, Herpes Zoster complications, Herpes Zoster therapy, Pulsed Radiofrequency Treatment methods

Abstract

Objectives: To investigate the efficacy and safety of pulsed radiofrequency of the dorsal root ganglion combined with ozone injection for treating acute herpes zoster (HZ) neuralgia in middle-aged and elderly adults., Methods: A total of 164 middle-aged and elderly patients with acute HZ were randomly assigned to 2 groups: the pulsed radiofrequency combined with ozone injection group (group A) and the pulsed radiofrequency group (group B). The therapeutic effects were evaluated using Numeric Rating Scale (NRS) scores and the average doses of gabapentin (mg/d) preoperatively and 1 day, 2 weeks, 4 weeks, 12 weeks, and 24 weeks postoperatively. The incidence of clinically significant postherpetic neuralgia (PHN) and complications in the 2 groups were recorded., Results: The data showed that the NRS scores and the doses of gabapentin after treatment were significantly lower when compared with the baseline values in both groups. Compared with group B, the NRS scores and the doses of postoperative gabapentin were significantly lower in group A. The incidence of PHN was significantly lower at weeks 4, 12, and 24 in group A than in group B. No adverse reactions occurred in either of the 2 groups post-treatment., Conclusions: The results indicated that ozone injection in the dorsal root ganglion combined with pulsed radiofrequency therapy was more effective in treating acute HZ neuralgia in middle-aged and elderly adults. It provides patients with longer-lasting pain relief, decreased incidence of PHN and the doses of medication, and improved quality of life than with Pulsed Radiofrequency treatment., Competing Interests: The authors declare no conflict of interest., (Copyright © 2024 The Author(s). Published by Wolters Kluwer Health, Inc.)

Published

2024

14. Mesenchymal Stem Cell Engagement Modulates Neuroma Microenviroment in Rats and Humans and Prevents Postamputation Pain.

Author

Casadei M, Miguel B, Rubione J, Fiore E, Mengelle D, Guerri-Guttenberg RA, Montaner A, Villar MJ, Constandil-Córdova L, Romero-Sandoval AE, and Brumovsky PR

Subjects

Animals, Humans, Rats, Male, Mesenchymal Stem Cells physiology, Rats, Sprague-Dawley, Disease Models, Animal, Female, Ganglia, Spinal, Pain, Postoperative, Amputation, Surgical, Neuroma, Phantom Limb physiopathology, Phantom Limb therapy, Mesenchymal Stem Cell Transplantation methods

Abstract

Postamputation pain is currently managed unsatisfactorily with neuron-targeted pharmacological and interventional therapies. Non-neuronal pain mechanisms have emerged as crucial factors in the development and persistence of postamputation pain. Consequently, these mechanisms offer exciting prospects as innovative therapeutic targets. We examined the hypothesis that engaging mesenchymal stem cells (MSCs) would foster local neuroimmune interactions, leading to a potential reduction in postamputation pain. We utilized an ex vivo neuroma model from a phantom limb pain patient to uncover that the oligodeoxynucleotide IMT504 engaged human primary MSCs to promote an anti-inflammatory microenvironment. Reverse translation experiments recapitulated these effects. Thus, in an in vivo rat model, IMT504 exhibited strong efficacy in preventing autotomy (self-mutilation) behaviors. This effect was linked to a substantial accumulation of MSCs in the neuroma and associated dorsal root ganglia and the establishment of an anti-inflammatory phenotype in these compartments. Centrally, this intervention reduced glial reactivity in the dorsal horn spinal cord, demonstrating diminished nociceptive activity. Accordingly, the exogenous systemic administration of MSCs phenocopied the behavioral effects of IMT504. Our findings underscore the mechanistic relevance of MSCs and the translational therapeutic potential of IMT504 to engage non-neuronal cells for the prevention of postamputation pain. PERSPECTIVE: The present study suggests that IMT504-dependent recruitment of endogenous MSCs within severely injured nerves may prevent post-amputation pain by modifying the inflammatory scenario at relevant sites in the pain pathway. Reinforcing data in rat and human tissues supports the potential therapeutic value of IMT504 in patients suffering postamputation pain., (Copyright © 2024 United States Association for the Study of Pain, Inc. All rights reserved.)

Published

2024

15. [Analysis of the efficacy and safety of pulsed radiofrequency for the treatment of thoracic postherpetic neuralgia in elderly patients with different pain phenotypes].

Author

Geng SH, Wang R, Zhao DL, Zou YY, Qin MY, and Lu LJ

Subjects

Humans, Female, Male, Aged, Retrospective Studies, Treatment Outcome, Phenotype, Pain Measurement, Ganglia, Spinal, Neuralgia, Postherpetic therapy, Pulsed Radiofrequency Treatment

Abstract

Objective: To analyze the efficacy and safety of pulsed radiofrequency (PRF) for the treatment of thoracic postherpetic neuralgia (PHN) in elderly patients with different pain phenotypes. Methods: A total of 201 elderly thoracic PHN patients, including 110 males and 91 females aged (72.2±6.9) years who received high-voltage, long-duration PRF at the dorsal root ganglion at Nanjing Drum Tower Hospital Clinical College of Nanjing University of Chinese Medicine from January 2020 to December 2022, were retrospectively included. The neuropathic pain symptom inventory (NPSI) was used to evaluate the five different pain phenotypes, which included superficial spontaneous pain, deep spontaneous pain, paroxysmal pain, evoked pain, and paresthesia/dysesthesia, and to analyze the distribution of the five pain phenotypes. The numerical rating scale (NRS) and NPSI scores of all patients were compared before treatment and three months after treatment to evaluate the efficacy and safety of PRF for different pain phenotypes and pain phenotype combinations. Results: All patients had two or more pain phenotypes, and 50.2% (101/201) of the patients had five pain phenotypes at the same time. Compared with those before treatment, three months after treatment, the NPSI scores for superficial spontaneous pain, deep spontaneous pain, paroxysmal pain, evoked pain and paresthesia/dysesthesia decreased (all P <0.05), and the scores decreased by［ M （ Q 1 ， Q 3 ）］3.0 (2.0, 4.0), 1.5 (0.5, 2.5), 3.0 (2.5, 4.0), 2.3 (1.0, 4.0), and 1.0 (0.5, 2.0) points, respectively, the differences were statistically significant ( P <0.001). The decrease in the NPSI score in patients with paroxysmal pain was greater than that in patients with the other 4 pain phenotypes (all P <0.05). After treatment, the NRS score decreased by 4.0 (3.0, 5.0), 4.0 (3.0, 5.0), 4.0 (3.0, 5.0) and 5.0 (4.0, 6.0) points in patients with 2, 3, 4 and 5 pain phenotypes, respectively, and the difference was statistically significant ( P <0.001). The decrease in the NRS score was greater in patients with a combination of 5 pain phenotypes than that in patients with a combination of 3 and 4 pain phenotypes (all P <0.05). No complications, such as pneumothorax, haematoma or infection, occurred in any of the patients during treatment. Conclusion: PRF has different therapeutic effects on PHN patients with different pain phenotypes, it has the best effect on paroxysmal pain, and the treatment is safe.

Published

2024

16. Advances in Spinal Neuromodulation for Chemotherapy-induced Peripheral Neuropathy.

Author

Gupta P, Patel K, and Paul G

Subjects

Humans, Ganglia, Spinal, Neoplasms drug therapy, Neoplasms therapy, Pain Management methods, Peripheral Nervous System Diseases chemically induced, Peripheral Nervous System Diseases therapy, Spinal Cord Stimulation methods, Antineoplastic Agents adverse effects

Abstract

Background/aim: Chemotherapy-induced peripheral neuropathy (CIPN) continues to be a major source of chronic morbidity in patients with cancer. Current treatment options and efficacy are limited; thus, there is a need to investigate more effective therapeutic options. Spinal neuromodulation including dorsal column spinal cord stimulation (SCS) and dorsal root ganglion stimulation (DRG-S) are being explored for these patients. The purpose of this narrative review was to critically summarize and evaluate the advancements that have been made in utilizing SCS and DRG-S for CIPN., Materials and Methods: A thorough literature search was conducted using PubMed for any research on patients with CIPN who underwent DRG-S or SCS. Studies involving patients with general cancer-related pain were not included. Only articles that were published in English, had original, extractable data, and were available on or before August 1, 2023, were included., Results: This study evaluated twelve studies with a total of 13 patients that reported using SCS for CIPN and four studies with a total of 12 patients that reported using DRG-S for CIPN. Many of the studies demonstrated that DRG-S or SCS can assist in reducing opioid consumption, lowering pain scores, and improving sensory deficits., Conclusion: DRG-S and SCS have the potential to improve symptoms and lower medication usage in patients suffering from CIPN. Spinal neuromodulation could be considered as an alternative therapy for patients with persistent symptoms., (Copyright © 2024 International Institute of Anticancer Research (Dr. George J. Delinasios), All rights reserved.)

Published

2024

17. Dorsal Root Ganglion Stimulation for the Management of Inflammatory Bowel Disease: A Case Report.

Author

Yang A, Yousef TA, Aggarwal N, and Chapman KB

Subjects

Humans, Female, Adult, Crohn Disease complications, Crohn Disease therapy, Treatment Outcome, Quality of Life, Abdominal Pain etiology, Abdominal Pain therapy, Spinal Cord Stimulation methods, Inflammatory Bowel Diseases therapy, Inflammatory Bowel Diseases complications, Electric Stimulation Therapy methods, Ganglia, Spinal

Abstract

This case report presents the successful use of dorsal root ganglion stimulation (DRGS) in a 30-year-old female patient with Crohn's disease. Despite extensive treatments, the patient experienced chronic abdominal pain, diarrhea, bloating, cramping, fatigue, and other debilitating symptoms. After a successful DRGS trial with leads placed on the right T6 and T10, she was implanted with a permanent system. At 18 months she continues to experience significant improvement in symptoms, including reduced abdominal pain, decreased defecation frequency, better stool consistency, less pain with eating and bowel evacuation, and enhanced quality of life., Competing Interests: The authors declare no conflicts of interest., (Copyright © 2024 The Author(s). Published by Wolters Kluwer Health, Inc. on behalf of the International Anesthesia Research Society.)

Published

2024

18. Pulsed radiofrequency of lumbar dorsal root ganglion for lumbar radicular pain: A systematic review and meta-analysis.

Author

Park S, Park JH, Jang JN, Choi SI, Song Y, Kim YU, and Park S

Subjects

Humans, Randomized Controlled Trials as Topic methods, Lumbosacral Region, Pulsed Radiofrequency Treatment methods, Ganglia, Spinal, Radiculopathy therapy, Low Back Pain therapy

Abstract

Background: Pulsed radiofrequency (PRF) of the lumbar dorsal root ganglion (DRG) has been widely used as a method to relieve lumbar radicular pain (LRP). However, the value of PRF application in LRP patients remains uncertain. This systematic review aimed to compare the effects of PRF of lumbar DRG and LEI in patients with LRP., Methods: A literature search was performed using well-known databases for articles published up to May 2023. We included randomized controlled trials (RCTs) that evaluated the effects of PRF compared to LEI with or without steroids. We screened articles, extracted data, and assessed risk of bias in duplicate. The pain scores and Oswestry Disability Index (ODI) scores at 1, 3, and 6 months after procedures were obtained. A random-effects meta-analysis model was applied for outcomes. We evaluated evidence certainty for each outcome using the GRADE scoring system. This review was registered in the PROSPERO (ID: CRD42021253628)., Results: A total of 10 RCTs were included and data of 613 patients were retrieved. We assessed the overall quality of the evidence as very low to moderate. PRF showed no difference in pain scores at 1 (mean difference [MD] -0.80, 95% confidence interval [CI] -1.59 to 0.00, low certainty) and 6 months (MD -2.37, 95% CI -4.79 to 0.05, very low certainty), and significantly improved pain scores at 3 months (MD -1.31, 95% CI -2.29 to -0.33, low certainty). There was no significant difference in ODI score at any interval (very low to low certainty). In the subgroup who underwent a diagnostic block, did not use steroids, and PRF duration greater than 360 s, PRF significantly reduced pain scores at 3 months after procedures., Conclusions: We found low quality of the evidence supporting adjuvant PRF to the lumbar DRG has a greater analgesic effect at 3 months after procedures in patients with LRP than LEI. We identified no convincing evidence to show that this treatment improves function. High-quality evidence is lacking, and data were largely derived from short-term effects. Given these limitations, high-quality trials with data on long-term effects are needed., (© 2024 World Institute of Pain.)

Published

2024

19. The protective barrier role of satellite glial cells in sensory ganglia.

Author

Qarot E, Guan Y, and Hanani M

Subjects

Animals, Mice, Ganglia, Sensory, Ganglia, Spinal, Glutamates metabolism, Adenosine Triphosphate metabolism, Satellite Cells, Perineuronal metabolism, Neuroglia metabolism, Neurons

Abstract

Neurons in sensory ganglia are wrapped completely by satellite glial cells (SGCs). One putative function of SGCs is to regulate the neuronal microenvironment, but this role has received only little attention. In this study we investigated whether the SGC envelope serves a barrier function and how SGCs may control the neuronal microenvironment. We studied this question on short-term (<24 h) cell cultures of dorsal root ganglia and trigeminal ganglia from adult mice, which contain neurons surrounded with SGCs, and neurons that are not. Using calcium imaging, we measured neuronal responses to molecules with established actions on sensory neurons. We found that neurons surrounded by SGCs had a smaller response to molecules such as adenosine triphosphate (ATP), glutamate, GABA, and bradykinin than neurons without glial cover. When we inhibited the activity of NTPDases, which hydrolyze the ATP, and also when we inhibited the glutamate and GABA transporters on SGCs, this difference in the neuronal response was no longer observed. We conclude that the SGC envelope does not hinder diffusional passage, but acts as a metabolic barrier that regulates the neuronal microenvironment, and can protect the neurons and modulate their activity., (© 2024 The Authors. GLIA published by Wiley Periodicals LLC.)

Published

2024

20. Dorsal root ganglion stimulation (DRG-s) for potential resolution of restless leg syndrome symptoms and increased cost savings for patients: A case study.

Author

Abd-Elsayed A, Moghim R, and Reffat N

Subjects

Humans, Cost Savings, Female, Middle Aged, Electric Stimulation Therapy economics, Electric Stimulation Therapy methods, Male, Spinal Cord Stimulation methods, Spinal Cord Stimulation economics, Restless Legs Syndrome therapy, Restless Legs Syndrome economics, Ganglia, Spinal

Abstract

Introduction: We report successful use of dorsal root ganglion stimulation (DRG-s) to treat a patient with persistent symptoms of restless leg syndrome (RLS)., Methods: The treatment involved the placement of a small device millimeters away from the patient's DRG, which are nerves near the spinal cord that carry sensory information from the periphery of the body to the brain. The device automatically delivers electrical impulse to the DRG to alter and decrease pain perception in the brain., Results: Our case report elucidates the use of this procedure as a targeted therapy for RLS, with a nearly 90% reduction in reported symptoms in our patient, thus potentially reducing morbidity associated with this condition. Furthermore, we report a 10-year cost savings of nearly $90,000 following DRG-s for our patient., Conclusion: This case study aims to demonstrate the effectiveness of DRG-s neuromodulation in managing RLS, a condition that is often difficult and costly to treat., (© 2024 World Institute of Pain.)

Published

2024

21. EVALUATION OF THE LUMBAR SAFETY TRIANGLE THROUGH MAGNETIC RESONANCE IMAGING

Author

Fernando Augusto Dannebrock, Erasmo de Abreu Zardo, Marcus Sofia Ziegler, Carlos Marcelo Donazar Severo, Joel Abramczuk, Emiliano Vialle, Graciane Radaelli, Carla Helena Augustin Schwanke, and Ricardo Bernardi Soder

Subjects

Spine, Anatomy, Minimally Invasive Surgical Procedures, Ganglia, Spinal, Magnetic Resonance Imaging, Orthopedic surgery, RD701-811, Diseases of the musculoskeletal system, RC925-935

Abstract

ABSTRACT Objective: To evaluate the lumbar triangular safety zone, its boundaries and its relationship with the dorsal root ganglion through Magnetic Resonance Imaging (MRI). Methods: The boundaries, shape and dimensions of 303 triangular safety zones were analyzed in Tesla 3.0 Magnetic Resonance Imaging (MRI) coronal sections from L2 to L5, including the dorsal root ganglion. Results: The sample consisted of 101 patients with a mean age of 32 years. The height of the triangular safety zone was formed by the lateral edge of the dura mater, the width by the upper plateau of the lower vertebra and the hypotenuse by the corresponding nerve root. The mean dimensions and the area varied according to the level studied. The dorsal root ganglion invaded the dimensions of the triangle in all the images studied. Conclusion: Based on the data and the analyses performed, we concluded that knowledge of the boundaries of the triangular safety zone through MRI increases the safety of minimally invasive procedures in the lumbar spine. Level of evidence I; Diagnostic studies – Investigation of a diagnostic test.

Published

2019

22. PolyphyllinVI alleviates the spared nerve injury-induced neuropathic pain based on P2X3 receptor-mediated the release of inflammatory mediators.

Author

Yi M, Zhang Z, Luo Z, Luo A, Zeng H, Li P, Wang T, Yang J, and Nie H

Subjects

Rats, Mice, Animals, Rats, Sprague-Dawley, NF-kappa B metabolism, AMP-Activated Protein Kinases metabolism, Ganglia, Spinal, Receptors, Purinergic P2X3 metabolism, Neuralgia metabolism

Abstract

Ethnopharmacological Relevance: PolyphyllinVI (PPⅥ) is the main bioactive component of Chonglou which is a traditional Chinese herbal with various effects, including antitumor, anti-inflammatory, and analgesia., Aim of the Study: This study aimed to investigate the properties and mechanisms of the analgesia of PPⅥ by using neuropathic pain (NPP) mice., Materials and Methods: The potential targets and mechanisms of PPⅥ in alleviating NPP were excavated based on the network pharmacology. Subsequently, the construction of a spared nerve injury (SNI) mice model was used to evaluate the effect of PPⅥ on NPP and the expression of the P2X3 receptor. We identified the signaling pathways of PPⅥ analgesia by RNA sequencing., Results: The results of network pharmacology showed that BCL2, CASP3, JUN, STAT3, and TNF were the key targets of the analgesic effect of PPⅥ. PPⅥ increased the MWT and TWL of SNI mice and decreased the level of P2X3 receptors in the dorsal root ganglion (DRG) and spinal cord (SC). Additionally, PPⅥ reduced the release of pro-inflammatory mediators (TNF-α, IL-1β, and IL-6) in the DRG, SC, and serum. Based on the KEGG enrichment of differentially expressed genes (DEGs) identified by RNA-Seq, PPVI may relieve NPP by regulating the AMPK/NF-κB signaling pathway. Western blotting results showed that the AMPK signaling pathway was activated, followed by inhibition of the NF-κB signaling pathway., Conclusion: PPⅥ increased the MWT and TWL of SNI mice maybe by inhibiting the expression of the P2X3 receptor and the release of inflammatory mediators. The properties of the analgesia of PPⅥ may be based on the AMPK/NF-κB pathway., Competing Interests: Declaration of competing interest The authors declare the following financial interests/personal relationships which may be considered as potential competing interests: The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2024. Published by Elsevier B.V.)

Published

2024

23. Immune drivers of physiological and pathological pain.

Author

Jain A, Hakim S, and Woolf CJ

Subjects

Female, Male, Humans, Cognition, Ganglia, Spinal, Immunotherapy, Pain, Neurons

Abstract

Physiological pain serves as a warning of exposure to danger and prompts us to withdraw from noxious stimuli to prevent tissue damage. Pain can also alert us of an infection or organ dysfunction and aids in locating such malfunction. However, there are instances where pain is purely pathological, such as unresolved pain following an inflammation or injury to the nervous system, and this can be debilitating and persistent. We now appreciate that immune cells are integral to both physiological and pathological pain, and that pain, in consequence, is not strictly a neuronal phenomenon. Here, we discuss recent findings on how immune cells in the skin, nerve, dorsal root ganglia, and spinal cord interact with somatosensory neurons to mediate pain. We also discuss how both innate and adaptive immune cells, by releasing various ligands and mediators, contribute to the initiation, modulation, persistence, or resolution of various modalities of pain. Finally, we propose that the neuroimmune axis is an attractive target for pain treatment, but the challenges in objectively quantifying pain preclinically, variable sex differences in pain presentation, as well as adverse outcomes associated with immune system modulation, all need to be considered in the development of immunotherapies against pain., (© 2024 Jain et al.)

Published

2024

24. Material matters: Degradation products affect regenerating Schwann cells.

Author

Pawelec KM, Hix JML, and Shapiro EM

Subjects

Cell Differentiation physiology, Coculture Techniques, Ganglia, Spinal, Schwann Cells metabolism, Neurons metabolism

Abstract

Devices to treat peripheral nerve injury (PNI) must balance many considerations to effectively guide regenerating nerves across a gap and achieve functional recovery. To enhance efficacy, design features like luminal fillers have been explored extensively. Material choice for PNI devices is also critical, as the determining factor of device mechanics, and degradation rate and has increasingly been found to directly impact biological response. This study investigated the ways in which synthetic polymer materials impact the differentiation state and myelination potential of Schwann cells, peripheral nerve glia. Microporous substrates of polycaprolactone (PCL), poly(lactide-co-glycolide) (PLGA) 85:15, or PLGA 50:50 were chosen, as materials already used in nerve repair devices, representing a wide range of mechanics and degradation profiles. Schwann cells co-cultured with dorsal root ganglion (DRG) neurons on the substrates expressed more mature myelination proteins (MPZ) on PLGA substrates compared to PCL. Changes to myelination and differentiation state of glia were reflected in adhesion proteins expressed by glia, including β-dystroglycan and integrin α 6 , both laminin binding proteins. Importantly, degradation products of the polymers affected glial expression independently of direct attachment. Fast degrading PLGA 50:50 substrates released measurable amounts of degradation products (lactic acid) within the culture period, which may push Schwann cells towards glycolytic metabolism, decreasing expression of early transcription factors like sox10. This study shows the importance of understanding not only material effects on attachment, but also on cellular metabolism which drives myelination responses., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2024 Elsevier B.V. All rights reserved.)

Published

2024

25. Protein Arginine Methyltransferase 5 Contributes to Paclitaxel-Induced Neuropathic Pain by Activating Transient Receptor Potential Vanilloid 1 Epigenetic Modification in Dorsal Root Ganglion.

Author

Yeh CM, Lai CY, Peng HY, Lin TB, Chou D, Wang HH, Yang PS, Cheng JK, Peng YC, and Hsieh MC

Subjects

Rats, Animals, Paclitaxel toxicity, Paclitaxel metabolism, Protein-Arginine N-Methyltransferases genetics, Protein-Arginine N-Methyltransferases metabolism, Protein-Arginine N-Methyltransferases pharmacology, Rats, Sprague-Dawley, Hyperalgesia chemically induced, Hyperalgesia genetics, Hyperalgesia metabolism, Ganglia, Spinal, TRPV Cation Channels genetics, Epigenesis, Genetic, Antineoplastic Agents adverse effects, Neuralgia chemically induced, Neuralgia genetics, Neuralgia metabolism

Abstract

Background: Paclitaxel (PTX), which is a first-line chemotherapy drug used to treat various types of cancers, exhibits peripheral neuropathy as a common side effect that is difficult to treat. Protein arginine methyltransferase 5 (PRMT 5) is a key regulator of the chemotherapy response, as chemotherapy drugs induce PRMT5 expression. However, little is known about the PRMT5-mediated epigenetic mechanisms involved in PTX-induced neuropathic allodynia., Methods: Sprague-Dawley rats were intraperitoneally given PTX to induce neuropathic pain. Biochemical analyses were conducted to measure the protein expression levels in the dorsal root ganglion (DRG) of the animals. The von Frey test and hot plate test were used to evaluate nociceptive behaviors., Results: PTX increased the PRMT5 (mean difference [MD]: 0.68, 95% confidence interval [CI], 0.88-0.48; P < .001 for vehicle)-mediated deposition of histone H3R2 dimethyl symmetric (H3R2me2s) at the transient receptor potential vanilloid 1 ( Trpv1 ) promoter in the DRG. PRMT5-induced H3R2me2s recruited WD repeat domain 5 (WDR5) to increase trimethylation of lysine 4 on histone H3 (H3K4me3) at Trpv1 promoters, thus resulting in TRPV1 transcriptional activation (MD: 0.65, 95% CI, 0.82-0.49; P < .001 for vehicle) in DRG in PTX-induced neuropathic pain. Moreover, PTX increased the activity of NADPH oxidase 4 (NOX4) (MD: 0.66, 95% CI, 0.81-0.51; P < .001 for vehicle), PRMT5-induced H3R2me2s, and WDR5-mediated H3K4me3 in the DRG in PTX-induced neuropathic pain. Pharmacological antagonism and the selective knockdown of PRMT5 in DRG neurons completely blocked PRMT5-mediated H3R2me2s, WDR5-mediated H3K4me3, or TRPV1 expression and neuropathic pain development after PTX injection. Remarkably, NOX4 inhibition not only attenuated allodynia behavior and reversed the above-mentioned signaling but also reversed NOX4 upregulation via PTX., Conclusions: Thus, the NOX4/PRMT5-associated epigenetic mechanism in DRG has a dominant function in the transcriptional activation of TRPV1 in PTX-induced neuropathic pain., Competing Interests: The authors declare no conflicts of interest., (Copyright © 2023 International Anesthesia Research Society.)

Published

2024

26. Case report: Dorsal root ganglion stimulator lead fracture.

Author

Kochat S, Byers J, and Yi PK

Subjects

Humans, Ganglia, Spinal, Complex Regional Pain Syndromes etiology, Complex Regional Pain Syndromes therapy, Electric Stimulation Therapy adverse effects, Electric Stimulation Therapy methods, Chronic Pain etiology, Chronic Pain therapy, Neuralgia therapy, Spinal Cord Stimulation adverse effects, Spinal Cord Stimulation methods

Abstract

Background: One of the unique advances in neuromodulation for chronic pain has been spinal cord stimulators (SCS) and dorsal root ganglion stimulators (DRG-S). These devices have aided in conditions such as neuropathic pain, complex regional pain syndromes, failed back surgery, and peripheral neuropathies. With these benefits, however, complications from implantable stimulators have included lead fractures and migration. The authors reviewed a lead migration, kinking, and subsequent fracture event involving a patient with complex regional pain syndrome (CRPS) II, who was treated with a DRG-S., Case Presentation: The case report follows this patient, from their past medical history to assessment of appropriate qualifications for neuromodulation, to successful surgical placement, to follow-up care. The authors further monitored assessment of inefficacy of pain relief, and identification of lead migration and kinking through imaging. In the process of removal, due to lead stress, lead fracturing occurred. After lead removal, the leads were fully replaced, and the patient was followed up and experienced improved pain relief., Conclusion: The case report assesses probable mechanisms of lead fracture and considerations for physicians for future assessment and triage of neuromodulation efficacy., (© 2023 World Institute of Pain.)

Published

2024

27. Targeted transcriptional upregulation of SENP1 by CRISPR activation enhances deSUMOylation pathways to elicit antinociception in the spinal nerve ligation model of neuropathic pain.

Author

Gomez K, Allen HN, Duran P, Loya-Lopez S, Calderon-Rivera A, Moutal A, Tang C, Nelson TS, Perez-Miller S, and Khanna R

Subjects

Rats, Male, Female, Humans, Animals, Clustered Regularly Interspaced Short Palindromic Repeats, Up-Regulation, Rats, Sprague-Dawley, Spinal Nerves, Ganglia, Spinal, Cysteine Endopeptidases genetics, Hyperalgesia, Neuralgia genetics

Abstract

Abstract: The voltage-gated sodium channel Na V 1.7 is an essential component of human pain signaling. Changes in Na V 1.7 trafficking are considered critical in the development of neuropathic pain. SUMOylation of collapsin response mediator protein 2 (CRMP2) regulates the membrane trafficking and function of Na V 1.7. Enhanced CRMP2 SUMOylation in neuropathic pain correlates with increased Na V 1.7 activity. Pharmacological and genetic interventions that interfere with CRMP2 SUMOylation in rodents with neuropathic pain have been shown to reverse mechanical allodynia. Sentrin or SUMO-specific proteases (SENPs) are vital for balancing SUMOylation and deSUMOylation of substrates. Overexpression of SENP1 and/or SENP2 in CRMP2-expressing cells results in increased deSUMOylation and decreased membrane expression and currents of Na V 1.7. Although SENP1 is present in the spinal cord and dorsal root ganglia, its role in regulating Na V 1.7 function and pain is not known. We hypothesized that favoring SENP1 expression can enhance CRMP2 deSUMOylation to modulate Na V 1.7 channels. In this study, we used a clustered regularly interspaced short palindromic repeats activation (CRISPRa) SENP1 lentivirus to overexpress SENP1 in dorsal root ganglia neurons. We found that SENP1 lentivirus reduced CRMP2 SUMOylation, Na V 1.7-CRMP2 interaction, and Na V 1.7 membrane expression. SENP1 overexpression decreased Na V 1.7 currents through clathrin-mediated endocytosis, directly linked to CRMP2 deSUMOylation. Moreover, enhancing SENP1 expression did not affect the activity of TRPV1 channels or voltage-gated calcium and potassium channels. Intrathecal injection of CRISPRa SENP1 lentivirus reversed mechanical allodynia in male and female rats with spinal nerve injury. These results provide evidence that the pain-regulating effects of SENP1 overexpression involve, in part, the modulation of Na V 1.7 channels through the indirect mechanism of CRMP2 deSUMOylation., (Copyright © 2023 International Association for the Study of Pain.)

Published

2024

28. Peripheral nerve-derived Sema3A promotes osteogenic differentiation of mesenchymal stem cells through the Wnt/β-catenin/Nrp1 positive feedback loop.

Author

Shi J, Zhang B, Wu Z, Zhang Y, Gupta A, Wang X, Wang J, Pan L, Xiao M, Zhang S, and Wang L

Subjects

Semaphorin-3A genetics, Feedback, beta Catenin, Ganglia, Spinal, Neuropilin-1 genetics, Osteogenesis genetics, Mesenchymal Stem Cells

Abstract

Sensory nerves play a crucial role in maintaining bone homeostasis by releasing Semaphorin 3A (Sema3A). However, the specific mechanism of Sema3A in regulation of bone marrow mesenchymal stem cells (BMMSCs) during bone remodelling remains unclear. The tibial denervation model was used and the denervated tibia exhibited significantly lower mass as compared to sham operated bones. In vitro, BMMSCs cocultured with dorsal root ganglion cells (DRGs) or stimulated by Sema3A could promote osteogenic differentiation through the Wnt/β-catenin/Nrp1 positive feedback loop, and the enhancement of osteogenic activity could be inhibited by SM345431 (Sema3A-specific inhibitor). In addition, Sema3A-stimulated BMMSCs or intravenous injection of Sema3A could promote new bone formation in vivo. To sum up, the coregulation of bone remodelling is due to the ageing of BMMSCs and increased osteoclast activity. Furthermore, the sensory neurotransmitter Sema3A promotes osteogenic differentiation of BMMSCs via Wnt/β-catenin/Nrp1 positive feedback loop, thus promoting osteogenesis in vivo and in vitro., (© 2024 The Authors. Journal of Cellular and Molecular Medicine published by Foundation for Cellular and Molecular Medicine and John Wiley & Sons Ltd.)

Published

2024

29. Complex alterations in inflammatory pain and analgesic sensitivity in young and ageing female rats: involvement of ASIC3 and Nav1.8 in primary sensory neurons.

Author

Messina DN, Peralta ED, and Acosta CG

Subjects

Animals, Female, Rats, Analgesics therapeutic use, Ganglia, Spinal, Inflammation metabolism, Rats, Sprague-Dawley, Rats, Wistar, Sensory Receptor Cells metabolism, Acid Sensing Ion Channels genetics, Acid Sensing Ion Channels metabolism, Acid Sensing Ion Channels pharmacology, Hyperalgesia drug therapy, Hyperalgesia metabolism, Pain drug therapy, Pain metabolism, NAV1.8 Voltage-Gated Sodium Channel metabolism

Abstract

Objective and Design: Our aim was to determine an age-dependent role of Nav1.8 and ASIC3 in dorsal root ganglion (DRG) neurons in a rat pre-clinical model of long-term inflammatory pain., Methods: We compared 6 and 24 months-old female Wistar rats after cutaneous inflammation. We used behavioral pain assessments over time, qPCR, quantitative immunohistochemistry, selective pharmacological manipulation, ELISA and in vitro treatment with cytokines., Results: Older rats exhibited delayed recovery from mechanical allodynia and earlier onset of spontaneous pain than younger rats after inflammation. Moreover, the expression patterns of Nav1.8 and ASIC3 were time and age-dependent and ASIC3 levels remained elevated only in aged rats. In vivo, selective blockade of Nav1.8 with A803467 or of ASIC3 with APETx2 alleviated mechanical and cold allodynia and also spontaneous pain in both age groups with slightly different potency. Furthermore, in vitro IL-1β up-regulated Nav1.8 expression in DRG neurons cultured from young but not old rats. We also found that while TNF-α up-regulated ASIC3 expression in both age groups, IL-6 and IL-1β had this effect only on young and aged neurons, respectively., Conclusion: Inflammation-associated mechanical allodynia and spontaneous pain in the elderly can be more effectively treated by inhibiting ASIC3 than Nav1.8., (© 2024. The Author(s), under exclusive licence to Springer Nature Switzerland AG.)

Published

2024

30. Borneol exerts its antipruritic effects by inhibiting TRPA1 and activating TRPM8.

Author

Luo M, He J, Yin L, Zhan P, Zhao Z, Xiong H, and Mei Z

Subjects

Humans, Mice, Animals, Antipruritics pharmacology, Antipruritics therapeutic use, Calcium metabolism, HEK293 Cells, Molecular Docking Simulation, Mice, Inbred C57BL, TRPA1 Cation Channel genetics, Pruritus drug therapy, TRPV Cation Channels genetics, Ganglia, Spinal, Transient Receptor Potential Channels genetics, TRPM Cation Channels genetics, Camphanes, Membrane Proteins

Abstract

Ethnopharmacological Relevance: Borneol is a long-established traditional Chinese medicine that has been found to be effective in treating pain and itchy skin. However, whether borneol has a therapeutic effect on chronic itch and its related mechanisms remain unclear., Aim of the Study: To investigate the antipruritic effect of borneol and its molecular mechanism., Materials and Methods: DrugBAN framework and molecular docking were applied to predict the targets of borneol, and the calcium imaging or patch-clamp recording analysis were used to detect the effects of borneol on TRPA1, TRPM8 or TRPV3 channels in HEK293T cells. In addition, various mouse models of acute itch and chronic itch were established to evaluate the antipruritic effects of borneol on C57BL/6J mice. Then, the borneol-induced pruritic relief was further investigated in Trpa1 -/- , Trpm8 -/- , or Trpa1 -/- /Trpm8 -/- mice. The effects of borneol on the activation of TRPM8 and the inhibition of TRPA1 were also measured in dorsal root ganglia neurons of wild-type (WT), Trpm8 -/- and Trpv1 -/- mice. Lastly, a randomized, double-blind study of adult patients was conducted to evaluate the clinical antipruritic effect of borneol., Results: TRPA1, TRPV3 and TRPM8 are the potential targets of borneol according to the results of DrugBAN algorithm and molecular docking. Calcium imaging and patch-clamp recording analysis demonstrated that borneol activates TRPM8 channel-induced cell excitability and inhibits TRPA1 channel-mediated cell excitability in transfected HEK293T cells. Animal behavior analysis showed that borneol can significantly reduce acute and chronic itch behavior in C57BL/6J mice, but this effect was eliminated in Trpa1 -/- , Trpm8 -/- mice, or at least in Trpa1 -/- /Trpm8 -/- mice. Borneol elicits TRPM8 channel induced [Ca 2+ ] i responses but inhibits AITC or SADBE-induced activation of TRPA1 channels in dorsal root ganglia neurons of WT and Trpv1 -/- mice, respectively. Furthermore, the clinical results indicated that borneol could reduce itching symptoms in patients and its efficacy is similar to that of menthol., Conclusion: Borneol has therapeutic effects on multiple pruritus models in mice and patients with chronic itch, and the mechanism may be through inhibiting TRPA1 and activating TRPM8., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2023 Elsevier B.V. All rights reserved.)

Published

2024

31. Mechanisms of Action of Dorsal Root Ganglion Stimulation.

Author

Abd-Elsayed A, Vardhan S, Aggarwal A, Vardhan M, and Diwan SA

Subjects

Humans, Ganglia, Spinal, Pain Management, Afferent Pathways, Sensory Receptor Cells, Chronic Pain therapy

Abstract

The dorsal root ganglion (DRG) serves as a pivotal site for managing chronic pain through dorsal root ganglion stimulation (DRG-S). In recent years, the DRG-S has emerged as an attractive modality in the armamentarium of neuromodulation therapy due to its accessibility and efficacy in alleviating chronic pain refractory to conventional treatments. Despite its therapeutic advantages, the precise mechanisms underlying DRG-S-induced analgesia remain elusive, attributed in part to the diverse sensory neuron population within the DRG and its modulation of both peripheral and central sensory processing pathways. Emerging evidence suggests that DRG-S may alleviate pain by several mechanisms, including the reduction of nociceptive signals at the T-junction of sensory neurons, modulation of pain gating pathways within the dorsal horn, and regulation of neuronal excitability within the DRG itself. However, elucidating the full extent of DRG-S mechanisms necessitates further exploration, particularly regarding its supraspinal effects and its interactions with cognitive and affective networks. Understanding these mechanisms is crucial for optimizing neurostimulation technologies and improving clinical outcomes of DRG-S for chronic pain management. This review provides a comprehensive overview of the DRG anatomy, mechanisms of action of the DRG-S, and its significance in neuromodulation therapy for chronic pain.

Published

2024

32. Blocking Pannexin 1 Channels Alleviates Peripheral Inflammatory Pain but not Paclitaxel-Induced Neuropathy.

Author

Lemes JBP, Malange KF, Carvalho NS, Neves AF, Urban-Maldonado M, Kempe PRG, Nishijima CM, Fagundes CC, Lotufo CMDC, Suadicani SO, and Parada CA

Subjects

Rats, Mice, Animals, Capsaicin pharmacology, Capsaicin therapeutic use, Paclitaxel adverse effects, Carrageenan adverse effects, Calcium, Formaldehyde adverse effects, Ganglia, Spinal, Nerve Tissue Proteins, Connexins genetics, Connexins therapeutic use, Hyperalgesia chemically induced, Hyperalgesia drug therapy, Hyperalgesia pathology, Neuralgia chemically induced, Neuralgia drug therapy

Abstract

Background: Pannexin1 (Panx1) is a membrane channel expressed in different cells of the nervous system and is involved in several pathological conditions, including pain and inflammation. At the central nervous system, the role of Panx1 is already well-established. However, in the periphery, there is a lack of information regarding the participation of Panx1 in neuronal sensitization. The dorsal root ganglion (DRG) is a critical structure for pain processing and modulation. For this reason, understanding the molecular mechanism in the DRG associated with neuronal hypersensitivity has become highly relevant to discovering new possibilities for pain treatment. Here, we aimed to investigate the role of Panx1 in acute nociception and peripheral inflammatory and neuropathic pain by using two different approaches., Methods: Rats were treated with a selective Panx1 blocker peptide (10Panx) into L5-DRG, followed by ipsilateral intraplantar injection of carrageenan, formalin, or capsaicin. DRG neuronal cells were pre-treated with 10Panx and stimulated by capsaicin to evaluate calcium influx. Panx1 knockout mice (Panx1-KO) received carrageenan or capsaicin into the paw and paclitaxel intraperitoneally. The von Frey test was performed to measure the mechanical threshold of rats' and mice's paws before and after each treatment., Results: Pharmacological blockade of Panx1 in the DRG of rats resulted in a dose-dependent decrease of mechanical allodynia triggered by carrageenan, and nociception decreased in the second phase of formalin. Nociceptive behavior response induced by capsaicin was significantly lower in rats treated with Panx1 blockade into DRG. Neuronal cells with Panx1 blockage showed lower intracellular calcium response than untreated cells after capsaicin administration. Accordingly, Panx1-KO mice showed a robust reduction in mechanical allodynia after carrageenan and a lower nociceptive response to capsaicin. A single dose of paclitaxel promoted acute mechanical pain in wildtype (WT) but not in Panx1-KO mice. Four doses of chemotherapy promoted chronic mechanical allodynia in both genotypes, although Panx1-KO mice had significant ablation in the first eight days., Conclusion: Our findings suggest that Panx1 is critical for developing peripheral inflammatory pain and acute nociception involving transient receptor potential vanilloid subtype 1 (TRPV1) but is not essential for neuropathic pain chronicity., Competing Interests: The authors declare no conflict of interest., (© 2024 The Author(s). Published by IMR Press.)

Published

2024

33. Phytic Acid Maintains Peripheral Neuron Integrity and Enhances Survivability against Platinum-Induced Degeneration via Reducing Reactive Oxygen Species and Enhancing Mitochondrial Membrane Potential.

Author

Tiwari AP, Albin B, Qubbaj K, Adhikari P, and Yang IH

Subjects

Humans, Cisplatin toxicity, Ganglia, Spinal, Membrane Potential, Mitochondrial, Phytic Acid pharmacology, Phytic Acid metabolism, Phytic Acid therapeutic use, Platinum pharmacology, Platinum metabolism, Reactive Oxygen Species metabolism, Sensory Receptor Cells metabolism, Antineoplastic Agents toxicity, Peripheral Nervous System Diseases chemically induced, Peripheral Nervous System Diseases drug therapy, Peripheral Nervous System Diseases metabolism

Abstract

Phytic acid (PA) has been reported to possess anti-inflammatory and antioxidant properties that are critical for neuroprotection in neuronal disorders. This raises the question of whether PA can effectively protect sensory neurons against chemotherapy-induced peripheral neuropathy (CIPN). Peripheral neuropathy is a dose-limiting side effect of chemotherapy treatment often characterized by severe and abnormal pain in hands and feet resulting from peripheral nerve degeneration. Currently, there are no effective treatments available that can prevent or cure peripheral neuropathies other than symptomatic management. Herein, we aim to demonstrate the neuroprotective effects of PA against the neurodegeneration induced by the chemotherapeutics cisplatin (CDDP) and oxaliplatin. Further aims of this study are to provide the proposed mechanism of PA-mediated neuroprotection. The neuronal protection and survivability against CDDP were characterized by axon length measurements and cell body counting of the dorsal root ganglia (DRG) neurons. A cellular phenotype study was conducted microscopically. Intracellular reactive oxygen species (ROS) was estimated by fluorogenic probe dichlorofluorescein. Likewise, mitochondrial membrane potential (MMP) was assessed by fluorescent MitoTracker Orange CMTMRos. Similarly, the mitochondria-localized superoxide anion radical in response to CDDP with and without PA was evaluated. The culture of primary DRG neurons with CDDP reduced axon length and overall neuronal survival. However, cotreatment with PA demonstrated that axons were completely protected and showed increased stability up to the 45-day test duration, which is comparable to samples treated with PA alone and control. Notably, PA treatment scavenged the mitochondria-specific superoxide radicals and overall intracellular ROS that were largely induced by CDDP and simultaneously restored MMP. These results are credited to the underlying neuroprotection of PA in a platinum-treated condition. The results also exhibited that PA had a synergistic anticancer effect with CDDP in ovarian cancer in vitro models. For the first time, PA's potency against CDDP-induced PN is demonstrated systematically. The overall findings of this study suggest the application of PA in CIPN prevention and therapeutic purposes.

Published

2024

34. Mineralocorticoid Receptor Antagonism Reduces Inflammatory Pain Measures in Mice Independent of the Receptors on Sensory Neurons.

Author

Qualls KA, Xie W, Zhang J, Lückemeyer DD, Lackey SV, Strong JA, and Zhang JM

Subjects

Rats, Mice, Humans, Animals, Receptors, Mineralocorticoid, Rats, Sprague-Dawley, Sensory Receptor Cells, Ganglia, Spinal, Inflammation drug therapy, Mineralocorticoid Receptor Antagonists pharmacology, Mineralocorticoid Receptor Antagonists therapeutic use, Low Back Pain

Abstract

Corticosteroids are commonly used in the treatment of inflammatory low back pain, and their nominal target is the glucocorticoid receptor (GR) to relieve inflammation. They can also have similar potency at the mineralocorticoid receptor (MR). The MR has been shown to be widespread in rodent and human dorsal root ganglia (DRG) neurons and non-neuronal cells, and when MR antagonists are administered during a variety of inflammatory pain models in rats, pain measures are reduced. In this study we selectively knockout (KO) the MR in sensory neurons to determine the role of MR in sensory neurons of the mouse DRG in pain measures as MR antagonism during the local inflammation of the DRG (LID) pain model. We found that MR antagonism using eplerenone reduced evoked mechanical hypersensitivity during LID, but MR KO in paw-innervating sensory neurons only did not. This could be a result of differences between prolonged (MR KO) versus acute (drug) MR block or an indicator that non-neuronal cells in the DRG are driving the effect of MR antagonists. MR KO unmyelinated C neurons are more excitable under normal and inflamed conditions, while MR KO does not affect excitability of myelinated A cells. MR KO in sensory neurons causes a reduction in overall GR mRNA but is protective against reduction of the anti-inflammatory GRα isoform during LID. These effects of MR KO in sensory neurons expanded our understanding of MR's functional role in different neuronal subtypes (A and C neurons), and its interactions with the GR., (Copyright © 2024 The Author(s). Published by Elsevier Inc. All rights reserved.)

Published

2024

35. Calcitonin receptor, calcitonin gene-related peptide and amylin distribution in C1/2 dorsal root ganglia.

Author

Rees TA, Tasma Z, Garelja ML, O'Carroll SJ, Walker CS, and Hay DL

Subjects

Rats, Female, Male, Humans, Mice, Animals, Ganglia, Spinal, Islet Amyloid Polypeptide genetics, In Situ Hybridization, Fluorescence, Pain, RNA, Messenger, Calcitonin Gene-Related Peptide genetics, Receptors, Calcitonin

Abstract

Background: The upper cervical dorsal root ganglia (DRG) are important for the transmission of sensory information associated with the back of the head and neck, contributing to head pain. Calcitonin receptor (CTR)-based receptors, such as the amylin 1 (AMY 1 ) receptor, and ligands, calcitonin gene-related peptide (CGRP) and amylin, have been linked to migraine and pain. However, the contribution of this system to nociception involving the cervical DRG is unclear. Therefore, this study aimed to determine the relative distribution of the CTR, CGRP, and amylin in upper cervical DRG., Methods: CTR, CGRP, and amylin immunofluorescence was examined relative to neural markers in C1/2 DRG from male and female mice, rats, and human cases. Immunofluorescence was supported by RNA-fluorescence in situ hybridization examining amylin mRNA distribution in rat DRG., Results: Amylin immunofluorescence was observed in neuronal soma and fibres. Amylin mRNA (Iapp) was also detected. Amylin and CGRP co-expression was observed in 19% (mouse), 17% (rat), and 36% (human) of DRG neurons in distinct vesicle-like neuronal puncta from one another. CTR immunoreactivity was present in DRG neurons, and both peptides produced receptor signalling in primary DRG cell cultures. CTR-positive neurons frequently co-expressed amylin and/or CGRP (66% rat; 84% human), with some sex differences., Conclusions: Amylin and CGRP could both be local peptide agonists for CTR-based receptors in upper cervical DRG, potentially acting through autocrine and/or paracrine signalling mechanisms to modulate neuron function. Amylin and its receptors could represent novel pain targets., (© 2024. The Author(s).)

Published

2024

36. Dorsal root ganglion: a key to understanding the therapeutic effects of the erector spinae plane (ESP) and other intertransverse process blocks?

Author

Sørenstua M, Leonardsen AL, and Chin KJ

Subjects

Humans, Pain, Postoperative drug therapy, Ganglia, Spinal, Pain Management methods, Anesthetics, Local therapeutic use, Nerve Block methods

Abstract

Since its description in 2016, the erector spinae plane block (ESPB) has become a widely employed regional anesthetic technique and kindled interest in a range of related techniques, collectively termed intertransverse process blocks. There has been ongoing controversy over mechanism of action of the ESPB, mainly due to incongruities between results of cutaneous sensory testing, clinical efficacy studies, and investigations into the neural structures that are reached by injected local anesthetic (LA). This paper reviews the spread of LA to the paravertebral and epidural space and the cutaneous anesthesia in ESPB, with specific emphasis on the dorsal root ganglion (DRG). We hypothesize that the DRG, due to its unique and complex microarchitecture, represents a key therapeutic target for modulation of nociceptive signaling in regional anesthesia. This paper discusses how the anatomical and physiological characteristics of the DRG may be one of the factors underpinning the clinical analgesia observed in ESPB and other intertransverse process blocks., Competing Interests: Competing interests: None declared., (© American Society of Regional Anesthesia & Pain Medicine 2024. Re-use permitted under CC BY-NC. No commercial re-use. Published by BMJ.)

Published

2024

37. Roles of Chemokines in Intervertebral Disk Degeneration.

Author

Xue P, Wang Y, Lv L, Wang D, and Wang Y

Subjects

Humans, Chemokines metabolism, Ganglia, Spinal, Intervertebral Disc Degeneration therapy, Intervertebral Disc metabolism, Low Back Pain etiology

Abstract

Purpose of Review: Intervertebral disc degeneration is the primary etiology of low back pain and radicular pain. This review examines the roles of crucial chemokines in different stages of degenerative disc disease, along with interventions targeting chemokine function to mitigate disc degeneration., Recent Findings: The release of chemokines from degenerated discs facilitates the infiltration and activation of immune cells, thereby intensifying the inflammatory cascade response. The migration of immune cells into the venous lumen is concomitant with the emergence of microvascular tissue and nerve fibers. Furthermore, the presence of neurogenic factors secreted by disc cells and immune cells stimulates the activation of pain-related cation channels in the dorsal root ganglion, potentially exacerbating discogenic and neurogenic pain and intensifying the degenerative cascade response mediated by chemokines. Gaining a deeper comprehension of the functions of chemokines and immune cells in these processes involving catabolism, angiogenesis, and injury detection could offer novel therapeutic avenues for managing symptomatic disc disease., (© 2023. The Author(s), under exclusive licence to Springer Science+Business Media, LLC, part of Springer Nature.)

Published

2024

38. The Afferent Function of Adipose Innervation.

Author

Wang Y and Ye L

Subjects

Adipose Tissue, Neurons, Afferent metabolism, Ganglia, Spinal

Abstract

Adipose tissue innervation is critical for regulating metabolic and energy homeostasis. While the sympathetic efferent innervation of fat is well characterized, the role of sensory or afferent innervation remains less explored. This article reviews previous work on adipose innervation and recent advances in the study of sensory innervation of adipose tissues. We discuss key open questions, including the physiological implications of adipose afferents in homeostasis as well as potential cross talk with sympathetic neurons, the immune system, and hormonal pathways. We also outline the general technical challenges of studying dorsal root ganglia innervating fat, along with emerging technologies that may overcome these barriers. Finally, we highlight areas for further research to deepen our understanding of the afferent function of adipose innervation., (© 2024 by the American Diabetes Association.)

Published

2024

39. Engineering Sensory Ganglion Multicellular System to Model Tissue Nerve Ingrowth.

Author

Ma J, Eglauf J, Grad S, Alini M, and Serra T

Subjects

Animals, Cattle, Collagen, Neurons, Ganglia, Spinal, Intervertebral Disc, Intervertebral Disc Degeneration

Abstract

Discogenic pain is associated with deep nerve ingrowth in annulus fibrosus tissue (AF) of intervertebral disc (IVD). To model AF nerve ingrowth, primary bovine dorsal root ganglion (DRG) micro-scale tissue units are spatially organised around an AF explant by mild hydrodynamic forces within a collagen matrix. This results in a densely packed multicellular system mimicking the native DRG tissue morphology and a controlled AF-neuron distance. Such a multicellular organisation is essential to evolve populational-level cellular functions and in vivo-like morphologies. Pro-inflammatory cytokine-primed AF demonstrates its neurotrophic and neurotropic effects on nociceptor axons. Both effects are dependent on the AF-neuron distance underpinning the role of recapitulating inter-tissue/organ anatomical proximity when investigating their crosstalk. This is the first in vitro model studying AF nerve ingrowth by engineering mature and large animal tissues in a morphologically and physiologically relevant environment. The new approach can be used to biofabricate multi-tissue/organ models for untangling pathophysiological conditions and develop novel therapies., (© 2023 AO RESEARCH INSTITUTE DAVOS (ARI). Advanced Science published by Wiley-VCH GmbH.)

Published

2024

40. Dorsal root ganglion stimulator-A targeted therapy for post-herpetic neuralgia: The Middle East Experience.

Author

Verma A, Francois E, Maiti T, Cassidy L, and Tolba R

Subjects

Humans, Ganglia, Spinal, Anticonvulsants, Neuralgia, Postherpetic drug therapy, Neuralgia etiology, Herpes Zoster complications

Abstract

Background: Post herpetic neuralgia (PHN) is a chronic neuropathic pain syndrome which presents after an episode of herpes zoster caused by the reactivation of varicella zoster virus. Conservative treatment starts with pharmacological measures using Anti-epileptics and Antidepressants. Some patients also respond well to epidural steroid injections too, but the effect is usually short lasting. Dorsal Root Ganglion Stimulator (DRG-S) has recently been suggested as a new treatment modality for PHN due to its selective targeting of the pathophysiologic focus., Case Series: We are reporting three cases, who were suffering from neuropathic pain after an episode of herpes zoster. Pain and pain related suffering scores were high, even with multiple antiepileptics and opioid medications. They underwent DRG-S implant and appreciated more than 50% reduction of their pain score, meaningful reduction in the dose of medications along with significant improvement of their general well being measured using Generalized Anxiety Disorder Questionnaire (GAD-7), pain disability index (PDI), and 9 Question Patient Health Questionnaire (PHQ-9). To our knowledge this is the first report on DRG stimulator from the Middle East Region., Conclusion: DRG-S has potential to be a preferable treatment option in patients with refractory PHN and acts as a specific targeted therapy in the treatment of these patients., (© 2023 World Institute of Pain.)

Published

2024

41. Pulsed Radiofrequency Therapy at Different Voltages on Dorsal Root Ganglia Using Multifunctional Catheter to Treat Low Back Pain: A Comparative Retrospective Study.

Author

Rufolo D, Costa CA, Bravo G, and Nosella P

Subjects

Humans, Middle Aged, Analgesics, Opioid, Catheters, Ganglia, Spinal, Retrospective Studies, Aged, Low Back Pain therapy, Radiofrequency Therapy

Abstract

Background: Applying pulsed radiofrequency (PRF) to the dorsal root ganglion (DRG) is an electrical neuromodulation technique, a valid complementary therapeutic treatment for failed back surgery syndrome (FBBS). Peridurolysis, when applied to vertebral canal adhesions, can be performed with dedicated catheters, providing patients with the benefits of mechanical, electrical, and pharmacological techniques., Objectives: The aim of this study was to evaluate PRF's effects on the DRG as part of FBSS treatment at different follow-up times, comparing 2 groups of patients exposed to distinct levels of voltage (100 V vs. 45 V) from a PRF generator., Study Design: A retrospective observational study was performed., Setting: The study was conducted on a sample of patients from an Italian hospital., Methods: PRF's effects on the DRG as part of FBSS treatment were evaluated through the Numeric Rating Scale (NRS) and the monitoring of 155 patients' opioid consumption at 3, 6, and 9 months. A Cosman® G4 model PRF generator was used. During follow-up periods, the Friedman test was applied to detect differences in outcomes between the 2 groups of patients, who were treated with different levels of voltage., Results: The most frequent diagnosis (61.29%) was FBBS in patients at a mean age of 64 (± 11.8) years old. All patients were treated with PRF on the dorsal ganglion, with the addition of a drug mixture. Most were treated with 100 V (62%). A statistically significant decrease (P < 0.001) in the NRS score emerged both as a whole and in the 2 distinct groups. Moreover, the group of 100 V patients showed a significant (P = 0.0360) reduction in the use of opioids., Limitations: This observational retrospective study was based on a convenience sampling that involved a limited number of patients., Conclusions: E-field technology is the only way to generate a constant 38°/42° PRF and 100 V level throughout surgical interventions (respecting the exposure times "set" by the operator). The patient will not feel any pain or electric current because the generated milliamperes will be greatly reduced.

Published

2024

42. Bardoxolone Methyl Ameliorates Chemotherapy-Induced Neuropathic Pain by Activation of Phosphorylated Nuclear Factor Erythroid 2-Related Factor 2 in the Dorsal Root Ganglia.

Author

Kim HK, Wang Q, Hwang SH, Dougherty PM, Wang J, and Abdi S

Subjects

Humans, Rats, Animals, Rats, Sprague-Dawley, Ganglia, Spinal, NF-E2-Related Factor 2 metabolism, Paclitaxel adverse effects, Hyperalgesia metabolism, Analgesics therapeutic use, RNA metabolism, RNA pharmacology, RNA therapeutic use, Inflammation Mediators metabolism, Neuralgia chemically induced, Neuralgia drug therapy, Neuralgia metabolism, Antineoplastic Agents adverse effects, Oleanolic Acid analogs & derivatives

Abstract

Background: Many chemotherapeutic drugs, including paclitaxel, produce neuropathic pain in patients with cancer, which is a dose-dependent adverse effect. Such chemotherapy-induced neuropathic pain (CINP) is difficult to treat with existing drugs. Nuclear factor erythroid 2-related factor 2 (Nrf2) is a major regulator of antioxidative responses and activates phosphorylated Nrf2 (pNrf2). We determined the analgesic effects of bardoxolone methyl (BM), an Nrf2 activator, and the role of pNrf2 on CINP., Methods: CINP was induced in rats by intraperitoneally injecting paclitaxel on 4 alternate days in rats. BM was injected systemically as single or repeated injections after pain fully developed. RNA transcriptome, mechanical hyperalgesia, levels of inflammatory mediators and pNrf2, and location of pNrf2 in the dorsal root ganglia (DRG) were measured by RNA sequencing, von Frey filaments, Western blotting, and immunohistochemistry in rats and human DRG samples. In addition, the mitochondrial functions in 50B11 DRG neuronal cells were measured by fluorescence assay., Results: Our RNA transcriptome of CINP rats showed a downregulated Nrf2 pathway in the pain condition. Importantly, single and repeated systemic injections of BM ameliorated CINP. Paclitaxel increased inflammatory mediators, but BM decreased them and increased pNrf2 in the DRG. In addition, paclitaxel decreased mitochondrial membrane potential and increased mitochondrial volume in 50B11 cells, but BM restored them. Furthermore, pNrf2 was expressed in neurons and satellite cells in rat and human DRG., Conclusions: Our results demonstrate the analgesic effects of BM by Nrf2 activation and the fundamental role of pNrf2 on CINP, suggesting a target for CINP and a therapeutic strategy for patients., Competing Interests: The authors declare no conflicts of interest., (Copyright © 2023 International Anesthesia Research Society.)

Published

2024

43. In Vivo Calcium Imaging of Dorsal Root Ganglia Neurons' Response to Somatic and Visceral Stimuli.

Author

Liu K, Liu Y, Li X, Wang S, Wang X, Zhang Z, and Gao X

Subjects

Animals, Mice, Mice, Inbred C57BL, Neurons, Diagnostic Imaging, Calcium, Ganglia, Spinal

Abstract

A technique is described for surgically exposing the dorsal root ganglion (DRG) of the lumbar-6 in a live, anesthetized laboratory mouse, along with the protocol for in vivo calcium imaging of the exposed DRG in response to various visceral and somatic stimuli. Pirt-GCaMP6s mice or C57BL6 mice intrathecally injected with AAV viruses packaged with GCaMP6s were utilized to capture Ca2+ transients. The amplitude of these transients indicates sensitivity to specific sensory modalities. Afferent fibers originate from internal organs, with primary neuronal cell bodies in spinal or vagal ganglia. Studies on visceral nociception and acupuncture analgesia can potentially be conducted on primary sensory neurons using advanced imaging technologies like in vivo calcium imaging, allowing for the recording of neuronal activity ensembles in the intact animal during stimulation or intervention. The responses of DRG neuron ensembles to somatic and visceral stimuli applied to their corresponding receptive fields were recorded. This technique illustrates how neuronal populations react to various types of somatic and visceral stimuli. It is possible to comprehensively compare neuronal ensemble responses to different stimuli, which is a particularly valuable approach in research on visceral pain and segmental mechanisms of somatic stimulation, such as acupuncture.

Published

2024

44. Intranasal CRMP2-Ubc9 inhibitor regulates Na V 1.7 to alleviate trigeminal neuropathic pain.

Author

Loya-Lopez SI, Allen HN, Duran P, Calderon-Rivera A, Gomez K, Kumar U, Shields R, Zeng R, Dwivedi A, Saurabh S, Korczeniewska OA, and Khanna R

Subjects

Animals, Rats, Ganglia, Spinal, Rats, Sprague-Dawley, Sensory Receptor Cells metabolism, Administration, Intranasal, Chronic Pain drug therapy, Chronic Pain metabolism, Trigeminal Neuralgia drug therapy, Trigeminal Neuralgia metabolism, Ubiquitin-Conjugating Enzymes antagonists & inhibitors, Nerve Tissue Proteins antagonists & inhibitors, Intercellular Signaling Peptides and Proteins

Abstract

Abstract: Dysregulation of voltage-gated sodium Na V 1.7 channels in sensory neurons contributes to chronic pain conditions, including trigeminal neuropathic pain. We previously reported that chronic pain results in part from increased SUMOylation of collapsin response mediator protein 2 (CRMP2), leading to an increased CRMP2/Na V 1.7 interaction and increased functional activity of Na V 1.7. Targeting this feed-forward regulation, we developed compound 194 , which inhibits CRMP2 SUMOylation mediated by the SUMO-conjugating enzyme Ubc9. We further demonstrated that 194 effectively reduces the functional activity of Na V 1.7 channels in dorsal root ganglia neurons and alleviated inflammatory and neuropathic pain. Here, we used a comprehensive array of approaches, encompassing biochemical, pharmacological, genetic, electrophysiological, and behavioral analyses, to assess the functional implications of Na V 1.7 regulation by CRMP2 in trigeminal ganglia (TG) neurons. We confirmed the expression of Scn9a , Dpysl2 , and UBE2I within TG neurons. Furthermore, we found an interaction between CRMP2 and Na V 1.7, with CRMP2 being SUMOylated in these sensory ganglia. Disrupting CRMP2 SUMOylation with compound 194 uncoupled the CRMP2/Na V 1.7 interaction, impeded Na V 1.7 diffusion on the plasma membrane, and subsequently diminished Na V 1.7 activity. Compound 194 also led to a reduction in TG neuron excitability. Finally, when intranasally administered to rats with chronic constriction injury of the infraorbital nerve, 194 significantly decreased nociceptive behaviors. Collectively, our findings underscore the critical role of CRMP2 in regulating Na V 1.7 within TG neurons, emphasizing the importance of this indirect modulation in trigeminal neuropathic pain., (Copyright © 2023 International Association for the Study of Pain.)

Published

2024

45. K

Author

Qin, Li, Lu, Qin, and Jianhua, Li

Subjects

Rats, Sprague-Dawley, Neurons, Peripheral Arterial Disease, Ganglia, Spinal, Lectins, Muscles, Animals, Glial Cell Line-Derived Neurotrophic Factor, RNA, Small Interfering, Bradykinin, Rats

Abstract

Muscle afferent nerve-activated reflex sympathetic nervous and blood pressure responses are exaggerated during exercise in peripheral artery diseases (PAD). However, the precise signaling pathways and molecular mediators responsible for these abnormal autonomic responses in PAD are poorly understood. Our previous study suggests that A-type voltage-gated K

Published

2023

46. NasubV/sub1.9 current in muscle afferent neurons is enhanced by substances released during muscle activity

Author

Khrystyna Yu Sukhanova, Ankeeta Koirala, and Keith S. Elmslie

Subjects

Physiology, General Neuroscience, Muscles, Tetrodotoxin, Bradykinin, Sodium Channels, Norepinephrine, Adenosine Triphosphate, Ganglia, Spinal, Prostaglandins, Humans, Neurons, Afferent, NAV1.9 Voltage-Gated Sodium Channel, Sodium Channel Blockers

Abstract

Skeletal muscle contraction triggers the exercise pressor reflex (EPR) to regulate the cardiovascular system response to exercise. During muscle contraction, substances are released that generate action potential activity in group III and IV afferents that mediate the EPR. Some of these substances increase afferent activity via G-protein-coupled receptor (GPCR) activation, but the mechanisms are incompletely understood. We were interested in determining if tetrodotoxin-resistant (TTX-R) voltage-dependent sodium channels (NasubV/sub) were involved and investigated the effect of a mixture of such compounds (bradykinin, prostaglandin, norepinephrine, and ATP, called muscle metabolites). Using whole cell patch-clamp electrophysiology, we show that the muscle metabolites significantly increased TTX-R NasubV/subcurrents. The rise time of this enhancement averaged ∼2 min, which suggests the involvement of a diffusible second messenger pathway. The effect of muscle metabolites on the current-voltage relationship, channel activation and inactivation kinetics support NasubV/sub1.9 channels as the target for this enhancement. When applied individually at the concentration used in the mixture, only prostaglandin and bradykinin significantly enhanced NasubV/subcurrent, but the sum of these enhancements waslt;1/3 that observed when the muscle metabolites were applied together. This suggests synergism between the activated GPCRs to enhance NasubV/sub1.9 current. When applied at a higher concentration, all four substances could enhance the current, which demonstrates that the GPCRs activated by each metabolite can enhance channel activity. The enhancement of NasubV/sub1.9 channel activity is a likely mechanism by which GPCR activation increases action potential activity in afferents generating the EPR.bNEWamp; NOTEWORTHY/bG-protein-coupled receptor (GPCR) activation increases action potential activity in muscle afferents to produce the exercise pressor reflex (EPR), but the mechanisms are incompletely understood. We provide evidence that NasubV/sub1.9 current is synergistically enhanced by application of a mixture of metabolites potentially released during muscle contraction. The enhancement of NasubV/sub1.9 current is likely one mechanism by which GPCR activation generates the EPR and the inappropriate activation of the EPR in patients with cardiovascular disease.

Published

2023

47. Specific Cellular Effects of Low Bortezomib Concentrations on Purified Cultures of Schwann Cells, Satellite Glial Cells, Macrophages, and Dorsal Root Ganglion Neurons

Author

Zijian, Zhou, Kazuki, Nagayasu, Hisashi, Shirakawa, and Shuji, Kaneko

Subjects

Bortezomib, Neurons, Pharmacology, Ganglia, Spinal, Macrophages, Humans, Peripheral Nervous System Diseases, Pharmaceutical Science, Schwann Cells, General Medicine, Neuroglia, Ion Channels

Abstract

Peripheral neuropathy is one of the major adverse effects that limit the clinical application of bortezomib (BTZ). However, the underlying mechanisms of BTZ-induced peripheral neuropathy (BIPN) remain elusive. To examine cell types potentially involved in the development of BIPN, we used four purified cultures of cells of the peripheral nervous system: Schwann cells (SCs), satellite glial cells (SGCs), macrophages, and dorsal root ganglion (DRG) neurons. Administration of a low BTZ concentration (5 nM; similar to concentrations in clinical use) caused dedifferentiation of cultured SCs, returning mature SCs to an immature state. In cultured SGCs, BTZ increased glial fibrillary acidic protein (GFAP) levels without inducing the release of inflammatory cytokines or chemokines. In macrophages, BTZ caused little inflammatory response. Finally, in DRG neurons, BTZ strongly suppressed the expression levels of sensor and transducer ion channels without affecting cell morphology. Taken together, low concentrations of BTZ can cause SC dedifferentiation (i.e., demyelination), increased GFAP level in SGC, and decreased expression levels of sensor and transducer ion channels in DRG neurons (i.e., numbness feeling). Thus, we have reported, for the first time, specific effects of BTZ on peripheral nervous system cells, thereby contributing to a better understanding of the initiating mechanism of BIPN.

Published

2023

48. Combinations of classical and non-classical voltage dependent potassium channel openers suppress nociceptor discharge and reverse chronic pain signs in a rat model of Gulf War illness

Author

B Y, Cooper, T J, Nutter, L D, Flunker, and C M, Bowers

Subjects

Dacarbazine, Meclofenamic Acid, Diclofenac, Potassium Channels, Ganglia, Spinal, General Neuroscience, Animals, Nociceptors, Persian Gulf Syndrome, Chronic Pain, Toxicology, Rats

Abstract

In a companion paper we examined whether combinations of K

Published

2022

49. Use of a human induced pluripotent stem cell-derived dorsal root ganglion neurone model to study analgesics in vitro

Author

Pascal S.H. Smulders, Werner ten Hoope, Carmen Bernardino Morcillo, Jeroen Hermanides, Markus W. Hollmann, Nina C. Weber, Anesthesiology, Graduate School, AII - Inflammatory diseases, Amsterdam Neuroscience - Neuroinfection & -inflammation, ACS - Diabetes & metabolism, APH - Quality of Care, ACS - Heart failure & arrhythmias, ACS - Atherosclerosis & ischemic syndromes, AII - Infectious diseases, Amsterdam Cardiovascular Sciences, APH - Personalized Medicine, APH - Global Health, and ACS - Microcirculation

Subjects

Neurons, Analgesics, induced pluripotent stem cell, Anesthesiology and Pain Medicine, dorsal root ganglion, Ganglia, Spinal, Induced Pluripotent Stem Cells, lidocaine, nociceptive neurone, regional anaesthesia, Humans

Published

2022

50. Ultrasound Therapy of Injury Site Modulates Gene and Protein Expressions in the Dorsal Root Ganglion in a Sciatic Nerve Crush Injury Rat Model

Author

Shixuan Xu, Akira Ito, Tianshu Wang, Hideki Kawai, Tomoki Aoyama, and Hiroshi Kuroki

Subjects

Acoustics and Ultrasonics, Radiological and Ultrasound Technology, Interleukin-6, Brain-Derived Neurotrophic Factor, Ultrasound therapy, Biophysics, Neurotrophic factor, Sciatic Nerve, Axons, Rats, Rats, Sprague-Dawley, Nerve regeneration, Crush Injuries, Pro-inflammatory factor, Ganglia, Spinal, Peripheral nerve injury, Animals, Protein expression, Dorsal root ganglion, Radiology, Nuclear Medicine and imaging, RNA, Messenger, Gene expression, Motor function

Abstract

The aim of this study was to verify the effects of ultrasound on dorsal root ganglion (DRG) neurons at the injury site in a rat model of sciatic nerve crush injury. We evaluated the mRNA expression of neurotrophic and pro-inflammatory factors by quantitative reverse transcription polymerase chain reaction 7 and 14 d post-injury. We also evaluated the protein levels of brain-derived neurotrophic factor (BDNF) 7 and 14 d post-injury. Axon regeneration and motor function analyses were performed 21 days after injury to confirm the facilitative effect of ultrasound on nerve regeneration. In the ultrasound group, BDNF and interleukin-6 mRNA expression of the DRG was significantly reduced 7 d post-injury. Compared with the sham group, the BDNF protein expression of the DRG in the ultrasound group remained at a higher level 14 d post-injury. Motor function, myelinated fiber density and myelin sheath thickness were significantly higher in the ultrasound group than in the sham group 21 d post-injury. These results indicate that ultrasound therapy at the injury site promotes nerve regeneration and modulates gene and protein expression in the DRG of a rat model of a sciatic nerve crush injury.

Published

2022