Essential tremor and parkinsonian tremor affect approximately 5–7% of individuals over the age of 65. Pharmacological therapies yield sustained clinical improvement in only about 50% of cases. For patients ineligible for deep brain stimulation, Gamma Knife thalamotomy (GKVIM) offers a non-invasive alternative, demonstrating a tremor reduction efficacy of 70–80%, typically with a latency of approximately 4.8 months. This study aimed to identify regional cerebral metabolic patterns predictive of clinical response to GKVIM using [¹8F]-FDG positron emission tomography (FDG-PET). Fifteen consecutive patients diagnosed with essential tremor (n=10) or parkinsonian tremor (n=5) underwent preoperative cerebral FDG-PET imaging within 24 hours prior to GKVIM at Erasme University Hospital between January 2020 and January 2023. All patients were clinically followed for a minimum of six months (mean follow-up: 9 ± 3 months) by experienced neurologists or neurosurgeons. Statistical Parametric Mapping (SPM) was used to compare metabolic patterns between treatment responders (n=11; 73%) and non-responders (n=4) to identify potential predictors of therapeutic response. As a secondary objective, metabolic differences between patients with essential tremor and healthy controls (n=54) were analyzed to explore neurobiological correlates of disease pathophysiology. Those analysis revealed that responders exhibited significant hypometabolism in the prefrontal cortex and supramarginal gyrus, alongside cerebellar hypermetabolism. In the secondary analysis, patients with essential tremor demonstrated distinct metabolic alterations, notably involving the inferior olivary nuclei. This study thus identifies specific regional cerebral metabolic patterns associated with favourable clinical response to Gamma Knife thalamotomy, suggesting potential neuroimaging biomarkers for patient selection. Moreover, the observed metabolic changes provide additional insight into the pathophysiological mechanisms underlying essential tremor.
| Published in | International Journal of Neurosurgery (Volume 9, Issue 1) |
| DOI | 10.11648/j.ijn.20250901.16 |
| Page(s) | 30-40 |
| Creative Commons |
This is an Open Access article, distributed under the terms of the Creative Commons Attribution 4.0 International License (http://creativecommons.org/licenses/by/4.0/), which permits unrestricted use, distribution and reproduction in any medium or format, provided the original work is properly cited. |
| Copyright |
Copyright © The Author(s), 2025. Published by Science Publishing Group |
Gamma-Knife, Metabolism, Parkinson, Radiosurgery, Thalamotomy, Tremor, FDG-PET
| [1] | Bhatia KP, Bain P, Bajaj N, Elble RJ, Hallett M, Louis ED, et al. Consensus Statement on the Classification of Tremors. From the Task Force on Tremor of the International Parkinson and Movement Disorder Society. Mov Disord Off J Mov Disord Soc. jan 2018; 33(1): 75-87. |
| [2] | Louis ED, Ferreira JJ. How common is the most common adult movement disorder? Update on the worldwide prevalence of essential tremor. Mov Disord Off J Mov Disord Soc. 15 april 2010; 25(5): 534-41. |
| [3] | GBD 2016 Parkinson’s Disease Collaborators. Global, regional, and national burden of Parkinson’s disease, 1990-2016: a systematic analysis for the Global Burden of Disease Study 2016. Lancet Neurol. nov 2018; 17(11): 939-53. |
| [4] | Ed L. Essential tremor. Lancet Neurol. febr 2005; 4(2): 100-10. |
| [5] | Holtbernd F, Shah NJ. Imaging the Pathophysiology of Essential Tremor-A Systematic Review. Front Neurol. 2021; 12: 680254. |
| [6] | Nicoletti V, Cecchi P, Frosini D, Pesaresi I, Fabbri S, Diciotti S, et al. Morphometric and functional MRI changes in essential tremor with and without resting tremor. J Neurol. 1 mar 2015; 262(3): 719-28. |
| [7] | Younger E, Ellis EG, Parsons N, Pantano P, Tommasin S, Caeyenberghs K, et al. Mapping Essential Tremor to a Common Brain Network Using Functional Connectivity Analysis. Neurology. 10 oct 2023; 101(15): e1483-94. |
| [8] | Ferreira JJ, Mestre TA, Lyons KE, Benito-León J, Tan EK, Abbruzzese G, et al. MDS evidence-based review of treatments for essential tremor. Mov Disord Off J Mov Disord Soc. july 2019; 34(7): 950-8. |
| [9] | Haubenberger D, Hallett M. Essential Tremor. N Engl J Med. 10 may 2018; 378(19): 1802-10. |
| [10] | Tolosa E, Garrido A, Scholz SW, Poewe W. Challenges in the diagnosis of Parkinson’s disease. Lancet Neurol. may 2021; 20(5): 385-97. |
| [11] | Bloem BR, Okun MS, Klein C. Parkinson’s disease. Lancet Lond Engl. 12 june 2021; 397(10291): 2284-303. |
| [12] | Armstrong MJ, Okun MS. Diagnosis and Treatment of Parkinson Disease: A Review. JAMA. 11 febr 2020; 323(6): 548-60. |
| [13] | Fasano A, Daniele A, Albanese A. Treatment of motor and non-motor features of Parkinson’s disease with deep brain stimulation. Lancet Neurol. may 2012; 11(5): 429-42. |
| [14] | Deuschl G, Raethjen J, Hellriegel H, Elble R. Treatment of patients with essential tremor. Lancet Neurol. febr 2011; 10(2): 148-61. |
| [15] | Ohye C, Higuchi Y, Shibazaki T, Hashimoto T, Koyama T, Hirai T, et al. Gamma knife thalamotomy for Parkinson disease and essential tremor: a prospective multicenter study. Neurosurgery. mar 2012; 70(3): 526-35; discussion 535-536. |
| [16] | Tuleasca C, Carey G, Barriol R, Touzet G, Dubus F, Luc D, et al. Impact of biologically effective dose on tremor decrease after stereotactic radiosurgical thalamotomy for essential tremor: a retrospective longitudinal analysis. Neurosurg Rev. 2024 Jan 31; 47(1): 73. |
| [17] | Witjas T, Carron R, Krack P, Eusebio A, Vaugoyeau M, Hariz M, et al. A prospective single-blind study of Gamma Knife thalamotomy for tremor. Neurology. 3 nov 2015; 85(18): 1562-8. |
| [18] | Lim SY, Hodaie M, Fallis M, Poon YY, Mazzella F, Moro E. Gamma knife thalamotomy for disabling tremor: a blinded evaluation. Arch Neurol. may 2010; 67(5): 584-8. |
| [19] | Quinones-Hinojosa A. Operative Neurosurgical Techniques : Indications, Methods, and Results. 7e éd. Vol. 1. Mayo Clinic, Florida: Elsevier; 2022. |
| [20] | Martínez-Moreno NE, Sahgal A, Salles AD, Hayashi M, Levivier M, Ma L, et al. Stereotactic radiosurgery for tremor: systematic review: International Stereotactic Radiosurgery Society practice guidelines. J Neurosurg. 23 febr 2018; 130(2): 589-600. |
| [21] | Tuleasca C, Witjas T, Najdenovska E, Verger A, Girard N, Champoudry J, et al. Assessing the clinical outcome of Vim radiosurgery with voxel-based morphometry: visual areas are linked with tremor arrest! Acta Neurochir (Wien). nov 2017; 159(11): 2139-44. |
| [22] | Tuleasca C, Witjas T, Van de Ville D, Najdenovska E, Verger A, Girard N, et al. Right Brodmann area 18 predicts tremor arrest after Vim radiosurgery: a voxel-based morphometry study. Acta Neurochir (Wien). mar 2018; 160(3): 603-9. |
| [23] | Verger A, Witjas T, Carron R, Eusebio A, Boutin E, Azulay JP, et al. Metabolic Positron Emission Tomography Response to Gamma Knife of the Ventral Intermediate Nucleus in Essential Tremor. Neurosurgery. 1 june 2019; 84(6): E294-303. |
| [24] | Song IU, Ha SW, Yang YS, Chung YA. Differences in Regional Glucose Metabolism of the Brain Measured with F-18-FDG-PET in Patients with Essential Tremor According to Their Response to Beta-Blockers. Korean J Radiol. 2015; 16(5): 967-72. |
| [25] | Zhong Y, Liu H, Liu G, Zhao L, Dai C, Liang Y, et al. A review on pathology, mechanism, and therapy for cerebellum and tremor in Parkinson’s disease. Npj Park Dis. 24 june 2022; 8(1): 1-9. |
| [26] | Passamonti L, Novellino F, Cerasa A, Chiriaco C, Rocca F, Matina MS, et al. Altered cortical-cerebellar circuits during verbal working memory in essential tremor. Brain J Neurol. aug 2011; 134(Pt 8): 2274-86. |
| [27] | Li J, Zhang Y, Huang Z, Jiang Y, Ren Z, Liu D, et al. Cortical and subcortical morphological alterations in motor subtypes of Parkinson’s disease. Npj Park Dis. 5 dec 2022; 8(1): 1-7. |
| [28] | Nicoletti V, Cecchi P, Pesaresi I, Frosini D, Cosottini M, Ceravolo R. Cerebello-thalamo-cortical network is intrinsically altered in essential tremor: evidence from a resting state functional MRI study. Sci Rep. 7 oct 2020; 10(1): 16661. |
| [29] | Cameron E, Dyke JP, Hernandez N, Louis ED, Dydak U. Cerebral Gray Matter Volume Losses in Essential Tremor: A Case-Control Study Using High Resolution Tissue Probability Maps. Parkinsonism Relat Disord. june 2018; 51: 85-90. |
| [30] | Ha SW, Yang YS, Song IU, Chung YA, Oh JK, Chung SW. Changes in regional brain glucose metabolism measured with F-18-FDG-PET in essential tremor. Acta Radiol Stockh Swed 1987. apr 2015; 56(4): 482-6. |
| [31] | Bhalsing KS, Upadhyay N, Kumar KJ, Saini J, Yadav R, Gupta AK, et al. Association between cortical volume loss and cognitive impairments in essential tremor. Eur J Neurol. 2014; 21(6): 874-83. |
| [32] | Kuo SH, Louis ED. How important is the inferior olive in essential tremor? An evolving story. Int Rev Neurobiol. 2022; 163: 129-32. |
| [33] | Hidding U, Schaper M, Gulberti A, Buhmann C, Gerloff C, Moll CKE, et al. Short pulse and directional thalamic deep brain stimulation have differential effects in parkinsonian and essential tremor. Sci Rep. 4 may 2022; 12(1): 7251. |
APA Style
Nathan, D. L., Leurquin-Sterk, G., Trotta, N., David, P., Lefranc, F. (2025). Gamma-Knife Thalamotomy for Essential and Parkinsonian Tremor: Predicting Response to Treatment Using Pre-Therapeutic Cerebral FDG-PET. International Journal of Neurosurgery, 9(1), 30-40. https://doi.org/10.11648/j.ijn.20250901.16
ACS Style
Nathan, D. L.; Leurquin-Sterk, G.; Trotta, N.; David, P.; Lefranc, F. Gamma-Knife Thalamotomy for Essential and Parkinsonian Tremor: Predicting Response to Treatment Using Pre-Therapeutic Cerebral FDG-PET. Int. J. Neurosurg. 2025, 9(1), 30-40. doi: 10.11648/j.ijn.20250901.16
Share This Article
Twitter
Linked In
Facebook
Copy
Download@article{10.11648/j.ijn.20250901.16,
author = {De Lissnyder Nathan and Gil Leurquin-Sterk and Nicola Trotta and Philippe David and Florence Lefranc},
title = {Gamma-Knife Thalamotomy for Essential and Parkinsonian Tremor: Predicting Response to Treatment Using Pre-Therapeutic Cerebral FDG-PET
},
journal = {International Journal of Neurosurgery},
volume = {9},
number = {1},
pages = {30-40},
doi = {10.11648/j.ijn.20250901.16},
url = {https://doi.org/10.11648/j.ijn.20250901.16},
eprint = {https://article.sciencepublishinggroup.com/pdf/10.11648.j.ijn.20250901.16},
abstract = {Essential tremor and parkinsonian tremor affect approximately 5–7% of individuals over the age of 65. Pharmacological therapies yield sustained clinical improvement in only about 50% of cases. For patients ineligible for deep brain stimulation, Gamma Knife thalamotomy (GKVIM) offers a non-invasive alternative, demonstrating a tremor reduction efficacy of 70–80%, typically with a latency of approximately 4.8 months. This study aimed to identify regional cerebral metabolic patterns predictive of clinical response to GKVIM using [¹8F]-FDG positron emission tomography (FDG-PET). Fifteen consecutive patients diagnosed with essential tremor (n=10) or parkinsonian tremor (n=5) underwent preoperative cerebral FDG-PET imaging within 24 hours prior to GKVIM at Erasme University Hospital between January 2020 and January 2023. All patients were clinically followed for a minimum of six months (mean follow-up: 9 ± 3 months) by experienced neurologists or neurosurgeons. Statistical Parametric Mapping (SPM) was used to compare metabolic patterns between treatment responders (n=11; 73%) and non-responders (n=4) to identify potential predictors of therapeutic response. As a secondary objective, metabolic differences between patients with essential tremor and healthy controls (n=54) were analyzed to explore neurobiological correlates of disease pathophysiology. Those analysis revealed that responders exhibited significant hypometabolism in the prefrontal cortex and supramarginal gyrus, alongside cerebellar hypermetabolism. In the secondary analysis, patients with essential tremor demonstrated distinct metabolic alterations, notably involving the inferior olivary nuclei. This study thus identifies specific regional cerebral metabolic patterns associated with favourable clinical response to Gamma Knife thalamotomy, suggesting potential neuroimaging biomarkers for patient selection. Moreover, the observed metabolic changes provide additional insight into the pathophysiological mechanisms underlying essential tremor.
},
year = {2025}
}
TY - JOUR T1 - Gamma-Knife Thalamotomy for Essential and Parkinsonian Tremor: Predicting Response to Treatment Using Pre-Therapeutic Cerebral FDG-PET AU - De Lissnyder Nathan AU - Gil Leurquin-Sterk AU - Nicola Trotta AU - Philippe David AU - Florence Lefranc Y1 - 2025/05/26 PY - 2025 N1 - https://doi.org/10.11648/j.ijn.20250901.16 DO - 10.11648/j.ijn.20250901.16 T2 - International Journal of Neurosurgery JF - International Journal of Neurosurgery JO - International Journal of Neurosurgery SP - 30 EP - 40 PB - Science Publishing Group SN - 2640-1959 UR - https://doi.org/10.11648/j.ijn.20250901.16 AB - Essential tremor and parkinsonian tremor affect approximately 5–7% of individuals over the age of 65. Pharmacological therapies yield sustained clinical improvement in only about 50% of cases. For patients ineligible for deep brain stimulation, Gamma Knife thalamotomy (GKVIM) offers a non-invasive alternative, demonstrating a tremor reduction efficacy of 70–80%, typically with a latency of approximately 4.8 months. This study aimed to identify regional cerebral metabolic patterns predictive of clinical response to GKVIM using [¹8F]-FDG positron emission tomography (FDG-PET). Fifteen consecutive patients diagnosed with essential tremor (n=10) or parkinsonian tremor (n=5) underwent preoperative cerebral FDG-PET imaging within 24 hours prior to GKVIM at Erasme University Hospital between January 2020 and January 2023. All patients were clinically followed for a minimum of six months (mean follow-up: 9 ± 3 months) by experienced neurologists or neurosurgeons. Statistical Parametric Mapping (SPM) was used to compare metabolic patterns between treatment responders (n=11; 73%) and non-responders (n=4) to identify potential predictors of therapeutic response. As a secondary objective, metabolic differences between patients with essential tremor and healthy controls (n=54) were analyzed to explore neurobiological correlates of disease pathophysiology. Those analysis revealed that responders exhibited significant hypometabolism in the prefrontal cortex and supramarginal gyrus, alongside cerebellar hypermetabolism. In the secondary analysis, patients with essential tremor demonstrated distinct metabolic alterations, notably involving the inferior olivary nuclei. This study thus identifies specific regional cerebral metabolic patterns associated with favourable clinical response to Gamma Knife thalamotomy, suggesting potential neuroimaging biomarkers for patient selection. Moreover, the observed metabolic changes provide additional insight into the pathophysiological mechanisms underlying essential tremor. VL - 9 IS - 1 ER -
Department of Neurosurgery, Vrije Universiteit Brussel, Brussels, Belgium
Department of Nuclear Medicine, Hôpitaux Universitaires de Bruxelles – Erasme, Brussels, Belgium
Department of Nuclear Medicine, Hôpitaux Universitaires de Bruxelles – Erasme, Brussels, Belgium
Department of Neurosurgery, Hôpitaux Universitaires de Bruxelles – Erasme, Brussels, Belgium
Information