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Journal of translational medicine
Feb 04, 2025;23 (1): 149.

The search for a blood-based biomarker for Myalgic Encephalomyelitis/ Chronic Fatigue Syndrome (ME/CFS): from biochemistry to electrophysiology.

Krista S P Clarke, Caroline C Kingdon, Michael Pycraft Hughes, Eliana Mattos Lacerda, Rebecca Lewis, Emily J Kruchek, Robert A Dorey, Fatima H Labeed
Author Information
  1. Krista S P Clarke: Centre for Biomedical Engineering, School of Engineering, University of Surrey, Guildford, UK.
  2. Caroline C Kingdon: Department of Clinical Research, Faculty of Infectious and Tropical Diseases, London School of Hygiene and Tropical Medicine, London, UK.
  3. Michael Pycraft Hughes: Department of Biomedical Engineering and Biotechnology/Healthcare Engineering Innovation Center, Khalifa University, Abu Dhabi, UAE.
  4. Eliana Mattos Lacerda: Department of Clinical Research, Faculty of Infectious and Tropical Diseases, London School of Hygiene and Tropical Medicine, London, UK.
  5. Rebecca Lewis: Department of Comparative Biomedical Sciences, School of Veterinary Medicine, University of Surrey, Guildford, Surrey, GU2 7XH, UK.
  6. Emily J Kruchek: Centre for Biomedical Engineering, School of Engineering, University of Surrey, Guildford, UK.
  7. Robert A Dorey: Centre for Biomedical Engineering, School of Engineering, University of Surrey, Guildford, UK.
  8. Fatima H Labeed: Department of Biology, United Arab Emirates University, Al Ain, UAE. f.labeed@uaeu.ac.ae. ORCID
PMID: 39905423 DOI: 10.1186/s12967-025-06146-6

Abstract

BACKGROUND: Myalgic encephalomyelitis/chronic fatigue syndrome (ME/CFS) is a disease of unknown aetiology characterised by symptoms of post-exertional malaise (PEM) and fatigue leading to substantial impairment in functioning. Other key symptoms include cognitive impairment and unrefreshing sleep, with many experiencing pain. To date there is no complete understanding of the triggering pathomechanisms of disease, and no quantitative biomarker available with sufficient sensitivity, specificity, and adoptability to provide conclusive diagnosis. Clinicians thus eliminate differential diagnoses, and rely on subjective, unspecific, and disputed clinical diagnostic criteria-a process that often takes years with patients being misdiagnosed and receiving inappropriate and sometimes detrimental care. Without a quantitative biomarker, trivialisation, scepticism, marginalisation, and misunderstanding of ME/CFS continues despite the significant disability for many. One in four individuals are bed-bound for long periods of time, others have difficulties maintaining a job/attending school, incurring individual income losses of thousands, while few participate in social activities.
MAIN BODY: Recent studies have reported promising quantifiable differences in the biochemical and electrophysiological properties of blood cells, which separate ME/CFS and non-ME/CFS participants with high sensitivities and specificities-demonstrating potential development of an accessible and relatively non-invasive diagnostic biomarker. This includes profiling immune cells using Raman spectroscopy, measuring the electrical impedance of blood samples during hyperosmotic challenge using a nano-electronic assay, use of metabolomic assays, and certain techniques which assess mitochondrial dysfunction. However, for clinical application, the specificity of these biomarkers to ME/CFS needs to be explored in more disease controls, and their practicality/logistics considered. Differences in cytokine profiles in ME/CFS are also well documented, but finding a consistent, stable, and replicable cytokine profile may not be possible. Increasing evidence demonstrates acetylcholine receptor and transient receptor potential ion channel dysfunction in ME/CFS, though how these findings could translate to a diagnostic biomarker are yet to be explored.
CONCLUSION: Different biochemical and electrophysiological properties which differentiate ME/CFS have been identified across studies, holding promise as potential blood-based quantitative diagnostic biomarkers for ME/CFS. However, further research is required to determine their specificity to ME/CFS and adoptability for clinical use.

Keywords

Acetylcholine receptor Electrical impedance ME/CFS Metabolomic assay Mitochondrial dysfunction Natural killer cell Peripheral blood mononuclear cell Raman spectroscopy Transient receptor potential

References

  1. Proc Natl Acad Sci U S A. 2019 May 21;116(21):10250-10257 [PMID: 31036648]
  2. Analyst. 2019 Jan 28;144(3):913-920 [PMID: 30207334]
  3. Mol Med. 2019 Apr 23;25(1):14 [PMID: 31014226]
  4. Front Immunol. 2022 Oct 10;13:928945 [PMID: 36300129]
  5. Cell Mol Life Sci. 2022 Jul 11;79(8):412 [PMID: 35821534]
  6. J Med Virol. 2020 Dec;92(12):3682-3688 [PMID: 32129496]
  7. Biochem Med Metab Biol. 1986 Dec;36(3):355-62 [PMID: 3801213]
  8. Neurosci Lett. 1999 Jan 8;259(2):71-4 [PMID: 10025560]
  9. J Neuroimmunol. 1998 Feb;82(1):101-107 [PMID: 9526852]
  10. Int J Biochem Cell Biol. 2011 Apr;43(4):516-24 [PMID: 21146628]
  11. J Transl Med. 2020 Feb 24;18(1):100 [PMID: 32093722]
  12. BMJ Open. 2019 Mar 7;9(3):e023955 [PMID: 30850404]
  13. J Transl Med. 2022 Feb 21;20(1):99 [PMID: 35189895]
  14. Sci Rep. 2024 Dec 4;14(1):30247 [PMID: 39632893]
  15. J Neurosci Res. 1996 Apr 01;44(1):66-72 [PMID: 8926632]
  16. Ann Med Surg (Lond). 2023 May 26;85(6):2821-2832 [PMID: 37363482]
  17. Redox Rep. 2000;5(1):35-41 [PMID: 10905542]
  18. Clin Exp Immunol. 2017 Feb;187(2):284-293 [PMID: 27727448]
  19. Brain Behav Immun. 2013 Feb;28:159-69 [PMID: 23201588]
  20. Int J Mol Sci. 2020 Feb 08;21(3): [PMID: 32046336]
  21. J Intern Med. 2012 Jan;271(1):64-81 [PMID: 21615807]
  22. Aging Dis. 2022 Jun 1;13(3):698-711 [PMID: 35656104]
  23. BMC Public Health. 2011 May 27;11:402 [PMID: 21619607]
  24. J Clin Med. 2021 Aug 19;10(16): [PMID: 34441971]
  25. Bioessays. 2020 Jun;42(6):e1900202 [PMID: 32338416]
  26. PLoS One. 2020 Apr 10;15(4):e0231136 [PMID: 32275686]
  27. Neuro Endocrinol Lett. 2009;30(4):470-6 [PMID: 20010505]
  28. Eur J Pharmacol. 2005 Jul 11;517(3):246-51 [PMID: 15963492]
  29. Clin Vaccine Immunol. 2016 May 6;23(5):417-426 [PMID: 26961858]
  30. J Aging Res. 2016;2016:2497348 [PMID: 26998359]
  31. J Clin Invest. 2020 Mar 2;130(3):1491-1505 [PMID: 31830003]
  32. Br J Pharmacol. 2016 Mar;173(6):953-69 [PMID: 26603538]
  33. Lancet. 1991 Mar 30;337(8744):757-60 [PMID: 1672392]
  34. BMC Infect Dis. 2006 Jan 31;6:15 [PMID: 16448567]
  35. Life Sci. 2016 Sep 15;161:45-50 [PMID: 27474128]
  36. Biochemistry. 2024 Jan 2;63(1):9-18 [PMID: 38011893]
  37. Lancet Neurol. 2022 Feb;21(2):176-188 [PMID: 35065040]
  38. Free Radic Biol Med. 2005 Sep 1;39(5):584-9 [PMID: 16085177]
  39. J Transl Med. 2023 Nov 11;21(1):804 [PMID: 37951920]
  40. Clin Ther. 2019 May;41(5):848-863 [PMID: 31040055]
  41. J Psychopharmacol. 2005 Jul;19(4):385-91 [PMID: 15982993]
  42. Ukr Biokhim Zh (1999). 2009 Jul-Aug;81(4):5-11 [PMID: 20387628]
  43. Proc Natl Acad Sci U S A. 2013 Jan 22;110(4):1410-5 [PMID: 23297238]
  44. Health Psychol Behav Med. 2015;3(1):82-93 [PMID: 26029488]
  45. Front Neurol. 2019 Jan 10;9:1033 [PMID: 30687207]
  46. Mol Neurodegener. 2020 May 29;15(1):30 [PMID: 32471464]
  47. J Clin Med. 2021 Sep 15;10(18): [PMID: 34575280]
  48. Med Hypotheses. 2000 Jan;54(1):59-63 [PMID: 10790725]
  49. Genes Immun. 2011 Apr;12(3):222-30 [PMID: 21270829]
  50. Front Immunol. 2018 Feb 07;9:174 [PMID: 29467763]
  51. Sci Rep. 2018 Aug 27;8(1):12890 [PMID: 30150620]
  52. Transl Psychiatry. 2016 Sep 27;6(9):e904 [PMID: 27676445]
  53. Int J Clin Exp Med. 2009;2(1):1-16 [PMID: 19436827]
  54. Biochim Biophys Acta. 2013 Jul;1833(7):1603-11 [PMID: 23220009]
  55. J Cell Sci. 2021 Jul 1;134(13): [PMID: 34254641]
  56. Int J Mol Sci. 2020 Feb 06;21(3): [PMID: 32041178]
  57. Noro Psikiyatr Ars. 2015 Sep;52(3):247-251 [PMID: 28360718]
  58. BMC Med Genomics. 2009 Mar 05;2:12 [PMID: 19265525]
  59. Proc Natl Acad Sci U S A. 2016 Sep 13;113(37):E5472-80 [PMID: 27573827]
  60. J Intern Med. 2010 Apr;267(4):418-35 [PMID: 20433584]
  61. J Transl Med. 2021 Jul 15;19(1):306 [PMID: 34266470]
  62. Front Immunol. 2019 Oct 31;10:2545 [PMID: 31736966]
  63. Rev Clin Esp. 2010 Jun;210(6):284-8 [PMID: 20447621]
  64. Appl Clin Genet. 2016 Mar 31;9:39-47 [PMID: 27099524]
  65. Front Immunol. 2021 Jul 13;12:687806 [PMID: 34326841]
  66. Rev Esp Salud Publica. 2016 Aug 18;90:e1-7 [PMID: 27535808]
  67. Int J Clin Exp Med. 2012;5(3):208-20 [PMID: 22837795]
  68. Sci Rep. 2020 Mar 24;10(1):5267 [PMID: 32210306]
  69. Prostaglandins Leukot Essent Fatty Acids. 2004 Apr;70(4):403-7 [PMID: 15041034]
  70. Brain Behav Immun. 2015 Nov;50:186-195 [PMID: 26148446]
  71. Clin Exp Immunol. 2005 Dec;142(3):505-11 [PMID: 16297163]
  72. Biology (Basel). 2019 May 11;8(2): [PMID: 31083577]
  73. Healthcare (Basel). 2021 Feb 16;9(2): [PMID: 33669438]
  74. Psychosomatics. 2017 Sep - Oct;58(5):533-543 [PMID: 28596045]
  75. Pharmacol Ther. 2000 Apr;86(1):29-48 [PMID: 10760545]
  76. Cytokine. 2016 Feb;78:27-36 [PMID: 26615570]
  77. Behav Brain Funct. 2010 Dec 29;6:76 [PMID: 21190576]
  78. Asian Pac J Allergy Immunol. 2019 Jun;37(2):102-108 [PMID: 29981562]
  79. Int J Environ Res Public Health. 2021 Nov 12;18(22): [PMID: 34831634]
  80. Biomolecules. 2023 Jun 26;13(7): [PMID: 37509075]
  81. Int J Environ Res Public Health. 2021 Oct 12;18(20): [PMID: 34682454]
  82. Mol Neurobiol. 2024 Jul;61(7):3771-3787 [PMID: 38015302]
  83. Mol Psychiatry. 2016 Feb;21(2):261-9 [PMID: 25824300]
  84. Biomed Microdevices. 2016 Feb;18(1):7 [PMID: 26780442]
  85. Healthcare (Basel). 2020 Apr 07;8(2): [PMID: 32272608]
  86. Mol Neurobiol. 2017 Aug;54(6):4432-4451 [PMID: 27349436]
  87. Med Sci Monit. 2011 Apr;17(4):SC11-5 [PMID: 21455120]
  88. Adv Exp Med Biol. 2011;704:749-58 [PMID: 21290325]
  89. Cells. 2022 Jan 24;11(3): [PMID: 35159196]
  90. Int J Mol Med. 2003 Aug;12(2):225-30 [PMID: 12851722]
  91. Front Pediatr. 2017 Jun 19;5:121 [PMID: 28674681]
  92. Sci Rep. 2019 Aug 7;9(1):11464 [PMID: 31391529]
  93. Eur Child Adolesc Psychiatry. 2021 Jan;30(1):41-53 [PMID: 32342195]
  94. Sci Rep. 2018 Jul 3;8(1):10056 [PMID: 29968805]
  95. Int J Tryptophan Res. 2013 Jul 21;6(Suppl 1):39-45 [PMID: 23922501]
  96. Brain Res Bull. 2023 Jul;199:110672 [PMID: 37210012]
  97. Ann Indian Acad Neurol. 2008 Oct;11(4):242-4 [PMID: 19893681]
  98. Diagnostics (Basel). 2019 Jul 26;9(3): [PMID: 31357483]
  99. Sci Adv. 2015 Feb;1(1): [PMID: 26079000]
  100. Antioxid Redox Signal. 2015 Mar 10;22(8):679-85 [PMID: 25386668]
  101. Life Sci. 2012 Nov 27;91(21-22):1027-32 [PMID: 22659391]
  102. Oxid Med Cell Longev. 2020 Sep 4;2020:7289194 [PMID: 32963700]
  103. Front Pediatr. 2019 Mar 13;7:59 [PMID: 30918887]
  104. Int J Mol Sci. 2021 Jun 24;22(13): [PMID: 34202925]
  105. FASEB J. 2014 Mar;28(3):1317-30 [PMID: 24327606]
  106. Nat Rev Neurosci. 2001 Jun;2(6):387-96 [PMID: 11389472]
  107. Front Aging Neurosci. 2021 Feb 18;13:617588 [PMID: 33679375]
  108. Front Pediatr. 2019 Jan 08;6:412 [PMID: 30671425]
  109. Sci Rep. 2016 Oct 11;6:34990 [PMID: 27725700]
  110. J Transl Med. 2023 Apr 3;21(1):242 [PMID: 37013608]
  111. Sci Rep. 2020 Oct 26;10(1):18232 [PMID: 33106563]
  112. Alzheimers Dement. 2023 Jan;19(1):333-342 [PMID: 35522844]
  113. BMC Med. 2014 Oct 01;12:167 [PMID: 25274261]
  114. Biomedicines. 2023 Jan 18;11(2): [PMID: 36830795]
  115. Clin Sci (Lond). 2004 Feb;106(2):183-9 [PMID: 14503920]
  116. Brain Behav Immun Health. 2020 Mar 28;4:100067 [PMID: 34589849]
  117. Scand J Immunol. 2016 Jan;83(1):44-51 [PMID: 26381393]
  118. J Nat Sci. 2016;2(10): [PMID: 27747291]
  119. Diagnostics (Basel). 2023 Nov 21;13(23): [PMID: 38066735]
  120. Insights Biomed. 2017;2(2): [PMID: 29430570]
  121. Nat Immunol. 2022 Apr;23(4):605-618 [PMID: 35352063]
  122. Chronic Illn. 2016 Dec;12(4):292-307 [PMID: 27127189]
  123. Cells. 2019 Aug 13;8(8): [PMID: 31412683]
  124. JAMA. 2015 Mar 17;313(11):1101-2 [PMID: 25668027]
  125. Commun Med (Lond). 2024 Nov 26;4(1):248 [PMID: 39592839]
  126. Int J Clin Exp Med. 2013;6(1):1-15 [PMID: 23236553]
  127. J Intern Med. 2020 Feb;287(2):120-133 [PMID: 31710126]
  128. Front Biosci. 2004 Sep 01;9:2063-85 [PMID: 15353271]
  129. Front Pediatr. 2019 Feb 05;7:12 [PMID: 30805319]
  130. Nutrients. 2021 Jul 30;13(8): [PMID: 34444817]
  131. Sens Actuators B Chem. 2013 Feb;177:848-855 [PMID: 23355762]
  132. Mol Med. 2022 Aug 19;28(1):98 [PMID: 35986236]
  133. J Transl Med. 2016 Jan 20;14:19 [PMID: 26791940]
  134. Int J Mol Sci. 2021 Mar 26;22(7): [PMID: 33810365]
  135. J Intern Med. 2011 Oct;270(4):327-38 [PMID: 21777306]
  136. Integr Med (Encinitas). 2014 Aug;13(4):35-43 [PMID: 26770107]
  137. Medicina (Kaunas). 2021 May 19;57(5): [PMID: 34069603]
  138. Transl Psychiatry. 2017 Apr 4;7(4):e1080 [PMID: 28375204]
  139. Biology (Basel). 2022 Nov 08;11(11): [PMID: 36358334]
  140. Autoimmun Rev. 2020 Jun;19(6):102527 [PMID: 32247028]
  141. Sci Rep. 2020 Feb 7;10(1):2064 [PMID: 32034172]
  142. Ann Allergy Asthma Immunol. 1999 Feb;82(2):185-91 [PMID: 10071523]
  143. Sci Rep. 2019 Feb 27;9(1):2914 [PMID: 30814539]
  144. Front Immunol. 2017 Sep 06;8:1085 [PMID: 28932225]
  145. J Transl Med. 2009 Nov 12;7:96 [PMID: 19909538]
  146. Signal Transduct Target Ther. 2024 May 15;9(1):124 [PMID: 38744846]
  147. Sci Rep. 2018 Sep 3;8(1):13147 [PMID: 30177688]
  148. J Transl Med. 2019 Dec 3;17(1):401 [PMID: 31796045]
  149. J Neuroimmunol. 2006 Feb;171(1-2):86-98 [PMID: 16253349]
  150. J Transl Med. 2020 Sep 24;18(1):365 [PMID: 32972442]
  151. Mol Biosyst. 2017 Jan 31;13(2):371-379 [PMID: 28059425]
  152. J Int Med Res. 2016 Dec;44(6):1381-1394 [PMID: 27834303]
  153. Gene. 2023 Aug 15;877:147568 [PMID: 37328077]
  154. EJIFCC. 2009 Jan 20;19(4):203-11 [PMID: 27683318]
  155. Nat Rev Immunol. 2013 Feb;13(2):70 [PMID: 23348411]
  156. Ther Adv Neurol Disord. 2013 Jul;6(4):237-48 [PMID: 23858327]
  157. Neurosci Lett. 1999 Apr 30;266(1):17-20 [PMID: 10336173]
  158. Biomedicines. 2020 Apr 11;8(4): [PMID: 32290388]
  159. Nat Metab. 2023 Apr;5(4):546-562 [PMID: 37100996]
  160. PLoS One. 2017 Oct 24;12(10):e0186802 [PMID: 29065167]
  161. Cell Host Microbe. 2023 Feb 8;31(2):273-287.e5 [PMID: 36758521]
  162. Neuro Endocrinol Lett. 2015;36(5):439-46 [PMID: 26707044]
  163. Microbiome. 2016 Jun 23;4(1):30 [PMID: 27338587]
  164. Psychoneuroendocrinology. 2019 Feb;100:276-285 [PMID: 30567628]
  165. J Transl Med. 2020 Apr 19;18(1):173 [PMID: 32306967]
  166. Curr Neuropharmacol. 2015;13(5):701-34 [PMID: 26411464]
  167. Antioxid Redox Signal. 2013 Nov 20;19(15):1855-60 [PMID: 23600892]
  168. J Transl Med. 2017 May 11;15(1):102 [PMID: 28494812]
  169. J Transl Med. 2022 Feb 16;20(1):94 [PMID: 35172836]
  170. BMC Med Genet. 2016 Nov 11;17(1):79 [PMID: 27835969]
  171. Heart Vessels. 2010 Jul;25(4):319-23 [PMID: 20676841]
  172. Life Sci. 2007 May 30;80(24-25):2334-6 [PMID: 17363009]
  173. Clin Vaccine Immunol. 2011 Aug;18(8):1229-42 [PMID: 21697338]
  174. Sci Rep. 2019 Dec 16;9(1):19153 [PMID: 31844107]
  175. Front Neurol. 2018 Dec 04;9:1026 [PMID: 30564186]
  176. PLoS One. 2010 May 25;5(5):e10817 [PMID: 20520837]
  177. Int J Mol Sci. 2021 Feb 19;22(4): [PMID: 33669532]
  178. Pharmacoecon Open. 2018 Dec;2(4):381-392 [PMID: 29536371]
  179. Biol Res. 2016 May 31;49(1):27 [PMID: 27245705]
  180. Front Med (Lausanne). 2022 Apr 01;9:842991 [PMID: 35433768]
  181. Hum Exp Toxicol. 2021 Dec;40(12_suppl):S406-S413 [PMID: 34569347]
  182. Antioxid Redox Signal. 2021 Jun 20;34(18):1420-1427 [PMID: 33353469]
  183. Cytokine. 2015 Mar;72(1):1-8 [PMID: 25514671]
  184. J Intern Med. 2012 Jul;272(1):74-84 [PMID: 22112145]
  185. Biology (Basel). 2020 Jun 25;9(6): [PMID: 32630516]
  186. Mol Neurobiol. 2019 Sep;56(9):6581-6585 [PMID: 30895436]
  187. Dis Markers. 2002;18(4):193-9 [PMID: 12590173]
  188. BMC Public Health. 2019 Jun 28;19(1):840 [PMID: 31253111]
  189. Biology (Basel). 2019 May 11;8(2): [PMID: 31083583]
  190. Clin Vaccine Immunol. 2013 Nov;20(11):1736-42 [PMID: 24027260]
  191. Clin Chim Acta. 2012 Oct 9;413(19-20):1525-31 [PMID: 22728138]
  192. Biomedicines. 2021 Nov 19;9(11): [PMID: 34829952]
  193. Int J Mol Sci. 2023 Jan 19;24(3): [PMID: 36768336]
  194. Brain Behav Immun. 2010 Oct;24(7):1209-17 [PMID: 20447453]
  195. Proteomes. 2021 Jan 29;9(1): [PMID: 33572894]
  196. Adv Sci (Weinh). 2023 Oct;10(30):e2302146 [PMID: 37653608]
  197. Biomolecules. 2021 Jun 29;11(7): [PMID: 34209852]
  198. Diagnostics (Basel). 2019 Aug 07;9(3): [PMID: 31394725]
  199. Brain Behav Immun. 2016 Feb;52:32-39 [PMID: 26399744]
  200. Sci Rep. 2023 Feb 2;13(1):1896 [PMID: 36732593]
  201. J Neuroinflammation. 2018 Mar 7;15(1):72 [PMID: 29514694]
  202. Front Immunol. 2018 May 09;9:1028 [PMID: 29867995]
  203. J Transl Med. 2019 Jun 28;17(1):213 [PMID: 31253154]
  204. Biol Psychol. 2016 Jul;118:88-93 [PMID: 27224647]
  205. Front Immunol. 2021 Nov 15;12:656797 [PMID: 34867935]
  206. J Affect Disord. 2012 Feb;136(3):933-9 [PMID: 21975140]
  207. Cell Host Microbe. 2023 Feb 8;31(2):288-304.e8 [PMID: 36758522]
  208. Int J Environ Res Public Health. 2021 Oct 11;18(20): [PMID: 34682360]
  209. J Mol Med (Berl). 2004 Nov;82(11):750-5 [PMID: 15490094]
  210. Int J Mol Sci. 2012 Oct 03;13(10):12656-64 [PMID: 23202919]
  211. JCI Insight. 2016 Dec 22;1(21):e89376 [PMID: 28018972]
  212. Sci Rep. 2018 Feb 9;8(1):2779 [PMID: 29426834]
  213. Life Sci. 2007 May 30;80(24-25):2314-9 [PMID: 17383684]
  214. Mol Med. 2018 Aug 14;24(1):44 [PMID: 30134818]
  215. J Neuroimmunol. 1998 Jan;81(1-2):31-7 [PMID: 9521603]
  216. BMC Med. 2023 May 24;21(1):189 [PMID: 37226227]
  217. Sci Rep. 2021 Mar 29;11(1):7043 [PMID: 33782445]
  218. Front Neuroendocrinol. 2022 Jul;66:100995 [PMID: 35421511]
  219. Biomicrofluidics. 2013 Aug 06;7(4):44114 [PMID: 24404047]

Grants

  1. G00004633 (12S160)/UAE University

MeSH Term

Fatigue Syndrome, Chronic
Humans
Biomarkers
Electrophysiological Phenomena
Electrophysiology

Chemicals

Biomarkers
Journal Article Review
Article has an altmetric score of 120

Word Cloud

Created with Highcharts 10.0.0ME/CFSbiomarkerdiagnosticpotentialreceptordiseasequantitativespecificityclinicalblooddysfunctionMyalgicfatiguesymptomsimpairmentmanyadoptabilitystudiesbiochemicalelectrophysiologicalpropertiescellsusingRamanspectroscopyimpedanceassayuseHoweverbiomarkersexploredcytokineblood-basedcellBACKGROUND:encephalomyelitis/chronicsyndromeunknownaetiologycharacterisedpost-exertionalmalaisePEMleadingsubstantialfunctioningkeyincludecognitiveunrefreshingsleepexperiencingpaindatecompleteunderstandingtriggeringpathomechanismsavailablesufficientsensitivityprovideconclusivediagnosisCliniciansthuseliminatedifferentialdiagnosesrelysubjectiveunspecificdisputedcriteria-aprocessoftentakesyearspatientsmisdiagnosedreceivinginappropriatesometimesdetrimentalcareWithouttrivialisationscepticismmarginalisationmisunderstandingcontinuesdespitesignificantdisabilityOnefourindividualsbed-boundlongperiodstimeothersdifficultiesmaintainingjob/attendingschoolincurringindividualincomelossesthousandsparticipatesocialactivitiesMAINBODY:Recentreportedpromisingquantifiabledifferencesseparatenon-ME/CFSparticipantshighsensitivitiesspecificities-demonstratingdevelopmentaccessiblerelativelynon-invasiveincludesprofilingimmunemeasuringelectricalsampleshyperosmoticchallengenano-electronicmetabolomicassayscertaintechniquesassessmitochondrialapplicationneedscontrolspracticality/logisticsconsideredDifferencesprofilesalsowelldocumentedfindingconsistentstablereplicableprofilemaypossibleIncreasingevidencedemonstratesacetylcholinetransientionchannelthoughfindingstranslateyetCONCLUSION:DifferentdifferentiateidentifiedacrossholdingpromiseresearchrequireddeterminesearchEncephalomyelitis/ChronicFatigueSyndrome:biochemistryelectrophysiologyAcetylcholineElectricalMetabolomicMitochondrialNaturalkillerPeripheralmononuclearTransient

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