Skip to main content
Key Specialties
Cardiology Diabetology Endocrinology Gastroenterology Geriatrics and Gerontology Gynecology and Obstetrics Hematology Infectious Disease Internal Medicine Nephrology Neurology Oncology Pediatrics Respiratory Medicine Rheumatology Surgery
Congress Coverage
2024 ACC Congress 2023 ESMO Congress 2023 EASD Congress 2023 ERS Congress 2023 ESC Congress
Clinical Collections
Advances in Alzheimer’s

Keynote webinar | Spotlight on medication adherence

LIVE: Thursday 27th June 2024, 18:00-19:30 (CEST)
Join our expert panel to discover why you need to understand the drivers of non-adherence in your patients, and how you can optimize medication adherence in your clinics to drastically improve patient outcomes.
ADVANCED SEARCH
Log in
Top
Neurological Sciences
Published in: Neurological Sciences 10/2020

01-10-2020 | Neurotomy | Review Article

Peripheral neuropathy in Parkinson’s disease

Authors: Dion A. Paul, Abdul Rehman M. Qureshi, Abdul Qayyum Rana

Published in: Neurological Sciences | Issue 10/2020

Login to get access

Abstract

Peripheral neuropathy (PN) is a common neurological problem defined as a dysfunction of sensory, motor, and autonomic nerves. The presence of peripheral neuropathy has recently been noticed in Parkinson’s disease (PD) This comorbidity is concerning as it increases the burden on patients whose motor functions are previously compromised. A comprehensive computer-based literature review utilizing multiple peer-reviewed databases (e.g., Embase, PsycINFO, CINAHL, etc.) was conducted. There is evidence for the utility of robust diagnostic criteria to distinguish between large fiber neuropathy (LFN) and small fiber neuropathy (SFN). Some studies have established links between prolonged l-DOPA exposure and prevalence with increased levels of homocysteine (HCY) and methylmalonic acid (MMA) as pathological underlying mechanisms. PN in PD patients with relatively truncated exposure to l-DOPA therapy may have underlying mutations in the Parkin and MHTFR gene or separate mitochondrial disorders. Vitamin B12 and cobalamin deficiencies have also been implicated as drivers of PN. Accumulation of phosphorylated α-synuclein is another central feature in PN and deems urgent exploration via large cohort studies. Importantly, these underlying mechanisms have been linked to peripheral denervation. This review delves into the potential treatments for PN targeting B12 deficiencies and the use of COMT inhibitors along with other novel approaches. Avenues of research with powerful randomized controlled and long-term cohort studies exploring genetic mechanisms and novel treatment pathways is urgently required to alleviate the burden of disease exerted by PN on PD.
Literature
1.
Zis P, Grünewald RA, Chaudhuri RK, Hadjivassiliou M (2017) Peripheral neuropathy in idiopathic Parkinson’s disease: a systematic review. J Neurol Sci 378:204–209PubMed
2.
England JD, Asbury AK (2004) Peripheral neuropathy. Lancet 363:2151–2161PubMed
3.
Simon C (2009) Peripheral neuropathy. InnovAIT 2(9):538–545
4.
Wolfe GI, Baker NS, Amato AA, Jackson CE, Nations SP, Saperstein DS, Cha CH, Katz JS, Bryan WW, Barohn RJ (1999) Chronic cryptogenic sensory polyneuropathy: clinical and laboratory characteristics. Arch Neurol 56(5):540–547PubMed
5.
6.
Notermans NC, Wokke JH, van der Graaf Y (1994) Chronic idiopathic axonal polyneuropathy: a five year follow up. J Neurol Neurosurg Psychiatry 57:1525–1527PubMedPubMedCentral
7.
Muller T, Van Laar T, Cornblath DR et al (2013) Peripheral neuropathy in Parkinson’s disease: levodopa exposure and implications for duodenal delivery. Parkinsonism Relat Disord 19:501–507PubMed
8.
Rajabelly YA, Martey J (2013) Levodopa, vitamins, ageing and the neuropathy of Parkinson’s disease. J Neurol 260:2844–2848
9.
Leonard DR, Farooqi MH, Myer S (2004) Restoration of sensation, reduced pain, and improved balance in subjects with diabetic peripheral neuropathy: a double-blind, randomized, placebo-controlled study with monochromatic near-infrared treatment. Diabetes Care 27:168–172PubMed
10.
Merola A, Romagnolo A, Zibetti M, Bernardini A, Cocito D, Lopiano L (2016) Peripheral neuropathy associated with levodopa–carbidopa intestinal infusion: a long-term prospective assessment. Eur J Neurol 23:501–509PubMed
11.
Melamed E (1979) Early-morning dystonia: a late side effect of long-term levodopa therapy in Parkinson’s disease. Arch Neurol 36:308–310PubMed
12.
Ceravolo R, Cossu G, Bandettini M (2013) Neuropathy and levodopa in Parkinson’s disease: evidence from a multicenter study. Mov Disord 28:1391–1397PubMed
13.
Sakakibara R, Tateno F, Kishi M, Tsuyusaki Y, Terada H, Inaoka T (2014) MIBG myocardial scintigraphy in pre-motor parkinson's disease: a review. Parkinsonism Relat Disord 20:267–273PubMed
14.
Müller T, Jugel C, Muhlack S, Klostermann F (2014) Methyl group–donating vitamins elevate 3-O-methyldopa in patients with Parkinson disease. Clin Neuropharmacol 36:52–54
15.
Brattstrom L, Wilcken DEL (2000) Homocysteine and cardiovascular disease: cause or effect? Am J Clin Nutr 72:315–323PubMed
16.
Jakubowski H (2006) Pathophysiological consequences of homocysteine excess. J Nutr 136:1741S–1749SPubMed
17.
Mattson MP, Shea TB (2003) Folate and homocysteine metabolism in neural plasticity and neurodegenerative disorders. Trends Neurosci 26:137–146PubMed
18.
Rosenquist TH, Ratashak SA, Selhub J (1996) Homocysteine induces congenital defects of the heart and neural tube: effect of folic acid. Proc Natl Acad Sci U S A 93:15227–15232PubMedPubMedCentral
19.
Reynolds EH (2017) The risks of folic acid to the nervous system in vitamin B12 deficiency: rediscovered in the era of folic acid fortification policies. J Neurol Neurosurg Psychiatry 88:1097–1098PubMed
20.
Brito A, Grapov D, Fahrmann J, Harvey D, Green R, Miller JW, Fedosov SN, Shahab-Ferdows S, Hampel D, Pedersen TL, Fiehn O, Newman JW, Uauy R, Allen LH (2017) The human serum metabolome of vitamin B-12 deficiency and repletion, and associations with neurological function in elderly adults. J Nutr 147:1839–1849PubMedPubMedCentral
21.
Okuma Y, Hattori N, Mizuno Y (2003) Sensory neuropathy in autosomal recessive juvenile Parkinism (PARK 2). Parkinsonism Relat Disord 9:313–314PubMed
22.
Abbruzzese G, Pigullo S, Schenone A, Bellone E, Marchese R, di Maria E, Benedetti L, Ciotti P, Nobbio L, Bonifati V, Ajmar F, Mandich P (2004) Does Parkin play a role in the peripheral nervous system? A family report. Mov Disord 19:978–981PubMed
23.
Jugel C, Ehlen F, Taskin B, Marzinzik F, Müller T, Klostermann F (2013) Neuropathy in Parkinson’s disease patients with intestinal levodopa infusion versus oral drugs. PLoS One:e666–e639
24.
Nissinen E, Nissinen H, Larjonmaa H, Väänänen A, Helkamaa T, Reenilä I, Rauhala P (2005) The COMT inhibitor, entacapone, reduces levodopa-induced elevations in plasma homocysteine in healthy adult rats. J Neural Transm 112:1213–1221PubMed
25.
Loens S, Chorbadzhieva E, Kleimann A, Dressler D, Schrader C (2017) Effects of levodopa/carbidopa intestinal gel versus oral levodopa/carbidopa on B vitamin levels and neuropathy. Brain Behav 7:e00698PubMedPubMedCentral
26.
Urban PP, Wellach I, Faiss S, Layer P, Rosenkranz T, Knop K, Weis J (2010) Subacute axonal neuropathy in Parkinson’s disease with cobalamin and vitamin B6 deficiency under duodopa therapy. Mov Disord 25:1748–1752PubMed
27.
Meppelink AM, Nyman R, van Laar T, Drent M, Prins T, Leenders KL (2011) Transcutaneous port for continuous duodenal levodopa/carbidopa administration in Parkinson’s disease. Mov Disord 26(2):331–334PubMed
28.
Antonini A, Isaias IU, Canesi M, Zibetti M, Mancini F, Manfredi L, Dal Fante M, Lopiano L, Pezzoli G (2007) Duodenal levodopa infusion for advanced Parkinson’s disease: 12- month treatment outcome. Mov Disord 22:1145–1149PubMed
29.
Manca D, Cossu G, Murgia D, Molari A, Ferrigno P, Marcia E, Melis M (2009) Reversible encephalopathy and axonal neuropathy in Parkinson’s disease during duodopa therapy. Mov Disord 24:2293–2294PubMed
30.
Galazky I, Schoof J, Stallforth S, Kupsch A, Heinze HJ, Kluge C (2014) Guillain–Barre/CIDP-like neuropathy in two Parkinsonian patients following intestinal levodopa/carbidopa treatment. Parkinsonism Relat Disord 20:125–127PubMed
31.
Merola A, Zibetti M, Rizzone MG, Troiano M, Artusi CA, Angrisano S, Cocito D, Lopiano L (2014) Prospective assessment of peripheral neuropathy in Duodopa-treated parkinsonian patients. Acta Neurol Scand 129:e1–e5PubMed
32.
Fernandez HH, Standaert DG, Hauser RA, Lang AE, Fung VS, Klostermann F, Lew MF, Odin P, Steiger M, Yakupov EZ, Chouinard S (2015) Levodopa-carbidopa intestinal gel in advanced Parkinson’s disease: final 12-month, open-label results. Mov Disord 30:500–509PubMed
33.
Santos-García D, de la Fuente-Fernández R, Valldeoriola F, Palasí A, Carrillo F, Grande M, Mir P, De Fabregues O, Casanova J (2012) Polyneuropathy while on duodenal levodopa infusion in Parkinson’s disease patients: we must be alert. J Neurol 259:1668–1672PubMed
34.
Rispoli V, Simioni V, Capone JG, Golfrè Andreasi N, Preda F, Sette E, Tugnoli V, Sensi M (2017) Peripheral neuropathy in 30 duodopa patients with vitamins B supplementation. Acta Neurol Scand 136:660–667PubMed
35.
Devigili G, Rinaldo S, Lettieri C, Eleopra R (2016) Levodopa/carbidopa intestinal gel therapy for advanced Parkinson disease: AN early toxic effect for small nerve fibers? Muscle Nerve 54:970–972PubMed
36.
Uncini A, Eleopra R, Onofrj M (2015) Polyneuropathy associated with duodenal infusion of levodopa in Parkinson’s disease: features, pathogenesis and management. J Neurol Neurosurg Psychiatry 86:490–495PubMed
37.
Zoccolella S, Lamberti P, Armenise E, Mari M, Lamberti SV, Mastronardi R, Fraddosio A, Iliceto G, Livrea P (2005) Plasma homocysteine levels in Parkinson’s disease: role of antiparkinsonian medications. Parkinsonism Relat Disord 11:131–133PubMed
38.
Goyette P, Pai A, Milos R, Frosst P, Tran P, Chen Z, Chan M, Rozen R (1998) Gene structure of human and mouse methylenetetrahydrofolate reductase (MTHFR). Mamm Genome 9:652–656PubMed
39.
Gorgone G, Curro M, Ferlazzo N, Parisi G, Parnetti L, Belcastro V, Tambasco N, Rossi A, Pisani F, Calabresi P, Ientile R (2012) Coenzyme Q10, hyperhomocysteinemia and MTHFR C677T polymorphism in levodopa-treated Parkinson’s disease patients. NeuroMolecular Med 14:84–90PubMed
40.
Schapira AH (2008) Mitochondria in the aetiology and pathogenesis of Parkinson’s disease. Lancet Neurol 7:97–109PubMed
41.
Devi L, Raghavendran V, Prabhu BM, Avadhani NG, Anandatheerthavarada HK (2008) Mitochondrial import and accumulation of α-synuclein impair complex I in human dopaminergic neuronal cultures and Parkinson disease brain. J Biol Chem 283:9089–9100PubMedPubMedCentral
42.
Wakabayashi K, Takahashi H, Takeda S, Ohama E, Ikuta F (1988) Parkinson’s disease: the presence of Lewy bodies in Auerbach's and Meissner's plexuses. Acta Neuropathol 76:217–221PubMed
43.
Beach TG, Adler CH, Lue L, Sue LI, Bachalakuri J, Henry-Watson J, Sasse J, Boyer S, Shirohi S, Brooks R, Eschbacher J (2009 Jun 1) Unified staging system for Lewy body disorders: correlation with nigrostriatal degeneration, cognitive impairment and motor dysfunction. Acta Neuropathol 117:613–634PubMedPubMedCentral
44.
Luoma P, Melberg A, Rinne JO (2004) Parkinsonism, premature menopause, and mitochondrial DNA polymerase gamma mutations: clinical and molecular genetic study. Lancet 364:875–882PubMed
45.
Liu S, Sawada T, Lee S, Yu W, Silverio G, Alapatt P, Millan I, Shen A, Saxton W, Kanao T, Takahashi R, Hattori N, Imai Y, Lu B (2012) Parkinson’s disease – associated kinase PINK1 regulates axonal transport of mitochondria. PLoS Genet 8:e1002537PubMedPubMedCentral
46.
Hughes AJ, Daniel SE, Kilford L, Lees AJ (1992) Accuracy of clinical diagnosis of idiopathic Parkinson’s disease: a clinico-pathological study of 100 cases. J Neurol Neurosurg Psychiatry 55:181–184PubMedPubMedCentral
47.
Dabby R, Djaldetti R, Shahmurov M, Treves TA, Gabai B, Melamed E et al (2006) Skin biopsy for assessment of autonomic denervation in Parkinson's disease. J Neural Transm 113:e1169–e1176
48.
Tolosa E, Wenning G, Poewe W (2006) The diagnosis of Parkinson’s disease. Lancet Neurol 5:75–86PubMed
49.
Nolano M, Provitera V, Estraneo A, Selim MM, Caporaso G, Stancanelli A, Saltalamacchia AM, Lanzillo B, Santoro L (2008) Sensory deficit in Parkinson’s disease: evidence of a cutaneous denervation. Brain 131:1903–1911PubMed
50.
Orimo S, Amino T, Yokochi M, Kojo T, Uchihara T, Takahashi A, Wakabayashi K, Takahashi H, Hattori N, Mizuno Y (2005) Preserved cardiac sympathetic nerve accounts for normal cardiac uptake of MIBG in PARK2. Mov Disord 20:1350–1353PubMed
51.
Orimo S, Oka T, Miura H, Tsuchiya K, Mori F, Wakabayashi K, Nagao T, Yokochi M (2002) Sympathetic cardiac denervation in Parkinson’s disease and pure autonomic failure but not in multiple system atrophy. J Neurol Neurosurg Psychiatry 73:776–777PubMedPubMedCentral
52.
Braak H, del Tredici K, Rüb U, De Vos RA, Jansen Steur EN, Braak E (2003) Staging of brain pathology related to sporadic Parkinson’s disease. Neurobiol Aging 24:197–211PubMed
53.
Del Tredici K, Rüb U, De Vos RA, Bohl JR, Braak H (2002) Where does Parkinson disease pathology begin in the brain? J Neuropathol Exp Neurol 61:413–426PubMed
54.
Orimo S, Takahashi A, Uchihara T, Mori F, Kakita A, Wakabayashi K, Takahashi H (2007) Degeneration of cardiac sympathetic nerve begins in the early disease process of Parkinson's disease. Brain Pathol 17:24–30PubMed
55.
Donadio V, Incensi A, Leta V, Giannoccaro MP, Scaglione C, Martinelli P et al (2014) Skin nerve alpha-synuclein deposits: a biomarker for idiopathic Parkinson disease. Neurology 82:e1362–e1369
56.
Fujishiro H, Frigerio R, Burnett M, Klos KJ, Josephs KA, Delledonne A et al (2008) Cardiac sympathetic denervation correlates with clinical and pathologic stages of Parkinson’s disease. Mov Disord 23:e1085–e1092
57.
Lebouvier T, Neunlist M, Bruley des Varannes S, Coron E, Drouard A, N'Guyen JM et al (2010) Colonic biopsies to assess the neuropathology of Parkinson’s disease and its relationship with symptoms. PLoS One 5:e127–e128
58.
Doppler K, Ebert S, Uceyler N, Trenkwalder C, Ebentheuer J, Volkmann J et al (2014) Cutaneous neuropathy in Parkinson’s disease: a window into brain pathology. Acta Neuropathol 128:e99–e109
59.
Wang N, Gibbons CH, Lafo J, Freeman R (2013) Alpha-synuclein in cutaneous autonomic nerves. Neurology 81:e1604–e1610
60.
Donadio V, Incensi A, Piccinini C, Cortelli P, Giannoccaro MP, Baruzzi A, Liguori R (2016) Skin nerve misfolded α-synuclein in pure autonomic failure and Parkinson disease. Ann Neurol 79:306–316PubMed
61.
Gondim Fde A, de Oliveira GR, Peixoto AA Jr, Horta WG (2010) A case series of peripheral neuropathy in patients with Parkinson’s disease. Ann Neurol 68:973–975PubMed
62.
Rajabally YA, Martey J (2011) Neuropathy in Parkinson disease: prevalence and determinants. Neurology 77:e1947–e1950
63.
Gusmaroli G, Barbagli D, Ravagnani M, Mongiovetti M, Capone L, Tarletti R et al (2010) Axonal polyneuropathy during duodenal levodopa treatment in a woman with idiopathic Parkinson’s disease. Mov Disord 25:S720
64.
Palasí A, Fábregues O, Hernández-Vara J, Seoane JL, Gámez J, Álvarez-Sabín J. Small fiber peripheral neuropathy presentation after starting treatment with continuous intraduodenal levodopa infusion in one patient with Parkinson disease. In: Poster presentation at: 7th international congress on mental dysfunction and other non-motor features in Parkinson’s disease 2010
65.
Klostermann F, Jugel C, Müller T, Marzinzik F (2012) Malnutritional neuropathy under intestinal levodopa infusion. J Neural Transm 119:e369–e372
66.
Toth C, Brown MS, Furtado S, Suchowersky O, Zochodne D (2008) Neuropathy as a potential complication of levodopa use in Parkinson’s disease. Mov Disord 23:1850–1859PubMed
67.
Shanb AA, Youssef EF, Al Baker WI, Al-Khamis FA, Hassan A, Jatoi NA (2020) The efficacy of adding electromagnetic therapy or laser therapy to medications in patients with diabetic peripheral neuropathy. J Lasers Med Sci 11(1):20–28PubMedPubMedCentral
68.
Cossu G, Ceravolo R, Zibetti M, Arca R, Ricchi V, Paribello A, Murgia D, Merola A, Romagnolo A, Nicoletti V, Palermo G (2016) Levodopa and neuropathy risk in patients with Parkinson disease: effect of COMT inhibition. Parkinsonism Relat Disord 27:81–84PubMed
69.
Sun T et al (2005) Effectiveness of vitamin B12 on diabetic neuropathy: systematic review of clinical controlled trials. Acta Neurol Taiwan 14(2):48–54PubMed
70.
Picci C, Wong VS, Costa CJ, McKinnon MC, Goldberg DC, Swift M, Alam NM, Prusky GT, Shen S, Kozikowski AP, Willis DE (2020) HDAC6 inhibition promotes α-tubulin acetylation and ameliorates CMT2A peripheral neuropathy in mice. Exp Neurol 5:113281
71.
Lazic A, Popović J, Paunesku T, Woloschak GE, Stevanović M (2020) Insights into platinum-induced peripheral neuropathy–current perspective. Neural Regen Res 15(9):1623–1630PubMedPubMedCentral
72.
Massa F, Zuppa A, Pesce G, Demichelis C, Bergamaschi M, Garnero M, Briani C, Ferrari S, Schenone A, Benedetti L (2020) Bendamustine–rituximab (BR) combined therapy for treatment of immuno-mediated neuropathies associated with hematologic malignancy. J Neurol Sci 413:116777PubMed
73.
Prnova MS, Kovacikova L, Svik K, Bezek S, Elmazoğlu Z, Karasu C, Stefek M (2019) Triglyceride-lowering effect of the aldose reductase inhibitor cemtirestat—another factor that may contribute to attenuation of symptoms of peripheral neuropathy in STZ-diabetic rats. Naunyn Schmiedeberg's Arch Pharmacol 5:1–1
74.
Elkholy SE, Elaidy SM, El-Sherbeeny NA, Toraih EA, Elgawly HW (2020) Neuroprotective effects of ranolazine versus pioglitazone in experimental diabetic neuropathy: targeting Nav1. 7 channels and PPAR-γ. Life Sci 14:117557
75.
Chen CH, Huang YK, Jaw FS (2015) Ultrasound-guided perineural vitamin b12 injection for peripheral neuropathy. J Med Ultrasound 23:104–106
76.
Nardone A, Grasso M, Schieppati M (2006) Balance control in peripheral neuropathy: are patients equally unstable under static and dynamic conditions? Gait Posture 23:364–373PubMed
77.
Hoeijmakers JG, Faber CG, Lauria G, Merkies IS, Waxman SG (2012) Small-fibre neuropathies – advances in diagnosis, pathophysiology and management. Nat Rev Neurol 8:369–379PubMed
78.
Nyholm D (2012) Duodopa® treatment for advanced Parkinson’s disease: a review of efficacy and safety. Parkinsonism Relat Disord 18:916–929PubMed
79.
Yeager D (2012) Diagnosing peripheral neuropathy. Aging Well 5:14
Metadata
Title
Peripheral neuropathy in Parkinson’s disease
Authors
Dion A. Paul
Abdul Rehman M. Qureshi
Abdul Qayyum Rana
Publication date
01-10-2020
Publisher
Springer International Publishing
Published in
Neurological Sciences / Issue 10/2020
Print ISSN: 1590-1874
Electronic ISSN: 1590-3478
DOI
https://doi.org/10.1007/s10072-020-04407-4

Other articles of this Issue 10/2020

Neurological Sciences 10/2020 Go to the issue

Original Article

Sensory function in headache: a comparative study among patients with cluster headache, migraine, tension-type headache, and asymptomatic subjects

Original Article

Susceptibility-weighted imaging and transcranial Doppler ultrasound in patients with cerebral small vessel disease

Original Article

Cerebrospinal fluid MFG-E8 as a promising biomarker of amyotrophic lateral sclerosis

Letter to the Editor

An unusual case of anti-basal ganglia encephalitis showing polyradiculoneuritis features

Original Article

Early putamen hypertrophy and ongoing hippocampus atrophy predict cognitive performance in the first ten years of relapsing-remitting multiple sclerosis

Original Article

Botulinum toxin for the management of spasticity in multiple sclerosis: the Italian botulinum toxin network study