Allen EV, Brown GE (1932) Raynaud’s disease: a critical review of minimal requisites for diagnosis. Am J Med Sci 183:187–200

Article  Google Scholar 

Alser OH, Kuo RYL, Furniss D (2020) Nongenetic factors associated with Dupuytren’s disease: a systematic review. Plast Reconstr Surg 146:799–807

Article  Google Scholar 

Bovenzi M (1998) Vibration-induced white finger and cold response of digital arterial vessels in occupational groups with various patterns of exposure to hand-transmitted vibration. Scand J Work Environ Health 24:138–144

Article  Google Scholar 

Bovenzi M (2008) A follow up study of vascular disorders in vibration-exposed forestry workers. Int Arch Occup Environ Health 81:401–408

Article  Google Scholar 

Bovenzi M (2010) A prospective cohort study of exposure-response relationship for vibration-induced white finger. Occup Environ Med 67:38–46

Article  Google Scholar 

Bovenzi M, Franzinelli A, Strambi F (1988) Prevalence of vibration-induced white finger and assessment of vibration exposure among travertine workers in Italy. Int Arch Occup Environ Health 61:25–34

Article  Google Scholar 

M Bovenzi, The Italian study group on physical hazards in the stone industry (1994) Hand-arm vibration and dose-response relation for vibration induced white finger among quarry drillers and stone carvers. Occup Environ Med, 51:603–611

Bovenzi M, Franzinelli A, Mancini R, Cannavà MG, Maiorano M, Ceccarelli F (1995) Dose-response relation for vascular disorders induced by vibration in the fingers of forestry workers. Occup Environ Med 52:722–730

Article  Google Scholar 

Bovenzi M, Rui F, Versini W, Tommasini M, Nataletti P (2004) Sindrome da vibrazioni mano-braccio e patologie degli arti superiori correlate con il lavoro forestale. Med Lav 95:282–296

Google Scholar 

Bovenzi M, Pinto I, Picciolo F, Mauro M, Ronchese F (2011a) Frequency weightings of hand-transmitted vibration for predicting vibration-induced white finger. Scand J Work Environ Health 37:244–252

Article  Google Scholar 

Bovenzi M, Ronchese F, Mauro M (2011b) A longitudinal study of peripheral sensory function in vibration-exposed workers. Int Arch Occup Environ Health 84:325–334

Article  Google Scholar 

Bovenzi M, Prodi A, Mauro M (2015) Relationships of neurosensory disorders and reduced work ability to alternative frequency weightings of hand-transmitted vibration. Scand J Work Environ Health 41:247–258

Article  Google Scholar 

British Standards Institution (BSI) (1987) Measurement and evaluation of human exposure to vibration transmitted to the hand. BSI 6842, London

Burger MC, Abrahams S, Collins M (2016) Non-occupational risk factors for carpal tunnel syndrome: a review. Women’s Health Bull 3:e34820

Article  Google Scholar 

Comité Européen de Normalisation (CEN) (1996) Mechanical vibration - guide to the health effects of vibration on the human body. CEN Technical Report 12349. CEN, Brussels

Cui J, Qian G (2007) Selection of working correlation structure and best model in GEE analyses of longitudinal data. Commun Stat Simul Comput 36:987–996

Article  Google Scholar 

Edlund M, Burström L, Gerhardsson L, Lundström R, Nilsson T, Sandén H, Hagberg M (2014) A prospective cohort study investigating an exposure–response relationship among vibration-exposed male workers with numbness of the hands. Scand J Work Environ Health 40:203–209

Article  Google Scholar 

Fraenkel L (2002) Raynaud’s phenomenon: epidemiology and risk factors. Curr Rheumatol Rep 4:123–128

Article  Google Scholar 

Fraenkel L, Zang Y, Chaisson CE, Maricq HR, Evans SR, Brand F, Wilson PWF, Felson DT (1999) Different factors influencing the expression of Raynaud’s phenomenon in men and women. Arthritis Rheum 42:306–310

Article  Google Scholar 

Geoghegan JM, Forbes J, Clark DI, Smith C, Hubbard R (2004) Dupuytren’s disease risk factors. J Hand Surg 29B:423–426

Article  Google Scholar 

Gerhardsson L, Balogh I, Hambert P-A, Hjortsberg U, Karlsson J-E (2005) Vascular and nerve damage in workers exposed to vibrating tools. The importance of objective measurements of exposure time. Appl Ergon 36:55–60

Article  Google Scholar 

Griffin MJ, Bovenzi M, Nelson CM (2003) Dose-response patterns for vibration-induced white finger. Occup Environ Med 60:16–26

Article  Google Scholar 

Griffin MJ, Howarth HVC, Pitts PM, Fisher S, Kaulbars U, Donati P, Bereton PF (2006) Guide to good practice on hand-arm vibration. European Commission Directorate General Employment, Social Affairs and Equal Opportunities (contract VC/2004/0341)

Hacquebord JH, Chiu VY, Harness NG (2017) The risk of Dupuytren diagnosis in obese individuals. J Hand Surg 42:149–155

Article  Google Scholar 

Harris-Adamson C, Eisen EA, Dale AM, Evanoff B, Hegmann KT, Thiese MS, Kapellusch JM, Garg A, Burt S, Bao S, Silverstein B, Gerr F, Merlino L, Rempel D (2013) Personal and workplace psychosocial risk factors for carpal tunnel syndrome: a pooled study cohort. Occup Environ Med 70:529–537

Article  Google Scholar 

International Organization for Standardization (ISO) (1986) Mechanical vibration – Guidelines for the measurement and the assessment of human exposure to hand-transmitted vibration. ISO 5349. ISO, Geneva

International Organization for Standardization (ISO) (2001) Mechanical vibration – Measurement and evaluation of human exposure to hand-transmitted vibration – Part 1: General requirements. ISO 5349–1. ISO, Geneva

International Organization for Standardization (ISO) (2001) Mechanical vibration – Measurement and evaluation of human exposure to hand-transmitted vibration – Part 2: Practical guidance for measurement at the workplace. ISO 5349–2. ISO, Geneva

International Organization for Standardization (ISO) (2005) Mechanical vibration and shock - Cold provocation tests for the assessment of peripheral vascular function. Part 2: Measurement and evaluation of finger systolic blood pressure. ISO 14835–2. ISO, Geneva

Lampainen K, Hulkkonen S, Ryhänen J, Curti S, Shiri R (2022) Is smoking associated with carpal tunnel syndrome? A meta-analysis. Healthcare 10:1988

Article  Google Scholar 

Lundborg G, Dahlin LB, Hansson HA, Pyykkö I (1987) Intraneural edema following exposure to vibration. Scand J Work Environ Health 13:326–329

Article  Google Scholar 

Mathieu S, Naughton G, Descatha A, Soubrier DF (2020) Dupuytren’s disease and exposure to vibration: systematic review and meta-analysis. Joint Bone Spine 87:203–207

Article  Google Scholar 

Nielsen SL, Lassen NA (1977) Measurement of digital blood pressure after local cooling. J Appl Physiol Respir Environ Exerc Physiol 43:907–910

Google Scholar 

Nilsson T, Wahlström J, Burström L (2017) Hand-arm vibration and the risk of vascular and neurological diseases – a systematic review and meta-analysis. PLoS ONE 12:e0180795

Article  Google Scholar 

Nilsson T, Wahlström J, Reierth E, Burström L (2023) Dupuytren’s disease in relation to the exposure to hand-transmitted vibration: a systematic review and meta-analysis. Proceedings 86:30

Google Scholar 

Nordstrom DL, Vierkant RA, DeStefano F, Layde PM (1997) Risk factors for carpal tunnel syndrome in a general population. Occup Environ Med 54:734–740

Article  Google Scholar 

Olsen N, Hagberg M, Ekenvall L, Futatsuka M, Harrison J, Nasu Y, Welsh C, Yamada S, Yoshida M (1995) Clinical and laboratory diagnostics of vascular symptoms induced by hand-arm vibration: report from discussions in a working group. In: Gemne G, Brammer AJ, Hagberg M, Lundström R, Nilsson T (eds) Proceedings of the Stockholm worshop 94. Hand-arm vibration syndrome: diagnostics and quantitative relationships to exposure. National Institute of Occupational Health, Solna, 25–28 May 1994. Arb Hälsa vol 5, pp 181–186

Palesch YY, Valter I, Carpentier PH, Maricq HR (1999) Association between cigarette and alcohol consumption and Raynaud’s phenomenon. J Clin Epidemiol 52:321–328

Article  Google Scholar 

Palmer KT, Haward B, Griffin MJ, Bednall H, Coggon D (2000) Validity of self reported occupational exposure to hand transmitted and whole body vibration. Occup Environ Med 57:237–241

Article  Google Scholar 

Palmer KT, Harris EC, Coggon D (2007) Carpal tunnel syndrome and its relation to occupation: a systematic literature review. Occup Med 57:57–66

Article  Google Scholar 

Reda M, Noël C, Settembre N, Chambert J, Lejeune A, Rolin GL, Jacquet E (2022) An agent-based model of vibration-induced intimal hyperplasia. Biomech Model Mechanobiol 21:1457–1481

Article  Google Scholar 

Rempel D, Evanoff B, Amadio PC, de Krom M, Franklin G, Franzblau A, Gray R, Gerr F, Hagberg M, Hales T, Katz JN, Pransky G (1998) Consensus criteria for the classification of carpal tunnel syndrome in epidemiologic studies. Am J Public Health 88:1447–1451

Article  Google Scholar 

Shiri R, Pourmemari MH, Falah-Hassani K, Viikari-Juntura E (2015) The effect of excess body mass on the risk of carpal tunnel syndrome: a meta-analysis of 58 studies. Obes Rev 16:1094–1104

Article  Google Scholar 

Stjernbrandt A, Petterson H, Lundström R, Liljelind I, Nilsson T, Wahlström J (2022) Incidence, remission, and persistence of Raynaud’s phenomenon in the general population of northern Sweden: a prospective study. BMC Rheumatol 6:4

Article  Google Scholar 

Strömberg T, Dahlin LB, Brun A, Lundborg G (1997) Structural nerve changes at wrist level in workers exposed to vibration. Occup Environ Med 54:307–311

Article  Google Scholar 

Takeuchi T, Futatsuka M, Imanishi H, Yamada S (1986) Pathological changes observed in the finger biopsy of patients with vibration-induced white finger. Scand J Work Environ Health 12:280–283

Article  Google Scholar 

van den Berge BA, Wiberg A, Werker PMN, Broekstra DC, Furniss D (2023) Dupuytren’s disease is a work-related disorder: results of a population-based cohort study. Occup Environ Med 80:137–145

Article  Google Scholar 

van den Heuvel SG, van der Beek AJ, Blatter BM, Hoogendoorn WE, Bongers PM (2005) Psychosocial work characteristics in relation to neck and upper limb symptoms. Pain 114:47–53

Article  Google Scholar 

VINET (2001) Vibration Injury Network. Research network on detection and prevention of injuries due to occupational vibration exposures. Final report to the European Commission. Appendices H1B and W1B. EC BIOMED 2 concerted action - project no. BMH4-CT98–3251, April 1998 to March 2001

VIBRISKS (2007) Risks of Occupational Vibration Exposures. FP5 Project No. QLK4–2002–02650. European Commission Quality of Life and Management of Living Resources Programme. Southampton, UK: Human Factors Research Unit, Institute of Sound and Vibration Research, University of Southampton (updated 28 February 2007). (http://www.vibrisks.soton.ac.uk). Accessed 10 March 2025