浏览全部资源
扫码关注微信
1. Department of Ophthalmology, University of Cologne, Faculty of Medicine and University Hospital Cologne,Cologne,Germany
2. Center for Integrated Oncology (CIO), Aachen-Bonn-Cologne-Duesseldorf,Cologne,Germany
3. Eye Center, The Second Affiliated Hospital of Zhejiang University School of Medicine
4. Zhejiang Provincial Key Laboratory of Ophthalmology, Zhejiang Provincial Clinical Research Center for Eye Diseases, Zhejiang Provincial Engineering Institute on Eye Diseases,Zhejiang,Hangzhou,China
Published:2024,
扫 描 看 全 文
Xiaojun Ju, Alexander C. Rokohl, Xueting Li, et al. A UV-related risk analysis in ophthalmic malignancies: Increased UV exposure may cause ocular malignancies. [J]. AOPR 4(2):98-105(2024)
Xiaojun Ju, Alexander C. Rokohl, Xueting Li, et al. A UV-related risk analysis in ophthalmic malignancies: Increased UV exposure may cause ocular malignancies. [J]. AOPR 4(2):98-105(2024) DOI: 10.1016/j.aopr.2024.04.001.
PurposeTo explore the role of ultraviolet radiation (UVR) in the occurrence and development of various ocular malignancies.MethodsIn this article
we retrieved ocular malignancy data from the Global Cancer Observatory (GCO) and performed correlation analysis with the global UV index and sunshine duration. We searched for associated studies using the following databases: Embase
Pubmed
Cochrane Library
and Google Scholar. We conducted the literature by searching the Mesh terms denoting an exposure of interest ("UV radiation"
"ultraviolet rays"
and "ocular malignancies"
All studies included are published until December 30
2023 without language restrictions.ResultsThe mechanisms and epidemiological statistics of UVR on the onset and progression of eyelid malignancies are the most studied and clear. The role of UVR in conjunctival melanoma is similar to that in eyelid melanoma. The relationship between uveal melanoma and UVR is controversial
however
it may have at least a certain impact on its prognosis. UVR causes ocular surface squamous neoplasia by further activating HPV infection.ConclusionsUVR is a decisive risk factor for ocular malignancies
but the incidence of ultraviolet-induced tumors is also affected by many other factors. A correct and comprehensive understanding of the mechanisms of UVR in the pathogenesis of ocular malignant tumors can provide patients with more effective and selective immune regulation strategies.
Ultraviolet radiationEyelid malignanciesConjunctival melanomaUveal melanomaOcular surface squamous neoplasia
1 E.D. Pleasance, R.K. Cheetham, P.J. Stephens, et al.A comprehensive catalogue of somatic mutations from a human cancer genome Nature, 463 (7278) (Jan 14 2010), pp. 191-196, 10.1038/nature08658 PMID: 20016485 PMCID: PMC3145108
2 W.H. OrganizationWorld meteorological organization, united Nations environment programme, international commission on non-ionizing radiation protection Global Solar UV Index: A Practical Guide, vol. 2022, WHO, Geneva (2022), p. 12
3 Organization WH, Protection ICoN-IRGlobal Solar UV Index: A Practical Guide (2002) https://www.who.int/publications/i/item/9241590076
4 S.A. Marchitti, Y. Chen, D.C. Thompson, et al.Ultraviolet radiation: cellular antioxidant response and the role of ocular aldehyde dehydrogenase enzymes Eye Contact Lens, 37 (4) (Jul 2011), pp. 206-213, 10.1097/ICL.0b013e3182212642 PMID: 21670692 PMCID: PMC3356694
5 U.R. KleebergEtiology of melanoma Onkologie, 11 (6) (Dec 1988), pp. 254-259, 10.1159/000216550 PMID: 3071759
6 A. Sample, Y.Y. HeMechanisms and prevention of UV-induced melanoma Photodermatol Photoimmunol Photomed, 34 (1) (Jan 2018), pp. 13-24, 10.1111/phpp.12329 PMID: 28703311 PMCID: PMC5760354
7 Boettner EJAATuoMSpectral Transmission of the Eye (1967)
8 L.M. Heindl[Periocular basal cell carcinoma] Ophthalmologe : Z Dtsch Ophthalmol Ges, 117 (2) (Feb 2020), pp. 93-94, 10.1007/s00347-019-01026-z PMID: 32034522
9 N.E. Thomas, S.N. Edmiston, A. Alexander, et al.Number of nevi and early-life ambient UV exposure are associated with BRAF-mutant melanoma a publication of the American Association for Cancer Research, cosponsored by the American Society of Preventive Oncology Cancer Epidemiol Biomarkers Prev., 16 (5) (May 2007), pp. 991-997, 10.1158/1055-9965.EPI-06-1038 PMID: 17507627
10 A. Kricker, B.K. Armstrong, D.R. English, et al.Does intermittent sun exposure cause basal cell carcinoma? a case-control study in Western Australia Int J Cancer, 60 (4) (Feb 8 1995), pp. 489-494, 10.1002/ijc.2910600411 PMID: 7829262
11 G.L. Clayman, J.J. Lee, F.C. Holsinger, et al.Mortality risk from squamous cell skin cancer J Clin Oncol : offic J Am Soc Clin Oncol., 23 (4) (Feb 1 2005), pp. 759-765, 10.1200/JCO.2005.02.155 PMID: 15681519
12 Y. El-Shabrawi, H. Radner, K. Muellner, et al.The role of UV-radiation in the development of conjunctival malignant melanoma Acta Ophthalmol Scand., 77 (1) (Feb 1999), pp. 31-32, 10.1034/j.1600-0420.1999.770107.x PMID: 10071144
13 C. Rivolta, B. Royer-Bertrand, D. Rimoldi, et al.UV light signature in conjunctival melanoma; not only skin should be protected from solar radiation J Hum Genet., 61 (4) (Apr 2016), pp. 361-362, 10.1038/jhg.2015.152 PMID: 26657935 PMCID: PMC5399153
14 A.D. Singh, I.G. Rennie, S. Seregard, et al.Sunlight exposure and pathogenesis of uveal melanoma Surv Ophthalmol, 49 (4) (2004), pp. 419-428, 10.1016/j.survophthal.2004.04.009 2004/07/01/. PMID: 15231397
15 V. Gray-Schopfer, C. Wellbrock, R. MaraisMelanoma biology and new targeted therapy Nature, 445 (7130) (Feb 22 2007), pp. 851-857, 10.1038/nature05661 PMID: 17314971
16 H. Davies, G.R. Bignell, C. Cox, et al.Mutations of the BRAF gene in human cancer Nature, 417 (6892) (Jun 27 2002), pp. 949-954, 10.1038/nature00766 PMID: 12068308
17 C. Seebode, J. Lehmann, S. EmmertPhotocarcinogenesis and skin cancer prevention strategies Anticancer Res, 36 (3) (Mar 2016), pp. 1371-1378 PMID: 26977038
18 G.V. Long, A.M. Menzies, A.M. Nagrial, et al.Prognostic and clinicopathologic associations of oncogenic BRAF in metastatic melanoma J Clin Oncol : offic J Am Soc Clin Oncol, 29 (10) (Apr 1 2011), pp. 1239-1246, 10.1200/JCO.2010.32.4327 PMID: 21343559
19 Y.M. Chang, J.H. Barrett, D.T. Bishop, et al.Sun exposure and melanoma risk at different latitudes: a pooled analysis of 5700 cases and 7216 controls Int J Epidemiol, 38 (3) (Jun 2009), pp. 814-830, 10.1093/ije/dyp166 PMID: 19359257 PMCID: PMC2689397
20 A. Viros, B. Sanchez-Laorden, M. Pedersen, et al.Ultraviolet radiation accelerates BRAF-driven melanomagenesis by targeting TP53 Nature, 511 (7510) (Jul 24 2014), pp. 478-482, 10.1038/nature13298 PMID: 24919155 PMCID: PMC4112218
21 A.H. Shain, I. Yeh, I. Kovalyshyn, et al.The genetic evolution of melanoma from precursor lesions N Engl J Med, 373 (20) (Nov 12 2015), pp. 1926-1936, 10.1056/NEJMoa1502583 PMID: 26559571
22 R.C. Hennessey, A.M. Holderbaum, A. Bonilla, et al.Ultraviolet radiation accelerates NRas-mutant melanomagenesis: a cooperative effect blocked by sunscreen Pigment Cell Melanoma Res., 30 (5) (2017), pp. 477-487, 10.1111/pcmr.12601 2017/09/01. PMID: 28544727
23 R. HalabanRAC1 and melanoma Clin Therapeut, 37 (3) (Mar 1 2015), pp. 682-685, 10.1016/j.clinthera.2014.10.027 PMID: 25465943 PMCID: PMC4415501
24 S.M. Mense, D. Barrows, C. Hodakoski, et al.PTEN inhibits PREX2-catalyzed activation of RAC1 to restrain tumor cell invasion Sci Signal, 8 (370) (Mar 31 2015), 10.1126/scisignal.2005840 ra32. PMID: 25829446 PMCID: PMC4874664
25 J.M. Grimes, N.V. Shah, F.H. Samie, et al.Conjunctival melanoma: current treatments and future options Am J Clin Dermatol, 21 (3) (Jun 2020), pp. 371-381, 10.1007/s40257-019-00500-3 PMID: 31965542
26 S. Jiveskog, B. Ragnarsson-Olding, A. Platz, et al.N-ras mutations are common in melanomas from sun-exposed skin of humans but rare in mucosal membranes or unexposed skin J Invest Dermatol, 111 (5) (Nov 1998), pp. 757-761, 10.1046/j.1523-1747.1998.00376.x PMID: 9804334
27 I.A. Vergara, J.S. Wilmott, G.V. Long, et al.Genetic drivers of non-cutaneous melanomas: challenges and opportunities in a heterogeneous landscape Exp Dermatol, 31 (1) (Jan 2022), pp. 13-30, 10.1111/exd.14287 PMID: 33455025
28 A.D. Singh, M.E. Turell, A.K. TophamUveal melanoma: trends in incidence, treatment, and survival Ophthalmology, 118 (9) (Sep 2011), pp. 1881-1885, 10.1016/j.ophtha.2011.01.040 PMID: 21704381
29 E.A. Holly, D.A. Aston, D.H. Char, et al.Uveal melanoma in relation to ultraviolet light exposure and host factors Cancer Res., 50 (18) (1990), pp. 5773-5777 PMID: 2393851
30 W. Li, H. Judge, E.S. Gragoudas, et al.Patterns of tumor initiation in choroidal melanoma Cancer Res., 60 (14) (Jul 2000), pp. 3757-3760 PMID: 10919647
31 G. Stålhammar, P.A. Williams, T. LandeliusThe prognostic implication of latitude in uveal melanoma: a nationwide observational cohort study of all patients born in Sweden between 1947 and 1989 Discov Oncol, 13 (1) (Oct 31 2022), p. 116, 10.1007/s12672-022-00584-0 PMID: 36310339 PMCID: PMC9618472
32 J. Moan, E. Cicarma, R. Setlow, et al.Time trends and latitude dependence of uveal and cutaneous malignant melanoma induced by solar radiation Derm Endocrinol, 2 (1) (Jan 2010), pp. 3-8, 10.4161/derm.2.1.11745 PMID: 21547141 PMCID: PMC3084958
33 S.E. Coupland, S.L. Lake, M. Zeschnigk, et al.Molecular pathology of uveal melanoma Eye (London, England), 27 (2) (Feb 2013), pp. 230-242, 10.1038/eye.2012.255 PMID: 23222563 PMCID: PMC3574255
34 A.Y. Goh, C.A. Ramlogan-Steel, K.S. Jenkins, et al.Presence and prevalence of UV related genetic mutations in uveal melanoma: similarities with cutaneous melanoma Neoplasma, 67 (5) (Sep 2020), pp. 958-971, 10.4149/neo_2020_190815N768 PMID: 32305056
35 M. Chalada, C.A. Ramlogan-Steel, B.P. Dhungel, et al.The impact of ultraviolet radiation on the aetiology and development of uveal melanoma Cancers, 13 (7) (Apr 3 2021), 10.3390/cancers13071700 PMID: 33916693 PMCID: PMC8038359
36 I. Kim, Y.-Y. HeUltraviolet radiation-induced non-melanoma skin cancer: regulation of DNA damage repair and inflammation Gene Dis, 1 (2) (2014), pp. 188-198, 10.1016/j.gendis.2014.08.005 2014/12/01/. PMID: 25642450 PMCID: PMC4307792
37 S.K. Katiyar, S.M. MeeranObesity increases the risk of UV radiation-induced oxidative stress and activation of MAPK and NF-κB signaling Free Radic Biol Med, 42 (2) (2007), pp. 299-310, 10.1016/j.freeradbiomed.2006.10.049 PMID: 17189835 PMCID: PMC1805635
38 R. Qi, D. Wang, L. Xing, et al.Cyclosporin A inhibits mitochondrial biogenesis in Hep G2 cells Biochem Biophys Res Commun, 496 (3) (2018), pp. 941-946, 10.1016/j.bbrc.2018.01.113 PMID: 29391135
39 P.M. Rodust, E. Stockfleth, C. Ulrich, et al.UV-induced squamous cell carcinoma–a role for antiapoptotic signalling pathways Br J Dermatol, 161 (Suppl 3) (Nov 2009), pp. 107-115, 10.1111/j.1365-2133.2009.09458.x PMID: 19775366
40 T.M. RüngerRole of UVA in the pathogenesis of melanoma and non-melanoma skin cancer. A short review Photodermatol Photoimmunol Photomed, 15 (6) (Dec 1999), pp. 212-216, 10.1111/j.1600-0781.1999.tb00090.x PMID: 10599968
41 S. Mouret, C. Baudouin, M. Charveron, et al.Cyclobutane pyrimidine dimers are predominant DNA lesions in whole human skin exposed to UVA radiation Proc Natl Acad Sci USA, 103 (37) (Sep 12 2006), pp. 13765-13770, 10.1073/pnas.0604213103 PMID: 16954188 PMCID: PMC1564232
42 S.J. MillerBiology of basal cell carcinoma (Part I) J Am Acad Dermatol, 24 (1) (Jan 1991), pp. 1-13, 10.1016/0190-9622(91)70001-i PMID: 1999506
43 T.M. OberyszynNon-melanoma skin cancer: importance of gender, immunosuppressive status and vitamin D Cancer Lett, 261 (2) (Mar 18 2008), pp. 127-136, 10.1016/j.canlet.2008.01.009 PMID: 18267352
44 R.B. Harris, K. Griffith, T.E. MoonTrends in the incidence of nonmelanoma skin cancers in southeastern Arizona, 1985-1996 J Am Acad Dermatol, 45 (4) (Oct 2001), pp. 528-536, 10.1067/mjd.2001.114742 PMID: 11568742
45 A. Kricker, B.K. Armstrong, D.R. English, et al.A dose-response curve for sun exposure and basal cell carcinoma Int J Cancer, 60 (4) (Feb 8 1995), pp. 482-488, 10.1002/ijc.2910600410 PMID: 7829261
46 A.J. Miller, H. TsaoNew insights into pigmentary pathways and skin cancer Br J Dermatol, 162 (1) (Jan 2010), pp. 22-28, 10.1111/j.1365-2133.2009.09565.x PMID: 19863502
47 R.M. Harding, E. Healy, A.J. Ray, et al.Evidence for variable selective pressures at MC1R Am J Hum Genet., 66 (4) (Apr 2000), pp. 1351-1361, 10.1086/302863 PMID: 10733465 PMCID: PMC1288200
48 M.C. Scott, K. Wakamatsu, S. Ito, et al.Human melanocortin 1 receptor variants, receptor function and melanocyte response to UV radiation J Cell Sci., 115 (Pt 11) (Jun 1 2002), pp. 2349-2355, 10.1242/jcs.115.11.2349 PMID: 12006619
49 H. Nan, P. Kraft, D.J. Hunter, et al.Genetic variants in pigmentation genes, pigmentary phenotypes, and risk of skin cancer in Caucasians Int J Cancer, 125 (4) (Aug 15 2009), pp. 909-917, 10.1002/ijc.24327 PMID: 19384953 PMCID: PMC2700213
50 D.F. Gudbjartsson, P. Sulem, S.N. Stacey, et al.ASIP and TYR pigmentation variants associate with cutaneous melanoma and basal cell carcinoma Nat Genet., 40 (7) (Jul 2008), pp. 886-891, 10.1038/ng.161 PMID: 18488027
51 N. Bodak, S. Queille, M.F. Avril, et al.High levels of patched gene mutations in basal-cell carcinomas from patients with xeroderma pigmentosum Proc Natl Acad Sci USA., 96 (9) (1999), pp. 5117-5122, 10.1073/pnas.96.9.5117 PMID: 10220428 PMCID: PMC21826
52 R.J. Berg, H.J. van Kranen, H.G. Rebel, et al.Early p53 alterations in mouse skin carcinogenesis by UVB radiation: immunohistochemical detection of mutant p53 protein in clusters of preneoplastic epidermal cells Proc Natl Acad Sci USA, 93 (1) (Jan 9 1996), pp. 274-278, 10.1073/pnas.93.1.274 PMID: 8552621 PMCID: PMC40221
53 M. Athar, K.P. An, K.D. Morel, et al.Ultraviolet B (UVB)-Induced COX-2 expression in murine skin: an immunohistochemical study Biochem Biophys Res Commun, 280 (4) (2001), pp. 1042-1047, 10.1006/bbrc.2000.4201 PMID: 11162632
54 L.L. Hill, A. Ouhtit, S.M. Loughlin, et al.Fas ligand: a sensor for DNA damage critical in skin cancer etiology Science (New York, N.Y.), 285 (5429) (Aug 6 1999), pp. 898-900, 10.1126/science.285.5429.898 PMID: 10436160
55 T.B. El-Abaseri, S. Putta, L.A. HansenUltraviolet irradiation induces keratinocyte proliferation and epidermal hyperplasia through the activation of the epidermal growth factor receptor Carcinogenesis, 27 (2) (Feb 2006), pp. 225-231, 10.1093/carcin/bgi220 PMID: 16123117
56 R. Newton, J. Ferlay, G. Reeves, et al.Effect of ambient solar ultraviolet radiation on incidence of squamous-cell carcinoma of the eye Lancet (London, England), 347 (9013) (May 25 1996), pp. 1450-1451, 10.1016/s0140-6736(96)91685-2 PMID: 8676629
57 E.C. Sun, T.R. Fears, J.J. GoedertEpidemiology of squamous cell conjunctival cancer Cancer Epidemiol Biomarkers Prev, 6 (2) (Feb 1997), pp. 73-77 PMID: 9037556
58 P. Zhang, M. Nouri, J.L. Brandsma, et al.Induction of E6/E7 expression in cottontail rabbit papillomavirus latency following UV activation Virology, 263 (2) (1999), pp. 388-394, 10.1006/viro.1999.9950 PMID: 10544111
59 M. RansonEpidermal growth factor receptor tyrosine kinase inhibitors Br J Cancer, 90 (12) (Jun 2004), pp. 2250-2255, 10.1038/sj.bjc.6601873 PMID: 15150574 PMCID: PMC2410290
60 J. Ng, M.T. Coroneo, D. Wakefield, et al.Ultraviolet radiation and the role of matrix metalloproteinases in the pathogenesis of ocular surface squamous neoplasia Invest Ophthalmol Vis Sci., 49 (12) (2008), pp. 5295-5306, 10.1167/iovs.08-1988 PMID: 18641285
61 J. Ng, M.T. Coroneo, D. Wakefield, et al.Ultraviolet radiation and the role of matrix metalloproteinases in the pathogenesis of ocular surface squamous neoplasia Invest Ophthalmol Vis Sci., 49 (12) (Dec 2008), pp. 5295-5306, 10.1167/iovs.08-1988 PMID: 18641285
62 N. Johansson, M. Ahonen, V.-M.J.C. Kähäri, et al.Matrix Metalloproteinases in Tumor Invasion Cell Mol Life Sci, 57 (1) (Jan 2000), pp. 5-15, 10.1007/s000180050495 PMID: 10949577
63 U. Leiter, U. Keim, C. GarbeEpidemiology of skin cancer: update 2019 Adv Exp Med Biol., 1268 (2020), pp. 123-139, 10.1007/978-3-030-46227-7_6 PMID: 32918216
64 A. Schmidt-Pokrzywniak, K.H. Jöckel, N. Bornfeld, et al.Positive interaction between light iris color and ultraviolet radiation in relation to the risk of uveal melanoma: a case-control study Ophthalmology, 116 (2) (Feb 2009), pp. 340-348, 10.1016/j.ophtha.2008.09.040 PMID: 19091418
65 M. Saraiya, K. Glanz, P.A. Briss, et al.Interventions to prevent skin cancer by reducing exposure to ultraviolet radiation: A systematic review American Journal of Preventive Medicine, 27 (5) (2004), pp. 422-466, 10.1016/j.amepre.2004.08.009
66 A.J. McClellan, A.L. McClellan, C.F. Pezon, et al.Epidemiology of ocular surface squamous neoplasia in a veterans affairs population Cornea, 32 (10) (2013), pp. 1354-1358, 10.1097/ICO.0b013e31829e3c80 PMID: 23974890 PMCID: PMC3864126
67 C.P. Shah, E. Weis, M. Lajous, et al.Intermittent and chronic ultraviolet light exposure and uveal melanoma: a meta-analysis Ophthalmology, 112 (9) (2005), pp. 1599-1607, 10.1016/j.ophtha.2005.04.020 2005/09/01/. PMID: 16051363
68 C.L. Wilkerson, N.A. Syed, M.R. Fisher, et al.Melanocytes Iris Color: light microsc findings Arch Ophthalmol, 114 (4) (1996), pp. 437-442, 10.1001/archopht.1996.01100130433014 PMID: 8602782
69 C. Rivolta, B. Royer-Bertrand, D. Rimoldi, et al.UV light signature in conjunctival melanoma; not only skin should be protected from solar radiation J Hum Genet., 61 (4) (2016), pp. 361-362, 10.1038/jhg.2015.152 PMID: 26657935 PMCID: PMC5399153
0
Views
0
下载量
0
CSCD
Publicity Resources
Related Articles
Related Author
Related Institution