Читать книгу Patty's Industrial Hygiene, Physical and Biological Agents - Группа авторов - Страница 146

Bibliography

Оглавление

1 1. International Agency for Research on Cancer (IARC) (1997). IARC Monographs on the Evaluation of Carcinogenic Risks to Humans, Vol. 55, Solar and Ultraviolet Radiation. Lyons: IARC.

2 2. Reidenbach, H.‐D., Dollinger, K., and Hofmann, J. (2005). Results from two research projects concerning aversion responses including the blink reflex. Proc SPIE 5688: 429–439.

3 3. Sliney, D.H., Bitran, M., and Murray, W. (2012). Infrared, visible and ultraviolet radiation. In: Patty's Toxicology, 6e, vol. 6 (ed. E. Bingham and B. Cohrssen), 169–209. New York: Wiley.

4 4. Suess, M.J. (1989). Introduction to the second edition. In: Nonionizing Radiation Protection (ed. M. Suess and D. Benwell‐Morison), 2–3. Copenhagen: World Health Organization Regional Office for Europe.

5 5. Diffey, B.L. (2002). Sources and measurement of ultraviolet radiation. Methods 28: 4–13.

6 6. Commission Internationale de l'Éclairage (CIE) (1999). Standardization of the Terms UV‐A1, UV‐A2 and UV‐B, 134/1 CIE TC 6‐26 Report. Vienna: CIE.

7 7. Hale, G. and Querry, M. (1973). Optical constants of water in the 200 nm to 200 μm wavelength region. Appl Opt 12: 555–563.

8 8. Sliney, D. and Wohlbarsht, M. (1980). Safety with Lasers and Other Optical Sources. New York: Plenum Press.

9 9. Wolfe, W.L. (1998). Introduction to Radiometry. Bellingham, Washington: SPIE Optical Engineering Press.

10 10. Ryer, A.D. (1997). The Light Measurement Handbook. Peabody, Massachusetts: International Light Technologies.

11 11. Seinfeld, J.H. and Pandis, S.N. (1998). Atmospheric Chemistry and Physics, 26–33. New York: Wiley.

12 12. Reader, J. and Corliss, C.H. (1998). Line spectra of the elements. In: CRC Handbook of Chemistry and Physics, 79e (ed. D.R. Lide), 10–43. Boca Raton: CRC Press.

13 13. Oriel Instruments (1999). The Book of Photon Tools, 1–44. Stratford, CT: Oriel Instruments.

14 14. American National Standards Institute/Illuminating Engineering Society of North America (ANSI/IESNA) (2005). Recommended Practice for Photobiological Safety for Lamps and Lamp Systems – General Requirements, (ANSI/IESNA RP‐27.1‐15), 13. New York: IESNA.

15 15. American Conference of Governmental Industrial Hygienists (ACGIH) (2018). 2018 Threshold Limit Values (TLV®) and Biological Exposure Indices (BEIs®), 159–164. Cincinnati, OH: ACGIH.

16 16. International Commission on Non‐Ionizing Radiation Protection (ICNIRP) (2004). Guidelines on limits of exposure to ultraviolet radiation of wavelengths between 180 nm and 400 nm (incoherent optical radiation). Health Phys 87: 171–186.

17 17. Commission Internationale de l'Éclairage (CIE) (1999). Erythema Reference Action Spectrum and Standard Erythema Dose, (ISO 17166; CIE S 007/E). Geneva: International Organization for Standardization (ISO).

18 18. Sliney, D.H. (2000). Ultraviolet radiation exposure criteria. Radiat Prot Dosimetry 91: 213–222.

19 19. International Commission on Non‐Ionizing Radiation Protection (ICNIRP) (2013). ICNIRP guidelines on limits of exposure to incoherent visible and infrared radiation. Health Phys 105: 74–96.

20 20. American Conference of Governmental Industrial Hygienists (ACGIH) (2018). Threshold Limit Values (TLV®) and Biological Exposure Indices (BEIs®), 150–158. Cincinnati, OH: ACGIH.

21 21. American National Standards Institute/Illuminating Engineering Society, (ANSI/IES) (2015). Recommended Practice for Photobiological Safety for Lamps and Lamp Systems – General Requirements, (ANSI/IES RP‐27.1‐15), 5–7. New York: Illuminating Engineering Society of North America.

22 22. Seckmeyer, G., Bais, A., Bernhard, G. et al. (2010). Instruments to Measure Solar Ultraviolet Radiation – Part 4: Array Spectroradiometers, (WMO/TD‐No. 1538). Geneva: World Meteorological Organization.

23 23. Seckmeyer, G., Bais, A., Bernhard, G. et al. (2008). Instruments to Measure Solar Ultraviolet Radiation – Part 2: Broadband Instruments Measuring Erythemally Weighted Solar Irradiance, (WMO TD‐No. 1289). Geneva: World Meteorological Organization.

24 24. Barlier‐Salsi, A. (2014). Stray light correction on array apectroradiometers for optical radiation risk assessment in the workplace. J Radiol Prot 34: 915–930.

25 25. Nevas, S., Wübbeler, G., Sperling, A. et al. (2012). Simultaneous correction of bandpass and stray‐light effects in array spectroradiometer data. Metrologia 49: S43–S47.

26 26. Egli, L., Gröbner, J., Hülsen, G. et al. (2016). Quality assessment of solar UV irradiance measured with array spectroradiometers. Atmos Meas Tech 9: 1553–1567.

27 27. Commission Internationale de l'Éclairage, (CIE) (2016). Characterization and Calibration Methods of UV Radiometers, (CIE 220:2016). Vienna: CIE.

28 28. Pye, S.D. and Martin, C.J. (2000). A study of the directional response of ultraviolet radiometers: I. practical evaluation and implications for ultraviolet measurement standards. Phys Med Biol 45: 2701–2712.

29 29. Pulli, T., Kärhä, P., and Ikonen, E. (2013). A method for optimizing the cosine response of solar UV diffusers. J Geophys Res Atmos 118: 7897–7904.

30 30. American National Standards Institute/Illuminating Engineering Society of North America, (ANSI/IESNA) (2010). Recommended Practice for Photobiological Safety for Lamps and Lamp Systems – Measurement Techniques, (ANSI/IES RP‐27.2‐00/R17), 7. New York: IESNA.

31 31. Heydenreich, J. and Wulf, H.C. (2019). Personal electronic UVR dosimeter measurements: specific and general uncertainties. Photochem Photobiol Sci doi: 10.1039/c8pp00379c.

32 32. Allen, M. and McKenzie, R. (2005). Enhanced UV exposure on a ski‐field compared with exposures at sea level. Photochem Photobiol Sci 4: 429–437.

33 33. Peters, C.E., Demers, P.A., Kalia, S. et al. (2016). Levels of occupational exposure to solar ultraviolet radiation in Vancouver, Canada. Ann Occup Hyg 60: 825–835.

34 34. Tenkate, T. and Collins, M. (1997). Personal ultraviolet radiation exposure of workers in a welding environment. Am Ind Hyg Assoc J 58: 33–38.

35 35. Wainwright, L., Parisi, A.V., and Downs, N. (2016). Dual calibrated dosimeter for simultaneous measurements of erythemal and vitamin D effective solar ultraviolet radiation. J Photochem Photobiol, B 157: 15–21.

36 36. Moehrle, M., Korn, M., and Garbe, C. (2000). Bacillus subtilis spore film dosimeters in personal dosimetry for occupational solar ultraviolet exposure. Int Arch Occup Environ Health 23: 575–580.

37 37. Serrano, M.‐A., Cañada, J., and Moreno, J.C. (2013). Solar UV exposure in construction workers in Valencia, Spain. J Expo Sci Env Epid 23: 525–530.

38 38. Shi, Y., Manco, M., Moyal, D. et al. (2018). Soft, stretchable, epidermal sensor with integrated electronics and photochemistry of measuring personal UV exposures. PLos ONE 13: doi: 10.1371/journal.pone.0190233.

39 39. Casale, G.R., Borra, M., Colosimo, A. et al. (2006). Variability among polysulphone calibration curves. Phys Med Biol 51: 4413–4427. doi: 10.1088/0031‐9155/51/17/019.

40 40. Seckmeyer, G., Klingebiel, M., Riechelmann, S. et al. (2012). A critical assessment of two types of personal UV dosimeters. Photochem Photobiol 88: 215–222. doi: 10.1111/j.1751‐1097.2011.01018.x.

41 41. Coleman, A.J., Collins, M., and Saunders, J.E. (2000). Traceable calibration of ultraviolet meters used with broadband, extended sources. Phys Med Biol 45: 185–196.

42 42. American National Standards Institute/Illuminating Engineering Society of North America (ANSI/IESNA) (2015). Recommended Practice for Photobiological Safety for Lamps and Lamp Systems – General Requirements, (ANSI/IES RP‐27.1‐15), 1. New York: IESNA.

43 43. American National Standards Institute/Illuminating Engineering Society of North America (ANSI/IESNA) (2010). Recommended Practice for Photobiological Safety for Lamps and Lamp Systems – Measurement Techniques, (ANSI/IES RP‐27.2‐00/R17), 17–19. New York: IESNA.

44 44. American National Standards Institute/Illuminating Engineering Society of North America, (ANSI/IESNA) (2017). Recommended Practice for Photobiological Safety for Lamps and Lamp Systems – Risk Group Classification and Labeling, (ANSI/IESNA RP‐27.3‐17). New York: IESNA.

45 45. First, M.W., Weker, R.A., Yasui, S., and Nardell, E.A. (2005). Monitoring human exposures to upper‐room germicidal ultraviolet radiation. J Occup Environ Hyg 2: 285–292. doi: 10.1080/15459620590952224.

46 46. Tan, S. and Bertucci, V. (2000). Erythema ab igne: an old condition new again. Can Med Assoc J 162: 77–78.

47 47. Salvo, A.G. and Ramirez Angarita, D.P. (2016). Laptop computer induced erythema ab igne: a new presentation of an old disease. An Bras Dermatol 91: S79–S80.

48 48. Pitts, D.G. (1993). Principles in ocular protection. In: Environmental Vision: Interactions of the Eye, Vision, and the Environment (ed. D.G. Pitts and R.N. Kleinstein), 259–280. Boston: Butterworth‐Heinemann.

49 49. Chorley, A.C., Lyachev, A., Higlett, M.P. et al. (2016). Sunglass filter transmission and its operational effect in solar protection for civilian pilots. Med Hum Perform 87: 436–442.

50 50. Hoffmann, K., Laperre, J., Avermaete, A. et al. (2001). Defined UV protection by apparel textiles. Arch Dermatol 137: 1089–1094.

51 51. Morison, W.L. (2003). Photoprotection by clothing. Dermatol Ther 16: 16–22.

52 52. Aguilera, J., de Gálvez, M.V., Sánchez‐Roldán, C., and Herrara‐Ceballos, E. (2014). New advances in protection against solar ultraviolet radiation in textiles for summer clothing. Photochem Photobiol 90: 1199–1206.

53 53. Commission Internationale de l'Éclairage, (CIE) (2007). Hand Protection by Disposable Gloves against Occupational UV Exposure, (CIE 181:2007). Vienna: CIE.

54 54. U.S. Food and Drug Administration (1999). Sunscreen drug products for over‐the‐counter human use; final monograph. Fed Regist 64: 27666–27693.

55 55. Berufsgenossenschaftliches Institute für Arbeitsschutz (BGIA) (2006). Suitability of Sunscreen for the Prevention of Skin Cancer (BGIA‐Report 3/2006e). Sankt Augustin, Germany: BGIA.

56 56. Glanz, K., Saraiya, M., and Wechsler, H. (2003). Guidelines for School Programs To Prevent Skin Cancer, (Morbidity and Mortality Weekly Report/Vol. 51/No. RR‐4), 17. Atlanta: Centers for Disease Control and Prevention.

57 57. International Commission on Non‐Ionizing Radiation Protection, (ICNIRP) (2007). Protecting Workers from Ultraviolet Radiation, (ICNIRP 14/2007), 61. Oberschleissheim, Germany: ICNIRP.

58 58. American National Standards Institute/International Safety Equipment Association, (ANSI/ISEA) (2015). American National Standard for Occupational and Educational Personal Eye and Face Protection Devices, (ANSI/ISEA Z87.1‐2015), 2–17. Arlington: ISEA.

59 59. Hovis, J.K. (2011). When yellow lights look red: tinted sunglasses on the railroads. Optom Vis Sci 88: 327–333.

60 60. Gralwicz, G. and Owczarek, G. (2016). Analysis of the selected optical parameters of filters protecting against hazardous infrared radiation. Int J Occup Saf Ergo 22: 305–309.

61 61. Gralwicz, G., Owczarek, G., and Kubrak, J. (2017). Analysis of the selected mechanical parameters of filters protecting against hazardous infrared radiation. Int J Occup Saf Ergo 23: 105–109.

62 62. Sliney, D.H. (1998). Light and infrared radiation. In: Encyclopedia of Occupational Health and Safety, 4e (ed. J. Stillman), 49.13–49.16. Geneva: International Labour Office.

63 63. World Health Organization (WHO) (2002). Global Solar UV Index: A Practical Guide, 19–20. Geneva: WHO. Available at http://www.who.int/uv/publications/en/UVIGuide.pdf.

64 64. World Health Organization (WHO) (2002). Global Solar UV Index: A Practical Guide, 21. Geneva: WHO. Available at http://www.who.int/uv/publications/en/UVIGuide.pdf.

65 65. World Health Organization (WHO) (2002). Global Solar UV Index: A Practical Guide, 4. Geneva: WHO. Available at http://www.unep.org/PDF/Solar_Index_Guide.pdf.

66 66. World Health Organization (WHO) (2002). Global Solar UV Index: A Practical Guide, 6–8. Geneva: WHO. Available at http://www.who.int/uv/publications/en/UVIGuide.pdf.

67 67. International Commission on Non‐Ionizing Radiation Protection (ICNIRP) (2007). Protecting Workers from Ultraviolet Radiation, (ICNIRP 14/2007), 61–62. Oberschleissheim, Germany: ICNIRP.

68 68. Sambandan, D.R. and Ratner, D. (2011). Sunscreens: an overview and update. J Am Acad Dermatol 64: 748–758.

69 69. International Commission on Non‐Ionizing Radiation Protection, (ICNIRP) (2007). Protecting Workers from Ultraviolet Radiation, (ICNIRP 14/2007), 35. Oberschleissheim, Germany: ICNIRP.

70 70. Dixon, A. and Dixon, B. (2004). Ultraviolet radiation from welding and possible risk of skin and ocular malignancy. Med J Aust 181: 155–157.

71 71. Ewing, M. (1971). The significance of a single injury in the causation of basal cell carcinoma of the skin. ANZ J S 41: 140–147.

72 72. Guénel, P., Laforest, L., Cyr, D. et al. (2001). Occupational risk factors, ultraviolet radiation, and ocular melanama: a case‐control study in France. Cancer Causes Control 12 (5): 451–459.

73 73. Kleinfeld, M. and Giel, C. (1956). Clinical manifestations of ozone poisoning: report of a new source of exposure. Am J Med Sci 231: 638–643.

74 74. American National Standards Institute/American Welding Society (ANSI/AWS) (2012). Safety in Welding, Cutting, and Allied Processes, (ANSI Z49.1:2012), 6–10. Miami: AWS.

75 75. American National Standards Institute/International Safety Eqiupment Association, (ANSI/ISEA) (2015). American National Standard for Occupational and Educational Personal Eye and Face Protection Devices, (ANSI/ISEA Z87.1‐2015), 17. Arlington: ISEA.

76 76. National Aeronautic and Space Administration (NASA) (1998). Photos, Video Show Marshall Center Support for Launch of First U.S. International Space Station Element. http://www.msfc.nasa.gov/news/news/releases/1998/98-239.html.

77 77. American Welding Society (AWS) (2014). Arc Viewing Distance, (Safety and Health Fact Sheet No. 26). Doral: AWS. Available at https://app.aws.org/technical/facts/FACT-26_2014.pdf.

78 78. Lyon, T. (2002). Knowing the dangers of actinic ultraviolet emissions. Weld J 81: 28–30.

79 79. Sliney, D.H., Moss, C.E., Miller, C.G., and Stephens, J.B. (1981). Semitransparent curtains for control of optical radiation hazards. Appl Optics 20: 2352–2366.

80 80. International Commission on Non‐Ionizing Radiation Protection, (ICNIRP) (2007). Protecting Workers from Ultraviolet Radiation, (ICNIRP 14/2007), 34. Oberschleissheim, Germany: ICNIRP.

81 81. Buonanno, M., Ponnaiya, B., Welch, D. et al. (2017). Germicidal efficacy and mammalian skin safety of 222‐nm UV light. Radiat Res 187: 493–501.

82 82. Woods, J.A., Evans, A., Forbes, P.D. et al. (2015). The effect of 222‐nm UVC phototesting on healthy volunteer skin: a pilot study. Photodermatol Photoimmunol Photomed 31: 159–166.

83 83. Hietanen, M. and Hoikkala, M. (1990). Ultraviolet radiation and blue light from photofloods in television studios and theaters. Health Phys 59: 193–198.

84 84. Bonner, R., O'Hagan, J.B., and Khazova, M. (2012). Assessment of personal exposures to optical radiation in large entertainment venues. Radiat Prot Dosim 149: 225–237.

85 85. O'Hagan, J.B. and Khazova, M. (2011). Assessment of Personal Exposures to Non‐laser Optical Radiation in Entertainment (HPA‐CRCE‐016), 5. Chilton, UK: Health Protection Agency.

86 86. O'Hagan, J.B. and Khazova, M. (2011). Assessment of Personal Exposures to Non‐laser Optical Radiation in Entertainment (HPA‐CRCE‐016), 23. Chilton, UK: Health Protection Agency.

87 87. American Dental Association (ADA) Division of Science (2002). Visible light curing. J Am Dent Assoc 133: 1430–1431.

88 88. Bruzell, E.M., Johnsen, B., Aalerud, T.N., and Christensen, T. (2007). Evaluation of eye protection filters for use with dental curing and bleaching lamps. J Occup Environ Hyg 4: 432–439. doi: 10.1080/15459620701354218.

89 89. Whillock, M.J., Bandle, A.M., Todd, C.D., and Driscoll, C.M.H. (1990). Measurements and hazard assessment of the optical emissions from various industrial infrared sources. J Radiol Prot 10: 43–46.

90 90. Moss, C. and Burr, G. (1996). Health Hazard Evaluation Report 95‐119‐2554 Glass Schell Fused Glass Masks. Cincinnati, OH: National Institute for Occupational Safety and Health.

91 91. Oriowo, O.M., Chou, B.R., and Cullen, A.P. (1997). Glassblowers' ocular health and safety: optical radiation hazards and eye protection assessment. Ophthalmic Physiol Opt 17: 216–224.

92 92. Sisto, R., Pinto, I., Stacchini, N., and Giuliani, F. (2000). Infrared radiation exposure in traditional glass factories. Am Ind Hyg Assoc J 61: 5–10.

93 93. International Society of Glass Beadmakers (2002). What are the safety issues associated with glass beadmaking? The Bead Release IX (1), Winter 2002.

94 94. American Foundry Society (AFS) Health and Safety, Committee (2015). PPE Guide for Metalcasting Operations, 15. Schaumburg, IL: AFS.

Patty's Industrial Hygiene, Physical and Biological Agents

Подняться наверх