ultraviolet light exposure (UV)

see also:

• ophthalmology
• welder flash burns - UV keratopathy (photo keratitis)
• skin cancer

• ultraviolet light spectrum, in increasing energy and thus increasing biologic harmful effects, consists of:
  • UV-A (400 to 315 nm)
  • UV-B (315 to 280 nm)
  • UV-C (280 to 100 nm)
• UV rays are easily absorbed by nucleic acids, proteins, lipids, and other molecules present within cells
• UV ray exposure may cause point mutations in DNA, DNA damage, denaturation of proteins, and can induce apoptosis and cellular senescence
• some UV light skin exposure is needed for vitamin D synthesis and insufficient exposure may lead to vitamin D deficiency and rickets
• excessive short term exposure may cause:
  • welder flash burns - UV keratopathy (photo keratitis)
  • retinal damage
  • sunburn to skin
• excessive long term exposure may cause:
  • hastened skin and eye aging
  • cataracts
  • skin cancer, especially melanoma
• UV-A light therapy has also been used to help treat some skin conditions such as psoriasis using PUVA where psoralens are combined with UV-A light

• UV-C light has the highest energy of the UV spectrum and is the most damaging biologically
• fortunately, most natural UV-C light is blocked by the atmosphere from reaching the earth's surface
• UV-C light is often used as a germicidal agent to decontaminate surfaces and air and there are concerns that even these exposures may cause irreversibly harm to skin and retinal cells in particular - see Aging 2024 Germicidal lamps using UV-C radiation may pose health safety issues: a biomolecular analysis of their effects on apoptosis and senescence