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200 1 $a*Applications of Aminoacylation Ribozymes That Recognize the 3?-end of tRNA$fNaohiro Terasaka
205   $aTokyo : Springer, 2017
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200 10$aRadiation injury prevention and mitigation in humans /$fKedar N. Prasad
210  1$aBoca Raton, Fla. :$cCRC Press,$d2012.
215   $a1 online resource (293 p.)
300   $aDescription based upon print version of record.
311   $a1-4665-3976-3 
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320   $aIncludes bibliographical references.
327   $aFront Cover; Contents; Preface; About the Author; Chapter 1: Growing Health Concerns with Respect to Low Doses of Ionizing Radiation: Can We Prevent and/or Mitigate Them?; Chapter 2: Physics of Radiological Weapons and Nuclear Reactors; Chapter 3: Acute Radiation Damage by High Doses of Ionizing Radiation in Humans; Chapter 4: Long-Term Damages among Survivors of High Doses of Ionizing Radiation; Chapter 5: Prevention and Mitigation of Acute Radiation Sickness (ARS); Chapter 6: Prevention and Mitigation of Late Adverse Effects of High Radiation Doses
327   $aChapter 7: Health Risks of Low Doses of Ionizing RadiationChapter 8: Prevention and Mitigation against Radiological Weapons and Nuclear Plant Accidents; Chapter 9: Prevention and Mitigation of Damage after Low Radiation Doses; Chapter 10: Implementation Plans for Prevention and Mitigation of Radiation Injury; Chapter 11: Health Risks of Nonionizing Radiation and Their Prevention and Mitigation; Back Cover
330   $aWith an estimated 3.3 billion ionizing radiation imaging examinations performed worldwide each year, the growing use of x-ray-based diagnostic procedures raises concerns about long-term health risks, especially cancer. In addition, rapid growth in the number of nuclear power plants around the world increases the risk of a nuclear accident similar to that of Fukushima, Japan. Add to this, exposure to non-ionizing radiation from prolonged cell phone use, proton radiation from solar flares, and potential nuclear conflict or a dirty bomb attack, and the need to expand our repertoire of radiatio
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