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200 10$aCBO's simulation model of new drug development /$fChristopher P. Adams
210  1$aWashington, D.C. :$cCongressional Budget Office,$d2021.
215   $a1 online resource (28 pages, 1 unnumbered page) $ccolor illustrations
225 1 $aWorking paper ;$v2021-09
300   $a"August 2021."
320   $aIncludes bibliographical references (pages 26-28).
517 3 $aCongressional Budget Office's simulation model of new drug development
606   $aDrug development$zUnited States$xSimulation methods
606   $aPrescription pricing$xGovernment policy$zUnited States
606   $aPharmaceutical policy$zUnited States
606   $aDrugs$xPrices$zUnited States
615  0$aDrug development$xSimulation methods.
615  0$aPrescription pricing$xGovernment policy
615  0$aPharmaceutical policy
615  0$aDrugs$xPrices
700   $aAdams$b Christopher P.$01387614
712 02$aUnited States.$bCongressional Budget Office,
801  0$bGPO
801  1$bGPO
906   $aBOOK
912   $a9910717043303321
996   $aCBO's simulation model of new drug development$93438940
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200 00$aParadox Role of Oxidative Stress in Cancer$eState of the Art
210   $aBasel$cMDPI - Multidisciplinary Digital Publishing Institute$d2022
215   $a1 online resource (214 p.)
311 08$a3-0365-4421-6 
311 08$a3-0365-4422-4 
330   $aReactive oxygen species (ROS) are produced by healthy cells and are maintained at physiological levels by antioxidant systems. However, when ROS increase in number, a condition of oxidative stress occurs, leading to many human diseases, including cancer. The relationship between oxidative stress and cancer is complex since ROS play a double-edged role in cancer development and under therapy response. This paradox represents a great challenge for researchers and needs to be investigated. The articles collected in this Special Issue can help to clarify the role of ROS modulation in cancer prevention and treatment, and to dissect the molecular mechanisms underlying its paradoxical role in order to counteract carcinogenesis or enhance sensitivity to anticancer therapy.
517   $aParadox Role of Oxidative Stress in Cancer 
606   $aMedicine and Nursing$2bicssc
606   $aOncology$2bicssc
610   $aantitumor agents
610   $aapoptosis
610   $abioinorganic chemistry
610   $abiomarker
610   $abreast cancer treatment
610   $acancer progression
610   $acancer stem cells
610   $acancer therapy
610   $acancer treatment
610   $acancerogenesis
610   $acarbon doped titanium dioxide
610   $achemoresistance
610   $acold atmospheric plasma
610   $acombined treatment
610   $acoordination polymers
610   $aDNA damage
610   $aEprenetapopt
610   $aErastin
610   $aferroptosis
610   $aglutathione
610   $aglutathione (GSH)
610   $aGPX4
610   $ahematological malignancies
610   $aHO-1
610   $ahyperforin
610   $aHypericum perforatum
610   $aimmune system
610   $ainflammatory signaling
610   $airon
610   $aleukemia
610   $alipid peroxidation
610   $alymphoma
610   $amitochondria
610   $amultiple myeloma
610   $an/a
610   $anatural compounds
610   $anitrite
610   $aNrf2
610   $aNRF2
610   $aoral cancer
610   $aoxidative stress
610   $apancreatic cancer
610   $apatients
610   $apH regulation
610   $aprognosis
610   $aradiotherapy
610   $areactive oxygen and nitrogen species
610   $areactive oxygen species
610   $aSLC7A11
610   $asonodynamic therapy
610   $asonosensitizers
610   $atherapy
610   $atumor prevention
610   $atumor therapy
610   $aultrasound
610   $aultraviolet-C (UVC)
610   $awithanolide
610   $aZEB-1
615  7$aMedicine and Nursing
615  7$aOncology
700   $aDomenicotti$b Cinzia$4edt$01329334
702   $aMarengo$b Barbara$4edt
702   $aDomenicotti$b Cinzia$4oth
702   $aMarengo$b Barbara$4oth
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997   $aUNINA