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125 related items for PubMed ID: 36716294

  • 1. Thrsp Gene and the ADHD Predominantly Inattentive Presentation.
    Custodio RJP, Kim M, Chung YC, Kim BN, Kim HJ, Cheong JH.
    ACS Chem Neurosci; 2023 Feb 15; 14(4):573-589. PubMed ID: 36716294
    [Abstract] [Full Text] [Related]

  • 2. Behavioral and genetic evidence for a novel animal model of Attention-Deficit/Hyperactivity Disorder Predominantly Inattentive Subtype.
    Sagvolden T, Dasbanerjee T, Zhang-James Y, Middleton F, Faraone S.
    Behav Brain Funct; 2008 Dec 01; 4():56. PubMed ID: 19046438
    [Abstract] [Full Text] [Related]

  • 3. Overexpression of the Thyroid Hormone-Responsive (THRSP) Gene in the Striatum Leads to the Development of Inattentive-like Phenotype in Mice.
    Custodio RJP, Botanas CJ, de la Peña JB, Dela Peña IJ, Kim M, Sayson LV, Abiero A, Ryoo ZY, Kim BN, Kim HJ, Cheong JH.
    Neuroscience; 2018 Oct 15; 390():141-150. PubMed ID: 30138648
    [Abstract] [Full Text] [Related]

  • 4. Timing and delay discounting in attention-deficit/hyperactivity disorder: A translational approach.
    Fox AE, Nicholson AM, Singha D, Thieret BAS, Ortiz M, Visser EJ.
    Dev Psychobiol; 2023 Jul 15; 65(5):e22399. PubMed ID: 37338253
    [Abstract] [Full Text] [Related]

  • 5. Common prefrontal cortical gene expression profiles between adolescent SHR/NCrl and WKY/NCrl rats which showed inattention behavior.
    Dela Peña I, Bang M, Lee J, de la Peña JB, Kim BN, Han DH, Noh M, Shin CY, Cheong JH.
    Behav Brain Res; 2015 Sep 15; 291():268-276. PubMed ID: 26048425
    [Abstract] [Full Text] [Related]

  • 6. Low striatal T3 is implicated in inattention and memory impairment in an ADHD mouse model overexpressing thyroid hormone-responsive protein.
    Custodio RJP, Kim M, Sayson LV, Lee HJ, Ortiz DM, Kim BN, Kim HJ, Cheong JH.
    Commun Biol; 2021 Sep 20; 4(1):1101. PubMed ID: 34545202
    [Abstract] [Full Text] [Related]

  • 7. Rodent models of attention-deficit/hyperactivity disorder.
    Sagvolden T, Russell VA, Aase H, Johansen EB, Farshbaf M.
    Biol Psychiatry; 2005 Jun 01; 57(11):1239-47. PubMed ID: 15949994
    [Abstract] [Full Text] [Related]

  • 8. Hippocampal dentate gyri proteomics reveals Wnt signaling involvement in the behavioral impairment in the THRSP-overexpressing ADHD mouse model.
    Custodio RJP, Kim HJ, Kim J, Ortiz DM, Kim M, Buctot D, Sayson LV, Lee HJ, Kim BN, Yi EC, Cheong JH.
    Commun Biol; 2023 Jan 16; 6(1):55. PubMed ID: 36646879
    [Abstract] [Full Text] [Related]

  • 9. Intraindividual variability (IIV) in an animal model of ADHD - the Spontaneously Hypertensive Rat.
    Perry GM, Sagvolden T, Faraone SV.
    Behav Brain Funct; 2010 Oct 06; 6():56. PubMed ID: 20925933
    [Abstract] [Full Text] [Related]

  • 10. Stimulus control in two rodent models of attention-deficit/hyperactivity disorder.
    Fox AE, Caramia SR, Haskell MM, Ramey AL, Singha D.
    Behav Processes; 2017 Feb 06; 135():16-24. PubMed ID: 27864066
    [Abstract] [Full Text] [Related]

  • 11. The spontaneously hypertensive rat model of ADHD--the importance of selecting the appropriate reference strain.
    Sagvolden T, Johansen EB, Wøien G, Walaas SI, Storm-Mathisen J, Bergersen LH, Hvalby O, Jensen V, Aase H, Russell VA, Killeen PR, Dasbanerjee T, Middleton FA, Faraone SV.
    Neuropharmacology; 2009 Dec 06; 57(7-8):619-26. PubMed ID: 19698722
    [Abstract] [Full Text] [Related]

  • 12. Transcriptional profiling of SHR/NCrl prefrontal cortex shows hyperactivity-associated genes responsive to amphetamine challenge.
    Dela Peña IJI, Dela Peña I, de la Peña JB, Kim HJ, Sohn A, Shin CY, Han DH, Kim BN, Ryu JH, Cheong JH.
    Genes Brain Behav; 2017 Sep 06; 16(7):664-674. PubMed ID: 28422445
    [Abstract] [Full Text] [Related]

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  • 14. Rat models of ADHD.
    Sagvolden T, Johansen EB.
    Curr Top Behav Neurosci; 2012 Sep 06; 9():301-15. PubMed ID: 21487952
    [Abstract] [Full Text] [Related]

  • 15. The spontaneously hypertensive rat/Izm (SHR/Izm) shows attention deficit/hyperactivity disorder-like behaviors but without impulsive behavior: therapeutic implications of low-dose methylphenidate.
    Kishikawa Y, Kawahara Y, Yamada M, Kaneko F, Kawahara H, Nishi A.
    Behav Brain Res; 2014 Nov 01; 274():235-42. PubMed ID: 25151620
    [Abstract] [Full Text] [Related]

  • 16. Exploring the Validity of Proposed Transgenic Animal Models of Attention-Deficit Hyperactivity Disorder (ADHD).
    de la Peña JB, Dela Peña IJ, Custodio RJ, Botanas CJ, Kim HJ, Cheong JH.
    Mol Neurobiol; 2018 May 01; 55(5):3739-3754. PubMed ID: 28534274
    [Abstract] [Full Text] [Related]

  • 17. Intra-individual variability in genetic and environmental models of attention-deficit/hyperactivity disorder.
    Perry GM, Sagvolden T, Faraone SV.
    Am J Med Genet B Neuropsychiatr Genet; 2010 Jul 01; 153B(5):1094-101. PubMed ID: 20468058
    [Abstract] [Full Text] [Related]

  • 18. Comparison of the validity of the use of the spontaneously hypertensive rat as a model of attention deficit hyperactivity disorder in males and females.
    Bayless DW, Perez MC, Daniel JM.
    Behav Brain Res; 2015 Jun 01; 286():85-92. PubMed ID: 25724583
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  • 20. The spontaneously hypertensive and Wistar Kyoto rat models of ADHD exhibit sub-regional differences in dopamine release and uptake in the striatum and nucleus accumbens.
    Miller EM, Pomerleau F, Huettl P, Russell VA, Gerhardt GA, Glaser PE.
    Neuropharmacology; 2012 Dec 01; 63(8):1327-34. PubMed ID: 22960443
    [Abstract] [Full Text] [Related]

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