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Journal Abstract Search

135 related items for PubMed ID: 9065911

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  • 27. Intracellular acidosis during and after cerebral ischemia: in vivo nuclear magnetic resonance study of hyperglycemia in cats.
    Chopp M, Frinak S, Walton DR, Smith MB, Welch KM.
    Stroke; 1987; 18(5):919-23. PubMed ID: 3629652
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  • 28. Mapping of lactate and N-acetyl-L-aspartate predicts infarction during acute focal ischemia: in vivo 1H magnetic resonance spectroscopy in rats.
    Higuchi T, Fernandez EJ, Maudsley AA, Shimizu H, Weiner MW, Weinstein PR.
    Neurosurgery; 1996 Jan; 38(1):121-9; discussion 129-30. PubMed ID: 8747960
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  • 29. Age-related differences in the effect of dichloroacetate on postischemic lactate and acid clearance measured in vivo using magnetic resonance spectroscopy and microdialysis.
    Corbett R, Laptook A, Gee J, Garcia D, Silmon S, Tollefsbol G.
    J Neurochem; 1998 Sep; 71(3):1205-14. PubMed ID: 9721746
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  • 30. Sequential in vivo measurement of cerebral intracellular metabolites with phosphorus-31 magnetic resonance spectroscopy during global cerebral ischemia and reperfusion in rats.
    Andrews BT, Weinstein PR, Keniry M, Pereira B.
    Neurosurgery; 1987 Nov; 21(5):699-708. PubMed ID: 3696405
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  • 31. Prolonged deterioration of ischemic brain energy metabolism and acidosis associated with hyperglycemia: human cerebral infarction studied by serial 31P NMR spectroscopy.
    Levine SR, Welch KM, Helpern JA, Chopp M, Bruce R, Selwa J, Smith MB.
    Ann Neurol; 1988 Apr; 23(4):416-8. PubMed ID: 3382181
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  • 33. The role of bradykinin in mediating ischemic brain edema in rats.
    Kamiya T, Katayama Y, Kashiwagi F, Terashi A.
    Stroke; 1993 Apr; 24(4):571-5; discussion 575-6. PubMed ID: 7682018
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  • 34. Experimental cerebral ischemia studied using nuclear magnetic resonance imaging and spectroscopy.
    Sutherland G, Peeling J, Lesiuk H, Saunders J.
    Can Assoc Radiol J; 1990 Feb; 41(1):24-31. PubMed ID: 2155686
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  • 35. Acute cerebral ischaemia: concurrent changes in cerebral blood flow, energy metabolites, pH, and lactate measured with hydrogen clearance and 31P and 1H nuclear magnetic resonance spectroscopy. II. Changes during ischaemia.
    Crockard HA, Gadian DG, Frackowiak RS, Proctor E, Allen K, Williams SR, Russell RW.
    J Cereb Blood Flow Metab; 1987 Aug; 7(4):394-402. PubMed ID: 3611203
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  • 36. Hyperglycemic versus normoglycemic stroke: topography of brain metabolites, intracellular pH, and infarct size.
    Wagner KR, Kleinholz M, de Courten-Myers GM, Myers RE.
    J Cereb Blood Flow Metab; 1992 Mar; 12(2):213-22. PubMed ID: 1548294
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  • 37. In vivo 1H MR spectroscopic imaging and diffusion weighted MRI in experimental hydrocephalus.
    Braun KP, de Graaf RA, Vandertop WP, Gooskens RH, Tulleken KA, Nicolay K.
    Magn Reson Med; 1998 Dec; 40(6):832-9. PubMed ID: 9840827
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  • 38. Proton transfer ratio, lactate, and intracellular pH in acute cerebral ischemia.
    Jokivarsi KT, Gröhn HI, Gröhn OH, Kauppinen RA.
    Magn Reson Med; 2007 Apr; 57(4):647-53. PubMed ID: 17390356
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  • 39. Pathophysiological investigation of experimental cerebral ischaemia using in vivo 31P-NMR spectroscopy and 1H-MRI.
    Higuchi T, Naruse S, Horikawa Y, Tanaka C, Ebisu T, Yamamoto K, Hirakawa K.
    Acta Neurochir Suppl (Wien); 1988 Apr; 43():172-6. PubMed ID: 3213646
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  • 40. Traumatic brain injury in the rat: alterations in brain lactate and pH as characterized by 1H and 31P nuclear magnetic resonance.
    McIntosh TK, Faden AI, Bendall MR, Vink R.
    J Neurochem; 1987 Nov; 49(5):1530-40. PubMed ID: 3668537
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