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Items: 1 to 20 of 124

1.

ATP production rate via creatine kinase or ATP synthase in vivo: a novel superfast magnetization saturation transfer method.

Xiong Q, Du F, Zhu X, Zhang P, Suntharalingam P, Ippolito J, Kamdar FD, Chen W, Zhang J.

Circ Res. 2011 Mar 18;108(6):653-63. doi: 10.1161/CIRCRESAHA.110.231456. Epub 2011 Feb 3.

2.

Novel strategy for measuring creatine kinase reaction rate in the in vivo heart.

Xiong Q, Li Q, Mansoor A, Jameel MN, Du F, Chen W, Zhang J.

Am J Physiol Heart Circ Physiol. 2009 Sep;297(3):H1010-9. doi: 10.1152/ajpheart.01195.2008. Epub 2009 Jun 26.

3.

Impaired ATP kinetics in failing in vivo mouse heart.

Gupta A, Chacko VP, Schär M, Akki A, Weiss RG.

Circ Cardiovasc Imaging. 2011 Jan;4(1):42-50. doi: 10.1161/CIRCIMAGING.110.959320. Epub 2010 Oct 6.

4.

On the theoretical limits of detecting cyclic changes in cardiac high-energy phosphates and creatine kinase reaction kinetics using in vivo ³¹P MRS.

Weiss K, Bottomley PA, Weiss RG.

NMR Biomed. 2015 Jun;28(6):694-705. doi: 10.1002/nbm.3302. Epub 2015 Apr 23.

5.

Mathematical model of compartmentalized energy transfer: its use for analysis and interpretation of 31P-NMR studies of isolated heart of creatine kinase deficient mice.

Aliev MK, van Dorsten FA, Nederhoff MG, van Echteld CJ, Veksler V, Nicolay K, Saks VA.

Mol Cell Biochem. 1998 Jul;184(1-2):209-29.

PMID:
9746323
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8.

Measurement of an individual rate constant in the presence of multiple exchanges: application to myocardial creatine kinase reaction.

Uğurbil K, Petein M, Maidan R, Michurski S, From AH.

Biochemistry. 1986 Jan 14;25(1):100-7.

PMID:
3954984
9.

Myocardial creatine kinase kinetics in hearts with postinfarction left ventricular remodeling.

Murakami Y, Zhang J, Eijgelshoven MH, Chen W, Carlyle WC, Zhang Y, Gong G, Bache RJ.

Am J Physiol. 1999 Mar;276(3 Pt 2):H892-900.

10.

Two repetition time saturation transfer (TwiST) with spill-over correction to measure creatine kinase reaction rates in human hearts.

Schär M, Gabr RE, El-Sharkawy AM, Steinberg A, Bottomley PA, Weiss RG.

J Cardiovasc Magn Reson. 2015 Aug 8;17:70. doi: 10.1186/s12968-015-0175-4.

11.

31P NMR kinetics study of cardiac metabolism under mild hypoxia.

Goudemant JF, Vander Elst L, Van Haverbeke Y, Muller RN.

J Magn Reson B. 1995 Mar;106(3):212-9.

PMID:
7719621
12.

Cardiac performance and creatine kinase flux during inhibition of ATP synthesis in the perfused rat heart.

Mateo P, Stepanov V, Gillet B, Beloeil JC, Hoerter JA.

Am J Physiol. 1999 Jul;277(1 Pt 2):H308-17.

13.

Reproducibility of creatine kinase reaction kinetics in human heart: a (31) P time-dependent saturation transfer spectroscopy study.

Bashir A, Gropler R.

NMR Biomed. 2014 Jun;27(6):663-71. doi: 10.1002/nbm.3103. Epub 2014 Apr 6.

14.

Reduced myocardial creatine kinase flux in human myocardial infarction: an in vivo phosphorus magnetic resonance spectroscopy study.

Bottomley PA, Wu KC, Gerstenblith G, Schulman SP, Steinberg A, Weiss RG.

Circulation. 2009 Apr 14;119(14):1918-24. doi: 10.1161/CIRCULATIONAHA.108.823187. Epub 2009 Mar 30.

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Estimation of heart mitochondrial creatine kinase flux using magnetization transfer NMR spectroscopy.

Zahler R, Ingwall JS.

Am J Physiol. 1992 Apr;262(4 Pt 2):H1022-8.

PMID:
1566885
17.

Four-angle saturation transfer (FAST) method for measuring creatine kinase reaction rates in vivo.

Bottomley PA, Ouwerkerk R, Lee RF, Weiss RG.

Magn Reson Med. 2002 May;47(5):850-63.

18.

Inhibition of the creatine kinase reaction decreases the contractile reserve of isolated rat hearts.

Hamman BL, Bittl JA, Jacobus WE, Allen PD, Spencer RS, Tian R, Ingwall JS.

Am J Physiol. 1995 Sep;269(3 Pt 2):H1030-6.

PMID:
7573498
19.

In vivo evidence for cerebral bioenergetic abnormalities in schizophrenia measured using 31P magnetization transfer spectroscopy.

Du F, Cooper AJ, Thida T, Sehovic S, Lukas SE, Cohen BM, Zhang X, Ongür D.

JAMA Psychiatry. 2014 Jan;71(1):19-27. doi: 10.1001/jamapsychiatry.2013.2287.

PMID:
24196348
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