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Gregory Karczmar to Rats

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This is a "connection" page, showing publications Gregory Karczmar has written about Rats.
Gregory Karczmar
Connection Strength
1.078
Rats
  1. HiSStology: high spectral and spatial resolution magnetic resonance imaging detection of vasculature validated by histology and micro-computed tomography. Mol Imaging. 2011 Jun; 10(3):187-96.
    View in: PubMed
    Score: 0.062
  2. Use of a reference tissue and blood vessel to measure the arterial input function in DCEMRI. Magn Reson Med. 2010 Dec; 64(6):1821-6.
    View in: PubMed
    Score: 0.061
  3. Can DCEMRI assess the effect of green tea on the angiogenic properties of rodent prostate tumors? Phys Med. 2010 Apr; 26(2):111-6.
    View in: PubMed
    Score: 0.055
  4. Sensitivity to tumor microvasculature without contrast agents in high spectral and spatial resolution MR images. Magn Reson Med. 2009 Feb; 61(2):291-8.
    View in: PubMed
    Score: 0.054
  5. Quantitative analysis of water proton spectral lineshape: a novel source of contrast in MRI. Phys Med Biol. 2008 Sep 07; 53(17):4509-22.
    View in: PubMed
    Score: 0.052
  6. MRI of perfluorocarbon emulsion kinetics in rodent mammary tumours. Phys Med Biol. 2006 Jan 21; 51(2):211-20.
    View in: PubMed
    Score: 0.043
  7. New model for analysis of dynamic contrast-enhanced MRI data distinguishes metastatic from nonmetastatic transplanted rodent prostate tumors. Magn Reson Med. 2004 Mar; 51(3):487-94.
    View in: PubMed
    Score: 0.038
  8. Using high spectral and spatial resolution bold MRI to choose the optimal oxygenating treatment for individual cancer patients. Adv Exp Med Biol. 2003; 530:433-40.
    View in: PubMed
    Score: 0.035
  9. Effect of carbogen on tumor oxygenation: combined fluorine-19 and proton MRI measurements. Int J Radiat Oncol Biol Phys. 2002 Nov 15; 54(4):1202-9.
    View in: PubMed
    Score: 0.035
  10. Structure of the water resonance in small voxels in rat brain detected with high spectral and spatial resolution MRI. J Magn Reson Imaging. 2002 Nov; 16(5):547-52.
    View in: PubMed
    Score: 0.035
  11. Functional and anatomic imaging of tumor vasculature: high-resolution MR spectroscopic imaging combined with a superparamagnetic contrast agent. Acad Radiol. 2002 May; 9 Suppl 1:S115-8.
    View in: PubMed
    Score: 0.034
  12. Spectrally inhomogeneous BOLD contrast changes detected in rodent tumors with high spectral and spatial resolution MRI. NMR Biomed. 2002 Feb; 15(1):28-36.
    View in: PubMed
    Score: 0.033
  13. Differentiation of nonmetastatic and metastatic rodent prostate tumors with high spectral and spatial resolution MRI. Magn Reson Med. 2001 Jun; 45(6):1046-55.
    View in: PubMed
    Score: 0.031
  14. Uptake of a superparamagnetic contrast agent imaged by MR with high spectral and spatial resolution. Magn Reson Med. 2000 May; 43(5):633-9.
    View in: PubMed
    Score: 0.029
  15. MRI measurements correctly predict the relative effects of tumor oxygenating agents on hypoxic fraction in rodent BA1112 tumors. Int J Radiat Oncol Biol Phys. 2000 May 01; 47(2):481-8.
    View in: PubMed
    Score: 0.029
  16. A new method for imaging perfusion and contrast extraction fraction: input functions derived from reference tissues. J Magn Reson Imaging. 1998 Sep-Oct; 8(5):1126-34.
    View in: PubMed
    Score: 0.026
  17. The effects of variations in tissue microstructure from postmortem rat brain on the asymmetry of the water proton resonance. Magn Reson Med. 2019 01; 81(1):79-89.
    View in: PubMed
    Score: 0.026
  18. Fast spectroscopic imaging of water and fat resonances to improve the quality of MR images. Acad Radiol. 1998 Apr; 5(4):269-75.
    View in: PubMed
    Score: 0.025
  19. Correlation of magnetic resonance and oxygen microelectrode measurements of carbogen-induced changes in tumor oxygenation. Int J Radiat Oncol Biol Phys. 1998 Apr 01; 41(1):151-9.
    View in: PubMed
    Score: 0.025
  20. Comparison of region-of-interest-averaged and pixel-averaged analysis of DCE-MRI data based on simulations and pre-clinical experiments. Phys Med Biol. 2017 Sep 05; 62(18):N445-N459.
    View in: PubMed
    Score: 0.024
  21. In vivo imaging of extraction fraction of low molecular weight MR contrast agents and perfusion rate in rodent tumors. Magn Reson Med. 1997 Aug; 38(2):259-68.
    View in: PubMed
    Score: 0.024
  22. Spectroscopic imaging of the water resonance with short repetition time to study tumor response to hyperoxia. Magn Reson Med. 1997 Jul; 38(1):27-32.
    View in: PubMed
    Score: 0.024
  23. Dynamic contrast measurements in rodent model tumors. Acad Radiol. 1996 Aug; 3 Suppl 2:S384-6.
    View in: PubMed
    Score: 0.023
  24. Changes in T2*-weighted images during hyperoxia differentiate tumors from normal tissue. Magn Reson Med. 1995 Mar; 33(3):318-25.
    View in: PubMed
    Score: 0.020
  25. Magnetic resonance measurement of response to hyperoxia differentiates tumors from normal tissue and may be sensitive to oxygen consumption. Invest Radiol. 1994 Jun; 29 Suppl 2:S161-3.
    View in: PubMed
    Score: 0.019
  26. Prospects for assessment of the effects of electrical injury by magnetic resonance. Ann N Y Acad Sci. 1994 May 31; 720:176-80.
    View in: PubMed
    Score: 0.019
  27. Effects of hyperoxia on T2* and resonance frequency weighted magnetic resonance images of rodent tumours. NMR Biomed. 1994 Mar; 7(1-2):3-11.
    View in: PubMed
    Score: 0.019
  28. Magnetic resonance imaging of rodent tumors using radiofrequency gradient echoes. Magn Reson Imaging. 1994; 12(6):881-93.
    View in: PubMed
    Score: 0.019
  29. MRI of neonatal necrotizing enterocolitis in a rodent model. NMR Biomed. 2014 Mar; 27(3):272-9.
    View in: PubMed
    Score: 0.019
  30. Selective depletion of tumor ATP by 2-deoxyglucose and insulin, detected by 31P magnetic resonance spectroscopy. Cancer Res. 1992 Jan 01; 52(1):71-6.
    View in: PubMed
    Score: 0.016
  31. The use of a reference tissue arterial input function with low-temporal-resolution DCE-MRI data. Phys Med Biol. 2010 Aug 21; 55(16):4871-83.
    View in: PubMed
    Score: 0.015
  32. The influence of temporal resolution in determining pharmacokinetic parameters from DCE-MRI data. Magn Reson Med. 2010 Mar; 63(3):811-6.
    View in: PubMed
    Score: 0.014
  33. Response of tumors to therapy studied by 31P magnetic resonance spectroscopy. Invest Radiol. 1989 Dec; 24(12):1020-3.
    View in: PubMed
    Score: 0.014
  34. Regulation of hepatic inorganic phosphate and ATP in response to fructose loading: an in vivo 31P-NMR study. Biochim Biophys Acta. 1989 Jul 11; 1012(2):121-7.
    View in: PubMed
    Score: 0.014
  35. New vanadium-based magnetic resonance imaging probes: clinical potential for early detection of cancer. J Biol Inorg Chem. 2009 Nov; 14(8):1187-97.
    View in: PubMed
    Score: 0.014
  36. A 31P NMR study of the GI tract: effect of fructose loading and measurement of transverse relaxation times. Magn Reson Med. 1989 Jan; 9(1):8-15.
    View in: PubMed
    Score: 0.013
  37. Multi-slice DCE-MRI data using P760 distinguishes between metastatic and non-metastatic rodent prostate tumors. MAGMA. 2006 Feb; 19(1):15-21.
    View in: PubMed
    Score: 0.011
  38. Magnetic resonance imaging of changes in muscle tissues after membrane trauma. Ann N Y Acad Sci. 2005 Dec; 1066:272-85.
    View in: PubMed
    Score: 0.011
  39. Effects of constant frequency noise in magnetic resonance imaging with nonuniform k-space sampling. Med Phys. 2002 Aug; 29(8):1832-8.
    View in: PubMed
    Score: 0.009
  40. Differentiating between T1 and T2* changes caused by gadopentetate dimeglumine in the kidney by using a double-echo dynamic MR imaging sequence. J Magn Reson Imaging. 1996 Sep-Oct; 6(5):764-8.
    View in: PubMed
    Score: 0.006
  41. Inhibition of tumor high-energy phosphate metabolism by insulin combined with rhodamine 123. Surgery. 1988 Aug; 104(2):161-70.
    View in: PubMed
    Score: 0.003
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