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Journal Abstract Search

182 related items for PubMed ID: 24702908

  • 1. Assessing skeletal muscle variations in microvascular pressure and unstressed blood volume at the bedside.
    De Blasi RA, Arcioni R.
    Microcirculation; 2014 Oct; 21(7):606-14. PubMed ID: 24702908
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  • 4. Real-time contrast-enhanced ultrasound determination of microvascular blood volume in abdominal subcutaneous adipose tissue in man. Evidence for adipose tissue capillary recruitment.
    Tobin L, Simonsen L, Bülow J.
    Clin Physiol Funct Imaging; 2010 Nov; 30(6):447-52. PubMed ID: 20731685
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  • 6. Studies into the determinants of skeletal muscle oxygen consumption: novel insight from near-infrared diffuse correlation spectroscopy.
    Tucker WJ, Rosenberry R, Trojacek D, Chamseddine HH, Arena-Marshall CA, Zhu Y, Wang J, Kellawan JM, Haykowsky MJ, Tian F, Nelson MD.
    J Physiol; 2019 Jun; 597(11):2887-2901. PubMed ID: 30982990
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  • 10. A new method to study changes in microvascular blood volume in muscle and adipose tissue: real-time imaging in humans and rat.
    Sjøberg KA, Rattigan S, Hiscock N, Richter EA, Kiens B.
    Am J Physiol Heart Circ Physiol; 2011 Aug; 301(2):H450-8. PubMed ID: 21622816
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  • 11. The impact of venous occlusion per se on forearm muscle blood flow: implications for the near-infrared spectroscopy venous occlusion technique.
    Cross TJ, Sabapathy S.
    Clin Physiol Funct Imaging; 2017 May; 37(3):293-298. PubMed ID: 26427913
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  • 12. Muscle perfusion and oxygen consumption by near-infrared spectroscopy in septic-shock and non-septic-shock patients.
    Girardis M, Rinaldi L, Busani S, Flore I, Mauro S, Pasetto A.
    Intensive Care Med; 2003 Jul; 29(7):1173-6. PubMed ID: 12774160
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  • 13. Performance of near-infrared spectroscopy in measuring local O(2) consumption and blood flow in skeletal muscle.
    Van Beekvelt MC, Colier WN, Wevers RA, Van Engelen BG.
    J Appl Physiol (1985); 2001 Feb; 90(2):511-9. PubMed ID: 11160049
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  • 14. Estimated contribution of hemoglobin and myoglobin to near infrared spectroscopy.
    Davis ML, Barstow TJ.
    Respir Physiol Neurobiol; 2013 Apr 01; 186(2):180-7. PubMed ID: 23357615
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  • 15. Monitoring tissue oxygen availability with near infrared spectroscopy (NIRS) in health and disease.
    Boushel R, Langberg H, Olesen J, Gonzales-Alonzo J, Bülow J, Kjaer M.
    Scand J Med Sci Sports; 2001 Aug 01; 11(4):213-22. PubMed ID: 11476426
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  • 16. Microcirculatory changes and skeletal muscle oxygenation measured at rest by non-infrared spectroscopy in patients with and without diabetes undergoing haemodialysis.
    De Blasi RA, Luciani R, Punzo G, Arcioni R, Romano R, Boezi M, Menè P.
    Crit Care; 2009 Aug 01; 13 Suppl 5(Suppl 5):S9. PubMed ID: 19951393
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  • 17. Mercury in silastic strain gauge plethysmography for the clinical assessment of the microcirculation.
    Gamble J, Christ F, Gartside IB.
    Postgrad Med J; 1992 Aug 01; 68 Suppl 2():S25-33. PubMed ID: 1461868
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  • 18. Dissociation of local and global skeletal muscle oxygen transport metrics in type 2 diabetes.
    Mason McClatchey P, Bauer TA, Regensteiner JG, Schauer IE, Huebschmann AG, Reusch JEB.
    J Diabetes Complications; 2017 Aug 01; 31(8):1311-1317. PubMed ID: 28571935
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  • 19. Noninvasive evaluation of skeletal muscle mitochondrial capacity with near-infrared spectroscopy: correcting for blood volume changes.
    Ryan TE, Erickson ML, Brizendine JT, Young HJ, McCully KK.
    J Appl Physiol (1985); 2012 Jul 01; 113(2):175-83. PubMed ID: 22582211
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  • 20. Physiological influence of basic perturbations assessed by non-invasive optical techniques in humans.
    Krite Svanberg E, Wollmer P, Andersson-Engels S, Åkeson J.
    Appl Physiol Nutr Metab; 2011 Dec 01; 36(6):946-57. PubMed ID: 22111558
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