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Scandinavian Journal of Clinical and Laboratory Investigation Volume 21, 1968 - Issue 2
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Original Article

Increased Capillary Diffusion Capacity for Small Ions in Skeletal Muscle in Long-Term Diabetics

J. Trap-Jensen Department of Medicine C and Department of Clinical Physiology, Bispebjerg Hospital, Copenhagen, Denmark
&
N. A. Lassen Department of Medicine C and Department of Clinical Physiology, Bispebjerg Hospital, Copenhagen, Denmark
Pages 116-122 | Received 17 Jan 1968, Accepted 18 Feb 1968, Published online: 08 Jul 2009

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A. Kofoed-Enevoldsen, T. Deckert & L. Bent-H Ansen. (1992) Transcapillary filtration of plasma protein in long-term type 1 (insulin dependent) diabetic patients. Scandinavian Journal of Clinical and Laboratory Investigation 52:7, pages 591-597.
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H. Leinonen, S. Salminen & P. Peltokallio. (1978) Capillary permeability and maximal blood flow in skeletal muscle in athletes and non-athletes measured by local clearances of 133Xe and 131I-. Scandinavian Journal of Clinical and Laboratory Investigation 38:3, pages 223-227.
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H. Lönsmann Poulsen. (1973) Subcutaneous Interstitial Fluid Albumin Concentration in Long-Term Diabetes Mellitus. Scandinavian Journal of Clinical and Laboratory Investigation 32:2, pages 167-173.
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J. Trap-jensen, O. Korsgaard & N. A. Lassen. (1970) Capillary Permeability in Human Skeletal Muscle Measured by Local Injection of 51Cr-EDTA and 133Xe. Scandinavian Journal of Clinical and Laboratory Investigation 25:1, pages 93-99.
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N. A. Lassen & J. Trap-Jensen. (1968) Theoretical Considerations on Measurement of Capillary Diffusion Capacity in Skeletal Muscle by the Local Clearance Method. Scandinavian Journal of Clinical and Laboratory Investigation 21:2, pages 108-115.
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Articles from other publishers (28)

Javier La FontaineLawrence B. HarklessChristian E. DavisMarque A. AllenPaula K. Shireman. (2006) Current Concepts in Diabetic Microvascular Dysfunction. Journal of the American Podiatric Medical Association 96:3, pages 245-252.
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John E. Tooke. 2003. International Textbook of Diabetes Mellitus. International Textbook of Diabetes Mellitus.
Kourosh Arshi, Moïse Bendayan & Lucian D Ghitescu. (2000) Alterations of the Rat Mesentery Vasculature in Experimental Diabetes. Laboratory Investigation 80:8, pages 1171-1184.
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Avshalom Shostak & Lazaro Gotloib. (1996) Increased peritoneal permeability to albumin in streptozotocin diabetic rats. Kidney International 49:3, pages 705-714.
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M. La Selva, E. Beltramo, P. Passera, M. Porta & G. M. Molinatti. (1993) The role of endothelium in the pathogenesis of diabetic microangiopathy. Acta Diabetologica 30:4, pages 190-200.
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John E. Tooke. (2009) Methodologies used in the study of the microcirculation in diabetes mellitus. Diabetes/Metabolism Reviews 9:1, pages 57-70.
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S D Bell, M J Myers & A M Peters. (1992) Non-invasive techniques for the measurement of extraction fraction and permeability surface area product of 99 Tc m DTPA in the human forearm . Physics in Medicine and Biology 37:9, pages 1759-1772.
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P. Valensi, J.R. Attali, A. Behar & J. Sebaoun. (1987) Isotopic test of capillary permeability to albumin in diabetic patients: Effects of hypertension, microangiopathy, and duration of diabetes. Metabolism 36:9, pages 834-839.
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A. Bollinger, K. Jäger & M. Jünger. 1986. Clinical Investigation of the Microcirculation. Clinical Investigation of the Microcirculation 35 47 .
Alfred Bollinger, Jakob Frey, Kurt J?ger, J?rg Furrer, Jakob Seglias & Walter Siegenthaler. (1982) Patterns of Diffusion through Skin Capillaries in Patients with Long-Term Diabetes. New England Journal of Medicine 307:21, pages 1305-1310.
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Hannu Leinonen. (2009) Capillary Permeability in Skeletal Muscle of Normal Subjects. Acta Medica Scandinavica 212:S668, pages 64-67.
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JOSEPH R. WILLIAMSON & CHARLES KILO. 1981. Microcirculation. Microcirculation 191 204 .
Joseph R. Williamson & Charles Kilo. (2016) Small-Vessel Disease: Diabetic Microangiopathy. Angiology 31:7, pages 448-454.
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BO BERGLUND, SUAD EFENDIĆ, TORE STRANDELL & ROLF LUFT. (2008) Capillary permeability in healthy males with different insulin response to glucose. European Journal of Clinical Investigation 9:5, pages 363-367.
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Eva M. Kohner. (1977) 4 Diabetic retinopathy. Clinics in Endocrinology and Metabolism 6:2, pages 345-375.
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K. Lundbaek. 1977. Diabetes mellitus • B. Diabetes mellitus • B 175 187 .
H. L. Poulsen & S. L. Nielsen. (1976) Water filtration of the forearm in short- and long-term diabetes mellitus. Diabetologia 12:5, pages 437-440.
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. (2009) REFERENCES. Acta Medica Scandinavica 195:S558, pages 28-31.
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Ralph E. Yodaiken. 1973. Vascular and Neurological Changes in Early Diabetes. Vascular and Neurological Changes in Early Diabetes 341 347 .
Joseph S. Alpert, Jay D. Coffman, Marios C. BalodimosLajos Koncz & J. Stuart Soeldner. (1972) Capillary Permeability and Blood Flow in Skeletal Muscle of Patients with Diabetes Mellitus and Genetic Prediabetes. New England Journal of Medicine 286:9, pages 454-460.
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. (2009) REFERENCES. Acta Medica Scandinavica 192:S541, pages 56-60.
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Knud Lundbaek. 1972. 99 129 .
L. Rázgová, K. Roztočil, J. Hálová & A. Fischer. (1971) The effect of 0-(β-hydroxyl)-rutosides (HR) on peripheral blood vessels of the lower extremities in idiopathic oedema. European Journal of Clinical Pharmacology 3:4, pages 247-251.
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K. Roztočil, A. Fischer, P. Novák & L. Rázgová. (1971) The effect of 0-(β-hydroxyethyl)-rutosides (HR) on the peripheral circulation in patients with chronic venous insufficiency. European Journal of Clinical Pharmacology 3:4, pages 243-246.
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L. Langer, S. -E. Bergentz, J. Bjure & S. -E. Fagerberg. (1971) The effect of exercise on haematocrit, plasma volume and viscosity in diabetes mellitusEffet de l'exercice sur l'hématocrite, le volume plasmatique et la viscosité dans le diabète sucréWirkung von körperlicher Belastung auf Hämatokrit, Plasma-Volumen und -viscosität bei Diabetes mellitus. Diabetologia 7:1, pages 29-33.
Crossref
K. Lundbaek. 1971. Pathophysiologie und Klinik / Pathophysiology and Clinical Considerations. Pathophysiologie und Klinik / Pathophysiology and Clinical Considerations 649 658 .
N. A. Lassen & J. Trap‐Jensen. (2008) The Validity of the Indicator Dilution Method for Measuring the Capillary Diffusion Capacity for 51 Cr‐EDTA in Hyperaemic Skeletal Muscle . European Journal of Clinical Investigation 1:2, pages 118-123.
Crossref
L. Appelgren & D.H. Lewis. (1970) Simultaneous clinical measurement of regional blood flow and effective capillary surface in the human skeletal muscle by a double-isotope technique: Observations on the effect of locally injected norepinephrine. Microvascular Research 2:2, pages 172-181.
Crossref

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