TY - JOUR
T1 - Outside-in hemofiltration for prolonged operation without clogging
AU - Dukhin, Stanislav S.
AU - Tabani, Yacoob
AU - Lai, Richard
AU - Labib, Omar A.
AU - Zydney, Andrew L.
AU - Labib, Mohamed E.
N1 - Funding Information:
The authors acknowledge funding for this research from the National Heart, Lung, and Blood Institute , National Institutes of Health (Grant no. 1R43HL105178-01 ) and the National Institute of Diabetes and Kidney Diseases , National Institutes of Health (Grant nos. 1R43DK55419-01 , 2R44DK055419-02A1 and 2R44DK055419-04A1 ).
PY - 2014/8/15
Y1 - 2014/8/15
N2 - Hemofiltration (HF) is used extensively for continuous renal replacement therapy, but long-term treatment is limited by thrombosis leading to fiber clogging. Maximum filter life is typically less than 20. h. We have achieved for the first time continuous and consistent hemofiltration for more than 100. h using outside-in hemofiltration with the blood flow into the inter-fiber space (IFS). Although thrombi do deposit in the IFS, they have minimal affect on the blood flow and filtrate flux due to the three-dimensional system of interconnected hydrodynamic flow channels in the IFS. Microscopic examination of sections of the fiber bundle showed that deposited thrombi have dimensions about the size of the gaps between the hollow fibers and remain isolated from each other. A simple mathematical model is developed to describe the effect of thrombus deposition on the fluid flow that accounts for the enhanced performance arising from the interconnected flow. The hydrodynamic advantage of outside-in HF decreases at low anticoagulant concentration due to the instability in the blood and the very high volume fraction of thrombi that deposit in the entrance zone of the filter. These results clearly demonstrate the significant potential advantages of using outside-in hemofiltration for long-term renal replacement therapy.
AB - Hemofiltration (HF) is used extensively for continuous renal replacement therapy, but long-term treatment is limited by thrombosis leading to fiber clogging. Maximum filter life is typically less than 20. h. We have achieved for the first time continuous and consistent hemofiltration for more than 100. h using outside-in hemofiltration with the blood flow into the inter-fiber space (IFS). Although thrombi do deposit in the IFS, they have minimal affect on the blood flow and filtrate flux due to the three-dimensional system of interconnected hydrodynamic flow channels in the IFS. Microscopic examination of sections of the fiber bundle showed that deposited thrombi have dimensions about the size of the gaps between the hollow fibers and remain isolated from each other. A simple mathematical model is developed to describe the effect of thrombus deposition on the fluid flow that accounts for the enhanced performance arising from the interconnected flow. The hydrodynamic advantage of outside-in HF decreases at low anticoagulant concentration due to the instability in the blood and the very high volume fraction of thrombi that deposit in the entrance zone of the filter. These results clearly demonstrate the significant potential advantages of using outside-in hemofiltration for long-term renal replacement therapy.
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U2 - 10.1016/j.memsci.2014.01.069
DO - 10.1016/j.memsci.2014.01.069
M3 - Article
C2 - 25067872
AN - SCOPUS:84899684013
SN - 0376-7388
VL - 464
SP - 173
EP - 178
JO - Journal of Membrane Science
JF - Journal of Membrane Science
ER -