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Items: 1 to 20 of 131

1.

Establishment of a blood purification system for renal failure rats using small-size dialyzer membranes.

Yorimitsu D, Satoh M, Koremoto M, Haruna Y, Nagasu H, Kuwabara A, Sasaki T, Kashihara N.

Ther Apher Dial. 2012 Dec;16(6):566-72. doi: 10.1111/j.1744-9987.2012.01091.x. Epub 2012 Aug 7.

PMID:
23190517
2.

Dialyzer clearances and mass transfer-area coefficients for small solutes at low dialysate flow rates.

Leypoldt JK, Kamerath CD, Gilson JF, Friederichs G.

ASAIO J. 2006 Jul-Aug;52(4):404-9.

PMID:
16883120
3.

Impact of blood and dialysate flow and surface on performance of new polysulfone hemodialysis dialyzers.

Mandolfo S, Malberti F, Imbasciati E, Cogliati P, Gauly A.

Int J Artif Organs. 2003 Feb;26(2):113-20.

PMID:
12653344
4.

Effects of novel manufacturing technology on blood and dialysate flow distribution in a new low flux "alpha Polysulfone" hemodialyzer.

Gastaldon F, Brendolan A, Crepaldi C, Frisone P, Zamboni S, d'Intini V, Poulin S, Hector R, Granziero A, Martins K, Gellert R, Inguaggiato P, Ronco C.

Int J Artif Organs. 2003 Feb;26(2):105-12.

PMID:
12653343
5.

Relationship between effective ionic dialysance and in vivo urea clearance during hemodialysis.

Lindsay RM, Bene B, Goux N, Heidenheim AP, Landgren C, Sternby J.

Am J Kidney Dis. 2001 Sep;38(3):565-74.

PMID:
11532690
6.

In vivo effects of dialysate flow rate on Kt/V in maintenance hemodialysis patients.

Hauk M, Kuhlmann MK, Riegel W, Köhler H.

Am J Kidney Dis. 2000 Jan;35(1):105-11.

PMID:
10620551
7.
8.

Hemodialysis blood access flow rates can be estimated accurately from on-line dialysate urea measurements and the knowledge of effective dialyzer urea clearance.

Lindsay RM, Sternby J, Olde B, Persson R, Thatcher ME, Sargent K.

Clin J Am Soc Nephrol. 2006 Sep;1(5):960-4. Epub 2006 Jul 6.

10.

Optimizing dialysis dose by increasing blood flow rate in patients with reduced vascular-access flow rate.

Hassell DR, van der Sande FM, Kooman JP, Tordoir JP, Leunissen KM.

Am J Kidney Dis. 2001 Nov;38(5):948-55.

PMID:
11684546
11.
12.

Improved preservation of residual renal function in chronic hemodialysis patients using polysulfone dialyzers.

McCarthy JT, Jenson BM, Squillace DP, Williams AW.

Am J Kidney Dis. 1997 Apr;29(4):576-83.

PMID:
9100048
13.

Dialyzer fiber bundle volume and kinetics of solute removal in continuous venovenous hemodialysis.

Liangos O, Sakiewicz PG, Kanagasundaram NS, Hammel J, Pajouh M, Seifert T, Paganini EP.

Am J Kidney Dis. 2002 May;39(5):1047-53.

PMID:
11979349
14.
15.

A model to predict optimal dialysate flow.

Alayoud A, Benyahia M, Montassir D, Hamzi A, Zajjari Y, Bahadi A, El Kabbaj D, Maoujoud O, Aatif T, Hassani K, Oualim Z.

Ther Apher Dial. 2012 Apr;16(2):152-8. doi: 10.1111/j.1744-9987.2011.01040.x. Epub 2012 Feb 2.

PMID:
22458394
16.

Increasing dialysate flow and dialyzer mass transfer area coefficient to increase the clearance of protein-bound solutes.

Meyer TW, Leeper EC, Bartlett DW, Depner TA, Lit YZ, Robertson CR, Hostetter TH.

J Am Soc Nephrol. 2004 Jul;15(7):1927-35.

17.

A new method of post-dialysis blood urea sampling: the 'stop dialysate flow' method.

Geddes CC, Traynor J, Walbaum D, Fox JG, Mactier RA.

Nephrol Dial Transplant. 2000 Apr;15(4):517-23.

PMID:
10727547
18.

High dialysate flow rate continuous arteriovenous hemodialysis: a new approach for the treatment of acute renal failure and tumor lysis syndrome.

Pichette V, Leblanc M, Bonnardeaux A, Ouimet D, Geadah D, Cardinal J.

Am J Kidney Dis. 1994 Apr;23(4):591-6.

PMID:
8154498
19.
20.

Dialyzer performance in the HEMO Study: in vivo K0A and true blood flow determined from a model of cross-dialyzer urea extraction.

Depner TA, Greene T, Daugirdas JT, Cheung AK, Gotch FA, Leypoldt JK.

ASAIO J. 2004 Jan-Feb;50(1):85-93.

PMID:
14763497

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