Page 723 - Fluid, Electrolyte, and Acid-Base Disorders in Small Animal Practice
P. 723

710        SPECIAL THERAPY



             18. Bhimani JP, Ouseph R, Ward RA. Effect of increasing  39. Cowgill LD, Maretzki CH. CVT Update: Veterinary
                 dialysate flow rate on diffusive mass transfer of urea, phos-  Applications of Hemodialysis. In: Bonagura JD, editor.
                 phate  and  {beta}2-microglobulin  during  clinical  Kirk’s  Current  Veterinary  Therapy  XII:  Small
                 haemodialysis. Nephrol Dial Transplant 2010.        Animal Practice. Philadelphia: W. B. Saunders; 1995.
             19. Blake PG. Adequacy of dialysis revisited. Kidney Int  p. 975–7.
                 2003;63:1587–99.                                 40. Daugirdas JT. The post:pre-dialysis plasma urea nitrogen
             20. Borkan  SC.  Extracorporeal  therapies  for  acute  ratio to estimate K.t/V and NPCR: mathematical
                 intoxications. Crit Care Clin 2002;18(2):393–420.   modeling. Int J Artif Organs 1989;12:411–9.
             21. Boure T, Vanholder R. Biochemical and clinical evidence  41. Daugirdas JT. Second generation logarithmic estimates of
                 for uremic toxicity. Artif Organs 2004;28:248–53.   single-pool variable volume Kt/V: an analysis of error.
             22. Brummelhuis WJ, van Geest RJ, van Schelven LJ,      J Am Soc Nephrol 1993;4(5):1205–13.
                 Boer WH. Sodium profiling, but not cool dialysate,  42. Daugirdas JT, Depner TA, Gotch FA, Greene T,
                 increases the absolute plasma refill rate during hemodialy-  Keshaviah P, Levin NW, et al. Comparison of methods
                 sis. ASAIO J 2009;55(6):575–80.                     to predict equilibrated Kt/V in the HEMO Pilot Study.
             23. Brunet P, Dou L, Cerini C, et al. Protein-bound     Kidney Int 1997;52(5):1395–405.
                 uremic retention solutes. Adv Ren Replace Ther   43. Daugirdas JT, Levin NW, Kotanko P, Depner TA,
                 2003;10:310–20.                                     Kuhlmann MK, Chertow GM, et al. Comparison of pro-
             24. Carl DE, Feldman G. Estimating dialysis adequacy using  posed alternative methods for rescaling dialysis dose: rest-
                 ionic dialysance. Ren Fail 2008;30(5):491–8.        ing energy expenditure, high metabolic rate organ mass,
             25. Casino FG, Lopez T. The equivalent renal urea clearance:  liver size, and body surface area. Semin Dial 2008;21
                 a new parameter to assess dialysis dose. Nephrol Dial  (5):377–84.
                 Transplant 1996;11:1574–81.                      44. Debowska M, Lindholm B, Waniewski J. Adequacy
             26. Casino FG, Marshall MR. Simple and accurate quantifica-  indices for dialysis in acute renal failure: kinetic modeling.
                 tion of dialysis in acute renal failure patients during either  Artif Organs 2010;34(5):412–9.
                 urea non-steady state or treatment with irregular or  45. De Nicola L, Bellizzi V, Minutolo R, et al. Effect of dialy-
                 continuous  schedules.  Nephrol  Dial  Transplant   sate sodium concentration on interdialytic increase of
                 2004;19:1454–66.                                    potassium. J Am Soc Nephrol 2000;11:2337–43.
             27. ChandyT,SharmaCP.Activatedcharcoalmicrocapsulesand  46. Depner TA. Benefits of more frequent dialysis: lower TAC
                their applications. J Biomater Appl 1998;13(2):128–57.  at  the  same  Kt/V.  Nephrol  Dial  Transplant
             28. Charra B, Calemard E, Ruffet M, et al. Survival as an index  1998;13:20–4.
                 of adequacy of dialysis. Kidney Int 1992;41:1286–91.  47. Depner TA. Hemodialysis adequacy: basic essentials and
             29. Chesterton LJ, Priestman WS, Lambie SH, Fielding CA,  practical points for the nephrologist in training. Hemodial
                 Taal MW, Fluck RJ, et al. Continuous online monitoring  Int 2005;9(3):241–54.
                 of ionic dialysance allows modification of delivered hemodi-  48. Depner TA. Prescribing hemodialysis: a guide to urea
                 alysis treatment time. Hemodial Int 2006;10(4):346–50.  modeling. Boston: Kluwer Academic Publishers; 1990.
             30. Chesterton LJ, Selby NM, Burton JO, McIntyre CW.  49. Depner TA. Uremic toxicity: urea and beyond. Semin Dial
                 Cool dialysate reduces asymptomatic intradialytic hypo-  2001;14:246–51.
                 tension and increases baroreflex variability. Hemodial  50. Depner TA, Bhat A. Quantifying daily hemodialysis.
                 Int 2009;13(2):189–96.                              Semin Dial 2004;17:79–84.
             31. Chow MT, Di Silvestro VA, Yung CY, et al. Treatment of  51. Depner TA, Ing TS. Toxic fluid flux? Am J Kidney Dis
                 acute methanol intoxication with hemodialysis using an  2010;56(1):1–4.
                 ethanol-enriched, bicarbonate-based dialysate. Am J  52. Depner TA, Gotch FA, Port FK, et al. How will the results
                 Kidney Dis 1997;30:568–70.                          of the HEMO study impact dialysis practice. Semin Dial
             32. Coli L, Ursino M, Donati G, et al. Clinical application of  2003;16:8–21.
                 sodium profiling in the treatment of intradialytic hypoten-  53. Di Filippo S, Manzoni C, Andrulli S, et al. How to deter-
                 sion. Int J Artif Organs 2003;26:715–22.            mine ionic dialysance for the online assessment of deliv-
             33. Cooper BA, Aslani A, Ryan M, et al. Comparing different  ered dialysis dose. Kidney Int 2001;59:774–82.
                 methods of assessing body composition in end-stage renal  54. Di Filippo S, Manzoni C, Andrulli S, et al. Ionic dialysance
                 failure. Kidney Int 2000;58:408–16.                 allows an adequate estimate of urea distribution volume in
             34. Cowgill LD, Francey T. Hemodialysis. In: DiBartola SP,  hemodialysis patients. Kidney Int 2004;66:786–91.
                 editor. Fluid therapy in small animal practice. St Louis:  55. Eloot S, Van Biesen W, Dhondt A, Van de Wynkele H,
                 Elsevier; 2006. p. 650–77.                          Glorieux G, Verdonck P, et al. Impact of hemodialysis
             35. Cowgill LD, Francey T. Acute uremia. In: Ettinger SJ,  duration on the removal of uremic retention solutes.
                 Feldman EC, editors. Textbook of veterinary internal  Kidney Int 2008;73(6):765–70.
                 medicine: diseases of the dog and cat. Philadelphia: WB  56. Eknoyan G, Beck GJ, Cheung AK, et al. Effect of dialysis
                 Saunders; 2004. p. 1731–51.                         dose and membrane flux in maintenance hemodialysis.
             36. Cowgill LD, Langston CE. Acute Kidney Injury. In:   N Engl J Med 2002;347:2010–9.
                 Bartges J, Polzin D, editors. Nephrology and Urology  57. Eknoyan G. The wonderful apparatus of John Jacob Abel
                 of Small Animals. Wiley-Blackwell; 2011 (in press).  called the “artificial kidney” Semin Dial 2009;22:287–96.
             37. Cowgill LD, Langston CE. History of hemodialysis in  58. Feriani M. Behaviour of acid-base control with different
                 dogs and companion animals. In: Ing TS, Rahman MA,  dialysis schedules. Nephrol Dial Transplant 1998;13
                 Kjellstrand CM, editors. Dialysis: history, development  (Suppl. 6):62–5.
                 and promise. Singapore: World Scientific Publishing  59. Fischer JR, Pantaleo V, Francey T, et al. Veterinary hemo-
                 Company; 2010 (in press).                           dialysis: advances in management and technology. Vet
             38. Cowgill LD, Langston CE. Role of hemodialysis in the  Clin North Am Small Anim Pract 2004;34:935–67, vi–vii.
                 management of dogs and cats with renal failure. Vet Clin  60. Flanigan MJ. Role of sodium in hemodialysis. Kidney Int
                 North Am Small Anim Pract 1996;26:1347–78.          Suppl 2000;76:S72–S78.
   718   719   720   721   722   723   724   725   726   727   728