22 - budurea - utilitatea.indd - Clujul Medical
22 - budurea - utilitatea.indd - Clujul Medical
22 - budurea - utilitatea.indd - Clujul Medical
You also want an ePaper? Increase the reach of your titles
YUMPU automatically turns print PDFs into web optimized ePapers that Google loves.
Patologie renală<br />
măsurării ultrasonografice a DVCI în stabilirea statusului<br />
euvolemic a pacienţilor hemodializaţi cronic, şi implicit<br />
în controlul tensional mai bun şi prevenirea complicaţiilor<br />
cardiovasculare pe termen lung.<br />
Concluzii<br />
Măsurarea ultrasonografică a DVCI este o metodă<br />
uşor de utilizat pentru estimarea statusului volemic<br />
intravascular şi aprecierea greutăţii ideale la pacienţii<br />
hemodializaţi cronic.<br />
S-au găsit diferenţe între determinarea statusului<br />
volemic clinic şi cel bazat pe măsurarea VCI. Considerăm<br />
util ca greutatea ideală a pacienţilor hemodializaţi cronic<br />
să fie adaptată prin măsurarea ultrasonografică periodică<br />
a DVCI.<br />
Bibliografie<br />
1. Brennan JM, Ronan A, Goonewardena S et al. Handcarried<br />
ultrasound measurement of the inferior vena cava for assessment<br />
of intravascular volume status in the outpatient hemodialysis<br />
clinic. Clin J Am Soc Nephrol 2006 Jul; 1(4):749-753<br />
2. Katzarski KS, Nisell J, Randmaa I, Danielsson A, FreyschussU,<br />
Bergstrom J. A critical evaluation of ultrasound measurement<br />
of inferior vena cava diameter in assessing dry weight in<br />
normotensive and hypertensive hemodialysis patients. Am J<br />
Kidney Dis 1997; 30: 459–465<br />
3. Chang ST, Chen CC, Chen CL, Cheng HW, Chung CM,<br />
Yang TY. Changes of the cardiac architectures and functions<br />
for chronic hemodialysis patients with dry weight determined by<br />
echocardiography. Blood Purif 2004; <strong>22</strong>: 351–359<br />
4. Chang ST, Chen CL, Chen CC, Hung KC. Clinical events<br />
occurrence and the changes of quality of life in chronic<br />
haemodialysis patients with dry weight determined by<br />
echocardiographic method. Int J Clin Pract 2004; 58: 1101–1107<br />
5. Chang ST, Chen CL, Chen CC, Lin FC, Wu D. Enhancement of<br />
quality of life with adjustment of dry weight by echocardiographic<br />
measurement of inferior vena cava diameter in patients undergoing<br />
chronic hemodialysis. Nephron Clin Pract 2004; 97: 90–97<br />
6. Hirayama S, Ando Y, Sudo Y, Asano Y. Improvement of cardiac<br />
function by dry weight optimization based on interdialysis<br />
inferior vena caval diameter. ASAIO J 2002 May-Jun; 48(3): 320-<br />
325<br />
7. Kalantar-Zadeh K, Regidor DL, Kovesdy CP et al. Fluid<br />
retention is associated with cardiovascular mortality in patients<br />
undergoing long-term hemodialysis. Circulation 2009 Feb;<br />
119(5): 671- 679<br />
8. Goldfarb-Rumyantzev AS, Chelamcharla M, Bray BE et al.<br />
Volume indicators and left ventricular mass during aggressive<br />
volume management in patients on thrice- weekly hemodialysis.<br />
Nephron Clin Pract 2009; 113: 270-280<br />
9. Agarwal R, Andersen MJ, Pratt JH. On the importance of pedal<br />
edema in hemodialysis patients. Clin J Am Soc Nephrol 2008;<br />
3:153–158<br />
10. Kayatas M, Ozdemir N, Muderrisoglu H, Ulucam M, Turan<br />
M, Hizel N. Comparison of the non-invazive methods estimating<br />
dry weight in hemodialysis patients. Ren Fail 2006; 28(3): 217-<br />
<strong>22</strong>2<br />
11. Lee SW, Kim DY, Lee SH et al. New method of predicting<br />
dry weight using bioelectrical impedance analysis in hemodialysis<br />
patients. Nephrology 2009 Dec; 14(8): 705-711<br />
12. Tetsuka T, Ando Y, Ono S, Asano Y. Change in inferior<br />
vena caval diameter detected by ultrasonography during and after<br />
hemodialysis. ASAIO J 1995 Jan-Mar; 41(1): 105-110<br />
13. Yanagiba S, Ando Y, Kusano E, Asano Y. Utility of inferior<br />
vena cava diameter as a marker of dry weight in nonoliguric<br />
patients. ASAIO J 2001 Sep-Oct; 47(5): 528-532<br />
14. Katzarski KS, Nisell J, Randmaa I, Danielsson A, Freyschuss<br />
U, Bergstrom J. A critical evaluation of ultrasound measurement<br />
of inferior vena cava diameter in assessing dry weight in<br />
normotensive and hypertensive hemodialysis patients. Am J<br />
Kidney Dis 1997; 30:459–465<br />
15. Ozkahya M, Toz H, Qzerkan F, Duman S, Ok E, Basci A,<br />
Mees EJ. Impact of volume control on left ventricular hypertrophy<br />
in dialysis patients. J Nephrol 2002; 15:655–660<br />
16. Davenport A, Cox C, Thuraisingham R. Achieving blood<br />
pressure targets during dialysis improves control but increases<br />
intradialytic hypotension. Kidney Int 2008; 73:759–764<br />
17. Agarwal R, Alborzi P, Satyan S, Light LT. Dry-weight<br />
reduction in hypertensive hemodialysis patients. Hypertension<br />
2009; 53: 500-507<br />
18. Luik AJ, Charra B, Katzarski K et al. Blood pressure control<br />
and hemodynamic changes in patients on long time dialysis<br />
treatment. Blood Purif 1998; 16:197–209<br />
19. Katzarski KS, Charra B, Luik AJ et al. Fluid state and<br />
blood pressure control in patients treated with long and short<br />
haemodialysis. Nephrol Dial Transplant 1999; 14:369–375<br />
20. Wabel P, Moissl U, Chamney P, Jirka T et al. Towards<br />
improved cardiovascular management: the necessity of combining<br />
blood pressure and fluid overload. Nephrol Dial Transplant 2008;<br />
23:2965–2971<br />
668<br />
<strong>Clujul</strong> <strong>Medical</strong> 2010 Vol. 83 - nr. 4