Hubungan Modifikasi Kadar Natrium Dialisat Dengan Phase Angle Pada Pasien Hemodialisis Reguler
DAFTAR PUSTAKA
1. Dunlop JL, Vandals AC, Rashme DZ, et al. 2013. Rationale and design
of the Natrium Lowering In Dialysate (SoLID) trial: a randomised
controlled trial of low versus standard dialysate Natrium concentration
during hemodialysis for regression of left ventricular mass. BMC
Nephrology, 14:149
2. URDS. 2010. The United Renal Data System. Overall hospitalization
and mortality. AM J Kidney Dis, 55(1):S1-A7.
3. Saxena A, Sharma RK. 2008. Role of Bioelectical Impedance Analysis
(BIA) in Renal Disease. Indian J Nephrol, 15:194-7.
4. Oliveira G, Santos AP, Mello ED. 2012. Bioelectrical Impedance Phase
angle: utility in clinical practice. International Journal of Nutrition,
5(3): 123-7.
5. Bernard C. 2007. Fluid balance, dry weight and blood pressure in
dialysis. Hemodialysis International, 11;21-31.
6. Chertow GM, Jacobs DO, Lazarus JM, Lew NL, Lowrie EG. 1997.
Phase Angle Predicts Survival in Hemodialysis Patients. National
Kidney Foundation, 7(4): 204-7.
7. Ozturk S, Taymes D, Bahat G, et al. 2008. The Influence of low
dialysate sodium and lucose concentration on volume distributions in
body compartments after haemodialysis: bioimpedance analysis study.
Nephrology Dialysis Transplantation, 23: 3629-3634.
8. Suwita K. 2009. Penyakit Ginjal Kronik. Dalam: Sudoyo AW,
Setiyohadi B, Alwi I, Simadibrata M, Setiati S (eds). Buku ajar ilmu
penyakit dalam jilid I. Jakarta: Pusat Penerbitan Departemen Ilmu
Penyakit Dalam FKUI, pp: 1035-7.
9. Suharjono, Susalit E. 2009. Hemodialisis. Dalam: Sudoyo AW,
Setiyohadi B, Alwi I, Simadibrata M, Setiati S (eds). Buku ajar ilmu
penyakit dalam jilid I. Jakarta: Pusat Penerbitan Departemen Ilmu
Penyakit Dalam FKUI, pp: 10502.
Universitas Sumatera Utara
10. Roesli R MA. 2009. Terapi Pengganti Ginjal Berkesinambungan
(CRRT). Dalam: Sudoyo, Aru W., Bambang Setiyohadi, Idrus A., et al.
Buku Ajar Ilmu Penyakit Dalam. Edisi V. Jakarta: Pusat Penerbitan
Departemen Ilmu Penyakit Dalam FKUI, 596-9.
11. Daugirdas JT, Blake PG, Ing TS. 2007. Physiologic Principles and Urea
Kinetic Modelling. In: Daugirdas JT. Handbook of Dialysis. 4th edition.
Chicago: Lippincott Williams & Wilkins, 40-77.
12. Sam RI, Vaseemuddin, Leong WH, et al. 2006. Composition and
clinical use of hemodialysates. Hemodialysis International 2006; 10:
15–28.
13. Manlucu J, Gallo K, Heidenheim PA, Lindsay RM: Lowering
postdialysis plasma sodium (conductivity) to increase sodium removal
in volume expanded hemodialysis patients: a pilot study using a
biofeedback software system. Am J Kidney Dis 2010, 56(1):69–76.
14. Ursula GK. 2004. Bioelectical Impedance Analysis – part I: review of
principles and methods. Clinical Nutrition, 23: 1226-1243.
15. Liedtke R. 1997. Principles of Bioelectrical Impedance Analysis. RJL
Systems
Internet
Site.
Diakses
10
November
2013.
www.rjlsystems.com/research/bia-principles.html
16. Dumler FA, Low Bioimpedance Phase Angle Predicts A Higher
Mortality and Lower Nutritional Status in Chronic Dialysis Patients. J.
Phys 2010; 224.
17. Maggiore Q, Nigrelli S, Ciccarelli C, et al. 1996. Nutritional and
prognostic correlates of bioimpedance indexes in hemodialysis patients.
Kidney International, 50(6): 2013-8.
18. Steiber AL, Leon JB, Secker D, et al, 2007. Multicenter study of the
validity and reliability of subjective global assessment in the
hemodialysis population. J Ren Nutr;17:336–42.
19. Davenport A, Cox C, Thuraisingham R. The importance of dialysate
Natrium concentration in determining interdialytic weight gains in
Universitas Sumatera Utara
chronic hemodialysis patients: The PanThames Renal Audit. The
International Journal of Artificial Organs, 2008 Vol. 31 no. 5 pp. 411417.
20. Balbino V, Silva O. Nutritionale Statement of Chronic Patients, A New
Aproach on Electrical Bioempedance. Medicina (Ribeirao Petro),
2012; 45(1); 1-4
Universitas Sumatera Utara
1. Dunlop JL, Vandals AC, Rashme DZ, et al. 2013. Rationale and design
of the Natrium Lowering In Dialysate (SoLID) trial: a randomised
controlled trial of low versus standard dialysate Natrium concentration
during hemodialysis for regression of left ventricular mass. BMC
Nephrology, 14:149
2. URDS. 2010. The United Renal Data System. Overall hospitalization
and mortality. AM J Kidney Dis, 55(1):S1-A7.
3. Saxena A, Sharma RK. 2008. Role of Bioelectical Impedance Analysis
(BIA) in Renal Disease. Indian J Nephrol, 15:194-7.
4. Oliveira G, Santos AP, Mello ED. 2012. Bioelectrical Impedance Phase
angle: utility in clinical practice. International Journal of Nutrition,
5(3): 123-7.
5. Bernard C. 2007. Fluid balance, dry weight and blood pressure in
dialysis. Hemodialysis International, 11;21-31.
6. Chertow GM, Jacobs DO, Lazarus JM, Lew NL, Lowrie EG. 1997.
Phase Angle Predicts Survival in Hemodialysis Patients. National
Kidney Foundation, 7(4): 204-7.
7. Ozturk S, Taymes D, Bahat G, et al. 2008. The Influence of low
dialysate sodium and lucose concentration on volume distributions in
body compartments after haemodialysis: bioimpedance analysis study.
Nephrology Dialysis Transplantation, 23: 3629-3634.
8. Suwita K. 2009. Penyakit Ginjal Kronik. Dalam: Sudoyo AW,
Setiyohadi B, Alwi I, Simadibrata M, Setiati S (eds). Buku ajar ilmu
penyakit dalam jilid I. Jakarta: Pusat Penerbitan Departemen Ilmu
Penyakit Dalam FKUI, pp: 1035-7.
9. Suharjono, Susalit E. 2009. Hemodialisis. Dalam: Sudoyo AW,
Setiyohadi B, Alwi I, Simadibrata M, Setiati S (eds). Buku ajar ilmu
penyakit dalam jilid I. Jakarta: Pusat Penerbitan Departemen Ilmu
Penyakit Dalam FKUI, pp: 10502.
Universitas Sumatera Utara
10. Roesli R MA. 2009. Terapi Pengganti Ginjal Berkesinambungan
(CRRT). Dalam: Sudoyo, Aru W., Bambang Setiyohadi, Idrus A., et al.
Buku Ajar Ilmu Penyakit Dalam. Edisi V. Jakarta: Pusat Penerbitan
Departemen Ilmu Penyakit Dalam FKUI, 596-9.
11. Daugirdas JT, Blake PG, Ing TS. 2007. Physiologic Principles and Urea
Kinetic Modelling. In: Daugirdas JT. Handbook of Dialysis. 4th edition.
Chicago: Lippincott Williams & Wilkins, 40-77.
12. Sam RI, Vaseemuddin, Leong WH, et al. 2006. Composition and
clinical use of hemodialysates. Hemodialysis International 2006; 10:
15–28.
13. Manlucu J, Gallo K, Heidenheim PA, Lindsay RM: Lowering
postdialysis plasma sodium (conductivity) to increase sodium removal
in volume expanded hemodialysis patients: a pilot study using a
biofeedback software system. Am J Kidney Dis 2010, 56(1):69–76.
14. Ursula GK. 2004. Bioelectical Impedance Analysis – part I: review of
principles and methods. Clinical Nutrition, 23: 1226-1243.
15. Liedtke R. 1997. Principles of Bioelectrical Impedance Analysis. RJL
Systems
Internet
Site.
Diakses
10
November
2013.
www.rjlsystems.com/research/bia-principles.html
16. Dumler FA, Low Bioimpedance Phase Angle Predicts A Higher
Mortality and Lower Nutritional Status in Chronic Dialysis Patients. J.
Phys 2010; 224.
17. Maggiore Q, Nigrelli S, Ciccarelli C, et al. 1996. Nutritional and
prognostic correlates of bioimpedance indexes in hemodialysis patients.
Kidney International, 50(6): 2013-8.
18. Steiber AL, Leon JB, Secker D, et al, 2007. Multicenter study of the
validity and reliability of subjective global assessment in the
hemodialysis population. J Ren Nutr;17:336–42.
19. Davenport A, Cox C, Thuraisingham R. The importance of dialysate
Natrium concentration in determining interdialytic weight gains in
Universitas Sumatera Utara
chronic hemodialysis patients: The PanThames Renal Audit. The
International Journal of Artificial Organs, 2008 Vol. 31 no. 5 pp. 411417.
20. Balbino V, Silva O. Nutritionale Statement of Chronic Patients, A New
Aproach on Electrical Bioempedance. Medicina (Ribeirao Petro),
2012; 45(1); 1-4
Universitas Sumatera Utara