Post on 22-Jul-2020
EA Hwang, SB Park, HC Kim
Clinical experience with acetate-free dialysate
in chronic hemodialysis patients
Department of Internal Medicine, Keimyung University School of Medicine, Kidney Institute
Dialysis solutions are usually prepared from concentrates
and contain either acetate or bicarbonate as a buffer.
Recently, bicarbonate containing concentrates have been
introduced.
- more physiological
- better control of acidosis
- fewer complications and side-effects during dialysis
Drawback of Bicarbonate dialysis fluid;
solute precipitation
provide as a solid or liquid separately
include small amounts of acetic or lactic acid
with the calcium and magnesium
( lowers the pH of the final solution to 7-7.4,
ensures solubility of the salts)
Acetic Acid in Dialysis Fluid
Metabolized to acetyl coenzyme A
in peripheral tissues and the liver
capture a single hydrogen ion
release the hydrogen ion into
the respiratory tract by decarboxylation
Small amount: 2-8mEq/L in dialysis fluid
(Plasma conc of acetate <100umol/L)
Significant transfer of acetate to the patient
Patients are subjected to a certain amount
of acetate loading during standard HD
and on-line HDF.
Acetic Acid in Dialysis Fluid
Negative Effects of Acetate:
Noris M et al. AJKD 32:115-124, 1998Veech RL, Kidney Int 34:587-597, 1988
- Hypotension
- Myocardial depression
- Hypoxemia
- Abnomal lipid metabolism
- Oxydative stress
- Acid-base unbalance
- Glucidic intolerance
- Hyperphosphatemia
- Ectopic calcifications
No difference between pre-AD, pre-BD
and pre-AFB
AFB did not increase the stimulatory
effect of uremic plasma on endothelial
NO synthesis
Ahmad S. et al: AJKD 35:493, 2000
Advanced Renal TechnologiesFMC North America
920 Winter Street, Waltham, MA 02451 USA
Citrate as Acidifier in Dialysate
Physiologic anion (citric acid cycle)
Long history of use in medicine as anticoagulant
Dissolves easily, stable in solution
Citrate has ability to chelate calcium ions
Rapidly metabolized to bicarbonate (liver, muscle)
Citrate is not converted to acetyl-CoA
55% Heparin reduction using citrate dialysate
ASN’s 39th Annual Renal Week Meeting, Nov. 2006
Kossmann R.J., Callan R., Ahmad S.
2mo2mo
JASN 2009
Local anticoagulation effect of citrate
Prevents the blood cell activation
Significant increase in eKt/Vurea
Significant decline in predialysis conc
of Urea, Cr, PO4, β2-microglobulin
Citrate Dialysate Composition
(mEq/L)Artston® (KRD, Busan, Korea)
Composition Artston A2 Artston G1Na 140.0 140.0
K 2.0 2.0
Cl 114 114
Ca 2.5 2.5
Mg 1.0 1.0
HCO3 30.0 30.0
Citrate 2.0 2.0
Glucose (g/L) 0 1.0
Clinical application of Acetate – Free dialysate
(Artston A)
Preliminary study
6 patients
Safety
Feasibility
Total number of treatment 21Machine
Phoenix ® (Gambro) / Formula® (Bellco) 8 / 13Membrane
Polyflux 14L® (Gambro) / Diapes 512® (Bellco) 8 / 13Dialysate
Artston A2® (KRD) / Artston G1® (KRD) 20 / 1Anticoagulation
With heparin primingWithout heparin priming
(heparin-free)3
18Saline infusion
0123
21162
Dialysis treatment
Hemodynamic changes during treatment
Parameters ResultsHemoglobin (g/d) 8.9±0.6BUN (mg/dL) 47.9±10.3S. creatinine (mg/dL) 7.8±1.9Electrolyte Na+
(mEq/L) K+
Cl-
137.6±4.44.7±0.6
99.0±4.4
PO4 (mg/dL) 5.3±1.2
Mg (mg/dL) 2.5±0.4Total calcium (mg/dL) 8.7±0.6ionized calcium (mEq/L) 2.2±0.14Arterial pH
HCO3- (mmol/L)
7.39±0.0321.1±1.9
Laboratory findings
Parameters Pre dialysis post dialysis p
Total calcium 8.7±0.6 8.2±0.4 0.001
Ionized calcium 2.2±0.14 2.1±0.10 0.000
PT 13.3±1.5 12.0±2.5 0.014
aPTT 34.8±3.6 35.3±2.3 NS
Changes of coagulation factor
1. Residual coagulation in dialyzerGrade I < 5%Grade II < 25%Grade III < 50%Grade IV > 50%
2. Clotting in drip chamberGrade 1 no visible clotsGrade 2 mild clotsGrade 3 moderate clotsGrade 4 unable to continue HD
3. Hemostatic compression time( needle puncture site, end of dialysis)
Evaluation of clotting
Parameters No. of episode(n=21)
Percentage
Coagulation of dialyzer GIGIIGIIIGIV
13521
61.923.89.54.8
Clotting in venous chamber GIGIIGIIIGIV
41133
52.419.014.314.3
Hemostatic compression time(needle puncture site, end of dialysis )
17.8±11.8 min
Clotting of extracorporeal system
Adverse events No. of Episode(n=21)
Percentage
Intradialytic hypotensionwith symptomwithout symptom
03
014.3
Intradialytic hypertensionwith symptomwithout symptom
06
028.6
Headache 0 0Tingling sensation 0 0Itching sensation 0 0Muscle cramp 0 0Nausea /vomiting 0 0Chest pain 0 0
Adverse event during citrate dialysis
15 patients
Dose reduction of heparin
Prospective study
CHD AFHD CHD
0 4 weeks 16 weeks 20 weeks
Study Flow
Composition of dialysate
Na+ K+ Cl- Ca2+ Mg2+ HCO3- acetate Citrate Glucose
(g/L)
Artston® 140.0 2.0 114 2.5 1.0 30.0 - 2.0 0
Bicart® 140.0 2.0 109.5 3.5 1.0 34.0 3.0 - 0
(mEq/L)
Technical parameters
Parameters CHD AFHD
Dialyzer Polyflux 14L (1.4m2)/ Bellco BLS 512(1.2m2)
Dialysate Bicart® Artstone®
Qb 200-250ml/min
Qd 500ml/min
Heparin
Priming 2000 IU 2000 IU
Maintenance 600 IU/Hr None
Dose of heparin during hemodialysis
Dos
e of
hep
arin
/ses
sion
(IU
)
P<0.000
33.8% reduction
Body weight change and fluid removalB
ody
wei
ght (
kg)
Pre-treatmentPost-treatmentFluid removal
Comparison of Laboratory findings: CHD vs. AFHD
Parameters CHD AFHD p
Hb 10.0±0.9 9.7±1.9 ns
K+ 5.1±1.2 4.9±0.9 ns
HCO3- 21.5±3.2 20.7±3.1 ns
BUN 55.8±21.7 60.4±25.2 ns
S-Cr 10.7±3.3 10.4±3.1 ns
S-Alb 3.7±0.3 3.7±0.3 ns
t-Chol 151.7±28.9 144.8±36.2 ns
PO4 5.6±2.1 6.3±2.4 ns
iPTH 171.3±185.5 221.9±210.3 ns
Comparison of Laboratory findings: CHD vs. AFHD
Parameters CHD AFHD p
t-Calcium 8.7±0.5 8.6±0.6 ns
ionized calcium 2.3±0.2 2.3±0.2 ns
β2-M 24.8±5.9 28.3±8.9 ns
Myoglobulin 310.6±142.8 367.8±269.8 ns
Kt/Vurea 1.1±0.3 1.2±0.3 ns
URR 59.8±8.2 61.2±8.3 ns
Acetate-free dialysate is safe and can be used
without associated technical and clinical problems
Use of acetate-free dialysate permitted a 33.8%
reduction in the dose of heparin during hemodialysis
Acetate free dialysate can be used safely in a
chronic dialysis setting without clinical problems and
also the use of citrate instead of acetate in
bicarbonate dialysate can reduce dosage of
heparin used during hemodialysis treatment. In the
future, long-term, prospective studies are needed to
assess clinical outcome of this new dialysate.
Thank you for your attention