fluid management with crrt...maximum fluid removal rate per hour dictated by machine limits (2 -12...
TRANSCRIPT
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Ravindra L. Mehta MB,BS., MD., DM, FACP, FRCPUniversity of California San Diego
Fluid Management with CRRT
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Fluid Management with CRRT
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Maintaining the Circuit
Enabling solute clearances and achieving homeostasis
Volume control and balance with fluid regulation
Monitoring for and preventing complications
Practical Issues with Fluid Management for CRRT
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Hydraulic Circuit for PrismaFlex: Sites for Fluid Administration
External Pumps• Circuit related
• Non-Circuit
Integrated Pumps
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Circuit related
Anticoagulant Saline, Heparin, Citrate, Other
Substitution fluid
Pre-filter Dilution
Post-FilterReplacement
Dialysate
Non-Circuit
IV
Calcium (if Citrate)
MaintenanceElectrolytes and salts, Base, Blood products; Medications, nutrition
NG or PEG
Fluid Delivery in CRRT
Amount and Composition of each of these fluids can be varied to achieve homeostasis
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Maintaining the CRRT circuit is crucial for delivering CRRT effectively• Catheter• Filter• Lines
CRRT Circuit
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Catheter characteristics Placement positionDysfunction Clots Kinks Infection Fibrin sheath
Maintaining the Circuit: Access Issues
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KDIGO Guidelines for Vascular Access
• 5.4.1 – Use a non-tunneled temp HD catheter in AKI.
• 5.4.2 – Preferred Insertion Sites: RIJ – Femoral – LIJ –SCRIJ 12-15 cm
– Catheter Length LIJ 15-20Fem 19 - 24
• 5.4.3 – Recommendation: Ultrasound guided placement – Maximum barrier precautions – Chlorhexidine (2%) skin antiseptic
• 5.4.4 – Recommendation: Confirm placement of chest catheters with CXR.
• 5.4.5 – We suggest NOT using topical antibiotics over the skin insertion site of a nontunneled HD catheter in ICU patients.
• 5.4.6 – We suggest NOT using antibiotic locks for prevention of Catheter-related infections of nontunneled HD catheters.
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Maintaining the Circuit: Filter Integrity
Catheter Filter Down time due to filter clotting is the major reason for
reduced RRT dose
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September 17, 2018 11
Scanning electron micrographs of the inner surface of a polysulfone hollow fiber dialyzer membrane during hemodialysis therapy.
Anticoagulation for Extracorporeal Therapies
Heparin
LMW Heparin
Citrate
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Why Citrate?
Zhang et al. Int Care Med. 2012
Citrate and Bleeding
Citrate and Circuit Patency
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Recent RCTS for Citrate vs HeparinShilder et al Gattas et al Stucker et al
Year 2014 2015 2015
Center Multi Multi Single
No. of patients C: 66H: 73
C: 105H: 107
C: 54H: 49
Treatment Citrate vs. UFH Citrate vs. heparin/protamine
Citrate vs. UFH
Circuit lifespan (hrs) C: 46 (p = 0.02)H: 32
C: 39.2 (p = 0.004)H: 22.8
C: 49 (p = 0.004)H: 28
Bleeding / Adverse events
C: 0% (p < 0.001)H:33%
C: 2 (p = 0.011)H: 11
C: 0H: 8%
Metabolic alkalosis (%) C: 2H: 0
NR C: 6H: 0
Hypocalcemia C: 12% (iCa <0.9 mmol/L)H: NR
NR C: 11% (severe)H: 2%
Mortality No difference No difference No difference
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Maintaining the Circuit: Filter Integrity
Catheter Filter Down time due to filter clotting is the major reason for
reduced RRT doseConcentration polarization reduces ultrafiltration rate and
the filtrate concentrations of several medium / large sized proteins
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Mechanisms of Blood Membrane Interactions in Dialysis
Modified from Ronco et al NDT 1998, 13
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Reasons for Discontinuing CRRT and Filter efficacy
Claure-Del Granado et al. CJASN, 2011
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84 58 37 19 7
Time effect
Filter efficacy effect
Filter duration effect
Dialysis or Blood side Measurements for Dialysis Dose Determination in Continuous Renal Replacement Therapies?
Rolando Claure-Del Granado, MD1, Etienne Macedo, MD1, Sharon Soroko, MS1, Glenn M. Chertow, MD, MPH2, Jonathan Himmelfarb, MD3, T. Alp Ikizler, MD4, Emil P. Paganini, MD5, Ravindra L Mehta, MD1.
Program to Improve Care in Acute Renal Disease (PICARD) study
-- Normal filter function-- Compromised filter function
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Maintaining the Circuit
Catheter performanceFilter (CRRT) performance
• Down time due to filter clotting is the major reason for reduced CRRT dose
• Concentration polarization reduces ultrafiltration rate and the filtrate concentrations of various medium / large sized proteins
• High filtration fraction (high UF + low QB OR post dilution) is associated with both of above
• Pre-dilution versus post-dilution
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17 ml/min
Hct= 30
Hct= 37.3
Replacement 17 ml/mi
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17 ml/min
Hct= 25
Hct= 31
Replacement 17 ml/mi
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17 ml/min
Hct= 26
Hct= 31
Replacement 17 ml/mi
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Pre-Dilution vs Post-Dilution CVVH
Filtration fraction (FF) = ultrafiltration rate/ plasma water flow rate
FF values > 0.20 undesirable due to hemoconcentration-related effects on filter performancemajor limitation of post-dilution CVVHdependent on blood flow rate (QB) and hematocrit (Hct)
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Maintaining the Circuit: Summary
Select appropriate size catheter and position for individualized therapyFor Access requirements > 7 days consider tunnelled cathetersFor CRRT, avoid high filtration fraction and consider pre-
dilution to minimize concentration polarization and hemoconcentrationSelect Anticoagulant based on expertise and available
resources. Citrate has best results for circuit and filter integrityFor CRRT, adjust prescription for pre-dilution with either a
FUN/BUN ratio or an empirical 15% particularly for CVVH
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Maintaining the Circuit
Enabling solute clearances and achieving homeostasis
Volume control and balance with fluid regulation
Monitoring for and preventing complications
Practical Issues with CRRT
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EffluentSieving Coefficient = UF/Plasma concentration of solute
( 1= freely permeable, 0+ not permeable).
DialysateDiffusive clearance
CVVHDF CVVHD
UltrafiltrateConvectiveClearance
CVVHClearance in CRRT = SC
or equivalent x effluent
volume (UF, dialysate, UF + dialysate)
+ membrane adsorption
CRRT Operational Characteristics
Dialyzer and blood clearance differ based on solute and membrane characteristics
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CRRT Operational CharacteristicsSummary of Features
Solute concentration can be manipulated independent of fluid
balance
Plasma composition can be altered by changing composition of
dialysate and substitution fluid
Fluid regulation can occur concurrently with solute removal to
maintain patient fluid balance desired
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CVVHD
Regulation of fluid composition
CVVHF CVVHD CVVHDF
Target plasma soluteconcentration
Composition of Replacement Fluid
Composition of Dialysate
Composition of Dialysate and Replacement Fluid
Rate of change in plasma concentration
Difference in concentration between Replacement Fluid and plasma
Exchange Rate
Sieving coefficient
Dialysate Flow Rate (At low QD)
Blood Flow Rate(At high QD)
Dialyzer Size(At high QB)
Molecular weight
Dialyzer permeability
Combined effect of replacement fluid and dialysate fluid rates and composition
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Maintaining the Circuit
Enabling solute clearances and achieving homeostasis
Volume control and balance with fluid regulation
Monitoring for and preventing complications
Practical Issues with Fluid Management for CRRT
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Strategies for intervention role of CRRT
•Fluid Removal •Fluid Regulation
Fluid Management in the Critically Ill Patient
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Fluid Removal on Dialysis
Interstitial Space
Vascular
Space
Dialyzer
Refill Rate
Cap
illary
M
embr
ane
inte
rface
for N
DF
UFRUF
Mitra S et al Am J of Kid Dis, 40, 2002
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Fluid is primarily removed from intravascular compartment
RemovalPlasma refilling rates from interstitial compartment determine rate of change of intravascular blood volume
RefillIf ultrafiltration rate exceeds plasma refilling rate decreased blood volume ensues and contributes to hemodynamic instability
Balance
Principles For Fluid Removal with Dialysis
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Principles For Fluid Management With Intermittent Hemodialysis
Fluid is removed by ultrafiltration governed by transmembrane pressure
Volume of fluid removed is precisely regulated by volumetric balance chambers in machine
Rate of fluid removal dictated by prescription
Maximum fluid removal rate per hour dictated by machine limits (generally 2 L/hr)
Fluid replacement generally not required
Since time is rate limiting factor goal is to find maximally tolerated ultrafiltration rate
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Principles For Fluid Management With Continuous Dialysis
Fluid is removed by ultrafiltration governed by transmembrane pressure
Volume of fluid removed is precisely regulated by Gravimetricscales outside machine (Prisma, Prismaflex, Aquarius, B. Braun) or
Volumetric balancing chamber inside machine (NxStage)
Rate of fluid removal dictated by prescription and operational characteristics
Maximum fluid removal rate per hour dictated by machine limits (2-12 L/hr)
Fluid replacement is required
As procedure is continuous, goal is to target ultrafiltration to achieve fluid balance over time
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-4500
-4000
-3500
-3000
-2500
-2000
-1500
-1000
-500
01 2 3 4 5 6 7
IHD Procedure
ml
0
5000
10000
15000
20000
25000
30000
CVVH CVVHD CVVHDF
CRRT Day
ml/2
4 hr
s
1 2 3 4 5 6 7Net Ultrafiltration capacity
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Fluid Removal Fluid Regulation
Normal Kidney
++++ ++++
IHD +++ -
PD ++ -
CRRT +++ +++
Fluid Management Comparisons
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CRR
T Fl
uid
Ba
lanc
e
Provides a mechanism for achieving the patient fluid balance goals Two approaches• Fluid removal• Fluid regulation
Patie
nt F
luid
Ba
lanc
e
Depends on goals for patientGoals may range from removing fluid, keeping even or giving fluid.Fluid balance goals require adjustment frequently and will often determine the operational parameters.
Principles of Fluid Management in CRRT
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Principles of Fluid Management with CRRT
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Approaches to Fluid Balance with CRRTFluid Regulation
Patient Balance
BC Drug
UO Drainage
Insensible Loss
Nutrient
IN
OUT
Machine Balance
QRPRE/POS
TQD
IN
OUT
QUFNET
FLUID MANAGEMENT
QEFF =QRPRE/POST +
QD +
GOAL
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Approaches to Fluid Balance with CRRTPrinciples
Patient Balance At any given point in time
depends on the difference in intakes and outputs Plasma composition
determined by underlying pathophysiologic processes and process of care ( amount and types of fluids given)
IntakesOral; IV
Outputs• Urine; GI
• Drains; Insensible
Patient Status
PLASMA
Composition
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Approaches to Fluid Balance with CRRTFluid Removal
Patient Balance At any given point in time depends on
the difference in intakes and outputs Plasma composition determined by
underlying pathophysiologic processes and process of care ( amount and types of fluids given)
IntakesOral; IV
Outputs• Urine; GI
• Drains; Insensible
Patient Status
PLASMA
Composition
CRRT Addition Provides a new source of fluid removal that can be adjusted
CRRT Balance Negative if fluid removal rate > replacement fluid rate Zero
if no fluid removed and no replacement given (CVVHD) fluid removal rate = replacement fluid rate
Key is to integrate CRRT balance with patient fluid balance
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Approaches to Fluid Balance with CRRTFluid Regulation
Adjust patient fluid balance using CRRT as a tool for fluid managementGoal is to adjust fluid
removal/administration to achieve patient needs
Substitution Fluid
Ultrafiltrate
Common Strategy
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Approaches to Fluid Balance with CRRTFluid Regulation
Substitution Fluid
Ultrafiltrate
Common Strategy
Alternate Strategy
UF is Varied UF is fixedReplacement is varied
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Approaches to Fluid Balance with CRRTFluid Removal vs. Regulation
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HR 90, BP 135/80 , Temp 99, FiO2 70%
Burns on face, back, arms
S1S2, Lungs bilateral diffuse rhonchi
Abdomen obese marked edema and bowel sounds
present
Legs marked edema to thighs
Labs: Sodium 146, Potassium 4, Chloride 109, Bicarb 35, BUN 18, Creatinine 0.54, Glucose
154, Calcium 8.6
WBC 9.7, hemoglobin 9, platelet 144
Case: 74 yo HF was admitted with 25% total body surface area
burns in a structure fire, smoke inhalation.
She was in the structure fire for unknown time, her husband
died in the fire.
She has burn injury to face, dorsum of both arms and legs.
She received large volume resuscitation and is about 40 L
+ since admission
She is intubated and sedated in the burn unit on a fentanyl
and versed drip
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Case:
Left arm
Rt arm
Back
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Case:
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Jan 1Dec 29
Case:
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Case:
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Case:
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Case Study
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What should you do for fluid management at this time?A. Start a vasopressor to optimize BPB. Start a diuretic dripC. Stop IV fluidsD. Start IHDE. Start PDF. Start CRRTG. Talk to the family and withdraw care
Case:
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• Desired fluid balance
• Fluid management strategy ( removal, even, positive balance)
• Adjustments: Frequency
• Goals of Therapy
Patient Assessment
• Short term• Long term
Goals of therapy• Effluent volume• Pump settings• Solutions rate• Measurements
CRRT Operational Parameters
Optimizing Renal Support for Fluid Management with CRRT
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Key DecisionsHow much UF volume is required to provide solute clearanceHow much UF is needed to achieve fluid balanceWhat fluid composition is needed to replace fluid removed
Practical IssuesPrescriptionImplementing fluid management with different pumped systemsMonitoring and chartingRoles and responsibilities
Fluid Management in CRRT
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Fluid management in CRRTPrescription
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Modality
CVVH
CVVHD
CVVHDF
Operational Characteristics
Solute removal•Membrane•Blood flow•Effluent volume(Dialysate, Ultrafiltrate)
Fluid Balance•Ultrafiltrate•Substitution fluid•Dilution fluid
•Replacement fluid
Circuit•Anticoagulation•Filtration fraction•Monitoring
Plasma Composition
Solution content
Flow rates
Monitoring
Organ Support
High Volume
High cut off membranes and sorbents
Temperature control
Fluid Management in CRRTPrescription Elements
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Desired solute clearance•Effluent volume
•Dialysate•Ultrafiltrate
Desired Fluid balance•Fluid removal•Fluid regulation
Operational and safety parameters•Monitoring and
charting•Problem
avoidance and recognition
Fluid management in CRRTPrescription
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How much solute
clearance?
• Based on patient characteristics (catabolic state, nutritional support, underlying renal function etc)
• Calculated as desired clearance ml/min and expressed as L/hr
Compute minimal effluent
volume
• Clearance requirement in L/hr = minimal effluent volume/hr• Amount of dialysate and ultrafiltrate to meet minimal effluent
volume (modality dependent)
Fluid management in CRRTPrescription
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How much solute
clearance?
• Based on patient characteristics (catabolic state, nutritional support, underlying renal function etc)
• Calculated as desired clearance ml/min and expressed as L/hr
Compute minimal effluent volume
• Clearance requirement in L/hr = minimal effluent volume /hr• Amount of dialysate and ultrafiltrate to meet minimal effluent
volume (modality dependent)
UF volume needed for fluid balance needs
•Define patient fluid balance requirements and estimate net (intake –output) amount of fluid to be removed
•Define intakes obligated to CRRT therapy e.g. citrate and calcium required for anticoagulation
•Add total fluid to be removed every hour to achieve goals•Compute UF required for fluid balance = total fluid to be removed
Fluid management in CRRTPrescription
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Total UF needed for solute removal and
fluid balance
• Minimal UF for solute clearance + safety factor for fluid balance (usually 300-500 ml/hr))– (UF needed for fluid)
• Fluid needed for dilution (pre-filter and post)
• Determine final effluent volume
Fluid management in CRRTPrescription
For example: CVVHDF Effluent volume 2700 ml/hrDialysate 1000 ml/hrUltrafiltrate needs
Fluid needs 500 ml/hrDilution fluids 700 ml/hr (500 pre-filter and 200 post filter) Safety factor 500 ml/hr
Total UF vol neededTotal UF volume needed = 1700 mlNet UF = (1700- 700 (dilution fluid) = 1000
ml/hrThus final effluent volume = UF 1700 ml +
dialysate 1000 ml = 2700 ml/hr
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Set operational parameters
• Target is to achieve final effluent volume without increasing filtration fraction (FF) > 20%• Set BFR so that UF/plasma flow
/min= < 20%• Set dialysate flow rate • Ascertain that effluent volume
matches that required
Fluid management in CRRTPrescription
For Examplea) Compute UF volume /minb) Set UF flow ratec) UF vol = 1000 ml/hr = 17 ml/mind) Minimum plasma flow to achieve <20%
FF = 17 x 5 = 85 ml/mine) Minimum blood flow rate = plasma flow
/ (1-Hct) f) = 85/.75 (for Hct 25 ) = 114 ml/ming) Set BFR at 120 ml/minh) Set dialysate flow rate at 1000 ml/hri) Set Dilution fluids at 700 ml/hrj) UF rate at 1000 ml/hrk) Effluent volume = 2700 ml/hr
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Set replacement fluid or UFR parameters for
patient fluid balance
• Determine net fluid balance goal e.g. negative, zero or positive
• Determine CRRT fluid balance very hour
• Set replacement fluid rate or UFR to achieve patient fluid balance goal
Fluid management in CRRTPrescription
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• Anticoagulation: Regional citrate
• 4% tri-sodium citrate at 180 ml/hr• Calcium chloride 40 ml/hr• Monitoring: peripheral and post-
filter ionized calcium• Solutions:
• Dialysate : Prismasate 32 bicarb + Mg 2 meq/L + K 4.0 meq/L
• Pre-filter fluid for dilution: 0.9% saline
• Post-filter for circuit patency: 0.9% saline
• Post-filter replacement: to achieve target fluid balance: Prismasol 32
•Prescription• Machine PRISMAFLEX• Filter HF-1000 filter set• Mode: CVVHDF• BFR: 100 ml/min• Dialysate flow rate: 1000
ml/hr• Patient fluid removal 1000
ml/hr• Pre-filter replacement: 500
ml/hr• Post-Filter dilution 200 ml/hr• Effluent volume 2700 ml/hr
Role of CRRT in Fluid ManagementHow is it Done?
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Orders
• Components• Standardization
Fluid Management in CRRT
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UCSD Medical Center Citrate CRRT Orders
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UCSD Medical Center Citrate CRRT Orders
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UF pump setting
• UF pump can be set independent of other pumps (Diapact, BM25)
• UF pump rate dictated by other pump settings (PRISMA, Aquarius, Prismaflex)
CRRT fluid balance computation
• Fluids hung on scale
• Fluids outside of system
Fluid Management in CRRT
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Hydraulic Circuit for PrismaFlex
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Machine Programming Components:Modality: CVVH, CVVHD, CVVHDFNegative fluid balance desired (Fluid removal rate)Replacement fluid pre vs post filterDialysate flow rateAnticoagulant flow rate
Hydraulic Circuit for PrismaFlex
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Machine Programming Components:Modality: CVVH, CVVHD, CVVHDFNegative fluid balance desired (Fluid removal rate)Replacement fluid pre vs post filterDialysate flow rateAnticoagulant flow rateEffluent Pump Speed = RF + DF + AC + Fldremoval
Hydraulic Circuit for PrismaFlex
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Pre Dilution Fluid NaCl 500 ml/hr
Post Dilution Fluid NaCl 200 ml/hr
Dialysate Prismasate with Calcium and added Magnesium and Potassium
Hydraulic Circuit for PrismaFlex
Citrate CVVHDF: UCSD Protocol
4% TrisodiumCitrate 120-200ml/hr
Effluent Pump 2700 ml/hr(net UFR 1000 ml/hr)
Substitution Fluid varying rate 200-1000 ml/hr (Prismasol, custom solution NaCl/NaHCO3)
CaCl2 . 0.1meq/ml 40-80 ml/hr
BFR 100 ml/min
Cit rate f low adjusted based on post f ilt er Ionized Calcium1000 ml/hr
Adjusted based on Peripheral Ionized Ca
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Orders
• Components• Standardization
Charting
• CRRT Balance• Patient
Balance• Where and
how often is it charted
Fluid Management in CRRT
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Approaches to Fluid Balance with CRRTFluid Regulation
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Case Study 46 yr old woman with MOF
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Case Study 46 yr old woman with MOF
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UCSD Medical Center CRRT Flowsheet
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C:\Users\rmehta\Desktop\2012-02-11_0747.png
CRRT Flow sheets in EMR
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Case Study
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Case Study
Creatinine
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Case Study
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Case Study01/01 01/03
01/04 01/06 01/07
12/29
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Case Study
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Case Study
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Case Study
Creatinine
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Case Study
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Case Study01/0101/09 01/03
01/04 01/06 01/07
01/10 01/11
01/12 01/13 01/14
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Targeted Fluid management Hemodynamic parameters TBW and compartmental distribution parameters
Achieving Fluid Balance with CRRT
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SVV to Guide Fluid Management in CRRT
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SVV to Guide Fluid Management in CRRT
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Maintaining the Circuit
Enabling solute clearances and achieving homeostasis
Volume control and balance with fluid regulation
Monitoring for and preventing complications
Practical Issues with Fluid Management for CRRT
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CRRT Fluid Management Preventing Complications
Prescription Modality Blood flow rate Filtration fraction Fluid Balance Goal Quantity to be Removed Fluid removal rate Substitution fluid Pre-dilution (Rate/hr)) Post-Dilution (Rate/hr) Dialysate rate Fluid composition Substitution Dialysate Warmer Temperature External Pumps In Circuit
Parameter Inappropriate GoalAmount of fluid removed Rate of fluid removal
Complication Volume depletion Fluid Overload Hypotension Hemodynamic instability
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Differing clinical circumstances demand different rates of fluid removal
Rosner MH, Ostermann M, Murugan R, Prowle JR, Ronco C, Kellum JA, Mythen MG, Shaw AD, Group AXI, (2014) Indications and management of mechanical fluid removal in critical illness. British journal of anaesthesia 113: 764-771
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CRRT: communication is crucialDoctor
Inserts line Prescribes anticoagulant Prescribes modality, dose
and fluid removal
Nurse
Sets up & provides therapyAdjusts settings to achieve
goalsMeasures and adjusts
anticoagulantMakes chart entriesMonitors for complications
and responds appropriately
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CRRT can continuously adjust fluid balance in critically ill patients
Initiate RRT at earlier time points to prevent fluid accumulation
Protocol based standardization of approach
Implement calculators to track fluid accumulation and fluid overload
Strategy
Utilize dialysis for fluid regulation instead of fluid removal only
Late utilization when fluid redistribution into large compartments has already occurred
Develop guidelines based on demonstrated best practices
Recognize importance of fluid retention on outcome
Need
Fluid Management with CRRTWhat can we do?
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Cur
rent
Kn
owle
dge
Fluid therapy is common in patients at risk for AKIProlonged fluid resuscitation leads to edema of kidney and other organs and can contribute to AKIFluid overload > 10% body weight is associated with increased morbidity and mortality
Inte
rven
tion
Stra
tegi
es
An early transition to a fluid restrictive strategy may be beneficial in patients with AKIFluid removal in patients with or at risk for AKI should be implemented with appropriate monitoringCRRT allows continuous fluid regulation to support patients
Are
as fo
r Re
sear
ch
Is fluid accumulation a mediator of adverse outcomes from AKIRole of endothelial glycocalyxBiomarkers/ novel fluid assessment tools to allow safer fluid managementAt what level of volume retention should therapy be started?Can dialysis provide a safety net in pts with compromised renal function
Achieving Fluid balance: The role of CRRTSummary
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Extra slides
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CRRT Fluid composition and electrolyte and acid base Mx Fluid Overload and its treatment with CRRT Precision CRRT and individualization of treatmentMonitoring and complications during CRRTQuality metrics and benchmarking
Overview
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Maximum Ultrafiltration Rate (in L/hr) Achieved at 20% (30%) Filtration Fraction in Post-Dilution CVVH
QB = 150 mL/min QB = 200 mL/min
Hct = 0.30 1.3 (1.9) 1.7(2.5)
Hct = 0.40 1.1 (1.6) 1.4 (2.2)
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Blood flow requirements for CRRT to maintain filtration fraction at 25%
Ultrafiltration rate
(mls/hr)MinimumQb/min
1500 100
2000 130
2500 155
3000 200
4000 265
FF(%) = (UFR x 100 ) / Qp
Qp = BFR x (1-Hct)
When BFR = 100ml/min, Hct=0.3 Qp=70ml/min
If FF >30%, promote filter clotting
If FF=30%, BFR of 100 ml/min, UF = 21ml/min
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Pathological effects of fluid overload in organ systems
Prowle et al Fluid balance and acute kidney injury. Nat Rev Nephrol, 6: 107-115, 2010
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Too much fluid is bad…Fluid Overload. O'Connor ME, Prowle JR.Crit Care Clin. 2015 Oct;31(4):803-21
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Resolution of Fluid Overload with RRT and Survival
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Fluid overload and interstitial oedema may contribute to the maintenance of AKI
Prowle, Kirwan, Bellomo Nat Rev Nephrol 2013
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Questions
To what extent is fluid overload a marker of illness severity (measure of unknown confounders) and to what extent an avoidable cause of iatrogenic morbidity and mortality?
Does fluid overload itself contribute to the initiation or persistence of AKI?Can we treat this?
Does the avoidance or treatment of fluid overload with RRT (or diuretics) improve outcomes? If so when?
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Systematic approach to fluid management in critical illness
Resuscitate appropriately early
Avoid need for removal as much as possible by then appropriately limiting intake
Ultrafiltration as a component in an active fluid management strategy
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Goals in mechanical fluid removal
Resolve fluid overload and its adverse effects on organ functionAllow necessary interventionsNutritionDrugs
Prevent overt hypovolaemiaSecondary ischaemic injuryAdverse neuroendocrine responses
Avoid complications of RRT
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Quantification of fluid overloadClinical ExaminationSerial WeightsCumulative Fluid Balance
Chest X-rayOxygenation indicesLung UltrasoundIntra-abdominal pressure
EchocardiographyBioimpedance body composition analysis
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Decisions in prescribing ultrafiltration
Goal (Long term)Extent of fluid overload“Euvolaemia”
Tolerance of fluid removal (Short term)Rate of removalRate of vascular refillingAbility of circulation to tolerate transient reduction in intravascular volume
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Differing clinical circumstances demand different rates of fluid removal
Rosner MH, Ostermann M, Murugan R, Prowle JR, Ronco C, Kellum JA, Mythen MG, Shaw AD, Group AXI, (2014) Indications and management of mechanical fluid removal in critical illness. British journal of anaesthesia 113: 764-771
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Mehta, Kidney Int 2005
Approaches to Fluid Balance with CRRTFluid Regulation
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Approaches to Fluid Balance with CRRTFluid Regulation
Patient Balance
BC Drug
UO Drainage
Insensible Loss
Nutrient
IN
OUT
Machine Balance
QRPRE/POS
TQD
IN
OUT
QUFNET
FLUID MANAGEMENT
QEFF =QRPRE/POST +
QD +
GOAL
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Ultra
filtra
te
UF is used to remove fluid and UF rate can be controlledUF removes fluid with composition close to plasma waterSolutes removed to varying degrees depending upon membrane characteristic
Repl
ace
men
t
Replacement fluid may be used to replace varying amounts of the fluid removedComposition of the replacement fluid can be varied
CRR
T Fl
uid
Ba
lanc
e
Fluid balance for the CRRT device is computed as the difference between UF removed and replacement fluid given for any given period of time. Pa
tient
Flu
id
Bala
nce
Depends on the difference between all intakes and outputs including CRRT for any given period of time.
Principles of Fluid Management in CRRT
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Principles For Fluid Management With Continuous Dialysis
Fluid is removed by ultrafiltration governed by transmembrane pressure Volume of fluid removed is
precisely regulated by Gravimetric scales outside machine (Prisma, Prismaflex, Aquarius, B. Braun) or Volumetric balancing chamber inside machine (NxStage) Rate of fluid removal
dictated by prescription and operational characteristicsMaximum fluid removal rate
per hour dictated by machine limits (2-12 L/hr) Fluid replacement is required
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Fluid Control Units on CRRT Machines