Manual single lumen alternating micro-batch dialysis achieves reliable clearance via diffusion

Background Acute kidney injury is a cause of preventable deaths in low resource settings due to lack of dialysis access and cost. A manual single lumen alternating micro-batch (mSLAMB) dialysis technique performs kidney replacement therapy using single lumen access, low-cost bags/tubing, intravenous...

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Published in	Pediatric research Vol. 94; no. 4; pp. 1335 - 1340
Main Authors	Ceschia, Giovanni, Chawla, Apaara K., Morgan, Jolyn, Rose, James E., Goldstein, Stuart L., Hasson, Denise C.
Format	Journal Article
Language	English
Published	New York Nature Publishing Group US 01.10.2023 Nature Publishing Group
Subjects	Anticoagulants Basic Science Article Hemodialysis Heparin Humans Medical supplies Medicine Medicine & Public Health Pediatric Surgery Pediatrics Potassium Renal Dialysis Renal replacement therapy Ultrafiltration Urea
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ISSN	0031-3998 1530-0447 1530-0447
DOI	10.1038/s41390-023-02636-9

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Abstract	Background Acute kidney injury is a cause of preventable deaths in low resource settings due to lack of dialysis access and cost. A manual single lumen alternating micro-batch (mSLAMB) dialysis technique performs kidney replacement therapy using single lumen access, low-cost bags/tubing, intravenous fluids, and a filter without electricity, a battery, or a pump. We propose a protocol whereby mSLAMB can perform diffusive clearance simply and efficiently to bring dialysis to underserved populations. Methods Expired packed red blood cells mixed with crystalloid solution were spiked with urea and anticoagulated with heparin. A Static diffusion Technique (with short flushes of fluid before each filter pass) was compared to a Dynamic diffusion Technique (with fluid running through the filter during the forward pass) to assess urea and potassium clearance. Passive ultrafiltration was the difference between the 200 mL batch volume and volume returned to the blood bag per cycle. Results Five cycles achieved urea reduction ratios (URR) between 17–67% and potassium clearance of 18–60%, with higher percentages achieved from higher proportions of batch volume dialyzed to patient volume. Dynamic Technique increased clearance over the Static Technique. Passive ultrafiltration volumes were 2.5–10% of batch volume. Conclusion mSLAMB dialysis performs diffusive clearance and passive ultrafiltration efficiently, while preserving resources and available manpower. Impact mSLAMB is a dialysis technique that can perform efficient diffusive clearance and passive ultrafiltration without electricity, batteries, or a pump. With basic medical supplies and limited manpower, mSLAMB is a cost-effective means of providing emergency dialysis in low resource areas. We propose a basic algorithm for safe and cost-effective dialysis for people of different ages and sizes.
AbstractList	Background Acute kidney injury is a cause of preventable deaths in low resource settings due to lack of dialysis access and cost. A manual single lumen alternating micro-batch (mSLAMB) dialysis technique performs kidney replacement therapy using single lumen access, low-cost bags/tubing, intravenous fluids, and a filter without electricity, a battery, or a pump. We propose a protocol whereby mSLAMB can perform diffusive clearance simply and efficiently to bring dialysis to underserved populations. Methods Expired packed red blood cells mixed with crystalloid solution were spiked with urea and anticoagulated with heparin. A Static diffusion Technique (with short flushes of fluid before each filter pass) was compared to a Dynamic diffusion Technique (with fluid running through the filter during the forward pass) to assess urea and potassium clearance. Passive ultrafiltration was the difference between the 200 mL batch volume and volume returned to the blood bag per cycle. Results Five cycles achieved urea reduction ratios (URR) between 17–67% and potassium clearance of 18–60%, with higher percentages achieved from higher proportions of batch volume dialyzed to patient volume. Dynamic Technique increased clearance over the Static Technique. Passive ultrafiltration volumes were 2.5–10% of batch volume. Conclusion mSLAMB dialysis performs diffusive clearance and passive ultrafiltration efficiently, while preserving resources and available manpower. Impact mSLAMB is a dialysis technique that can perform efficient diffusive clearance and passive ultrafiltration without electricity, batteries, or a pump. With basic medical supplies and limited manpower, mSLAMB is a cost-effective means of providing emergency dialysis in low resource areas. We propose a basic algorithm for safe and cost-effective dialysis for people of different ages and sizes. Acute kidney injury is a cause of preventable deaths in low resource settings due to lack of dialysis access and cost. A manual single lumen alternating micro-batch (mSLAMB) dialysis technique performs kidney replacement therapy using single lumen access, low-cost bags/tubing, intravenous fluids, and a filter without electricity, a battery, or a pump. We propose a protocol whereby mSLAMB can perform diffusive clearance simply and efficiently to bring dialysis to underserved populations.BACKGROUNDAcute kidney injury is a cause of preventable deaths in low resource settings due to lack of dialysis access and cost. A manual single lumen alternating micro-batch (mSLAMB) dialysis technique performs kidney replacement therapy using single lumen access, low-cost bags/tubing, intravenous fluids, and a filter without electricity, a battery, or a pump. We propose a protocol whereby mSLAMB can perform diffusive clearance simply and efficiently to bring dialysis to underserved populations.Expired packed red blood cells mixed with crystalloid solution were spiked with urea and anticoagulated with heparin. A Static diffusion Technique (with short flushes of fluid before each filter pass) was compared to a Dynamic diffusion Technique (with fluid running through the filter during the forward pass) to assess urea and potassium clearance. Passive ultrafiltration was the difference between the 200 mL batch volume and volume returned to the blood bag per cycle.METHODSExpired packed red blood cells mixed with crystalloid solution were spiked with urea and anticoagulated with heparin. A Static diffusion Technique (with short flushes of fluid before each filter pass) was compared to a Dynamic diffusion Technique (with fluid running through the filter during the forward pass) to assess urea and potassium clearance. Passive ultrafiltration was the difference between the 200 mL batch volume and volume returned to the blood bag per cycle.Five cycles achieved urea reduction ratios (URR) between 17-67% and potassium clearance of 18-60%, with higher percentages achieved from higher proportions of batch volume dialyzed to patient volume. Dynamic Technique increased clearance over the Static Technique. Passive ultrafiltration volumes were 2.5-10% of batch volume.RESULTSFive cycles achieved urea reduction ratios (URR) between 17-67% and potassium clearance of 18-60%, with higher percentages achieved from higher proportions of batch volume dialyzed to patient volume. Dynamic Technique increased clearance over the Static Technique. Passive ultrafiltration volumes were 2.5-10% of batch volume.mSLAMB dialysis performs diffusive clearance and passive ultrafiltration efficiently, while preserving resources and available manpower.CONCLUSIONmSLAMB dialysis performs diffusive clearance and passive ultrafiltration efficiently, while preserving resources and available manpower.mSLAMB is a dialysis technique that can perform efficient diffusive clearance and passive ultrafiltration without electricity, batteries, or a pump. With basic medical supplies and limited manpower, mSLAMB is a cost-effective means of providing emergency dialysis in low resource areas. We propose a basic algorithm for safe and cost-effective dialysis for people of different ages and sizes.IMPACTmSLAMB is a dialysis technique that can perform efficient diffusive clearance and passive ultrafiltration without electricity, batteries, or a pump. With basic medical supplies and limited manpower, mSLAMB is a cost-effective means of providing emergency dialysis in low resource areas. We propose a basic algorithm for safe and cost-effective dialysis for people of different ages and sizes. BackgroundAcute kidney injury is a cause of preventable deaths in low resource settings due to lack of dialysis access and cost. A manual single lumen alternating micro-batch (mSLAMB) dialysis technique performs kidney replacement therapy using single lumen access, low-cost bags/tubing, intravenous fluids, and a filter without electricity, a battery, or a pump. We propose a protocol whereby mSLAMB can perform diffusive clearance simply and efficiently to bring dialysis to underserved populations.MethodsExpired packed red blood cells mixed with crystalloid solution were spiked with urea and anticoagulated with heparin. A Static diffusion Technique (with short flushes of fluid before each filter pass) was compared to a Dynamic diffusion Technique (with fluid running through the filter during the forward pass) to assess urea and potassium clearance. Passive ultrafiltration was the difference between the 200 mL batch volume and volume returned to the blood bag per cycle.ResultsFive cycles achieved urea reduction ratios (URR) between 17–67% and potassium clearance of 18–60%, with higher percentages achieved from higher proportions of batch volume dialyzed to patient volume. Dynamic Technique increased clearance over the Static Technique. Passive ultrafiltration volumes were 2.5–10% of batch volume.ConclusionmSLAMB dialysis performs diffusive clearance and passive ultrafiltration efficiently, while preserving resources and available manpower.ImpactmSLAMB is a dialysis technique that can perform efficient diffusive clearance and passive ultrafiltration without electricity, batteries, or a pump.With basic medical supplies and limited manpower, mSLAMB is a cost-effective means of providing emergency dialysis in low resource areas.We propose a basic algorithm for safe and cost-effective dialysis for people of different ages and sizes. Acute kidney injury is a cause of preventable deaths in low resource settings due to lack of dialysis access and cost. A manual single lumen alternating micro-batch (mSLAMB) dialysis technique performs kidney replacement therapy using single lumen access, low-cost bags/tubing, intravenous fluids, and a filter without electricity, a battery, or a pump. We propose a protocol whereby mSLAMB can perform diffusive clearance simply and efficiently to bring dialysis to underserved populations. Expired packed red blood cells mixed with crystalloid solution were spiked with urea and anticoagulated with heparin. A Static diffusion Technique (with short flushes of fluid before each filter pass) was compared to a Dynamic diffusion Technique (with fluid running through the filter during the forward pass) to assess urea and potassium clearance. Passive ultrafiltration was the difference between the 200 mL batch volume and volume returned to the blood bag per cycle. Five cycles achieved urea reduction ratios (URR) between 17-67% and potassium clearance of 18-60%, with higher percentages achieved from higher proportions of batch volume dialyzed to patient volume. Dynamic Technique increased clearance over the Static Technique. Passive ultrafiltration volumes were 2.5-10% of batch volume. mSLAMB dialysis performs diffusive clearance and passive ultrafiltration efficiently, while preserving resources and available manpower. mSLAMB is a dialysis technique that can perform efficient diffusive clearance and passive ultrafiltration without electricity, batteries, or a pump. With basic medical supplies and limited manpower, mSLAMB is a cost-effective means of providing emergency dialysis in low resource areas. We propose a basic algorithm for safe and cost-effective dialysis for people of different ages and sizes.
Author	Hasson, Denise C. Goldstein, Stuart L. Morgan, Jolyn Chawla, Apaara K. Ceschia, Giovanni Rose, James E.
Author_xml	– sequence: 1 givenname: Giovanni surname: Ceschia fullname: Ceschia, Giovanni organization: Department of Women’s and Children’s Health, University of Padua – sequence: 2 givenname: Apaara K. surname: Chawla fullname: Chawla, Apaara K. organization: Francis Parker High School – sequence: 3 givenname: Jolyn surname: Morgan fullname: Morgan, Jolyn organization: Center for Acute Care Nephrology, Cincinnati Children’s Hospital Medical Center – sequence: 4 givenname: James E. surname: Rose fullname: Rose, James E. organization: Division of Nephrology and Hypertension, Cincinnati Children’s Hospital Medical Center – sequence: 5 givenname: Stuart L. surname: Goldstein fullname: Goldstein, Stuart L. organization: Center for Acute Care Nephrology, Cincinnati Children’s Hospital Medical Center, Division of Nephrology and Hypertension, Cincinnati Children’s Hospital Medical Center – sequence: 6 givenname: Denise C. surname: Hasson fullname: Hasson, Denise C. email: denise.hasson@nyulangone.org organization: Division of Pediatric Critical Care Medicine, Hassenfeld Children’s Hospital at NYU Langone Health
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Snippet	Background Acute kidney injury is a cause of preventable deaths in low resource settings due to lack of dialysis access and cost. A manual single lumen... Acute kidney injury is a cause of preventable deaths in low resource settings due to lack of dialysis access and cost. A manual single lumen alternating... BackgroundAcute kidney injury is a cause of preventable deaths in low resource settings due to lack of dialysis access and cost. A manual single lumen...
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SubjectTerms	Anticoagulants Basic Science Article Hemodialysis Heparin Humans Medical supplies Medicine Medicine & Public Health Pediatric Surgery Pediatrics Potassium Renal Dialysis Renal replacement therapy Ultrafiltration Urea
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Title	Manual single lumen alternating micro-batch dialysis achieves reliable clearance via diffusion
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