Table of Contents
- What is Sodium S-Lactate Solution?
- Medical Conditions Treated
- How It Works
- Composition and Formulation
- Administration and Dosage
- Potential Benefits
- Safety and Side Effects
- Ongoing Research
What is Sodium S-Lactate Solution?
Sodium S-Lactate Solution is an important component used in peritoneal dialysis solutions. It is often referred to as a buffer or alkalizing agent in these solutions[1]. Peritoneal dialysis is a treatment used for patients with kidney failure, where the lining of your abdomen (peritoneum) acts as a filter to remove waste products from your blood.
Medical Conditions Treated
The primary medical condition treated with solutions containing Sodium S-Lactate is End-Stage Kidney Disease (ESKD), also known as End-Stage Renal Disease (ESRD)[1]. This is a condition where the kidneys have stopped working well enough for you to survive without dialysis or a kidney transplant.
How It Works
Sodium S-Lactate Solution works as part of a larger peritoneal dialysis solution. Here’s a simple breakdown of how it functions:
- The solution is introduced into your abdominal cavity through a catheter.
- The Sodium S-Lactate acts as a buffer, helping to maintain the right balance of acids and bases in your body.
- As your blood flows through the blood vessels lining your peritoneum, waste products and excess fluid pass from your blood into the dialysis solution.
- After a set period, the solution, now containing these waste products, is drained out of your body and replaced with fresh solution.
Composition and Formulation
Sodium S-Lactate Solution is typically part of a more complex peritoneal dialysis solution. These solutions often contain several key components[1]:
- Sodium S-Lactate Solution: Acts as a buffer
- Glucose Monohydrate: Helps remove excess fluid from your blood
- Sodium Chloride: Maintains proper sodium levels
- Calcium Chloride Dihydrate: Maintains calcium balance
- Magnesium Chloride Hexahydrate: Maintains magnesium balance
Some formulations may also include Sodium Hydrogen Carbonate as an additional buffer[1].
Administration and Dosage
Peritoneal dialysis solutions containing Sodium S-Lactate are typically administered directly into the peritoneal cavity. The dosage and frequency can vary based on individual patient needs, but generally:
- Solutions are administered multiple times per day
- Each exchange (filling and draining the abdomen) can take 30-40 minutes
- The maximum daily volume is usually around 6 liters[1]
Potential Benefits
The use of Sodium S-Lactate in peritoneal dialysis solutions offers several potential benefits:
- Helps maintain proper acid-base balance in the body
- Contributes to the overall effectiveness of peritoneal dialysis in removing waste products
- May help improve overall quality of life for patients with ESKD
- Allows for dialysis to be performed at home, offering more flexibility than hemodialysis
Safety and Side Effects
While peritoneal dialysis solutions containing Sodium S-Lactate are generally considered safe, there are some potential side effects and considerations[1]:
- Peritonitis (infection of the peritoneum) is a serious potential complication
- Some patients may experience abdominal discomfort or bloating
- Long-term use may affect the peritoneal membrane
- Patients with certain conditions (like severe liver disease) may not be suitable candidates for this treatment
Ongoing Research
Research is ongoing to further improve peritoneal dialysis solutions and outcomes for patients. A current study, known as the ELIXIR trial, is evaluating a new glucose-sparing solution called XyloCore[1]. This research aims to:
- Compare the effectiveness of XyloCore to standard glucose-based peritoneal dialysis solutions
- Evaluate changes in various health markers, including cholesterol levels, blood sugar control, and fatigue
- Assess the impact on residual kidney function and overall patient safety
These ongoing studies may lead to improved treatments for patients with end-stage kidney disease in the future.



