The goal of this clinical trial is to determine if vancomycin dosing in children with sepsis can be improved by using updated, personalized dosing models that account for new markers of an individual's kidney function. Vancomycin is prescribed based on the known information of how the body breaks this medicine down. Vancomycin may not be effective if blood levels of the medicine are too low. Vancomycin has potential side effects, including the possibility of injury to the kidney. These side effects usually happen when blood levels of vancomycin are too high. There are guidelines for the range of vancomycin blood levels doctors should target to treat an infection and lower the risk of side effects. Children with sepsis may metabolize vancomycin at different rates, faster or slower, than children who do not have sepsis. For these reasons, the current dosing strategy may lead to a higher risk of kidney injury or a risk of not adequately treating an infection in children with sepsis. The investigators' goal is to use new vancomycin dosing equations to improve the ability to select the right dose of vancomycin. The main questions this trial aims to answer are: 1. Is it feasible to use personalized models of vancomycin dosing in children with sepsis? 2. Will personalized models of vancomycin dosing achieve vancomycin blood levels in acceptable ranges?
The goal of this clinical trial is to determine if vancomycin dosing in children with sepsis can be improved by using updated, personalized dosing models that account for new markers of an individual's kidney function. Vancomycin is prescribed based on the known information of how the body breaks this medicine down. Vancomycin may not be effective if blood levels of the medicine are too low. Vancomycin has potential side effects, including the possibility of injury to the kidney. These side effects usually happen when blood levels of vancomycin are too high. There are guidelines for the range of vancomycin blood levels doctors should target to treat an infection and lower the risk of side effects. Children with sepsis may metabolize vancomycin at different rates, faster or slower, than children who do not have sepsis. For these reasons, the current dosing strategy may lead to a higher risk of kidney injury or a risk of not adequately treating an infection in children with sepsis. The investigators' goal is to use new vancomycin dosing equations to improve the ability to select the right dose of vancomycin. The main questions this trial aims to answer are: 1. Is it feasible to use personalized models of vancomycin dosing in children with sepsis? 2. Will personalized models of vancomycin dosing achieve vancomycin blood levels in acceptable ranges?
Vancomycin and Acute Kidney Injury in Sepsis Treatment - Intervention
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Children's Hospital of Philadelphia, Philadelphia, Pennsylvania, United States, 19104
Researchers look for people who fit a certain description, called eligibility criteria. Some examples of these criteria are a person's general health condition or prior treatments.
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1 Month to 17 Years
ALL
No
Children's Hospital of Philadelphia,
2026-12-31