EN
Language
All categories
Product ID: 68506655
Jaundice instrument
Contact Now
Description
1. The core working principle of the jaundice instrument
The jaundice instrument is based on the absorption characteristics of bilirubin to specific wavelengths of light, and its core technology is spectroscopy or light absorption method. Bilirubin, as the yellow pigment of hemoglobin metabolism, is metabolized and excreted by the liver under normal circumstances. When metabolism is abnormal, bilirubin accumulates in the body and causes jaundice. The instrument emits blue or green light through human tissues and calculates the bilirubin concentration1 by measuring the intensity of light absorbed by bilirubin. This non-invasive testing method avoids the traumatic nature of traditional blood collection and is especially suitable for sensitive populations such as newborns.
2. The main clinical application scenarios of jaundice instrument
Screening for neonatal jaundice
Newborn liver function is immature and prone to bilirubin metabolism disorders, and the jaundice instrument can quickly and accurately measure bilirubin concentration, helping doctors to intervene in hyperbilirubinemia in time and reduce the risk of kernicterus13.
Liver disease diagnosis and monitoring
Jaundice is a typical symptom of liver diseases such as hepatitis and cirrhosis, and instruments can evaluate the severity and treatment effect of liver disease by dynamically monitoring bilirubin levels1.
Drug side effect monitoring
Some drugs may affect the metabolic function of the liver, leading to an increase in bilirubin. Jaundice instruments can be used to monitor the potential effects of drugs on the liver and assist in adjusting treatment regimens1.
3. Technical advantages and use value of jaundice instrument
Efficient and fast: Complete the test in a short time, significantly improving clinical efficiency, especially suitable for batch screening in neonatology1.
Non-invasive: No need for blood sampling, reducing patient pain and risk of infection, and improving medical compliance.
Data accuracy: Through standardized light absorption algorithms, the test results are highly consistent with laboratory tests, providing a reliable basis for clinical decision-making.
The jaundice instrument is based on the absorption characteristics of bilirubin to specific wavelengths of light, and its core technology is spectroscopy or light absorption method. Bilirubin, as the yellow pigment of hemoglobin metabolism, is metabolized and excreted by the liver under normal circumstances. When metabolism is abnormal, bilirubin accumulates in the body and causes jaundice. The instrument emits blue or green light through human tissues and calculates the bilirubin concentration1 by measuring the intensity of light absorbed by bilirubin. This non-invasive testing method avoids the traumatic nature of traditional blood collection and is especially suitable for sensitive populations such as newborns.
2. The main clinical application scenarios of jaundice instrument
Screening for neonatal jaundice
Newborn liver function is immature and prone to bilirubin metabolism disorders, and the jaundice instrument can quickly and accurately measure bilirubin concentration, helping doctors to intervene in hyperbilirubinemia in time and reduce the risk of kernicterus13.
Liver disease diagnosis and monitoring
Jaundice is a typical symptom of liver diseases such as hepatitis and cirrhosis, and instruments can evaluate the severity and treatment effect of liver disease by dynamically monitoring bilirubin levels1.
Drug side effect monitoring
Some drugs may affect the metabolic function of the liver, leading to an increase in bilirubin. Jaundice instruments can be used to monitor the potential effects of drugs on the liver and assist in adjusting treatment regimens1.
3. Technical advantages and use value of jaundice instrument
Efficient and fast: Complete the test in a short time, significantly improving clinical efficiency, especially suitable for batch screening in neonatology1.
Non-invasive: No need for blood sampling, reducing patient pain and risk of infection, and improving medical compliance.
Data accuracy: Through standardized light absorption algorithms, the test results are highly consistent with laboratory tests, providing a reliable basis for clinical decision-making.
You may also like
Contact Now
Please Send Message
${currentPro.title}