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group_5_presentation_2_-_hyperbilirubinemia_jaundice [2017/10/31 15:21] mohamesb [Phototherapy] |
group_5_presentation_2_-_hyperbilirubinemia_jaundice [2018/01/25 15:18] (current) |
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{{youtube>oY39QG3CvgY }} {{::neonatal-jaundice.jpg?350|}} | {{youtube>oY39QG3CvgY }} {{::neonatal-jaundice.jpg?350|}} | ||
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+ | **LS4M03 ppt link:** [[https://docs.google.com/presentation/d/17I4UVA_GAagsoywBAQvyIQ6UZCuQBjTS8bzAhAupoAA/edit?usp=sharing]] | ||
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====== Introduction ====== | ====== Introduction ====== | ||
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- | There are four factors that influence the efficacy of phototherapy: | + | There are four factors that influence the efficacy of phototherapy: the wavelength of light, the irradiance (intensity) of light, the distance between the light source and skin, and the surface area of the body exposed to light. The most effective wavelength of light in degrading bilirubin is in the range of 400-520 nm, with the optimal wavelength being around 460 nm – which is blue light (Vreman, Wong & Stevenson, 2004). Blue light strikes the best balance between penetration of the skin and absorption by the unconjugated bilirubin (Maisels, 2005). Intuitively, there is a strong correlation between the intensity of light used, the surface area of skin exposed to light, short distances between the light source and body, and the rate at which bilirubin levels decline (Tan, 1982). |
- | * the wavelength of light | + | |
- | * the irradiance (intensity) of light | + | |
- | * the distance between the light source and skin | + | |
- | * the surface area of the body exposed to light | + | |
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- | The most effective wavelength of light in degrading bilirubin is in the range of 400-520 nm, with the optimal wavelength being around 460 nm – which is blue light (Vreman, Wong & Stevenson, 2004). Blue light strikes the best balance between penetration of the skin and absorption by the unconjugated bilirubin (Maisels, 2005). Intuitively, there is a strong correlation between the intensity of light used, the surface area of skin exposed to light, short distances between the light source and body, and the rate at which bilirubin levels decline (Tan, 1982). | + | |
Phototherapy is mainly used as a treatment for neonatal jaundice to prevent kernicterus and potentially irreversible brain damage. When babies are born, their hepatocytes may not be entirely functional yet which prevents sufficient excretion of bilirubin. Since the blood-brain barriers of neonates are still weak, an excess of free unconjugated bilirubin circulating in the blood may pass through and cause neurologic damage to the brain (Kriss, Kollias & Ball, 1995). In contrast to babies, phototherapy is not performed on adults with jaundice since their hyperbilirubinemia is usually a result of hemolysis, chronic hepatitis, liver damage through alcohol, and other diseases of the liver. Furthermore, the condition causing the clinical symptoms of jaundice is treated in adults instead of the actual jaundice itself. | Phototherapy is mainly used as a treatment for neonatal jaundice to prevent kernicterus and potentially irreversible brain damage. When babies are born, their hepatocytes may not be entirely functional yet which prevents sufficient excretion of bilirubin. Since the blood-brain barriers of neonates are still weak, an excess of free unconjugated bilirubin circulating in the blood may pass through and cause neurologic damage to the brain (Kriss, Kollias & Ball, 1995). In contrast to babies, phototherapy is not performed on adults with jaundice since their hyperbilirubinemia is usually a result of hemolysis, chronic hepatitis, liver damage through alcohol, and other diseases of the liver. Furthermore, the condition causing the clinical symptoms of jaundice is treated in adults instead of the actual jaundice itself. | ||
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==== Exchange Transfusions ==== | ==== Exchange Transfusions ==== | ||
- | Blood exchange transfusion consists of slowly replacing the recipient’s blood with donor blood, which helps in lowering the bilirubin levels. This once was the main treatment for neonatal jaundice until phototherapy was discovered. Exchange transfusion is rare in developed countries, and it is only used in emergencies of severe hyperbilirubinemia when phototherapy is not proving to be adequately fast (Murki & Kumar, 2011). Prenatal and postnatal care has also significantly improved over time, which has been shown to be a factor in the decline of the frequency of exchange transfusions (Steiner, Bizzarro, Ehrenkranz, et. al, 2007). Exchange transfusion is still common in developing countries (Murki & Kumar, 2011). | + | Blood exchange transfusion consists of slowly replacing the recipient’s blood with donor blood, which helps to lower the bilirubin levels. This once was the main treatment for neonatal jaundice until phototherapy was discovered. Exchange transfusion is rare in more developed countries, and it is only used in emergencies of severe hyperbilirubinemia when phototherapy is not proving to be adequately fast (Murki & Kumar, 2011). Prenatal and postnatal care has also significantly improved over time, which has been shown to be a factor in the decline of the frequency of exchange transfusions (Steiner, Bizzarro, Ehrenkranz, et. al, 2007). On the other hand, exchange transfusions are still quite common in developing countries that lack sufficient resources for phototherapy (Murki & Kumar, 2011). |
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====== Implications & Future Research ====== | ====== Implications & Future Research ====== | ||
- | ====Protective effects of Mild Hyperbilirubinemia==== | + | ====Protective Effects of Mild Hyperbilirubinemia==== |
Interestingly, bilirubin is a strong antioxidant and mild hyperbilirubinemia may have a protective effect against ischemic cardiovascular disease and cancer (Wang, Chowdhury J & Chowdhury N, 2006). In fact, a recent study looking at the history of colorectal cancer done on a large population reported the odds ratios to be reduced to 0.295 in men and 0.186 in women per 1 mg/dl increment in serum bilirubin levels (Wang, Chowdhury J & Chowdhury N, 2006). Furthermore, an inverse relationship between serum bilirubin levels and cancer mortality has also been reported (Wang, Chowdhury J & Chowdhury N, 2006). However, these findings do not suggest a direct cause-and-effect relationship and more research needs to be done in this area. | Interestingly, bilirubin is a strong antioxidant and mild hyperbilirubinemia may have a protective effect against ischemic cardiovascular disease and cancer (Wang, Chowdhury J & Chowdhury N, 2006). In fact, a recent study looking at the history of colorectal cancer done on a large population reported the odds ratios to be reduced to 0.295 in men and 0.186 in women per 1 mg/dl increment in serum bilirubin levels (Wang, Chowdhury J & Chowdhury N, 2006). Furthermore, an inverse relationship between serum bilirubin levels and cancer mortality has also been reported (Wang, Chowdhury J & Chowdhury N, 2006). However, these findings do not suggest a direct cause-and-effect relationship and more research needs to be done in this area. | ||