Thursday, November 14, 2019

Genetic Screening :: Science Genes Biology Papers

Genetic Screening What is genetic screening? Health care is becoming more and more of a concern today as the profession is constantly creating new procedures and what we hope are better ways to administer care. How would things be, though, if patients could be told beforehand what diseases they are likely to contract in the future? This is where genetic screening comes into play. Genetic screening is the ability to examine the genetic code for possible defects and the consequences thereof. What is a genetic disease? Professor Kare Berg of the University of Oslo describes genetic diseases as "†¦(including) diseases caused by a mutant gene at a single locus (Mendelian diseases), disorders caused by numerical or structural chromosomal anomalies, and diseases or malformations caused by the action of several genes or by interaction between genes and environmental factors" (1996). How can we test for these defects? Most often, a simple blood test can supply enough DNA to perform a thorough examination. Researchers are also developing new ways to test the genes of the unborn. For example, a new test in Korea extracts eggs from the mother and brings them to maturity. The eggs are then fertilized with the husband’s sperm and allowed to divide once or twice. A cell is then removed from each group and tested for known genetic diseases. University of California at San Francisco professor Yuet Wai Kan has developed a way to test an unborn baby’s blood without the use of amniocentesis. A blood sample is taken from the mother and immature red blood cells from the fetus are separated. Kan’s team can then run tests on these immature red blood cells. The procedure is said to be tedious but does not require expensive equipment or the costly time of an obstetrician, not to mention the pain that can accompany amniocentesis. Social, Economic, and Moral Issues Science is constantly seeking new uses for what we learn from genetics. Not everyone, however, is in favor of such findings. There are many things to consider as we put what we learn about genetics out for the world to see. How and when are these tests to be performed? Should they be performed? Who has the right to see the results of these tests? Who has the right to suggest such testing? Genetic tests and their results can have serious consequences on the lives of people tested and those who surround them. For instance, if employers know of an applicant who is susceptible to a deadly disease, they could most likely refrain from hiring the individual and save themselves trouble down the road. Genetic Screening :: Science Genes Biology Papers Genetic Screening What is genetic screening? Health care is becoming more and more of a concern today as the profession is constantly creating new procedures and what we hope are better ways to administer care. How would things be, though, if patients could be told beforehand what diseases they are likely to contract in the future? This is where genetic screening comes into play. Genetic screening is the ability to examine the genetic code for possible defects and the consequences thereof. What is a genetic disease? Professor Kare Berg of the University of Oslo describes genetic diseases as "†¦(including) diseases caused by a mutant gene at a single locus (Mendelian diseases), disorders caused by numerical or structural chromosomal anomalies, and diseases or malformations caused by the action of several genes or by interaction between genes and environmental factors" (1996). How can we test for these defects? Most often, a simple blood test can supply enough DNA to perform a thorough examination. Researchers are also developing new ways to test the genes of the unborn. For example, a new test in Korea extracts eggs from the mother and brings them to maturity. The eggs are then fertilized with the husband’s sperm and allowed to divide once or twice. A cell is then removed from each group and tested for known genetic diseases. University of California at San Francisco professor Yuet Wai Kan has developed a way to test an unborn baby’s blood without the use of amniocentesis. A blood sample is taken from the mother and immature red blood cells from the fetus are separated. Kan’s team can then run tests on these immature red blood cells. The procedure is said to be tedious but does not require expensive equipment or the costly time of an obstetrician, not to mention the pain that can accompany amniocentesis. Social, Economic, and Moral Issues Science is constantly seeking new uses for what we learn from genetics. Not everyone, however, is in favor of such findings. There are many things to consider as we put what we learn about genetics out for the world to see. How and when are these tests to be performed? Should they be performed? Who has the right to see the results of these tests? Who has the right to suggest such testing? Genetic tests and their results can have serious consequences on the lives of people tested and those who surround them. For instance, if employers know of an applicant who is susceptible to a deadly disease, they could most likely refrain from hiring the individual and save themselves trouble down the road.

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