Understanding pharmacogenomics can help doctors give better treatment to patients. This means that they can choose the right medicines based on a person’s unique genes.
Here are some important points:
Genetic Differences: About 30% of why people respond differently to medications comes from their genes. This means that not everyone reacts the same way to the same medicine.
Bad Reactions to Medicine: Around 7% of people end up in the hospital because of bad reactions to medications. Pharmacogenomics might help reduce this by 30-60%.
Effectiveness: Up to 10% of patients might not get better with standard doses of medicine. This happens because of differences in how their bodies break down drugs. One important group of enzymes that help with this is called CYP450.
By personalizing treatment with pharmacogenomics, doctors can make medicines work better for each person and reduce the chances of harmful effects. This leads to healthier outcomes for patients!
Understanding pharmacogenomics can help doctors give better treatment to patients. This means that they can choose the right medicines based on a person’s unique genes.
Here are some important points:
Genetic Differences: About 30% of why people respond differently to medications comes from their genes. This means that not everyone reacts the same way to the same medicine.
Bad Reactions to Medicine: Around 7% of people end up in the hospital because of bad reactions to medications. Pharmacogenomics might help reduce this by 30-60%.
Effectiveness: Up to 10% of patients might not get better with standard doses of medicine. This happens because of differences in how their bodies break down drugs. One important group of enzymes that help with this is called CYP450.
By personalizing treatment with pharmacogenomics, doctors can make medicines work better for each person and reduce the chances of harmful effects. This leads to healthier outcomes for patients!