3/22 LD50/Dose Response Curve
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Last updated 7 months ago
13 questions
1
Consider the LD50 graph of Drug X below. To find the LD50 for the compound, draw a horizontal line starting at 50% on the y-axis and ending on the graphed line, then drop a vertical dashed line from that point to the x-axis. Draw. The x-value at this point is the LD50 of Drug X.
What is the LD50 level of Drug X?
Consider the LD50 graph of Drug X below. To find the LD50 for the compound, draw a horizontal line starting at 50% on the y-axis and ending on the graphed line, then drop a vertical dashed line from that point to the x-axis. Draw. The x-value at this point is the LD50 of Drug X.
What is the LD50 level of Drug X?
1
A different drug is tested and found to have an LD50 level of 5mg/kg. Would you consider this drug to be more or less dangerous than Drug X?
A different drug is tested and found to have an LD50 level of 5mg/kg. Would you consider this drug to be more or less dangerous than Drug X?
1
A different drug is tested and found to have an LD50 level of 5mg/kg. Would you consider this drug to be more or less dangerous than Drug X? Explain.
A different drug is tested and found to have an LD50 level of 5mg/kg. Would you consider this drug to be more or less dangerous than Drug X? Explain.
1
Rank the following compounds in order, starting with the highest LD50 level (top), and ending with the lowest LD50 level bottom: nicotine, sodium chloride, ethanol, sucrose.
Rank the following compounds in order, starting with the highest LD50 level (top), and ending with the lowest LD50 level bottom: nicotine, sodium chloride, ethanol, sucrose.
- Sodium Chloride
- Ethanol
- Nicotine
- Sucrose
1
Graph each and determine their LD50 levels. To find the Death rate (%), divide the number of deaths per dose by the total sample size. Then multiply by 100. (EX: for dose 1 [8/190=0.042 X 100 = 4.2%])
Graph each and determine their LD50 levels. To find the Death rate (%), divide the number of deaths per dose by the total sample size. Then multiply by 100. (EX: for dose 1 [8/190=0.042 X 100 = 4.2%])
1
Graph each and determine their LD50 levels. To find the Death rate (%), divide the number of deaths per dose by the total sample size. Then multiply by 100. (EX: for dose 1 [2/210=0.0095 X 100 = 0.95%])
Graph each and determine their LD50 levels. To find the Death rate (%), divide the number of deaths per dose by the total sample size. Then multiply by 100. (EX: for dose 1 [2/210=0.0095 X 100 = 0.95%])
1
At about what minimum dose is the LD50 of sodium cyanide breached?
At about what minimum dose is the LD50 of sodium cyanide breached?
1
At about what minimum dose is the LD50 of arsenic breached?
At about what minimum dose is the LD50 of arsenic breached?
1
Which is more dangerous based on the data, assuming that dose size is equal: arsenic, or sodium cyanide?
Which is more dangerous based on the data, assuming that dose size is equal: arsenic, or sodium cyanide?
1
Why is LD50 data so useful in dealing with human health and environmental toxins?
Why is LD50 data so useful in dealing with human health and environmental toxins?
1
In the course of measuring this data, many thousands of lab mice and rats have been killed. Do you consider this to be ethical research? Why is data collected on lab mice instead of humans? Would it be more ethical to use a species that is more closely related to us, such as chimpanzees? Explain your opinion.
In the course of measuring this data, many thousands of lab mice and rats have been killed. Do you consider this to be ethical research? Why is data collected on lab mice instead of humans? Would it be more ethical to use a species that is more closely related to us, such as chimpanzees? Explain your opinion.
1
LD50 stands for the
LD50 stands for the
1
A dose reponse curve describes
A dose reponse curve describes