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1行目: | 1行目: | ||
− | == | + | ==Is this test useful: Practical - HIV== |
− | |||
− | Is this test useful | ||
− | |||
− | Practical - HIV | ||
*Q1 | *Q1 | ||
32行目: | 28行目: | ||
!With disease | !With disease | ||
!Without disease | !Without disease | ||
+ | !sum | ||
|- | |- | ||
!test positive | !test positive | ||
|38 | |38 | ||
|1999.2 | |1999.2 | ||
+ | |2037.2 | ||
|- | |- | ||
!test negative | !test negative | ||
|2 | |2 | ||
|97960.8 | |97960.8 | ||
+ | |97962.8 | ||
|- | |- | ||
!sum | !sum | ||
|40 | |40 | ||
|99,960 | |99,960 | ||
+ | |100,000 | ||
|} | |} | ||
− | *Positive predictive value=<math>\frac{38}{38+1999.2}=0. | + | *Positive predictive value=<math>\frac{38}{38+1999.2}=0.0187</math> |
*Negative predictive value=<math>\frac{97960.8}{2+97960.8}=0.999</math> | *Negative predictive value=<math>\frac{97960.8}{2+97960.8}=0.999</math> | ||
57行目: | 57行目: | ||
!test positive | !test positive | ||
|316.35 | |316.35 | ||
− | | | + | |13.34 |
|- | |- | ||
!test negative | !test negative | ||
− | | | + | |16.65 |
|653.66 | |653.66 | ||
|- | |- | ||
68行目: | 68行目: | ||
|} | |} | ||
*Positive predictive value=<math>\frac{316.35}{316.35+13.34}=0.959</math> | *Positive predictive value=<math>\frac{316.35}{316.35+13.34}=0.959</math> | ||
− | *Negative predictive value=<math>\frac{653.66}{ | + | *Negative predictive value=<math>\frac{653.66}{16.65+653.66}=0.975</math> |
*Q4 | *Q4 | ||
78行目: | 78行目: | ||
*Q6 | *Q6 | ||
We should advise the director that donors should be informed to proceed to an additional confirmation test, not just be informed simple positive result. | We should advise the director that donors should be informed to proceed to an additional confirmation test, not just be informed simple positive result. | ||
+ | |||
+ | ==Is this test useful: COVID-19 Practical== | ||
+ | *Question 1 | ||
+ | {|class="wikitable" | ||
+ | |- | ||
+ | ! | ||
+ | !RT-PCR Positive | ||
+ | !RT-PCR Negative | ||
+ | |- | ||
+ | !IgG/M RDT Positive | ||
+ | |91 | ||
+ | |6 | ||
+ | |- | ||
+ | !IgG/M RDT Negative | ||
+ | |7 | ||
+ | |174 | ||
+ | |- | ||
+ | !sum | ||
+ | |98 | ||
+ | |180 | ||
+ | |} | ||
+ | :Sensitivity=<math>\frac{91}{98} = 92.9\%</math> | ||
+ | :Specificity=<math>\frac{174}{180} = 96.7\%</math> | ||
+ | |||
+ | *Question 2 | ||
+ | **We should know each figures of positive results of IgG and IgM, because IgG only appears during convalescent period after acute infection and is of little use for bedside diagnosis. | ||
+ | **As well as we still don't know well when IgM appears in blood during acute phase of COVID, which means even IgM RDT may be of little use for bedside diagnosis. | ||
+ | **One more thing we have to be careful is that RT-PCR would show positive for a long period after infection like 2-4 weeks, thus even though RDT shows good sensitivity and specificity compared to RT-PCR collected from asymptomatic persons, RDT results do not necessarily reflect acute phase status. | ||
+ | |||
+ | *Discussion | ||
+ | |||
+ | |||
+ | *Question 3 | ||
+ | **(a) No | ||
+ | ***Given the prevalence of RT-PCR positive results count 50% of asymptomatic HCWs, why antibody RDT might help to lift self-isolation of mildly symptomatic HCWs .... ? Icouldn't understand what this question wanted to ask. | ||
+ | **(b) No | ||
+ | ***Because IgM/G RDT positive results cannot tell whether the patients are in acute or convalescent or post-infection status. | ||
+ | **(c) Partially yes | ||
+ | ***If combination of negative IgM and positive IgG truly meant post-infection and guaranteed definite immunity, the RDT could be used for the purpose. | ||
+ | |||
+ | *Question 4 | ||
+ | **We still could not have established definite gold or reference standard against acute infection of COVID, so I guess the only possible reference standard against new RT-PCR would be existing RT-PCR. |
2021年4月14日 (水) 09:56時点における最新版
Is this test useful: Practical - HIV
- Q1
With disease | Without disease | |
---|---|---|
test positive | 152 | 20 |
test negative | 8 | 980 |
- Q2
- Sensitivity=[math]\displaystyle{ \frac{152}{160} = 0.95 }[/math]
- Specificity=[math]\displaystyle{ \frac{980}{1000} = 0.98 }[/math]
- Q3
a)
With disease | Without disease | sum | |
---|---|---|---|
test positive | 38 | 1999.2 | 2037.2 |
test negative | 2 | 97960.8 | 97962.8 |
sum | 40 | 99,960 | 100,000 |
- Positive predictive value=[math]\displaystyle{ \frac{38}{38+1999.2}=0.0187 }[/math]
- Negative predictive value=[math]\displaystyle{ \frac{97960.8}{2+97960.8}=0.999 }[/math]
b)
With disease | Without disease | |
---|---|---|
test positive | 316.35 | 13.34 |
test negative | 16.65 | 653.66 |
sum | 333 | 667 |
- Positive predictive value=[math]\displaystyle{ \frac{316.35}{316.35+13.34}=0.959 }[/math]
- Negative predictive value=[math]\displaystyle{ \frac{653.66}{16.65+653.66}=0.975 }[/math]
- Q4
To have high sensitivity is more important, because testing blood donor is a screening test and false-negative has to be excluded as much as possible.
- Q5
We need to calculate PPV and show the director how much false-positive donors arise.
- Q6
We should advise the director that donors should be informed to proceed to an additional confirmation test, not just be informed simple positive result.
Is this test useful: COVID-19 Practical
- Question 1
RT-PCR Positive | RT-PCR Negative | |
---|---|---|
IgG/M RDT Positive | 91 | 6 |
IgG/M RDT Negative | 7 | 174 |
sum | 98 | 180 |
- Sensitivity=[math]\displaystyle{ \frac{91}{98} = 92.9\% }[/math]
- Specificity=[math]\displaystyle{ \frac{174}{180} = 96.7\% }[/math]
- Question 2
- We should know each figures of positive results of IgG and IgM, because IgG only appears during convalescent period after acute infection and is of little use for bedside diagnosis.
- As well as we still don't know well when IgM appears in blood during acute phase of COVID, which means even IgM RDT may be of little use for bedside diagnosis.
- One more thing we have to be careful is that RT-PCR would show positive for a long period after infection like 2-4 weeks, thus even though RDT shows good sensitivity and specificity compared to RT-PCR collected from asymptomatic persons, RDT results do not necessarily reflect acute phase status.
- Discussion
- Question 3
- (a) No
- Given the prevalence of RT-PCR positive results count 50% of asymptomatic HCWs, why antibody RDT might help to lift self-isolation of mildly symptomatic HCWs .... ? Icouldn't understand what this question wanted to ask.
- (b) No
- Because IgM/G RDT positive results cannot tell whether the patients are in acute or convalescent or post-infection status.
- (c) Partially yes
- If combination of negative IgM and positive IgG truly meant post-infection and guaranteed definite immunity, the RDT could be used for the purpose.
- (a) No
- Question 4
- We still could not have established definite gold or reference standard against acute infection of COVID, so I guess the only possible reference standard against new RT-PCR would be existing RT-PCR.