Answer the following. (5 pts ea)
- A study is conducted to estimate survival in patients following kidney transplant. Key factors that adversely affect success of the transplant include advanced age and diabetes. This study involves 25 participants who are 65 years of age and older and all have diabetes. Following transplant, each participant is followed for up to 10 years. The following are times to death, in years, or the time to last contact (at which time the participant was known to be alive).
Deaths:
1.2
,
2.5
,
4.3
,
5.6
,
6.7
,
7.3
and
8.1
years
Alive:
3.4
,
4.1
,
4.2
,
5.7
,
5.9
,
6.3
,
6.4
,
6.5
, 7.3,
8.2
,
8.6
,
8.9
,
9.4
,
9.5
, 10, 10, 10, and 10 years
Use the life table approach to estimate the survival function. Use years intervals of
0-2
;
2-4
;
Complete the table below
.
Interval in Years |
Number At Risk During Interval, Nt |
Average Number At Risk During Interval, Nt* =Nt-Ct /2 |
Number of Deaths During Interval, Dt |
Lost to Follow-Up, Ct |
Proportion Dying qt = Dt/Nt* |
Proportion Surviving pt = 1-qt
|
Survival Probability St = pt*St-1 |
1. cont.
Use the Kaplan-Meier approach to estimate the survival function.
Complete the table below
Time, Years |
Number at Risk Nt |
Number of DeathsDt |
Number Censored Ct |
Survival Probability
St+1 = St*((Nt-Dt)/Nt) |
||||||||||||
10.0 |
1. cont.
Referring to the graph above –
What is the probability of surviving 6.5 years?
- A. None
- B. 0.85
- C. 0.60
- D. 0.90
Patients have an 85% chance of surviving how many years?
- A. 6.0
- B. 4.25
- C. 3.2
- D. 5.5
- 2. An observational cohort study is conducted to compare time to early failure in patients undergoing joint replacement surgery. Of specific interest is whether there is a difference in time to early failure between patients who are considered obese versus those who are not. The study is run for 40 weeks and times to early joint failure, measured in weeks, are shown below for participants classified as obese or not at the time of surgery.
Obese
Not Obese
Failure
No Failure
FailureNo Failure
Estimate the survival functions (time to early joint failure) for each group using the Kaplan-Meier approach.
Complete the table below.
Obese
Time, Weeks |
Number of Events (Joint Failures) Dt |
|||
2. cont.
Non-Obese
Complete the table below.
To answer the question as to whether or not there is a difference in time to early joint failure between obese and non-obese patients undergoing joint replacement surgery – a Chi square statistic is computed. The critical value for rejection of the null hypothesis is 3.84. The computed Chi square is 0.339.
Based on comparing the computed Chi square and the critical Chi square which of the following is (are) true?
- A. There is not statistically significant evidence to show that the time to early joint failure between obese and non-obese patients undergoing joint replacement surgery is different between groups.
- B. There is statistically significant evidence to show that the time to early joint failure between obese and non-obese patients undergoing joint replacement surgery is different between groups.
- C. The time to early joint failure is essentially the same for each group.
- D. a and c.
2. cont.
The hazard ratio for early joint failure between obese and non-obese patients undergoing joint replacement surgery is 1.555. Based on this computation which of the following is (are) true?
- A. The risk of early joint failure is 1.55 times higher in obese patients as compared to non obese patients.
- B. The risk of early joint failure is 0.643 times as high for non-obese patients as compared to obese patients.
- C. The risk of early joint failure is 1.55 times higher in obese patients as compared to non obese patients.
- D. a and b
- 3. A clinical trial is conducted to evaluate the efficacy of a new drug for prevention of hypertension in patients with pre-hypertension (defined as systolic blood pressure between 120-139 mmHg or diastolic blood pressure between 80-89 mmHg). A total of 20 patients are randomized to receive the new drug or a currently available drug for treatment of high blood pressure. Participants are followed for up to 12 months and time to progression to hypertension is measured. The experiences of participants in each arm of the trial are shown below.
New Drug
Currently Available Drug
Hypertension
Free of Hypertension
HypertensionFree of Hypertension
Estimate the survival (time to progression to hypertension) functions for each treatment group using the Kaplan-Meier approach.
3. cont.
New DrugComplete the table below.
Time, Months |
Number of Events (Hypertension) Dt |
|
Currently Available DrugComplete the table below.
3. cont.
To answer the question as to whether or not there is a difference in time to progression – a Chi square statistic is computed. The critical value for rejection of the null hypothesis is 3.84. The computed Chi square is 0.335.
Based on comparing the computed Chi square and the critical Chi square which of the following is (are) true?
- A. There is not statistically significant evidence to show that the time to progression is different between groups.
- B. There is statistically significant evidence to show that the time to progression is different between groups.
- C. The time to progression is essentially the same for each group.
D. a and c.
The hazard ratio risk of progression to hypertension is 0.658. Based on this computation which of the following is (are) true?
- A. The risk of progression to hypertension is reduced by 34.2% in patients assigned to the new drug as compared to the currently available drug.
- B. The risk of progression to hypertension is 1.52 times higher in patient’s current drug as compared to the new drug.
- C. The risk of progression to hypertension is 5.12 times higher in patient’s current drug as compared to the new drug
D. a and b
Total Points for Chapter Problems 8: /15