SMHS OR RR

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Scientific Methods for Health Sciences - Odds Ratio and Relative Risk

HS 550: Fundamentals

Odds Ratio/Relative Risk

1) Overview: The relative risk is measure of dependence which allows us to compare probabilities in terms of their ratio (\(\frac{P_1}{P_2}\) ) rather than their difference (\(p_1 – p_2\)). The relative risk measure is widely used in many studies of public health. Another way to compare two probabilities is in terms of the odds. If an event takes place with probability p, then the odds in favor of the event are p/(1 - p). The odds ratio is the ratio of odds for two probabilities.


Motivation: Suppose we study Brain Cancer in the context of cell phone use. The table below illustrates some (simulated) data. One clear healthcare question in this case-study could be: “Is cell phone use associated with higher incidence of brain cancer?” To address this question, we can look at the relative risk of cell-phone usage.

Brain cancer
Yes No Total
Cell Phone Use Yes 18 80 98
No 7 95 102
Total 25 175 200


Computing the (conditional!) probabilities (P) of brain cancer (BC) given either cell-phone use, P1, no cell-phone use, P2, we can form their ratio to determine if the relative risk of brain cancer (BC) is higher in cell-phone users (CP), relative to non-users (NCP).

\(P_1= P(BC|CP) = (18 )/98= 0.184\) \(P_2= P(BC|NCP) = 7/102 = 0.069\)

So the relative risk is: RR=0.184/0.069 = 2.67.

The risk of having brain cancer is more than 2.5 times greater for cell-phone users when compared to non-cell phone owners.

For the same example, the odds ratio (OR) of brain cancer relative to cell-phone use is:

SMHS OR RR Fig 1Brain cancer to cell phone Gallaway 07152014.png



Thus, the odds of having brain cancer is about 3 times greater for cell phone owners when compared to non-cell phone owners. We could have compared the odds of owning a cell phone, given that a patient had brain cancer (i.e., the column-wise probabilities), P(CP|BC) = 18/25 = 0.72 versus P(CP|NBC) = 80/175 = 0.457. However this does not seem as important scientifically.


Factor 1 Total
Yes No
Factor 2 Yes n_1,1 N_1,2 n_1,1+n_1,2
No n_2,1 n_2,2 n_2,1+n_2,2
Total n_1,1 + n_2,1 n_1,2 + n_1,2 N


OR=(n_1,1×n_2,2)/(n_1,2×n_2,1 )


  • Interpretation: In general, relative risk (RR) measure is interpreted as follows
    • RR = 1 indicates that the probabilities of two events are the same.
    • RR > 1 implies that there is increased risk
    • RR < 1 implies that there is decreased risk


  • Interpretation of OR:
    • If event A|B has probability p = ½, then the odds are (1/2)/(1/2) =1, or 1 to 1 (the probability that event A|B occurs is equal to the probability that it does not occur).
    • If event A|C has probability p = ¾, then the odds are (3/4)/(1/4) = 3, or 3 to 1 (the probability that event A|C occurs is three times as large as the probability that it does not occur).
    • Similarly, if A|D has probability p = ¼, then the odds are (1/4)/(3/4) = 1/3, or 1 to 3 (the probability that event A|D occurs is three times smaller the probability that it does not occur).


  • RR vs. OR
    • The formula and reasoning for the relative risk is a little bit easier to follow. In most cases the two measures are roughly equal to each other.
    • Odds ratios have an advantage over relative risk because they can be calculated no matter the row or column comparison
    • Relative risk runs into problems when the study design is a cohort study or a case-control design
    • Odds ratios are an approximation of relative risk: OR = RR×(1-P_2)/(1-P_1 ).


Inference about the Odds Ratio: In practice, we commonly to report odds ratios along with their Confidence Intervals (CIs). It turns out that the distribution of OR’s is not normal, however, the log-transformed OR is approximately normally distributed, and the standard error of ln(OR) is:

SE(ln⁡(OR))= √(1/n_1,1 +1/n_1,2 +1/n_2,1 +1/n_2,2 ).

Thus, the (1-a)100% CI (of the log-transformed OR), where is the false-positive (Type I) error rate, can be computed by:

ln(OR)±z_(a/2) SE(ln⁡(OR) ), where odds-ration point-estimate is OR=(n_1,1×n_2,2)/(n_1,2×n_2,1 ) and the standard error of the log-transformed OR is listed above (SE(ln⁡(OR))).

You can use the SOCR Student’s T-distribution calculators (see Software below) to compute the value of the standard-normal Z statistics (for a given false-positive error rate ).


NOTE: Remember that once you find the lower (L=ln(OR)-z_(a/2) SE(ln⁡(OR) )) and upper (U=ln(OR)+z_(a/2) SE(ln⁡(OR) )) limits of the ln(OR) confidence interval, these represent log-transformed data. To convert these confidence limits into real OR terms, you need to invert the log transform (using the exponential function). This the CI(OR) would be: (e^L ,e^R ).


Applications

4.1) This article (http://www.sciencedirect.com/science/article/pii/S0020748912004166, http://dx.doi.org/10.1016/j.ijnurstu.2012.11.014) studies retrospectively the relationship between surveillance, staffing, and serious adverse events in children on general care postoperative units. The paper investigates these hypotheses: (1) the relationship between patient factors and surveillance would be moderated by staffing (i.e., registered nurse hours per patient per shift), and (2) the relationship between staffing and serious adverse events would be mediated by surveillance.

The study shows that one additional registered nurse full-time equivalent per day reduced the odds of in-hospital mortality, respiratory failure, pneumonia, and failure to rescue, with the greatest cost-benefit for adult surgical patients. Table 4 of the results show the OR and CI(OR). Interpret the findings.


Table 4. Predictors of adverse events as shown in final logistic regression analysis.

Factors β (S.E.) p-Value Odds ratio [95% CI)
Staffing −0.41 (0.33) 0.219 0.66 [0.35, 1.28]
American Society of Anesthesiologists Physical Status 0.94 (0.39) 0.017 2.57 [1.88, 5.55]
Comorbidity 0.57 (0.43) 0.189 1.76 [0.76, 4.12]
Perioperative complication 0.64 (0.22) 0.003 1.90 [1.24, 2.92]
Interaction staffing × surveillance −1.04 (0.42) 0.012 0.354 [0.157, 0.798]


4.2) This article (http://www.ncbi.nlm.nih.gov/pmc/articles/PMC3308724/) investigates whether hospitals with a good organization of care (e.g., improved nurse staffing and work environments) can affect patient care and nurse workforce stability in European countries. It uses data from 488 clinics in 12 European countries; 617 in the United States) and is based on 33,659 nurses and 11,318 patients in Europe; 27,509 nurses and more than 120,000 patients in the US.

Some of the authors’ findings included (a) nurses in hospitals with better work environments were half as likely to report poor or fair care quality (Europe, adjusted odds ratio 0.56, 95% confidence interval 0.51 to 0.61; US, 0.54, 0.51 to 0.58) and (b) to give their hospitals poor or failing grades on patient safety (0.50, 0.44 to 0.56 EU; 0.55, 0.50 to 0.61 US).

Interpret the results in Table 6. Note that in this nurse outcomes study, the authors adjusted the regression estimates (odds ratios) at the hospital level for differences in the composition of nurses between hospitals and between countries (age, sex, full time employment status, and specialty) by a multilevel model structure in which nurses were nested within hospitals and countries.

Table 6: Effects of nurse staffing and practice environment on nurse outcomes in study countries


(1.04 to 1.08) (1.02 to 1.09) (1.08 to 1.15) (1 to 1.06) Job dissatisfaction  Practice environment 0.63 0.52 0.58 0.6 (0.57 to 0.69) (0.47 to 0.57) (0.55 to 0.61) (0.57 to 0.64)  Staffing 1.1 1.07 1.17 1.06 (1.08 to 1.12) (1.04 to 1.11) (1.13 to 1.21) (1.03 to 1.09) Intention to leave in the next year  Practice environment 0.72 0.61 0.7 0.69 (0.66 to 0.79) (0.56 to 0.67) (0.65 to 0.76) (0.64 to 0.75)  Staffing 1.04 1.05 1.1 1.03 (1.01 to 1.06) (1.02 to 1.09) (1.05 to 1.15) (0.98 to 1.08) Not confident that patients can manage own care after hospital discharge  Practice environment 0.62 0.73 0.71 0.72 (0.56 to 0.69) (0.69 to 0.78) (0.67 to 0.75) (0.68 to 0.77)  Staffing 1.08 (1.05 to 1.11) 1.03 (1 to 1.05) 1.1 1.04 (1.06 to 1.13) (1.01 to 1.07) Not confident that hospital management would resolve patients’ problems  Practice environment 0.5 0.53 0.56 0.56 (0.46 to 0.54) (0.48 to 0.58) (0.53 to 0.59) (0.54 to 0.59)  Staffing 1.04 1.02 1.12 1.01 (1.01 to 1.07) (0.98 to 1.06) (1.09 to 1.17) (0.98 to 1.03)
Nurse Outcome Europe US
Unadjusted odds ratio (95% CI) Adjusted odds ratio (95% CI) Unadjusted odds ratio (95% CI) Adjusted odds ratio (95% CI)
Poor or fair quality of care in ward
Practice environment 0.58 0.56 0.52 0.54
(0.53 to 0.63) (0.51 to 0.61) (0.49 to 0.56) (0.51 to 0.58)
Staffing 1.11 1.11 1.2 1.06
(1.08 to 1.13) (1.07 to 1.15) (1.16 to 1.25) (1.03 to 1.1)
Poor or fair quality of care in ward
Practice 0.5 0.5 0.53 0.55
environment (0.43 to 0.57) (0.44 to 0.56) (0.48 to 0.59) (0.5 to 0.61)
Staffing 1.04 1.1 1.18 1.05
(1.01 to 1.08) (1.05 to 1.16) (1.12 to 1.23) (1 to 1.1)
Burnout
Practice 0.69 0.67 0.69 0.71
environment (0.63 to 0.76) (0.61 to 0.73) (0.66 to 0.73) (0.68 to 0.75)
Staffing 1.06 1.05 1.12 1.03

6) Software http://www.distributome.org/V3/calc/StudentCalculator.html http://socr.umich.edu/Applets/Normal_T_Chi2_F_Tables.html



7) Problems

Formulate some clinically relevant questions in terms of the OR and RR and try to answer them in the following situations. Interpret the results. E.g., the estimate of the relative risk of a heart attack is about <blank> as great for those who smoke versus who do not smoke. Compute the CI (OR).


Heart Attack (HA) Total Yes No Smoking (S) Yes 33 18 51 No 167 182 349 Total 200 200 400





8) References http://www.sciencedirect.com/science/article/pii/S0020748912004166 http://www.ncbi.nlm.nih.gov/pmc/articles/PMC3308724/ http://www.sciencedirect.com/science/article/pii/S0378375812001954





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