Week 9. Evaluating Prognostic Literature

Question 1

Define prognosis

Answer 1

examining possible outcomes of a condition or disease and the likelihood they will occur baed on patient “presenting” or baseline characteristics.

Question 2

Example of patient questions

Answer 2

• when can I return to playing sport
• when will I walk? Will I ever walk again?
• Will I get better?
• When can I go back to work?

Question 3

Clinical importance of accurate prognosis?

Answer 3

1. Expectation:
   helps therapist educate patient about appropriate expectations
2. Defined outcomes:
   define expected outcomes from therapy
3. Prevent bad outcomes:
   possibly prevent bad outcomes through education and intervention

Question 4

Caution with prognosis

Answer 4

we should not divulge prognosis just because we know what they are. Some pt don’t want to know their prognosis, especially if it is not good. Know when and how to inform patient of poor prognosis

Question 5

What is prognostic factor?

Answer 5

Also known as determinant

A presenting or baseline characteristic that is measurable and associated with patient’s eventual outcome.

Question 6

Example of prognostic factor (determinant)

Answer 6

• demographics (age, sex)
• disease/condition (e.g. previous injury; pre-injury status)
• Clinical status (severity, level of disability)
• Comorbidity (other medical condition)

It is not an intervention

Question 7

Why does prognosis precede therapy

Answer 7

prognosis = observation 
therapy = interventional studies 

1. identify modifiable characteristics through observation
2. test what happens when characteristics are modified through intervention

Question 8

Prognostic factors: modifiable vs. non-modifiable

Answer 8

Non-mod.

• age
• sex
• social-economic
• culture
• past history
• genetics
• comorbidity

Mod.

• pre-condition status
• strength
• ROM
• balance
• belief, emotion, behaviour
• loading demand
• lifestyle

Question 9

Potential Outcome Measures

Answer 9

1. Survival
   - patient, implant, repair
2. Recovery
   - rate and time
3. Recurrence/re-injury

Question 10

Prognostic factor vs. risk factor

Answer 10

RISK: associated with development of a disease/condition (before onset)

PROGNOSTIC: associated with recovery form a disease/condition (after onset)

risk –> risk factor –> condition/event –> prognostic factor –> prognosis

Question 11

Prognostic Study designs: RTC

Answer 11

cannot do RCT on prognosis because cannot assign or randomize subjects, but data from RCT are used in study prognosis

Question 12

Prognostic Study design: observation

Answer 12

• PS are observational because cannot assign or randomize subjects, rather just have to look at different characteristics.
• look at outcomes associated with having or not having a factor at time of study entry

Question 13

Prognostic Study Design: level 1 evidence for study

Answer 13

Prospective cohort (follow patients over time) = Longitudinal study

1. Natural course = follow untreated patients
2. Clinical course = follow patients treated in usual way

Question 14

Longitudinal Design

Answer 14

A study of the same participant(s) at more than one point in time

• Prospective (enrol –> follow up)
• Retrospective (enrolled –> recall)

Question 15

Inception cohort Design

Answer 15

Patients at similar point in their condition

• Incident = new cases (best for prognosis studies)
• Prevalent = any cases (including pts who already have bad outcomes, survivor cohorts)

Question 16

Levels of Prognostic Study Designs

Answer 16

Level 1: SR of prospective cohort studies

Level 2: Prospective/inception cohort study

Level 3-4: dependent upon quality

• retrospective cohort
• case-control, case series

Question 17

Example of level of evidence: “What will happen if we do not add a therapy”

Answer 17

Level 1: Systematic review of inception cohort studies

Level 2: inception cohort studies

Level 3: Cohort study or control arm of randomized trial

Level 4: case-series or case-control studies, or poor quality prognostic cohort studies

Question 18

What is the main factor that must be included in prognoses

Answer 18

Prognosis have to be associated with a time

e. g.
1) 80% chance of pt with grade 2 lateral ankle sprain returning to sport within 1 month

2) 11% 5-year risk of injury contralateral ACL in patient undergoing ACL reconstruction
3) 20% 10-year risk of LT work disability in patients with MS

Question 19

Search terms:

Answer 19

‘predict’
‘prognos*’
‘prognostic factor’
‘predictive validity’

Question 20

Building Prognosis Question: what do we need to consider

Answer 20

1. Population/patient
   - how do I describe patient similar to mine
2. prognostic factor
   - which predictive factors I using
3. outcome/timeframe
   - what disease progression can be expected?

Question 21

~38 year old female with history of right shoulder rotator cuff repair
Post-surgical protocol said no skiing or heavy lifting for 1 year
After 1 year the patient wants to return to skiing, but is afraid of re-injury
Asking whether it is ok to return to ski

Research question?

Answer 21

Does preoperative quads strength affect postoperative function after Total Knee Arthroplasty?

Question 22

How do we know if question is prognosis or intervention study?

Answer 22

Can we randomize population group? No, then likely a prognosis.

Question 23

Example of prognosis vs. intervention question for TKA.

Answer 23

Prognosis
Does preoperative quads strength affect postoperative function after Total Knee Arthroplasty?

Intervention
Does quads strengthening prior to Total Knee Arthroplasty improve function?

Question 24

Evaluate using critical appraisal tool: overarching/essential questions

Answer 24

• Are the Results Valid? (Review methods)
• What are the Results? (Review & interpret the results)
• Can I apply them to my patient(s)? (Look at inclusion/exclusion for applicability, quality of study, change in outcome associated with a factor)

Question 25

Prognosis Study Appraisal is similar to?

Answer 25

appraisal is very similar to appraisal of RCTs

Question 26

Criteria for determining if the results are valid

Answer 26

1) Was there representative sampling from a well-defined population?
2) Was there an inception cohort?
3) Was there complete or near complete follow-up?
4) Were objective, unbiased outcome criteria used?
5) Was there adjustment for important prognostic factors and potential cofounder?

Question 27

Was there representative sampling from a well-defined population?

Answer 27

• start by looking whether the study recruited “all” patient or “consecutive” cases

If not, study may provided biased estimates of true prognosis

Question 28

Was there an inception cohort?

Answer 28

similar point in their condition

• Incident = new cases (best for prognosis)
• Prevalent = any cases (includes patient who may already have bad outcomes, survivor cohort)

Question 29

Follow-up

Answer 29

Follow-up long enough for events to occur

- completion rate should be >80% (ideally >85%)

Question 30

Were objective, unbiased outcome criteria used?

Answer 30

• measurable

- reproducible

Question 31

Adjustments for prognostic factors and potential confounders?

Answer 31

confounder = variable that correlates with both the dependent and independent variables in a way that explains a way some or all of the correlation between these two variable

Example: 3rd factor (being Z) is the potential confounder
Every time Z changes X and Y have the potential to change
If X changes due to this and Z is ignored it would be assumed Y is the changer when really Z is the confounder

Question 32

Confounding example: does age affect pain after TKA

• outcome
• prognostic factor
• confounder

Answer 32

• outcome = pain
• prognostic factor = age
• confounder = type of implant used (affects pain, implant closed based upon age)

Question 33

Example: Recovery of function after thoracic surgery

• outcome
• prognostic factor
• confounder

Answer 33

• outcome: function
• prognostic factor: pre-operative health status (age, pain intensity, severity of condition, supportive family)
• confounder: comorbidity

Question 34

Adjustments for all important prognostic factors/potential confounders

Answer 34

Sample size:

• typically need 10 patients that had the outcome for every 1 factor in analysis
• large samples can use a lot of potential factors

Question 35

How likely are the outcomes: mean difference

Answer 35

compare mean differences (e.g. function) between two groups

Question 36

How likely are the outcomes: odds/risks ratio

Answer 36

predict odds or risk of events occurring in the presence of prognostic factors in a single point in time

Question 37

How likely are the outcomes: hazard ratios

Answer 37

predict odds of event occurring in the presence/absence of prognostic factors over time

Question 38

How likely are the outcomes: Survival curve

Answer 38

Graph of discrete events/non-events occurring over a defined time. In most clinical situations, the chance of an outcome changes with time. Earlier follow-up results are more precise because there are more patients.

Question 39

Diagnostic 2x2 table a-d

Answer 39

a = true +
b = false +
c = false -
d = false +

Question 40

Formula
odds ratio
risk ratio

Answer 40

odds ration = ad/bc

risk ratio = [a/(a+b)] / [c/(c+d)]

Question 41

Written explanation of OR and RR

Answer 41

OR = # times the ODDS more likely to

RR = # times more likely to

Question 42

Interpreting statistics: Odds/Risk/Hazard Ratio

Answer 42

Odds/Risk/Hazard Ratio

= 1 no increased/decreased risk of the outcome occurring associated with that factor

> 1 = outcome expect to occur more often in exposed relative to non-exposed

< 1 = outcome expected to occur less in exposed relative to non-exposed

Question 43

Why do we use 95% CI to determine how precise are estimates of likelihood?

Answer 43

1) CI indicate strength of effect and precision of estimates
2) includes estimate of effect and range (interval) of possible estimate if study were repeated
3) Wide CI = less precise estimate of effect
4) Narrow CI = precise estimate of effect

Question 44

How to narrow CI

Answer 44

• increase sample size

- increase number or outcomes

Question 45

What does precision indicate?

Answer 45

does not give magnitude of effect, but rather the possible range for magnitude

• precise & significant
• precise & NS
• non-precise & S
• non-precise & NS

Question 46

Adjustment of 2x2 table: univariable

Answer 46

considers 1 factor and its association with an outcome (aka univariable or invariable analysis)

Question 47

Adjustment of 2x2 table: multivariable

Answer 47

more commonly, we look at impact of multiple factors and their association with the outcome at the same time (aka multivariable analysis)

• looks at the independent effect or a factor after controlling or adjusting for the other factors

Question 48

Clinical significance: patient type

Answer 48

were study patients similar to mine (examine inclusion and exclusion criteria)

Question 49

Clinical significance: patient experience

Answer 49

will results help me re-assure/inform patients? (does it change what I would tell patients to expect?)

Question 50

Why do we use prognosis?

Answer 50

1. education patients about appropriate expectations
2. define expected outcome from therapy
3. possible prevent bad outcomes through education/intervention