4.2.1 Michigan Hand Outcomes Questionnaire (MHQ) ⁸ /Brief MHQ ¹⁶

The MHQ is a 37-item questionnaire, which is divided into six subscales: hand function, activities of daily living (ADL), pain, work performance, aesthetics, and satisfaction with hand function. It takes about 15 minutes to complete and yield results for each hand separately. The total score ranges from 0 to 100, with a higher score indicating better hand performance. The MHQ has been translated and cross-culturally adapted into several languages. Overall, it shows good measurement properties for many hand disorders. ⁹

In order to reduce responder burden, the brief Michigan Hand Outcomes Questionnaire (briefMHQ) was developed as a shorter version of the original tool with only 12 items. ¹⁶ Similar to the original MHQ, the brief version has excellent measurement properties for various hand disorders. ¹⁶ However, it is neither possible to derive subscales scores nor distinguish between the right and left hand using the brief version. The brief MHQ also yields a summary score between 0 and 100 with higher scores indicating better overall hand function.

More information and questionnaire templates (freely available) can be found here: http://mhq.lab.medicine.umich.edu.libproxy.lib.unc.edu/

4.2.2 Patient-Rated Wrist Evaluation (PRWE) ^{4 , 5}

The PRWE is a 15-item scale specifically designed for patients with wrist disorders. The 15 items are divided into the two subscales of pain and function. The items are scored on a 0 to 10 numeric rating scale. Both subscales can be calculated independently and a total score combining these constructs can also be calculated. In contrast to the MHQ, the total PRWE score of 100 is associated with higher levels of pain and disability.

Recently, a decision-tree version has been developed ¹⁹ allowing a faster completion of the questionnaire. Based on the answer given to a question, the computer selects the most appropriate subsequent question. At the end, the patient only has to answer six questions instead of 15 yet still giving a score highly similar to that of the original version.

PRWHE ²⁰ was introduced later by replacing the term “wrist” by “wrist/hand” allowing for a broader assessment of hand conditions. The PRWHE has two additional questions considering hand aesthetics. Both questionnaires are commonly used in hand studies and their measurement properties are known to be sound for various hand conditions. ⁶

More information and questionnaire templates (freely available) can be found at the following link: https://srs-mcmaster.ca/research/musculoskeletal-outcome-measures

4.2.3 Disability of the Arm, Shoulder, and Hand Questionnaire (DASH) ²¹ /QuickDASH ²²

The DASH is an upper extremity-specific 30-item questionnaire; the QuickDASH is the shortened form with 11 items. They are the most commonly used questionnaires in hand surgery. Several studies attest to their sound measurement properties. ^{23 , 24 , 25 , 26 , 27} But the DASH and QuickDASH intended to measure function of the entire upper extremity and not just the hand. The questionnaires contain items relevant to shoulder-and-elbow function that significantly influence the total score. Therefore, it is recommended to use a hand-specific questionnaire for the primary evaluation of hand surgical procedures. The DASH might still have its place, for example, in assessing more widespread conditions such as rheumatoid arthritis, where the whole upper extremity is involved and the effect of a single intervention on global function requires evaluation.

More information and questionnaire templates (freely available) can be found here: http://www.dash.iwh.on.ca

4.2.4 Patient-Reported Outcomes Measurement Information System (PROMIS) ²⁸

The PROMIS tool consists of an item bank related to physical, mental, and social health. The items can be administered either as a fixed short form or computer adaptive test (CAT). The CAT uses an algorithm based on the item-response theory that selects successive questions based on the answer to the previous item. There are many tools available for different health conditions. For patients with hand conditions, the PROMIS UE is most relevant. The CAT version includes 46 items and the short form consists of seven items all answered on a 5-point Likert scale. The results generate a final T-score with a standardized normative value of the mean (± standard deviation) equivalent to 50 (± 10).

The main benefit of the PROMIS lies in its speed of completion. It is reliable and highly correlated to the DASH/QuickDASH. ^{29 , 30} However, like the DASH, the tool includes items influenced by shoulder function. Responsiveness of the PROMIS UE is considerably lower than that of the MHQ or carpal tunnel questionnaire. ³¹

More information and questionnaire templates (freely available for individual research) can be found at the following link: http://www.healthmeasures.net/explore-measurement-systems/promis

4.2.5 Patient-Specific Functional Scale (PSFS) ³²

The PSFS is an individual outcome measure allowing patients to rate their individual health problems. The patient indicates at least three specific activities that they are unable to do or have difficulty with and rates them on a scale ranging from 0 to 10, where 10 indicates being unable to perform the activity and 0 means the patient is able to perform the activity at the same level as prior to their injury or disorder, i.e., normally for them.

The advantage of this scale is that health issues not considered by traditional questionnaires can be assessed. For example, the PSFS might be useful for patients with unique functional demands such as athletes who would score highly in traditional outcome measures, but still experience problems specific to their discipline. On the other hand, the PSFS may also be used to assess patients with greater activity restrictions who are not able to perform the tasks given in traditional questionnaires.

The disadvantage is that the PSFS cannot be compared so easily across patients and especially studies. Although the score has been shown to be reliable, there is only a weak correlation with the DASH. Therefore, it is suggested that the PSFS is used as a complementary tool in conjunction with traditional outcome measures. ^{33 , 34}

4.2.6 Single Assessment Numeric Evaluation (SANE) Score ³⁵

The SANE is a global, single-question PROM. Patients indicate their answer on a scale ranging from 0 to 100 based on the question: How would you rate your [e.g., hand] today as a percentage of normal? (100% = normal). Originally developed for patients with shoulder conditions, the SANE has also been used to assess the outcomes of knee surgery. It correlates moderately to well with other shoulder- and knee-specific scores. ³⁶ Although it is a very quick and easy evaluation of the patient’s subjective condition, it cannot replace existing comprehensive questionnaires. By using only one global question, the domains affecting the answer cannot be distinguished. The clinician is unable to conclude if the score is based on pain, function, appearance, or another related factor. Therefore, the SANE is recommended only as a supplementary evaluation. ³⁶

4.2.7 Quality-of-Life Measures

Quantifying quality of life can be used as a secondary outcome measure and is essential for economic evaluations. In such studies, estimating the quality-adjusted life years (QALYs) is required. The most popular questionnaires from which QALYs can be derived include the EuroQol EQ-5D ³⁷ and the Short Form-36 (SF-36) ³⁸ or its brief version, the SF-12. ³⁹

Two versions of the EQ-5D are available, the first of which includes three response options per question (EQ-5D-3L), while the second and more sensitive version consists of five response options (EQ-5D-5L). Each version addresses the five dimensions of mobility, self-care, normal activity, pain/discomfort, and anxiety/depression. Its measurement properties have been investigated widely for different musculoskeletal disorders. ⁴⁰ The final score ranges from –0.285 to 1.0 (English value set) ⁴¹ with higher scores indicating better health status. It is freely available for noncommercial research.

The SF-36 and SF-12 include 36 and 12 questions, respectively, which generate two component summary measures of physical and mental health. The scores range from 0 to 100 with higher scores representing better health, the norm value being a mean of 50 (± 10). These health surveys show sound measurement properties in patients with various musculoskeletal disorders, e.g., OA and rheumatoid arthritis patients, ⁴² distal radius fractures, ⁴³ as well as those with carpal tunnel syndrome. ⁴⁴ License fees apply for the Short Form questionnaires.

More information can be found at the following link for the EQ-5D: https://euroqol.org

And the following link can be checked for the short form questionnaires: https://www.optum.com/solutions/life-sciences/answer-research/patient-insights/sf-health-surveys.html

4.2.8 Further Validated Hand-Specific PROMs

Apart from the PROMs suitable for patients undergoing hand arthroplasty described above, other PROMs are freely available for specific hand conditions.

The UnitéRhumatologique des Affections de la Main (URAM) scale is a 9-item questionnaire specifically designed for patients with Dupuytren’s disease. ⁴⁵ The Boston Carpal Tunnel Questionnaire (BCTQ) or Levine scale ⁴⁶ covers the domains relevant for patients with carpal tunnel syndrome. Both PROMs have sound measurement properties and are recommended for the assessment of these specific populations.

4.4.1 Reliability

Reliability is defined as the degree to which the measurement is free from measurement error and is usually established by test–retest reliability (intraclass correlation coefficient, ICC), internal consistency (Cronbach’s alpha), and measurement error (standard error of measurement, SEM). An ICC of greater than or equal to 0.7 is considered acceptable, with values of 0.8 or higher considered optimal. Cronbach’s alpha values lying between 0.7 and 0.9 indicate good internal consistency; higher values may demonstrate redundancy among the questionnaire items.

4.4.2 Validity

Validity can be subdivided into three separate components of content, construct, and criterion validity:

Content validity is the degree to which the content of an instrument is an adequate reflection of the construct to be measured. For example, an instrument aiming at assessing obesity should include information on both weight and height and not solely on the weight of a person.

Construct validity measures the degree to which the scores of an instrument are consistent with hypotheses. These hypotheses may include correlations with other tools measuring the same construct or differences between relevant groups. A hypothesis for a pain questionnaire might be that it is highly correlated (i.e., correlation coefficient >0.7) with the pain visual analog scale.

Criterion validity is often confused with construct validity by testing correlations to similar outcome measures. It correctly refers to the degree to which an instrument adequately reflects a “gold standard.” There are no existing gold standard PROMs, except for the long-version form of any short-version questionnaire; for example, the MHQ is the gold standard for the brief MHQ and the DASH for the QuickDASH.

4.4.3 Responsiveness

Responsiveness is defined as the ability of an instrument to detect change over time. In a similar manner to validity testing, responsiveness has to be assessed using a construct approach with the formulation of a priori hypotheses. These hypotheses may include assumptions about the expected effect, which can be analyzed by calculating effect sizes (ES) or the standardized response mean (SRM). Values of 0.2 and 0.5 indicate a small and a medium effect, respectively, whereas values greater than or equal to 0.8 indicate a large effect. ⁵³ Such a hypothesis might be that the instrument under investigation yields an ES of >0.8 or that the ES is higher than that of the comparative instrument.

4.4.4 Interpretability

The interpretability of a questionnaire is defined as the degree to which qualitative meaning can be ascribed to its quantitative scores. It includes the minimal important change (MIC), minimal important difference (MID), or floor/ceiling effects (see below).

A detailed summary of the criteria for sound measurement properties is outlined by Prinsen et al. ⁵⁴

4.7.1 Minimal Important Difference (MID) and Minimal Important Change (MIC)

The MID is the smallest difference between patients or groups that is considered important. ^{51 , 59 , 60}

The MIC is the smallest change in score which patients perceive as important. ^{51 , 59} Changes exceeding this value can be considered relevant for the patient. There are several studies in hand surgery investigating the MIC and MID for several hand conditions and two reviews summarizing available data. ^{58 , 61}

Apart from the MID and MIC, the related term of Minimal Clinically Important Difference (MCID) has also been defined. ⁶² However, it is suggested to adhere to the established terminology promoted by the COSMIN group, ^{51 , 59} whereby the MID considers differences between groups or patients and the MIC defines the “within group or patient” differences. For example, in a randomized controlled trial (RCT) investigating two different surgeries in patients with thumb CMC OA, it is important to look at the differences in outcome scores. If the difference at follow-up is higher than a defined MID value, which is 12 points for the brief MHQ, ⁶³ a clinically relevant difference between the two interventions can be assumed.

In an observational study, the MIC helps in the interpretation of a treatment effect between baseline and follow-up. If the change in the brief MHQ, for example, is higher than the defined MIC of 16 points, ⁶³ it can be concluded that the intervention resulted in a subjective relevant improvement for the patient.