Measuring outcomes





Introduction


Pain is a complex biopsychosocial phenomenon that is best described as more than just where it hurts, but also how it impacts quality of life, physical function, social participation, sleep, and other domains. Outcomes in pain care should be holistic in describing universally relevant and condition-, diagnosis-, or procedure-specific measures.


The National Institutes of Health (NIH) convened a Research Task Force (RTF) on Chronic Low Back Pain (CLBP) in 2014 to determine best practices for studying this complex disease. The RTF highlighted the need to clinically stratify painful diseases like CLBP in terms of impact of symptoms and dysfunction rather than solely on an anatomical, etiological, or physiological basis.


Functional outcomes have always been stressed in pain care, but in 2021 this was codified into the coverage determination for medial branch radiofrequency ablation, where demonstration of functional improvement using a validated measure is required for progression from diagnostic medial branch blocks to radiofrequency ablation.


A comprehensive outcomes strategy will focus on understanding the patient journey through a comprehensive multidimensional baseline, followed by an outcomes campaign that measures appropriate clinical changes ( Fig. 19.1 ). As new outcomes strategies and instruments are utilized, defining the minimum clinically important difference (MCID) for an individual patient or population is critical to their interpretation and contextualization. For example, one may interpret the same baseline values differently in patients with (a) chronic pain, (b) acute pain, (c) cancer pain, (d) chronic low back pain, (e) rheumatoid arthritis, (f) symptomatic osteoarthritis, or (g) persistent spinal pain syndrome. There are subpopulations where the operating characteristics of the population will inform the selection of measures and the MCID.




Fig. 19.1


Measuring outcomes in pain care requires a tiered approach that includes universally-relevant Patient Reported Outcomes (PROs) such as the Patient Reported Outcomes Measurement Information System (PROMIS), EuroQol-5D (EQ5D), Pain Catastrophizing Scale (PCS), Oswestry Disability Index (ODI), or Brief Pain Inventory (BPI). More specific outcomes measures may be germane to patients being treated for neck pain, such as the Neck Disability Index (NDI), the modified Japanese Orthopedic Association (mJOA) spondylitic myelopathy assessment, and imaging to include plain films (XR), magnetic resonance imaging (MRI), single photon emission computerized tomography (SPECT), and/or musculoskeletal ultrasound (MSK US) studies of the neck and upper limb regions. For back and leg pain, the Zurich Claudication Questionnaire (ZCQ) and ODI are descriptive gold standards. The Hip disability and Osteoarthritis Outcomes Score (HOOS) is used for hips, and the Knee disability and Osteoarthritis Outcomes Score (KOOS) and/or the Western Ontario McMaster Arthritis Index (WOMAC) is used.


Understanding the baseline


Each individual patient and population of patients have baseline characteristics, and an understanding of the multidimensional nature of the patient can help identify appropriate expectations and define treatment success. A 2020 publication by our group reported the baseline multidimensional characteristics of a broad sample of patients (n = 19,546) presenting to a chronic pain clinic using the Patient Reported Outcomes Measurement Information System (PROMIS) 29-question battery. This aimed at defining the population distribution of those subdomains, notably indicating a baseline level in this population of 0.5–1.4 standard deviations above the US general population.


Discussing the baseline with the patient in the context of any intervention is critical to determining treatment success for that individual. This also allows the clinician to devise a multimodal strategy to improve patient quality of life by addressing biopsychosocial contributors to pain.


Minimum clinically important difference (MCID)


Meaningful change is ultimately the defining estimate of treatment effectiveness from a clinical perspective. The minimum clinically important difference (MCID) is not a static value for any outcome measure, but is a range that depends on the methods used. In other words, each outcomes measure and each change in any outcomes measure must be contextually interpreted to be meaningful to the patient. The primary methods for determining MCID are (1) anchor-based and (2) distribution-based.



  • 1.

    Anchor-based methods reflect the perspective ‘anchored’ around a specific event or episode of care. For example, “since the [anatomic area] ablation procedure, how would you describe your [anatomic area(s)] pain now?” [visual analogue scale]


  • 2.

    Distribution-based methods reflect the variability in scores across a large population and use that to discern normal fluctuations from true change.



Anchor-based methods are typically the most relevant in the context of pain care procedures, and the anchor parameters may be narrowed or broadened as needed to understand the patient impact. Distribution-based methods are helpful to contextualize individual treatment and research across the population. The MCID value selected may be different depending on the intended use of the instrument, from lower MCID for conservative care and higher MCID values for higher risk/reward care and outcomes.


The patient value judgement does not always equal the MCID, and as clinicians it is our goal to ensure that the patient response is appropriately and individually captured. Corroborating various PROs with physical examination and other data points such as medication changes or activity changes must be done to ensure adequate capture of treatment success.


Universal outcomes measures


In general, a universal outcomes battery will describe quality of life and include a variety of relevant subdomains related to pain and the pain experience. This is also termed Health-related Quality of Life (HrQOL).


PROMIS-29 is a universally relevant outcomes battery that reports pain intensity, pain interference, physical function, sleep disturbance, fatigue, depression, anxiety, and social participation. An online resource supported by the NIH is available that provides validated equivalent scores for different health outcomes measures in terms of current PROMIS measures (PROSetta Stone®, http://www.prosettastone.org ).


EuroQol 5-Dimensional (EQ5D) was developed in 1990 and refined in 2011 and is generalizable to the European population. Work has been done to create cross-talk and estimate EQ5D scores using PROMIS elements, allowing for forwards and backwards compatibility in the future. ,


Pain-specific outcomes measures


The Neck Disability Index contains 10 items related to the neck and is a long-used battery to estimate disability due to a painful condition. This is the most widely used PRO for neck disorders, but the psychometric properties of the test (i.e., does it assess what it intends to assess?) have been questioned and contribute to inconsistency in MCID from 5 to 10 points across studies.


Oswestry Disability Index is a 10-item questionnaire that evaluates disability and pain related to the low back and has long been used as a primary endpoint in spine surgery. ,


PROMIS Pain Interference (PI) and Physical Function (PF) have been shown to be responsive in a variety of pain and spine conditions and represent a question burden reduction as compared to legacy measures.


Outcomes for diagnostic procedures


Pain is complex, and it is oftentimes challenging to identify a particular pain generator or group of overlapping pain generators based on physical examination and other diagnostics alone. The term ‘diagnostic procedure’ is used in this context to refer to any injection intended to either confirm or support a diagnosis, and/or to select patients for a definitive therapy (i.e., radiofrequency ablation, device implantation, etc.).


Outcomes for diagnostic procedures are typically assessed in an anchor-based approach, such as by using a pain diary to record percent pain relief (0 = no relief, 100% = complete relief), numerical pain scores, and/or functional achievements. The time course for these outcomes are short, on the order of hours due to the duration of action of local anesthetics.


Outcomes for therapeutic procedures


The timing for assessment of outcomes with respect to therapeutic procedures varies in terms of domain assessed. Adverse events or other negative outcomes are typically encountered in the days after these procedures, such as neuritis after radiofrequency ablation or postdural puncture headache. Alternatively, the clinically meaningful benefit of these procedures must be durable in order for it to be sustainable, such that the outcomes for therapeutic procedures must be reported longitudinally using responsive measures.


Figure 19.1 provides a contextual algorithm for building an outcomes campaign in addition to capturing an essential data set to understand the patient journey holistically.


For most radiofrequency ablation therapies, the appropriate timeframe for follow-up should be divided into surveillance for complications (0 to 4 weeks), followed by assessment of effect (1 to 24 months).



References

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Aug 6, 2023 | Posted by in ANESTHESIA | Comments Off on Measuring outcomes

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