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Journal of Feline Medicine and Surgery logoLink to Journal of Feline Medicine and Surgery
letter
. 2022 Nov 21;24(12):e672–e674. doi: 10.1177/1098612X221137376

Use of mechanical thresholds in a model of feline clinical acute pain and their correlation with the Glasgow Feline Composite Measure Pain Scale scores

Daniel Pang 1,2, Andrew Bell 3
PMCID: PMC10812366  PMID: 36409562

Dear Editors,

We read with interest the paper of Nicholls et al in which mechanical threshold data (obtained with a SMALGO algometer) and pain scale score data (using the Glasgow Feline Composite Measure Pain Scale; CMPS-Feline) were collected from female cats undergoing ovariohysterectomy surgery. 1

We have concerns that the study misrepresents the value of behavioural scoring in feline practice. The International Association for the Study of Pain (IASP) provides definitions for pain and nociception. 2 Pain is defined as ‘an unpleasant sensory and emotional experience associated with, or resembling that associated with, actual or potential tissue damage’. Nociception is defined as ‘the neural process of encoding noxious stimuli’. In the notes accompanying the definition of pain it is stated that ‘pain and nociception are different phenomena’.

Mechanical threshold testing to identify hypersensitivity is an assessment of nociception and cannot truly resolve the multidimensional experience that is pain. 3 Animals may display a variety of behaviours in response to application of the SMALGO probe tip, such as those described by the authors (‘vocalisation, head turning towards the stimulation site, back muscle contraction, hissing and attempting to bite, scratch or escape’). However, behavioural consequences of nociception, whether they be withdrawal reflexes or more complex nocifensive behaviours, do not necessarily imply the presence of pain.

In contrast to nociceptive threshold testing, the CMPS-Feline was developed as a behavioural assessment instrument to measure pain in cats. The items included in the scale align with the IASP definition of pain as they have the potential to reveal the emotional experience. However, as pain scales are used and studied, it is likely that we learn more about their strengths and limitations. It has been shown that cats that are less interactive (eg, nervous, shy and aggressive) may be assessed as painful because they can exhibit behaviours that are assigned higher scores on the CMPS-Feline (such as crying, hissing and lack of response to stroking). 4 Buisman et al 4 found that clinically healthy and pain-free cats exhibiting such behaviours preoperatively continued to be assigned elevated pain scores postoperatively; that is, these behaviours interfered with pain assessment. Nicholls et al 1 allude to this possibility in their discussion, where they suggest that elevated CMPS-Feline scores could result from cats cowering or growling during assessment. They reported five cats that had elevated pain scores (>5) preoperatively; however, rather than exclude these cats from the study, they remained in the study and contributed to the final data set. If their scores remained artificially elevated throughout the study, as predicted by Buisman et al, 4 this could partly explain the variability observed in the CMPS-Feline data. Additionally, the analgesic strategy in the study would have resulted in the majority of animals feeling no-to-mild pain. Is it therefore perhaps unsurprising that the majority of CMPS-Feline scores were below the threshold postoperatively and hence equivocal when compared with mechanical thresholds.

When applying a behavioural pain scale such as the CMPS-Feline, it is important to adhere to the scale items, as described. Varying from these, such as awarding a score that differs from the behaviour being expressed, invalidates the scale. From the authors’ description of how the CMPS-Feline was applied by the two evaluators, it is apparent that subjectivity and, potentially, bias were introduced when at least one of the evaluators was selective in how behaviours were scored. This could easily explain the low agreement coefficients observed and may be a more likely explanation than the concern of low repeatability raised by the authors. Related to this, the assumption that elevated CMPS-Feline scores ‘should not be possible for presumably non-painful cats’, suggests a misunderstanding of the absolute ability of the scale to classify painful vs non-painful cats and may indicate the presence of evaluator bias. One way to reduce this risk is for evaluators to be blinded to (unaware of) the testing time point (pre- vs postoperative). This adds some complexity to the methods (preoperative clipping and dressing application) but has been carried out in other studies. Evaluator blinding would also have reduced the risk of bias associated with evaluating the subjective outcomes during SMALGO testing.

We recognise the difficulties inherent in feline pain assessment and agree with the authors that robust prospective studies are required to refine novel pain assessment methodologies. However, we feel that the focus on the limitations of the CMPS-Feline as a measure of pain in Nicholls et al1 are unwarranted given the limitations, risk of bias and the choice of a nocifensive measure as a comparator in their study.

Footnotes

The authors declared no potential conflicts of interest with respect to the research, authorship, and/or publication of this letter.

Funding: The authors received no financial support for the research, authorship, and/or publication of this letter.

Ethical approval: This work did not involve the use of animals and therefore ethical approval was not specifically required for publication in JFMS.

Informed consent: This work did not involve the use of animals and therefore informed consent was not required. No animals or people are identifiable within this publication, and therefore additional informed consent for publication was not required.

J Feline Med Surg. 2022 Nov 21;24(12):ArticleFirstPage–ArticleLastPage.
Chiara Adami 1

The last author responds:

We thank Drs Pang and Bell for their interest in our work and appreciate the opportunity to reply to their letter. We see this as a great opportunity to further discuss the extraordinarily complex topic of pain assessment in cats.

In response to the definitions of pain and nociception, 2 these are undoubtedly different phenomena, and it is unanimously agreed that nociception alone does not necessarily imply pain. We made it clear in our paper that mechanical thresholds were used in the study cats to assess nociceptive function, and we thank the authors for stressing this concept again as it is such an important pillar of pain research. Nevertheless, although originally designed to quantify allodynia in humans, mechanical algometers are widely used in animals as complementary tools for a comprehensive assessment of both neuropathic and nociceptive pain. As a result, and while keeping in mind that mechanical thresholds and behavioural pain scales scores are two different things, it was reasonable to hypothesise that these two parameters would show an association, and both change from baseline in the presence of postoperative nociceptive pain.

In their letter, Drs Pang and Bell express their concerns on a potential misuse of the CMPS-Feline in our study. It is their opinion that, as vocalising, hissing, lack of response to stroking, cowering and growling may interfere with pain assessment, cats showing any of these behaviours should have been excluded from our study. In response to this, we would like to clarify that, as stated in the ‘Materials and methods’ section, aggressive behaviour and poor tolerance to handling were listed as exclusion criteria in our study. However, behaviours such as cowering and lack of response to stroking are not only very common in cats that are assessed in an unfamiliar environment (even after acclimatisation), but they are also an integral part of the natural behavioural repertoire of this species. If only cats not showing any of these behaviours were to be assessed with the CMPS-Feline, this would represent a remarkable limitation of the scale, and also conflict with the purpose for which the scale was specifically designed; that is, being a user-friendly tool for observers of varying levels of experience. Moreover, the authors who developed and validated the CMPS-Feline did not specifically mention that spontaneous vocalisation would invalidate the scale.5 In the light of these considerations, it is our opinion that excluding the cats that vocalised as part of their natural physiological behaviour would have caused an artificial manipulation of the scores.

Another point brought up by Drs Pang and Bell was the potential study bias generated by subjectivity. It is unanimously accepted that all the pain scales based on behavioural observation imply a certain degree of subjectivity, an intrinsic limitation that is extraordinarily difficult to overcome, especially when the behaviour object of evaluation is intermittent (as was the case for some study cats). Despite the strictest adherence to the scale items, the score assigned to a cat showing one of the targeted behaviours intermittently will highly depend on whether that specific behaviour was shown during the assessment and to what extent. This kind of subjectivity cannot be eliminated and will unavoidably affect the final score.

With these limitations in mind, we do feel that the CMPS-Feline was used properly in our study, in strict adherence to the scale items and as described by the authors who developed and validated it. 5

Regarding the suggestion of introducing evaluator blinding to decrease subjectivity biases, although this idea sounds interesting in theory, it would have been very unpractical and inapplicable to the clinical setting for a number of reasons, such as familiarity of the nurses involved in pain scoring with the practice routine and schedule, and visibility of both the surgical wound and venepuncture/intravenous catheter site. These inconveniences are even more difficult to overcome at small practices, such as the one where our study was conducted.

We do recognise the value of behavioural pain assessment in animals, and we consider the CMPS-Feline a powerful and useful clinical tool, at the point that, at our institution, we routinely use it in cats. Nevertheless, it does have limitations, one of which is the potential for detecting ‘false positives’ when cats express behaviours that are part of their natural and physiological behavioural repertoire. As a scientific community, acknowledging those limitations that can be learnt after systematic and routine use of the scale should be seen as an opportunity to address them, in order to refine the CMPS-Feline (and potentially any other clinical tool) and improve its robustness for use in general practice. This would, ultimately, optimise our methods to assess pain in feline patients, which I believe should be our common goal as veterinary specialists.

References

  • 1. Nicholls D, Merchant-Walsh M, Dunne J, et al. Use of mechanical thresholds in a model of feline clinical acute pain and their correlation with the Glasgow Feline Composite Measure Pain Scale scores. J Feline Med Surg 2022; 24: 517–523. [DOI] [PMC free article] [PubMed] [Google Scholar]
  • 2. International Association for the Study of Pain. Terminology: pain terms and definitions. https://www.iasp-pain.org/resources/terminology/ (2011, accessed 5 September 2022).
  • 3. Sadler KE, Mogil JS, Stucky CL. Innovations and advances in modelling and measuring pain in animals. Nat Rev Neurosci 2022; 23: 70–85. [DOI] [PMC free article] [PubMed] [Google Scholar]
  • 4. Buisman M, Hasiuk MMM, Gunn M, et al. The influence of demeanor on scores from two validated feline pain assessment scales during the perioperative period. Vet Anaesth Analg 2017; 44: 646–655. [DOI] [PubMed] [Google Scholar]
  • 5. Reid J, Scott EM, Calvo G, et al. Definitive Glasgow acute pain scale for cats: validation and intervention level. Vet Rec 2017; 180: 449. [DOI] [PubMed] [Google Scholar]

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