Reproducibility of the Sputum Color Evaluation Depends on the Category of Caregivers

Discussion

We evaluated the intra- and inter-rater reliability and the agreement of the Sputum Color Chart for 3 evaluators from 6 categories of caregivers who can be routinely faced with sputum evaluation in their clinical practice. Our study highlighted a non-uniform reliability and agreement with the Sputum Color Chart. This observation was not related to the category of caregivers.

Sputum color is considered to be a key element in clinical evaluation of subjects with respiratory diseases. Indeed, sputum color appears to be regularly used in routine practice and in research.^14,15 Changes in sputum are included in the widely accepted Anthonisen definition of exacerbations in COPD⁷ and in their evaluation.¹⁶ In a large study on COPD exacerbations, sputum color was used as a marker of exacerbation, and the authors demonstrated that sputum purulence was strongly associated with bacterial growth.¹⁷ Although this criterion has lower sensitivity and more limited applicability in children than in adults due to the difficulty of inducing children to expectorate,¹⁸ it is also mentioned in the literature regarding exacerbations in pediatric subjects. Indeed, sputum color is one of the clinical criteria that improves specificity of the non-cystic fibrosis bronchiectasis exacerbation definition in children.¹⁹ Moreover, Goeminne et al²⁰ used the Sputum Color Chart to demonstrate a relationship between sputum purulence from non-cystic fibrosis bronchiectasis subjects and inflammatory markers in sputum, history of P. aeruginosa, any form of colonization, or modified Brody scores. They defined the Sputum Color Chart as a tool that may predict the degree of inflammation, gelatinolytic activity, and disease severity in these subjects.²⁰ When children with cystic fibrosis are interviewed about symptom improvement after exacerbations, they report, among other improvements, a sputum color change.²¹

As self-assessment of sputum color by patients was demonstrated to be unreliable,¹⁰ so there is a need for validated tools. Although the Sputum Color Chart previously demonstrated a good inter-rater reliability between doctors and subjects,⁵ no study had previously investigated the intra-rater reliability for different health caregivers and the inter-rater reliability between different health professionals. These properties are important, since they are major factors in the therapeutic decision,⁹ notably the prescription of antibiotics.⁷ Indeed, in a study, it appeared that subjects with COPD experiencing an exacerbation with purulent sputum were treated with antibiotics, and those with mucoid sputum were not. The evaluation of sputum purulence was based on sputum color evaluation with a 9-point color chart. The authors concluded that sputum color assessment could contribute to avoiding unnecessary antibiotic therapy.⁶

We observed poor global intra-rater reliability in our sample of raters. This means that a difference in sputum color was perceived by mistake by a lot of caregivers. Since a sputum color change implies a reason for the physician to prescribe antibiotics, we can speculate a non-justified prescription based on this parameter. However, when looking specifically by category of caregivers, better intra-rater reliability was observed for microbiologists and senior chest physiotherapists than for other categories of caregivers (13 of 18 Cohen's kappa coefficients of both of these categories were >0.41, which means a moderate to very good reliability). A very good reliability (Cohen's kappa >0.80) was found for microbiologists. This could be explained by the dedicated routine practice based on the evaluation of sputum for this category of caregivers. The clinical experience probably plays a role, since it was previously shown to be related to a better agreement in different kinds of evaluations,^22,23 even if it is not systematically verified for all tools.^24–26

The intra-rater discrepancies for all of the evaluators are heterogeneous. Only one reading of sputum produced 2 discrepancies for one junior and one senior physiotherapist. Bias of agreement is null for 1 of 3 of the evaluators and always <0.5, which means less than one classification of discrepancy. Also, this is not related to the category of caregivers.

Poor inter-rater reliability was observed for all categories with the exception of senior chest physiotherapists. The level of training could be an influential element on the inter-reliability. Its influence was previously demonstrated on auscultation reliability.²⁷ Indeed, the students in physiotherapy and in pulmonology showed poor inter-reliability, with Cohen's kappa coefficient <0.20. However, we found a similar inter-reliability for pulmonologists. This can be considered surprising due to the experience of this category of caregivers regarding sputum observation. Moreover, it is questioning because the antibiotic prescription is based partially on this observation. In clinical practice, when an antibiotic prescription is based only on change in color sputum, it could be useful to combine sputum color evaluation from a physician and a microbiologist.

Global poor intra- and inter-rater reliability on the Sputum Color Chart reflects an inherent challenge with difficult evaluation of the color of secretions. Raters' disagreements on sputum color explain the negative Cohen's kappa coefficients that were calculated for a series of evaluations. Negative Cohen's kappa coefficients result when agreement occurs less often than predicted by chance alone. This suggests genuine disagreement between raters or an underlying issue with the instrument itself.²⁸

Some limitations regarding this study need to be addressed. First, the sputum samples were presented as photographs, and this could influence the interpretation of the sputum color compared with true secretions. However, the Sputum Color Chart also uses photographs providing accurate representation of the 3 major grades of color, and the computer screen was always the same to avoid color modification due to the screen. Second, there was no control in the presentation of sputum. Third, generalizing our results to other raters should be performed with caution. Reliability could also differ according to other rater categories and other levels of skill. The individual level of training (as demonstrated previously for auscultation)^25,26 of our raters potentially influenced our results, and our randomized sample might not represent all raters with similar disciplines and training. But this means that sputum color evaluation is complex.