Incidence and management of Lyme disease: a Scottish general practice retrospective study

Summary

Although the incidence of Lyme disease in Scotland is low compared with that in many other European countries, the Highlands of Scotland have long been considered a hot spot, with estimated incidence figures comparable with some European countries where it is considered endemic.³ Analysis of Lyme-related Read codes shows that the incidence of Lyme disease within NHS Highland (North) may be 2.1 times higher than laboratory data indicate. However, this study suggests that the use of Read codes varies and that these alone are not sufficient to identify patients with Lyme disease or suspected Lyme disease, so referral to free text and antibiotic scripts is necessary. This is reflected in the fact that the incidence figures increased 5.2 times compared with laboratory data alone when all patients treated for Lyme disease (including those identified via free text tags) were taken into account.

As may be expected, 10 of the 15 practices with the highest number of cases (n>75) had a practice population >5000 (that is, in the top third), whereas nine of the 14 practices with the highest incidence ( >78.89/10 000) had a practice population of less than 1500. Five medical practices had both a high number of cases (n>75) and a high incidence (>788.9 per 100 000), perhaps reflecting the highest risk areas. These were Brora and Helmsdale, Ullapool, Kyle, Tweeddale, and Grantown-on-Spey. However, the data are based on where a patient is treated and not where they acquired the infection.

Strengths and limitations

This is the first comprehensive study of Lyme disease data in primary care in Scotland, which has provided valuable information on the burden of the disease across a specific health board. Including cases of treated and suspected Lyme disease to estimate incidence as well as those that are clinically confirmed may potentially lead to an overestimation. Many symptoms of Lyme disease mimic those of other diseases or conditions, so the NICE guidelines recommend laboratory testing for all cases of suspected Lyme disease except those presenting with EM and state that treatment should be considered while waiting for test results if there is a high clinical suspicion.² Thus, it is possible that some suspected cases may not have had Lyme disease. Conversely, using suspected Read codes or free text may simply reflect a reluctance to assign the more definitive EM or Lyme disease Read codes, and case numbers could potentially be underestimated if these are not included. There is often a misconception that EM should present as the textbook target or bullseye rash with central clearing. The appearance of EM can vary considerably, thus European case definitions define EM as a spreading rash (>5 cm) from the site of a tick bite, with or without central clearing.¹⁰ Regardless, inclusion of both suspected and clinically confirmed cases is important when assessing disease burden.

Data studies rely on the quality of the data available. Unfortunately, some individual practice data were missing. There were obvious omissions in the data for 2017–2019 as there were more borrelia test requests from NHS Highland patients than the number of encounters associated with Lyme disease identified from patient records. This may reflect a slow uptake of the use of Lyme-related Read codes, which were only introduced in 2014. It could also, in part, be a result of a lack of antibiotic data available for 2017 and 2018 (because of the amount of data that can be handled by the data retrieval system). In addition, it is likely that there were issues or omissions with the input of borrelia test results, which were also used to identify Lyme patients. During 2017–2019, borrelia test results were manually entered into GP patient records. Test results were only automatically incorporated from January 2021. Indeed, there were more GP encounters related to Lyme disease identified than samples tested for borrelia from 2020–2022, which may reflect an increase in the quality of the data.

Comparison with existing literature

The study by Tulloch et al ⁶ analysed the same Lyme-related Read codes from population-based primary care data from the Health Improvement Network (THIN), which collects data from general practices using the VISION practice management software (9% of all GP practices in England). Their estimated incidence of Lyme disease in Scotland was extrapolated to be 10.3/100 000 for 2008–2013. This was 1.5 times higher than the incidence figure of 6.8 per 100 000 for Scotland calculated from laboratory-confirmed cases for the same period.^3,6 Interestingly, when using a similar approach to the current study (analysing Read codes, free text and antibiotic scripts) but analysing data from the Clinical Practice Research Datalink (CPRD), which covers approximately 8% of the UK population, Cairns et al ⁵ extrapolated the estimated incidence in Scotland to be 37.3/100 000 for 2010–12, which was 5.5 times higher than the laboratory data-derived incidence figure of 6.8 per 100 000 for Scotland for 2008–2013⁵. Both of these results were similar to our findings.

The finding that 65.2% of patients with Lyme-associated Read codes were assigned EM or suspected EM Read codes was much higher than the 27.9% reported by Tulloch et al ⁶ when analysing UK primary care data, which may reflect more awareness and confidence in assigning the EM or suspected EM Read codes in this area of Scotland, which has a high incidence of Lyme disease. The slight female preponderance was similar to that seen by Cairns et al ⁵ and Tulloch et al.⁶ Likewise, the peak in cases in the 60–79 years age group was similar to that of Tulloch et al ⁶ and only slightly higher than Cairns et al. ⁵ Interestingly, there continues to be a lower proportion of cases in people ages <20 years in Scotland than in England (4.4 versus 13.7%).⁵

Analysis of the antibiotic data indicates that antibiotic prescribing in NHS Highland largely follows NICE guidelines: doxycycline 100 mg (twice daily) for 21 days (28 days for patients with Lyme arthritis or acrodermatitis chronic atrophicans).² The NICE guidelines proposed a treatment duration of 21 days for the majority of cases of Lyme disease to standardise treatment and remove the ambiguity of previous guidance, which advocated 14–21 days of treatment. Shorter courses (7 and 14 days) were prescribed to 27% of patients. While this is not compliant with the NICE guidelines, the Infectious Diseases Society of America (IDSA) 2020 guidelines recommend that patients with EM are treated with 10 days of doxycycline.¹¹ Likewise, a recent study supports 7 days of doxycycline for European patients with solitary EM.¹²

NICE guidelines suggest a second course with an alternative antibiotic for patients with ongoing symptoms (such as refractory arthritis) if treatment may have failed, but further treatment courses are not recommended, as persistent symptoms following treatment (post-treatment Lyme disease syndrome) are not thought to be caused by persisting infection.² Only 16 patients were prescribed three or more courses of antibiotics associated with a Lyme-related episode. Although re-infection cannot be completely ruled out it appears that these patients had persisting symptoms, mainly of chronic fatigue, and highlights potential overtreatment and non-compliance with the guidelines.

Implications for research and practice

Using Read codes to identify patients with Lyme disease indicated that current incidence figures in primary care within NHS Highland are 2.1 times higher than those based solely on laboratory-confirmed reports. However, when the number of patients actually treated for Lyme disease was taken into account the incidence figures could be 5.2 times higher than suggested by data from laboratory-confirmed cases. Analysis of the antibiotic data indicates that antibiotic prescribing in NHS Highland largely follows NICE guidelines.

This GP data analysis pathway can, and should, be rolled out to assess the incidence and management of Lyme disease in primary care throughout the whole of Scotland to allow appropriate resources to be allocated.