Methods
Study Design and Participants
This prospective, observational study was conducted at Peking Union Medical College Hospital, Beijing, from April 2021 to December 2023. The study enrolled adults diagnosed with plaque psoriasis and concurrent TBI. All participants received IL-17A inhibitors, either secukinumab or ixekizumab. The concurrent administration of TPT was based on tuberculosis risk factors, contraindications to TPT, and patient preferences. The primary endpoint was the incidence of ATB over a 2-year follow-up period.
Eligible participants were (1) aged 18–75 years, (2) diagnosed with plaque psoriasis, (3) having a disease duration of 6 months or more, (4) with a Psoriasis Area and Severity Index (PASI) score of 10 or higher, or below 10 if traditional treatments had failed, and (5) diagnosed with TBI by infectious disease specialists. A positive T-SPOT.TB test result (Oxford Immunotec; Oxford, UK) was essential for TBI diagnosis, defined as ≥ 6 spots in line with international standards. Participants had neither symptoms nor radiographic evidence of ATB. The study excluded individuals with active malignancy, inflammatory bowel disease, human immunodeficiency virus (HIV) infection, pregnancy, or lactation.
Study Procedure and Outcomes
Baseline assessments included a complete blood cell count, blood biochemistry, erythrocyte sedimentation rate (ESR), C-reactive protein (CRP), an infectious panel including hepatitis B, C, HIV, and T-SPOT.TB, along with a chest X-ray. Patients then received either secukinumab (300 mg weekly for 5 weeks, followed by 300 mg monthly subcutaneous injection) or ixekizumab (160 mg at week 0, then 80 mg every other week for 12 weeks, followed by 80 mg monthly subcutaneous injection).
The decision to administer TPT was guided by the presence of contraindications, tuberculosis risk factors, and patient preferences. Specifically, TPT was not administered to participants who were aged over 65, diagnosed with viral hepatitis, cirrhosis, currently using hepatotoxic drugs, or had a history of drug-induced liver injury. On the other hand, TPT was advised for those with a history of ATB, exposure to pulmonary tuberculosis, chronic renal failure, chronic obstructive pulmonary disease, interstitial lung disease, or those on systemic corticosteroids or immunosuppressants. In instances where these criteria were not met, the preferred approach was to withhold TPT, following a comprehensive consultation with the patient. Infectious disease experts formulated the individualized TPT plans for eligible participants.
Follow-up visits were scheduled at 1, 2, and 3 months, then quarterly over 2 years. During each visit, tuberculosis symptoms and signs were thoroughly examined. Complete blood cell count, biochemistry, ESR, and CRP were conducted biannually. Chest X-rays and T-SPOT.TB were reviewed annually. Adjustments to psoriasis treatment, including combination with other medications or potential reduction in IL-17A inhibitor frequency, were permitted throughout the study.
The primary outcome of this study was the incidence of ATB over a 2-year follow-up. The diagnosis of ATB was confirmed through a positive M. tuberculosis culture or nucleic acid amplification test, or through clinical and radiological evidence, as verified by infectious disease specialists. In cases of confirmed ATB, IL-17A inhibitors were immediately discontinued, and an anti-tuberculosis treatment plan was devised by these specialists.
Secondary outcomes included (1) changes in T-SPOT.TB results from baseline to year 2, (2) completion rates and safety profile of TPT, (3) effectiveness and safety of IL-17A inhibitors, and (4) risk factors for TBI in patients with psoriasis. For the analysis of TBI risk factors, a cohort of patients with psoriasis with negative baseline T-SPOT.TB results from our center was included.
Statistical Analysis
For normally distributed continuous variables, the mean ± standard deviation is presented, and differences between groups were analyzed using a two-tailed t test. Non-normally distributed continuous variables are summarized using the median (25th and 75th percentiles), with group differences assessed using the Mann–Whitney U test. Categorical variables are expressed as counts (percentages), and intergroup differences were analyzed with the chi-square test or Fisher’s exact test. The paired sample t test or Wilcoxon signed-rank test was used for changes in laboratory parameters from baseline to year 2. Binary logistic regression was used to analyze risk factors for TBI. Variables showing statistical significance in univariate analysis or considered clinically meaningful were included in the regression equation using an enter method. No imputation was performed for missing data. Statistical analyses were conducted using SPSS 27.0 (SPSS Inc., Chicago, IL, USA), with p < 0.05 indicating statistical significance.
All patients provided informed consent for participation in the study. Approval was obtained from the Peking Union Medical College Hospital Ethics Committee (ZS-2850, I-22PJ559). The study was registered at Chinese Clinical Trial Registry (ChiCTR2100045823) and was performed in accordance with the Helsinki Declaration.
Discussion
This study represents the first prospective cohort study focused on assessing the safety of IL-17A inhibitors, without TPT, in patients with psoriasis and TBI. During the 2-year treatment period with IL-17A inhibitors, in which most patients did not undergo TPT, there were no instances of ATB reported in our cohort. A population-based multicenter prospective study conducted in rural China observed an ATB incidence rate of 0.87 (95% CI 0.68–1.07) per 100 person-years in QFT-positive individuals [
21]. On the basis of this data, around two ATB cases might have been anticipated in our non-TPT group. Had IL-17A inhibitors been capable of reactivating tuberculosis, we would have expected to observe more ATB cases. The absence of ATB cases in our study suggests that IL-17A inhibitors do not heighten the risk of ATB, echoing the results from both preclinical and retrospective studies. Segueni et al. found minimal changes in the transcriptomic levels of
Il17 and
Il23a in
M. tuberculosis-infected mice, indicating a limited role for IL-17 pathways in controlling tuberculosis infection [
11]. Shu et al. and Xiao et al. observed no ATB cases among patients with psoriasis and TBI treated with secukinumab without TPT over median follow-up of 52 weeks and 23 months, respectively [
17,
18]. Our study, with a larger sample size and longer follow-up duration, strengthens these consistent findings.
We advocate for a personalized approach to TBI screening and TPT administration among patients with psoriasis before initiating IL-17A inhibitors: (1) TBI screening is recommended for individuals with tuberculosis risk factors such as HIV infection, active malignancy, those undergoing chemotherapy or transplantation, or with renal failure. Patients with TBI under these conditions should receive TPT. (2) For patients without these risk factors, a comprehensive imaging assessment, clinical symptom evaluation, and ruling out of ATB are suggested, potentially foregoing the need for IGRA screening. This strategy aims to alleviate the economic impact on patients and limit their exposure to anti-tuberculosis medications.
In our study, no severe adverse reactions associated with TPT were reported, though the completion rate was only 78.1%. Considering that non-standardized prophylaxis might increase the risk of drug-resistant tuberculosis and diminish protective efficacy, it is crucial to prioritize patient education and enhance adherence to TPT regimens.
Our findings demonstrate that T-SPOT.TB levels remained stable throughout IL-17A inhibitor therapy in patients with psoriasis, regardless of whether they underwent TPT or not. Intriguingly, the non-TPT group exhibited a higher reversion rate of T-SPOT.TB (15.9% vs. 3.7% in the TPT group). This reversion predominantly occurred in patients with significantly lower initial T-SPOT.TB levels, suggesting a spontaneous tendency towards reversion, particularly when levels are marginally above the threshold. Meta-analyses and randomized trials have consistently reported QFT reversion rates of approximately 20% in individuals with TBI, regardless of TPT use [
22,
23]. Additionally, QFT dynamics appear to be poorly correlated with the risk of ATB development [
22]. A recent propensity score-matched study found no significant differences in QFT values before and after secukinumab treatment in patients with psoriasis and TBI for both the TPT and non-TPT groups [
17]. Given these findings, continuous IGRA monitoring may not be essential for patients with psoriasis and TBI on IL-17A inhibitor therapy. Identifying ATB may be more effectively achieved by focusing on clinical symptoms, inflammatory markers, and radiologic assessments, rather than relying on regular IGRA tests.
A population-based, multicenter, prospective study in rural China reported QFT positivity rates ranging from 13% to 20% [
24]. In contrast, our research revealed a higher T-SPOT.TB positivity rate of 37.8% among patients with psoriasis undergoing biologic therapy. This discrepancy could partially be explained by the differing demographics of the study populations. The population-based study showed increased QFT positivity with age and higher rates in males. Children and adolescents, representing 17% of their participants with a mere 3% QFT positivity rate, and male participants comprising 46% of their sample, contrast with our study’s all-adult participants, averaging 45 years old, predominantly male (73.6%). Our results align with Sun et al.’s single-center retrospective study, which enrolled 93 patients with moderate to severe psoriasis treated with biologics, reporting an average age of 45 years, 76.3% male participants, and a baseline QFT positivity rate of 32.0% [
8].
In our study, we observed a cumulative T-SPOT.TB conversion rate of 3.3% over 2 years in patients with psoriasis. This finding aligns with previous studies. For instance, a retrospective study from Taiwan reported a 1.3% QFT conversion rate among patients with psoriasis undergoing nearly a year of IL-17A inhibitor treatment [
25]. Furthermore, a population-based prospective study in rural China recorded an approximate annual TBI rate of 1.5%, determined by consistent positive results after QFT conversion [
26].
This study revealed that patients with psoriasis aged 45 years or older had a 2.44 times greater risk of TBI. Furthermore, BMI lower than 24.0 kg/m
2 was associated with a 2.12 times increased risk of TBI. Factors such as gender, diabetes, smoking, and PASI score were not correlated with an elevated TBI risk. Contrasting with findings from an Italian study, which identified male gender (OR 1.30, 95% CI 1.04–1.62,
p = 0.02) and age over 55 (OR 2.93, 95% CI 2.18–3.93,
p < 0.001) as independent TBI risk factors in patients with psoriasis [
27], our research is the first to highlight BMI under 24.0 kg/m
2 as a potential independent risk factor, suggesting higher susceptibility to TBI among patients of normal or lower weight.
In our cohort, post 2 years of IL-17A inhibitor therapy, the PASI 75, 90, and 100 response rates were 76.9%, 46.3%, and 25.0%, respectively, which are modest compared to previously reported studies [
28,
29]. This discrepancy may be attributed to (1) a reduction in IL-17A inhibitor frequency by some participants over time; (2) the study’s 15.5% dropout rate without imputation for missing data; and (3) many patients had prior systemic and biologic treatments, which could influence response rates. The adverse reactions to IL-17A inhibitors aligned with existing literature, mainly consisting of injection site reactions, exacerbated dermatitis or eczema, and vulvovaginal candidiasis [
30‐
33].
Our study has several limitations that merit attention. Primarily, its observational, open-label design, although informative, lacks the robustness of randomized, double-blind trials. Additionally, we did not explore the potential role of contact with pulmonary tuberculosis as a risk factor for TBI, as a result of the minimal number of such cases. Importantly, this research was specifically aimed at individuals with moderate-to-severe plaque psoriasis eligible for biologic therapy, excluding those with coexisting conditions like malignancies, HIV infection, or inflammatory bowel diseases. This delineation may restrict the extrapolation of our findings to a wider patient demographic. Moreover, the absence of ATB cases within our cohort should be interpreted with caution—it tentatively suggests that IL-17A inhibitors do not markedly raise the risk of tuberculosis reactivation. This tentative conclusion, juxtaposed with a relatively small sample size and limited follow-up period, and considering the low incidence of ATB in TBI individuals (a cumulative 5-year incidence rate of 2.4% [
34]), underscores our findings as preliminary. It emphasizes the need for further, more comprehensive studies involving larger, randomized trials to validate our observations and clarify the implications of IL-17A inhibitor therapy in this patient population.
Conclusion
Our investigation delineates that the administration of IL-17A inhibitors to patients with psoriasis and TBI, in the absence of TPT, did not lead to any cases of ATB over a span of 2 years. This finding indicates a minimal risk of tuberculosis reactivation with IL-17A inhibitor therapy. The observed stability or reversion in T-SPOT.TB levels further suggests that regular monitoring of T-SPOT.TB may not be essential. Additionally, the surveillance for ATB should emphasize the evaluation of clinical symptoms, inflammatory markers, and radiographic findings rather than the dynamic changes in T-SPOT.TB. It is crucial to highlight that middle-aged and elderly patients with psoriasis, particularly those with normal or reduced BMI, represent a demographic at elevated risk for TBI and warrant particular attention.
These findings necessitate a reconsideration of the initial assessment protocols for patients with psoriasis being considered for IL-17A inhibitor treatment. It appears that merely ruling out ATB, especially in the absence of risk factors for tuberculosis, may be adequate, thereby diminishing the necessity for routine TBI screening or TPT. Such a shift in perspective could potentially alter clinical practice, ensuring that treatment strategies are more closely tailored to the unique risk profiles of individual patients.