Assessing usability of QIAreach QuantiFERON-TB platform in a high tuberculosis prevalence, low-resource setting.

QIAreach QuantiFERON-TB is a portable IGRA with the potential to improve accessibility of TB infection diagnosis in low-resource settings https://bit.ly/3nTzolf.

To the Editor:

The World Health Organization (WHO) estimates that 1.8 billion people, close to a quarter of the world's population are infected with Mycobacterium tuberculosis [1]. Despite substantial declines in tuberculosis (TB) incidence over the past decade, Zambia still has the seventh highest TB incidence in sub-Saharan Africa and remains one of the 30 WHO high TB-burden priority countries [2]. In 2019, there were ∼59 000 new individuals with active TB disease in Zambia (incidence rate of 333 per 100 000 per year), which resulted in 15 400 TB-related deaths, of which 62% were among people living with HIV [2].

Management of TB infection represents a neglected component of national TB programmes [3]. A reliable diagnosis followed by successful TB preventive therapy is crucial to reach the End TB strategy goals and to eliminate TB [4, 5]. Tuberculin skin test (TST) and interferon-γ release assays (IGRAs) are the main diagnostic tools for TB infection diagnosis, however, both present strengths and limitations [6]. The TST requires two visits, is not easy to administer and is influenced by conditions, including bacille Calmette–Guérin vaccination, that can reduce the skin reactivity [7-9]. IGRAs were demonstrated to overcome the drawbacks of TST [10]. To date, two IGRA tests are recommended by the WHO: T-SPOT.TB (Oxford Immunotec, Abingdon, UK) and QuantiFERON-TB Gold Plus (QFT-Plus; QIAGEN, Hilden, Germany) [11].

The QFT-Plus is a new generation IGRA that uses innovative antigens that elicit both CD8 and CD4 T-cell responses, enabling a more comprehensive assessment of cell-mediated immune response to TB infection [12, 13]. The need for established laboratory infrastructure and trained personnel represent one of the main barriers for the implementation of QFT-Plus in low-resource settings [14]. QIAGEN has recently developed a new lateral flow immunoassay for the diagnosis of TB infection, the QIAreach QuantiFERON-TB (QIAreach QFT) assay. The prototype QIAreach QFT is a semi-automated assay that uses the same TB2 tube as QFT-Plus to detect interferon-γ in plasma released from both CD4 and CD8 T-cells. After incubation, without the need to perform enzyme-linked immunosorbent assay (ELISA), the sample is analysed on a portable platform, eHubs, performing up to eight tests in 20 min, providing a final qualitative result (positive, negative, or error) [15, 16].

In this study we aimed to assess the usability of the prototype QIAreach QuantiFERON platform in a high TB prevalence, low-resource setting. We report the results of the prototype QIAreach QFT assay usability study conducted in 2019 across six laboratories in Zambia using whole blood collected from participants enrolled in the Tuberculosis Reduction through Expanded Antiretroviral Treatment and Screening (TREATS) infection cohort study.

The study was conducted across six laboratories situated in four provinces of Zambia. The six laboratories were the Zambart Central Laboratory located in Lusaka (Lusaka province) and five regional laboratories located in Livingstone (Southern province), Choma (Southern province), Kabwe (Central province), Ndola (Copperbelt province) and Kitwe (Copperbelt province). The selected laboratories were purposively and conveniently chosen due to their involvement with the TREATS infection cohort study in Zambia and are not representative of the total Zambian population. Usability of the prototype QIAreach QFT and training needs for the assay implementation were assessed across three domains: effectiveness, efficiency, and user satisfaction.

To achieve a valid preliminary data on usability, nine laboratory workers (two laboratory assistants, three laboratory scientists and four laboratory technicians) were purposively selected based on their job title and laboratory experience [17]. Operators were provided with the following: the QIAreach QFT eHub, a laptop computer with pre-installed QIAreach QFT software (optional; for connectivity with laboratory reporting systems only), QIAreach QFT test kits and diluent buffer, QIAreach QFT package insert, an adjustable standard laboratory pipette capable of dispensing 150 µl and disposable pipette tips, and TB2 tube with harvested plasma. During the usability testing, operators were asked to read the instructions outlined in the package insert, and complete four tasks using both the eHubs and software. The operators did not receive any initial aid from the observer. If participants struggled with a task, the observer provided hints to help users through the process.

For each task, metrics on success (pass, fail, pass with hints), total task time, and ease of use rating (five-point Likert scale) were collected. Total task time is an indicator of user efficiency. Shorter task times on subsequent identical tasks are indicative of learnability. Common errors were collected after assay completion and categorised into those issues that prevent the user from completing the assay and those that increase the risk of human error during the task.

Written consent was obtained from eligible participants, who agreed to take part in the TREATS infection cohort at enrolment and there was no additional consent obtained for this study.

Ethics approval for the infection cohort was obtained from the Biomedical Research Ethics Committees of the University of Zambia, Lusaka, Zambia and the London School of Hygiene and Tropical Medicine, London, UK.

Overall task completion rate was 89–100%. Table 1 provides a visual representation of the pass and fail rates of each task. One participant out of nine could not understand the software instructions in the QIAreach QFT package insert. However, the participant was able to complete the assay manually. Two participants had difficulty loading the sample on the QIAreach eStick. The average time from setup to results ranged from 22 to 40 min. Users with experience performing the QFT-Plus assay completed the test faster than users without experience, 26 min versus 35 min. Two participants were unable to adjust the pipette to the required volume of 150 µL. Two participants tried to mix the test sample up and down without the disposable tip on the pipette. One participant transferred the sample buffer twice and added insufficient plasma to the sample processing tube. Two participants added the test sample to the eStick sample port many times. One participant added wrong information in the software.

TABLE 1

Summary of task success rate, time from setup to results and user satisfaction by participant

	Participant									Effectiveness (i.e. pass rate)
	1	2	3	4	5	6	7	8	9
Task 1	P	P	P	P	P	P	P	P	P	9/9 (100%)
Task 2	PH	PH	P	P	P	P	P	P	P	9/9 (100%)
Task 3	PH	PH	P	P	P	P	P	P	P	9/9 (100%)
Task 4	F	PH	P	P	P	P	P	P	P	8/9 (89%)
Efficiency#, min	40	36	30	30	26	23	29	26	22
User satisfaction¶	2	4	4	4	5	5	4	5	4

Task 1: setup (place blood tube on eHub, place eStick in eHub, add processing tube on eHub); task 2: load sample (add buffer to processing tube, remove plasma from blood tube, add plasma to processing tube, mix plasma and buffer in processing tube); task 3: run test (add test sample to eStick port); task 4: process results (enter and track data in software). P: pass; F: fail; PH: pass with hint; #: mean time from setup to results; ¶: Likert scale, 1=very unsatisfied, 2=unsatisfied, 3=neutral, 4=satisfied, 5=very satisfied.

On average, participants had 7 years of laboratory experience. When asked about previous experience with IGRA technology, six operators reported experience using the QuantiFERON Gold-In-Tube/Plus.

The QIAreach QFT test provides a significant contribution to global TB infection diagnostics. The usability assessment of the prototype QIAreach QFT represents an important aspect that affects user acceptance and the introduction of a new test into the TB care cascade. In our study, we found that all participants obtained valid results and could use the platform without any problems or with little difficulties. Operators with prior experience with QFT-Plus completed the tasks faster than users without prior experience. Only one operator did not use the software due to his limited computer skills. The study also showed that seven operators out of nine correctly used a laboratory pipette without any difficulty. The key issue categorised as being at risk of human error when performing the assay was a lack of practice using the standard laboratory pipette. However, considering that the skills for using laboratory pipettes in low-resource settings are very limited, a disposable pipette and video training is recommended to reduce errors.

The primary driver of failed tasks was lack of expertise in using computers. High inconsistencies with the features of the device and those described in the instructions were found. Regardless of these challenges, an ease-of-use rating was assigned, with a majority of participants reporting ratings of 4 or 5 on a Likert scale for assay usability. When asked about satisfaction, the participants commented on the platform being user-friendly, the content being enough and the instructions being easy to understand and follow. The time taken for each user to perform the assay from the first to the last sample decreased as the user's experience and familiarity with the assay increased.

This study demonstrated that the prototype QIAreach QFT has a number of operational advantages compared with the more complex current IGRA assays. The prototype QIAreach QFT is an innovative digital lateral flow, battery operated system that replaces the laboratory-based ELISA workflow. The system also uses an optimised single tube workflow requiring 1 mL compared with the 4 mL needed for QFT-Plus and T-SPOT. The QIAreach QFT assay requires a time to results of 20 min compared with the 150 min needed for the ELISA-based detection assay. In addition, the QIAreach QFT allows eight samples to be run independently eliminating the need to batch samples and providing timely TB infection diagnosis.

The QIAreach QFT assay is suitable for implementation in remote areas, where limited infrastructure has hampered the accessibility of IGRA technologies to those in need. Further studies are needed to establish the assays performances as well as the feasibility of introducing this new assay at larger scale to improve TB control in regions with limited infrastructure.