The VICTORY (Investigation of Inflammacheck to Measure Exhaled Breath Condensate Hydrogen Peroxide in Respiratory Conditions) Study: Protocol for a Cross-sectional Observational Study

Background: More than 7% of the world’s population is living with a chronic respiratory condition. In the United Kingdom, lung disease affects approximately 1 in 5 people, resulting in over 700,000 hospital admissions each year. People with respiratory conditions have several symptoms and can require multiple health care visits and investigations before a diagnosis is made. The tests available can be difficult to perform, especially if a person is symptomatic, leading to poor quality results. A new, easy-to-perform, point-of-care test that can be performed in any health care setting and that can differentiate between various respiratory conditions would have a significant, beneficial impact on the ability to diagnose respiratory diseases. Objective: The objective of this study is to use a new handheld device (Inflammacheck) in different respiratory conditions to measure the exhaled breath condensate hydrogen peroxide (EBC H 2 O 2 ) and compare these results with those of healthy controls and with each other. This study also aims to determine whether the device can measure other parameters, including breath humidity, breath temperature, breath flow dynamics, and end tidal carbon dioxide. Methods: We will perform a single-visit, cross-sectional observational study of EBC H 2 O 2 levels, as measured by Inflammacheck, in people with respiratory disease and volunteers with no known lung disease. Participants with a confirmed diagnosis of asthma, chronic obstructive pulmonary disease, lung cancer, bronchiectasis, pneumonia, breathing pattern disorder, and interstitial lung disease as well as volunteers with no history of lung disease will be asked to breathe into the Inflammacheck device to record their breath sample. Results: The results from this study will be available in 2022, in anticipation of COVID-19–related delays. Conclusions: This study will investigate the EBC H 2 O 2 , as well as other exhaled breath parameters, for use as a future diagnostic tool.


Respiratory Diseases
Globally, respiratory disease is a leading cause of morbidity and mortality, with over 7% of the world's population living with a chronic respiratory disease [1], including a significant burden on children. Respiratory diseases account for more than 10% of all disability-adjusted life years worldwide [2]. Diagnosing respiratory conditions at an earlier stage affords patients the opportunity to receive appropriate treatment, along with reducing symptoms and improving quality of life and reducing the impact of frequent visits to health care services due to misdiagnosis or exacerbations. A rapid point-of-care test may be more useful in low-resource settings.
Within the United Kingdom, approximately 1 in 5 people have ever developed asthma, chronic obstructive pulmonary disease (COPD), or other long-term respiratory illness [3]. In addition, lung diseases are responsible for more than 700,000 hospital admissions and over 6 million inpatient bed days each year [3]. It is estimated that each week, 10,000 people are given a new diagnosis of lung disease, but there are thousands of more people living with the symptoms of lung conditions without a diagnosis. Table 1 presents the respiratory conditions that are under investigation in this study. As the table shows, there is no one gold standard diagnostic investigation to support the diagnosis of these different conditions. As a consequence, patients can undergo multiple investigations, leading to a delay in diagnosis and a prolonged period of struggling with untreated symptoms. Spirometry, chest x-ray, and CT c scan In the United Kingdom, there are an estimated 3 million people affected by COPD, with a third of those having a diagnosis and two-thirds who remain undiagnosed [4]. COPD is common and treatable but is a leading cause of morbidity and mortality worldwide, and its prevalence is likely to increase in the next decade [5]. COPD is responsible for a significant financial burden on the NHS b , with the total annual cost of COPD reaching £982 million (US $1.3 billion), as well as the personal burden, causing almost 22 million lost working days per year [6]. COPD a Peak expiratory flow, spirometry, bronchial provocation, exhaled nitric oxide, and eosinophilic markers Asthma affects over 5.4 million people in the United Kingdom, with 200,000 experiencing severe disease with frequent exacerbations [7]. The National Review of Asthma Deaths in 2014 found that there were 900 deaths due to asthma, highlighting that more needs to be done regarding the diagnosis and management of this disease [8]. Treating asthma costs the NHS over £1 billion (US $1.42 billion) per year, and it is a burden for the person living with asthma, with significant psychological and physical morbidity [9,10]. Delays in diagnosing asthma and achieving good disease control cause an increase in emergency health care use and inappropriate treatment.
Asthma Chest x-ray, CT scan, and sputum microbiology The prevalence of bronchiectasis in the United Kingdom is rising, and it is estimated that the number of people living with this disease exceeds 300,000 [11,12]. People with bronchiectasis experience symptoms of excessive sputum production and recurrent respiratory infections, sometimes requiring hospital admission.

Bronchiectasis
CT scan or lung biopsy ILDs are a group of diffuse parenchymal lung disorders associated with substantial morbidity and mortality. ILD can be difficult to diagnose and often requires collaborative expertise from multiple specialties to reach a consensus. As a consequence, ILD is often diagnosed late in the course of the disease, impacting patients' quality of life, and can even limit access to novel treatments [13,14]. For example, idiopathic pulmonary fibrosis, one of the more common ILDs, is a chronic, progressive disease with a median survival of only 3 years from the time of diagnosis [15]. As such, developing a test that could confirm ILD at an earlier stage is urgently required. ILD d CT scan and lung biopsy Lung cancer is a leading cause of global cancer death [16]. Even with recent advances in treatment options, approximately 86% of lung cancer patients die within 5 years of diagnosis. However, with early detection and treatment, 5-year survival rates improve to 70% in patients with stage 1 disease [17]. Consequently, new, accurate diagnostic tests that can detect lung cancer at the earliest stage possible are urgently needed.

Lung cancer
Chest x-ray and CT scan Pneumonia is the most common cause of respiratory hospital admissions. It is the inflammation of one or both lungs, normally caused by an infection. It is estimated that approximately 220,000 people receive a diagnosis of pneumonia each year [3]. Pneumonia is responsible for over 5% of all deaths and over 25% of all respiratory deaths [3]. It can be difficult to diagnose, and diagnosis can depend upon the quality of the chest x-ray or the ability of the person to mount an immune response.

Pneumonia
Clinical assessment BPD is a very common, potentially debilitating, and easily treatable condition. Unfortunately, it is rarely considered as a common cause of breathlessness, and besides the Nijmegen questionnaire, there is no quick and easy way of diagnosis [18].

Airway and Lung Inflammation
A common feature of most of these lung conditions is airway inflammation. The current breathing devices to measure the levels of inflammation focus on eosinophilic rather than neutrophilic inflammation, which is the predominant phenotype in COPD, bronchiectasis, steroid-resistant asthma, and pneumonia. Prolonged exposure to toxic irritants has been implicated in airway inflammation in lung cancer [19]. Interstitial lung disease (ILD) is an umbrella term for lung diseases characterized by fibrosis, which can occur as a result of chronic inflammation, remodeling, and repair [20].
Airway inflammation leads to an imbalance between the production of reactive oxygen species (ROS) and the ability of the body to counteract their harmful effects through neutralization by antioxidants. This results in oxidative stress [21,22]. Increased expression of ROS by activated inflammatory cells, including neutrophils, macrophages, and eosinophils, can lead to further generation of inflammatory mediators, causing damage to epithelial cells and increased bronchial hyperreactivity. ROS are metabolized in cells to produce highly reactive oxidants such as hydrogen peroxide (H 2 O 2 ), which is fat soluble and can move across cell membranes. As H 2 O 2 is volatile and readily equilibrates with air, its presence is detected in exhaled breath condensate (EBC). Therefore, measurement of exhaled breath condensate hydrogen peroxide (EBC H 2 O 2 ) provides a quantitative measure of oxidative stress and airway or lung inflammation [23,24].
Breathing pattern disorder (BPD) is a noninflammatory condition but is a common comorbidity with other respiratory disorders. Preliminary data have shown that breath flow dynamics in a person with BPD is unique (D. Neville, unpublished data, 2018); therefore, by studying those with BPD only, we may be able to identify specific features and use the device to assess when dual pathology is present.

Inflammacheck
In contrast to the current measures of airway inflammation, the collection of EBC H 2 O 2 is performed during tidal breathing, making it noninvasive and easy to perform. It can be repeated quickly and is well tolerated even in patients with severe airway disease. It is widely appreciated that EBC H 2 O 2 measurement has the potential to improve clinical practice by safely providing vital information on aspects of disease that are currently inaccessible [25]. To date, measurement of H 2 O 2 in EBC requires complex, multistep processing of the collected breath samples to produce a result, and consequently, it has largely been used as a research tool.  [26]) have shown that it accurately measures the level of H 2 O 2 in EBC and that levels of H 2 O 2 are significantly higher in patients with asthma, COPD, ILD, and lung cancer than in healthy controls. The EXHALE 1V (Exhaled Hydrogen Peroxide as a Marker of Lung Disease Study 1-Validation) COPD validation study was terminated early as significant changes were made in the sensor processing and device housing, which made the results unreliable. Participant feedback from these studies helped refine the device further, and now, Exhalation Technology Ltd has produced a handheld device (Figure 1), which can accurately and reliably measure the H 2 O 2 level in a single test. This new device can also measure additional parameters, including breath humidity, breath temperature, breath flow dynamics, and carbon dioxide (CO 2 ) waveform. Previous studies have demonstrated significant differences in H 2 O 2 levels between healthy controls and some respiratory diseases including asthma, COPD, and ILD. We now want to expand upon these results to determine whether these differences are seen across a wider spectrum of respiratory diseases and whether the additional parameters measured by the Inflammacheck device (Exhalation Technology Ltd) also reflect differences between conditions. This could potentially provide a unique test that measures common biological and physiological parameters in a point-of-care device to aid earlier diagnosis and support personalized management plans. This simple, noninvasive technique may also make repeat sampling and longitudinal monitoring of global airway inflammation a realistic possibility. The Inflammacheck device is currently Conformité Européenne marked for adults only, which is the subject of this protocol.

Primary Objective
The primary objective is to measure and compare the levels of H 2 O 2 in EBC in patients with a range of commonly occurring respiratory conditions and compare these results with those of healthy controls, and with each other.

Secondary Objectives
The secondary objectives are as follows: • To assess whether the device can measure EBC H 2 O 2 consistently (pilot phase only) and ensure that there are no safety issues or participant issues when using the device • To determine whether EBC H 2 O 2 , as measured by Inflammacheck, can differentiate between patients with asthma, COPD, lung cancer, ILD, BPD, bronchiectasis, and pneumonia and healthy controls • To measure and compare the levels of the following parameters using Inflammacheck in patients with a range of commonly occurring respiratory conditions and compare with healthy controls: To determine whether H 2 O 2 , breath humidity, breath temperature, exhaled CO 2 waveform, and breath flow dynamics, as measured by Inflammacheck, can either alone or in combination differentiate patients with asthma, COPD, lung cancer, ILD, BPD, bronchiectasis, and pneumonia from each other and from healthy controls • To assess the experience of a small group of participants and health care professionals in using the Inflammacheck device using a questionnaire methodology

Methods
Overview This is a cross-sectional observational study of EBC H 2 O 2 levels, as measured by Inflammacheck, in people with asthma, COPD, bronchiectasis, ILD, lung cancer, pneumonia, and BPD and in healthy volunteers. The participants were screened for the absence of COVID-19 symptoms before testing.

Respiratory Outcomes
Respiratory outcomes will include the following:

Experience Outcomes (by Questionnaire)
Experience outcomes will include the following:

Study Participants
Participants with the abovementioned respiratory conditions and healthy volunteers will be recruited. There are some overarching inclusion and exclusion criteria, along with some specific respiratory condition criteria to ensure that each disease is well defined.

Inclusion Criteria
The participants must meet all the following criteria to be considered eligible for the study:

Exclusion Criteria
The participants may not enter the study if any of the following apply: • Existing comorbidities that may prevent them from performing spirometry (for those with asthma and COPD or healthy controls) and no spirometry in the previous 12 months (at the discretion of the clinical investigator) • Unable to comprehend the study, unable to provide informed consent, and unable to perform any of the study procedures

Sampling and Sample Size
The sample size was based on the primary objective of comparing EBC H 2 O 2 values between each of the study groups (patients with asthma, COPD, ILD, and lung cancer and controls) based on the results from previous studies (EXHALE 1A and EXHALE 1B), using an older version of the device. Sample sizes were calculated based on 5% significance and 80% power using a comparison of 2 means (two-tailed t test across independent groups) and using effect sizes based on the results of the previous studies.
Using these calculations, we will recruit the following: The BPD, bronchiectasis, and pneumonia groups are exploratory, and no information exists to base their sample size on. Therefore, we will aim to recruit 25 people in each of these groups.

Recruitment
This is a multicenter study in which the identification of potential participants are being performed in respiratory outpatient clinics, inpatient wards across the hospital, and integrated specialist community clinics in primary care. Participants in our research database who have previously provided their consent to participate in future studies that adhere to the general data protection regulations will also be offered the opportunity to participate in this study. People with suspected lung cancer can be recruited before a confirmed diagnosis. If tests confirm that the participant does not have cancer, they can be entered into any other category if appropriate; otherwise, they will be considered a screen fail. Healthy volunteers will be recruited from National Health Service staff, our research database, friends and family of participants with respiratory disease, and students or staff at the University of Portsmouth.
Participants will be approached by their clinical care team, and those who express an interest will be provided with a participant information sheet (PIS), an opportunity to ask any questions, and a review with the research team either at that point in time or at a future convenient date and time.

Pilot Phase
Before starting full recruitment, we will run a pilot phase to ensure that the device can produce consistent and reliable results. Participants will be recruited as detailed above, and the study procedures will be identical. These data will be analyzed as soon as possible after collection to assess the quality and accuracy of the results. The criteria for termination of the pilot phase will be determined by the clinical, engineering, and manufacturing teams based on the quality of data, safety information, clinical training, and ease of use.

Participant Characteristics
Before other study procedures, the characteristics of participants, which are known to have a potential influence on respiratory test results, will be documented. These will include the following:

Respiratory Tests
The participants will then perform the EBC H 2 O 2 level measurement performed by the Inflammacheck device, followed by spirometry if the participant has asthma or COPD or is a healthy control, unless this has been done in secondary care or by the research team within the last 12 months. Following this, a small subgroup of participants will answer a brief Likert-type questionnaire regarding their experience. For every Inflammacheck test, the following will be recorded: • Whether the test was completed, and if not, the reason for this • Any adverse events (AEs) related to the test that are reported by the participant or noted by the clinical staff during the test procedures.

Hydrogen Peroxide in Exhaled Breath Condensate
EBC H 2 O 2 will be measured using the Inflammacheck device according to the manufacturer's instructions. This involves simple relaxed tidal breathing for up to 6 minutes into a disposable mouthpiece attached to the handheld device, while wearing a nose clip. The Inflammacheck device then provides a reading of the EBC H 2 O 2 . The results will not be recorded in any clinical notes, as they are not intended to inform patient management decisions in this study. As this is a point-of-care test, this investigation can be performed in any clinical environment. Understandably, preventing cross-contamination in any era, but especially in this global coronavirus pandemic, is paramount, and this investigation is performed using a bacterial viral filter within the mouthpiece, with single-use disposable valve houses and sensors. The device itself is cleaned between each participant's use according to the local cleaning guidelines for medical devices.

Spirometry
Spirometry (performed conforming to the American Thoracic Society and European Respiratory Society standards) will only be performed in patients with asthma and COPD or in healthy controls who have not undergone spirometry in the last year in secondary care or by the respiratory research team. Participants will inhale rapidly and completely from functional residual capacity, then exhale in an initial forced exhalation, and then continue exhalation until the end of the breath. FEV 1 (measured in liters), FVC (measured in liters), and FEV 1 /FVC ratio will be recorded. FEV 1 and FVC will be documented as absolute values and as a percentage of the predicted value (25). A minimum of 3 blows will be performed, with 2 blows within 100 milliliters or 5% of each other. Given the current coronavirus pandemic, spirometry is only being performed if it will impact clinical decisions.

Self-Completion Questionnaire
A brief self-completion questionnaire will be used in 20 randomly selected participants to evaluate their opinions on the Inflammacheck device on a Likert-type scale. Participants will be asked about ease of use, comfort during testing, and perception and satisfaction of Inflammacheck.

Health Care Professionals' Self-Completion Questionnaire
A brief self-completed questionnaire will be used by 5 randomly selected health care professionals to evaluate their opinions on the Inflammacheck device on a Likert-type scale, as described above.

Withdrawal Rules
Participants who are unable to perform the EBC H 2 O 2 measurement with Inflammacheck or spirometry will not be withdrawn. The reason for failing to perform these tests will be documented in the case report form (CRF).

Overview
An AE is any untoward medical occurrence in a participant taking part in a clinical trial, which does not necessarily have to have a causal relationship with the device under investigation. An AE can, therefore, be any unfavorable or unintended sign, symptom, or disease temporarily associated with the use of the device, whether or not this has a causal relationship with the device under investigation.

Recording and Reporting of AEs
There are not expected to be any AEs associated with the use of the Inflammacheck device, and no AEs were noted during any of the previous studies that involved this device. Only AEs that have a reasonable possibility of being attributable to the device and any other AE considered to be of clinical significance by the principal investigator (PI; eg, causing harm to the patient) will be recorded in the CRF and reported to the sponsor as per their guidelines. We will record all AEs that are observed during all respiratory test procedures as a study outcome. Any AEs that do occur and are considered by the PI to be related to the device will be expedited to the sponsor, research ethics committee (REC), and the device manufacturer within 7 days. Lists of the AEs will be provided to the sponsor when requested.

Data Collection and Management
Data collection will be performed by the research team comprising research doctors, nurses, and clinical research associates, all of whom have received appropriate training. Enrollment in the study will be documented in each participant's medical notes if they are an inpatient. The data collection forms are as follows: • CRF, including participant characteristics and respiratory test results confirming the underlying diagnosis • Self-completed questionnaire for participants The data will be entered into a secure electronic platform. Anonymized data will be shared electronically with Exhalation Technology Ltd for analysis and interpretation of the breath humidity, temperature, breath flow dynamics, and CO 2 waveform data. The Inflammacheck results will be uploaded to a secure shared database to allow analysis and review of the collected data. Participants will consent to this, and no identifiable data will be shared.

Data Analysis
All participants with an EBC H 2 O 2 result, as measured by Inflammacheck, will be analyzed. Subgroup analyses may be carried out if there are sufficient number of patients with particular characteristics, such as smokers and nonsmokers.

Summary Statistics
Demographics or baseline characteristics of each study group will be produced, as well as an overall summary for all groups combined. Normally distributed continuous variables will be summarized by the mean and SD, whereas the median and IQR will be preferred for nonnormally distributed continuous variables. The number and percentage of subjects in each category will be recorded for categorical variables.

Primary Analysis
The primary analysis will be a comparison of EBC H 2 O 2 values, as measured by the Inflammacheck device, between participants with the index disease and controls and with each other. It is expected that the EBC H 2 O 2 will have a positively skewed distribution. To allow for the skewed distribution, one approach would be to analyze the data on a log-transformed scale and to compare between groups using analysis of variance, with post hoc tests performed to compare between pairs of groups. It is possible that there may be EBC H 2 O 2 measurements below the lower detection limit, and thus, the previous approach may not be practical. If measurements are below the detection limit, nonparametric methods will be used. The Kruskal-Wallis test will be used to evaluate if differences exist between the 3 groups, with post hoc Mann-Whitney U analyses used to compare differences between pairs of groups. When comparing pairs of groups, a Bonferroni correction will be applied to allow for multiple testing.

Secondary Analyses
The association between the EBC H 2 O 2 measurements and other parameters (breath temperature, breath humidity, breath flow dynamics, and CO 2 waveforms) will be examined. Associations between EBC H 2 O 2 and the continuous variables listed above will be examined using either Pearson or Spearman rank correlation (as appropriate).
The percentage of attempted tests that failed for each test will be recorded. The association between patient characteristics and this outcome will be examined. Assuming that patient characteristics are categorical in nature, the chi-square test or Fisher exact test will be used to examine associations with this outcome. Secondary analyses will be performed for all subjects combined and for each study group separately.

Exploratory Analysis
The relationship between EBC H 2 O 2 and other lung function parameters with respiratory disease type will be further examined, assuming that EBC H 2 O 2 and other factors are possible predictors of respiratory disease. Respiratory disease type, using the patient groups included in the study, will be considered as a binary outcome: healthy versus disease type, and the analysis will be performed using multivariable logistic regression. Receiver operator curve characteristic analyses will also be undertaken to assess the predictability of EBC H 2 O 2 levels to differentiate between healthy volunteers and patients with respiratory disease. Further analyses will be performed to assess whether H 2 O 2 alone or in combination with temperature, humidity, breath flow dynamics, and CO 2 waveform characteristics can discriminate between healthy controls and those with a lung disorder using sensitivity, specificity, and receiver operating characteristic curves as well as using generalized linear models with post hoc least significant difference testing.

Procedure for Dealing With Missing, Unused, and Spurious Data
The analysis will include any measured data values, with missing values omitted from the analysis. No imputation of the missing data will be performed. These data will be examined for outlying values. Where possible, these will be retained in the data analysis, and their influence will be minimized by a data transformation or a nonparametric approach. If such approaches are not practical, the analysis of the primary outcome will be performed twice, with and without the outlying values.

Participant Confidentiality
The study staff will ensure that participants' anonymity is maintained. The participants will be identified only by initials and a participant's ID number on the CRF and any electronic database. All documents will be stored securely and will only be accessible by the study staff and authorized personnel. The study will comply with the Data Protection Act 2018, which requires data to be anonymized as soon as it is practicable to do so.

Other Ethical Considerations
The study was approved by the Berkshire REC (reference 19/SC/0462) in August 2019. They reviewed and approved the protocol and all study-relevant material. Any changes to the protocol or relevant study documents will be approved by the sponsor. If an amendment is made that requires REC approval, as defined by the REC as a substantial amendment, the changes will not be instituted until the amendment has been reviewed and received approval or favorable opinion from the REC and research and development departments. A protocol amendment intended to eliminate an apparent immediate hazard to participants may be implemented immediately, providing that the REC is notified as soon as possible, and an approval is requested. Minor amendments as defined by REC as a nonsubstantial amendment may be implemented immediately, and the REC will be informed. All participants will have adequate time to consider participation in the study, as per the Good Clinical Practice guidelines.
Patients who are already enrolled in other research trials will be invited and allowed to participate in the study if they wish to do so. This was discussed with our patient and public involvement (PPI) representatives who felt that these patients should have the opportunity to participate in this study and should not be excluded. There is a possibility that this study reveals potential new, previously unknown disease pathology. This would be more likely to occur in healthy controls. If such a circumstance occurs, then the participant will be told about the results and immediately referred to the most appropriate National Health Service department for further review. With the participant's consent, a letter will be written to their general practitioner explaining the findings.
Where possible, this study will be performed alongside an existing appointment to limit any extra burden to the participant, and all participants will receive a small compensation for travel costs. Participants in the pneumonia arm will be recruited while an inpatient and will not require any additional visits.

Informed Consent
It is the responsibility of the investigator, or a person designated by the investigator (if acceptable by local regulations), to obtain written informed consent from each person participating in this study, after adequate explanation of the aims, methods, anticipated benefits, and potential hazards of the study using the PIS.
Electronic consent will be obtained using the REDCap (Research Electronic Data Capture; Vanderbilt University) platform. Once participants have read the PIS, they will be asked to enter their signature (using their cursor or finger if on a tablet device). Participants will have the opportunity to download or print a copy of their consent form and the PIS. If a participant is unable to complete e-consent, they will have the opportunity to sign a paper consent form when they attend to complete the study visit.
The process for obtaining informed consent will be in accordance with REC guidance, Good Clinical Practice guidelines, and any other regulatory requirements that might be introduced. The PI or delegate and the participant shall both sign and date the informed consent form before the person can participate in the study.
The decision regarding participation in the study is entirely voluntary. The investigator or their nominee shall emphasize to them that consent regarding study participation may be withdrawn at any time without penalty or without affecting the quality or quantity of their future medical care or without loss of benefits to which the participant is otherwise entitled.

PPI Details
PPI in this study has been sought from patients with firsthand experience of living with a respiratory disease. Through face-to-face meetings, email, and telephone contact, we have discussed the concept, impact, and details of the study with our patient representatives from local groups. They have contributed to developing the key questions and setting our study objectives, ensuring that we answer questions relevant to people with respiratory diseases. They have helped design the questionnaire that will be used to record the participant experience of the device and the PIS.

Results
This study has been receiving funding since 2019 and was approved by a REC in August 2019. As of May 2020, the pilot phase has been completed, and 78 participants enrolled into the VICTORY (Investigation of Inflammacheck to Measure Exhaled Breath Condensate Hydrogen Peroxide in Respiratory Conditions) study. The results from this study will be available in 2022, in anticipation of COVID-19-related delays.

Discussion
An easy-to-use point-of-care device that can be used in any health care setting and can differentiate between a range of respiratory conditions would revolutionize the diagnosis of respiratory conditions. By improving our ability to confirm a correct diagnosis, we could initiate earlier treatments, reduce the burden of frequent health care visits, and improve patients' quality of life. The Inflammacheck device is noninvasive, repeatable, and requires minimal participant effort, which are beneficial attributes for patients with respiratory conditions who often struggle with breathlessness. The VICTORY study will evaluate the Inflammacheck device, using EBC H 2 O 2 alongside further exhaled breath parameters as a diagnostic tool in respiratory conditions.