Breath Biopsy Assessment of Liver Disease Using an Exogenous Volatile Organic Compound—Toward Improved Detection of Liver Impairment

Ferrandino, Giuseppe; Orf, Isabel; Smith, Rob; Calcagno, Marzia; Thind, Anita Kaur; Debiram–Beecham, Irene; Williams, Megan; Gandelman, Olga; Saedeleer, Alexandra de; Kibble, Graham; Lydon, Anne; Mayhew, Chris A.; Allsworth, Max; Boyle, Billy; Schee, Marc P. van der; Allison, Michael; Hoare, Matthew; Snowdon, Victoria

doi:10.14309/ctg.0000000000000239

Cited by 43 publications

(61 citation statements)

References 45 publications

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“… 10 , 17 Cancer-derived metabolites can circulate to the lungs and diffuse into the alveoli via gaseous exchanges between blood and air. 18 Similar to the rapidly developing liquid biopsy techniques in cancer, 19 , 20 such as circulating cell-free DNA, circulating tumor cells, circulating micro-RNAs, or even exosomes in circulation, 21 metabolites in exhaled breath also contain valuable information about what happens within our bodies. Thus, testing breathomics holds great potential as an emerging breath biopsy.…”

Section: Discussionmentioning

confidence: 99%

Assessment of Breathomics Testing Using High-Pressure Photon Ionization Time-of-Flight Mass Spectrometry to Detect Esophageal Cancer

Huang

Wang

Li³

et al. 2021

JAMA Netw Open

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IMPORTANCE A triage test is needed to increase the detection rate for esophageal cancer. OBJECTIVE To investigate whether breathomics can detect esophageal cancer among patients without a previous diagnosis of cancer using high-pressure photon ionization time-of-flight mass spectrometry (HPPI-TOFMS). DESIGN, SETTING, AND PARTICIPANTS This diagnostic study included participants who planned to receive an upper endoscopy or surgery of the esophagus at a single center in China. Exhaled breath was collected with a self-designed collector and air bags before participants underwent these procedures. Sample collection and analyses were performed by trained researchers following a standardized protocol. Participants were randomly divided into a discovery data set and a validation data set. Data were collected from December 2020 to March 2021. EXPOSURES Breath samples were analyzed by HPPI-TOFMS, and the support vector machine algorithm was used to construct a detection model. MAIN OUTCOMES AND MEASURESThe accuracy of breathomics was measured by the sensitivity, specificity, accuracy, positive predictive value, negative predictive value, and area under the receiver operating characteristic curve. RESULTSExhaled breath samples were obtained from 675 patients (216 [32%] with esophageal cancer; 459 [68%] with noncancer diseases). Of all patients, 206 (31%) were women, and the mean (SD) age was 64.0 (11.9) years. In the validation data set, esophageal cancer was detected with an accuracy of 93.33%, sensitivity of 97.83%, specificity of 83.72%, positive predictive value of 94.74%, negative predictive value of 92.78%, and area under the receiver operating characteristic curve of 0.89. Notably, for 16 patients with high-grade intraepithelial neoplasia, 12 (75%) were predicted to have esophageal cancer. CONCLUSIONS AND RELEVANCEIn this diagnostic study, testing breathomics using HPPI-TOFMS was feasible for esophageal cancer detection and totally noninvasive, which could help to improve the diagnosis of esophageal cancer.

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Section: Discussionmentioning

confidence: 99%

Assessment of Breathomics Testing Using High-Pressure Photon Ionization Time-of-Flight Mass Spectrometry to Detect Esophageal Cancer

Huang

Wang

Li³

et al. 2021

JAMA Netw Open

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“…Ferrandino et al [ 58 ] followed up on the limonene-related hypothesis and by sampling cirrhotic patients, cirrhotic patients with HCC, and healthy controls, they focused on comparing the exhaled limonene levels of their groups to see how they relate with each other by performing a GS-MS analysis. They reported that limonene concentration was significantly higher in cirrhotic and cirrhotic patients with HCC when compared to healthy individuals.…”

Section: Discussionmentioning

confidence: 99%

Liver Impairment—The Potential Application of Volatile Organic Compounds in Hepatology

et al. 2021

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Liver diseases are currently diagnosed through liver biopsy. Its invasiveness, costs, and relatively low diagnostic accuracy require new techniques to be sought. Analysis of volatile organic compounds (VOCs) in human bio-matrices has received a lot of attention. It is known that a musty odour characterises liver impairment, resulting in the elucidation of volatile chemicals in the breath and other body fluids such as urine and stool, which may serve as biomarkers of a disease. Aims: This study aims to review all the studies found in the literature regarding VOCs in liver diseases, and to summarise all the identified compounds that could be used as diagnostic or prognostic biomarkers. The literature search was conducted on ScienceDirect and PubMed, and each eligible publication was qualitatively assessed by two independent evaluators using the SANRA critical appraisal tool. Results: In the search, 58 publications were found, and 28 were kept for inclusion: 23 were about VOCs in the breath, one in the bile, three in urine, and one in faeces. Each publication was graded from zero to ten. A graphical summary of the metabolic pathways showcasing the known liver disease-related VOCs and suggestions on how VOC analysis on liver impairment could be applied in clinical practice are given.

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“…These observations were explained by the inability of the compromised liver to breakdown this exogenous compound, compared with its efficient metabolism by CYP450 enzymes in the healthy cohort. Follow-up studies have further explored this phenomenon, with the inclusion of patient groups with hepatocellular carcinoma (HCC) and/or hepatic encephalography (HE) [ 257 , 258 ]. Similar observations were made, although no differences were found between liver cirrhosis with or without HCC, and the degree of HE severity could not be linked to limonene concentrations, although limonene accumulation was speculated to be itself a causative pathway for HE.…”

Section: Discussionmentioning

confidence: 99%

Breath Biomarkers in Diagnostic Applications

Pham

Beauchamp

2021

Molecules

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The detection of chemical compounds in exhaled human breath presents an opportunity to determine physiological state, diagnose disease or assess environmental exposure. Recent advancements in metabolomics research have led to improved capabilities to explore human metabolic profiles in breath. Despite some notable challenges in sampling and analysis, exhaled breath represents a desirable medium for metabolomics applications, foremost due to its non-invasive, convenient and practically limitless availability. Several breath-based tests that target either endogenous or exogenous gas-phase compounds are currently established and are in practical and/or clinical use. This review outlines the concept of breath analysis in the context of these unique tests and their applications. The respective breath biomarkers targeted in each test are discussed in relation to their physiological production in the human body and the development and implementation of the associated tests. The paper concludes with a brief insight into prospective tests and an outlook of the future direction of breath research.

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Breath Biopsy Assessment of Liver Disease Using an Exogenous Volatile Organic Compound—Toward Improved Detection of Liver Impairment

Cited by 43 publications

References 45 publications

Assessment of Breathomics Testing Using High-Pressure Photon Ionization Time-of-Flight Mass Spectrometry to Detect Esophageal Cancer

Assessment of Breathomics Testing Using High-Pressure Photon Ionization Time-of-Flight Mass Spectrometry to Detect Esophageal Cancer

Liver Impairment—The Potential Application of Volatile Organic Compounds in Hepatology

Breath Biomarkers in Diagnostic Applications

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