Potential use of metabolic breath tests to assess liver disease and prognosis: has the time arrived for routine use in the clinic?

Stravitz, R. Todd; Ilan, Yaron

doi:10.1111/liv.13268

Cited by 16 publications

(14 citation statements)

References 86 publications

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“…The in situ, sensitive optical detection of free fatty acids, lipofuscin‐like lipopigments and collagen in the absence of exogenous dyes is expected to improve the understanding of mechanisms of oxidative stress damages, steatosis and disease progression, the diagnosis and grading of liver disease or support pharmacological investigations. The response to the need for rapid, safe, minimally invasive or non‐invasive tests on liver metabolism and disease has been so far explored by non‐optical–based breathing tests and biochemical marker serum panels, and expectations for new insights are raised by recent optical studies on the blood …”

Section: Discussionmentioning

confidence: 99%

“…Another non‐invasive procedure supporting the assessment and follow‐up of liver disease progression is based on ultra‐high‐field magnetic resonance spectroscopy . This approach, however, requires the administration of radioactive biomarkers, a problem which also applies to the measurement of breath metabolites . A safer analysis of volatile breath compounds by an e‐nose has also been proposed but still requires a refinement of breath‐prints specific to the stages of hepatocellular failure and the impact of comorbidities .…”

Section: Optical Biopsy In Hepatologymentioning

confidence: 99%

“…137 This approach, however, requires the administration of radioactive biomarkers, a problem which also applies to the measurement of breath metabolites. 138 A safer analysis of volatile breath compounds by an e-nose has also been proposed but still requires a refinement of breath-prints specific to the stages of hepatocellular failure and the impact of comorbidities. 139 Serum biomarkers are promising non-invasive diagnostic resources, for profiling and monitoring pathophysiological changes in liver disease.…”

Section: Op Ti C Al B I Opsy In Hepatologymentioning

confidence: 99%

“…The liver was the historical model for AF-based optical biopsy in- and disease has been so far explored by non-optical-based breathing tests 138,139 and biochemical marker serum panels, and 140,141 expectations for new insights are raised by recent optical studies on the blood. 142,145 Besides numerous studies using animal models, we may recall the validation of the diagnostic significance of various EFs in tissue sections from normal, fatty or fibrotic human livers, 63,107,109 fully motivating recent proposals regarding forthcoming technologies for the automated characterization of the biometabolic features of liver biopsies.…”

Section: Con Clus Ionsmentioning

confidence: 99%

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Autofluorescence‐based optical biopsy: An effective diagnostic tool in hepatology

Croce

Ferrigno

Bottiroli

et al. 2018

Liver International

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Autofluorescence emission of liver tissue depends on the presence of endogenous biomolecules able to fluoresce under suitable light excitation. Overall autofluorescence emission contains much information of diagnostic value because it is the sum of individual autofluorescence contributions from fluorophores involved in metabolism, for example, NAD(P)H, flavins, lipofuscins, retinoids, porphyrins, bilirubin and lipids, or in structural architecture, for example, fibrous proteins, in close relationship with normal, altered or diseased conditions of the liver. Since the 1950s, hepatocytes and liver have been historical models to study NAD(P)H and flavins as in situ, real-time autofluorescence biomarkers of energy metabolism and redox state. Later investigations designed to monitor organ responses to ischaemia/reperfusion were able to predict the risk of dysfunction in surgery and transplantation or support the development of procedures to ameliorate the liver outcome. Subsequently, fluorescent fatty acids, lipofuscin-like lipopigments and collagen were characterized as optical biomarkers of liver steatosis, oxidative stress damage, fibrosis and disease progression. Currently, serum AF is being investigated to improve non-invasive optical diagnosis of liver disease. Validation of endogenous fluorophores and in situ discrimination of cancerous from non-cancerous tissue belong to the few studies on liver in human subjects. These reports along with other optical techniques and the huge work performed on animal models suggest many optically based applications in hepatology. Optical diagnosis is currently offering beneficial outcomes in clinical fields ranging from the respiratory and gastrointestinal tracts, to dermatology and ophthalmology. Accordingly, this review aims to promote an effective bench to bedside transfer in hepatology.

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Section: Discussionmentioning

confidence: 99%

Section: Optical Biopsy In Hepatologymentioning

confidence: 99%

Section: Op Ti C Al B I Opsy In Hepatologymentioning

confidence: 99%

Section: Con Clus Ionsmentioning

confidence: 99%

See 2 more Smart Citations

Autofluorescence‐based optical biopsy: An effective diagnostic tool in hepatology

Croce

Ferrigno

Bottiroli

et al. 2018

Liver International

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“…Substances such as 13 C methacetin are metabolized after oral administration by the cytochrome P450. During their decomposition 13 CO 2 is formed and the rate of its excretion indicates the microsomal function of the liver [ 14 ]. While biochemical parameters show only hepatocyte injury and provide indirectly information about the organ function, the breath test results allow to estimate the degree of organ damage and also determine quantitatively the functional mass of the organ.…”

Section: Introductionmentioning

confidence: 99%

Breath test using 13C methacetin does not seem to be useful in the assessment of liver function in girls with anorexia nervosa: a case control study

2018

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BackgroundAnorexia nervosa (AN) concerns approximately up to 1.8% of the pediatric female population. One of the complications that can occur in the course of this disease is acute liver failure. This study’s objective was to assess the usefulness of the 13C labeled Methacetin Breath Test (MBT) in the diagnostics of the liver function in girls with eating disorders.MethodsFor the study 81 girls aged 12 to 17 years were recruited, including 41 patients with confirmed diagnosis of AN (mean age 14.7 ± 1.48 years) and 40 age-matched controls. The diagnosis was based on the present Diagnostic and Statistical Manual of Mental Disorders (DSM-5) criteria. Weight and height were measured in all study participants and the Body Mass Index (BMI) was calculated. In the study and control group laboratory tests assessing the liver function and the MBT were performed.ResultsIn all controls the anthropometric as well as laboratory liver function parameters were normal. In the study group 25 patients (61%) had BMI below the lower limit for age. The total percentage of 13CO2 recovery in the 120th minute of the test did not exceed the lower limit in patients and controls. A result of the 13CO2 cumulative recovery above the upper normal range was found in 18 girls with AN (44% of the study group) and 2 controls (5%). Patients with AN were characterized by significantly higher 13CO2 cumulative dose recovery after ingestion of the substrate in comparison to the control group in all time points of the test.ConclusionsThe obtained results confirm a significant stimulation of the liver metabolism of 13C labeled methacetin in female patients with AN. The increased cumulative dose recovery of the substrate in girls with AN impacts the credibility of this measurement and implies a risk of false negative results.

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AI‐Assisted Multimodal Breath Sensing System with Semiconductive Polymers for Accurate Monitoring of Ammonia Biomarkers

Weisbecker,

Shanahan,

Liu

et al. 2024

Adv Materials Technologies

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Breath ammonia is an essential biomarker for patients with many chronic illnesses, such as chronic kidney disease (CKD), chronic liver disease (CLD), urea cycle disorders (UCD), and hepatic encephalopathy. However, existing breath ammonia sensors fail to compensate for the impact of breath humidity and complex breathing motions associated with a human breath sample. Here, a multimodal breath sensing system is presented that integrates an ammonia sensor based on a thermally cleaved conjugated polymer, a humidity sensor based on reduced graphene oxide (rGO), and a breath dynamics sensor based on a 3D folded strain‐responsive mesostructure. The miniaturized construction and module‐based configuration offer flexible integration with a broad range of masks. Experimental results present the capabilities of the system in continuously detecting diagnostic ranges of breath ammonia under real, humid breath conditions with sufficient sensing accuracy and selectivity over 3 weeks. A machine‐learning algorithm based on K‐means clustering decodes multimodal signals collected from the breath sensor to differentiate between healthy and diseased breath concentrations of ammonia. The on‐body test highlights the operational simplicity and practicality of the system for noninvasively tracing ammonia biomarkers.

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Potential use of metabolic breath tests to assess liver disease and prognosis: has the time arrived for routine use in the clinic?

Cited by 16 publications

References 86 publications

Autofluorescence‐based optical biopsy: An effective diagnostic tool in hepatology

Autofluorescence‐based optical biopsy: An effective diagnostic tool in hepatology

Breath test using 13C methacetin does not seem to be useful in the assessment of liver function in girls with anorexia nervosa: a case control study

AI‐Assisted Multimodal Breath Sensing System with Semiconductive Polymers for Accurate Monitoring of Ammonia Biomarkers

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