Hyperglycaemia and Chronic Obstructive Pulmonary Disease

Cazzola, Mario; Rogliani, Paola; Ora, Josuel; Calzetta, Luigino; Lauro, Davide; Matera, Maria Gabriella

doi:10.3390/diagnostics13213362

Diagnostics

2023

DOI: 10.3390/diagnostics13213362

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Hyperglycaemia and Chronic Obstructive Pulmonary Disease

Mario Cazzola,

Paola Rogliani,

Josuel Ora

et al.

Abstract: Chronic obstructive pulmonary disease (COPD) may coexist with type 2 diabetes mellitus (T2DM). Patients with COPD have an increased risk of developing T2DM compared with a control but, on the other side, hyperglycaemia and DM have been associated with reduced predicted levels of lung function. The mechanistic relationships between these two diseases are complicated, multifaceted, and little understood, yet they can impact treatment strategy. The potential risks and benefits for patients with T2DM treated with … Show more

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Cited by 4 publications

References 101 publications

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A nomogram for predicting short-term mortality in ICU patients with coexisting chronic obstructive pulmonary disease and congestive heart failure

Shi,

Xu,

Zeng

et al. 2024

Respiratory Medicine

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A nomogram for predicting short-term mortality in ICU patients with coexisting chronic obstructive pulmonary disease and congestive heart failure

Shi,

Xu,

Zeng

et al. 2024

Respiratory Medicine

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Integrating bioinformatics and machine learning to unravel shared mechanisms and biomarkers in chronic obstructive pulmonary disease and type 2 diabetes

Jiran,

Jiling,

Sijing

et al. 2024

Postgraduate Medical Journal

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Background Chronic obstructive pulmonary disease (COPD) and type 2 diabetes mellitus (T2DM) are on the rise. While there is evidence of a link between the two diseases, the pathophysiological mechanisms they share are not fully understood. Methods In this study, the co-expressed genes of COPD and T2DM in Gene Expression Omnibus database were identified by bioinformatics method, and the functional enrichment analysis was performed. Machine learning algorithms were used to identify biomarkers. The diagnostic value of these biomarkers was assessed by receiver operating characteristic analysis, and their relationship to immune cells was investigated by immunoinfiltration analysis. Finally, real-time quantitative polymerase chain reaction was performed. Results A total of five overlapping genes were obtained, focusing on pathways associated with insulin resistance and inflammatory mediators. The machine learning method identified three biomarkers: matrix metalloproteinase 9, laminin α4, and differentially expressed in normal cells and neoplasia domain containing 4 C, all of which were shown to have high diagnostic values by receiver operating characteristic analysis. Immunoinfiltration analysis showed that it was associated with a variety of immune cells. In addition, the real-time quantitative polymerase chain reaction results confirmed agreement with our bioinformatics analysis. Conclusions Our study sheds light on the common pathogenesis and biomarkers of both diseases, and these findings have potential implications for the development of new diagnostic and treatment strategies for COPD and T2DM. Key message What is already known on this topic? Chronic obstructive pulmonary disease (COPD) and type 2 diabetes mellitus (T2DM) often coexist as comorbidities. However, the exact mechanistic link between the two diseases remains complex, multifactorial, and not fully understood. What this study adds? Three biomarkers, including matrix metalloproteinase, laminin α4, and differentially expressed in normal cells and neoplasia domain containing 4 C, were identified as key co-expression hub genes in COPD and T2DM. How this study might affect research, practice or policy? Future studies may benefit from incorporating a larger sample set to further explore and validate the diagnostic and therapeutic effects of these core genes.

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Sirtuins and mechanisms of diabetic lung damage: a scientific discussion. A review

Babak,

Gorbunova,

Malyavin

et al. 2024

Consilium Medicum

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Induced tissue damage in target organs (kidneys, heart, eyes, liver, skin, nervous system) significantly contributes to the morbidity and mortality of patients from diabetes mellitus (DM). In recent decades, the question has been actively discussed: should the lungs be regarded as a target organ for diabetes? The c collected data demonstrate histological and functional lung disorders in DM patients. This suggests that the lungs are a target organ for diabetes. It is known that sirtuins regulate a number of physiological processes and affect obesity, insulin resistance, type 2 DM, heart disease and aging. In this review, we have tried to summarize the knowledge about the contribution of sirtuins to cellular regulation and the formation of pulmonary disease in patients with type 2 DM.

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Hyperglycaemia and Chronic Obstructive Pulmonary Disease

Cited by 4 publications

References 101 publications

A nomogram for predicting short-term mortality in ICU patients with coexisting chronic obstructive pulmonary disease and congestive heart failure

A nomogram for predicting short-term mortality in ICU patients with coexisting chronic obstructive pulmonary disease and congestive heart failure

Integrating bioinformatics and machine learning to unravel shared mechanisms and biomarkers in chronic obstructive pulmonary disease and type 2 diabetes

Sirtuins and mechanisms of diabetic lung damage: a scientific discussion. A review

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