Assessment of diagnostic accuracy and optimal cut point of blood lead levels on serum proteins among Pb-exposed workers from Pb-battery plant.

Kalahasthi, Ravibabu

doi:10.14744/ijmb.2019.41736

Cited by 3 publications

(1 citation statement)

References 19 publications

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“…Previous studies have shown that lead-exposed subjects exhibited low total protein levels than controls. 34,35 Most proteins have prosthetic groups composed of calcium and zinc, making them susceptible to interaction with lead, thereby affecting the level of specific proteins such as enzymes, albumin, hormones, drug/metal-binding proteins, and the cellular processes involved. 36 Further, several studies have reported the influence of high BLLs on hematological impairment.…”

Section: Discussionmentioning

confidence: 99%

Influence of VDR and HFE polymorphisms on blood lead levels of occupationally exposed workers

et al. 2020

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Lead is a ubiquitous heavy metal toxin of significant public health concern. Every individual varies in their response to lead’s toxic effects due to underlying genetic variations in lead metabolizing enzymes or proteins distributed in the population. Earlier studies, including our lab, have attributed the influence of ALAD (δ-Aminolevulinate dehydratase) polymorphism on blood lead retention and ALAD activity. The present study aimed to investigate the influence of VDR (Vitamin D receptor) and HFE (Hemochromatosis) polymorphisms in modulating blood lead levels (BLLs) of occupationally exposed workers. 164 lead-exposed subjects involved in lead alloy manufacturing and battery breaking and recycling processes and 160 unexposed controls with BLLs below 10 µg/dL recruited in the study. Blood lead levels, along with a battery of biochemical assays and genotyping, were performed. Regression analysis revealed a negative influence of BLLs on ALAD activity ( p < 0.0001) and a positive influence on smokeless tobacco use ( p < 0.001) in lead-exposed subjects. A predicted haplotype of the three VDR polymorphisms computed from genotyping data revealed that T-A-A haplotype increased the BLLs by 0.93 units ( p ≤ 0.05) and C-C-A haplotype decreased the BLLs by 7.25 units ( p ≤ 0.05). Further analysis revealed that the wild-type CC genotype of HFE H63D presented a higher median BLL, indicating that variant C allele may have a role in increasing the concentration of lead. Hence, the polymorphism of genes associated with lead metabolism might aid in predicting genetic predisposition to lead and its associated effects.

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Section: Discussionmentioning

confidence: 99%

Influence of VDR and HFE polymorphisms on blood lead levels of occupationally exposed workers

et al. 2020

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Assessment of Diagnostic Accuracy and Clinical Utility of DNA Methylation (5-mC) in Detecting Severity of Occupational Lead Exposure

2023

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Circulating mitochondrial cell-free DNA dynamics in patients with mycobacterial pulmonary infections: Potential for a novel biomarker of disease

et al. 2022

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ObjectivesHuman mitochondrial cell-free DNA (Mt-cfDNA) may serve as a useful biomarker for infectious processes. We investigated Mt-cfDNA dynamics in patients with pulmonary mycobacterial infections to determine if this novel biomarker could be used to differentiate disease states and severity.MethodsPatients with pulmonary tuberculosis (PTB), latent tuberculosis infection (LTBI), and nontuberculous mycobacterial-lung disease (NTM-LD) were enrolled at a tertiary care hospital in Taiwan between June 2018 and August 2021. Human Mt-cfDNA and nuclear-cfDNA (Nu-cfDNA) copy numbers were estimated by quantitative polymerase chain reaction. Variables associated with PTB and 2-month sputum culture-positivity, indicating poor treatment response, were assessed using logistic regression.ResultsAmong 97 patients with PTB, 64 with LTBI, and 51 with NTM-LD, Mt-cfDNA levels were higher in patients with PTB than in LTBI (p=0.001) or NTM-LD (p=0.006). In the Mycobacterium tuberculosis-infected population, Mt-cfDNA levels were highest in smear-positive PTB patients, followed by smear-negative PTB (p<0.001), and were lowest in LTBI persons (p=0.009). A Mt-cfDNA, but not Nu-cfDNA, level higher than the median helped differentiate culture-positive PTB from culture-negative PTB and LTBI (adjusted OR 2.430 [95% CI 1.139–5.186], p=0.022) and differentiate PTB from NTM-LD (adjusted OR 4.007 [1.382–12.031], p=0.011). Mt-cfDNA levels decreased after 2 months of treatment in PTB patients (p=0.010). A cutoff Mt-cfDNA level greater than 62.62 x 106 copies/μL-plasma was associated with a 10-fold risk of 2-month culture-positivity (adjusted OR 9.691 [1.046–89.813], p=0.046).ConclusionElevated Mt-cfDNA levels were associated with PTB disease and failed sputum conversion at 2 months in PTB patients, and decreased after treatment.

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Assessment of diagnostic accuracy and optimal cut point of blood lead levels on serum proteins among Pb-exposed workers from Pb-battery plant.

Cited by 3 publications

References 19 publications

Influence of VDR and HFE polymorphisms on blood lead levels of occupationally exposed workers

Influence of VDR and HFE polymorphisms on blood lead levels of occupationally exposed workers

Assessment of Diagnostic Accuracy and Clinical Utility of DNA Methylation (5-mC) in Detecting Severity of Occupational Lead Exposure

Circulating mitochondrial cell-free DNA dynamics in patients with mycobacterial pulmonary infections: Potential for a novel biomarker of disease

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