National blood bank services as a platform for national human biomonitoring - A proof-of-concept study

BACKGROUND

Human biomonitoring (HBM) is crucial for identifying potential risks to human health from exposure to environmental hazards. However, it is an expensive and labor-intensive endeavor. To save on samples' collection process we suggested using a national blood banking system as a platform for a national HBM program. For the case study, we used a comparison of blood donors from heavily industrialized Haifa Bay region, northern Israel, with donors from the rest of the country.

METHODS

The study population comprised a random sample of blood donors donating blood all over Israel. Samples of whole blood were tested for arsenic (As), cadmium (Cd), chromium (Cr) and lead (Pb). Donors' donations sites and residential locations were geocoded. Smoking status was verified based on Cd levels, after calibrating their concentrations vs Cotinine in a sub-sample of 45 subjects. Metal concentrations were compared between regions using a lognormal regression, while controlling for age, gender, and predicted probability of smoking.

RESULTS

During Mar 2020-Feb 2022, we collected 6230 and tested 911 samples. Concentrations of most of the metals were modified by age, gender, and smoking. Cr and Pb appeared to be 1.08-1.10 times higher among Haifa Bay residents than in the rest of the country (although with borderline significance of 0.069 for Cr). Cr and Pb were 1.13-1.15 times higher for those who donated blood in the Haifa Bay region, but not necessarily resided in the area. Donors from Haifa Bay had lower levels of As and Cd as compared to other donors in Israel.

CONCLUSIONS

Using a national blood banking system for HBM proved to be feasible and efficient. Blood donors from Haifa Bay area were characterized by elevated levels of Cr and Pb and lower levels of As and Cd. An extensive investigation of industries in the area is warranted.

Linking between ambient pollution and metals concentration in blood. Nationwide study based on the national blood banking system

This study was aimed to describe the chemical traces of air pollution in blood of residents and evaluate the association between ambient pollution and its dose absorbed internally by a human body. The national Magen David Adom Blood Services blood donation collection platform and the National Public Health Laboratory's testing services were utilized to conduct a human biomonitoring study among blood donors in Israel. The donors' residential addresses and donations sites' locations were geocoded and merged with the levels of pollutants recorded by the nearby monitoring stations. Pollutants included nitrogen dioxide (NO₂), sulfate dioxide (SO₂), ozone (O₃), carbon monoxide (CO) and particulate matter of size <10 and 2.5 μm in diameter (PM₁₀ & PM_2.5). Metal concentrations were statistically analyzed by ratio t-test and a lognormal regression, and adjusted to age, gender and smoking (defined based on Cadmium values). The findings indicate an independent positive association between pollutants and metals' concentrations in blood. Specifically, an increase in interquartile range (IQR) of NO₂ was associated with 9.5 % increase in As in blood. The increase in one IQR of PM₁₀ and SO₂ was associated with an increase in Pb, of 16.6 % and 12.4 %, respectively. SO₂ was also adversely associated with Cd concentrations, by increasing its levels by 5.7 %. The donors' proximity to quarries was related to the Pb blood levels higher 1.47 times compared to donors without quarries close to their residence (p-value = 0.013). To conclude, ambient pollution levels are associated with internal metals' concentrations, reaffirming the link between the two in the pathological pathway from air pollution to morbidity.

Contribution of Solar Radiation and Pollution to Parkinson's Disease

Background. Parkinson's disease (PD) is believed to develop from epigenetic modulation of gene expression through environmental factors that accounts for up to 85% of all PD cases. The main objective of this study was to examine the association between PD onset and a cumulative exposure to potentially modifiable ambient exposures. Methods. The study population comprised 3343 incident PD cases and 31,324 non-PD controls in Southern Israel. The exposures were determined based on the monitoring stations and averaged per year. Their association with PD was modeled using a distributed lag non-linear model and presented as an effect of exposure to the 75th percentile as compared to the 50th percentile of each pollutant, accumulated over the span of 5 years prior to the PD. Results. We recorded an adverse effect of particulate matter of size ≤10 μm in diameter (PM₁₀) and solar radiation (SR) with odds ratio (OR) = 1.06 (95%CI: 1.02; 1.10) and 1.23 (95%CI: 1.08; 1.39), respectively. Ozone (O₃) was also adversely linked to PD, although with a borderline significance, OR: 1.12 (95%CI: 0.99; 1.25). Immigrants arriving in Israel after 1989 appeared to be more vulnerable to exposure to O₃ and SR. The dose response effect of SR, non-existent for Israeli-born (OR = 0.67, 95%CI: 0.40; 1.13), moderate for immigrants before 1989 (OR = 1.17, 95%CI: 0.98; 1.40) and relatively high for new immigrants (OR = 1.25, 95%CI: 1.25; 2.38) indicates an adaptation ability to SR. Conclusions. Our findings supported previous reports on adverse association of PD with exposure to PM₁₀ and O₃. Additionally, we revealed a link of Parkinson's Disease with SR that warrants an extensive analysis by research groups worldwide.