Conference Agenda

This study investigates Polycyclic Aromatic Compounds (PACs) in Heraklion, Greece, through a three-year monitoring campaign (2022–2024). Seasonal variations reveal significantly higher PAC concentrations in winter, driven by residential biomass burning, while summer levels are influenced by traffic and shipping. Benzo[a]Pyrene (B[a]P) and oxygenated PAHs (OPAHs) exhibit concentrations up to 18 times higher in winter. Carcinogenic risk assessment (BaPeq) indicates a 16-fold increase in winter. These findings provide critical insights into PAC sources and exposure, emphasizing the need for targeted air quality management strategies in urban Mediterranean environments.

Black Carbon (BC) particles contribute to air pollution and climate change. Its health impacts extend beyond respiratory diseases. Studying BC translocation into human tissues explores the mechanisms of adverse outcomes. The placenta provides tissue for understanding BC impacts on this organ and embryo/fetus, and for developing prevention strategies. Thus, measured tissue dose metrics provide an epidemiological tool to related exposures to a variety of health outcomes in the woman, fetus, and resulting child. A microscopic methodology for quantifying BC particles in human placental histology slides free of artifacts was developed in which the transplacental movement of BC particles were determined

The transportation sector emits ultrafine particles (UFPs), impacting air quality and health. A co-culture model of bronchial, macrophage, and endothelial cells was exposed to emissions from six transportation sources, including road, marine, and aviation. Fresh and aged emissions were tested using the oxidation flow reactor PEAR. Cytotoxicity, barrier integrity, and inflammation were assessed via LDH, TEER, and IL8. A hazard ranking using weighted Power Weakness Ratio (wPWR) for multi-criterion decision making identified fresh CNG and diesel as most hazardous. Ageing generally reduced toxicity, especially for diesel, while marine fuels showed minimal change.

Polycyclic aromatic hydrocarbons (PAHs) are ubiquitous organic compounds from human activities like industrial processes and vehicle emissions. Recent studies are focusing on PAH derivatives (nitro-PAHs and oxy-PAHs) produced from incomplete combustion and photochemical reactions in atmosphere known for their high toxicity and limited emission sources knowledge. This work deals with the determination of PAH, Nitro- and Oxy-PAH concentrations in two sites located in Sacco River Valley (IT) and on the investigation of possible relationship between local emission source and PHAs and their derivates concentration. In addition, correlation with oxidative potential were evaluated and risk assessment analysis was performed.