Browsing by Author "Zhou L"
Now showing 1 - 7 of 7
Results Per Page
Sort Options
- ItemAcoustic Multi-Detection of Gliadin Using QCM Crystals Patterned with Controlled Sectors of TEM Grid and Annealed Nanoislands on Gold Electrode(MDPI (Basel, Switzerland), 20/04/2020) Casari Bariani G; Zhou L; Poggesi S; Mittapalli R; Manzano M; Ionescu RECeliac diseases are a group of gluten ingestion-correlated pathologies that are widespread and, in some cases, very dangerous for human health. The only effective treatment is the elimination of gluten from the diet throughout life. Nowadays, the food industries are very interested in cheap, easy-to-handle methods for detecting gluten in food, in order to provide their consumers with safe and high-quality food. Here, for the first time, the manufacture of controlled micropatterns of annealed gold nanoislands (AuNIs) on a single QCM crystal (QCM-color) and their biofunctionalization for the specific detection of traces of gliadin is reported. In addition, the modified quartz crystal with a TEM grid and 30 nm Au (Q-TEM grid crystal) is proposed as an acoustic sensitive biosensing platform for the rapid screening of the gliadin content in real food products.
- ItemDeveloping One Health surveillance systems(Elsevier B.V., 2023-12-01) Hayman DTS; Adisasmito WB; Almuhairi S; Behravesh CB; Bilivogui P; Bukachi SA; Casas N; Becerra NC; Charron DF; Chaudhary A; Ciacci Zanella JR; Cunningham AA; Dar O; Debnath N; Dungu B; Farag E; Gao GF; Khaitsa M; Machalaba C; Mackenzie JS; Markotter W; Mettenleiter TC; Morand S; Smolenskiy V; Zhou L; Koopmans MThe health of humans, domestic and wild animals, plants, and the environment are inter-dependent. Global anthropogenic change is a key driver of disease emergence and spread and leads to biodiversity loss and ecosystem function degradation, which are themselves drivers of disease emergence. Pathogen spill-over events and subsequent disease outbreaks, including pandemics, in humans, animals and plants may arise when factors driving disease emergence and spread converge. One Health is an integrated approach that aims to sustainably balance and optimize human, animal and ecosystem health. Conventional disease surveillance has been siloed by sectors, with separate systems addressing the health of humans, domestic animals, cultivated plants, wildlife and the environment. One Health surveillance should include integrated surveillance for known and unknown pathogens, but combined with this more traditional disease-based surveillance, it also must include surveillance of drivers of disease emergence to improve prevention and mitigation of spill-over events. Here, we outline such an approach, including the characteristics and components required to overcome barriers and to optimize an integrated One Health surveillance system.
- ItemOne Health: A new definition for a sustainable and healthy future(PLOS, 2022-06-23) One Health High-Level Expert Panel (OHHLEP); Adisasmito WB; Almuhairi S; Behravesh CB; Bilivogui P; Bukachi SA; Casas N; Cediel Becerra N; Charron DF; Chaudhary A; Ciacci Zanella JR; Cunningham AA; Dar O; Debnath N; Dungu B; Farag E; Gao GF; Hayman DTS; Khaitsa M; Koopmans MPG; Machalaba C; Mackenzie JS; Markotter W; Mettenleiter TC; Morand S; Smolenskiy V; Zhou L; Dvorin JD
- ItemPatterning Large-Scale Nanostructured Microarrays on Coverslip for Sensitive Plasmonic Detection of Aqueous Gliadin Traces(MDPI (Basel, Switzerland), 2022-02) Casari Bariani G; Zhou L; Poggesi S; Manzano M; Ionescu REUser-friendly devices for detecting low gliadin content in commercial foods are of extreme importance for people with gluten diseases. With this concern, the present work proposes a rapid and sensitive optical nanostructured microarrays platform for the detection of gliadin using specific anti-gliadin IgG antibodies immobilized on annealed gold nanostructures (AuNPs) obtained after the high annealing process (550◦C) of gold thin films evaporated on commercial glass coverslips. Localized Surface Plasmon Resonance (LSPR) immunosensing of gliadin in the range of 0.1 ppm to 1000 ppm is successfully achieved. In addition, the biofunctionalization protocol was used for gluten screening in five food complex products.
- ItemPrevention of zoonotic spillover: From relying on response to reducing the risk at source.(Public Library of Science (PLoS), 2023-10-05) Authored by the members of the One Health High-Level Expert Panel (OHHLEP); Markotter W; Mettenleiter TC; Adisasmito WB; Almuhairi S; Barton Behravesh C; Bilivogui P; Bukachi SA; Casas N; Cediel Becerra N; Charron DF; Chaudhary A; Ciacci Zanella JR; Cunningham AA; Dar O; Debnath N; Dungu B; Farag E; Gao GF; Hayman DTS; Khaitsa M; Koopmans MPG; Machalaba C; Mackenzie JS; Morand S; Smolenskiy V; Zhou L; Dvorin JDThe devastating impact of Coronavirus Disease 2019 (COVID-19) on human health globally has prompted extensive discussions on how to better prepare for and safeguard against the next pandemic. Zoonotic spillover of pathogens from animals to humans is recognized as the predominant cause of emerging infectious diseases and as the primary cause of recent pandemics [1]. This spillover risk is increased by a range of factors (called drivers) that impact the nature, frequency, and intensity of contact between humans and wild animals. Many of these drivers are related to human impact, for example, deforestation and changes in land use and agricultural practices. While it is clear that the triad of prevention-preparedness-response (P-P-R) is highly relevant, there is much discussion on which of these 3 strategic activities in the field of emerging infectious disease should be prioritized and how to optimally target resources. For this, it is important to understand the scope of the respective activity and the consequences of prioritization.
- ItemQuartz crystal microbalance genosensing of brettanomyces bruxellensis yeast in wine using a rapid and efficient drop and collect protocol(MDPI (Basel, Switzerland), 2021-05-18) Poggesi S; Zhou L; Bariani GC; Mittapalli R; Manzano M; Ionescu RE; Guo P; Portalone G; Pirri FA miniaturized quartz crystal microbalance (QCM) genosensor is proposed for sensitive and real-time detection of short ssDNA sequences (53 bp) or DNA extracted from Brettanomyces bruxellensis (Brett) yeast cells. The presence of Brett yeast causes a depreciation of the quality of aged fine wines, producing molecules of unpleasant odors and biogenic amines that are harmful to human health. More specifically, standard quartz crystal (S-QCM) and homemade 4 nm gold transmission electron microscopy (TEM)-grid patterned quartz (multi-TEM QCM) are herein proposed for biofunctionalization steps with different ssDNA sequences. By employing a rapid and efficient drop and collect protocol, the specific detection of 1 pg/µL ssDNA Brett of a short sequence and 100 ng/µL DNA of B. bruxellensis extracted from a wine sample (VR2008) is reported.
- ItemRobust SERS Platforms Based on Annealed Gold Nanostructures Formed on Ultrafine Glass Substrates for Various (Bio)Applications(MDPI (Basel, Switzerland), 2019-06) Zhou L; Poggesi S; Casari Bariani G; Mittapalli R; Adam P-M; Manzano M; Ionescu REIn this study, stable gold nanoparticles (AuNPs) are fabricated for the first time on commercial ultrafine glass coverslips coated with gold thin layers (2 nm, 4 nm, 6 nm, and 8 nm) at 25 °C and annealed at high temperatures (350 °C, 450 °C, and 550 °C) on a hot plate for different periods of time. Such gold nanostructured coverslips were systematically tested via surface enhanced Raman spectroscopy (SERS) to identify their spectral performances in the presence of different concentrations of a model molecule, namely 1,2-bis-(4-pyridyl)-ethene (BPE). By using these SERS platforms, it is possible to detect BPE traces (10-12 M) in aqueous solutions in 120 s. The stability of SERS spectra over five weeks of thiol-DNA probe (2 µL) deposited on gold nano-structured coverslip is also reported.
