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340 results on '"Mazzaglia, Antonino"'

1. Modification of methacrylate bone cement with eugenol – A new material with antibacterial properties

Author

Przesławski Grzegorz, Szcześniak Katarzyna, Grześkowiak Bartosz, Mazzaglia Antonino, Jarzębski Maciej, Niewczas Agata, Kuczyński Paweł, Zarębska-Mróz Aneta, and Marcinkowska Agnieszka

Subjects
bone cement, antibacterial agents, eugenol, drug release, antibacterial properties, Technology, Chemical technology, TP1-1185
Abstract

Nowadays, the search for unconventional antibacterial agents is very common. One of them may be eugenol (EU) (4-allyl-2-methoxyphenol), which exhibits antimicrobial properties against pathogenic bacteria and is used in the pharmaceutical industry. Owing to its structure, EU decreases the exotherm of polymerization without a negative impact on the degree of conversion. The properties of EU-modified bone cement, such as doughing time, maximum temperature, and setting time, will be characterized, as well as mechanical properties, EU release, and antibacterial properties. Bone cements were synthesized by mixing a powder phase composed of two commercially available methacrylate copolymers (Evonic) and a liquid phase containing 2-hydroxyethyl methacrylate, methyl methacrylate, triethylene glycol dimethacrylate, and EU with an amount of 0.5 wt% of bone cement sample. As an initiating system, benzoyl peroxide and N,N-dimethylaniline were used. Samples were prepared with various amounts of the initiating system. The doughing time, maximum temperature (T max), setting temperature (T set), setting time (t set), and compressive strength tests were determined according to the ISO 5833:2002 standard requirements. The doughing time for bone cement depends on the amount of the initiating system. The maximum temperature during curing of bone cement is very low; however, the setting time is closer to the upper limit set by the standard. The compressive strength of the tested materials is good and significantly exceeds the requirements of the standard. EU release was very high and ranged from around 43–62% after 168 h. Moreover, antibacterial studies show that the tested bone cements are bacteriostatic for Staphylococcus aureus or and Escherichia coil strains. In summary, modified bone cements meet the ISO 5833:2002 standard requirements in all parameters and are characterized by good mechanical properties (similar to or higher than commercial bone cement), high EU release, and bacteriostatic properties.

Published
2024
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27. List of Contributors

Author

Aderibigbe, Blessing A., primary, Aliahmadi, Atousa, additional, Ardalan, Afshan, additional, Azevedo, Erly G., additional, Bahari, Leila Azharshekoufeh, additional, Belica-Pacha, Silwia, additional, Bhattacharya, Sanchari, additional, Bruschi, Marcos L., additional, Buko, Vyacheslav, additional, Caffo, Maria, additional, Caruso, Gerardo, additional, Chakraborty, Rhitabrita, additional, Chauhan, Nagendra S., additional, Chavali, Murthy, additional, Da Silva, Sydnei M., additional, de Francisco, Lizziane M.B., additional, de Siqueira Moura, Marigilson P., additional, de Toledo, Lucas de A.S., additional, Demicheli, Cynthia, additional, Dorcioman, Gabriela, additional, Dwivedi, Charu, additional, Frézard, Frédéric, additional, Gopanna, Aravinthan, additional, Grassi, Giovanni, additional, Grumezescu, Valentina, additional, Gumustas, Mehmet, additional, Gupta, Madhu, additional, Hakemi-Vala, Mojdeh, additional, Javadzadeh, Yousef, additional, Jeswani, Gunjan, additional, Joshi, Amita, additional, Koruga, Djuro, additional, Krishnaswamy, Kiruba, additional, Lebaka, Veeranjaneya R., additional, Matija, Lidija, additional, Mazzaglia, Antonino, additional, Merlo, Lucia, additional, Mileusnic, Ivana, additional, Mishra, Shanti Bhushan, additional, Mishra, Vimal P., additional, Mukaya, Hembe E., additional, Mukherjee, Biswajit, additional, Muncan, Jelena, additional, Narala, Venkata Ramireddy, additional, Negut, Irina, additional, Orsat, Valérie, additional, Ozkan, Sibel A., additional, Palecz, Bartlomiej, additional, Panati, Kalpana, additional, Pandey, Avinash C., additional, Pandey, Himanshu, additional, Pandey, Ishan, additional, Patel, Bharat G., additional, Patel, Mrunali R., additional, Patel, Rashmin B., additional, Patil, Sandip, additional, Paul, Swarnali D., additional, Pereira, Raphaela R. de A., additional, Pignataro, Cinzia, additional, Piperno, Anna, additional, Primo, Fernando L., additional, Pund, Swati, additional, Rafati, Hassan, additional, Rajagopalan, Manasa D., additional, Rajan, Krishna P., additional, Ramteke, Pramod W., additional, Reddy, Dharaneeswara D., additional, Ribeiro, Raul R., additional, Rosseto, Hélen C., additional, Satapathy, Bhabani S., additional, Scala, Angela, additional, Scolaro, Luigi M., additional, Sengel-Turk, Ceyda T., additional, Sharma, Vikas, additional, Shirzadfar, Hamidreza, additional, Socol, Gabriel, additional, Sridhar, Katta A., additional, Subramani, Parasuraman A., additional, Taheri-Kafrani, Asghar, additional, Tavassoli-Kafrani, Elham, additional, Tedesco, Antonio C., additional, Thakore, Shivam D., additional, Thomas, Selvin P., additional, Tot, Ema, additional, Uslu, Bengi, additional, Valluru, Rajashekar, additional, Verma, Gaurav, additional, and Zavodnik, Ilya, additional

Published
2017
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34. Forensic geophysical survey to investigate illegal looting of a site of historical importance.

Author

De Giorgi, Lara, Fragalá, Giovanni, Leucci, Giovanni, Mazzaglia, Antonino, Malfitana, Daniele, and Russo, Salvatore

Subjects
PILLAGE, GEOPHYSICAL surveys, HISTORIC sites, GROUND penetrating radar, MASS murder, FORENSIC sciences
Abstract

Objects of forensic investigations vary from illegally buried weapons and explosives, landmines and improvised explosive devices, drugs and weapons caches to clandestine graves of murder victims and mass genocide graves, environmental crime. Illegal excavations represent one of the main risks which affect the archaeological heritage all over the world. They cause a massive loss of artefacts but also, and above all, a loss of the cultural context, which makes the subsequent interpretation of archaeological remains very difficult. Various techniques are available for forensic crime search teams. These techniques allow for the detection of a hidden object successfully. Near‐surface geophysical search methods have been dominated by ground‐penetrating radar (GPR) but recently other techniques, such as electrical resistivity, magnetometric, time domain reflection have become more common. The geophysical investigation was required to investigate the presence of illegal looting in an area located 1 km north from the archaeological park of Pompeii. For this purpose combined GPR and electrical resistivity tomography (ERT) were used. Results reveal the presence of an illegal tunnel and offered the opportunity to investigate such areas not previously systematically documented. [ABSTRACT FROM AUTHOR]

Published
2023
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36. Digitalizzare la materia, generare informazione. Dal plastico in sughero al sistema informativo per lo studio della pittura pompeiana

Author

Malfitana, Daniele, Amara, Giulio, Mazzaglia, Antonino, Fragalà, Giovanni, Pavone, Danilo, Barone, Samuele, P. Giulierini, A. Coralini, V. Sampaolo, Malfitana, Daniele, Amara, Giulio, Mazzaglia, Antonino, Fragalà, Giovanni, Pavone, Danilo, and Barone, Samuele

Subjects
Pompei, modello 3D, Settore L-ANT/10 - Metodologie della Ricerca Archeologica, felloplastica, pittura antica, Settore L-ANT/07 - Archeologia Classica, plastico di Pompei
Published
2020

44. New data about the Cathedral of Catania by geophysical investigations

Author

De Giorgi, Lara, Leucci, Giovanni, Fragalà, Giovanni, Mazzaglia, Antonino, and Malfitana, Daniele

Subjects
Remote Sensing, Geoarchaeology
Abstract

The town of Catania, located in the southern part of the Sicily region, Italy, holds the remains of an ancient settlement in the city centre. One of the most important buildings is the Cathedral and the buried Achillean Baths. The Cathedral was repeatedly destroyed and rebuilt after the earthquakes and volcanic eruptions that occurred over time. The first building dates back to the period 1078-1093 and was built on the ruins of the Roman Achillean Baths, on the initiative of Count Roger, acquiring all the characteristics of an equipped (i.e. fortified) ecclesia. Already in 1169, a catastrophic earthquake demolished it almost completely, leaving intact only the apse. In 1194 a fire created considerable damage and finally in 1693 the earthquake that hit the Val di Noto destroyed it almost completely. The area around the Cathedral is today highly urbanized, but it was the locus of social and political life over the centuries for people of different cultures who have inhabited the area since the 8th century BC. Therefore, this area contains stratigraphically complex layers of buildings and other remains, which can help understand the use of this area of the town over many centuries. A ground-penetrating radar and electrical resistivity tomography surveys were performed inside and outside the Cathedral of Catania. Data were visualized in three-dimensions using a standard amplitude slice technique as well as the construction of isosurface images of amplitudes. These images reveal the position of architectural features whose shape, size and burial depth suggest they are Roman and earlier in age. The features mapped overlap the development of the Achillean Baths and the presence of some tombs and unknown rooms.

Published
2021

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