Your search keyword '"Recchia, Matteo"' showing total 4 results

1. Ferritin nanoconjugates guide trastuzumab brain delivery to promote an antitumor response in murine HER2+ breast cancer brain metastasis

Author

Sevieri, Marta, Mazzucchelli, Serena, Barbieri, Linda, Garbujo, Stefania, Carelli, Stephana, Bonizzi, Arianna, Rey, Federica, Recordati, Camilla, Recchia, Matteo, Allevi, Raffaele, Sitia, Leopoldo, Morasso, Carlo, Zerbi, Pietro, Prosperi, Davide, Corsi, Fabio, and Truffi, Marta

Published

2023

2. Infectious Agents Associated with Abortion Outbreaks in Italian Pig Farms from 2011 to 2021.

Author

Donneschi, Anna, Recchia, Matteo, Romeo, Claudia, Pozzi, Paolo, Salogni, Cristian, Maisano, Antonio Marco, Santucci, Giovanni, Scali, Federico, Faccini, Silvia, Boniotti, Maria Beatrice, D'Incau, Mario, Maes, Dominiek, and Alborali, Giovanni Loris

Subjects

PORCINE reproductive & respiratory syndrome, SWINE breeding, SWINE breeds, SAMPLING (Process), FARM management

Abstract

Simple Summary: Abortions are a significant contributor to economic losses in the swine breeding industry. Identifying the factors responsible for abortion outbreaks is crucial for optimizing farm management and implementing preventive measures, though this can be challenging due to their often multifactorial nature. In this study, we retrospectively examined the infectious agents associated with abortion outbreaks from 2011 to 2021 in northern Italy. The most frequently detected pathogens in fetal samples were porcine reproductive and respiratory syndrome virus (PRRSV), porcine circovirus-3 (PCV3), and PCV2, while Chlamydia spp., porcine parvovirus (PPV), and Leptospira spp. were less common. PRRSV prevalence fluctuated yearly without a clear trend, whereas PCV2 showed a slight decline and PCV3 increased over the study period. Our findings suggest a general decrease in abortion outbreaks between 2011 and 2021. PRRSV, PCV2, and PCV3 were commonly detected in aborted fetuses, while pathogens like Chlamydia spp. and Leptospira spp. had a limited impact, possibly due to improved on-farm hygiene and biosecurity measures. The present study retrospectively analyzed the infectious agents associated with 829 abortion outbreaks occurring from 2011 to 2021 in northern Italy. Foetuses were subjected to necropsies, and organ samples were analyzed by direct PCR to screen for six swine pathogens. In 42.0% of the examined outbreaks, at least one infectious agent was found. Porcine reproductive and respiratory syndrome virus (PRRSV) (24.9%) and porcine circovirus-2 (PCV2) (11.5%) were the most frequently detected among the known abortion-inducing pathogens. Chlamydia spp. (5.6%), porcine parvovirus (PPV) (4.0%), and Leptospira spp. (2.6%) were less common. Although its role in swine reproductive disorders is still unclear, PCV3 was detected in 19.6% of the cases. Coinfections were detected in 25.0% of positive outbreaks, and the most frequent coinfection was represented by PRRSV and PCV2 (32.2%), followed by PRRSV and PCV3 (23%). PCV2 prevalence showed a slight but consistent reduction during the study period, while PCV3 increased in frequency. Our data suggest an overall reduction in abortion outbreaks during the study period. PRRSV was confirmed as the main abortion agent detected in the examined area, while PCV2 prevalence showed a decline. Conversely, PCV3 detection has been increasing, supporting its potential role as an abortion agent. Our results highlight the importance of implementing a consistent and standardized sampling procedure, as well as a thorough diagnostic protocol, to reduce the incidence of inconclusive diagnoses. [ABSTRACT FROM AUTHOR]

Published

2024

3. An Integrated Analysis of Abattoir Lung Lesion Scores and Antimicrobial Use in Italian Heavy Pig Finishing Farms.

Author

Recchia, Matteo, Ghidini, Sergio, Romeo, Claudia, Scali, Federico, Maisano, Antonio Marco, Guadagno, Federica, De Luca, Silvio, Ianieri, Adriana, and Alborali, Giovanni Loris

Subjects

*LUNGS, *LUNG diseases, *SWINE farms, *SLAUGHTERING, *PRODUCTION losses, *RESPIRATORY diseases

Abstract

Simple Summary: Abattoir lung lesion scoring is a common practice to assess the impact of respiratory diseases in pig production, but whether the information obtained could be used to optimize antimicrobial stewardship programs has rarely been investigated. In this study, lung and pleural scores collected at slaughter from Italian heavy pigs were compared with on-farm antimicrobial use during the six months prior to slaughtering. Lung scores were positively associated with the past use of antimicrobials considered critical for human medicine, suggesting that batches with worse scores may have been unsuccessfully treated with first-choice antimicrobials. This result emphasizes the role of abattoirs as strategic observatories for pig respiratory diseases, which may also be helpful for antimicrobial stewardship. The information obtained could provide useful feedback aiding the identification of gaps in biosecurity or inadequate vaccination plans, thus helping to reduce on-farm antimicrobial use. Respiratory diseases significantly affect intensive pig finishing farms, causing production losses and increased antimicrobial use (AMU). Lesion scoring at slaughter has been recognized as a beneficial practice to evaluate herd management. The integrated analysis of abattoir lesion scores and AMU data could improve decision-making by providing feedback to veterinarians and farmers on the effectiveness of antimicrobial treatments, thus rationalizing their use. This study compared lung and pleural lesion scores collected at Italian pig slaughterhouses with on-farm AMU, estimated through a treatment index per 100 days (TI100). Overall, 24,752 pig carcasses, belonging to 236 batches from 113 finishing farms, were inspected. Bronchopneumonia and chronic pleuritis were detected in 55% and 48% of the examined pigs, respectively. Antimicrobials were administered in 97% of the farms during the six months prior to slaughter (median TI100 = 5.2), notwithstanding compliance with the mandatory withdrawal period. EMA category B (critical) antimicrobials were administered in 15.2% of cases (median TI100 = 0.06). The lung score was not associated with the total AMU, but significant, positive associations were found with the past use of critical antimicrobials (p = 0.041) and macrolides (p = 0.044). This result highlights the potential of abattoir lung lesion monitoring to rationalize antimicrobial stewardship efforts, contributing to AMU reduction. [ABSTRACT FROM AUTHOR]

Published

2024

4. Feasibility of Near-Infrared Spectroscopy in the Classification of Pig Lung Lesions.

Author

Varrà, Maria Olga, Conter, Mauro, Recchia, Matteo, Alborali, Giovanni Loris, Maisano, Antonio Marco, Ghidini, Sergio, and Zanardi, Emanuela

Subjects

LUNGS, LUNG diseases, PULMONARY fibrosis, PRODUCTION losses, SWINE farms, SWINE, NEAR infrared spectroscopy

Abstract

Simple Summary: Accurate classification of lung lesions detected in porcine respiratory disease outbreaks is a prerequisite in the overall diagnostic process and greatly contributes to appropriate disease management. The use of rapid and non-destructive techniques during necropsy, such as near-infrared spectroscopy, could enhance the achievement of this objective. In this view, the aim of the present study was to investigate the potential of such a technique in differentiating between normal, congested, and pathological pig lung tissue and between different patterns of pulmonary inflammation. Overall, an effective discrimination between normal and pathological lung tissue was observed, with congested tissues exhibiting an intermediate behavior. Remarkable classification performances were also attained for the identification of the different pathological lesions, demonstrating high levels of accuracy, precision, and sensitivity. In conclusion, these findings underscore the promising utility of near-infrared spectroscopy as an invaluable tool in veterinary diagnostics. Respiratory diseases significantly affect intensive pig farming, causing production losses and increased antimicrobial use. Accurate classification of lung lesions is crucial for effective diagnostics and disease management. The integration of non-destructive and rapid techniques would be beneficial to enhance overall efficiency in addressing these challenges. This study investigates the potential of near-infrared (NIR) spectroscopy in classifying pig lung tissues. The NIR spectra (908–1676 nm) of 101 lungs from weaned pigs were analyzed using a portable instrument and subjected to multivariate analysis. Two distinct discriminant models were developed to differentiate normal (N), congested (C), and pathological (P) lung tissues, as well as catarrhal bronchopneumonia (CBP), fibrinous pleuropneumonia (FPP), and interstitial pneumonia (IP) patterns. Overall, the model tailored for discriminating among pathological lesions demonstrated superior classification performances. Major challenges arose in categorizing C lungs, which exhibited a misclassification rate of 30% with N and P tissues, and FPP samples, with 30% incorrectly recognized as CBP samples. Conversely, IP and CBP lungs were all identified with accuracy, precision, and sensitivity higher than 90%. In conclusion, this study provides a promising proof of concept for using NIR spectroscopy to recognize and categorize pig lungs with different pathological lesions, offering prospects for efficient diagnostic strategies. [ABSTRACT FROM AUTHOR]

Published

2024