Your search keyword '"Traficante, G."' showing total 2 results

1. The need for widely available genomic testing in rare eye diseases: an ERN-EYE position statement

Author

Black G. C., Sergouniotis P., Sodi A., Leroy B. P., Van Cauwenbergh C., Liskova P., Gronskov K., Klett A., Kohl S., Taurina G., Sukys M., Haer-Wigman L., Nowomiejska K., Marques J. P., Leroux D., Cremers F. P. M., De Baere E., Dollfus H., Ashworth J., Audo I., Bacci G., Balciuniene V. J., Bargiacchi S., Bertelsen M., Black G., Boon C., Bremond-Gignac D., Buzzonetti L., Calvas P., Thomsen A. C., Chirita-Emandi A., Chokoshvili D., Cremers F., Daly A., Downes S., Fasolo A., Fasser C., Fischer D., Fortunato P., Gelzinis A., Hall G., Hamann S., Heon E., Iarossi G., Iberg C., Jouanjan G., Kaariainen H., Kahn K., Keegan D., Laengsfeld M., Leon A., Leroux B., Lorenz B., Maggi R., Mauring L., Melico P., Meunier I., Mohand-Said S., Monterosso C., Morandi P., Parmeggiani F., Passerini I., Pelletier V., Peluso F., Perdomo Y., Rapizzi E., Roos L., Roosing S., Rozet J. -M., Simonelli F., Sowden J., Stingl K., Suppiej A., Testa F., Tracewska A., Traficante G., Valeina S., Wheeler-Schilling T., Yu-Wai-Man P., Zeitz C., Zemaitiene R., Leroux, Dorothée [0000-0002-1412-6611], Apollo - University of Cambridge Repository, Ophthalmology, ANS - Complex Trait Genetics, Black, G. C., Sergouniotis, P., Sodi, A., Leroy, B. P., Van Cauwenbergh, C., Liskova, P., Gronskov, K., Klett, A., Kohl, S., Taurina, G., Sukys, M., Haer-Wigman, L., Nowomiejska, K., Marques, J. P., Leroux, D., Cremers, F. P. M., De Baere, E., Dollfus, H., Ashworth, J., Audo, I., Bacci, G., Balciuniene, V. J., Bargiacchi, S., Bertelsen, M., Black, G., Boon, C., Bremond-Gignac, D., Buzzonetti, L., Calvas, P., Thomsen, A. C., Chirita-Emandi, A., Chokoshvili, D., Cremers, F., Daly, A., Downes, S., Fasolo, A., Fasser, C., Fischer, D., Fortunato, P., Gelzinis, A., Hall, G., Hamann, S., Heon, E., Iarossi, G., Iberg, C., Jouanjan, G., Kaariainen, H., Kahn, K., Keegan, D., Laengsfeld, M., Leon, A., Leroux, B., Lorenz, B., Maggi, R., Mauring, L., Melico, P., Meunier, I., Mohand-Said, S., Monterosso, C., Morandi, P., Parmeggiani, F., Passerini, I., Pelletier, V., Peluso, F., Perdomo, Y., Rapizzi, E., Roos, L., Roosing, S., Rozet, J. -M., Simonelli, F., Sowden, J., Stingl, K., Suppiej, A., Testa, F., Tracewska, A., Traficante, G., Valeina, S., Wheeler-Schilling, T., Yu-Wai-Man, P., Zeitz, C., and Zemaitiene, R.

Subjects

0301 basic medicine, Eye Diseases, lcsh:Medicine, CHILDREN, Position statement, Sensory disorders Donders Center for Medical Neuroscience [Radboudumc 12], MOLECULAR-GENETICS, 0302 clinical medicine, HISTORY, Health care, Medicine and Health Sciences, Genetics(clinical), Pharmacology (medical), Child, Genetics (clinical), medicine.diagnostic_test, General Medicine, Genomics, Europe, TRIALS, ERN-EYE, Rare eye diseases, medicine.symptom, Genetic and genomic testing, Human, medicine.medical_specialty, Visual impairment, LEBER CONGENITAL AMAUROSIS, Socio-culturale, DIAGNOSIS, 03 medical and health sciences, Rare Diseases, medicine, Humans, Genetic Testing, Intensive care medicine, Genetic testing, business.industry, CLINICAL-FEATURES, lcsh:R, Rare eye disease, Eye Disease, Human genetics, Clinical trial, 030104 developmental biology, Genomic, 030221 ophthalmology & optometry, Personalized medicine, business, Rare disease

Abstract

Background Rare Eye Diseases (RED) are the leading cause of visual impairment and blindness for children and young adults in Europe. This heterogeneous group of conditions includes over 900 disorders ranging from relatively prevalent disorders such as retinitis pigmentosa to very rare entities such as developmental eye anomalies. A significant number of patients with RED have an underlying genetic etiology. One of the aims of the European Reference Network for Rare Eye Diseases (ERN–EYE) is to facilitate improvement in diagnosis of RED in European member states. Main body Technological advances have allowed genetic and genomic testing for RED. The outcome of genetic testing allows better understanding of the condition and allows reproductive and therapeutic options. The increase of the number of clinical trials for RED has provided urgency for genetic testing in RED. A survey of countries participating in ERN-EYE demonstrated that the majority are able to access some forms of genomic testing. However, there is significant variability, particularly regarding testing as part of clinical service. Some countries have a well-delineated rare disease pathway and have a national plan for rare diseases combined or not with a national plan for genomics in medicine. In other countries, there is a well-established organization of genetic centres that offer reimbursed genomic testing of RED and other rare diseases. Clinicians often rely upon research-funded laboratories or private companies. Notably, some member states rely on cross-border testing by way of an academic research project. Consequently, many clinicians are either unable to access testing or are confronted with long turnaround times. Overall, while the cost of sequencing has dropped, the cumulative cost of a genomic testing service for populations remains considerable. Importantly, the majority of countries reported healthcare budgets that limit testing. Short conclusion Despite technological advances, critical gaps in genomic testing remain in Europe, especially in smaller countries where no formal genomic testing pathways exist. Even within larger countries, the existing arrangements are insufficient to meet the demand and to ensure access. ERN-EYE promotes access to genetic testing in RED and emphasizes the clinical need and relevance of genetic testing in RED.

Published

2021

2. Genetic counseling during COVID-19 pandemic: Tuscany experience

Author

Sabrina Giglio, Angelica Pagliazzi, Giovanna Traficante, Achille Iolascon, Fabiana di Giovanni, Giulia Gori, Giorgia Mancano, Giulia Forzano, Pagliazzi, A., Mancano, G., Forzano, G., di Giovanni, F., Gori, G., Traficante, G., Iolascon, A., and Giglio, S.

Subjects

0301 basic medicine, Postnatal Care, medicine.medical_specialty, Telemedicine, Coronavirus disease 2019 (COVID-19), lcsh:QH426-470, Genetic counseling, Genetics, Medical, 030105 genetics & heredity, 03 medical and health sciences, COVID‐19, Pediatric hospital, Pandemic, Health care, Genetics, medicine, Humans, Genetics(clinical), Molecular Biology, telegenetics, Genetics (clinical), Genetics & Heredity, Science & Technology, genetic counseling, business.industry, pandemic, COVID-19, Prenatal Care, Genetics and Genomic Medicine around the World, lcsh:Genetics, 030104 developmental biology, Italy, Family medicine, Medical genetics, telegenetic, telemedicine, business, Life Sciences & Biomedicine, Human

Abstract

Background COVID‐19 outbreak prompted health centres to reorganize their clinical and surgical activity. In this paper, we show how medical genetics department's activity, in our tertiary pediatric hospital, has changed due to pandemic. Methods We stratified all our scheduled visits, from March 9th through April 30th, and assessed case‐by‐case which genetic consultations should be maintained as face‐to‐face visit, or postponed/switched to telemedicine. Results Out of 288 scheduled appointments, 60 were prenatal consultations and 228 were postnatal visits. We performed most of prenatal consultations as face‐to‐face visits, as women would have been present in the hospital to perform other procedures in addition to our consult. As for postnatal care, we suspended all outpatient first visits and opted for telemedicine for selected follow‐up consultations: interestingly, 75% of our patients’ parents revealed that they would have cancelled the appointment themselves for the fear to contract an infection. Conclusions Spread of COVID‐19 in Italy forced us to change our working habits. Given the necessity to optimize healthcare resources and minimize the risk of in‐hospital infections, we experienced the benefits of telegenetics. Current pandemic made us familiar with telemedicine, laying the foundations for its application to deal with the increasing number of requests in clinical genetics., In this paper, we show how medical genetics department's activity, in our tertiary pediatric hospital, has changed due to COVID‐19 pandemic. Given the necessity to optimize healthcare resources and minimize the risk of in‐hospital infections, we experienced the benefits of telegenetics. Current pandemic made us familiar with telemedicine, laying the foundations for its application to deal with the increasing number of requests in clinical genetics.

Published

2020