6 results on '"Spyridis, Nikos"'
Search Results
2. Real‐life evaluation of a COVID‐19 rapid antigen detection test in hospitalized children.
- Author
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Eleftheriou, Irini, Dasoula, Foteini, Dimopoulou, Dimitra, Lebessi, Evangelia, Serafi, Eftihia, Spyridis, Nikos, and Tsolia, Maria
- Subjects
COVID-19 ,HOSPITAL care of children ,CHILDREN'S hospitals ,SENSITIVITY & specificity (Statistics) ,SARS-CoV-2 - Abstract
Rapid antigen detection (RAD) tests for the detection of SARS‐CoV‐2 are simpler, faster, and less expensive than the reverse‐transcription polymerase chain reaction (RT‐PCR) that is currently considered the gold standard for the diagnosis of coronavirus disease 2019 (COVID‐19). The objective of this study was to determine the performance of the PANBIO COVID‐19 Ag RAD (Abbott) test, a lateral flow immunoassay that detects the nucleocapsid protein, using as a reference RT‐PCR method the Cobas®8800 System (Roche Diagnostics). This prospective study was conducted in a tertiary Children's Hospital and included individuals aged ≤16 years with COVID‐19‐related symptoms or epidemiological criteria for COVID‐19. Two nasopharyngeal samples were collected to perform the PANBIO RAD test and RT‐PCR. Of 744 children included, 51 (6.86%) had a positive RT‐PCR result. The RAD test detected 42 of 51 PCR‐positive children while there were no false‐positive results. The overall sensitivity and specificity were 82.35% (95% CI, 71.9%–92.8%) and 100%, respectively. Sensitivity was >95% in symptomatic children. The assay performed poorly in asymptomatically infected children. In agreement with previous studies in adults, the PANBIO RAD test can be useful in screening for COVID‐19 in children admitted with symptoms suggestive of the disease, especially in the first days of the illness. [ABSTRACT FROM AUTHOR]
- Published
- 2021
- Full Text
- View/download PDF
3. Use of the WHO Access, Watch, and Reserve classification to define patterns of hospital antibiotic use (AWaRe): an analysis of paediatric survey data from 56 countries
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Hsia, Yingfen, Lee, Brian R, Versporten, Ann, Yang, Yonghong, Bielicki, Julia, Jackson, Charlotte, Newland, Jason, Goossens, Herman, Magrini, Nicola, Sharland, Mike, Irwin, Adam, Akula, Akhila, Bamford, Alasdair, Chang, Amanda, da Silva, Andre, Whitelaw, Andrew, Dramowski, Angela, Vasudevan, Anil Kumar, Sharma, Anita, Justicia, Antonio, Chikkappa, Ashok, Slowinska-Jarzabek, Barbara, Rippberger, Bianca, Zhao, Changan, Tersigni, Chiara, Cheng, Chinglan, Harkensee, Christian, Jing, Chuamei, Zhu, Chunmei, Li, Chunyan, Tagliabue, Claudia, Epalza, Cristina, Jacqueline, Daglish, Tian, Daiyin, Jinka, Dasaratha, Gkentzi, Despoina, Dharmapalan, Dhanya, Benadof, Dona, Papadimitriou, Eleni, Iosifidis, Elias, Roilides, Emmanuel, Yarci, Erbu, Majda-Stanisławska, Ewa, Gowin, Ewelina, Chappell, Faye, Torres, Federico Martinon, Collett-White, Francis, Liu, Gang, Lu, Gen, Syrogiannopoulos, George, Pitsava, Georgia, Alvarez-Uria, Gerardo, Renk, Hana, Mahmood, Hana, Saxen, Harri, Finlayson, Heather, Green, Helen, Rabie, Helena, Kandraju, Hemasree, Zhang, Hong, Okokon, Ita, Cross, Jack, Herberg, Jethro, Li, Jianping, Zhang, Jiaosheng, Deng, Jikui, Liu, Jing, Qian, Jing, Yang, Jinhong, Sicińska, Joanna, Hübner, Johannes, Fukuoka, Kahoru, Yao, Kaihu, Cheung, Kaman, Ojeda, Karla, Kaffe, Katerina, Kreitmeyer, Katharina, Doerholt, Katja, Grimwood, Keith, Ledoare, Kirsty, Vazouras, Konstantinos, Shen, Kunling, Tang, Lanfang, Zhang, Lehai, Lin, Li, Ashkenazi-Hoffnung, Liat, Wu, Lijuan, Wang, Lijun, Teston, Lilian, Galli, Luisa, Speirs, Lynne, Tsolia, Maria, Hufnagel, Markus, Knuf, Markus, Duse, Marzia, Ding, Mingjie, Rozic, Mojca, Premru, Mueller, O'Connell, Natasha, Rieber, Nikolaus, Spyridis, Nikos, Tunga, Onkaraiah, Conejo, Pablo Rojo, McMaster, Paddy, Lumbiganon, Pagakrong, Pansa, Paola, D'Argenio, Patrizia, Moriarty, Paul, Nikolic, Petra, Wang, Ping, Paopongsawan, Pongsatorn, Cao, Qing, Deng, Qiulian, Laxminarayan, Ramanan, Kanithi, Ravishankar, Jimenez, Rodolfo, Cao, Sancheng, Singh, Sanjeev, Rees, Sarah, Praveen, Saroey, Kekomaki, Satu, Hackett, Scott, Ashkenazi, Shai, Chang, Si Min, Drysdale, Simon, Koning, Sonia, Subramanian, Sreeram, Murki, Srinivas, Vergnano, Stefania, Gandra, Sumanth, Esposito, Susanna, Anugulruengkitt, Suvaporn, Puthanakit, Thanyawee, Behrends, Uta, Papaevangelous, Vana, Jian, Victoria, Li, Wei, Zhao, Wei, Wang, Wei, Zhang, Wenshuang, Mu, Xiaoping, Dong, Xiaoyie, Jiang, Xiyuan, Chen, Xu, Wang, Yi, Zheng, Yuejie, Horikoshi, Yuho, Aboderin, Aaron, Olayinka, Adebola, Dedeic-Ljubovic, Amela, McCorry, Ann, Enimil, Anthony, Neubert, Antje, solano, antonio, Pignatari, Antonio, Poojary, Aruna, Kambaralieva, Baktygul, McCullagh, Bernadette, Carevi, Biljana, Van Herendael, Bruno, Gormley, Cairine, Carvajal, Camila, Ramírez, Carlos, Fitzgerald, David, Sabuda, Deana, Konopnicki, Deborah, Lacej, Denada, Pierard, Denis, Rios, Edgar, Marshall, Emily, Firre, Eric, van Elzakker, Erika, Shaqiri, Erjona, Darwish Elhajji, Feras, Gawrys, Gerard, Markovic, Goran, Kunsihima, Hiroyuki, Chen, Hui Hiong, Sviestina, Inese, Pristas, Irina, Hoxha, Iris, Korinteli, Irma, Mareković, Ivana, Soltani, Jafar, Labarca, Jaime, AlSalman, Jameela, Horvatic, Jasminka, Frimpong, Juliet Ampomah, Pagava, Karaman, Kei, Kasahara, Okinaka, Keiji, Iregbu, Kenneth, Ghazaryan, Lilit, Raka, Lul, Gessner-Wharton, Mallory, Aldeyab, Mamoon, Cooper, Mandelin, del Castillo, Marcelo, Hojman, Martin, Hudson, Melissa, Alshehri, Mohamed, Ling, Moi Lin, Greer, Nickie, Oduyebo, Oyinlola, Buijtels, Patricia, TEROL BARRERO, PEDRO, Zarb, Peter, Schelstraete, Petra, Nwajiobi-Princewill, Princewill Ifeanyi Philip, Khanna, Priya, Quiros, Rodolfo, Simovic, Sanja, Thompson, Sarah, Chan, Si Min, Burokiene, Sigita, Rachina, Svetlana, Usonis, Vytautas, Cornistein, Wanda, Holemans, Xavier, Gu, Yoshiaki, Brothers, Adam, Hersh, Adam, Fernandez, Alfred, Tribble, Alison, Hurst, Amanda, Green, Andrea, Hammer, Benjamin, Lee, Betty P, Kuzmic, Brenik, Shapiro, Craig, Boge, Craig, Haslam, David, Berman, David, Naeem, Fouzia, Johnson, George, Schwenk, Hayden, Orr, Hillary, Maples, Holly, Olsen, Jared, Gerber, Jeffrey, Girotto, Jennifer, Zweiner, Jennifer, Goldman, Jennifer, Gillon, Jessica, Tansmore, Jessica, Manaloor, John, Courter, Joshua, Mongkolrattanothai, Kanokporn, Patel, Karisma, Merkel, Kathryn, Namtu, Katie, Flett, Kelly, Lee, Kelly, Nichols, Kristen, Klein, Kristin, Handy, Lori, Castagnini, Luis, Mazade, Marc, Heger, Margaret, Fernandez, Marisol, Chang, Michael, Crawford, Michelle, Nelson, Miranda, Bennett, Nicholas, Jaggi, Preeti, Hamdy, Rana, Banerjee, Ritu, Olivero, Rosemary, Patel, Sameer, Arnold, Sandra, Ogrin, Sara, Jones, Sarah, Parker, Sarah, Kubes, Sarah, Hymes, Saul, Weissman, Scott, Chan, Shannon, Henderson, Sheryl, Metjian, Talene, GARPEC and Global-PPS networks, on behalf of the, GARPEC Network, Global-PPS Network, Children's Hospital, HUS Children and Adolescents, and Clinicum
- Subjects
medicine.medical_specialty ,Adolescent ,medicine.drug_class ,030231 tropical medicine ,Antibiotics ,MEDLINE ,Psychological intervention ,CHILDREN ,World Health Organization ,Pediatrics ,Essential medicines ,03 medical and health sciences ,Antimicrobial Stewardship ,0302 clinical medicine ,Antibiotic resistance ,POINT PREVALENCE SURVEY ,SURVEILLANCE ,Medicine and Health Sciences ,Medicine ,Antimicrobial stewardship ,Humans ,030212 general & internal medicine ,Medical prescription ,Child ,Neonatal sepsis ,business.industry ,lcsh:Public aspects of medicine ,STEWARDSHIP ,Infant, Newborn ,Infant ,lcsh:RA1-1270 ,General Medicine ,medicine.disease ,3142 Public health care science, environmental and occupational health ,Drug Utilization ,3. Good health ,Anti-Bacterial Agents ,QUALITY INDICATORS ,Family medicine ,Child, Preschool ,Health Care Surveys ,Human medicine ,business ,Pharmacy Service, Hospital - Abstract
Summary: Background: Improving the quality of hospital antibiotic use is a major goal of WHO's global action plan to combat antimicrobial resistance. The WHO Essential Medicines List Access, Watch, and Reserve (AWaRe) classification could facilitate simple stewardship interventions that are widely applicable globally. We aimed to present data on patterns of paediatric AWaRe antibiotic use that could be used for local and national stewardship interventions. Methods: 1-day point prevalence survey antibiotic prescription data were combined from two independent global networks: the Global Antimicrobial Resistance, Prescribing, and Efficacy in Neonates and Children and the Global Point Prevalence Survey on Antimicrobial Consumption and Resistance networks. We included hospital inpatients aged younger than 19 years receiving at least one antibiotic on the day of the survey. The WHO AWaRe classification was used to describe overall antibiotic use as assessed by the variation between use of Access, Watch, and Reserve antibiotics, for neonates and children and for the commonest clinical indications. Findings: Of the 23 572 patients included from 56 countries, 18 305 were children (77·7%) and 5267 were neonates (22·3%). Access antibiotic use in children ranged from 7·8% (China) to 61·2% (Slovenia) of all antibiotic prescriptions. The use of Watch antibiotics in children was highest in Iran (77·3%) and lowest in Finland (23·0%). In neonates, Access antibiotic use was highest in Singapore (100·0%) and lowest in China (24·2%). Reserve antibiotic use was low in all countries. Major differences in clinical syndrome-specific patterns of AWaRe antibiotic use in lower respiratory tract infection and neonatal sepsis were observed between WHO regions and countries. Interpretation: There is substantial global variation in the proportion of AWaRe antibiotics used in hospitalised neonates and children. The AWaRe classification could potentially be used as a simple traffic light metric of appropriate antibiotic use. Future efforts should focus on developing and evaluating paediatric antibiotic stewardship programmes on the basis of the AWaRe index. Funding: GARPEC was funded by the PENTA Foundation. GARPEC-China data collection was funded by the Sanming Project of Medicine in Shenzhen (SZSM2015120330). bioMérieux provided unrestricted funding support for the Global-PPS.
- Published
- 2019
4. Antibody status against measles in previously vaccinated childhood systemic lupus erythematosus patients: a prospective case-control study.
- Author
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Maritsi, Despoina N, Vartzelis, George, Kopsidas, John, Spyridis, Nikos, and Tsolia, Maria N
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SYSTEMIC lupus erythematosus diagnosis ,IMMUNOSUPPRESSIVE agents ,CYTOKINES ,ENZYME-linked immunosorbent assay ,EPIDEMICS ,IMMUNIZATION ,IMMUNOGLOBULINS ,MEASLES ,SYSTEMIC lupus erythematosus ,T cells ,MMR vaccines ,CHILDREN ,PREVENTION - Published
- 2018
- Full Text
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5. Risk Factors Associated With Accelerated Rubella IgG Antibody Loss in Previously Vaccinated, Treatment‐Naive Patients With Juvenile Systemic Lupus Erythematosus: A Prospective Study.
- Author
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Maritsi, Despoina N., Eleftheriou, Irene, Vartzelis, George, Spyridis, Nikos, and Tsolia, Maria N.
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SYSTEMIC lupus erythematosus diagnosis ,RUBELLA vaccines ,COMPLEMENT (Immunology) ,CONFIDENCE intervals ,STATISTICAL correlation ,ENZYME-linked immunosorbent assay ,IMMUNIZATION ,IMMUNOGLOBULINS ,LONGITUDINAL method ,RUBELLA ,SYMPTOMS ,SYSTEMIC lupus erythematosus ,DATA analysis software ,ADOLESCENCE ,CHILDREN ,PREVENTION ,VACCINATION ,DISEASE risk factors ,THERAPEUTICS - Abstract
The article offers information on the Systemic lupus erythematosus (SLE), a complex, multisystem autoimmune disease that primarily affects young women. It mentions SLE patients are susceptible to various infectious diseases due to immune system compromise and immunosuppressive treatment; and also mentions Rubella infection during pregnancy may result in serious neonatal consequences, such as miscarriage, fetal death, and congenital rubella syndrome.
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- 2019
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6. Dosing of oral penicillins in children.
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Ahmed, Umar, Spyridis, Nikos, Wong, Ian C. K., Sharland, Mike, and Long, Paul F.
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AGE distribution , *BODY weight , *PENICILLIN , *PHARMACEUTICAL arithmetic , *CHILDREN - Abstract
The article focuses on the proper dosing of oral penicillins in children in Great Britain. It states that in 1950s, dosage of penicillin used was based on weight, wherein 2.5 millilitre (ml) and five ml spoon is the standardized dosage. It also states that the "British National Formulary" (BNF) recommends 62.5 miligram (mg) for adult dosage. It mentions several recommended dosage for penicillins including 62.5 milligram (mg) for one year old, 250 mg for six to 12 years old, and 500 mg for 12-18 years old. Moreover, in 2010 to 2011, the actual recommended dose of oral penicillins was based on age and weight of an adult and a child.
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- 2011
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