Diagnostika dětských exantémových onemocnění

• Název práce v češtině: Diagnostika dětských exantémových onemocnění
• Název v anglickém jazyce: Diagnostics of exanthematic childhood diseases
• Akademický rok vypsání: 2015/2016
• Typ práce: bakalářská práce
• Jazyk práce: čeština
• Ústav: Katedra biologických a lékařských věd (16-16150)
• Vedoucí / školitel: PharmDr. Eva Doleželová, Ph.D.
• Řešitel: skrytý - zadáno vedoucím/školitelem
• Datum přihlášení: 24.11.2015
• Datum zadání: 02.12.2015
• Datum a čas obhajoby: 29.05.2017 08:00
• Datum odevzdání elektronické podoby: 13.05.2017
• Datum proběhlé obhajoby: 29.05.2017
• Oponenti: PharmDr. Alena Prašnická, Ph.D.
• Konzultanti: Mgr. Martin Kracík

Zásady pro vypracování

Rešerše literárních zdrojů
Enzymatická imunoesej (EIA) - formát ELISA
Enzymatická imunoesej (EIA) - formát CLIA
Komplement fixační reakce (KFR)
qRT-PCR
Statistická analýza dat
Vyhodnocení výsledků, jejich interpretace, závěr

Seznam odborné literatury

1. RAMOUTSAKI, IA; DIMITRIOU, H; KALMANTI, M. Management of childhood diseases in the Byzantine period: II - exanthematic diseases. Pediatrics International: Official Journal Of The Japan Pediatric Society. Australia, 44, 3, 338-340, June 2002. ISSN: 1328-8067.
2. ABRAHÃO, JS; et al. Nested-multiplex PCR detection of Orthopoxvirus and Parapoxvirus directly from exanthematic clinical samples. Virology Journal. England, 6, 140, Sept. 11, 2009. ISSN: 1743-422X.
3. FIGUEIREDO, CA; et al. Rubella virus genotype 1G and echovirus 9 as etiologic agents of exanthematous diseases in Brazil: insights from phylogenetic analysis. Archives Of Virology. Austria, 159, 6, 1445-1451, June 2014. ISSN: 1432-8798.
4. KEMPF, W. Human herpesvirus 7 in dermatology: what role does it play?. American Journal Of Clinical Dermatology. New Zealand, 3, 5, 309-315, 2002. ISSN: 1175-0561.
5. CALIENDO, AM; et al. Better tests, better care: improved diagnostics for infectious diseases. Clinical Infectious Diseases: An Official Publication Of The Infectious Diseases Society Of America. United States, 57 Suppl 3, S139-S170, Dec. 2013. ISSN: 1537-6591.
6. ABOU TAYOUN, AN; et al. Democratizing molecular diagnostics for the developing world. American Journal Of Clinical Pathology. United States, 141, 1, 17-24, Jan. 2014. ISSN: 1943-7722.
7. LI, S; et al. Molecular epidemiology of measles virus infection in Shanghai in 2000-2012: the first appearance of genotype D8. The Brazilian Journal Of Infectious Diseases: An Official Publication Of The Brazilian Society Of Infectious Diseases. Brazil, 18, 6, 581-590, Nov. 2014. ISSN: 1678-4391.
8. HONG, J; et al. Development of a highly sensitive real-time one step RT-PCR combined complementary locked primer technology and conjugated minor groove binder probe. Virology Journal. England, 8, 330, June 29, 2011. ISSN: 1743-422X.
9. TANG, Yi-Wei a Charles W STRATTON. Advanced techniques in diagnostic microbiology. 2nd ed. New York: Springer, c2013, 1 online resource. ISBN 9781461439707. - KNIHA
10. BARTŮŇKOVÁ, Jiřina a Milan PAULÍK. Vyšetřovací metody v imunologii. 2., přeprac. a dopl. vyd. Praha: Grada, 2011, 164 s., [4] s. obr. příl. ISBN 978-80-247-3533-7.
11. MACKINNON, Rory, Sally KEAT a Thomas LOCKE. Microbiology and Infectious Diseases on the Move. London: Hodder Education, 2012, 1 online resource (274 p.). ISBN 9781444164879
12. BIBERFELD, G; et al. PPD-induced viral antibody production in human blood lymphocytes. Clinical And Experimental Immunology. ENGLAND, 42, 2, 364-369, Nov. 1980. ISSN: 0009-9104.
13. CHAARI, A; et al. Rubella encephalitis. Neurology India. India, 59, 5, 766-767, Sept. 2011. ISSN: 0028-3886.
14. GUSTAFSSON, RL; ENGDAHL, EE; FOGDELL-HAHN, A. Development and validation of a Q-PCR based TCID50 method for human herpesvirus 6. Virology Journal. England, 9, 311, Dec. 18, 2012. ISSN: 1743-422X.
15. Atsushi Kaida, Hideyuki Kubo, Jun ichiro Sekiguchi, Minori Ohyama, Kaoru Goto, Atsushi Hase, and Nobuhiro Iritani. Detection of Five Rash-Associated Viruses Using Multiplex Real-Time PCR during 2006-2011. Japanese Journal of Infectious Diseases 65 (5):430-432, 2012.
16. Maria del Mar Mosquera, Fernando de Ory, M. Moreno, and Juan E. Echevarria. Simultaneous Detection of Measles Virus, Rubella Virus, and Parvovirus B19 by Using Multiplex PCR. Journal of Clinical Microbiology 40 (1):111-116, 2002.
17. Yoshihiro Yasui, Yoshio Mori, Hirokazu Adachi, Shinichi Kobayashi, Teruo Yamashita, and Hiroko Minagawa. Detection and Genotyping of Rubella Virus from Exanthematous Patients Suspected of Having Measles Using Reverse Transcription-PCR. Japanese Journal of Infectious Diseases 67 (5):389-391, 2014.
18. Battegay R, Itin C, Itin P, Dermatological Signs and Symptoms of Measles: A Prospective Case Series and Comparison with the Literature. Dermatology 2012;224:1-4
19. SIENNICKA, J; CZĘŚCIK, A; TRZCIŃSKA, A. The significance for epidemiological studies anti-measles antibody detection examined by enzyme immunoassay (EIA) and plaque reduction neutralization test (PRNT). Przegla̧d Epidemiologiczny. Poland, 68, 3, 417, 2014. ISSN: 0033-2100.
20. ITO, M; et al. Detection of measles virus RNA on SYBR green real-time reverse transcription-polymerase chain reaction. Pediatrics International: Official Journal Of The Japan Pediatric Society. Australia, 52, 4, 611-615, Aug. 2010. ISSN: 1442-200X.
21. YU, N; et al. Evaluation of human enterovirus 71 and coxsackievirus A16 specific immunoglobulin M antibodies for diagnosis of hand-foot-and-mouth disease. Virology Journal. England, 9, 12, Jan. 11, 2012. ISSN: 1743-422X.
22. LOMAKINA, NF; et al. Application of universal primers for identification of Foot-and-mouth disease virus and Swine vesicular disease virus by PCR and PCR-ELISA. Archives Of Virology. Austria, 149, 6, 1155-1170, June 2004. ISSN: 0304-8608.