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The bacterium ''[[Helicobacter pylori]]'' is the only one of the bacteria that is marked by the WHO classification as a class 1 [[Carcinogens|carcinogen]]. Its presence in the gastric mucosa positively affects the presence and development of gastritis, stomach ulcers and [[gastric cancer]].
The bacterium ''[[Helicobacter pylori]]'' is the only one of the bacteria that is marked by the WHO classification as a '''class 1 [[Carcinogens|carcinogen]].''' Its presence in the gastric mucosa positively affects the presence and development of gastritis, stomach ulcers and [[gastric cancer]].


To diagnose ''H. pylori'' infection, we can use invasive and non-invasive methods.
To diagnose ''H. pylori'' infection, we can use invasive and non-invasive methods.
== Invasive tests ==
== Invasive tests ==
Invasive tests mainly include biopsy of the gastric mucosa or duodenum. The collected sample can then be cultivated, using a rapid urease test or PCR.
Invasive tests mainly include a biopsy of the gastric or duodenal mucosa. The collected sample can be cultivated, using a rapid urease test or PCR.


* '''Kultivační test''' vykazuje '''nejvyšší''' [[senzitivita|senzitivitu]] i [[specificita|specificitu]]. Avšak bakterie jsou velmi citlivé na kyslík, proto odběr a transport vyžadují speciální podmínky.
* The culture test shows the '''highest sensitivity and specificity'''. However, bacteria are very sensitive to oxygen, so collection and transport require special conditions.
* '''Rychlý ureázový test''' (CLO) je založen na intenzivní aktivitě [[ureáza|ureázy]], což je povrchový marker bakterie. Tento test je rutinním průkazem při [[endoskopie|endoskopii]].
*'''The Rapid Urease Test''' is based on the intensity of urease activity, which is a surface marker of the bacterium. This test is a routine demonstration in endoscopy.
* Mezi novější testy patří imunologickým průkaz bakterie tzv. '''metoda iRUT''' a metoda [[Polymerázová řetězová reakce|PCR]], která prokáže bakterii v biopsiích i ve vzorcích stolice.
* Newer tests include immunological detection of bacteria the so-called iRUT method and the PCR method, which detects the bacterium in biopsies and stool samples.


== Non-invasive tests ==
Non-invasive tests include the urease breath test, which is now the gold standard, the detection of the surface antigens of the bacterium and the determination of antibodies to ''H. pylori'' in serum or urine samples.


== Neinvazivní testy ==
* '''The Urea Breath Test''' (UBT) is based on the detection of urease activity. The change in <sup>13</sup>CO<sub>2</sub>: <sup>12</sup>CO<sub>2</sub> ratio in exhaled air after cleavage of orally administered urea labelled with the stable carbon <sup>13</sup>C isotope is determined. This test is mainly used for primary diagnostics due to its high specificity and sensitivity.
Mezi neinvazivní testy patří ureázový dechový test, který je v dnešní době zlatým standardem, průkaz povrchových antigenů bakterie a stanovení protilátek proti ''H. pylori'' v séru či vzorku moči.
* '''Determination of ''Helicobacter pylori'' surface antigens''' in the stool. This test is suitable for monitoring the course of eradication treatment.
*'''Serological detection of antibodies''' to ''H. pylori'' in serum, saliva or urine sample. The method is only used to determine antibodies and not active infections.


* '''Dechový test''' ([[Dechový test s močovinou značenou uhlíkem-13|UBT – '''Urea Breath Test''']]) je založený na detekci '''ureázové aktivity'''. Určuje se změna poměru <sup>13</sup>CO<sub>2</sub> : <sup>12</sup>CO<sub>2</sub> ve vydechovaném vzduchu po rozštěpení perorálně podané [[močovina|močoviny]] značené stabilním izotopem uhlíku <sup>13</sup>C. Tento test se používá hlavně pro primární diagnostiku díky vysoké specificitě a senzitivitě.
=== GastroPanel ===
* '''Stanovení povrchových [[antigen]]ů''' ''Helicobacter pylori'' ve stolici. Tento test je vhodný pro sledování průběhu eradikační léčby.{{Podrobnosti|Detekce antigenu Helicobacter pylori ve stolici}}
GastroPanel is a non-invasive method, whereby by determining the levels of certain parameters we can evaluate the risk of ''H. pylori'' infection and the risk of developing atrophic gastritis or gastric cancer. These parameters include:
* gastrin-17
*pepsinogen I
*antibodies to H. pylori class IgG
 
== Links ==
=== Related articles ===
* [[Determination of antibodies against Helicobacter pylori]]  
* [[Carbon-13 labeled urea breath test]]
* [[Detection of Helicobacter pylori antigen in stool]]  
 
=== Source ===


* '''Sérologický průkaz''' [[Stanovení protilátek proti Helicobacter pylori|protilátek k ''H. pylori'']] v séru, ve slinách nebo ve vzorku moči. Metoda slouží jen ke stanovení [[protilátka|protilátek]] a ne aktivní infekce.
* KOCNA, Petr. ''GastroLab : MiniEncyklopedie laboratorních metod v gastroenterologii'' [online]. ©2002. Poslední revize 2011-01-08, [cit. 2011-03-04]. <<nowiki>http://www1.lf1.cuni.cz/~kocna/glab/glency1.htm</nowiki>>.
[[Soubor:Co ovlivňuje výsledek Hp infekce.jpg|náhled|Co ovlivňuje výsledek infekce ''H. pylori'']]
{{Poznámka|Dechový test a stanovení povrchových antigenů jsou metody, které byly doporučeny pro primární diagnostiku a ověření eradikační terapie Evropskou pracovní skupinou – EHPSG (''European Helicobacter Pylori Study Group'') podle Maastrichtského konsenzu ze dne 21. a 22. září 2000}}


=== GastroPanel ===
*
[http://www.gastropanel.net GastroPanel] je neinvazivní metoda, kdy stanovením hladin určitých parametrů můžeme vyhodnotit riziko infekce ''H. pylori'' a riziko rozvoje [[atrofická gastritida|atrofické gastritidy]] či [[karcinom žaludku|karcinomu žaludku]]. Mezi tyto parametry patří:
*
* [[Gastrin v séru|gastrinu-17]],
*
* [[Pepsin – pepsinogeny|pepsinogenu I]],
*
* protiláteky proti k ''H. pylori'' třídy IgG.
 
=== Literature ===
 
* BURES, J, et al. Epidemiology of Helicobacter pylori infection in the Czech Republic. ''Helicobacter.''2006, vol. 11, no. 1, s. 56–65, ISSN 1523-5378 [online], 1083-4389 [print].
 
* BONAMICO, M, et al. Evaluation of stool antigen test, PCR on ORAL samples and serology for the noninvasive detection of Helicobacter pylori infection in children. ''Helicobacter.''2004, vol. 9, no. 1, s. 69–76, ISSN 1083-4389 [print], 1523-5378 [online].


<noinclude>
* SMITH, SI, et al. Comparison of three PCR methods for detection of Helicobacter pylori DNA and detection of cagA gene in gastric biopsy specimens. ''World J Gastroenterol. ''2004, vol. 10, no. 13, s. 1958–1960, ISSN 1007-9327. 


== Odkazy ==
* NAKATA, H, et al. Immunological rapid urease test using monoclonal antibody for Helicobacter pylori. ''Journal of Gastroenterology and Hepatology. ''2004, roč. 19, vol. 9, s. 970–974, ISSN 08159319. 
=== Související články ===
* [[Stanovení protilátek proti Helicobacter pylori]]
* [[Dechový test s močovinou značenou uhlíkem-13]]
* [[Detekce antigenu Helicobacter pylori ve stolici]]


=== Zdroj ===
* HINO, B, et al. Comparison of invasive and non-invasive tests diagnosis and monitoring of Helicobacter pylori infection in children. ''Journal of pediatric gastroenterology and nutrition. ''2004, vol. 39, no. 5, s. 519–523, ISSN 0277-2116 [print], 1536-4801 [online]. 
* se svolením autora převzato z {{Citace
| typ = web
| příjmení1 = Kocna
| jméno1 = Petr
| url = http://www1.lf1.cuni.cz/~kocna/glab/glency1.htm
| název = GastroLab
| podnázev = MiniEncyklopedie laboratorních metod v gastroenterologii
| rok = 2002
| datum_revize = 2011-01-08
| citováno = 2011-03-04
}}
=== Použitá literatura ===
* {{Citace
| typ = článek
| příjmení1 = Bures
| jméno1 = J
| kolektiv = ano
| článek = Epidemiology of Helicobacter pylori infection in the Czech Republic
| časopis = Helicobacter
| rok = 2006
| svazek = 11
| číslo = 1
| strany = 56–65
| issn = 1523-5378 [online], 1083-4389 [print]
| pmid = 16423091
}}
* {{Citace
| typ = článek
| příjmení1 = Bonamico
| jméno1 = M
| kolektiv = ano
| článek = Evaluation of stool antigen test, PCR on ORAL samples and serology for the noninvasive detection of Helicobacter pylori infection in children
| časopis = Helicobacter
| rok = 2004
| svazek = 9
| číslo = 1
| strany = 69–76
| issn = 1083-4389 [print], 1523-5378 [online]
| pmid = 15156906
}}
* {{Citace
| typ = článek
| příjmení1 = Smith
| jméno1 = SI
| kolektiv = ano
| článek = Comparison of three PCR methods for detection of Helicobacter pylori DNA and detection of cagA gene in gastric biopsy specimens
| časopis = World J Gastroenterol
| rok = 2004
| svazek = 10
| číslo = 13
| strany = 1958–1960
| issn = 1007-9327
| pmid = 15222045
}}
* {{Citace
| typ = článek
| příjmení1 = Nakata
| jméno1 = H
| kolektiv = ano
| článek = Immunological rapid urease test using monoclonal antibody for Helicobacter pylori
| časopis = Journal of Gastroenterology and Hepatology
| rok = 2004
| ročník = 19
| svazek = 9
| strany = 970–974
| issn = 08159319
| pmid = 15304111
}}
* {{Citace
| typ = článek
| příjmení1 = Hino
| jméno1 = B
| kolektiv = ano
| článek = Comparison of invasive and non-invasive tests diagnosis and monitoring of Helicobacter pylori infection in children
| časopis = Journal of pediatric gastroenterology and nutrition
| rok = 2004
| svazek = 39
| číslo = 5
| strany = 519–523
| issn = 0277-2116 [print], 1536-4801 [online]
| pmid = 15572892
}}
</noinclude>


[[Kategorie:Gastroenterologie]]
[[Category: Internal Medicine]]
[[Kategorie:Mikrobiologie]]
[[Category: Gastroenterology]]
[[Kategorie:Bakterie]]

Latest revision as of 23:32, 14 January 2024


The bacterium Helicobacter pylori is the only one of the bacteria that is marked by the WHO classification as a class 1 carcinogen. Its presence in the gastric mucosa positively affects the presence and development of gastritis, stomach ulcers and gastric cancer.

To diagnose H. pylori infection, we can use invasive and non-invasive methods.

Invasive tests[edit | edit source]

Invasive tests mainly include a biopsy of the gastric or duodenal mucosa. The collected sample can be cultivated, using a rapid urease test or PCR.

  • The culture test shows the highest sensitivity and specificity. However, bacteria are very sensitive to oxygen, so collection and transport require special conditions.
  • The Rapid Urease Test is based on the intensity of urease activity, which is a surface marker of the bacterium. This test is a routine demonstration in endoscopy.
  • Newer tests include immunological detection of bacteria – the so-called iRUT method – and the PCR method, which detects the bacterium in biopsies and stool samples.

Non-invasive tests[edit | edit source]

Non-invasive tests include the urease breath test, which is now the gold standard, the detection of the surface antigens of the bacterium and the determination of antibodies to H. pylori in serum or urine samples.

  • The Urea Breath Test (UBT) is based on the detection of urease activity. The change in 13CO2: 12CO2 ratio in exhaled air after cleavage of orally administered urea labelled with the stable carbon 13C isotope is determined. This test is mainly used for primary diagnostics due to its high specificity and sensitivity.
  • Determination of Helicobacter pylori surface antigens in the stool. This test is suitable for monitoring the course of eradication treatment.
  • Serological detection of antibodies to H. pylori in serum, saliva or urine sample. The method is only used to determine antibodies and not active infections.

GastroPanel[edit | edit source]

GastroPanel is a non-invasive method, whereby by determining the levels of certain parameters we can evaluate the risk of H. pylori infection and the risk of developing atrophic gastritis or gastric cancer. These parameters include:

  • gastrin-17
  • pepsinogen I
  • antibodies to H. pylori class IgG

Links[edit | edit source]

Related articles[edit | edit source]

Source[edit | edit source]

  • KOCNA, Petr. GastroLab : MiniEncyklopedie laboratorních metod v gastroenterologii [online]. ©2002. Poslední revize 2011-01-08, [cit. 2011-03-04]. <http://www1.lf1.cuni.cz/~kocna/glab/glency1.htm>.

Literature[edit | edit source]

  • BURES, J, et al. Epidemiology of Helicobacter pylori infection in the Czech Republic. Helicobacter. 2006, vol. 11, no. 1, s. 56–65, ISSN 1523-5378 [online], 1083-4389 [print]. 
  • BONAMICO, M, et al. Evaluation of stool antigen test, PCR on ORAL samples and serology for the noninvasive detection of Helicobacter pylori infection in children. Helicobacter. 2004, vol. 9, no. 1, s. 69–76, ISSN 1083-4389 [print], 1523-5378 [online]. 
  • SMITH, SI, et al. Comparison of three PCR methods for detection of Helicobacter pylori DNA and detection of cagA gene in gastric biopsy specimens. World J Gastroenterol. 2004, vol. 10, no. 13, s. 1958–1960, ISSN 1007-9327. 
  • NAKATA, H, et al. Immunological rapid urease test using monoclonal antibody for Helicobacter pylori. Journal of Gastroenterology and Hepatology. 2004, roč. 19, vol. 9, s. 970–974, ISSN 08159319. 
  • HINO, B, et al. Comparison of invasive and non-invasive tests diagnosis and monitoring of Helicobacter pylori infection in children. Journal of pediatric gastroenterology and nutrition. 2004, vol. 39, no. 5, s. 519–523, ISSN 0277-2116 [print], 1536-4801 [online]. 
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