The presence an infection in the blood is detected through
the use of blood cultures. For this
procedure, blood is collected into sterile bottles containing a media which
when metabolized by any present organism will result in the release of carbon
dioxide. This alters the pH of the
substrate on the bottom of the container, causing a change in color which is
generally measured by a sensor in an automated incubator, usually monitored up
to a five day span. Once this color
change is detected, the medical technologist will receive an alarm indicating
which bottle has tested positive for an increase of carbon dioxide so that
further culture and identification of the pathogen can occur.
In order to achieve this, blood from the culture bottle is
inoculated onto media for isolation/identification of the organism as well as
Gram stained so that a preliminary identification can occur and general
treatment can begin. After 24 hours the
resulting growth on the media can be observed and processed using rapid testing
such as oxidase or catalase to obtain a final identification. If a final identification cannot be
determined at this step, identification systems can be utilized to identify the
pathogen. Upon final identification,
antibiotic susceptibility testing can be initiated in order to provide a more
precise antibiotic treatment that can be used to rid the patient of the
infection.
This is a brief description of the lecture information and
laboratory exercise we performed during the first week of our course. I processed a blood culture bottle by using
this method of isolation culture, rapid testing, and identification systems,
and was able to determine that the patient in question had bacteremia resulting
from Escherichia coli. I found this exercise to be quite
informative, and hopefully my description can aid in the understanding of how
this process works in a medical laboratory setting.
Learned something....
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