dgkh000522
10.3205/dgkh000522
urn:nbn:de:0183-dgkh0005220
Case Report
Case report: an infant with late-onset meningitis caused by Escherichia coli
Fallbericht: ein Säugling mit late-onset Meningitis, verursacht durch Escherichia coli
Asghari
Asghari
Aria
A
Department of Medical Genetics, School of Medicine, Iranshahr University of Medical Sciences, Iranshahr, Iran
author
Khoshnood
Khoshnood
Saeed
S
Clinical Microbiology Research Center, Ilam University of Medical Sciences, Ilam, Iran
Students Research Committee, Ilam University of Medical Sciences, Ilam, Iran
author
Mousavi
Mousavi
Zahra
Z
Department of Medical Genetics, School of Medicine, Iran University of Medical Sciences, Tehran, Iran
author
Heidari
Heidari
Hamid
H
Department of Microbiology, Faculty of Medicine, Shahid Sadoughi University of Medical Sciences, Yazd, Iran
author
Falak
Falak
Farzaneh Peik
FP
Department of Internal Medicine, Iranshahr University of Medical Sciences, Iranshahr, Iran
author
Dadgar
Dadgar
Farhad
F
Department of Rheumatology, Iranshahr University of Medical Sciences, Iranshahr, Iran
author
Rahdar
Rahdar
Hossein Ali
HA
PhD
Department of Microbiology, School of Medicine, Iranshahr University of Medical Sciences, Iranshahr, Imam Khomeini street, Iran, Phone: +989103983109Department of Microbiology, School of Medicine, Iranshahr University of Medical Sciences, Iranshahr, Iran
h.rahdar@irhsums.ac.ir
author
Kazemian
Kazemian
Hossein
H
PhD
Clinical Microbiology Research Center, Ilam University of Medical Sciences, Ilam, Iran, phone: +989129217662Clinical Microbiology Research Center, Ilam University of Medical Sciences, Ilam, Iran
h.kazemian@outlook.com
author
German Medical Science GMS Publishing House
Düsseldorf
610
meningitis
Escherichia coli
infant
cerebrospinal fluid
neonatal intensive care unit
Meningitis
Escherichia coli
Säugling
Liquor
Neonatale Intensivtherapiestation
20241216
engl
This is an Open Access article distributed under the terms of the Creative Commons Attribution 4.0 License.
Dieser Artikel ist ein Open-Access-Artikel und steht unter den Lizenzbedingungen der Creative Commons Attribution 4.0 License (Namensnennung).
2196-5226
19
GMS Hygiene and Infection Control
GMS Hyg Infect Control
67
20250617 Change of affiliation for Aria Asghari
Einführung: Hirnhautentzündungen treten besonders häufig bei Kleinkindern auf, da ihr Immunsystem noch nicht ausgereift ist und sie weniger widerstandsfähig gegen Krankheiten sind. Unter den bakteriellen Erregern gilt Escherichia coli als eine der wichtigsten Ursachen für Meningitiden bei Säuglingen. Fallbeschreibung: Wir berichten über einen 17 Tage alten Säugling mit late-onset Meningitis, die durch E. coli verursacht wurde. Die Körpertemperatur betrug 39°C; die erste Diagnose lautete Sepsis. Auf Ersuchen des Arztes wurde die Patientin zu den grundlegenden Untersuchungen und zur stationären Aufnahme in die Neugeborenen-Intensivstation gebracht. Die Blut- und die Liquorkultur waren negativ bzw. positiv. In der Blase wurden echogene Partikel beobachtet, die auf eine Zystitis hinweisen können. Die Ergebnisse des Antibiogramms zeigten, dass der E. coli-Stamm nur gegen Amikacin empfindlich ist.Schlussfolgerung: Die Durchführung einer Liquorkultur scheinen die wichtigsten Strategien für die Diagnose einer Meningitis zu sein. Es wird auch empfohlen, vor der Einnahme von Antibiotika eine Liquorpunktion durchzuführen. Zur Identifizierung der Infektion sollten Faktoren wie Fieber, C-reaktives Protein, Liquor-Parameter (Gesamtleukozytenzahl, Glukosespiegel und Liquor-Kulturergebnisse) berücksichtigt werden, um Fehldiagnosen zu vermeiden.
Background: Meningitis is highly prevalent in infant because their immune system is immature and they have less resistance to diseases. Among bacterial agents, Escherichia coli is recognized as one of the most important causes of meningitis in infants. Case presentation: Herein, we report a case of late-onset meningitis, caused by E. coli (Patient:17-day-old female infant). The patient’s body temperature was 39°C, and the initial diagnosis was sepsis. At the doctor’s request, the patient underwent the basic tests and was hospitalized in the Neonatal Intensive Care Unit (NICU). In this case, blood culture and CSF culture were negative and positive, respectively. Echogenic particles were observed inside the bladder, indicating possible cystitis. The results of the antibiotic susceptibility tests showed that the meningitis-causing strain of E. coli was susceptible only to amikacin. Conclusion: Conducting LP and CSF culture seems to be the most important strategy for diagnosing meningitis. It is also recommended to perform LP before taking antibiotics. For identifying the infection, some factors such as fever, CRP test results, CSF parameters (leukocyte count, glucose level, and CSF culture results) should be considered to prevent misdiagnosis.
IntroductionMeningitis is a severe infection and inflammation of the meninges that covers the central nervous system. Bacteria, viruses, fungi and parasites are among the factors causing meningitis. Autoimmune diseases and cancer are also effective in the occurrence of this infection . Meningitis is a common infection among infants, owing to their immature immune system and low resistance to diseases . Infant meningitis is divided into two types: early-onset and late-onset, which occur first 72 hours of life and after first 72 hours of life, respectively . Among bacterial agents, Escherichia (E.) coli has been known as a major cause of meningitis in infants, so that after group B streptococcus, it is the second cause of premature meningitis in infants. It is also the third cause of late-onset meningitis in infants after coagulase-negative Staphylococcus and Staphylococcus aureus . Herein, we report a case (infant) of late-onset meningitis, caused by E. coli, with negative blood culture and positive cerebrospinal fluid (CSF) culture.
Case reportThe patient is a 17-day-old female infant, weighing 3,12<![CDATA[0 g</PlainText></TextGroup>, who came with the symptoms of fever and restlessness due to an unknown cause. The patient’s body temperature was 39°C, and the doctor’s initial diagnosis was sepsis. At the request of the doctor, the patient was taken to the basic tests and hospitalization at the Neonatal Intensive Care Unit (NICU). Based on the patient’s weight, 150 mg of ceftazidime, 45 mg of vancomycin, and 45 mg of intravenous (IV) Acetaminophen (Apotel<Superscript>®</Superscript>) were prescribed as IV and STAT (abbreviation of the Latin word “statim,” meaning “immediatel”), to start the initial treatment until the cause of the disease was determined. The results of initial (hematology, biochemistry, urine, and serology) tests on the first day of hospitalization are listed in Table 1 <ImgLink imgNo="1" imgType="table" />. On the first day of hospitalization, the patient received 150 mg of cefepime IV and STAT administration. The results of 48-hour blood culture and urine culture of the patient were negative. On the second day of hospitalization, CSF analysis and culture were performed. On the fourth day of hospitalization, the result of culture and analysis of CSF showed growth of a Gram-negative bacterium, which after performing differential tests, the result was positive for <Mark2>E. coli</Mark2> (Table 1 <ImgLink imgNo="1" imgType="table" />). </Pgraph><Pgraph>The results of the antibiogram showed that this strain was sensitive to only amikacin. Considering the report of these results on the fourth day of hospitalization, the patient was prescribed 45 mg of amikacin by iv route daily, and the results of the antibiogram for sensitivity was the same. After reporting these results on the fourth day of hospitalization, 45 mg of amikacin was again administered IV to the patient daily. On the eighth day of hospitalization, CSF analysis and culture were performed for the second time (Table 1 <ImgLink imgNo="1" imgType="table" />). The result was negative, and the bacteria did not grow. In addition, an ultrasound of the kidney and urinary tract was taken from the patient. The results of imaging test showed that the two kidneys were normal in size. Also, the kidneys were visualized with echo parenchyma, and cortical thickness and pyelocaliceal system were normal. There was no sign of stone or lesion in the kidney. The patient's bladder had a normal wall thickness. Echogenic particles were observed inside the bladder, which can indicate cystitis.</Pgraph><Pgraph>On the 10<Superscript>th</Superscript> day of hospitalization, a brain ultrasound was taken, who showed that the extra-axial space and cerebral ventricles had normal dimensions and appearance, and there was no evidence of ventriculomegaly and hydrocephalus. Brain parenchyma, including white and gray matter, was normal according to echo. The posterior cavity, comprising the brain and cerebellum, had a normal appearance. No evidence of periventricular leukomalacia or hematoma was found. On the 12<Superscript>th</Superscript> day of hospitalization, the patient went on temporary leave at the request and consent of the family and visited daily the hospital to receive medicine. On the 20<Superscript>th</Superscript> day of hospitalization, the patient was discharged from the hospital with good general condition and tolerance of per os (PO) (ability to eat by mouth).</Pgraph></TextBlock>
<TextBlock name="Discussion" linked="yes">
<MainHeadline>Discussion</MainHeadline><Pgraph>Bacterial meningitis is one of the most important reasons for meningitis in infants and can lead to severe disabilities in those who survive and result in severe disorders <TextLink reference="1"></TextLink>. Bacterial meningitis can induce complications between 20% and 60% <TextLink reference="5"></TextLink>. Research has shown that meningitis accounts for 3% of all deaths of infants under five years of age, and mortality from this infection among infants under five years of age is more than other age groups <TextLink reference="1"></TextLink>. One of the predisposing factors for infants is the immaturity of their immune system, which does not reach maturity until two months <TextLink reference="2"></TextLink>. The death rate from meningitis in one-month-old infants who were treated reaches 40% <TextLink reference="2"></TextLink>. Up to 50% of survived infants suffer from neurological complications, such as seizures, cognitive defects, movement problems, and hearing and vision disorders <TextLink reference="4"></TextLink>, <TextLink reference="6"></TextLink>, <TextLink reference="7"></TextLink>, <TextLink reference="8"></TextLink>. Moreover, the death rate from neonatal meningitis is 10% in developed countries and 40–58% in developing countries <TextLink reference="6"></TextLink>. All these data show the importance of meningitis in infants and make it one of the most dangerous diseases of infants. </Pgraph><Pgraph><Mark2>E. coli</Mark2> is one of the most important causes of meningitis, as well as the second and the third cause of early-onset and late-onset meningitis in infants, respectively <TextLink reference="4"></TextLink>. It is also a major cause of meningitis is in infants born with low weight (less than 1,500 g). Evidence has revealed that <Mark2>E. coli</Mark2> meningitis increases the risk of relapsing infection in infants <TextLink reference="9"></TextLink>. In this study, we investigated a 1<TextGroup><PlainText>7-da</PlainText></TextGroup>y-old infant with late-onset neonatal meningitis. The patient was admitted with the symptoms of sepsis, and necessary tests were performed. The infant had symptoms of fever and restlessness and irritability, which are among the signs and symptoms of meningitis <TextLink reference="2"></TextLink>. The infant’s body temperature at admission was 39°C. However, it is recommended that infants who are less than 28 days old, if they have a fever of 38 °C or higher, sepsis should be suspected in the newborns and the necessary tests should be considered. </Pgraph><Pgraph>In the patient's basic tests, CRP was higher than the normal range. High CRP is one of the symptoms of serious bacterial infection in infants <TextLink reference="2"></TextLink>. The patient's blood culture was examined to determine the cause of the disease, and the culture result was negative. Research has demonstrated that in 15–38% of cases, blood cultures may be negative in infants with meningitis <TextLink reference="4"></TextLink>. For CSF analysis, we performed lumbar puncture (LP), as well. The result of culture was positive for <Mark2>E. coli</Mark2>, and the CSF analysis showed a very low number of leukocytes. According to research, analyzing CSF and leukocyte number is one of the most significant diagnostic factors of meningitis <TextLink reference="10"></TextLink>. Some research has also reported that meningitis can occur with normal levels of leukocytes <TextLink reference="4"></TextLink>. Another important factor in CSF is the level of glucose; the decrease of which indicates a bacterial infection <TextLink reference="11"></TextLink>. </Pgraph><Pgraph>At the beginning of our study, patient was suspected to have blood infection; as a result, a sample was obtained from the patient for blood culture. At the same time, the patient started taking antibiotics to prevent the disease from progressing. However, a number of researches believed in performing LP at the beginning and before the initiation of antibiotics consumption because the use of antibiotics causes false-negative results and makes diagnosis difficult <TextLink reference="2"></TextLink>. After determining the cause of the disease and performing an antibiogram, we found that the second culture of the patient's CSF was negative due to the use of antibiotics. Polymerase chain reaction (PCR) is one of the most sensitive methods for the diagnosis of meningitis <TextLink reference="2"></TextLink> and can identify pathogenic pathogens when antibiotics are used <TextLink reference="4"></TextLink>. However, more studies are needed to use PCR for diagnosis, and CSF culture is still considered the best method to diagnose meningitis though <TextLink reference="2"></TextLink>. </Pgraph><Pgraph>The cause of late-onset meningitis in the patient is unknown. Some studies consider poor hygiene among health care workers and hospital staff as the cause of transmission. In cases where the gestational age was less than 32 weeks, the probability of the baby suffering from late-onset sepsis is higher <TextLink reference="4"></TextLink>.</Pgraph></TextBlock>
<TextBlock name="Conclusion" linked="yes">
<MainHeadline>Conclusion</MainHeadline><Pgraph>Conducting LP and CSF culture seems to be the most important strategy for diagnosing meningitis. It is also recommended to perform LP before taking antibiotics. For identifying the infection, some factors such as fever, CRP test results, CSF parameters (WBC numbers, glucose level, and CSF culture results) should be considered to prevent misdiagnosis. The PCR method can also be a suitable diagnostic method with further studies.</Pgraph></TextBlock>
<TextBlock name="Notes" linked="yes">
<MainHeadline>Notes</MainHeadline><SubHeadline>Consent for publication </SubHeadline><Pgraph>Written informed consent was obtained from the patient’s legal guardian for publication of this case report and any accompanying images. A copy of the written consent is available for review by the Editor-in-Chief of this journal.<LineBreak></LineBreak></Pgraph><SubHeadline>Authors’ ORCID </SubHeadline><Pgraph><UnorderedList><ListItem level="1">Asghari Aria: <Hyperlink href="https://orcid.org/0000-0002-7914-5290">0000-0002-7914-5290</Hyperlink></ListItem><ListItem level="1">Khoshnood Saeed: <Hyperlink href="https://orcid.org/0000-0002-5143-3178">0000-0002-5143-3178</Hyperlink></ListItem><ListItem level="1">Mousavi Zahra: <Hyperlink href="https://orcid.org/0000-0002-3645-9724">0000-0002-3645-9724</Hyperlink></ListItem><ListItem level="1">Heidari Hamid: <Hyperlink href="https://orcid.org/0000-0002-6869-2301">0000-0002-6869-2301</Hyperlink></ListItem><ListItem level="1">Peik Falak Farzaneh: <Hyperlink href="https://orcid.org/0000-0001-8967-6805">0000-0001-8967-6805</Hyperlink></ListItem><ListItem level="1">Dadgar Farhad: <Hyperlink href="https://orcid.org/0000-0001-5487-2339">0000-0001-5487-2339</Hyperlink></ListItem><ListItem level="1">Ali Rahdar Hossein: <Hyperlink href="https://orcid.org/0000-0003-1583-9936">0000-0003-1583-9936</Hyperlink></ListItem><ListItem level="1">Kazemian Hossein: <Hyperlink href="https://orcid.org/0000-0003-4590-396X">0000-0003-4590-396X</Hyperlink></ListItem></UnorderedList></Pgraph><SubHeadline>Author contributions </SubHeadline><Pgraph>The authors Asghari A and Khoshnood S have contributed equally to this work.</Pgraph><SubHeadline>Competing interests</SubHeadline><Pgraph>The authors declare that they have no competing interests.</Pgraph></TextBlock>
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