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Mortality trends in childhood after infant bacterial meningitis
Among infants younger than 1 year of age, bacterial meningitis is associated with worse long-term mortality, even after recovery from the initial infection. Heightened mortality risk stretched out to 10 years, and was highest in the wake of infection from Streptococcus agalactiae, according to a retrospective analysis of children in the Netherlands.
“The adjusted hazard rates were high for the whole group of bacterial meningitis, especially within the first year after onset. (Staphylococcus agalactiae) meningitis has the highest mortality risk within one year of disease onset,” Linde Snoek said during her presentation of the study (abstract 913) at the annual meeting of the European Society for Paediatric Infectious Diseases, held virtually this year. Ms. Snoek is a PhD student at Amsterdam University Medical Center.
Over longer time periods, the mortality associations were different. “The adjusted hazard rates were highest for pneumococcal meningitis compared to the other pathogens. And this was the case for 1 year, 5 years, and 10 years after disease onset,” said Ms. Snoek.
The study appears to be the first to look at extended mortality following bacterial meningitis in this age group, according to Marie Rohr, MD, who comoderated the session where the research was presented.
“In a quick review of the literature I did not find any [equivalent] study concerning short- and long-term mortality after bacterial meningitis in under 1 year of age,” said Dr. Rohr, a fellow in pediatric infectious diseases at University Hospitals of Geneva. But the message to physicians is clear. “Children with history of bacterial meningitis have a higher long-term mortality than children without a history of bacterial meningitis,” said Dr. Rohr.
The study did have a key limitation: For matched controls, it relied on anonymous data from the Municipal Personal Records Database in Statistics Netherlands. “Important information like cause of death is lacking,” said Dr. Rohr.
Bacterial meningitis is associated with significant mortality and morbidity. Pathogens behind the infections vary with age group and geographic location, as well as immunization status.
To examine long-term mortality after bacterial meningitis, the researchers collected 1,646 records from an exposed cohort, with a date range of 1995 to 2018, from the Netherlands Reference Laboratory for Bacterial Meningitis. Included patients had a positive culture diagnosis of bacterial meningitis during the first year of life. Each exposed subject was compared to 10 controls matched by birth month, birth year, and sex, who had no exposure to bacterial meningitis.
Staphylococcus pneumoniae accounted for the most cases, at 32.0% (median age of onset, 180 days), followed by Neisseria meningitidis at 29.0% (median age of onset, 203 days). Other pathogens included S. agalactiae (19.7%, 10 days), Escherichia coli (8.8%, 13 days), and Haemophilus influenzae (5.4%, 231 days).
The mortality risk within 1 year of disease onset was higher for all pathogens (6.2% vs. 0.2% unexposed). The highest mortality risk was seen for S. agalactiae (8.7%), followed by E. coli (6.4%), N. meningitidis (4.9%), and H. influenzae (3.4%).
Hazard ratios (HR) for mortality were also higher, particularly in the first year after disease onset. For all pathogens, mortality rates were higher within 1 year (HR, 39.2), 5 years (HR, 28.7), and 10 years (HR, 24.1). The consistently highest mortality rates were associated with S. pneumoniae over 1-year, 5-year, and 10-year follow-up (HR, 42.8; HR, 45.6; HR, 40.6, respectively). Within 1 year, the highest mortality rate was associated with N. meningitidis (HR, 58.4).
Ms. Snoek and Dr. Rohr have no relevant financial disclosures.
Among infants younger than 1 year of age, bacterial meningitis is associated with worse long-term mortality, even after recovery from the initial infection. Heightened mortality risk stretched out to 10 years, and was highest in the wake of infection from Streptococcus agalactiae, according to a retrospective analysis of children in the Netherlands.
“The adjusted hazard rates were high for the whole group of bacterial meningitis, especially within the first year after onset. (Staphylococcus agalactiae) meningitis has the highest mortality risk within one year of disease onset,” Linde Snoek said during her presentation of the study (abstract 913) at the annual meeting of the European Society for Paediatric Infectious Diseases, held virtually this year. Ms. Snoek is a PhD student at Amsterdam University Medical Center.
Over longer time periods, the mortality associations were different. “The adjusted hazard rates were highest for pneumococcal meningitis compared to the other pathogens. And this was the case for 1 year, 5 years, and 10 years after disease onset,” said Ms. Snoek.
The study appears to be the first to look at extended mortality following bacterial meningitis in this age group, according to Marie Rohr, MD, who comoderated the session where the research was presented.
“In a quick review of the literature I did not find any [equivalent] study concerning short- and long-term mortality after bacterial meningitis in under 1 year of age,” said Dr. Rohr, a fellow in pediatric infectious diseases at University Hospitals of Geneva. But the message to physicians is clear. “Children with history of bacterial meningitis have a higher long-term mortality than children without a history of bacterial meningitis,” said Dr. Rohr.
The study did have a key limitation: For matched controls, it relied on anonymous data from the Municipal Personal Records Database in Statistics Netherlands. “Important information like cause of death is lacking,” said Dr. Rohr.
Bacterial meningitis is associated with significant mortality and morbidity. Pathogens behind the infections vary with age group and geographic location, as well as immunization status.
To examine long-term mortality after bacterial meningitis, the researchers collected 1,646 records from an exposed cohort, with a date range of 1995 to 2018, from the Netherlands Reference Laboratory for Bacterial Meningitis. Included patients had a positive culture diagnosis of bacterial meningitis during the first year of life. Each exposed subject was compared to 10 controls matched by birth month, birth year, and sex, who had no exposure to bacterial meningitis.
Staphylococcus pneumoniae accounted for the most cases, at 32.0% (median age of onset, 180 days), followed by Neisseria meningitidis at 29.0% (median age of onset, 203 days). Other pathogens included S. agalactiae (19.7%, 10 days), Escherichia coli (8.8%, 13 days), and Haemophilus influenzae (5.4%, 231 days).
The mortality risk within 1 year of disease onset was higher for all pathogens (6.2% vs. 0.2% unexposed). The highest mortality risk was seen for S. agalactiae (8.7%), followed by E. coli (6.4%), N. meningitidis (4.9%), and H. influenzae (3.4%).
Hazard ratios (HR) for mortality were also higher, particularly in the first year after disease onset. For all pathogens, mortality rates were higher within 1 year (HR, 39.2), 5 years (HR, 28.7), and 10 years (HR, 24.1). The consistently highest mortality rates were associated with S. pneumoniae over 1-year, 5-year, and 10-year follow-up (HR, 42.8; HR, 45.6; HR, 40.6, respectively). Within 1 year, the highest mortality rate was associated with N. meningitidis (HR, 58.4).
Ms. Snoek and Dr. Rohr have no relevant financial disclosures.
Among infants younger than 1 year of age, bacterial meningitis is associated with worse long-term mortality, even after recovery from the initial infection. Heightened mortality risk stretched out to 10 years, and was highest in the wake of infection from Streptococcus agalactiae, according to a retrospective analysis of children in the Netherlands.
“The adjusted hazard rates were high for the whole group of bacterial meningitis, especially within the first year after onset. (Staphylococcus agalactiae) meningitis has the highest mortality risk within one year of disease onset,” Linde Snoek said during her presentation of the study (abstract 913) at the annual meeting of the European Society for Paediatric Infectious Diseases, held virtually this year. Ms. Snoek is a PhD student at Amsterdam University Medical Center.
Over longer time periods, the mortality associations were different. “The adjusted hazard rates were highest for pneumococcal meningitis compared to the other pathogens. And this was the case for 1 year, 5 years, and 10 years after disease onset,” said Ms. Snoek.
The study appears to be the first to look at extended mortality following bacterial meningitis in this age group, according to Marie Rohr, MD, who comoderated the session where the research was presented.
“In a quick review of the literature I did not find any [equivalent] study concerning short- and long-term mortality after bacterial meningitis in under 1 year of age,” said Dr. Rohr, a fellow in pediatric infectious diseases at University Hospitals of Geneva. But the message to physicians is clear. “Children with history of bacterial meningitis have a higher long-term mortality than children without a history of bacterial meningitis,” said Dr. Rohr.
The study did have a key limitation: For matched controls, it relied on anonymous data from the Municipal Personal Records Database in Statistics Netherlands. “Important information like cause of death is lacking,” said Dr. Rohr.
Bacterial meningitis is associated with significant mortality and morbidity. Pathogens behind the infections vary with age group and geographic location, as well as immunization status.
To examine long-term mortality after bacterial meningitis, the researchers collected 1,646 records from an exposed cohort, with a date range of 1995 to 2018, from the Netherlands Reference Laboratory for Bacterial Meningitis. Included patients had a positive culture diagnosis of bacterial meningitis during the first year of life. Each exposed subject was compared to 10 controls matched by birth month, birth year, and sex, who had no exposure to bacterial meningitis.
Staphylococcus pneumoniae accounted for the most cases, at 32.0% (median age of onset, 180 days), followed by Neisseria meningitidis at 29.0% (median age of onset, 203 days). Other pathogens included S. agalactiae (19.7%, 10 days), Escherichia coli (8.8%, 13 days), and Haemophilus influenzae (5.4%, 231 days).
The mortality risk within 1 year of disease onset was higher for all pathogens (6.2% vs. 0.2% unexposed). The highest mortality risk was seen for S. agalactiae (8.7%), followed by E. coli (6.4%), N. meningitidis (4.9%), and H. influenzae (3.4%).
Hazard ratios (HR) for mortality were also higher, particularly in the first year after disease onset. For all pathogens, mortality rates were higher within 1 year (HR, 39.2), 5 years (HR, 28.7), and 10 years (HR, 24.1). The consistently highest mortality rates were associated with S. pneumoniae over 1-year, 5-year, and 10-year follow-up (HR, 42.8; HR, 45.6; HR, 40.6, respectively). Within 1 year, the highest mortality rate was associated with N. meningitidis (HR, 58.4).
Ms. Snoek and Dr. Rohr have no relevant financial disclosures.
FROM ESPID 2021
In Zambia, PCR tracks pertussis
In the periurban slum of Lusaka, Zambia, asymptomatic pertussis infections were common among both mothers and infants, a surprising finding since asymptomatic infections are assumed to be rare in infants. The findings suggested that pertussis should be considered in cases of chronic cough, and that current standards of treating pertussis infections in low-resource settings may need to be reexamined.
The results come from testing of 1,320 infant-mother pairs who were first enrolled at a public health clinic, then followed over at least four visits. The researchers tracked pertussis infection using quantitative PCR (qPCR) on nasopharyngeal swabs. Over the course of the study, 8.9% tested positive, although only one infant developed clinical pertussis during the study.
The study was presented by Christian Gunning, a postdoctoral researcher at the University of Georgia, at the annual meeting of the European Society for Paediatric Infectious Diseases, held virtually this year. The group also included researchers at Boston University and the University of Zambia, where PCR tests were conducted.
“That was amazing,” said session moderator Vana Spoulou, MD, PhD, professor of pediatric infectious diseases at National and Kapodistrian University of Athens, who is associated with Aghia Sofia Children’s Hospital of Athens. She noted that the study found that many physicians misdiagnosed coughs, believing them to be caused by another agent. “It was very interesting that there was so much pertussis spreading around in that community, and that nobody knew that it was around,” said Dr. Spoulou.
It’s important that physicians provide appropriate treatment, since ampicillin, which is typically prescribed for childhood upper respiratory illnesses, is believed to be ineffective against pertussis, while macrolides are effective and can prevent transmission.
Dr. Spoulou also noted that Zambia uses a whole cell vaccine, which is contraindicated in pregnant women because of potential side effects. “The good thing, despite that there was [a lot of] infection, there were no deaths, which means that maybe because the mother was infected, maybe some antibodies of the mother had passed to the child and could help the child to develop milder symptoms. So these are the pros and cons of natural infection,” said Dr. Spoulou.
The study took place in 2015, and participants were seen at the Chawama Public Health Clinic from about age 1 week to 4 months (with a target of seven clinic visits). Researchers recorded respiratory symptoms and antibiotics use at each visit, and collected a nasopharyngeal swab that was tested retrospectively using qPCR for Bordetella pertussis.
Real-time PCR analysis of the samples yields the CT value, which represents the number of amplification cycles that the PCR test must complete before Bordetella pertussis is detectable. The fewer the cycles (and the lower the CT value), the more infectious particles must have been present in the sample. For pertussis testing, a value below 35 is considered a clinically positive result. Tests that come back with higher CT values are increasingly likely to be false positives.
The researchers plotted a value called evidence for infection (EFI), which combined a range of CT values with the number of positive tests over the seven clinic visits to group patients into none, weak, or strong EFI. Among infants with no symptoms, 77% were in the no EFI category, 16% were in the weak category, and 7% were in the strong EFI group. Of infants with minimal respiratory symptoms, 18% were in the strong group, and 20% with moderate to severe symptoms were in the strong EFI group. Among mothers, 13% with no symptoms were in the strong group. 19% in the minimal symptom group were categorized as strong EFI, as were 11% in the moderate to severe symptom group.
The study used a full range of CT, not just positive test results (for pertussis, CT ≤ 35). Beyond contributing to composite measures such as EFI, CT values can serve as leading indicators of infectious disease outbreaks in a population, according to Dr. Gunning. That’s because weaker qPCR signals (CT > 35) can provide additional information within a large sample population. Higher CT values are successively more prone to false positives, but that’s less important for disease surveillance where sensitivity is of the highest importance. The false positive “noise” tends to cancel out over time. “It may be the case that you don’t make that call (correctly) 100% of the time for 100% of the people, but if you get it right in 80 out of 100 people, that’s sufficient to say we see this pathogen circulating in the population,” said Dr. Gunning.
The study was funded by the National Institute of Allergy and Infectious Diseases. Dr. Gunning and Dr. Spoulou have no relevant financial disclosures.
In the periurban slum of Lusaka, Zambia, asymptomatic pertussis infections were common among both mothers and infants, a surprising finding since asymptomatic infections are assumed to be rare in infants. The findings suggested that pertussis should be considered in cases of chronic cough, and that current standards of treating pertussis infections in low-resource settings may need to be reexamined.
The results come from testing of 1,320 infant-mother pairs who were first enrolled at a public health clinic, then followed over at least four visits. The researchers tracked pertussis infection using quantitative PCR (qPCR) on nasopharyngeal swabs. Over the course of the study, 8.9% tested positive, although only one infant developed clinical pertussis during the study.
The study was presented by Christian Gunning, a postdoctoral researcher at the University of Georgia, at the annual meeting of the European Society for Paediatric Infectious Diseases, held virtually this year. The group also included researchers at Boston University and the University of Zambia, where PCR tests were conducted.
“That was amazing,” said session moderator Vana Spoulou, MD, PhD, professor of pediatric infectious diseases at National and Kapodistrian University of Athens, who is associated with Aghia Sofia Children’s Hospital of Athens. She noted that the study found that many physicians misdiagnosed coughs, believing them to be caused by another agent. “It was very interesting that there was so much pertussis spreading around in that community, and that nobody knew that it was around,” said Dr. Spoulou.
It’s important that physicians provide appropriate treatment, since ampicillin, which is typically prescribed for childhood upper respiratory illnesses, is believed to be ineffective against pertussis, while macrolides are effective and can prevent transmission.
Dr. Spoulou also noted that Zambia uses a whole cell vaccine, which is contraindicated in pregnant women because of potential side effects. “The good thing, despite that there was [a lot of] infection, there were no deaths, which means that maybe because the mother was infected, maybe some antibodies of the mother had passed to the child and could help the child to develop milder symptoms. So these are the pros and cons of natural infection,” said Dr. Spoulou.
The study took place in 2015, and participants were seen at the Chawama Public Health Clinic from about age 1 week to 4 months (with a target of seven clinic visits). Researchers recorded respiratory symptoms and antibiotics use at each visit, and collected a nasopharyngeal swab that was tested retrospectively using qPCR for Bordetella pertussis.
Real-time PCR analysis of the samples yields the CT value, which represents the number of amplification cycles that the PCR test must complete before Bordetella pertussis is detectable. The fewer the cycles (and the lower the CT value), the more infectious particles must have been present in the sample. For pertussis testing, a value below 35 is considered a clinically positive result. Tests that come back with higher CT values are increasingly likely to be false positives.
The researchers plotted a value called evidence for infection (EFI), which combined a range of CT values with the number of positive tests over the seven clinic visits to group patients into none, weak, or strong EFI. Among infants with no symptoms, 77% were in the no EFI category, 16% were in the weak category, and 7% were in the strong EFI group. Of infants with minimal respiratory symptoms, 18% were in the strong group, and 20% with moderate to severe symptoms were in the strong EFI group. Among mothers, 13% with no symptoms were in the strong group. 19% in the minimal symptom group were categorized as strong EFI, as were 11% in the moderate to severe symptom group.
The study used a full range of CT, not just positive test results (for pertussis, CT ≤ 35). Beyond contributing to composite measures such as EFI, CT values can serve as leading indicators of infectious disease outbreaks in a population, according to Dr. Gunning. That’s because weaker qPCR signals (CT > 35) can provide additional information within a large sample population. Higher CT values are successively more prone to false positives, but that’s less important for disease surveillance where sensitivity is of the highest importance. The false positive “noise” tends to cancel out over time. “It may be the case that you don’t make that call (correctly) 100% of the time for 100% of the people, but if you get it right in 80 out of 100 people, that’s sufficient to say we see this pathogen circulating in the population,” said Dr. Gunning.
The study was funded by the National Institute of Allergy and Infectious Diseases. Dr. Gunning and Dr. Spoulou have no relevant financial disclosures.
In the periurban slum of Lusaka, Zambia, asymptomatic pertussis infections were common among both mothers and infants, a surprising finding since asymptomatic infections are assumed to be rare in infants. The findings suggested that pertussis should be considered in cases of chronic cough, and that current standards of treating pertussis infections in low-resource settings may need to be reexamined.
The results come from testing of 1,320 infant-mother pairs who were first enrolled at a public health clinic, then followed over at least four visits. The researchers tracked pertussis infection using quantitative PCR (qPCR) on nasopharyngeal swabs. Over the course of the study, 8.9% tested positive, although only one infant developed clinical pertussis during the study.
The study was presented by Christian Gunning, a postdoctoral researcher at the University of Georgia, at the annual meeting of the European Society for Paediatric Infectious Diseases, held virtually this year. The group also included researchers at Boston University and the University of Zambia, where PCR tests were conducted.
“That was amazing,” said session moderator Vana Spoulou, MD, PhD, professor of pediatric infectious diseases at National and Kapodistrian University of Athens, who is associated with Aghia Sofia Children’s Hospital of Athens. She noted that the study found that many physicians misdiagnosed coughs, believing them to be caused by another agent. “It was very interesting that there was so much pertussis spreading around in that community, and that nobody knew that it was around,” said Dr. Spoulou.
It’s important that physicians provide appropriate treatment, since ampicillin, which is typically prescribed for childhood upper respiratory illnesses, is believed to be ineffective against pertussis, while macrolides are effective and can prevent transmission.
Dr. Spoulou also noted that Zambia uses a whole cell vaccine, which is contraindicated in pregnant women because of potential side effects. “The good thing, despite that there was [a lot of] infection, there were no deaths, which means that maybe because the mother was infected, maybe some antibodies of the mother had passed to the child and could help the child to develop milder symptoms. So these are the pros and cons of natural infection,” said Dr. Spoulou.
The study took place in 2015, and participants were seen at the Chawama Public Health Clinic from about age 1 week to 4 months (with a target of seven clinic visits). Researchers recorded respiratory symptoms and antibiotics use at each visit, and collected a nasopharyngeal swab that was tested retrospectively using qPCR for Bordetella pertussis.
Real-time PCR analysis of the samples yields the CT value, which represents the number of amplification cycles that the PCR test must complete before Bordetella pertussis is detectable. The fewer the cycles (and the lower the CT value), the more infectious particles must have been present in the sample. For pertussis testing, a value below 35 is considered a clinically positive result. Tests that come back with higher CT values are increasingly likely to be false positives.
The researchers plotted a value called evidence for infection (EFI), which combined a range of CT values with the number of positive tests over the seven clinic visits to group patients into none, weak, or strong EFI. Among infants with no symptoms, 77% were in the no EFI category, 16% were in the weak category, and 7% were in the strong EFI group. Of infants with minimal respiratory symptoms, 18% were in the strong group, and 20% with moderate to severe symptoms were in the strong EFI group. Among mothers, 13% with no symptoms were in the strong group. 19% in the minimal symptom group were categorized as strong EFI, as were 11% in the moderate to severe symptom group.
The study used a full range of CT, not just positive test results (for pertussis, CT ≤ 35). Beyond contributing to composite measures such as EFI, CT values can serve as leading indicators of infectious disease outbreaks in a population, according to Dr. Gunning. That’s because weaker qPCR signals (CT > 35) can provide additional information within a large sample population. Higher CT values are successively more prone to false positives, but that’s less important for disease surveillance where sensitivity is of the highest importance. The false positive “noise” tends to cancel out over time. “It may be the case that you don’t make that call (correctly) 100% of the time for 100% of the people, but if you get it right in 80 out of 100 people, that’s sufficient to say we see this pathogen circulating in the population,” said Dr. Gunning.
The study was funded by the National Institute of Allergy and Infectious Diseases. Dr. Gunning and Dr. Spoulou have no relevant financial disclosures.
FROM ESPID 2021
Sickle cell disease: Epidemiological change in bacterial infections
Among children with sickle cell disease who have not undergone hematopoietic stem cell transplant, Salmonella is now the leading cause of invasive bacterial infection (IBI), according to a new retrospective study (BACT-SPRING) conducted in Europe. Streptococcus pneumoniae was the second most common source of infection, marking a shift from years past, when S. pneumoniae was the most common source. The epidemiology of IBI in Europe has been altered by adoption of prophylaxis and the introduction of the pneumococcal conjugated vaccine (PCV13) in 2009.
Previous studies of IBI have been single center with small sample sizes, and few have been conducted since 2016, said Jean Gaschignard, MD, PhD, during his presentation of the study at the annual meeting of the European Society for Paediatric Infectious Diseases, held virtually this year.
Dr. Gaschignard is head of pediatrics at Groupe Hospitalier Nord Essonne in Longjumeau, France.
The study produced some unexpected results. “We were surprised,” said Dr. Gaschignard, by results indicating that not all children aged under 10 years were undergoing prophylaxis. Instead, the figures were closer to 80% or 90%. Among children over 10, the rate of prophylaxis varies between countries. “Our study is a clue to discuss again the indications for the age limit for prophylaxis against pneumococcus,” said Dr. Gauschignard, during the question-and-answer session following his talk.
The data give clinicians an updated picture of the epidemiology in this population following introduction of the PCV13 vaccine. “It was very important to have new data on microbiology after this implementation,” said Marie Rohr, MD, who is a fellow in pediatric infectious diseases at the University Hospitals of Geneva. Dr. Rohr moderated the session where the study was presented.
Dr. Rohr noted the shift from the dominant cause of IBI after the introduction of the PCV10/13 vaccine, from S. pneumoniae to Salmonella. The researchers also found a preponderance of bacteremia and osteoarticular infections. “The mortality and morbidity are still considerable despite infection preventive measures,” said Dr. Rohr.
The results should also prompt a second look at prevention strategies. “Even if the antibiotic prophylaxis is prescribed for a large [proportion of children with sickle cell disease] under 10 years old, the median age of invasive bacterial infection is 7 years old. This calls into question systematic antibiotic prophylaxis and case-control studies are needed to evaluate this and possibly modify antibiotic prophylaxis recommendations in the future,” said Dr. Rohr.
The BACT-SPRING study was conducted between Jan. 1, 2014, and Dec. 31, 2019, using online data. It included 217 IBI episodes from 26 centers in five European countries. Just over half were from France, while about a quarter occurred in Spain. Other countries included Belgium, Portugal, and Great Britain. Participants were younger than 18 and had an IBI confirmed by bacterial culture or PCR from normally sterile fluid.
Thirty-eight episodes occurred in children who had undergone hematopoietic stem cell transplantation (HSCT), and 179 in children who had not undergone HSCT. The presentation focused exclusively on the latter group.
Among episodes in children without HSCT, the mean age was 7. Forty-eight patients had a history of acute chest syndrome, 47 had a history of ICU admission, 29 had a history of IBI, and 27 had a history of acute splenic sequestration. Thirteen underwent a splenectomy. Almost half of children had none of these characteristics, while about one-fourth had two or more.
In the HSCT group, 141 children were on prophylaxis at the time of the infection; 74 were on hydroxyurea, and 36 were currently or previously on a transfusion program. Sixty-eight cases were primary bacteremia and 55 were osteoarticular. Other syndromes included pneumonia empyema (n = 18), and meningitis (n = 17), among others. In 44 cases, the isolated bacteria was Salmonella, followed by S. pneumoniae in 32 cases. Escherichia coli accounted for 22. Haemophilus influenza was identified in six episodes, and group A Streptococcus in three.
The study is the first large European epidemiologic study investigating IBI in children with sickle cell disease, and one of its strengths was the strict inclusion criteria. However, it was limited by its retrospective nature.
Dr. Gaschignard and Dr. Rohr have no relevant financial disclosures.
Among children with sickle cell disease who have not undergone hematopoietic stem cell transplant, Salmonella is now the leading cause of invasive bacterial infection (IBI), according to a new retrospective study (BACT-SPRING) conducted in Europe. Streptococcus pneumoniae was the second most common source of infection, marking a shift from years past, when S. pneumoniae was the most common source. The epidemiology of IBI in Europe has been altered by adoption of prophylaxis and the introduction of the pneumococcal conjugated vaccine (PCV13) in 2009.
Previous studies of IBI have been single center with small sample sizes, and few have been conducted since 2016, said Jean Gaschignard, MD, PhD, during his presentation of the study at the annual meeting of the European Society for Paediatric Infectious Diseases, held virtually this year.
Dr. Gaschignard is head of pediatrics at Groupe Hospitalier Nord Essonne in Longjumeau, France.
The study produced some unexpected results. “We were surprised,” said Dr. Gaschignard, by results indicating that not all children aged under 10 years were undergoing prophylaxis. Instead, the figures were closer to 80% or 90%. Among children over 10, the rate of prophylaxis varies between countries. “Our study is a clue to discuss again the indications for the age limit for prophylaxis against pneumococcus,” said Dr. Gauschignard, during the question-and-answer session following his talk.
The data give clinicians an updated picture of the epidemiology in this population following introduction of the PCV13 vaccine. “It was very important to have new data on microbiology after this implementation,” said Marie Rohr, MD, who is a fellow in pediatric infectious diseases at the University Hospitals of Geneva. Dr. Rohr moderated the session where the study was presented.
Dr. Rohr noted the shift from the dominant cause of IBI after the introduction of the PCV10/13 vaccine, from S. pneumoniae to Salmonella. The researchers also found a preponderance of bacteremia and osteoarticular infections. “The mortality and morbidity are still considerable despite infection preventive measures,” said Dr. Rohr.
The results should also prompt a second look at prevention strategies. “Even if the antibiotic prophylaxis is prescribed for a large [proportion of children with sickle cell disease] under 10 years old, the median age of invasive bacterial infection is 7 years old. This calls into question systematic antibiotic prophylaxis and case-control studies are needed to evaluate this and possibly modify antibiotic prophylaxis recommendations in the future,” said Dr. Rohr.
The BACT-SPRING study was conducted between Jan. 1, 2014, and Dec. 31, 2019, using online data. It included 217 IBI episodes from 26 centers in five European countries. Just over half were from France, while about a quarter occurred in Spain. Other countries included Belgium, Portugal, and Great Britain. Participants were younger than 18 and had an IBI confirmed by bacterial culture or PCR from normally sterile fluid.
Thirty-eight episodes occurred in children who had undergone hematopoietic stem cell transplantation (HSCT), and 179 in children who had not undergone HSCT. The presentation focused exclusively on the latter group.
Among episodes in children without HSCT, the mean age was 7. Forty-eight patients had a history of acute chest syndrome, 47 had a history of ICU admission, 29 had a history of IBI, and 27 had a history of acute splenic sequestration. Thirteen underwent a splenectomy. Almost half of children had none of these characteristics, while about one-fourth had two or more.
In the HSCT group, 141 children were on prophylaxis at the time of the infection; 74 were on hydroxyurea, and 36 were currently or previously on a transfusion program. Sixty-eight cases were primary bacteremia and 55 were osteoarticular. Other syndromes included pneumonia empyema (n = 18), and meningitis (n = 17), among others. In 44 cases, the isolated bacteria was Salmonella, followed by S. pneumoniae in 32 cases. Escherichia coli accounted for 22. Haemophilus influenza was identified in six episodes, and group A Streptococcus in three.
The study is the first large European epidemiologic study investigating IBI in children with sickle cell disease, and one of its strengths was the strict inclusion criteria. However, it was limited by its retrospective nature.
Dr. Gaschignard and Dr. Rohr have no relevant financial disclosures.
Among children with sickle cell disease who have not undergone hematopoietic stem cell transplant, Salmonella is now the leading cause of invasive bacterial infection (IBI), according to a new retrospective study (BACT-SPRING) conducted in Europe. Streptococcus pneumoniae was the second most common source of infection, marking a shift from years past, when S. pneumoniae was the most common source. The epidemiology of IBI in Europe has been altered by adoption of prophylaxis and the introduction of the pneumococcal conjugated vaccine (PCV13) in 2009.
Previous studies of IBI have been single center with small sample sizes, and few have been conducted since 2016, said Jean Gaschignard, MD, PhD, during his presentation of the study at the annual meeting of the European Society for Paediatric Infectious Diseases, held virtually this year.
Dr. Gaschignard is head of pediatrics at Groupe Hospitalier Nord Essonne in Longjumeau, France.
The study produced some unexpected results. “We were surprised,” said Dr. Gaschignard, by results indicating that not all children aged under 10 years were undergoing prophylaxis. Instead, the figures were closer to 80% or 90%. Among children over 10, the rate of prophylaxis varies between countries. “Our study is a clue to discuss again the indications for the age limit for prophylaxis against pneumococcus,” said Dr. Gauschignard, during the question-and-answer session following his talk.
The data give clinicians an updated picture of the epidemiology in this population following introduction of the PCV13 vaccine. “It was very important to have new data on microbiology after this implementation,” said Marie Rohr, MD, who is a fellow in pediatric infectious diseases at the University Hospitals of Geneva. Dr. Rohr moderated the session where the study was presented.
Dr. Rohr noted the shift from the dominant cause of IBI after the introduction of the PCV10/13 vaccine, from S. pneumoniae to Salmonella. The researchers also found a preponderance of bacteremia and osteoarticular infections. “The mortality and morbidity are still considerable despite infection preventive measures,” said Dr. Rohr.
The results should also prompt a second look at prevention strategies. “Even if the antibiotic prophylaxis is prescribed for a large [proportion of children with sickle cell disease] under 10 years old, the median age of invasive bacterial infection is 7 years old. This calls into question systematic antibiotic prophylaxis and case-control studies are needed to evaluate this and possibly modify antibiotic prophylaxis recommendations in the future,” said Dr. Rohr.
The BACT-SPRING study was conducted between Jan. 1, 2014, and Dec. 31, 2019, using online data. It included 217 IBI episodes from 26 centers in five European countries. Just over half were from France, while about a quarter occurred in Spain. Other countries included Belgium, Portugal, and Great Britain. Participants were younger than 18 and had an IBI confirmed by bacterial culture or PCR from normally sterile fluid.
Thirty-eight episodes occurred in children who had undergone hematopoietic stem cell transplantation (HSCT), and 179 in children who had not undergone HSCT. The presentation focused exclusively on the latter group.
Among episodes in children without HSCT, the mean age was 7. Forty-eight patients had a history of acute chest syndrome, 47 had a history of ICU admission, 29 had a history of IBI, and 27 had a history of acute splenic sequestration. Thirteen underwent a splenectomy. Almost half of children had none of these characteristics, while about one-fourth had two or more.
In the HSCT group, 141 children were on prophylaxis at the time of the infection; 74 were on hydroxyurea, and 36 were currently or previously on a transfusion program. Sixty-eight cases were primary bacteremia and 55 were osteoarticular. Other syndromes included pneumonia empyema (n = 18), and meningitis (n = 17), among others. In 44 cases, the isolated bacteria was Salmonella, followed by S. pneumoniae in 32 cases. Escherichia coli accounted for 22. Haemophilus influenza was identified in six episodes, and group A Streptococcus in three.
The study is the first large European epidemiologic study investigating IBI in children with sickle cell disease, and one of its strengths was the strict inclusion criteria. However, it was limited by its retrospective nature.
Dr. Gaschignard and Dr. Rohr have no relevant financial disclosures.
FROM ESPID 2021
Antiviral may improve hearing loss in congenital CMV
Infants with isolated sensorineural hearing loss as a result of congenital cytomegalovirus (cCMV) infection may benefit from treatment with valganciclovir, according to results from the CONCERT nonrandomized trial.
Subjects were found through the Newborn Hearing Screening program, using dried blood spot screening to confirm cCMV Infection. As a result of 6 weeks of therapy, more patients in the treatment group had improvements in hearing at age 20 months, and fewer had deterioration compared with untreated controls.
There is a general consensus that symptomatic cCMV should be treated with valganciclovir for 6 weeks or 6 months, but treatment of patients with only hearing loss is still under debate. The average age of participants was 8 weeks.
The study was presented by Pui Khi Chung, MD, a clinical microbiologist at the Leiden University Medical Center, the Netherlands, at the annual meeting of the European Society for Paediatric Infectious Diseases, held virtually this year.
Out of 1,377 NHS-referred infants, 59 were diagnosed with cCMV (4.3%), and 35 were included in the study. Twenty-five patients received 6 weeks of valganciclovir, while 10 patients received placebo. The control group was expanded to 12 when two additional subjects were identified retrospectively and were successfully followed up at 20 months. Subjects in the treatment group were an average of 8 weeks old when treatment began. Both groups had similar neurodevelopmental outcomes at 20 months, as measured by the Bayley Scales of Infant and Toddler Development (BSID-III) and the Child Development Inventory (CDI). There were no serious adverse events associated with treatment.
To measure efficacy, the researchers used a random intercept, random slope model that accounted for repeated measurements. The differences in slopes for analyses of the best ear were significantly different between the treatment and control groups (estimated difference in slopes, –0.93; P = .0071). Further analyses of total hearing found that improvement was more common in the treatment group, and deterioration/no change was more common in the nontreatment group (P = .044). In another analysis that excluded the most profoundly impaired ears (> 70 db hearing loss), none in the control group experienced improvement and almost half deteriorated. In the treatment group, most were unchanged and a small number improved, with almost none deteriorating (P = .006).
Asked whether the treatment has any effect on the most profoundly impaired ears, Dr. Chung said she had not yet completed that analysis, but the hypothesis is that the treatment is unlikely to lead to any improvement. “When you take out the severely impaired ears, you can see a greater [treatment] effect, so it does suggest that it doesn’t do anything for those ears,” Dr. Chung said during the Q&A session following her talk.
She was also asked why the treatment period was 6 weeks, rather than 6 months – a period of treatment that has shown a better effect on long-term hearing and developmental outcomes than 6 weeks of treatment in symptomatic patients. Dr. Chung replied that she wasn’t involved in the study design, but said that at her center, the 6-month regimen is not standard.
There were two key weaknesses in the study. One was the small sample size, and the other was its nonrandomized nature, which could have led to bias in the treated versus untreated group. “Although we don’t see any baseline differences between the groups, we have to be wary in analyses. Unfortunately, an RCT proved impossible in our setting. The CONCERT Trial started as randomized but this was amended to nonrandomized, as both parents and pediatricians had a clear preference for treatment,” said Dr. Chung.
The study could provide useful information about the timing of oral antiviral medication, according to Vana Spoulou, MD, who moderated the session where the research was presented. “The earliest you can give it is best, but sometimes it’s not easy to get them diagnosed immediately after birth. What they showed us is that even giving it so late, there was some improvement,” Dr. Spoulou said in an interview.
Dr. Spoulou isn’t ready to change practice based on the results, because she noted that some other studies have shown no benefit of treatment at 3 months. “But this was a hint that maybe even in these later diagnosed cases there could be some benefit,” she said.
Dr. Chung and Dr. Spoulou have no relevant financial disclosures.
Infants with isolated sensorineural hearing loss as a result of congenital cytomegalovirus (cCMV) infection may benefit from treatment with valganciclovir, according to results from the CONCERT nonrandomized trial.
Subjects were found through the Newborn Hearing Screening program, using dried blood spot screening to confirm cCMV Infection. As a result of 6 weeks of therapy, more patients in the treatment group had improvements in hearing at age 20 months, and fewer had deterioration compared with untreated controls.
There is a general consensus that symptomatic cCMV should be treated with valganciclovir for 6 weeks or 6 months, but treatment of patients with only hearing loss is still under debate. The average age of participants was 8 weeks.
The study was presented by Pui Khi Chung, MD, a clinical microbiologist at the Leiden University Medical Center, the Netherlands, at the annual meeting of the European Society for Paediatric Infectious Diseases, held virtually this year.
Out of 1,377 NHS-referred infants, 59 were diagnosed with cCMV (4.3%), and 35 were included in the study. Twenty-five patients received 6 weeks of valganciclovir, while 10 patients received placebo. The control group was expanded to 12 when two additional subjects were identified retrospectively and were successfully followed up at 20 months. Subjects in the treatment group were an average of 8 weeks old when treatment began. Both groups had similar neurodevelopmental outcomes at 20 months, as measured by the Bayley Scales of Infant and Toddler Development (BSID-III) and the Child Development Inventory (CDI). There were no serious adverse events associated with treatment.
To measure efficacy, the researchers used a random intercept, random slope model that accounted for repeated measurements. The differences in slopes for analyses of the best ear were significantly different between the treatment and control groups (estimated difference in slopes, –0.93; P = .0071). Further analyses of total hearing found that improvement was more common in the treatment group, and deterioration/no change was more common in the nontreatment group (P = .044). In another analysis that excluded the most profoundly impaired ears (> 70 db hearing loss), none in the control group experienced improvement and almost half deteriorated. In the treatment group, most were unchanged and a small number improved, with almost none deteriorating (P = .006).
Asked whether the treatment has any effect on the most profoundly impaired ears, Dr. Chung said she had not yet completed that analysis, but the hypothesis is that the treatment is unlikely to lead to any improvement. “When you take out the severely impaired ears, you can see a greater [treatment] effect, so it does suggest that it doesn’t do anything for those ears,” Dr. Chung said during the Q&A session following her talk.
She was also asked why the treatment period was 6 weeks, rather than 6 months – a period of treatment that has shown a better effect on long-term hearing and developmental outcomes than 6 weeks of treatment in symptomatic patients. Dr. Chung replied that she wasn’t involved in the study design, but said that at her center, the 6-month regimen is not standard.
There were two key weaknesses in the study. One was the small sample size, and the other was its nonrandomized nature, which could have led to bias in the treated versus untreated group. “Although we don’t see any baseline differences between the groups, we have to be wary in analyses. Unfortunately, an RCT proved impossible in our setting. The CONCERT Trial started as randomized but this was amended to nonrandomized, as both parents and pediatricians had a clear preference for treatment,” said Dr. Chung.
The study could provide useful information about the timing of oral antiviral medication, according to Vana Spoulou, MD, who moderated the session where the research was presented. “The earliest you can give it is best, but sometimes it’s not easy to get them diagnosed immediately after birth. What they showed us is that even giving it so late, there was some improvement,” Dr. Spoulou said in an interview.
Dr. Spoulou isn’t ready to change practice based on the results, because she noted that some other studies have shown no benefit of treatment at 3 months. “But this was a hint that maybe even in these later diagnosed cases there could be some benefit,” she said.
Dr. Chung and Dr. Spoulou have no relevant financial disclosures.
Infants with isolated sensorineural hearing loss as a result of congenital cytomegalovirus (cCMV) infection may benefit from treatment with valganciclovir, according to results from the CONCERT nonrandomized trial.
Subjects were found through the Newborn Hearing Screening program, using dried blood spot screening to confirm cCMV Infection. As a result of 6 weeks of therapy, more patients in the treatment group had improvements in hearing at age 20 months, and fewer had deterioration compared with untreated controls.
There is a general consensus that symptomatic cCMV should be treated with valganciclovir for 6 weeks or 6 months, but treatment of patients with only hearing loss is still under debate. The average age of participants was 8 weeks.
The study was presented by Pui Khi Chung, MD, a clinical microbiologist at the Leiden University Medical Center, the Netherlands, at the annual meeting of the European Society for Paediatric Infectious Diseases, held virtually this year.
Out of 1,377 NHS-referred infants, 59 were diagnosed with cCMV (4.3%), and 35 were included in the study. Twenty-five patients received 6 weeks of valganciclovir, while 10 patients received placebo. The control group was expanded to 12 when two additional subjects were identified retrospectively and were successfully followed up at 20 months. Subjects in the treatment group were an average of 8 weeks old when treatment began. Both groups had similar neurodevelopmental outcomes at 20 months, as measured by the Bayley Scales of Infant and Toddler Development (BSID-III) and the Child Development Inventory (CDI). There were no serious adverse events associated with treatment.
To measure efficacy, the researchers used a random intercept, random slope model that accounted for repeated measurements. The differences in slopes for analyses of the best ear were significantly different between the treatment and control groups (estimated difference in slopes, –0.93; P = .0071). Further analyses of total hearing found that improvement was more common in the treatment group, and deterioration/no change was more common in the nontreatment group (P = .044). In another analysis that excluded the most profoundly impaired ears (> 70 db hearing loss), none in the control group experienced improvement and almost half deteriorated. In the treatment group, most were unchanged and a small number improved, with almost none deteriorating (P = .006).
Asked whether the treatment has any effect on the most profoundly impaired ears, Dr. Chung said she had not yet completed that analysis, but the hypothesis is that the treatment is unlikely to lead to any improvement. “When you take out the severely impaired ears, you can see a greater [treatment] effect, so it does suggest that it doesn’t do anything for those ears,” Dr. Chung said during the Q&A session following her talk.
She was also asked why the treatment period was 6 weeks, rather than 6 months – a period of treatment that has shown a better effect on long-term hearing and developmental outcomes than 6 weeks of treatment in symptomatic patients. Dr. Chung replied that she wasn’t involved in the study design, but said that at her center, the 6-month regimen is not standard.
There were two key weaknesses in the study. One was the small sample size, and the other was its nonrandomized nature, which could have led to bias in the treated versus untreated group. “Although we don’t see any baseline differences between the groups, we have to be wary in analyses. Unfortunately, an RCT proved impossible in our setting. The CONCERT Trial started as randomized but this was amended to nonrandomized, as both parents and pediatricians had a clear preference for treatment,” said Dr. Chung.
The study could provide useful information about the timing of oral antiviral medication, according to Vana Spoulou, MD, who moderated the session where the research was presented. “The earliest you can give it is best, but sometimes it’s not easy to get them diagnosed immediately after birth. What they showed us is that even giving it so late, there was some improvement,” Dr. Spoulou said in an interview.
Dr. Spoulou isn’t ready to change practice based on the results, because she noted that some other studies have shown no benefit of treatment at 3 months. “But this was a hint that maybe even in these later diagnosed cases there could be some benefit,” she said.
Dr. Chung and Dr. Spoulou have no relevant financial disclosures.
FROM ESPID 2021