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fulltextpubmed· Body· item PMC6535987

INTRODUCTION Staphylococcus aureus is a leading cause of many serious bacterial infections with a wide range of clinical manifestations across all age groups with the highest rates of infection occurring at either extreme of life.1 Approximately 30% of the human population is colonized with S. aureus with a high percentage of colonization in healthy persons.2 It has an expanded armamentarium of virulence factors, which present it with unique survival and pathogenic properties. Over the years, there has been emergence of community-associated methicillin-resistant S. aureus (CA-MRSA) infections in immunocompetent individuals suggestive of an increased virulence of the bacterium possibly because of acquisition of novel genetic elements. There is abundance of literature on various aspects of staph infection in adults; however, data in children especially from a resource limited region is still scarce. Therefore, we tried to explore the epidemiological characteristics and outcome of staph infection in children in an ICU setting where a significant mortality due to this organism has been observed.

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aspects of staph infection in adults; however, data in children especially from a resource limited region is still scarce. Therefore, we tried to explore the epidemiological characteristics and outcome of staph infection in children in an ICU setting where a significant mortality due to this organism has been observed. METHODS This was an observational prospective study conducted at the GB Pant Children Hospital, Srinagar, a tertiary care hospital for children from June 2016 to June 2017. A written informed consent was obtained from parents or guardians. Appropriate samples (blood, body fluids including C.S.F, and wound swabs) were taken from patients for culture on admission to PICU wherever indicated. Those patients beyond the neonatal age group admitted to the PICU with a culture proven Staphylococcus aureus infection were included in the study group. Children suspected of having SA infection on clinical grounds but with cultures negative for S. aureus were not included. Children found to have coagulase negative S. aureus infection on culture of their respective specimens were also excluded from the study. A detailed history was sought and thorough physical examination was done along with anthropometric measurements. Patients were monitored daily and their course in hospital, complications encountered, and outcome was recorded as per a pre-set proforma. Patients were managed as per standard guidelines.

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ed from the study. A detailed history was sought and thorough physical examination was done along with anthropometric measurements. Patients were monitored daily and their course in hospital, complications encountered, and outcome was recorded as per a pre-set proforma. Patients were managed as per standard guidelines. RESULTS During the study period, there were a total of 2,480 admissions in PICU, out of which 120 met the inclusion criterion. Baseline characteristics of the study population are given in Table 1. Incidence of methicillin resistant SA (MRSA) and methicillin sensitive SA (MSSA) infection was 1.6 and 3.1, respectively per 100 admissions. Table 1 Baseline characteristics Characteristic N (%) Male 56 (46.6%) Female 64 (53.3%) Mean Age 5.6 years Mean weight 21.6 kg Mean height 118.3 cms Underlying disorder 36 (30%) Living below poverty line (as per KS scale) 13 (10.8%) Malnutrion 20 (16.8%) Hospital Acquired 38 (32.6%) Community acquired 82 (68.3%) MRSA 42 (35%) MSSA 78 (65%) Mean hospital stay 17 days Table 2 Age distribution Age group N (%) 1–5 years 56 (46.6%) 5–10 years 15 (12.5%) 10–15 years 40 (33.3%) >15 years 9 (7.5%) Table 3 Clinical profile Pneumonia 52 (43.35) Septicaemia 24 (20%) Bone/joint space infection 18 (15%) Disseminated staph infection 10 (8.3%) Skin/ soft tissue 9 (7.5%) Meningitis 5 (4.1%) Brain abscess 2 (1.6%) Table 4 Major complications

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Age group N (%) 1–5 years 56 (46.6%) 5–10 years 15 (12.5%) 10–15 years 40 (33.3%) >15 years 9 (7.5%) Table 3 Clinical profile Pneumonia 52 (43.35) Septicaemia 24 (20%) Bone/joint space infection 18 (15%) Disseminated staph infection 10 (8.3%) Skin/ soft tissue 9 (7.5%) Meningitis 5 (4.1%) Brain abscess 2 (1.6%) Table 4 Major complications Complications N Shock 32 Need for invasive ventilation 29 Respiratory failure 20 DIC 15 Empyema 10 Seizures 3 Raised ICT 1 Hemiparesis 1 ARF 1 Thirty-three patients out of 38 (86.8%) with a hospital acquired staph infection showed methicillin resistance and only five (13.1%) were due to MSSA. From 82 patients with community acquired infection, 73 (89%) cases were due to MSSA and only nine (10.9%) were due to MRSA. Our study found a bimodal age distribution of the disease with age groups 1–5 years and 10–15 years having bulk of the cases (80%) (Table 2). The respiratory system was the major site of clinical presentation of S. aureus infection (43.3%) followed by septicaemia (20%) and bone/joint space infection (15%) as shown in Table 3. Shock requiring vasopressors was the most frequent complication encountered. Respiratory failure requiring mechanical ventilation was the second most common complication followed by respiratory failure managed with non-invasive oxygen support and DIC (Table 4). Empyema was seen in ten patients. Complications were more frequent in the hospital acquired MRSA group. Mean hospital stay was 17 days with a maximum stay of 56 days and a minimum stay of 2 days.

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second most common complication followed by respiratory failure managed with non-invasive oxygen support and DIC (Table 4). Empyema was seen in ten patients. Complications were more frequent in the hospital acquired MRSA group. Mean hospital stay was 17 days with a maximum stay of 56 days and a minimum stay of 2 days. During the study period, a total of 240 deaths occurred out of which 25/120 (10.5%) of total admissions took place among the study group. Mortality rate was 20.8% in the study group. Most of the deaths 20/25 (80%), however, occurred in those with an underlying chronic disease (like cerebral palsy, neuroregression, and cystic fibrosis). Most of deaths were recorded in the age group of 1–3 years (80%). Furthermore, a higher number of deaths 15/25 (72%) were recorded in the hospital acquired MRSA group. DISCUSSION There is little data on Staphylococcal infection in children, in general. Our study is first at attempting to elaborate on clinicoepidemiological characteristics of staphylococcal infection in ICU admitted children.

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During the study period, a total of 240 deaths occurred out of which 25/120 (10.5%) of total admissions took place among the study group. Mortality rate was 20.8% in the study group. Most of the deaths 20/25 (80%), however, occurred in those with an underlying chronic disease (like cerebral palsy, neuroregression, and cystic fibrosis). Most of deaths were recorded in the age group of 1–3 years (80%). Furthermore, a higher number of deaths 15/25 (72%) were recorded in the hospital acquired MRSA group. DISCUSSION There is little data on Staphylococcal infection in children, in general. Our study is first at attempting to elaborate on clinicoepidemiological characteristics of staphylococcal infection in ICU admitted children. The incidence of staph infection was 4.8 per 100 admissions to pediatric ICU which is higher than previous studies in children and adults.3,4 However these studies included all of hospital population while our study was conducted on an ICU based population, which might explain the resultant high incidence. Incidence of MRSA infection was 1.6 per 100 admissions to ICU, higher than a previous hospital based study from the USA.5 Again, this study calculated the incidence from the entire hospital cohort including neonates. Further, this difference could also be attributed to higher healthcare standards of a developed country. Many studies have found an increasing trend of hospital acquired MRSA infection.6 Our study also found a high incidence of hospital acquired MRSA infection. However, there is little substantial data on incidence of MRSA infection in children in the developing world with which we could compare our results.

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oped country. Many studies have found an increasing trend of hospital acquired MRSA infection.6 Our study also found a high incidence of hospital acquired MRSA infection. However, there is little substantial data on incidence of MRSA infection in children in the developing world with which we could compare our results. Community acquired MRSA has been a growing problem as elucidated in many studies.7 In an Iranian study, a high frequency of MRSA was found not only in hospital acquired S. aureus but also in community acquired isolates.8 However in our study, MRSA infection was found more commonly as a hospital acquired infection. Also, it was particularly found to affect children having chronic disease or disability and was associated with greater mortality (72%). Studies done in adults have documented a high risk of mortality in patients with MRSA infection.9 MRSA infection was also associated with more complications. More virulent than ever, MRSA has the ability to become easily resistant every time a new therapeutic agent is introduced, except for vancomycin. Vancomycin has been considered useful for the past 40 years. However, increasing rates of treatment failure with strains are being reported.10,11 Mortality rate was 20.8 per 100 cases admitted with S. aureus infection. Further, maximum mortality was observed in the age group of 1–3 years (80%), which could be hypothesized by their relatively weaker immunity as compared to older children.

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increasing rates of treatment failure with strains are being reported.10,11 Mortality rate was 20.8 per 100 cases admitted with S. aureus infection. Further, maximum mortality was observed in the age group of 1–3 years (80%), which could be hypothesized by their relatively weaker immunity as compared to older children. Our study found a bimodal age distribution of the disease with age groups 1–5 years and 10–15 years constituting most of the cases (80%). On review of literature, we did not find substantial data that could support or refute this observation. However, it has been our observation in our ICU that we do receive most cases of S. aureus from these two age groups. It may need further study to delve into this epidemiological observation further. CONCLUSION Our study is the first to discuss S. aureus infection in a PICU. Staphylococcal infection was found to be very common in PICU admissions and was associated with considerable mortality. MRSA infection is still predominantly hospital acquired in our ICU. It is particularly associated with higher complication rates and mortality than MSSA infection. Also, this organism seems to affect children with chronic diseases and disabilities more. Further, no case of vancomycin resistance was encountered in our study. Source of support: Nil Conflict of interest: None