Richard G. Bachur

Sport-Related Concussion

Sport-related concussion is a common injury in children and adolescents. Athletes seldom report concussive symptoms, which makes the diagnosis a challenge. The management of sport-related concussion has changed significantly over the last several years. The previously used grading systems and return-to-play guidelines have been abandoned in favor of more individualized assessment and management. Neuropsychological testing is being used more frequently to assist in management. After recovery, it is recommended that an athletes return-to-play progress in a gradual, stepwise fashion while being monitored by a health care provider. Proper assessment and management of a sport-related concussion is crucial, because repeat concussions can result in decreased neurocognitive functioning, increased symptomatology, and, at times, catastrophic outcomes.

A clinical decision rule to identify children at low risk for appendicitis

Objective. Computed tomography (CT) has gained widespread acceptance in the evaluation of children with suspected appendicitis. Concern has been raised regarding the long-term effects of ionizing radiation. Other means of diagnosing appendicitis, such as clinical scores, are lacking in children. We sought to develop a clinical decision rule to predict which children with acute abdominal pain do not have appendicitis. Methods. Prospective cohort study was conducted of children and adolescents who aged 3 to 18 years, had signs and symptoms suspicious for appendicitis, and presented to the emergency department between April 2003 and July 2004. Standardized data-collection forms were completed on eligible patients. Two low-risk clinical decision rules were created and validated using logistic regression and recursive partitioning. The sensitivity, negative predictive value (NPV), and negative likelihood ratio of each clinical rule were compared. Results. A total of 601 patients were enrolled. Using logistic regression, we created a 6-part score that consisted of nausea (2 points), history of focal right lower quadrant pain (2 points), migration of pain (1 point), difficulty walking (1 point), rebound tenderness/pain with percussion (2 points), and absolute neutrophil count of >6.75 × 103/μL (6 points). A score ≤5 had a sensitivity of 96.3% (95% confidence interval [CI]: 87.5–99.0), NPV of 95.6% (95% CI: 90.8–99.0), and negative likelihood ratio of .102 (95% CI: 0.026–0.405) in the validation set. Using recursive partitioning, a second low-risk decision rule was developed consisting of absolute neutrophil count of <6.75 × 103/μL, absence of nausea, and absence of maximal tenderness in the right lower quadrant. This rule had a sensitivity of 98.1% (95% CI: 90.1–99.9), NPV of 97.5% (95% CI: 86.8–99.9), and negative likelihood ratio of 0.058 (95% CI: 0.008–0.411) in the validation set. Theoretical application of the low-risk rules would have resulted in a 20% reduction in CT. Conclusions. Our low-risk decision rules can predict accurately which children are at low risk for appendicitis and could be treated safely with careful observation rather than CT examination.

Errors of medical interpretation and their potential clinical consequences: a comparison of professional versus ad hoc versus no interpreters.

STUDY OBJECTIVE To compare interpreter errors and their potential consequences in encounters with professional versus ad hoc versus no interpreters. METHODS This was a cross-sectional error analysis of audiotaped emergency department (ED) visits during 30 months in the 2 largest pediatric EDs in Massachusetts. Participants were Spanish-speaking limited-English-proficient patients, caregivers, and their interpreters. Outcome measures included interpreter error numbers, types, and potential consequences. RESULTS The 57 encounters included 20 with professional interpreters, 27 with ad hoc interpreters, and 10 with no interpreters; 1,884 interpreter errors were noted, and 18% had potential clinical consequences. The proportion of errors of potential consequence was significantly lower for professional (12%) versus ad hoc (22%) versus no interpreters (20%). Among professional interpreters, previous hours of interpreter training, but not years of experience, were significantly associated with error numbers, types, and potential consequences. The median errors by professional interpreters with greater than or equal to 100 hours of training was significantly lower, at 12, versus 33 for those with fewer than 100 hours of training. Those with greater than or equal to 100 hours of training committed significantly lower proportions of errors of potential consequence overall (2% versus 12%) and in every error category. CONCLUSION Professional interpreters result in a significantly lower likelihood of errors of potential consequence than ad hoc and no interpreters. Among professional interpreters, hours of previous training, but not years of experience, are associated with error numbers, types, and consequences. These findings suggest that requiring at least 100 hours of training for interpreters might have a major impact on reducing interpreter errors and their consequences in health care while improving quality and patient safety.

Occult pneumonias : Empiric chest radiographs in febrile children with leukocytosis

STUDY OBJECTIVE We sought to determine the incidence of radiographic findings of pneumonia in highly febrile children with leukocytosis and no clinical evidence of pneumonia or other major infectious source. METHODS We conducted a prospective cohort study at a large urban pediatric hospital. Clinical practice guidelines for the use of chest radiography in febrile children were established by the emergency medicine attending staff. All records of emergency department patients with leukocytosis (WBC count >/= 20, 000/mm3), triage temperature 39.0 degreesC or higher, age 5 years or less were reviewed daily for 12 months. Physicians completed a questionnaire to note the diagnosis, the presence of respiratory symptoms and signs, and the reason for the chest radiograph (if one was obtained). Patients were excluded for immunodeficiency, chronic lung disease, or major bacterial sources of infection other than pneumonia. Pneumonia was defined by an attending radiologists reading of the radiograph. RESULTS We studied 278 patients. Chest radiographs were obtained in 225 for the following reasons: 79 because of respiratory findings suggestive of pneumonia and 146 because of leukocytosis and no identifiable major source of infection. Fifty-three patients did not undergo radiography. Pneumonia was found in 32 of 79 (40%; 95% confidence interval, 20% to 52%) of those with findings suggestive of pneumonia and in 38 of 146 (26%; 95% confidence interval, 19% to 34%) of those without clinical evidence of pneumonia. If patients who did not have a radiograph are assumed to not have pneumonia, the minimum estimate of occult pneumonia was 38 of 199 patients (19%; 95% confidence interval, 14% to 25%). CONCLUSION Empiric chest radiographs in highly febrile children with leukocytosis and no findings of pneumonia frequently reveal occult pneumonias. Chest radiography should be considered a routine diagnostic test in children with a temperature of 39 degreesC or greater and WBC count of 20,000/mm3 or greater without an alternative major source of infection.

Bedside Ultrasound in Pediatric Practice

July 1, 2002. Overnight shift in the pediatric emergency department. In 1 room, the fellow is attempting to place a central venous catheter in a 5-year-old boy with presumed septic shock but has been unable to locate the femoral vein with her finder needle. In the next room lies a 7-year-old trauma patient. He is tachycardic with poor perfusion and abrasions on his chest. The team calls for a portable chest radiograph and begins a secondary survey. The resident taps your shoulder. “Can I present a patient?” He describes a 15-year-old girl with lupus complaining of chest pain who is ill appearing, tachycardic, and short of breath. “I ordered labs and chest radiograph.” July 1, 2012. Overnight shift in the pediatric emergency department. In 1 room, the fellow is attempting to place a central venous catheter in a 5-year-old boy with presumed septic shock. Using bedside ultrasound, she makes adjustments with her finder needle until she sees it enter the femoral vein. In the next room lies a 7-year-old trauma patient. He is tachycardic with poor perfusion and abrasions on his chest. The team performs an extended focused assessment with sonography for trauma examination, which reveals free fluid in Morison’s pouch and no pneumothorax. A computed tomography scan of the abdomen is prioritized, and type O negative blood is ordered. The resident taps your shoulder. “Can I present a patient?” He describes a 15-year-old girl with lupus complaining of chest pain who is ill appearing, tachycardic, and short of breath. “I did a bedside ultrasound, and she has a pericardial effusion.” In 2002, many … Address correspondence to Rebecca Vieira, MD, RDMS, Division of Emergency Medicine, Boston Children’s Hospital, 300 Longwood Ave, Boston, MA 02115. E-mail: rebecca.vieira{at}childrens.harvard.edu

Procalcitonin in Young Febrile Infants for the Detection of Serious Bacterial Infections

OBJECTIVES. The objectives of the study were (1) to study the test performance of procalcitonin for identifying serious bacterial infections in febrile infants ≤90 days of age without an identifiable bacterial source and (2) to determine an optimal cutoff value to identify infants at low risk for serious bacterial infections. METHODS. A prospective observational study was performed with febrile infants ≤90 days of age presenting to an urban, pediatric, emergency department. Serum procalcitonin levels were measured by using an automated high-sensitivity assay. An optimal procalcitonin cutoff value was selected to maximize sensitivity and negative predictive value for the detection of serious bacterial infections. Infants were classified as having definite, possible, or no serious bacterial infections. RESULTS. A total of 234 infants (median age: 51 days) were studied. Thirty infants (12.8%) had definite serious bacterial infections (bacteremia: n = 4; bacteremia with urinary tract infections: n = 2; urinary tract infections: n = 24), and 12 infants (5.1%) had possible serious bacterial infections (pneumonia: n = 5; urinary tract infections: n = 7). Mean procalcitonin levels for definite serious bacterial infections (2.21 ± 3.9 ng/mL) and definite plus possible serious bacterial infections (2.48 ± 4.6 ng/mL) were significantly higher than that for no serious bacterial infection (0.38 ± 1.0 ng/mL). The area under the receiver operating characteristic curve was 0.82 for definite serious bacterial infections and 0.76 for definite and possible serious bacterial infections. For identifying definite and possible serious bacterial infections, a cutoff value of 0.12 ng/mL had sensitivity of 95.2%, specificity of 25.5%, negative predictive value of 96.1%, and negative likelihood ratio of 0.19; all cases of bacteremia were identified accurately with this cutoff value. CONCLUSIONS. Procalcitonin has favorable test characteristics for detecting serious bacterial infections in young febrile infants. Procalcitonin measurements performed especially well in detecting the most serious occult infections.

Urine proteomics for profiling of human disease using high accuracy mass spectrometry

Knowledge of the biologically relevant components of human tissues has enabled the invention of numerous clinically useful diagnostic tests, as well as non‐invasive ways of monitoring disease and its response to treatment. Recent use of advanced MS‐based proteomics revealed that the composition of human urine is more complex than anticipated. Here, we extend the current characterization of the human urinary proteome by extensively fractionating urine using ultracentrifugation, gel electrophoresis, ion exchange and reverse‐phase chromatography, effectively reducing mixture complexity while minimizing loss of material. By using high‐accuracy mass measurements of the linear ion trap‐Orbitrap mass spectrometer and LC‐MS/MS of peptides generated from such extensively fractionated specimens, we identified 2362 proteins in routinely collected individual urine specimens, including more than 1000 proteins not described in previous studies. Many of these are biomedically significant molecules, including glomerularly filtered cytokines and shed cell surface molecules, as well as renally and urogenitally produced transporters and structural proteins. Annotation of the identified proteome reveals distinct patterns of enrichment, consistent with previously described specific physiologic mechanisms, including 336 proteins that appear to be expressed by a variety of distal organs and glomerularly filtered from serum. Comparison of the proteomes identified from 12 individual specimens revealed a subset of generally invariant proteins, as well as individually variable ones, suggesting that our approach may be used to study individual differences in age, physiologic state and clinical condition. Consistent with this, annotation of the identified proteome by using machine learning and text mining exposed possible associations with 27 common and more than 500 rare human diseases, establishing a widely useful resource for the study of human pathophysiology and biomarker discovery.

Bacteremia and meningitis among infants with urinary tract infections.

A retrospective analysis of 354 patients < or = 2 years of age with urinary tract infections (UTIs) was performed to characterize patients with bacteremia or meningitis and to identify any objective predictors of these complications. Thirty-three patients with bacteremia were identified. Blood culture isolates included Escherichia coli (25), Staphylococcus aureus (4), enterococcus (1), group B Streptococcus (2), and Enterobacter (1). Besides one patient with group B Streptococcus bacteremia at 1.5 months of age, all bacteremias after one month of age were with E. coli. Bacteremia was limited to those < 6 months old and inversely related to age (R = 0.24, P = 0.0008). Grouped by age, the incidence of bacteremia was 21% for 0 < or = 1 month, 13% for 1.1-2.0 months, 4% for 2.1-3.0 months, and 8% for 3.1-6.0 months. Mean white blood cell count, initial temperature, initial serum bicarbonate, and erythrocyte sedimentation rate were not statistically significant between bacteremic (B) and nonbacteremic (NB) patients. Statistically significant differences were noted for percentage of bands (6.2% [NB] vs. 12.3% [B] P < 0.001), total band count (1048 [NB] vs. 2252 [B] P < 0.001), and band-neutrophil ratio (0.16 [NB] vs. 0.36 [B] P = 0.01); however, no practical value for any of these measures would reliably discriminate between bacteremic and nonbacteremic patients. Four patients, all neonates, had meningitis; too few patients with meningitis were identified for analysis. In summary, bacteremia with UTIs was observed to be inversely related to age and limited to patients less than six months of age. No objective parameters were identified to distinguish patients with bacteremia at the time of presentation.

Non-typhi Salmonella bacteremia in children.

BACKGROUND Non-typhi Salmonella (NTS) infections are a frequent cause of self-limited diarrheal illness in healthy children. Bacteremia is a known complication of NTS infection, but the management of children with bacteremia has been based on limited data. OBJECTIVE To study the outcomes of pediatric patients with NTS bacteremia. METHODS Retrospective review of patients with NTS bacteremia covering a 16-year period at an urban pediatric hospital. Clinical data from the initial visits and any follow-up visits or hospitalizations were abstracted from the medical record. RESULTS We studied 144 patients. Median age was 10.5 months. Fifty-four patients were hospitalized at the initial visit including all the patients with immunodeficiency (n = 12). Of the 90 patients initially managed as outpatients, 79 were subsequently admitted; only 1 of these patients developed a focal complication. Persistent bacteremia was found in 51 (41%) patients. Among nonimmunocompromised patients, persistent bacteremia was noted in 34% [95% confidence interval (CI), 20 to 52%] of those initially treated with oral antibiotics, 52% (CI 30 to 74%) of those initially treated with a parenteral dose of antibiotics and in 31% (CI 22 to 43%) of those who were not initially given antibiotics. No laboratory or clinical factors predicted persistent bacteremia. Twelve patients developed focal infections: 3 of 119 previously healthy children (2.5%, CI 0.5 to 7%); and 9 of 25 children with underlying medical conditions (36%, CI 19 to 57%). Focal infections included meningitis (3), osteomyelitis (4), septic arthritis (2), pneumonia (2) and cholangitis (1). CONCLUSIONS NTS bacteremia occurs in otherwise healthy children, although the risk of focal infections is small. Patients with NTS bacteremia frequently have persistent bacteremia at follow-up regardless of initial antibiotic treatment.

Performance of Ultrasound in the Diagnosis of Appendicitis in Children in a Multicenter Cohort

OBJECTIVES The objectives were to assess the test characteristics of ultrasound (US) in diagnosing appendicitis in children and to evaluate site-related variations based on the frequency of its use. Additionally, the authors assessed the test characteristics of US when the appendix was clearly visualized. METHODS This was a secondary analysis of a prospective, 10-center observational study. Children aged 3 to 18 years with acute abdominal pain concerning for appendicitis were enrolled. US was performed at the discretion of the treating physician. RESULTS Of 2,625 patients enrolled, 965 (36.8%) underwent abdominal US. US had an overall sensitivity of 72.5% (95% confidence interval [CI] = 58.8% to 86.3%) and specificity 97.0% (95% CI = 96.2% to 97.9%) in diagnosing appendicitis. US sensitivity was 77.7% at the three sites (combined) that used it in 90% of cases, 51.6% at a site that used it in 50% of cases, and 35% at the four remaining sites (combined) that used it in 9% of cases. US retained a high specificity of 96% to 99% at all sites. Of the 469 (48.6%) cases across sites where the appendix was clearly visualized on US, its sensitivity was 97.9% (95% CI = 95.2% to 99.9%), with a specificity of 91.7% (95% CI = 86.7% to 96.7%). CONCLUSIONS Ultrasound sensitivity and the rate of visualization of the appendix on US varied across sites and appeared to improve with more frequent use. US had universally high sensitivity and specificity when the appendix was clearly identified. Other diagnostic modalities should be considered when the appendix is not definitively visualized by US.