Serial Trauma Abdominal Ultrasound in Children (STAUNCH): A Pilot Study.

BACKGROUND: Ultrasound has established utility within pediatric emergency medicine and has an added benefit of avoiding excessive radiation exposure. The serial focused assessment with sonography in trauma (sFAST) examination is a potential alternative to improve pediatric trauma evaluation. We sought to evaluate the accuracy of sFAST in pediatric patients with blunt abdominal trauma. METHODS: We performed a multicenter, retrospective observational study of electronic medical records, trauma registry data, and image archiving records of previous sFAST examinations. Examinations from pediatric patients (18 years or younger) who presented to an emergency department with blunt abdominal trauma were eligible for inclusion as long as the period between the first and second FAST was at least 30 minutes but no more than 24 hours. Demographic data and patient and outcomes were collected. RESULTS: Data collected from 3 institutions found a total of 38 sFAST performed between July 2017 and September 2021 on eligible patients. Of these, there were 6 (15.4%) FAST examinations that were positive after an initial negative or indeterminate interpretation. The overall sensitivity and specificity of sFAST were 66.7% (95% confidence interval 22.3-95.7%) and 93.8% (79.2-99.3%), respectively. CONCLUSIONS: This pilot study found that sFAST can enhance blunt trauma evaluation and improve sensitivity and diagnostic accuracy. More data are needed to determine how sFAST can be utilized in pediatric patients with blunt abdominal trauma.

Evaluation of Point-of-Care Ultrasound Training for Family Physicians Using Teleultrasound.

BACKGROUND AND OBJECTIVES: The goal of this study was to assess family physicians' change in knowledge and ability to perform abdominal aorta ultrasound after implementation of a novel teleultrasound curriculum. METHODS: This was a prospective, observational study conducted at a single academic institution. Family physicians completed a preassessment, test, and objective structured clinical evaluation (OSCE). Physicians then individually completed a standard curriculum consisting of online content and an hour-long, hands-on training session on abdominal aorta ultrasound using teleultrasound technology. Physicians then performed a minimum of 10 independent examinations over a period of 8 weeks. After physicians completed the training curriculum and 10 independent scans, we administered a postassessment, test, and OSCE. We analyzed differences between pre- and postcurriculum responses using Fisher exact and Wilcoxon signed rank tests. RESULTS: Thirteen family physicians completed the curriculum. Comparing pre- to postcurriculum responses, we found significant reductions in barriers to using aorta POCUS and improved confidence in using, obtaining, and interpreting aorta POCUS (P<0.01). Knowledge improved from a median score of 70% to 90% (P<0.01), and OSCE scores improved from a median of 80% to 100% (P=0.012). Overall, 211 aorta ultrasound examinations were independently acquired with a median image quality of 4 (scale 1 to 4). CONCLUSIONS: After an 8-week teleultrasound curriculum, family physicians with minimal experience with POCUS showed improved knowledge and psychomotor skill in abdominal aorta POCUS.

Pediatric Emergency Medicine Faculty Response to Point-of-Care Ultrasound Credentialing Curriculum.

OBJECTIVES: As point-of-care ultrasound (POCUS) continues to evolve in pediatric emergency medicine (PEM), new protocols and curricula are being developed to help establish the standards of practice and delineate training requirements. New suggested guidelines continue to improve, but a national standard curriculum for training and credentialing PEM providers is still lacking. To understand the barriers and perception of curriculum implementation for PEM providers, we created an ultrasound program at our institution and observed attitudes and response to training. METHODS: Fourteen PEM-fellowship-trained faculty with limited to no previous experience with POCUS underwent training within a 12-month time frame using a modified practice-based training that included didactics, knowledge assessment, and hands-on practice. As part of the curriculum, the faculty completed a 3-phase survey before, after, and 6 months after completion of the curriculum. RESULTS: There was a 100%, 78.6%, and 71.4% response rate for the presurvey, postsurvey, and 6 months postsurvey, respectively. Lack of confidence with using POCUS went from 100% on the presurvey to 57% on the postsurvey and down to 30% on the 6th month postsurvey. All other barriers also decreased from precurriculum to postcurriculum, except for length of time to perform POCUS. Participants rated the curriculum highly, with a mean Likert score and standard error of the mean at 3.9 ± 0.73, respectively. The average rating for whether POCUS changed clinical practice was low (2.6 ± 1.34). CONCLUSION: These results show that a simplified structured curriculum can improve perception of POCUS and decrease barriers to usage while helping to understand obstacles for implementation of POCUS among PEM-fellowship-trained faculty.

Effect of a point-of-care ultrasound (POCUS) curriculum on emergency department soft tissue management.

BACKGROUND: Pediatric emergency department (ED) visits for superficial skin and soft tissue infections (SSTI) have steadily been increasing and point-of-care ultrasound (POCUS) continues to be an effective modality to improve management and shorter ED length of stays (LOS). OBJECTIVE: We sought to determine the impact of a soft tissue POCUS curriculum on POCUS utilization, ED LOS, and cost-effectiveness. METHODS: This was a retrospective pre- and post-interventional study of pediatric patients aged 0 to 17 years. Patients presenting to ED with international classification of disease 9 or 10 code for abscess or cellulitis were included. Data were collected a year before and after curriculum implementation with a 1-year washout training period. Training included continuing medical education, greater than 25 quality assured examinations, and a post-test. We compared diagnostic imaging type, ED LOS, and mean charges in patients with SSTI. RESULTS: We analyzed data on 119 total patients, 38 pre- and 81 post-intervention. We found a significant increase in the total number of POCUS examinations performed pre- to post-curriculum intervention, 26 vs. 59 (p = 0.0017). Mean total charges were significantly decreased from $3,762 (± 270) to $2,622 (± 158; p = 0.0009). There was a significant trend towards a decrease in average ED LOS 282 (standard error of mean [SEM] ± 19) vs 185 (± 13) minutes (p = 0.0001). CONCLUSIONS: Implementation of a soft tissue POCUS curriculum in a pediatric ED was associated with increased POCUS use, decreased LOS, and lower cost. These findings highlight the importance of POCUS education and implementation in the management of pediatric SSTI.

Performance of Pediatric Emergency Medicine Faculty After Point-of-Care Ultrasound Credentialing Implementation.

OBJECTIVE: As point-of-care ultrasound (POCUS) continues to evolve, a national standardized curriculum for training and credentialing pediatric emergency medicine (PEM) physicians is still lacking. The goal of this study was to assess PEM faculty in performing and interpreting POCUS during implementation of a training curriculum. METHODS: Sixteen full-time PEM faculty with either limited or no prior POCUS experience were trained to perform 4 ultrasound studies. Twelve of the 16 completed the training with a goal of credentialing within 12 months of implementation. For each faculty, we assessed competency by comparing precurriculum and postcurriculum test assessments and by evaluating quality of POCUS acquisition and accuracy of interpretation. We also monitored the amount of continuing medical education (CME) hours completed to ensure a minimum didactic component. RESULTS: We found a significant improvement in POCUS competency comparing precurriculum to postcurriculum test assessments (55.4% vs 75.6%, P < 0.0002). One thousand two hundred seventy images were submitted over the course of the curriculum. Accuracy, sensitivity, and specificity were 98.23% (confidence interval [CI] = 97.18-98.97), 97.01% (CI = 92.53-99.81), and 98.43% (CI = 97.33-99.81), respectively. Faculty self-rating of image quality was significantly higher than expert reviewer rating of image quality (3.4 ± 0.86 vs 3.2 ± 0.56, P < 0.0001). We found no change in expert reviewer rating of image quality over time. Faculty completed a combined 232.5 CME hours (average, 17.4 ± 10.8), with the majority of hours coming from an institutional POCUS CME workshop. CONCLUSIONS: These results show that a structured curriculum can improve PEM faculty POCUS competency.

B-line quantification: comparing learners novice to lung ultrasound assisted by machine artificial intelligence technology to expert review.

BACKGROUND: The goal of this study was to assess the ability of machine artificial intelligence (AI) to quantitatively assess lung ultrasound (LUS) B-line presence using images obtained by learners novice to LUS in patients with acute heart failure (AHF), compared to expert interpretation. METHODS: This was a prospective, multicenter observational study conducted at two urban academic institutions. Learners novice to LUS completed a 30-min training session on lung image acquisition which included lecture and hands-on patient scanning. Learners independently acquired images on patients with suspected AHF. Automatic B-line quantification was obtained offline after completion of the study. Machine AI counted the maximum number of B-lines visualized during a clip. The criterion standard for B-line counts was semi-quantitative analysis by a blinded point-of-care LUS expert reviewer. Image quality was blindly determined by an expert reviewer. A second expert reviewer blindly determined B-line counts and image quality. Intraclass correlation was used to determine agreement between machine AI and expert, and expert to expert. RESULTS: Fifty-one novice learners completed 87 scans on 29 patients. We analyzed data from 611 lung zones. The overall intraclass correlation for agreement between novice learner images post-processed with AI technology and expert review was 0.56 (confidence interval [CI] 0.51-0.62), and 0.82 (CI 0.73-0.91) between experts. Median image quality was 4 (on a 5-point scale), and correlation between experts for quality assessment was 0.65 (CI 0.48-0.82). CONCLUSION: After a short training session, novice learners were able to obtain high-quality images. When the AI deep learning algorithm was applied to those images, it quantified B-lines with moderate-to-fair correlation as compared to semi-quantitative analysis by expert review. This data shows promise, but further development is needed before widespread clinical use.

A novel streamlined trauma response team training improves imaging efficiency for pediatric blunt abdominal trauma patients.

BACKGROUND/PURPOSE: The morbidity and mortality of children with traumatic injuries are directly related to the time to definitive management of their injuries. Imaging studies are used in the trauma evaluation to determine the injury type and severity. The goal of this project is to determine if a formal streamlined trauma response improves efficiency in pediatric blunt trauma by evaluating time to acquisition of imaging studies and definitive management. METHODS: This study is a chart review of patients <18 years who presented to a pediatric trauma center following blunt trauma requiring trauma team activation. 413 records were reviewed to determine if training changed the efficiency of CT acquisition and 652 were evaluated for FAST efficiency. The metrics used for comparison were time from ED arrival to CT image, FAST, and disposition. RESULTS: Time from arrival to CT acquisition decreased from 37 (SD 23) to 28 (SD27) min (p < 0.05) after implementation. The proportion of FAST scans increased from 315 (63.5%) to 337 (80.8%) and the time to FAST decreased from 18 (SD15) to 8 (SD10) min (p < 0.05). The time to operating room (OR) decreased after implementation. CONCLUSION: The implementation of a streamlined trauma team approach is associated with both decreased time to CT, FAST, OR, and an increased proportion of FAST scans in the pediatric trauma evaluation. This could result in the rapid identification of injuries, faster disposition from the ED, and potentially improve outcomes in bluntly injured children. TYPE OF STUDY: Therapeutic LEVEL OF EVIDENCE: Level III.

Treg cells in pancreatic lymph nodes: the possible role in diabetogenesis and ß cell regeneration in a T1D model.

Previously, we established a model in which physiologically adequate function of the autologous ß cells was recovered in non-obese diabetic (NOD) mice after the onset of hyperglycemia by rendering them hemopoietic chimera. These mice were termed antea-diabetic. In the current study, we addressed the role of T regulatory (Treg) cells in the mechanisms mediating the restoration of euglycemia in the antea-diabetic NOD model. The data generated in this study demonstrated that the numbers of Treg cells were decreased in unmanipulated NOD mice, with the most profound deficiency detected in the pancreatic lymph nodes (PLNs). The impaired retention of the Treg cells in the PLNs correlated with the locally compromised profile of the chemokines involved in their trafficking, with the most prominent decrease observed in SDF-1. The amelioration of autoimmunity and restoration of euglycemia observed in the antea-diabetic mice was associated with restoration of the Treg cell population in the PLNs. These data indicate that the function of the SDF-1/CXCR4 axis and the retention of Treg cells in the PLNs have a potential role in diabetogenesis and in the amelioration of autoimmunity and ß cell regeneration in the antea-diabetic model. We have demonstrated in the antea-diabetic mouse model that lifelong recovery of the ß cells has a strong correlation with normalization of the Treg cell population in the PLNs. This finding offers new opportunities for testing the immunomodulatory regimens that promote accumulation of Treg cells in the PLNs as a therapeutic approach for type 1 diabetes (T1D).

Stage-specific effects of Plasmodium falciparum-derived hemozoin on blood mononuclear cell TNF-alpha regulation and viral replication.

BACKGROUND: The molecular immunological interactions between HIV and malaria are largely undefined. Since tumor necrosis factor (TNF)-alpha is elevated during acute malaria and increases with HIV-1 disease progression, TNF-alpha production may be an important mediator for interactions between malaria and HIV-1. METHODS: To examine the stage-specific immunological interactions between HIV and malaria, peripheral blood mononuclear cells (PBMC) and CD14 cells were isolated and cultured from rhesus macaques at different stages of SIV infection. Cultures were stimulated with lipopolysaccharide (LPS) and interferon (IFN)-gamma in the presence of Plasmodium falciparum-derived hemozoin (Hz) or synthetic Hz (sHz). TNF-alpha transcripts and soluble protein were examined by real time reverse transcription-PCR and ELISA, respectively. The effects of Hz on viral replication were determined by measurement of p27 antigen with varying concentrations of TNF-alpha neutralizing antibodies. RESULTS: Hz and sHz significantly increased LPS- and IFN-gamma-induced TNF-alpha protein and transcripts in PBMC from animals with late stage SIV infection (i.e., AIDS). Hz and sHz also induced high levels of sustained TNF-alpha transcripts in PBMC from the AIDS group. During the late stage of disease, CD14 cells were the primary source of TNF-alpha production. Stimulation of PBMC with Hz and sHz significantly increased viral replication that was dose-dependently reduced by the addition of TNF-alpha neutralizing antibodies. CONCLUSIONS: Hz promotes high levels of TNF-alpha production from PBMC during AIDS and increases viral replication in SIV-infected animals.

Reduced peripheral PGE2 biosynthesis in Plasmodium falciparum malaria occurs through hemozoin-induced suppression of blood mononuclear cell cyclooxygenase-2 gene expression via an interleukin-10-independent mechanism.

Molecular immunologic determinants of disease severity during Plasmodium falciparum malaria are largely undetermined. Our recent investigations showed that peripheral blood mononuclear cell (PBMC) cyclooxygenase-2 (COX-2) gene expression and plasma prostaglandin E(2) (PGE(2)) production are suppressed in children with falciparum malaria relative to healthy, malaria-exposed children with partial immunity. Furthermore, decreased COX-2/PGE(2) levels were significantly associated with increased plasma interleukin-10 (IL-10), an anti-inflammatory cytokine that inhibits the expression of COX-2 gene products. To determine the mechanism(s) responsible for COX-2-derived PGE(2) suppression, PBMCs were cultured from children with falciparum malaria. PGE(2) production was suppressed under baseline and COX-2-promoting conditions (stimulation with lipopolysaccharide [LPS] and interferon [IFN]-gamma) over prolonged periods, suggesting that an in vivo-derived product(s) was responsible for reduced PGE(2) biosynthesis. Ingestion of hemozoin (malarial pigment) by PBMC was investigated as a source of COX-2/PGE(2) suppression in PBMCs from healthy, malaria-naive adults. In addition, synthetically prepared hemozoin, beta-hematin, was used to investigate the effects of the core iron component of hemozoin, ferriprotoporphyrin-IX (FPIX). Physiologic concentrations of hemozoin or b-hematin suppressed LPS- and IFN-gamma-induced COX-2 mRNA in a time- and dose-dependent manner, resulting in decreased COX-2 protein and PGE(2) production. Suppression of COX-2/PGE(2) by hemozoin was not due to decreased cell viability as evidenced by examination of mitochondrial bioactivity. These data illustrate that ingestion of FPIX by blood mononuclear cells is responsible for suppression of COX-2/PGE(2). Although hemozoin induced overproduction of IL-10, neutralizing IL-10 antibodies failed to restore PGE(2) production. Thus, acquisition of hemozoin by blood mononuclear cells is responsible for suppression of PGE(2) in malaria through inhibition of de novo COX-2 transcripts via molecular mechanisms independent of increased IL-10 production.