Failed intussusception reduction in children: correlation between radiologic, surgical, and pathologic findings

OBJECTIVE: The objective of this study was to identify causes of irreducible intussusception after contrast enema and to correlate imaging findings with surgical and histopathologic findings. MATERIALS AND METHODS: Between 2005 and 2013, a total of 543 children underwent reduction of intussusception with the use of an enema technique (hereafter referred to as "enema reduction"). The medical records of 72 children (56 boys [mean age, 24.8 months; range, 3.8 months to 10.9 years] and 16 girls [mean age, 14.2 months; range, 1.5 months to 6.9 years) who underwent unsuccessful reduction and were treated surgically were retrospectively analyzed. The data collected included information on the cause of intussusception, the risk factors noted on ultrasound, operative management, outcome, and the length of the hospital stay. The imaging findings for these patients were compared with findings for statistically similar age-matched control subjects. RESULTS: Ultrasound detected 56 of 57 cases of intussusception, but it failed to detect the lead point in three cases and failed to detect ischemic necrosis in seven cases. Positive predictors of failed enema reduction were the presence of a distal mass and observation of the dissecting sign. Of the 72 patients who underwent surgical treatment of intussusception, 26 (36.1%) underwent laparoscopy, 38 (52.8%) underwent laparotomy, and eight (11.1%) underwent conversion from laparoscopy to laparotomy. Surgical reduction was performed in 61.1% of cases, small bowel resection in 19.4%, ileocecectomy in 12.5%, and self-reduction in 69%. Pathologic lead points (noted in 25% of cases) included lymphoid hyperplasia (n = 7), Meckel diverticulum (n = 3), Burkitt lymphoma (n = 3), enteric duplication cyst (n = 2), juvenile polyp (n = 2), and adenovirus appendicitis (n = 1). The length of the hospital stay was significantly longer after laparotomy. CONCLUSION: The distalmost location of the intussusception mass and presence of the dissecting sign on images obtained during contrast enema have a higher positive predictive value for failed reduction. Screening ultrasound decreases the number of unnecessary contrast enemas performed; however, classic pathologic lead points, such as Burkitt lymphoma and Meckel diverticulum, may be difficult to diagnose with the use of ultrasound. Laparotomy and laparoscopy are equally safe and efficacious in reducing intussusception, with the length of the hospital stay after laparoscopy significantly shorter than that noted after laparotomy. Most failed enema reductions are idiopathic, and pathologic lead points are noted in 25% of cases

Revised Reference Curves for Bone Mineral Content and Areal Bone Mineral Density According to Age and Sex for Black and Non-Black Children: Results of the Bone Mineral Density in Childhood Study

Context: Deficits in bone acquisition during growth may increase fracture risk. Assessment of bone health during childhood requires appropriate reference values relative to age, sex, and population ancestry to identify bone deficits. Objective: The objective of this study was to provide revised and extended reference curves for bone mineral content (BMC) and areal bone mineral density (aBMD) in children. Design: The Bone Mineral Density in Childhood Study was a multicenter longitudinal study with annual assessments for up to 7 yr. Setting: The study was conducted at five clinical centers in the United States. Participants: Two thousand fourteen healthy children (992 males, 22% African-Americans) aged 5–23 yr participated in the study. Intervention: There were no interventions. Main Outcome Measures: Reference percentiles for BMC and aBMD of the total body, lumbar spine, hip, and forearm were obtained using dual-energy x-ray absorptiometry for Black and non-Black children. Adjustment factors for height status were also calculated. Results: Extended reference curves for BMC and aBMD of the total body, total body less head, lumbar spine, total hip, femoral neck, and forearm for ages 5–20 yr were constructed relative to sex and age for Black and non-Black children. Curves are similar to those previously published for 7–17 year olds. BMC and aBMD values were greater for Black vs. non-Black children at all measurement sites. Conclusions: We provide here dual-energy x-ray absorptiometry reference data on a well-characterized cohort of 2012 children and adolescents. These reference curves provide the most robust reference values for the assessment and monitoring of bone health in children and adolescents in the literature to date. (J Clin Endocrinol Metab 96: 3160–3169, 2011

Height Adjustment in Assessing Dual Energy X-Ray Absorptiometry Measurements of Bone Mass and Density in Children

Context: In children, bone mineral content (BMC) and bone mineral density (BMD) measurements by dual-energy x-ray absorptiometry (DXA) are affected by height status. No consensus exists on how to adjust BMC or BMD (BMC/BMD) measurements for short or tall stature. Objective: The aim of this study was to compare various methods to adjust BMC/BMD for height in healthy children. Design: Data from the Bone Mineral Density in Childhood Study (BMDCS) were used to develop adjustment methods that were validated using an independent cross-sectional sample of healthy children from the Reference Data Project (RDP). Setting: We conducted the study in five clinical centers in the United States. Participants: We included 1546 BMDCS and 650 RDP participants (7 to 17 yr of age, 50% female). Intervention: No interventions were used. Main Outcome Measures: We measured spine and whole body (WB) BMC and BMD Z-scores for age (BMC/BMDage), height age (BMC/BMDheight age), height (BMCheight), bone mineral apparent density (BMADage), and height-for-age Z-score (HAZ) (BMC/BMDhaz). Results: Spine and WB BMC/BMDageZ and BMADageZ were positively (P \u3c 0.005; r = 0.11 to 0.64) associated with HAZ. Spine BMDhaz and BMChazZ were not associated with HAZ; WB BMChazZ was modestly associated with HAZ (r = 0.14; P = 0.0003). All other adjustment methods were negatively associated with HAZ (P \u3c 0.005; r = −0.20 to −0.34). The deviation between adjusted and BMC/BMDage Z-scores was associated with age for most measures (P \u3c 0.005) except for BMC/BMDhaz. Conclusions: Most methods to adjust BMC/BMD Z-scores for height were biased by age and/or HAZ. Adjustments using HAZ were least biased relative to HAZ and age and can be used to evaluate the effect of short or tall stature on BMC/BMD Z-scores. (J Clin Endocrinol Metab 95: 1265–1273, 2010

Fitting of Bone Mineral Density with Consideration of Anthropometric Parameters

Summary A new model describing normal values of bone mineral density in children has been evaluated, which includes not only the traditional parameters of age, gender, and race, but also weight, height, percent body fat, and sexual maturity. This model may constitute a better comparative norm for a specific child with given anthropometric values. Introduction Previous descriptions of children’s bone mineral density (BMD) by age have focused on segmenting diverse populations by race and gender without adjusting for anthropometric variables or have included the effects of anthropometric variables over a relatively homogeneous population. Methods Multivariate semi-metric smoothing (MS2) provides a way to describe a diverse population using a model that includes multiple effects and their interactions while producing a result that can be smoothed with respect to age in order to provide connected percentiles. We applied MS2 to spine BMD data from the Bone Mineral Density in Childhood Study to evaluate which of gender, race, age, height, weight, percent body fat, and sexual maturity explain variations in the population’s BMD values. By balancing high adjusted R2 values and low mean square errors with clinical needs, a model using age, gender, race, weight, and percent body fat is proposed and examined. Results This model provides narrower distributions and slight shifts of BMD values compared to the traditional model, which includes only age, gender, and race. Thus, the proposed model might constitute a better comparative standard for a specific child with given anthropometric values and should be less dependent on the anthropometric characteristics of the cohort used to devise the model. Conclusions The inclusion of multiple explanatory variables in the model, while creating smooth output curves, makes the MS2 method attractive in modeling practically sized data sets. The clinical use of this model by the bone research community has yet to be fully established

Fitting of Bone Mineral Density with Consideration of Anthropometric Parameters

Summary A new model describing normal values of bone mineral density in children has been evaluated, which includes not only the traditional parameters of age, gender, and race, but also weight, height, percent body fat, and sexual maturity. This model may constitute a better comparative norm for a specific child with given anthropometric values. Introduction Previous descriptions of children’s bone mineral density (BMD) by age have focused on segmenting diverse populations by race and gender without adjusting for anthropometric variables or have included the effects of anthropometric variables over a relatively homogeneous population. Methods Multivariate semi-metric smoothing (MS2) provides a way to describe a diverse population using a model that includes multiple effects and their interactions while producing a result that can be smoothed with respect to age in order to provide connected percentiles. We applied MS2 to spine BMD data from the Bone Mineral Density in Childhood Study to evaluate which of gender, race, age, height, weight, percent body fat, and sexual maturity explain variations in the population’s BMD values. By balancing high adjusted R2 values and low mean square errors with clinical needs, a model using age, gender, race, weight, and percent body fat is proposed and examined. Results This model provides narrower distributions and slight shifts of BMD values compared to the traditional model, which includes only age, gender, and race. Thus, the proposed model might constitute a better comparative standard for a specific child with given anthropometric values and should be less dependent on the anthropometric characteristics of the cohort used to devise the model. Conclusions The inclusion of multiple explanatory variables in the model, while creating smooth output curves, makes the MS2 method attractive in modeling practically sized data sets. The clinical use of this model by the bone research community has yet to be fully established

Revised Reference Curves for Bone Mineral Content and Areal Bone Mineral Density According to Age and Sex for Black and Non-Black Children: Results of the Bone Mineral Density in Childhood Study

Context: Deficits in bone acquisition during growth may increase fracture risk. Assessment of bone health during childhood requires appropriate reference values relative to age, sex, and population ancestry to identify bone deficits. Objective: The objective of this study was to provide revised and extended reference curves for bone mineral content (BMC) and areal bone mineral density (aBMD) in children. Design: The Bone Mineral Density in Childhood Study was a multicenter longitudinal study with annual assessments for up to 7 yr. Setting: The study was conducted at five clinical centers in the United States. Participants: Two thousand fourteen healthy children (992 males, 22% African-Americans) aged 5–23 yr participated in the study. Intervention: There were no interventions. Main Outcome Measures: Reference percentiles for BMC and aBMD of the total body, lumbar spine, hip, and forearm were obtained using dual-energy x-ray absorptiometry for Black and non-Black children. Adjustment factors for height status were also calculated. Results: Extended reference curves for BMC and aBMD of the total body, total body less head, lumbar spine, total hip, femoral neck, and forearm for ages 5–20 yr were constructed relative to sex and age for Black and non-Black children. Curves are similar to those previously published for 7–17 year olds. BMC and aBMD values were greater for Black vs. non-Black children at all measurement sites. Conclusions: We provide here dual-energy x-ray absorptiometry reference data on a well-characterized cohort of 2012 children and adolescents. These reference curves provide the most robust reference values for the assessment and monitoring of bone health in children and adolescents in the literature to date. (J Clin Endocrinol Metab 96: 3160–3169, 2011