Jorge Delgado scite author profile

In children, hematogenous osteomyelitis is an infection that primarily affects the most vascularized regions of the growing skeleton. The disease has increased in frequency, virulence, and degree of soft-tissue involvement. The change in clinical manifestations and management over the past 2 decades should be reflected in the current imaging approach to the disease. Imaging of infection must depict the location of a single focus or of multiple foci of involvement and the presence of drainable collections. This review provides an overview of the imaging implications directed by the changing epidemiology, the newer insights of anatomy and pathophysiology, the imaging characteristics with emphasis on specific locations and disease complications, and the differential diagnosis considerations. In addition, basic imaging guidelines for appropriate extent of area to image based on patient age are provided. RSNA, 2017.

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Fetal magnetic resonance imaging: jumping from 1.5 to 3 tesla (preliminary experience)

Victoria

et al. 2014

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Several attempts have been made at imaging the fetus at 3 T as part of the continuous search for increased image signal and better anatomical delineation of the developing fetus. Until very recently, imaging of the fetus at 3 T has been disappointing, with numerous artifacts impeding image analysis. Better magnets and coils and improved technology now allow imaging of the fetus at greater magnetic strength, some hurdles in the shape of imaging artifacts notwithstanding. In this paper we present the preliminary experience of evaluating the developing fetus at 3 T and discuss several artifacts encountered and techniques to decrease them, as well as safety concerns associated with scanning the fetus at higher magnetic strength.

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Imaging the Injured Pediatric Athlete: Upper Extremity

Delgado¹,

Jaramillo²,

Chauvin³

2016

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Increased physical activity in childhood has resulted in a large number of sports-related injuries. Although there is overlap between the sports-related injuries seen in pediatric and adult patients, important differences exist in the injury patterns of pediatric patients. These differences are related to the continuous changes in the developing skeleton and its relationship with adjacent soft tissues. The imbalance in strength between the growing bones and the nearby tendons and ligaments makes the bones prone to acute and chronic injuries. Acute injuries are more common in contact sports such as football and wrestling, whereas chronic injuries are often seen in baseball pitchers and gymnasts. Acute injuries unique to pediatric athletes include physeal fractures of the proximal and distal portions of the clavicle (periosteal sleeve fracture), the proximal humeral physis, and the coracoid process, as well as supracondylar, lateral condylar, and medial condylar fractures around the elbow. Chronic injuries, most commonly caused by repetitive microtrauma, include acromial apophyseolysis, Little Leaguer's shoulder, the constellation of findings seen in Little Leaguer's elbow, and injuries to the medial, lateral, and posterior elbow compartments. In addition, trochlear osteochondral lesions, gymnast's wrist, and rock climber's finger are less-common injuries that may be seen in children. In this article, the normal osseous development of the upper extremity is reviewed, with emphasis on the structures that are most commonly injured. The pathophysiology, imaging appearance, and imaging findings of pediatric athletic injuries are described, along with the prognostic implications. RSNA, 2016.

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MR Imaging of Normal Epiphyseal Development and Common Epiphyseal Disorders

Jaimes¹,

Chauvin²,

Delgado³

et al. 2014

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During infancy and childhood, multiple developmental changes occur in the epiphysis. Initially the epiphysis is composed entirely of hyaline cartilage. As skeletal maturation progresses, one or several secondary ossification centers (SOCs) develop within the epiphyseal cartilage. The SOCs enlarge by endochondral ossification and undergo marrow transformation in a process analogous to that of the primary physis and metaphysis. Magnetic resonance (MR) imaging can be used to evaluate vascularity, marrow, and cartilage and plays a critical role in the assessment of epiphyseal disorders in children. In cases of shoulder and hip dysplasia, MR imaging demonstrates unossified structures and helps guide treatment. In cases of trauma, the intracartilaginous pathway of fractures, the degree of physeal involvement, and early bridge formation can be assessed. With the use of intravenous gadolinium-based contrast material, avascular necrosis and reperfusion can be characterized. This article reviews the normal structure of the epiphysis, its appearance at MR imaging, and age-related changes to the epiphysis. Common conditions that lead to epiphyseal damage in children are reviewed, with an emphasis on the role of MR imaging in diagnosis, prognosis, and treatment.

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Chloral hydrate in pediatric magnetic resonance imaging: evaluation of a 10-year sedation experience administered by radiologists

Toro¹,

Rascovsky²,

Arango³

et al. 2014

Pediatr Radiol

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MRI features of plexiform neurofibromas involving the liver and pancreas in children with neurofibromatosis type 1

et al. 2014

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Diffusion-Tensor Imaging of the Growing Ends of Long Bones: Pilot Demonstration of Columnar Structure in the Physes and Metaphyses of the Knee

Jaimes¹,

Berman²,

Delgado³

et al. 2014

Radiology

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Diffusion-Tensor Imaging of the Physes: A Possible Biomarker for Skeletal Growth—Experience with 151 Children

et al. 2017

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Purpose To determine the changes of diffusion-tensor imaging (DTI) and tractography in the distal femur and proximal tibia related to age, sex, and height. Materials and Methods Following institutional review board approval, with waiver of consent and with HIPAA compliance, the authors retrospectively analyzed DTI images of the knee in 151 children, 73 girls (median age, 14.1 years; range, 6.5-17.8 years) and 78 boys (median age, 16.6 years; range, 6.9-17.9 years), studied from January 2013 to October 2014. At sagittal echo-planar DTI (20 directions, b values of 0 and 600 sec/mm), regions of interest were placed in the tibial and femoral physes. Using a fractional anisotropy threshold of 0.15 and an angle threshold of 40°, the authors performed tractography and measured apparent diffusion coefficient (ADC) and tract length and volume. Changes related to age, sex, and height were evaluated by using fitted nonlinear polynomial functions on bootstrapped samples. Results Femoral tract volume and length increased and then decreased with age (P < .001); the peaks of femoral tract volume are consistent with the growth spurt, occurring earlier in girls (10.8 years) than in boys (13.0 years) (P < .001). Girls had smaller tract volumes in comparison to boys (P = .013). ADC peaks 2 years earlier than tract volume (girls at 9.3 years, boys at 11.0 years). Girls with greater than 50th percentile of height had longer tracts and greater tract volumes compared with girls with less than 50th percentile (P < .020). DTI parameters of boys do not correlate with percentile of height (P > .300). Conclusion DTI of the physis and metaphysis shows greater tract length and volumes in subjects who are at ages when the growth is fastest. ADC and tract length and volume have an earlier and smaller peak in girls than in boys. Femoral tract length and volume are larger in taller girls. RSNA, 2017.

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Jorge Delgado

Hematogenous Osteomyelitis in Infants and Children: Imaging of a Changing Disease

Fetal magnetic resonance imaging: jumping from 1.5 to 3 tesla (preliminary experience)

Imaging the Injured Pediatric Athlete: Upper Extremity

MR Imaging of Normal Epiphyseal Development and Common Epiphyseal Disorders

Chloral hydrate in pediatric magnetic resonance imaging: evaluation of a 10-year sedation experience administered by radiologists

MRI features of plexiform neurofibromas involving the liver and pancreas in children with neurofibromatosis type 1

Diffusion-Tensor Imaging of the Growing Ends of Long Bones: Pilot Demonstration of Columnar Structure in the Physes and Metaphyses of the Knee

Diffusion-Tensor Imaging of the Physes: A Possible Biomarker for Skeletal Growth—Experience with 151 Children

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