Potential applications of three-dimensional ultrasound in the pediatric urinary tract: pictorial demonstration based on preliminary results

Riccabona, Michael; Fritz, G. A.; Ring, E

doi:10.1007/s00330-003-2075-5

Cited by 53 publications

(32 citation statements)

References 26 publications

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“…In the kidney, the superior potential of 3DUS for volume assessment of structures with more complicated shape has been utilized to accurately calculate renal parenchymal volume, which is most helpful in hydronephrotic kidneys [8,17,20,21]. This is achieved by subtraction of the segmented dilated collecting system from the overall kidney volume (Fig.…”

Section: D Urogenital Sonographymentioning

confidence: 99%

“…This rendered inverted view of the dilated system is also helpful for visualization of the pelvicalyceal-ureter unit, which aids in differentiating non-obstructed dilatation in malformed calices, such as megacalicosis, from the typical ballooned shape of an obstructive dilated system. It can also be helpful for assessment of caliceal diverticuli and tertiary calices [8,17]. The same principle of volume assessment may apply to tumor volume calculation, which is potentially beneficial for following patients with renal or bladder tumors during chemotherapy (Fig.…”

Section: D Urogenital Sonographymentioning

confidence: 99%

“…Other small-part applications, besides improved volume calculations, are investigation of musculoskeletal structures, and skin and soft-tissue lesions, where 3DUS may be valuable are in conditions where an additional reconstructed plane that is not accessible by conventional US offers crucial information, or for very torturously shaped abnormalities [1,2,8,17,[28][29][30]. This may prove helpful in fractures that sometimes can be difficult to see on plain film, or for abscesses with fistula formation [8,17,31].…”

Section: D Urogenital Sonographymentioning

confidence: 99%

“…It was initially used for gynecologic and obstetric imaging; other applications in adults followed [1][2][3][4][5]. With the introduction of transducers that are useful in children, the first efforts have been undertaken to evaluate its potential in pediatric imaging [6][7][8][9][10][11][12]. This review will (1) present basic methodical aspects of 3DUS to enable an understanding of the underlying physics with its implications for scan technique and results, (2) present some of our local experience, and (3) review the literature.…”

Section: Introductionmentioning

confidence: 99%

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Potential role of 3DUS in infants and children

Riccabona

2011

Pediatr Radiol

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The objective of this review is to discuss basic technical aspects as well as potential pediatric applications of three-dimensional ultrasound (3DUS). Different 3DUS-techniques are already commercially available. Most commonly, a transducer-integrated motor drives a scan-head to acquire a volumetric dataset, which is then reconstructed and viewed using various post-processing techniques. It has been proved feasible to apply 3DUS with pediatric transducers in typical pediatric investigations. Based on our own experiences and on review of the literature, 3DUS can be successfully used in infants and children for brain, spine, cardiac, urinary tract (particularly assessment of hydronephrosis, and virtual cystoscopy), and female genital (e.g., for assessment of uterine malformations) US, and for various other applications, particularly in small parts. Power Doppler data can be integrated, allowing 3DUS-angiography. Thus, 3DUS promises to become a useful adjunct for imaging children, particularly as it enhances ultrasound by offering additional, previously inaccessible planes, rendering options and surface assessments. 3DUS should be increasingly exploited, thus hopefully helping reduce the need for more invasive or burdening (e.g., ionizing radiation) investigations in children.

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Section: D Urogenital Sonographymentioning

confidence: 99%

Section: D Urogenital Sonographymentioning

confidence: 99%

Section: D Urogenital Sonographymentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

See 2 more Smart Citations

Potential role of 3DUS in infants and children

Riccabona

2011

Pediatr Radiol

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“…Although sometimes used to reduce the errors caused by respiration, breath holds and respiratory gating are not always feasible solutions as some people, especially young children [15], and sick patients would have difficulties holding their breath. Remaining still may be difficult due to arthritis in the neck, back, or shoulders [5].…”

Section: Introductionmentioning

confidence: 99%

Patient and Probe Tracking During Freehand Ultrasound

Flaccavento

Lawrence

Rohling

2004

Medical Image Computing and Computer-Assisted Intervention – MICCAI 2004

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Abstract. We present a system that measures the probe location with respect to the patient's body during an ultrasound exam. The system uses an inexpensive trinocular camera to track patches of points on a surface. The accuracy of the digital camera system is measured, using the Optotrak as a reference, and is less than ±2 mm for a 20 × 20 mm patch. Fiducials, which can be seen in both the ultrasound images and the camera images, are used for a consistency test producing values with a standard deviation under 3.2 mm.

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Current and potential methods to assess kidney structure and morphology in term and preterm neonates

Staub

2023

The Anatomical Record

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After birth, the kidney structure in neonates adapt to the functional demands of extrauterine life. Nephrogenesis is complete in the third trimester, but glomeruli, tubuli, and vasculature mature with the rapidly increasing renal blood flow and glomerular filtration. In preterm infants, nephrogenesis remains incomplete and maturation is slower and may be aberrant. This structural and functional deficit has life‐long consequences: preterm born individuals are at higher risk for chronic kidney disease and arterial hypertension later in life. This review assembles the literature on existing and potential methods to visualize neonatal kidney structure and morphology and explore their potential to longitudinally document the developmental deviation after preterm birth. X‐rays with and without contrast, fluoroscopy and computed tomography (CT) involve relevant ionizing radiation exposure and, apart from CT, do not provide sufficient structural details. Ultrasound has evolved into a safe and noninvasive high‐resolution imaging method which is excellent for longitudinal observations. Doppler ultrasound modes can characterize and quantify blood flow to and through the kidneys. Microvascular flow imaging has opened new possibilities of visualizing previously unseen vascular structures. Recent advances in magnetic resonance imaging display renal structure and function in unprecedented detail, but are offset by the logistical challenges of the imaging procedure and limited experience with the new techniques in neonates. Kidney biopsies visualize structure histologically, but are too invasive and remain anecdotal in newborns. All the explored methods have predominantly been examined in term newborns and require further research on longitudinal structural observation in the kidneys of preterm infants.

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Potential applications of three-dimensional ultrasound in the pediatric urinary tract: pictorial demonstration based on preliminary results

Cited by 53 publications

References 26 publications

Potential role of 3DUS in infants and children

Potential role of 3DUS in infants and children

Patient and Probe Tracking During Freehand Ultrasound

Current and potential methods to assess kidney structure and morphology in term and preterm neonates

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