William E. Shiels

Focused abdominal sonography for trauma (FAST) in children with blunt abdominal trauma

BACKGROUND Focused abdominal sonography for trauma (FAST) has been well reported in adults, but its applicability in children is less well established. We decided to test the hypothesis that FAST and computed tomography (CT) are equivalent imaging studies in the setting of pediatric blunt abdominal trauma. METHODS One hundred seven hemodynamically stable children undergoing CT for blunt abdominal trauma were prospectively investigated using FAST. The ability of FAST to predict injury by detecting free intraperitoneal fluid was compared with CT as the imaging standard. RESULTS Thirty-two patients had CT documented injuries. There were no late injuries missed by CT. FAST detected free fluid in 12 patients. Ten patients had solid organ injury but no free fluid and, thus, were not detected by FAST. The sensitivity of FAST relative to CT was only 0.55 and the negative predictive value was only 0.50. CONCLUSION FAST has insufficient sensitivity and negative predictive value to be used as a screening imaging test in hemodynamically stable children with blunt abdominal trauma.

Percutaneous treatment of lymphatic malformations.

OBJECTIVE: The aim of this study is to investigate a new treatment regimen for macrocystic and microcystic lymphatic malformations (LM) of the head and neck. STUDY DESIGN: The study represents a retrospective review of outcomes from new percutaneous treatments for lymphatic malformations. SUBJECTS AND METHODS: Thirty-one patients (age range, 2 days to 51 years of age) underwent percutaneous treatment for LM of the head and neck from 2001 to 2007. The LM involved the orbit, ear, parotid gland, face, and neck. Twenty-seven patients underwent primary treatment of LM; 4 were treated for recurrence after operative resection. Macrocysts ≥1 cm) were treated with dual-drug chemoablation (sequential intracystic sodium tetradecyl sulfate and ethanol); doxycycline was used for microcysts. Macrocysts and microcysts were treated after complete cyst aspiration with sonographic guidance. Fifty-four macrocysts and 125 microcysts were treated. The goal of treatment was complete cyst ablation documented by sonography or MR imaging. RESULTS: Mean number of treatments was 1.7 per patient; mean number of treatments for macrocysts was 1.1; mean treatments for microcysts was 1.7. Ablation efficacy was 179 of 179 (100%) cysts. Effective cyst ablation achieved effective clinical control with resolution of the external mass appearance. Treatments included massive head and neck mixed LM and cysts surrounding the facial nerve and brachial plexus. Infection occurred in 2 (6%) of 31 patients. No patient experienced postprocedural pain, skin necrosis, neuropathy, skin retraction, or myoglobinuria. CONCLUSION: Percutaneous sclerotherapy provides effective treatment for macrocystic and microcystic LM as primary treatment or for recurrence after surgical resection.

Diagnostic and interventional ultrasonography in neonatal and infant lumbar puncture.

Background. Lumbar puncture (LP) may be unsuccessful clinically, prompting image-guided LP by radiologists. Objective. To investigate the utility of ultrasound (US) in diagnosing the cause of failed LP and in guiding LP. Materials and methods. Neonates and infants referred for image-guided LP underwent spine US of the thecal sac. When indicated, image-guided LP was performed. Results. Forty-seven evaluations and interventions were performed in 32 patients. All patients were initially evaluated after failed blind LP attempts. Twenty-three of the initial US studies showed intrathecal and/or epidural echogenic hematoma, which obliterated the CSF space; 5 showed minimal fluid, and 4 had normal examinations. LP was deferred or cancelled in 14 cases based upon initial US findings. Image-guided LP was performed 32 times in 19 patients. US guidance was used in 26, fluoroscopy in 3, and fluoroscopy with US assistance in 3. Using US, LP was performed in 9 patients with no visible CSF: 2 samples were sufficient for culture only. Six patients had minimal CSF US: 4 provided usable CSF samples. Clear CSF space was seen in 11: all had successful LP. Conclusions. US can disclose the cause of failed LP, can help determine whether or not to intervene further, and can provide guidance for LP.

Definitive percutaneous treatment of lymphatic malformations of the trunk and extremities.

PURPOSE The aim of this study is to investigate a new treatment regimen for macrocystic and microcystic lymphatic malformations (LMs) of the trunk and extremities. METHODS Sixteen patients (aged 2 months-22 years) underwent percutaneous treatment for LM of the trunk and extremities from 2002 to 2007. The LM involved the arm, leg, axilla, chest, abdomen, scrotum, and penis. Eleven patients underwent primary treatment of LM; 5 were treated for recurrence after prior operative resection. Macrocysts (>or=1 cm) were treated with dual-drug chemoablation (sequential intracystic sodium tetradecyl sulfate and ethanol); doxycycline was used for microcysts. Macrocysts and microcysts were treated after complete cyst aspiration using sonographic guidance. Twenty-four macrocysts and 103 microcysts were treated. The goal of treatment was complete cyst ablation documented by sonography or magnetic resonance imaging. RESULTS The mean number of treatments was 1.7 per patient; the mean number of treatments for macrocysts was 1.3 and for microcysts was 1.7. Ablation efficacy was 100% (127/127 cysts). Treatments included massive intraperitoneal cysts and cysts surrounding the adventitia of the brachial artery and brachial nerve. Infection occurred in 2 (13%) of 16 patients. No patient experienced postprocedural pain, skin necrosis, neuropathy, bowel obstruction, skin retraction, or myoglobinuria. CONCLUSIONS Percutaneous sclerotherapy provides effective treatment for macrocystic and microcystic LM as primary treatment or for recurrence after surgical resection.

Ultrasound-guided corticosteroid injection therapy for juvenile idiopathic arthritis: 12-year care experience

BackgroundIntra-articular corticosteroid injections are a safe and effective treatment for patients with juvenile idiopathic arthritis. The potential scope of care in ultrasound-guided corticosteroid therapy in children and a joint-based corticosteroid dose protocol designed to optimize interdisciplinary care are not found in the current literature.ObjectiveThe purpose of this study was to report the spectrum of care, technique and safety of ultrasound-guided corticosteroid injection therapy in patients with juvenile idiopathic arthritis and to propose an age-weight-joint-based corticosteroid dose protocol.Materials and methodsA retrospective analysis was performed of 198 patients (ages 21 months to 28 years) referred for treatment of juvenile idiopathic arthritis with corticosteroid therapy. Symptomatic joints and tendon sheaths were treated as prescribed by the referring rheumatologist. An age-weight-joint-based dose protocol was developed and utilized for corticosteroid dose prescription.ResultsA total of 1,444 corticosteroid injections (1,340 joints, 104 tendon sheaths) were performed under US guidance. Injection sites included small, medium and large appendicular skeletal joints (upper extremity 497, lower extremity 837) and six temporomandibular joints. For patients with recurrent symptoms, 414 repeat injections were performed, with an average time interval of 17.7 months (range, 0.5–101.5 months) between injections. Complications occurred in 2.6% of injections and included subcutaneous tissue atrophy, skin hypopigmentation, erythema and pruritis.ConclusionUS-guided corticosteroid injection therapy provides dynamic, precise and safe treatment of a broad spectrum of joints and tendon sheaths throughout the entire pediatric musculoskeletal system. An age-weight-joint-based corticosteroid dose protocol is effective and integral to interdisciplinary care of patients with juvenile idiopathic arthritis.

Self-embedding Behavior: Radiologic Management of Self-inserted Soft-Tissue Foreign Bodies

PURPOSE To report on a series of self-embedding behavior (SEB), demonstrate the effectiveness and clinical effect of image-guided foreign body removal (IGFBR) in the treatment of embedded soft-tissue foreign bodies (STFBs), and evaluate the role of the radiologist in the clinical management of SEB. MATERIALS AND METHODS This retrospective study was approved by the institutional review board. From a database of 600 patients treated with IGFBR with ultrasonographic (US) and/or fluoroscopic guidance, self-injury was identified in 11 (1.8%) mainly adolescent patients with a mean age of 16 years (age range, 14-18 years). Evaluated data included number of foreign bodies; number of repeat episodes of foreign body insertion; location, type, and size of foreign body; incision size; imaging modality; and success or failure of foreign body removal. RESULTS Seventy-six foreign bodies were inserted into the arm (n = 69), neck (n = 4), ankle (n = 1), foot (n = 1), or hand (n = 1) in the 11 patients. The number of STFBs per case ranged from one to 15. Foreign body types included metal (n = 40), plastic (n = 15), graphite (n = 12), glass (n = 4), wood (n = 3), crayon (n = 1), and stone (n = 1). STFB dimensions were 2.5-160.0 mm in length by 0.25-3.0 mm in thickness. Sixty-eight of the 76 STFBs were removed in the interventional radiology section. Incision lengths ranged from 4 to 8 mm (mean, 6 mm). The STFBs were removed with US guidance (n = 43), fluoroscopic guidance (n = 15), or a combination of the two modalities (n = 10). IGFBR was successful in all 68 cases, without complications. CONCLUSION Greater awareness of SEB may result in radiologists being the first physicians to identify SEB and rapidly mobilize an interdisciplinary team for early and effective intervention and treatment. Percutaneous radiologic treatment of self-imbedded STFBs is safe, precise, and effective for radiopaque and nonradiopaque foreign bodies.

Diagnostic and interventional ultrasound of the pediatric spine.

Abstract. Ultrasound is useful as a diagnostic tool in the evaluation of the pediatric spine, and can also help guide procedures in the interventional radiology suite or the operating room. This pictorial exhibit will display examples of diagnostic and interventional uses of ultrasound with respect to the pediatric spine.

Catheter-Based Drainage and Agitation for Definitive Cytological Diagnosis of a Ciliated Hepatic Foregut Cyst in a Child

Ciliated hepatic foregut cyst (CHFC) is an uncommon lesion, which rarely presents in the pediatric population. It is congenital in origin and manifests because of the migration of a bronchiolar bud of the foregut through the pleuroperitoneal canal. CHFC is accompanied by a broad list of differential diagnoses and is difficult to diagnose by means of radiologic evaluation. Therefore, fine-needle aspiration with cytology has been used in an attempt to diagnose this lesion. In previously reported cases, this approach has been moderately successful in the diagnosis of CHFC, while in others, no definitive diagnosis was achieved because of the retrieval of scattered, irregular cells insufficient for cytologic evaluation. We report a case of a 16-year-old girl who presented with a CHFC and discuss a promising alternative for obtaining large, intact cellular specimens to facilitate cytologic evaluation and definitive diagnosis.

Percutaneous Transcervical Thoracic Duct Embolization for Treatment of a Cervical Lymphocele Following Anterior Spinal Fusion: A Case Report

Thoracic duct injury is an uncommon complication of neck dissection and cervical spinal surgery that is associated with significant morbidity. The authors describe an unusual case of thoracic duct injury during anterior spinal fusion resulting in a large prevertebral lymphocele presenting with dysphagia, respiratory distress, and chyloptysis. Surgical closure of the lymphocele was unsuccessful, and percutaneous drainage and sclerotherapy was performed. A large thoracic duct branch communicating with the lymphocele became evident during sclerotherapy, and embolization of the duct was performed via a percutaneous transcervical approach. Symptoms immediately resolved, and the patient remained asymptomatic at 6-month follow-up.

Pediatric teleradiology outsourcing: downside considerations.

This discussion is about teleradiology as a means of outsourcing evening and night radiological interpretations and is offered from the perspectives of both radiology departmental and hospital administrative leadership. To be objective and realistic, outsourcing of radiological patient care to third-party radiologists might be a critical strategic decision for small hospitals that lack sufficient specialty and subspecialty expertise to accomplish the enterprise radiology mission, either at night, weekends, or during daylight hours. Other authors have undertaken excellent discussions of the value of teleradiology and professional issues involved with teleradiology [1–8]. In this discussion, I will focus on risk considerations of teleradiology outsourcing in moderateto large-size radiology departments. As such, the assumptions of this discussion include first the fact that teleradiology outsourcing for night and weekend coverage is an increasingly common practice in radiology departments, as an important lifestyle element for radiology practice groups. Second, given the option without consequence, most physicians would rather only work weekday hours. Last, the reality exists that group practice decisions affect others and are scrutinized by others, and that this scrutiny can have a long-term impact on a group. The focus of this discussion lies in the consequences of such decisions, with the potential for long-term negative outcomes, both for the individual and for a practice. The decision for teleradiology outsourcing involves numerous stakeholders: the radiologists, hospital administrators, hospital boards of trustees, and clinical physician specialists. There are five main issues: