Laura M. Fayad scite author profile

Heterotopic ossification (HO) is a diverse pathologic process, defined as the formation of extraskeletal bone in muscle and soft tissues. HO can be conceptualized as a tissue repair process gone awry and is a common complication of trauma and surgery. This comprehensive review seeks to synthesize the clinical, pathoetiologic, and basic biologic features of HO, including nongenetic and genetic forms. First, the clinical features, radiographic appearance, histopathologic diagnosis, and current methods of treatment are discussed. Next, current concepts regarding the mechanistic bases for HO are discussed, including the putative cell types responsible for HO formation, the inflammatory milieu and other prerequisite “niche” factors for HO initiation and propagation, and currently available animal models for the study of HO of this common and potentially devastating condition. © 2019 The Authors. JBMR Plus published by Wiley Periodicals, Inc. on behalf of American Society for Bone and Mineral Research.

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Musculoskeletal Tumors: How to Use Anatomic, Functional, and Metabolic MR Techniques

Fayad

Jacobs²,

et al. 2012

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Conventional and Functional MR Imaging of Peripheral Nerve Sheath Tumors: Initial Experience

Demehri¹,

Belzberg

Blakeley

et al. 2014

American Journal of Neuroradiology

116

109

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BACKGROUND AND PURPOSE Differentiating benign from malignant peripheral nerve sheath tumors can be very challenging using conventional MR imaging. Our aim was to test the hypothesis that conventional and functional MR imaging can accurately diagnose malignancy in patients with indeterminate peripheral nerve sheath tumors. MATERIALS AND METHODS This institutional review board–approved, Health Insurance Portability and Accountability Act–compliant study retrospectively reviewed 61 consecutive patients with 80 indeterminate peripheral nerve sheath tumors. Of these, 31 histologically proved peripheral nerve sheath tumors imaged with conventional (unenhanced T1, fluid-sensitive, contrast-enhanced T1-weighted sequences) and functional MR imaging (DWI/apparent diffusion coefficient mapping, dynamic contrast-enhanced MR imaging) were included. Two observers independently assessed anatomic (size, morphology, signal) and functional (ADC values, early arterial enhancement by dynamic contrast-enhanced MR) features to determine interobserver agreement. The accuracy of MR imaging for differentiating malignant from benign was also determined by receiver operating characteristic analysis. RESULTS Of 31 peripheral nerve sheath tumors, there were 9 malignant (9%) and 22 benign ones (81%). With anatomic sequences, average tumor diameter (6.3 ± 1.8 versus 3.9 ± 2.3 mm, P = .009), ill-defined/infiltrative margins (77% versus 32%; P = .04), and the presence of peritumoral edema (66% versus 23%, P = .01) were different for malignant peripheral nerve sheath tumors and benign peripheral nerve sheath tumors. With functional sequences, minimum ADC (0.47 ± 0.32 × 10−3 mm2/s versus 1.08 ± 0.26 × 10−3 mm2/s; P [H11021] .0001) and the presence of early arterial enhancement (50% versus 11%; P = .03) were different for malignant peripheral nerve sheath tumors and benign peripheral nerve sheath tumors. The minimum ADC (area under receiver operating characteristic curve was 0.89; 95% confidence interval, 0.73– 0.97) and the average tumor diameter (area under the curve = 0.8; 95% CI, 0.66 – 0.94) were accurate in differentiating malignant peripheral nerve sheath tumors from benign peripheral nerve sheath tumors. With threshold values for minimum ADC ≤ 1.0 × 10−3 mm2/s and an average diameter of ≥4.2 cm, malignancy could be diagnosed with 100% sensitivity (95% CI, 66.4%–100%). CONCLUSIONS Average tumor diameter and minimum ADC values are potentially important parameters that may be used to distinguish malignant peripheral nerve sheath tumors from benign peripheral nerve sheath tumors.

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Musculoskeletal Infection: Role of CT in the Emergency Department

Fayad

Carrino²,

Fishman³

2007

RadioGraphics

179

103

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Musculoskeletal infection is commonly encountered in the emergency department and can take many forms, depending on the involvement of the various soft-tissue layers, bones, and joints. Infection may manifest as superficial cellulitis, necrotizing or nonnecrotizing fasciitis, myositis, a soft-tissue abscess, osteomyelitis, or septic arthritis. Because clinical parameters for the detection of musculoskeletal infection generally lack sensitivity and specificity, computed tomography (CT) plays an important role in the assessment of potential musculoskeletal infections in the emergency department. CT provides an analysis of compartmental anatomy, thereby helping to distinguish among the various types of musculoskeletal infection and to guide treatment options. Specific imaging features exist that help identify the numerous forms of infection in the bones and soft tissues, and CT is invaluable for detecting deep complications of cellulitis and pinpointing the anatomic compartment that is involved by an infection. Although all patients with musculoskeletal infection will require treatment with antibiotics, CT helps guide therapy toward emergency surgical débridement in cases of necrotizing fasciitis and toward percutaneous drainage in cases of abscess formation.

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Detection of Soft-Tissue Sarcoma Recurrence: Added Value of Functional MR Imaging Techniques at 3.0 T

Grande¹,

Subhawong²,

Weber³

et al. 2014

Radiology

121

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Laura M. Fayad

Heterotopic Ossification: A Comprehensive Review

Musculoskeletal Tumors: How to Use Anatomic, Functional, and Metabolic MR Techniques

Conventional and Functional MR Imaging of Peripheral Nerve Sheath Tumors: Initial Experience

Musculoskeletal Infection: Role of CT in the Emergency Department

Detection of Soft-Tissue Sarcoma Recurrence: Added Value of Functional MR Imaging Techniques at 3.0 T

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