Publications (53) View all
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Article: Laparoscopic adjustable gastric banding: what radiologists need to know.
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ABSTRACT: Laparoscopic adjustable gastric banding (LAGB) is performed with increasing frequency for the management of morbid obesity. Although LAGB is less invasive than other bariatric surgical procedures, it is associated with various complications that may lead to nonspecific abdominal symptoms several months or years after the procedure. Because complications of LAGB may be encountered incidentally at imaging for other indications, all radiologists should be familiar with the appearances of correctly positioned and malpositioned gastric bands, normal and abnormal appearances of the postprocedural pouch and stomach, and imaging features suggestive or indicative of early or delayed complications of LAGB. Familiarity with the techniques and systems currently approved by the Food and Drug Administration for use in this procedure may help radiologists detect postoperative complications and guide their management. Both commercially available systems include a silicone gastric band with an inflatable inner surface, a reservoir port, and a tube that connects the port to the gastric band. All these components of LAGB systems should be visible at radiologic imaging; however, older models of gastric bands may not be radiopaque and therefore may not be depicted on images. The most common complications of LAGB are gastric band slippage and associated pouch dilatation, intragastric erosion of the band, gastric perforation, and abscess formation. Complications that occur with less frequency include tube migration, tube disconnection, port-site infection, and small bowel obstruction.Radiographics 07/2012; 32(4):1161-78. · 2.85 Impact Factor -
Article: Flaps, slings, and other things: CT after reconstructive surgery--expected changes and detection of complications.
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ABSTRACT: OBJECTIVE: This article will discuss the typical CT appearance of myocutaneous surgically placed flaps as well as some frequently encountered complications of this surgery. We will discuss the appearance of relatively new, but increasingly encountered, nonnative materials used in reconstructive surgery, such as spacers, bulking agents, hemostatic agents, and other reconstructive materials. CONCLUSION: Oncologic surgery often requires reconstruction using myocutaneous flaps. Therefore, an understanding of the type of reconstruction performed is important for the accuracy of postoperative radiologic interpretation to recognize presence of a flap to avoid misdiagnosis of tumor recurrence.American Journal of Roentgenology 06/2012; 198(6):W521-33. · 2.78 Impact Factor -
Article: MR imaging techniques for pancreas.
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ABSTRACT: Pancreatic magnetic resonance (MR) imaging has become a useful tool in evaluating pancreatic disorders. Technical innovations in MR imaging have evolved over the last decade, with most sequences being performed in one or a few breath-holds. Three-dimensional sequences with thin, contiguous slices allow for improved spatial resolution on the postgadolinium images and MR cholangiopancreatography (MRCP). The diagnostic potential of MRCP is equivalent to endoscopic retrograde pancreatography, particularly when intravenous secretin is used to enhance the pancreatic duct assessment. This article highlights the advantages and disadvantages of state-of-the-art and emerging pulse sequences and their application to imaging pancreatic diseases.Radiologic Clinics of North America 05/2012; 50(3):379-93. · 2.59 Impact Factor -
Article: Urinary bladder cancer: role of MR imaging.
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ABSTRACT: Urinary bladder cancer is a heterogeneous disease with a variety of pathologic features, cytogenetic characteristics, and natural histories. It is the fourth most common cancer in males and the tenth most common cancer in females. Urinary bladder cancer has a high recurrence rate, necessitating long-term surveillance after initial therapy. Early detection is important, since up to 47% of bladder cancer-related deaths may have been avoided. Conventional computed tomography (CT) and magnetic resonance (MR) imaging are only moderately accurate in the diagnosis and local staging of bladder cancer, with cystoscopy and pathologic staging remaining the standards of reference. However, the role of newer MR imaging sequences (eg, diffusion-weighted imaging) in the diagnosis and local staging of bladder cancer is still evolving. Substantial advances in MR imaging technology have made multiparametric MR imaging a feasible and reasonably accurate technique for the local staging of bladder cancer to optimize treatment. In addition, whole-body CT is the primary imaging technique for the detection of metastases in bladder cancer patients, especially those with disease that invades muscle.Radiographics 03/2012; 32(2):371-87. · 2.85 Impact Factor -
Article: Peritoneal and retroperitoneal anatomy and its relevance for cross-sectional imaging.
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ABSTRACT: It is difficult to identify normal peritoneal folds and ligaments at imaging. However, infectious, inflammatory, neoplastic, and traumatic processes frequently involve the peritoneal cavity and its reflections; thus, it is important to identify the affected peritoneal ligaments and spaces. Knowledge of these structures is important for accurate reporting and helps elucidate the sites of involvement to the surgeon. The potential peritoneal spaces; the peritoneal reflections that form the peritoneal ligaments, mesenteries, and omenta; and the natural flow of peritoneal fluid determine the route of spread of intraperitoneal fluid and disease processes within the abdominal cavity. The peritoneal ligaments, mesenteries, and omenta also serve as boundaries for disease processes and as conduits for the spread of disease.Radiographics 03/2012; 32(2):437-51. · 2.85 Impact Factor
