Juan A. Clavero scite author profile

Magnetic resonance (MR) imaging can provide important information for diagnosis and evaluation of soft-tissue trauma in the fingers. An optimal imaging technique should include proper positioning, dedicated surface coils, and specific protocols for the suspected abnormalities. Familiarity with the fine anatomy of the normal finger is crucial for identifying pathologic entities. MR imaging is a powerful method for evaluating acute and chronic lesions of the stabilizing articular elements (volar plate and collateral ligaments) of the fingers and thumbs, particularly in the frequently affected proximal interphalangeal and metacarpophalangeal joints. As in other body regions, MR imaging is also useful for depicting traumatic conditions of the extensor and flexor tendons, including injuries to the pulley system. In general, normal ligaments and tendons have low signal intensity on MR images, whereas disruption manifests as increased signal intensity. Radiologists need to understand the full spectrum of finger abnormalities and associated MR imaging findings.

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Preoperative Computed Tomographic Angiogram for Deep Inferior Epigastric Artery Perforator Flap Breast Reconstruction

Masià

Kosutic

Clavero³

et al. 2009

J reconstr Microsurg

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Precision in preoperative evaluation of the abdominal wall vascular anatomy is of utmost importance in successful planning and execution of perforator flap surgery for breast reconstruction after mastectomy. We performed a study in 357 patients scheduled for deep inferior epigastric artery perforator (DIEAP) flap breast reconstruction to review our 5-year experience with the technique we developed based on our previous research confirming accuracy of a computed tomographic (CT) angiogram (multidetector row computed tomography [MDCT]) in preoperative planning of abdominal perforator flap surgery. Images obtained from the radiological study were used to create an accurate map of dominant abdominal perforators of the deep inferior epigastric artery, showing their location, size, and anatomic considerations of relevance for the preoperative flap design. Anatomic dissection of all perforators was performed in the first 36 cases to compare the data with preoperative MDCT findings. In the following 321 patients, the dominant perforator was chosen solely on the basis of MDCT and dissected directly. Exact correlation between surgical and radiological results was found in the first 36 cases. A significant reduction in average operating time and postoperative complications was noted in the following 321 patients. CT angiogram provides important preoperative information on inferior abdominal wall vascular anatomy, facilitating DIEAP flap harvest, saving operative time, and reducing complications and costs. It proved to be an invaluable tool in the preoperative algorithm for DIEAP flap breast reconstruction.

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The Value of the Multidetector Row Computed Tomography for the Preoperative Planning of Deep Inferior Epigastric Artery Perforator Flap

Masià

Larrañaga²,

Clavero³

et al. 2008

107

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A preoperative abdominal wall study was conducted using a multidetector scanner in 162 women who had undergone breast reconstruction with abdominal perforator flaps. A map of the abdominal perforator vessels dependent on the deep inferior epigastric artery was created. In the first 36 cases, anatomic dissection of all perforators was performed during surgery. The outcome was then compared with the radiologic findings. In the following 126 cases, the perforator vessel chosen preoperatively by the multidetector scanner was located and dissected directly. In the first 36 cases, an absolute correlation was observed between the radiologic information and intraoperative findings. In the following 126 cases, surgery time and the rate of postoperative complications decreased significantly. The multidetector scanner provides valuable preoperative information enabling identification of the most suitable perforator in view of its caliber, location, course, and anatomic relationships. Once located, we can proceed directly to its dissection during surgery, making it a faster and safer technique.

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Extensor Mechanism of the Fingers: MR Imaging–Anatomic Correlation

Clavero¹,

Golanó²,

Fariñas³

et al. 2003

RadioGraphics

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Extension of the fingers is a complex function carried out by simultaneous action of extrinsic and intrinsic muscles, as well as retinacular structures in the dorsum of the wrist, hand, and fingers that support and coordinate the action of the muscles. The extensor mechanism of the fingers is divided into topographic zones, which extend from the forearm to the distal phalanx. Magnetic resonance (MR) imaging shows in detail the musculotendinous and retinacular structures of the extensor apparatus. In the different extensor zones, MR imaging findings are similar to those seen macroscopically in anatomic sections. Understanding of and familiarity with the extensor anatomy of the hand and fingers by the radiologist is crucial for better assessment of pathologic conditions with MR imaging and optimization of this modality as a diagnostic tool. Extensor tendon injuries and tenosynovitis represent clinical situations in which knowledge of this anatomy is useful for the clinical radiologist.

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Juan A. Clavero

Multidetector-row computed tomography in the planning of abdominal perforator flaps

MR Imaging of Ligament and Tendon Injuries of the Fingers

Preoperative Computed Tomographic Angiogram for Deep Inferior Epigastric Artery Perforator Flap Breast Reconstruction

The Value of the Multidetector Row Computed Tomography for the Preoperative Planning of Deep Inferior Epigastric Artery Perforator Flap

Extensor Mechanism of the Fingers: MR Imaging–Anatomic Correlation

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