Salivary Gland Pathology. Группа авторов

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Название Salivary Gland Pathology
Автор произведения Группа авторов
Жанр Медицина
Серия
Издательство Медицина
Год выпуска 0
isbn 9781119730224



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the major and minor salivary glands (Golder and Stiller 2014). During the early phase of this syndrome, when imaged, these glands appear unremarkable but as Sjögren syndrome progresses, the salivary glands diffusely enlarge, mimicking chronic sialadenitis. Imaging of the salivary glands during this later time will demonstrate tiny discrete collections of contrast within the parenchyma of the salivary gland without interconnecting ducts. Advanced imaging techniques such as ultrasound, MRI, and CT have attempted to demonstrate these findings, but ultimately conventional sialography has proven to be the technique of choice for definitive imaging of patients afflicted with Sjögren syndrome.

Photo depicts parotid sialogram. Photo depicts parotid sialo-CT.

      Digital subtraction sialography utilizes the images obtained from conventional sialography and masks out the underlying osseous structures by means of computer revision to better visualize the duct system. This type of examination is more time consuming and can be quite difficult to interpret except by very experienced radiographers. In addition, this technique is considerably more expensive than conventional sialography and often without significant clinical benefit.

      CT sialography allows better visualization of gland parenchyma and is widely available in many larger medical centers. In this method, contrast medium is injected into the primary duct followed by a CT exam. Contemporary multi‐detector computed tomography allows reconstruction or reformatting of the original axial CT image into images representing many orthogonal planes. The major disadvantage of this method is one cannot visualize the dynamic duct filling and thus inadvertent overpressure may cause duct damage or rupture. In addition, it is very difficult to distinguish duct stenosis from anatomic variances of the normal duct system.

      MR sialography (MRSIAL) appears to delineate the salivary ductal system as well as conventional sialography without the need of duct catheterization and subsequent contrast administration. Fluid‐sensitive MR sequences now obviate this clinical need. MR can detect obstructions, stenosis, and strictures of the primary, secondary, and often tertiary ducts as well as conventional sialography. In addition, advances in 3D MRI will allow the production of virtual endoscopic views from available MR data. This noninvasive procedure does not depend on operator skill for definitive imaging. By using a heavily T2 weighted sequence, hyperintense saliva is visualized within the ductal system. This salivary flow functions much as does contrast during the conventional sialogram, thus allowing the detection of morphologic ductal alterations as well as parenchymal changes. Such studies have been shown to be helpful in not only obstructive salivary gland disease but also parenchymal diseases such as Sjögren syndrome (SS) (Andre’ et al. 2021). It has been recently shown that MRSIAL is more sensitive in the detection of SS, than ultrasound (US). This technique also produces less false negatives than other imaging modalities. The major disadvantages of MRSIAL appear to be the much higher cost of both the equipment needed for the exam and the professional cost of the imaging exam itself.

      Salivary gland tumors are relatively rare, yet they encompass a wide range of benign and malignant diagnoses. Even though most of the primary tumors are epithelial in origin, the histology is often very diverse and complicated. Such diversity presents a diagnostic challenge to most contemporary pathologists.

      To ensure proper surgical/medical intervention, a definitive diagnosis of parotid and other salivary gland masses is essential (Haldar et al. 2016). The primary techniques involved in such undertakings include (i) preoperative needle biopsy, both fine needle or core needle; (ii) intraoperative frozen section; and (iii) open biopsy or definitive excision. Clinicians have various imaging techniques that can be employed in conjunction with these invasive diagnostic procedures.

      A surgical open biopsy has historically been used for obtaining biopsy tissue and providing a microscopic diagnosis of salivary gland neoplasia. In the early and mid‐1980s, incisional biopsy of salivary gland tumors fell out of favor due to several factors including tumor seeding of the adjacent soft tissues, transient or permanent nerve damage of the facial nerve, and sialocele formation.

      Radionuclide imaging (RNI) has, throughout its history, been a functional imaging modality without the quality of anatomic depiction when compared with CT, MRI, or even US. Most radionuclide imaging has been performed with planar imaging systems, which produce single view images of functional processes. All RNI exams employ a radioactive tracer either bound to a ligand (radiopharmaceutical) or injected directly (radionuclide). As the radionuclide undergoes radioactive decay, it emits either a gamma ray (photon), and/or a particle such as an alpha particle (helium nucleus), beta particle (electron), or a positron (a positively charged electron). Gamma rays differ from X‐rays in that, gamma rays (for medical imaging) are an inherent nuclear event and are emitted from the nucleus of an