S. Ulmer

Spinal cord infarction

Infarction of the spinal cord can cause a variety of symptoms and neurological deficits because of the complex vascular supply of the myelon. The most common leading symptom is distal paresis ranging from paraparesis to tetraplegia caused by arterial ischemia or infarction of the myelon. Venous infarction, however, cannot always be distinguished from arterial infarction based on the symptoms alone.Modern imaging techniques, such as computed tomography angiography (CTA) and magnetic resonance angiography (MRA) assist in preoperative planning of aortic operations to reliably identify not only the most important vascular structure supplying the spinal cord, the artery of Adamkiewicz, but also other pathologies such as tumors or infectious disorders. In contrast to CT, MRI can reliably depict infarction of the spinal cord.

Postoperative Befunde an der Wirbelsäule

ZusammenfassungDie postoperative Bildgebung wird klassischerweise herangezogen zur Dokumentation der korrekten Implantatlage oder um Komplikationen auszuschließen, wenn der Patient postoperativ weiterhin Beschwerden angibt. In Abhängigkeit von der Fragestellung können verschiedene Modalitäten verwendet werden – alle mit Vor- und Nachteilen.Die konventionelle Röntgenuntersuchung wird zur Dokumentation der Implantatlage, Beurteilung der Stabilität oder im Follow-up zur Frage der Instabilität oder einer Implantatfraktur verwendet, wogegen Weichteilveränderungen nicht komplett beurteilt werden können. Neben diesen Indikationen wird eine Bildgebung bei persistierenden Beschwerden (meist Schmerzen) des Patienten veranlasst. Residuelles oder rezidiviertes Bandscheibengewebe, ein Hämatom oder eine Entzündung können am besten mit der MRT beurteilt werden. Die MRT sollte unmittelbar postoperativ durchgeführt werden, um eine physiologische Granulation im Zugangsgebiet von entzündlichen Veränderungen unterscheiden zu können. Oft kann die Bildgebung allein dies nicht unterscheiden, daher ist die Bildgebung nur ein weiteres Puzzelstück. Die Computertomographie ist die Modalität der Wahl zur Beurteilung von Knochen und eine Ergänzung bei neuen Verfahren wie der bildgestützten Kypho- oder Vertebroplastie.AbstractPostoperative imaging after spinal surgery is usually performed to document the correct positioning of implants or to rule out complications if patients still suffer from pain after surgery. Depending on the question various imaging modalities can be used all of which have benefits and limitations.Conventional X-ray is used for the documentation of the correct positioning of spinal implants, stability (olisthesis) and during follow-up to rule out fractures or instability of the implants, whereas soft tissue changes cannot be completely assessed. Besides these indications, imaging is usually performed because of ongoing symptoms (pain for the most part) of the patients. Soft tissue changes including persistent or recurrent herniated disc tissue, hematoma or infection can best be depicted using magnetic resonance imaging (MRI) which should be performed within the immediate postoperative period to be able to distinguish physiological development of scar tissue from inflammatory changes in the area of the surgical approach. Often imaging alone cannot differentiate between these and imaging can therefore only be considered as an adjunct. Computed tomography is the modality of choice for the evaluation of bony structures and an adjunct of new therapies such as image-guided application of cement for kyphoplasty or vertebroplasty.Postoperative imaging after spinal surgery is usually performed to document the correct positioning of implants or to rule out complications if patients still suffer from pain after surgery. Depending on the question various imaging modalities can be used all of which have benefits and limitations. Conventional X-ray is used for the documentation of the correct positioning of spinal implants, stability (olisthesis) and during follow-up to rule out fractures or instability of the implants, whereas soft tissue changes cannot be completely assessed. Besides these indications, imaging is usually performed because of ongoing symptoms (pain for the most part) of the patients. Soft tissue changes including persistent or recurrent herniated disc tissue, hematoma or infection can best be depicted using magnetic resonance imaging (MRI) which should be performed within the immediate postoperative period to be able to distinguish physiological development of scar tissue from inflammatory changes in the area of the surgical approach. Often imaging alone cannot differentiate between these and imaging can therefore only be considered as an adjunct. Computed tomography is the modality of choice for the evaluation of bony structures and an adjunct of new therapies such as image-guided application of cement for kyphoplasty or vertebroplasty.

Entzündliche Erkrankungen der Wirbelsäule und des Myelons

Inflammatory diseases of the spine and the spinal cord (myelon) can be caused by a wide range of pathological conditions. Except for degenerative inflammatory diseases of the spine, infectious and autoimmune disorders are relatively rare. The latter can also be a significant source of pain and disability, especially if these hard to diagnose conditions go untreated. In cases of advanced disease some entities, such as spondylodiscitis or rheumatoid arthritis can cause severe neurological impairment especially by progressive intraspinal spread. Inflammation of the myelon cannot be depicted with conventional radiographs in general and by computed tomography only occasionally. In these cases magnetic resonance imaging is the method of choice to detect early abnormalities of the myelon and to provide detailed information for the differential diagnosis.

Inflammatory diseases of the spinal column and the myelon

Inflammatory diseases of the spine and the spinal cord (myelon) can be caused by a wide range of pathological conditions. Except for degenerative inflammatory diseases of the spine, infectious and autoimmune disorders are relatively rare. The latter can also be a significant source of pain and disability, especially if these hard to diagnose conditions go untreated. In cases of advanced disease some entities, such as spondylodiscitis or rheumatoid arthritis can cause severe neurological impairment especially by progressive intraspinal spread. Inflammation of the myelon cannot be depicted with conventional radiographs in general and by computed tomography only occasionally. In these cases magnetic resonance imaging is the method of choice to detect early abnormalities of the myelon and to provide detailed information for the differential diagnosis.

Intrakranielle zystische Läsionen

CLINICAL PROBLEM Intracerebral cysts are common findings in imaging of the neurocranium and are not always clinically significant. The pathological spectrum of intracerebral cysts is, however, very broad and in addition to incidental findings includes developmental disorders, malformation tumors, primary and secondary neoplasms and infectious etiologies, such as cerebral abscess formation, cysticercosis or residuals after congenital cytomegalovirus infections. Intracerebral cystic defects may be caused by inflammatory central nervous system (CNS) diseases, such as multiple sclerosis as well as by mitochondriopathies, leukodystrophy, electrolyte disturbances or osmotic demyelination syndrome or brain infarctions, e.g. after lacunar infarctions or as encephalomalacic changes after severe traumatic brain injury. RADIOLOGICAL STANDARD PROCEDURES In addition to the radiological findings of cysts in magnetic resonance imaging (MRI) or in computed tomography (CT), the localization, patient age, patient medical history and laboratory diagnostics are helpful for the differential diagnostics. METHODICAL INNOVATION In addition to the morphological assessment, advanced MRI techniques, such as diffusion-weighted imaging for epidermoids or the use of MR spectroscopy, can provide valuable information for the differential diagnosis. PERFORMANCE/ASSESSMENT Intracranial cysts can be subdivided into intraventricular and periventricular cysts, intra-axial cysts and cysts in the external fluid-filled spaces. Associated tumor nodules and the contrast medium behavior of the cyst walls and/or associated soft tissue components as well as the reaction of the adjacent parenchyma are helpful for the diagnosis and assessment.

Typical tumors of the petrous bone

ZusammenfassungIn der Region des Felsenbein, inneren Gehörkanals und Kleinhirnbrückenwinkels findet sich eine Vielzahl an unterschiedlichen Gewebearten inklusive knöchernes, epitheliales, nervales und vaskuläres Gewebe. Tumoren oder tumorähnliche Läsionen, ossäre oder vaskuläre Pathologien können entsprechend dort gefunden werden. Wir diskutieren verschiedene Tumoren oder tumorähnliche Pathologien inklusive angeborene Läsionen wie Muko- und Meningozelen, entzündliche Veränderungen wie die Osteomyelitis, Pseudotumoren, die Wegener-Granulomatose, nichtneoplastische Tumoren wie das Epidermoid, Cholesteatom oder Cholesterolgranulom und gutartige neoplastische Tumoren wie das am häufigsten zu findende Vestibularisschwannom, das Paragangliom und das Meningeom, Gefäßprozesse/-pathologien und schließlich maligne Läsionen wie Metastasen, Chordome oder Chondrosarkome und den Tumor des endolymphatischen Sacks („endolymphatic sac tumor“, ELST) mit Fokus auf ihre Darstellung in der CT und mehr noch der MRT, geben charakteristische klinische Informationen, zeigen typische Bilder und diskutieren Möglichkeiten, die einzelnen Pathologien zu unterscheiden.AbstractIn the region of the petrous bone, inner acoustic canal and cerebellopontine angle, a variety of different tissues can be found, such as bony, epithelial, neural and vascular structures. Tumorous or tumor-like lesions, vascular or bony malformations or other pathologies can therefore be found in all of these areas. We discuss various frequently occurring tumorous or tumor-like pathologies including congential lesions, such as mucoceles, inflammatory disorders including osteomyelitis, pseudotumors and Wegener’s granulomatosis. Benign non-neoplastic lesions, such as cholesteatoma, cholesterol granuloma, epidermoid and benign neoplastic tumors, such as the most commonly found vestibular schwannoma, meningeoma, paraganglioma, vascular pathologies and finally malignant lesions, such as metastasis, chordoma or chondrosarcoma and endolymphatic sac tumor (ELST) are also discussed. The emphasis of this article is on the appearance of these entities in computed tomography (CT) and more so magnetic resonance imaging (MRI), it provides key facts and typical images and discusses possibilities how to distinguish these pathologies.In the region of the petrous bone, inner acoustic canal and cerebellopontine angle, a variety of different tissues can be found, such as bony, epithelial, neural and vascular structures. Tumorous or tumor-like lesions, vascular or bony malformations or other pathologies can therefore be found in all of these areas. We discuss various frequently occurring tumorous or tumor-like pathologies including congential lesions, such as mucoceles, inflammatory disorders including osteomyelitis, pseudotumors and Wegeners granulomatosis. Benign non-neoplastic lesions, such as cholesteatoma, cholesterol granuloma, epidermoid and benign neoplastic tumors, such as the most commonly found vestibular schwannoma, meningeoma, paraganglioma, vascular pathologies and finally malignant lesions, such as metastasis, chordoma or chondrosarcoma and endolymphatic sac tumor (ELST) are also discussed. The emphasis of this article is on the appearance of these entities in computed tomography (CT) and more so magnetic resonance imaging (MRI), it provides key facts and typical images and discusses possibilities how to distinguish these pathologies.

Typische Tumoren des Felsenbeins

ZusammenfassungIn der Region des Felsenbein, inneren Gehörkanals und Kleinhirnbrückenwinkels findet sich eine Vielzahl an unterschiedlichen Gewebearten inklusive knöchernes, epitheliales, nervales und vaskuläres Gewebe. Tumoren oder tumorähnliche Läsionen, ossäre oder vaskuläre Pathologien können entsprechend dort gefunden werden. Wir diskutieren verschiedene Tumoren oder tumorähnliche Pathologien inklusive angeborene Läsionen wie Muko- und Meningozelen, entzündliche Veränderungen wie die Osteomyelitis, Pseudotumoren, die Wegener-Granulomatose, nichtneoplastische Tumoren wie das Epidermoid, Cholesteatom oder Cholesterolgranulom und gutartige neoplastische Tumoren wie das am häufigsten zu findende Vestibularisschwannom, das Paragangliom und das Meningeom, Gefäßprozesse/-pathologien und schließlich maligne Läsionen wie Metastasen, Chordome oder Chondrosarkome und den Tumor des endolymphatischen Sacks („endolymphatic sac tumor“, ELST) mit Fokus auf ihre Darstellung in der CT und mehr noch der MRT, geben charakteristische klinische Informationen, zeigen typische Bilder und diskutieren Möglichkeiten, die einzelnen Pathologien zu unterscheiden.AbstractIn the region of the petrous bone, inner acoustic canal and cerebellopontine angle, a variety of different tissues can be found, such as bony, epithelial, neural and vascular structures. Tumorous or tumor-like lesions, vascular or bony malformations or other pathologies can therefore be found in all of these areas. We discuss various frequently occurring tumorous or tumor-like pathologies including congential lesions, such as mucoceles, inflammatory disorders including osteomyelitis, pseudotumors and Wegener’s granulomatosis. Benign non-neoplastic lesions, such as cholesteatoma, cholesterol granuloma, epidermoid and benign neoplastic tumors, such as the most commonly found vestibular schwannoma, meningeoma, paraganglioma, vascular pathologies and finally malignant lesions, such as metastasis, chordoma or chondrosarcoma and endolymphatic sac tumor (ELST) are also discussed. The emphasis of this article is on the appearance of these entities in computed tomography (CT) and more so magnetic resonance imaging (MRI), it provides key facts and typical images and discusses possibilities how to distinguish these pathologies.In the region of the petrous bone, inner acoustic canal and cerebellopontine angle, a variety of different tissues can be found, such as bony, epithelial, neural and vascular structures. Tumorous or tumor-like lesions, vascular or bony malformations or other pathologies can therefore be found in all of these areas. We discuss various frequently occurring tumorous or tumor-like pathologies including congential lesions, such as mucoceles, inflammatory disorders including osteomyelitis, pseudotumors and Wegeners granulomatosis. Benign non-neoplastic lesions, such as cholesteatoma, cholesterol granuloma, epidermoid and benign neoplastic tumors, such as the most commonly found vestibular schwannoma, meningeoma, paraganglioma, vascular pathologies and finally malignant lesions, such as metastasis, chordoma or chondrosarcoma and endolymphatic sac tumor (ELST) are also discussed. The emphasis of this article is on the appearance of these entities in computed tomography (CT) and more so magnetic resonance imaging (MRI), it provides key facts and typical images and discusses possibilities how to distinguish these pathologies.

Typische Tumoren des Felsenbeins@@@Typical tumors of the petrous bone

ZusammenfassungIn der Region des Felsenbein, inneren Gehörkanals und Kleinhirnbrückenwinkels findet sich eine Vielzahl an unterschiedlichen Gewebearten inklusive knöchernes, epitheliales, nervales und vaskuläres Gewebe. Tumoren oder tumorähnliche Läsionen, ossäre oder vaskuläre Pathologien können entsprechend dort gefunden werden. Wir diskutieren verschiedene Tumoren oder tumorähnliche Pathologien inklusive angeborene Läsionen wie Muko- und Meningozelen, entzündliche Veränderungen wie die Osteomyelitis, Pseudotumoren, die Wegener-Granulomatose, nichtneoplastische Tumoren wie das Epidermoid, Cholesteatom oder Cholesterolgranulom und gutartige neoplastische Tumoren wie das am häufigsten zu findende Vestibularisschwannom, das Paragangliom und das Meningeom, Gefäßprozesse/-pathologien und schließlich maligne Läsionen wie Metastasen, Chordome oder Chondrosarkome und den Tumor des endolymphatischen Sacks („endolymphatic sac tumor“, ELST) mit Fokus auf ihre Darstellung in der CT und mehr noch der MRT, geben charakteristische klinische Informationen, zeigen typische Bilder und diskutieren Möglichkeiten, die einzelnen Pathologien zu unterscheiden.AbstractIn the region of the petrous bone, inner acoustic canal and cerebellopontine angle, a variety of different tissues can be found, such as bony, epithelial, neural and vascular structures. Tumorous or tumor-like lesions, vascular or bony malformations or other pathologies can therefore be found in all of these areas. We discuss various frequently occurring tumorous or tumor-like pathologies including congential lesions, such as mucoceles, inflammatory disorders including osteomyelitis, pseudotumors and Wegener’s granulomatosis. Benign non-neoplastic lesions, such as cholesteatoma, cholesterol granuloma, epidermoid and benign neoplastic tumors, such as the most commonly found vestibular schwannoma, meningeoma, paraganglioma, vascular pathologies and finally malignant lesions, such as metastasis, chordoma or chondrosarcoma and endolymphatic sac tumor (ELST) are also discussed. The emphasis of this article is on the appearance of these entities in computed tomography (CT) and more so magnetic resonance imaging (MRI), it provides key facts and typical images and discusses possibilities how to distinguish these pathologies.In the region of the petrous bone, inner acoustic canal and cerebellopontine angle, a variety of different tissues can be found, such as bony, epithelial, neural and vascular structures. Tumorous or tumor-like lesions, vascular or bony malformations or other pathologies can therefore be found in all of these areas. We discuss various frequently occurring tumorous or tumor-like pathologies including congential lesions, such as mucoceles, inflammatory disorders including osteomyelitis, pseudotumors and Wegeners granulomatosis. Benign non-neoplastic lesions, such as cholesteatoma, cholesterol granuloma, epidermoid and benign neoplastic tumors, such as the most commonly found vestibular schwannoma, meningeoma, paraganglioma, vascular pathologies and finally malignant lesions, such as metastasis, chordoma or chondrosarcoma and endolymphatic sac tumor (ELST) are also discussed. The emphasis of this article is on the appearance of these entities in computed tomography (CT) and more so magnetic resonance imaging (MRI), it provides key facts and typical images and discusses possibilities how to distinguish these pathologies.

[Osler's disease].

Oslers disease, also known as hereditary hemorrhagic telangiectasia (HHT) and Osler-Weber-Rendu syndrome, is an autosomal dominant disorder leading to abnormal blood vessel formation in the skin, mucous membranes and often in organs, such as the lungs, liver and brain (arteriovenous malformations AVM). Various types are known. Patients may present with epistaxis. Teleangiectasia can be identified by visual inspection during physical examination of the skin or oral cavity or by endoscopy. Diagnosis is made after clinical examination and genetic testing based on the Curacao criteria. Modern imaging modalities, such as computed tomography (CT) or magnetic resonance imaging (MRI) have become more important as they can depict the AVMs. Pulmonary AVMs can be depicted in CT imaging even without the use of a contrast agent while other locations including the central nervous system (CNS) usually require administration of contrast agents. Knowledge of possible clinical manifestations in various organs, possible complications and typical radiological presentation is mandatory to enable adequate therapy of these patients. Interventional procedures are becoming increasingly more important in the treatment of HHT patients.

Postoperative findings in the spinal column

ZusammenfassungDie postoperative Bildgebung wird klassischerweise herangezogen zur Dokumentation der korrekten Implantatlage oder um Komplikationen auszuschließen, wenn der Patient postoperativ weiterhin Beschwerden angibt. In Abhängigkeit von der Fragestellung können verschiedene Modalitäten verwendet werden – alle mit Vor- und Nachteilen.Die konventionelle Röntgenuntersuchung wird zur Dokumentation der Implantatlage, Beurteilung der Stabilität oder im Follow-up zur Frage der Instabilität oder einer Implantatfraktur verwendet, wogegen Weichteilveränderungen nicht komplett beurteilt werden können. Neben diesen Indikationen wird eine Bildgebung bei persistierenden Beschwerden (meist Schmerzen) des Patienten veranlasst. Residuelles oder rezidiviertes Bandscheibengewebe, ein Hämatom oder eine Entzündung können am besten mit der MRT beurteilt werden. Die MRT sollte unmittelbar postoperativ durchgeführt werden, um eine physiologische Granulation im Zugangsgebiet von entzündlichen Veränderungen unterscheiden zu können. Oft kann die Bildgebung allein dies nicht unterscheiden, daher ist die Bildgebung nur ein weiteres Puzzelstück. Die Computertomographie ist die Modalität der Wahl zur Beurteilung von Knochen und eine Ergänzung bei neuen Verfahren wie der bildgestützten Kypho- oder Vertebroplastie.AbstractPostoperative imaging after spinal surgery is usually performed to document the correct positioning of implants or to rule out complications if patients still suffer from pain after surgery. Depending on the question various imaging modalities can be used all of which have benefits and limitations.Conventional X-ray is used for the documentation of the correct positioning of spinal implants, stability (olisthesis) and during follow-up to rule out fractures or instability of the implants, whereas soft tissue changes cannot be completely assessed. Besides these indications, imaging is usually performed because of ongoing symptoms (pain for the most part) of the patients. Soft tissue changes including persistent or recurrent herniated disc tissue, hematoma or infection can best be depicted using magnetic resonance imaging (MRI) which should be performed within the immediate postoperative period to be able to distinguish physiological development of scar tissue from inflammatory changes in the area of the surgical approach. Often imaging alone cannot differentiate between these and imaging can therefore only be considered as an adjunct. Computed tomography is the modality of choice for the evaluation of bony structures and an adjunct of new therapies such as image-guided application of cement for kyphoplasty or vertebroplasty.Postoperative imaging after spinal surgery is usually performed to document the correct positioning of implants or to rule out complications if patients still suffer from pain after surgery. Depending on the question various imaging modalities can be used all of which have benefits and limitations. Conventional X-ray is used for the documentation of the correct positioning of spinal implants, stability (olisthesis) and during follow-up to rule out fractures or instability of the implants, whereas soft tissue changes cannot be completely assessed. Besides these indications, imaging is usually performed because of ongoing symptoms (pain for the most part) of the patients. Soft tissue changes including persistent or recurrent herniated disc tissue, hematoma or infection can best be depicted using magnetic resonance imaging (MRI) which should be performed within the immediate postoperative period to be able to distinguish physiological development of scar tissue from inflammatory changes in the area of the surgical approach. Often imaging alone cannot differentiate between these and imaging can therefore only be considered as an adjunct. Computed tomography is the modality of choice for the evaluation of bony structures and an adjunct of new therapies such as image-guided application of cement for kyphoplasty or vertebroplasty.