Die Neurochirurgie umfasst Operationen in komplexen Regionen des Gehirns, der Schädelbasis und des Rückenmarks. Im Mittelpunkt der modernen Neurochirurgie steht das gewebeschonende Operieren durch sorgfältige Anwendung von präzisen Operationsmethoden bei gleichzeitig maximaler Ausnutzung modernster Technologien. Dieses Prinzip der minimalinvasiven Neurochirurgie ermöglicht das beste operative Ergebnis bei gleichzeitig geringer Belastung des Patienten.
Insbesondere die genaue Vorbereitung und Planung von Operationen anhand hochauflösender und dreidimensional rekonstruierter MRI (Magnetic Resonance Imaging)-und CT (Computertomographie)-Daten ermöglicht die Durchführung von individuell massgeschneiderten operativen Zugängen. Diese führen schonend zum Ziel und sind so klein wie möglich und so gross wie nötig.
Während der Operation unterstützen intraoperative Bildgebungen wie MRI, CT, Ultraschall, Angiographie und Fluoreszenz sowie elektrophysiologische Messungen das zielgenaue Operieren. Die minimale Invasivität wird darüber hinaus durch den Einsatz von endoskopischen Instrumenten erzielt, die es ermöglichen, gewebeschonend in schwer zugänglichen Regionen zu operieren.
Eingebettet ist die moderne Neurochirurgie in allen Phasen der Patientenbetreuung in eine enge interdisziplinäre Zusammenarbeit, die weit über den eigentlichen operativen Eingriff hinaus die Therapie jeder Erkrankung auf höchstem fachlichen Niveau garantiert. Zusammen mit meinen Kollegen der Klinik Hirslanden Zürich bin ich jederzeit gerne mit meinem fachlichen Rat für Sie da.
The risk of rupture of intracranial aneurysms has been studied in a variety of multi-center studies. This calculator was developed based on the results of the PHASES meta-analysis of patients in ISUIA, UCAS and four smaller studies (two in Japan, one in Finland and one in the Netherlands), which analyzed a total of 8382 patients with 10272 unruptured aneurysms. In total, 220 patients experienced a subarachnoid hemorrhage during 29166 patient-years of follow-up (median 2.9 years), giving an overall five-year risk of aneurysm rupture of 3.4%. This online aneurysm risk calulator contains the PHASES data and allows calculating an individual risk profile.
Aneurysm and patient factors identified in PHASES as being associated with a significantly increased risk of aneurysmal rupture are allocated a number of points which are collated to give a final PHASES score. The risk of rupture in a particular aneurysm in a given patient can be inferred from the score. Due to its pooled nature conferring increased statistical sensitivity, the PHASES analysis identified six key risk factors for aneurysmal rupture, not all of which were predictive of rupture in UCAS and ISUIA.
Aneurysm location was categorized into three groups:
1. Middle cerebral artery
2. Internal carotid artery
3. Others (including anterior cerebral arteries, communicating arteries and the posterior circulation).
The size of the aneurysms was categorized into four groups:
1. < 7 mm
2. 7 – 9.9 mm
3. 10 – 19.9 mm
4. ≥ 20 mm
Rates of aneurysm rupture were reported as five-year rupture rates according to size and location of the unruptured aneurysm as well as ethnicity and age of the patient and the presence of high blood pressure (hypertension) or previous subarachnoid hemorrhage.
In the PHASES aneurysm calculator, the figures returned under 5 year rupture risk reflect those provided in the PHASES study. Based on this table, the annual risk of rupture was calculated by simply dividing this number by five, using the approach of da Costa et al in their 2004 Neurogurgical Focus article. As with the ISUIA and UCAS calculators, the PHASES calculator gives cumulative lifetime risk based on the annual rupture rate using the following equation:
1 – (annual chance of not bleeding) x expected years of life = risk of hemorrhage
Each time a figure for life expectancy is keyed in, the algorithm automatically updates the risk for the given aneurysm, based on the various patient and aneurysm factors. This feature should be used with caution, as it is known that aneurysm growth and rupture rate are not constant over time (see Koffijberg et al. Journal of Neurosurgery 2008).
The risk of aneurysm rupture is known to vary across different populations. 90% of the patients enrolled in ISUIA were white Europeans or North Americans. The risk in this population appears to be significantly lower than those of the Japanese patients studied in UCAS. Small studies of patients with aneurysms in Finland suggest an especially high rupture rate for ethnic Finns. PHASES thus incorporates ethnicity (Japanese, Finnish or neither) into their algorithm. The reasons for this difference are unclear, but may be related to unknown genetic or environmental factors.
The PHASES analysis is the most complete dataset currently available for predicting the likelihood that an unruptured intracranial aneurysm will result in a subarachnoid hemorrhage. The vast majority of included patients were from UCAS and ISUIA and thus the pooled analysis suffers from the same limitations as these individual studies. Most importantly, some patients in these studies had their aneurysms treated during follow-up due to an increase in size or the development of symptoms. The removal of these high-risk patients from the cohort means that overall rupture risk may be somewhat higher than indicated in ISUIA, UCAS or PHASES.