S ince the time that Spiegel and colleagues introduced stereotactic devices for the treatment of humans, there have been many advances in stereotactic procedures for treating neurological diseases, including Parkinson's disease (PD), essential tremor (ET), chronic neuropathic pain, and obsessive-compulsive disorder (OCD).
21Radiofrequency (RF) thermal ablation can create lesions in deep brain structures more easily than earlier modalities such as chemical ablation using alcohol. RF was widely applied to treat movement and psychiatric disorders until deep brain stimulation surgery was introduced. 8,11,15 However, RF lesioning procedures were found to be associated with a relatively high rate of permanent complications, especially when performed in both hemispheres. 19 As an alternative to RF thermal lesioning, bilateral deep brain stimulation has been shown to have a high success rate and an acceptable risk of complications.
23Although the risks associated with current neurosurgical procedures for movement and psychiatric disorders are considered acceptable, there are many potential procedure-, hardware-, and anesthesia-related complications that must be considered by both physicians and patients. To overcome these shortcomings, a less invasive technique using ultrasonic energy was developed. Magnetic resoabbreviatioNs Emax = maximal energy required to achieve Tmax; ET = essential tremor; MRgFUS = magnetic resonance-guided focused ultrasound surgery; OCD = obsessive-compulsive disorder; PD = Parkinson's disease; RF = radiofrequency; SDR = skull density ratio; Tmax = maximum temperature. obJective Magnetic resonance-guided focused ultrasound surgery (MRgFUS) was recently introduced as treatment for movement disorders such as essential tremor and advanced Parkinson's disease (PD). Although deep brain target lesions are successfully generated in most patients, the target area temperature fails to increase in some cases. The skull is one of the greatest barriers to ultrasonic energy transmission. The authors analyzed the skull-related factors that may have prevented an increase in target area temperatures in patients who underwent MRgFUS. methods The authors retrospectively reviewed data from clinical trials that involved MRgFUS for essential tremor, idiopathic PD, and obsessive-compulsive disorder. Data from 25 patients were included. The relationships between the maximal temperature during treatment and other factors, including sex, age, skull area of the sonication field, number of elements used, skull volume of the sonication field, and skull density ratio (SDR), were determined. results Among the various factors, skull volume and SDR exhibited relationships with the maximum temperature. Skull volume was negatively correlated with maximal temperature (p = 0.023, r 2 = 0.206, y = 64.156 − 0.028x, whereas SDR was positively correlated with maximal temperature (p = 0.009, r 2 = 0.263, y = 49.643 + 11.832x). The other factors correlate with the maximal temperature, although some factors showed a tendency to correlate...
