ABSTRACT
This study aimed to examine, using diffusion tensor imaging (DTI), differences in electrode placement in four patients undergoing deep brain stimulation for chronic neuropathic pain of varying aetiology. A pre-operative DTI was obtained for each patient, who was then implanted with deep brain stimulation electrodes in the periventricular/periaqueductal grey area with good pain relief. Using seeds from the postoperative MRI scan, probabilistic tractography was performed from the pre-operative DTI.
Subject(s)
Deep Brain Stimulation/methods , Diffusion Magnetic Resonance Imaging/methods , Models, Statistical , Pain, Intractable/therapy , Preoperative Care/methods , Stereotaxic Techniques/instrumentation , Brain Mapping/methods , Chronic Disease , Deep Brain Stimulation/instrumentation , Electrodes, Implanted , Humans , Monitoring, Physiologic/instrumentation , Monitoring, Physiologic/methods , Neural Pathways/anatomy & histology , Neural Pathways/physiology , Neural Pathways/surgery , Pain, Intractable/etiology , Pain, Intractable/physiopathology , Periaqueductal Gray/anatomy & histology , Periaqueductal Gray/physiology , Periaqueductal Gray/surgery , Postoperative Complications/prevention & control , Preoperative Care/instrumentationABSTRACT
This study aimed to find out whether preoperative diffusion tensor imaging (DTI) and probabilistic tractography could help with surgical planning for deep brain stimulation in the periaqueductal/periventricular grey area (PAG/PVG) in a patient with lower leg stump pain. A preoperative DTI was obtained from the patient, who then received DBS surgery in the PAG/PVG area with good pain relief. The postoperative MRI scan showing electrode placement was used to calculate four seed areas to represent the contacts on the Medtronic 3387 electrode. Probabilistic tractography was then performed from the pre-operative DTI image. Tracts were seen to connect to many areas within the pain network from the four different contacts. These initial findings suggest that preoperative DTI scanning and probabilistic tractography may be able to assist surgical planning in the future.
Subject(s)
Amputees/rehabilitation , Deep Brain Stimulation/methods , Pain, Postoperative/prevention & control , Periaqueductal Gray , Phantom Limb/rehabilitation , Amputees/psychology , Humans , Magnetic Resonance Imaging , Male , Middle Aged , Pain, Postoperative/drug therapy , Pain, Postoperative/rehabilitation , Phantom Limb/psychology , Preoperative Care , Time , Treatment OutcomeABSTRACT
The purpose of this study was to look at the connectivity of the posterior inferior hypothalamus in a patient implanted with a deep brain stimulating electrode using probabilistic tractography in conjunction with postoperative MRI scans. In a patient with chronic cluster headache we implanted a deep brain stimulating electrode into the ipsilateral postero-medial hypothalamus to successfully control his pain. To explore the connectivity, we used the surgical target from the postoperative MRI scan as a seed for probabilistic tractography, which was then linked to diffusion weighted imaging data acquired in a group of healthy control subjects. We found highly consistent connections with the reticular nucleus and cerebellum. In some subjects, connections were also seen with the parietal cortices, and the inferior medial frontal gyrus. Our results illustrate important anatomical connections that may explain the functional changes associated with cluster headaches and elucidate possible mechanisms responsible for triggering attacks.
Subject(s)
Brain Mapping/methods , Cluster Headache/physiopathology , Deep Brain Stimulation/methods , Diffusion Magnetic Resonance Imaging/methods , Hypothalamic Diseases/physiopathology , Hypothalamus, Posterior/physiopathology , Autonomic Nervous System/anatomy & histology , Autonomic Nervous System/diagnostic imaging , Autonomic Nervous System/physiopathology , Biological Clocks/physiology , Brain Stem/anatomy & histology , Brain Stem/diagnostic imaging , Brain Stem/physiopathology , Cerebellum/anatomy & histology , Cerebellum/physiopathology , Cerebral Cortex/anatomy & histology , Cerebral Cortex/diagnostic imaging , Cerebral Cortex/physiopathology , Cluster Headache/therapy , Efferent Pathways/anatomy & histology , Efferent Pathways/diagnostic imaging , Efferent Pathways/physiopathology , Electrodes, Implanted/standards , Humans , Hypothalamic Diseases/therapy , Hypothalamus, Posterior/anatomy & histology , Hypothalamus, Posterior/diagnostic imaging , Image Processing, Computer-Assisted/methods , Imaging, Three-Dimensional/methods , Male , Middle Aged , Models, Statistical , Nerve Net/anatomy & histology , Nerve Net/diagnostic imaging , Nerve Net/physiopathology , Reticular Formation/anatomy & histology , Reticular Formation/diagnostic imaging , Reticular Formation/physiopathology , Sensitivity and Specificity , Tomography, X-Ray ComputedABSTRACT
Deep brain stimulation (DBS) for pain was one of the earliest indications for the therapy. This study reports the outcome of DBS of the sensory thalamus and the periventricular and peri-aqueductal grey area (PVG/PAG) complex for different intractable neuropathic pain syndromes. Forty-seven patients (30 males and 17 females) were selected for surgery; they were suffering from any of the following types of pain: post-stroke neuropathic pain, phantom limb pain, post-herpetic neuralgia, anaesthesia dolorosa, brachial plexus injury and neuropathic pain secondary to neural damage from a variety of causes. Of the 47 patients selected for trial stimulation, 38 patients proceeded to permanent implantation. Patients suffering from post-stroke pain were the most likely to fail trial stimulation (33%), in contrast to individuals with phantom limb/post-brachial plexus injury pain and anaesthesia dolorosa, all of whom underwent permanent implantation. PVG stimulation alone was optimal in 17 patients (53%), whilst a combination of PVG and thalamic stimulation produced the greatest degree of analgesia in 11 patients (34%). Thalamic stimulation alone was optimal in 4 patients (13%). DBS of the PVG alone was associated with the highest degree of pain alleviation, with a mean improvement of 59% (p <0.001) and a > or =50% improvement in 66% of patients. Post-stroke pain responds in 70% of patients. We conclude that the outcomes of surgery appear to vary according to aetiology, but it would appear that the effects are best for phantom limb syndromes, head pain and anaesthesia dolorosa.
Subject(s)
Deep Brain Stimulation/methods , Pain/surgery , Adult , Aged , Dose-Response Relationship, Radiation , Female , Humans , Magnetic Resonance Imaging , Male , Middle Aged , Pain/classification , Pain/pathology , Pain/physiopathology , Pain Measurement , Periaqueductal Gray/physiopathology , Periaqueductal Gray/radiation effects , Thalamus/physiopathology , Thalamus/radiation effects , Treatment OutcomeABSTRACT
In this chapter, we report that blood pressure can be increased or decreased depending on whether an electrode is in ventral or dorsal PAG. We also describe that it is theoretically possible to treat orthostatic hypotension. These are exciting developments not only because they provide an example of direct translational research from animal research to humans but also because they highlight a potential for future clinical therapies. The control of essential hypertension without drugs is attractive because of the side effects of medication such as precipitation of heart failure [10]. Similarly, drug treatment of orthostatic hypotension cannot differentiate between the supine and standing positions and can therefore lead to nocturnal hypertension [22, 29]. A stimulator could be turned off at night or contain a mercury switch that reacts to posture.
Subject(s)
Cardiovascular System , Periaqueductal Gray/physiology , Animals , Blood Pressure/physiology , Blood Pressure/radiation effects , Cardiovascular System/radiation effects , Deep Brain Stimulation/instrumentation , Deep Brain Stimulation/methods , Humans , Hypertension/physiopathology , Periaqueductal Gray/radiation effectsABSTRACT
We report a 61-year-old hypertensive man who underwent deep brain stimulation of the periventricular/periaqueductal grey area for the relief of chronic neuropathic pain affecting his oral cavity and soft palate. During intraoperative stimulation, we were able to modulate his blood pressure up or down, depending on electrode location. This is the first evidence that hypertension could be effectively treated with electrical stimulation of the midbrain.
Subject(s)
Deep Brain Stimulation/methods , Facial Pain/therapy , Hypertension/therapy , Periaqueductal Gray/physiology , Thalamic Nuclei/physiology , Humans , Male , Middle Aged , Periaqueductal Gray/physiopathology , Thalamic Nuclei/physiopathology , Treatment OutcomeABSTRACT
The aim of this study was to determine the efficacy of deep brain stimulation (DBS) in the treatment of various types of intractable head and facial pains. Seven patients underwent the insertion of DBS electrodes into the periventricular/periaqueductal grey region and/or the ventroposteromedial nucleus of the thalamus. We have shown statistically significant improvement in pain scores (visual analogue and McGill's) as well as health-related quality of life (SF-36v2) following surgery. There is wide variability in patient outcomes but, overall, DBS can be an effective treatment. Our results are compared with the published literature and electrode position for effective analgesia is discussed.
