[Anesthesiological aspects of deep brain stimulation : special features of implementation and dealing with brain pacemaker carriers]

Management strategies for patients with neurologic stimulators during nonneurologic surgery: an update and review

PURPOSE OF REVIEW

The goal of this review is to summarize the perioperative management of noncardiac implanted electrical devices (NCIEDs) and update the anesthesiologist on current recommendations for management when a NCIED is encountered during a nonneurosurgical procedure.

RECENT FINDINGS

Indications for NCIEDs continue to expand, and increasing numbers of patients with NCIEDs are presenting for nonneurosurgical procedures. Recent case reports demonstrate that NCIEDs may meaningfully affect perioperative management including use of electrocautery and neuromonitoring. This review highlights the importance of evaluating NCIED function (including lead impedance) prior to surgery, provides an update on the MRI compatibility and safety of these devices, and reviews the management of patients with altered respiratory drive because of vagal nerve stimulators.

SUMMARY

As the prevalence of NCIEDs in patients presenting for surgery increases, anesthesiologists will likely encounter these devices more frequently. To provide a well tolerated anesthetic, anesthesiologists should recognize the concerns associated with NCIEDs and how best to address them perioperatively.

[Anaesthesia and Perioperative Management for Patients with Parkinson's Disease]

Idiopathic Parkinson's syndrome is associated with the loss of dopaminergic cells. It is defined by the presence of akinesia together with one of the cardinal symptoms: rigor, tremor, or postural instability. As the perioperative management of these patients can be challenging and they have an increased perioperative risk, every anaesthesiologist should know some special features. If a patient with Parkinson's disease does not receive the required amount of dopa, akinetic crisis may occur. Moreover, the administration of dopamine-antagonistic drugs can trigger a malignant neuroleptic syndrome. These are life-threatening clinical pictures that require intensive medical treatment. Therefore, patients with Parkinson's disease should be enabled to keep the period without the intake of the specific medication as short as possible. General anaesthesia should be performed with short acting anaesthetics and a regional anaesthesia might be beneficial. Besides, all dopamine antagonists sometimes used for prophylaxis or therapy of delirium or PONV (haloperidol, metoclopramide) are contraindicated. Alternatives are short-acting benzodiazepines, atypical neuroleptics and domperidone.

Deep Brain Stimulation Surgery without Sedation

<b><i>Background:</i></b> Sedatives and opioids used during deep brain stimulation (DBS) surgery interfere with optimal target localization and add to side effects and risks, and thus should be minimized. <b><i>Objective:</i></b> To retrospectively test the actual need for sedatives and opioids when cranial nerve blocks and specific therapeutic communication are applied. <b><i>Methods:</i></b> In a case series, 64 consecutive patients treated with a strong rapport, constant contact, non-verbal communication and hypnotic suggestions, such as dissociation to a “safe place,” reframing of disturbing noises and self-confirmation, were compared to 22 preceding patients under standard general anaesthesia or conscious sedation. <b><i>Results:</i></b> With introduction of the protocol the need for sedation dropped from 100% in the control group to 5%, and from a mean dose of 444 mg to 40 mg in 3 patients. Remifentanil originally used in 100% of the patients in an average dose of 813 µg was reduced in the study group to 104 µg in 31% of patients. There were no haemodynamic reactions indicative of stress during incision, trepanation, electrode insertion and closure. <b><i>Conclusion:</i></b> With adequate therapeutic communication, patients do not require sedation and no or only low-dose opioid treatment during DBS surgery, leaving patients fully awake and competent during surgery and testing.

Anesthesiologic regimen and intraoperative delirium in deep brain stimulation surgery for Parkinson's disease

BACKGROUND

In many centers the standard anesthesiological care for deep brain stimulation (DBS) surgery in Parkinson's disease patients is an asleep-awake-asleep procedure. However, sedative drugs and anesthetics can compromise ventilation and hemodynamic stability during the operation and some patients develop a delirious mental state after the initial asleep phase. Further, these drugs interfere with the patient's alertness and cooperativeness, the quality of microelectrode recordings, and the recognition of undesired stimulation effects. In this study, we correlated the incidence of intraoperative delirium with the amount of anesthetics used intraoperatively.

METHODS

The anesthesiologic approach is based on continuous presence and care, avoidance of negative suggestions, use of positive suggestions, and utilization of the patient's own resources. Clinical data from the operations were analyzed retrospectively, the occurrence of intraoperative delirium was extracted from patients' charts. The last 16 patients undergoing the standard conscious sedation procedure (group I) were compared to the first 22 (group II) psychologically-guided patients.

RESULTS

The median amount of propofol decreased from 146 mg (group I) to 0mg (group II), remifentanyl from 0.70 mg to 0.00 mg, respectively (P<0.001 for propofol and remifentanyl). Using the new procedure, 12 of 22 patients (55%) in group II required no anesthetics. Intraoperative delirium was significantly less frequent in group II (P=0.03).

CONCLUSIONS

The occurrence of intraoperative delirium correlates with the amount of intraoperative sedative and anesthetic drugs. Sedation and powerful analgesia are not prerequisites for patients' comfort during awake-DBS-surgery.

Anaesthetic management of a patient with deep brain stimulation implant for radical nephrectomy

A 63-year-old man with severe Parkinson's disease (PD) who had been implanted with deep brain stimulators into both sides underwent radical nephrectomy under general anaesthesia with standard monitoring. Deep brain stimulation (DBS) is an alternative and effective treatment option for severe and refractory PD and other illnesses such as essential tremor and intractable epilepsy. Anaesthesia in the patients with implanted neurostimulator requires special consideration because of the interaction between neurostimulator and the diathermy. The diathermy can damage the brain tissue at the site of electrode. There are no standard guidelines for the anaesthetic management of a patient with DBS electrode in situ posted for surgery.