Patients with pacemakers/AICDs can have ECT as the device is far from the field of electrical stimulation, thus only small amounts of electricity reach the device. One retrospective study noted that anesthesia proceeded uneventfully in patients with pacemakers receiving ECT and no pacemaker malfunctions were noted in 146 treatments. One should have a magnet accessible to disable AICD functionality and/or use the magnet to set a pacemaker to a fixed rate if necessary. Patients with severe heart disease should be medically optimized, if possible, prior to initiation of ECT. Electrolyte abnormalities should be corrected and hypertension well-controlled [16].

In 2001, the APA stated its support of ECT as an appropriate treatment modality in the pregnant patient as neglected psychiatric illness can have a negative impact on the fetus by affecting development, gestational age at the time of delivery, and birth weight [17]. ECT is safe and effective for pregnant patients and some would argue that it is safer than pharmacologic agents [18]. Most anesthetic agents and all induction agents are US FDA category B or C; methohexital, thiopental, etomidate, propofol, ketamine and sevoflurane can all be utilized in the pregnant woman. Only benzodiazepines have been categorized as category D (with positive evidence of risk to fetus, however potential benefits may outweigh potential risk), and cocaine is the only category X (contraindicated) anesthetic agent. Ideally, ECT should occur during the second and third trimesters as rapid organogenesis is occurring in the fetus during the first trimester. An obstetrical exam should occur prior to the initiation of ECT with documentation of fetal heart rate. Adequate preoxygenation is essential as the pregnant woman will desaturate faster than her non-pregnant peers as her functional residual capacity (FRC) starts to decrease secondary to the upward displacement of the gravid uterus. The pregnant woman is always regarded as having a full stomach and at increased risk of aspiration as early as the 12th week. Therefore the administration of a non-particulate antacid (Bicitra/sodium citrate 30 ml) and/or histamine-2 receptor blockers (ranitidine 50 mg IV 30–60 min prior to the procedure) should be considered. After 20 weeks gestation a wedge should be placed under the right hip for left uterine displacement of the uterus from the aorta and inferior vena cava (IVC). After 24 weeks gestational age, the patient should be intubated for airway protection with a rapid-sequence induction with cricoid pressure and maintenance via sevoflurane which can reduce the risk of uterine contractions. Non-invasive fetal heart monitoring is advised after ECT performed in the second and third trimester. Complications include premature labor due to increased levels of oxytocin produced after ECT and spontaneous abortion, and thus prophylactic tocolytic therapy may be useful in women with a history of premature labor who need ECT. Other complications include uterine contractions, vaginal bleeding, fetal arrhythmias specifically fetal bradycardia, and abruption of the placenta. The most prudent way to optimize the chance of a safe anesthetic in obstetric patients is vigilance and close monitoring of both the mother and fetus before, during, and after ECT. Finally, it would be wise (depending on gestational age) to perform ECT on the pregnant patient in sites with immediate access to obstetrical care in the event that an emergency caesarian section is required. Certainly ECT is not without risk, and should be reserved for those with grave disability and psychiatric disorders recalcitrant to pharmacotherapy.