Baroreflex activation therapy explained

Baroreflex activation therapy is an approach to treating high blood pressure and the symptoms of heart failure. It uses an implanted device to electrically stimulate baroreceptors in the carotid sinus region. This elicits a reflex response through the sympathetic and vagal nervous systems that reduces blood pressure.

Medical uses

Baroreflex activation therapy is used to reduce the symptoms of heart failure in patients who do not qualify for cardiac resynchronization therapy.^[1]

Adverse effects

In common with pacemakers, implantation of baroreflex activation therapy devices carries risks of bleeding, bruising and infection.^[2]

High stimulation voltages can cause an appreciable sensation which can be unpleasant. In typical use the device output voltage is adjusted to below the level that causes unpleasant sensations.^[3]

Devices

Device development benefited from the related technology of pacemakers which have markedly reduced in size and increased in efficiency since their introduction in 1958. The falling cost of the fundamental technology that combines a long-lasting battery, stimulating electrode and a microcontroller in a single device, made it possible to create specialized devices to activate baroreceptors. Examples are the Rheos and the Barostim Neo systems.^[4] In 2019, the FDA awarded the BAROSTIM NEO® a Breakthrough Device Designation^[5] and approved the device for the treatment of heart failure. ^[6] It is currently available in Europe and the United States.

Procedure

The device is implanted into upper chest with the electrodes placed in the neck.^[7] First, an incision is made in the neck to visualize the carotid bifurcation. The electrode is placed over the carotid artery and positioned where stimulating through it elicits a blood pressure reduction. The electrode is then sutured in place. The main part of the device (also called the pulse generator) is then placed in a pocket underneath the skin.

Adjustments of the stimulation pattern (size and frequency of pulses) are made using a device programmer which communicates with the implanted device through short-range radio signals. Stimulation is set at a level that reduces blood pressure but does not cause discomfort.

Mechanism

Baroreflex activation is distinct from vagal stimulation.^{[8] [9]} Electrical stimulation of the external surfaces of the carotid sinus activates baroreceptors believed to be in the adventitia of the artery. This stimulates an afferent limb which activates central nervous system pathways that in turn exert two different but synergistic autonomic effects on the body. First, global sympathetic outflow is reduced and, second, vagal outflow is increased.

These two autonomic effector pathways reduce heart rate and vasomotor tone, leading to a reduction in blood pressure. Effects can be seen within a few seconds of initiation of stimulation, a feature which is used in the initial implant procedure to aid positioning of the electrode.

History

Despite modern medications against high blood pressure, only around half of people with hypertension in England, USA and Canada have blood pressure at or below target levels.^[10]

In many cases the situation can be resolved with increases in antihypertensive medication. However in about 10% of patients, blood pressure is still above target (140/90mm Hg) despite at least 3 anti-hypertensives, a status known as resistant hypertension.^[11]

Some patients prefer not to be prescribed progressively greater number of medications, because of side effects or the difficulty managing a complex medication regime. Despite the greater invasiveness, they may prefer the option of a device that can contribute to blood pressure control. Electrical stimulation of the carotid baroreceptor region is one such option to lower blood pressure.^[12]

Notes and References

1. Zile. Michael R.. Lindenfeld. JoAnn. Weaver. Fred A.. Zannad. Faiez. Galle. Elizabeth. Rogers. Tyson. Abraham. William T.. 2020-07-07. Baroreflex Activation Therapy in Patients With Heart Failure With Reduced Ejection Fraction. Journal of the American College of Cardiology. 76. 1. 1–13. 10.1016/j.jacc.2020.05.015. 1558-3597. 32616150. 220326183. free.
2. Wallbach . M . Böhning . E . Lehnig . LY . Schroer . C . Müller . GA . Wachter . R . Lüders . S . Zenker . D . Koziolek . MJ . Safety profile of baroreflex activation therapy (NEO) in patients with resistant hypertension. . Journal of Hypertension . August 2018 . 36 . 8 . 1762–1769 . 10.1097/HJH.0000000000001753 . 29677053. 5014715 .
3. Web site: CVRx . SUMMARY OF SAFETY AND EFFECTIVENESS DATA (SSED) . FDA . 22 January 2022.
4. Yoruk. Ayhan. Bisognano. John D.. Gassler. John P.. Baroreceptor Stimulation for Resistant Hypertension. American Journal of Hypertension. 21 July 2016. 29. 12. 1319–1324. 10.1093/ajh/hpw074. 27444637. free.
5. Web site: Commissioner. Office of the. 2020-03-24. FDA approves new device to improve symptoms in patients with advanced heart failure. 2021-06-18. FDA. en.
6. Health. Center for Devices and Radiological. 2019-12-20. BAROSTIM NEO System - P180050. FDA. en.
7. Scheffers. IJ. Kroon. AA. Tordoir. JH. de Leeuw. PW. Rheos Baroreflex Hypertension Therapy System to treat resistant hypertension.. Expert Review of Medical Devices. January 2008. 5. 1. 33–9. 10.1586/17434440.5.1.33. 18095894. 37736696.
8. Gassler. JP. Bisognano. JD. Baroreflex activation therapy in hypertension.. Journal of Human Hypertension. August 2014. 28. 8. 469–74. 10.1038/jhh.2013.139. 24477209. 23085843. free.
9. Gordin. D. Vikatmaa. P. Vikatmaa. L. Groop. PH. Albäck. A. Tikkanen. I. Baroreflex activation therapy in the treatment of resistant hypertension.. Duodecim; Laaketieteellinen Aikakauskirja. 2016. 132. 20. 1874–81. 29190040.
10. Joffres. M.. Falaschetti. E.. Gillespie. C.. Robitaille. C.. Loustalot. F.. Poulter. N.. McAlister. F. A.. Johansen. H.. Baclic. O.. Campbell. N.. Hypertension prevalence, awareness, treatment and control in national surveys from England, the USA and Canada, and correlation with stroke and ischaemic heart disease mortality: a cross-sectional study . BMJ Open . 3 . 8 . 30 August 2013 . e003423. 2044-6055. 10.1136/bmjopen-2013-003423. 23996822. 3758966.
11. Calhoun DA, Jones D, Textor S, Goff DC, Murphy TP, Toto RD, White A, Cushman WC, White W, Sica D, Ferdinand K, Giles TD, Falkner B, Carey RM . Resistant hypertension: diagnosis, evaluation, and treatment: a scientific statement from the American Heart Association Professional Education Committee of the Council for High Blood Pressure Research . Circulation . 117 . 25 . e510–26 . 2008 . 18574054 . 10.1161/CIRCULATIONAHA.108.189141 . free .
12. Kansal. Nikhil. Clair. Daniel G.. Jaye. Deborah A.. Scheiner. Avram. Carotid baroreceptor stimulation blood pressure response mapped in patients undergoing carotid endarterectomy (C-Map study). Autonomic Neuroscience. December 2016. 201. 60–67. 10.1016/j.autneu.2016.07.010. 27539629. 3777576. free.