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Implantation Surgery for Abdominal Vagus Nerve Stimulation and Recording Studies in Awake Rats
In This Article
Summary
The present protocol describes the surgical technique for implanting an electrode array onto the abdominal vagus nerve in rats, along with methods for chronic electrophysiology testing and stimulation using the implanted device.
Abstract
Abdominal vagus nerve stimulation (VNS) can be applied to the subdiaphragmatic branch of the vagus nerve of rats. Due to its anatomical location, it does not have any respiratory and cardiac off-target effects commonly associated with cervical VNS. The lack of respiratory and cardiac off-target effects means that the intensity of stimulation does not need to be lowered to reduce side effects commonly experienced during cervical VNS. Few recent studies demonstrate the anti-inflammatory effects of abdominal VNS in rat models of inflammatory bowel disease, rheumatoid arthritis, and glycemia reduction in a rat model of type 2 diabetes. Rat is a great model to explore the potential of this technology because of the well-established anatomy of the vagus nerve, the large size of the nerve that allows easy handling, and the availability of many disease models. Here, we describe the methods for cleaning and sterilizing the abdominal VNS electrode array and surgical protocol in rats. We also describe the technology required for confirmation of suprathreshold stimulation by recording evoked compound action potentials. Abdominal VNS has the potential to offer selective, effective treatment for a variety of conditions, including inflammatory diseases, and the application is expected to expand similarly to cervical VNS.
Introduction
Vagus nerve stimulation (VNS) delivered at the cervical site in the neck is The United States Food and Drug Administration (FDA)-approved treatment for refractory epilepsy, refractory depression, and post-ischemic stroke rehabilitation1, and European Commission-approved for heart failure in Europe2. Non-invasive cervical VNS is FDA-approved for migraine and headache1. Its application is expected to expand, with recent clinical trials showing efficacy of VNS in other indications such as Crohn's disease3, rheumatoid arthritis4,
Protocol
All procedures involving animals were approved by the Animal Ethics Committee of St. Vincent's Hospital (Melbourne) and complied with the Australian Code for the Care and Use of Animals for Scientific Purposes (National Health and Medical Research Council of Australia) and the Prevention of Cruelty to Animals (1986) Act. In total, 24 female Dark Agouti rats (8-9 weeks old) were used for this study. The experimental groups consisted of: a normal cohort (n = 8) that received no collagen injection or VNS implant; an uns.......
Representative Results
Recording evoked compound action potentials (ECAPs, Figure 3A,B) immediately after surgery is a technique that can be used to help confirm correct placement of the nerve within the array channel, and that stimulation is efficacious in activating the vagus nerve.
In Figure 3, female dark agouti rats (8-9 weeks of age) were implanted with the VNS electrode array. In rats randomly selected to receive therapeutic stimulat.......
Discussion
This method of abdominal VNS implant surgery and chronic stimulation of the vagus nerve and recording of ECAPs have been successfully used and well-tolerated for 5 weeks in rats following implantation10,15,16. Retraction of the stomach, liver, and gut to gain a good view of the esophagus and the vagus nerve is one of the key steps in the surgery. Once these organs are retracted, the vagus nerve becomes accessible. Retraction of .......
Acknowledgements
Development of the rat abdominal VNS implant was funded by the Defense Advanced Research Projects Agency (DARPA) BTO, under the auspices of Dr. Doug Weber and Dr. Eric Van Gieson through the Space and Naval Warfare Systems Center (Contract No. N66001-15-2-4060). Research reported in this publication was supported by the Bionics Institute Incubation Fund. The Bionics Institute acknowledges the support they receive from the Victorian Government through its Operational Infrastructural Support Program. We would like to thank Mr. Owen Burns for mechanical design, Prof. John B Furness for anatomical expertise, Prof. Robert K Shepherd for peripheral interface, neuromodulatio....
Materials
| Name | Company | Catalog Number | Comments |
| 0.9% saline | Briemarpak | SC3050 | |
| Baytril | Bayer | ||
| Betadine | Sanofi-Aventis Healthcare | ||
| Buprelieve (Buprenorphine) | Jurox | ||
| Data acquisition device | National Instruments | USB-6210 | |
| DietGel Boost (dietary gel supplement) | ClearH2O | ||
| Dumont tweezer, style 5 | ProSciTech | T05-822 | |
| Dumont tweezer, style N7, self-closing | ProSciTech | EMS72864-D | |
| Elmasonic P sonicator | Elma | ||
| Hartmann's solution | Baxter | AHB2323 | |
| Hemostat | ProSciTech | TS1322-140 | |
| HPMC/PAA Moisturising Eye Gel | Alcon | ||
| Igor Pro-8 software | Wavemetrics, Inc | ||
| Isoflo (Isoflurane) | Zoetis | ||
| Isolated differential amplifier | World Precision Instruments | ISO-80 | |
| Liquid pyroneg | Diversey | HH12291 | cleaning solution |
| Marcaine (Bupivacaine) | Aspen | ||
| Plastic drape | Multigate | 22-203 | |
| Rat vagus nerve implant | Neo-Bionica | ||
| Rimadyl (Carprofen) | Zoetis | ||
| Silk suture 3-0 | Ethicon | ||
| Silk suture 7-0 | Ethicon | ||
| SteriClave autoclave | Cominox | 24S | |
| Sterile disposable surgical gown | Zebravet | DSG-S | |
| Suicide Nickel hooks | Jarvis Walker | ||
| Ultrapure water | Merck Millipre | Milli-Q Direct | |
| Underpads | Zebravet | UP10SM | |
| Vannas scissors | ProSciTech | EMS72933-01 | |
| Vicryl suture 4-0 | Ethicon |
References
- Fang, Y. T., et al. Neuroimmunomodulation of vagus nerve stimulation and the therapeutic implications. Front Aging Neurosci. 15, 1173987 (2023).
- Fudim, M., et al. Device therapy in chronic heart failur....
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