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Neuroanatomy, Stellate Ganglion

Editor: Paramvir Singh Updated: 7/24/2023 11:11:18 PM

Introduction

The stellate ganglion forms as a result of the fusion of the inferior cervical and first thoracic sympathetic ganglions. It is present in up to 80% of the population. The stellate ganglion is an oval-shaped structure located anterior to the neck of the first rib. A thorough review of its relevant neuroanatomy is necessary for the successful and safe performance of a stellate ganglion blockade, which is useful in various clinical scenarios.[1][2]

Structure and Function

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Structure and Function

The stellate ganglion is a collection of sympathetic nerves found anterior to the neck of the first rib. It may occasionally extend to being anterior to the transverse process of the C7 cervical vertebra. It measures about 2.5 cm x1 cm x 0.5 cm in dimension. As referred to in its name, it is star-shaped ("stellate" meaning star-shaped). However, the shape and size of this ganglion may be variable in the population.

The stellate ganglion lies anterolateral to the longus colli muscle, medial to the scalene muscles, anterior to the transverse process, and the prevertebral fascia. The ganglion is structurally separated from the posterior aspect of the cervical pleura by the suprapleural membrane. It is bounded medially by the trachea, esophagus, and vertebral column.

Concerning the relevant vasculature, the vertebral vessels are anterolateral in location. The carotid artery is anterior to the ganglion. The superior intercostal artery lies laterally, and the costocervical trunk of the subclavian artery branches out near the lower pole of the stellate ganglion.[3]

Nerves

The somatic branches from the stellate ganglion are the gray rami communicantes which provide sympathetic fibers to the anterior rami of the C7, C8, and T1.

The visceral branches include the inferior cardiac nerve; this is the contribution of this ganglion to the cardiac plexus in the thorax.

It gives off sympathetic nerve branches to the brachial plexus, which lies laterally, as well as tributaries to the subclavian and vertebral arteries and the brachiocephalic trunk.

Physiologic Variants

Various studies have found that there may be considerable variability in the stellate ganglion across the population. Only 80% of the population has shown to have a structurally fused inferior cervical and first thoracic ganglion. 

In the rest of the cases, the inferior cervical and the first thoracic ganglion do not fuse in the usual manner. The inferior cervical ganglion has the designation as the stellate ganglion, which would usually be located anteriorly to the transverse process of the C7 cervical vertebrae.[4]

Surgical Considerations

Approaches to a stellate ganglion block[5][6]:

Multiple approaches have been used to block the stellate ganglion and include the use of ultrasound, MRI, and/or plain fluoroscopic guidance.

  • Surface landmark technique - (using the C6 anterior approach)

The patient is in the supine position with the head in a slight extension. The head is turned towards the opposite side, away from where the block is to be performed. The cricoid cartilage is palpated to ascertain the C6 level. At the C6 level, we palpate for the C6 transverse process, which is also known as the Chassaignac tubercle. In most individuals, the tubercle is 3 to 4 cm cephalad to the sternoclavicular joint at the medial border of the sternocleidomastoid. The needle is advanced in the anteroposterior direction until it hits the tubercle. The needle is withdrawn about 2mm to come out of the longus colli muscle. A test dose of about 1 mL is administered after negative suction, then subsequently administer 8 to 10 mL of local anesthetic administration.    

  • Fluoroscopy-guided technique

This technique offers the advantages of providing better bony delineation. It also involves the administration of contrast, which assures that the needle tip is in the appropriate fascial plane. If a striated appearance shows on the administration of the contrast media, it means that the needle tip is probably intramuscular. Immediate dissipation of the dye indicates that the needle tip is intravascular in position. 

  • Ultrasound-guided C6 transverse approach

          The carotid sheath and the sternocleidomastoid muscles are retracted laterally with the help of the ultrasound transducer. Gentle pressure is applied to reduce the distance between the skin and the tubercle. Needle insertion is towards the Chassaignac tubercle. After contacting the tubercle, the needle is withdrawn about 1 to 2 mm to bring it in the area of the prevertebral fascia. After negative aspiration, the local anesthetic (approximately 2 mL) is injected, and the spread is carefully visualized with the use of the ultrasound. Once the visualization confirms subfascial drug deposition, the clinician can administer the remainder of the local anesthetic. 

  • Ultrasound-guided C7 anterior approach

This method carries a slightly higher risk of pneumothorax and vertebral artery injury. However, it provides a much more consistent blockade as the needle lies closer to the ganglion. A smaller volume of local anesthetic can bring about a more consistent block with this technique. It is particularly useful in cases of failed blocks at the C6 level. The C7 approach always needs imaging as the C7 vertebrae have a vestigial tubercle which is not readily palpable.

Clinical Significance

Clinical blockade of the stellate ganglion is useful for a wide variety of diagnostic and therapeutic indications, including[1][5][7][8][9]:

  • Chronic regional pain syndrome I and II
  • Craniofacial hyperhidrosis
  • Refractory angina
  • Atypical angina
  • Postherpetic neuralgia
  • Phantom limb pain
  • Chronic post-surgical pain
  • Post-traumatic stress disorder
  • Neuropathic pain syndromes in cancer pain
  • Vascular headaches including cluster headache and migraine headache
  • Raynaud syndrome
  • Scleroderma
  • Upper extremity embolism
  • Meniere syndrome
  • Refractory cardiac arrhythmias including Roman/Ward syndrome and Jervell/Lang/Nielson syndrome
  • To diagnose sympathetically mediated pain
  • Quinine poisoning
  • Sudden loss of hearing accompanied by tinnitus
  • Accidental intraarterial injection of intravenous medications

Certain conditions may preclude the performance of a stellate ganglion blockade. These include:

  • A recent history of a myocardial infarction
  • Coagulopathy
  • Patients with a preexisting cardiac conduction blockade
  • Glaucoma

A successful stellate ganglion blockade demonstrates specific clinical signs which include:

  • Miosis (pupil constriction)
  • Anhidrosis (lack of sweating)
  • Ptosis (drooping of the upper eyelid)
  • Flushing of the extremities

These symptoms usually disappear in 4 to 6 hours after the blockade. Successful stellate ganglion blockade can be recognized clinically by the above symptoms and signs.  However, the presence of Horner syndrome after a stellate ganglion block does not equate with complete blockage of the sympathetic outflow to the upper extremity. Extremity temperatures may rise by 1 to 3 degrees, thereby indicating a successful block, which is the most widely employed indicator to determine the success of the stellate ganglion block. Other methods to confirm include measuring a sympathetic-galvanic response, which is an increase in resistance after the block.

Complications which may arise during stellate ganglion blockade include :

  • Recurrent laryngeal nerve blockade
  • Phrenic nerve blockade (leading to ipsilateral diaphragmatic paralysis)
  • Pneumothorax
  • Total spinal anesthesia
  • Severe hypertension
  • Paratracheal hematomas
  • Generalized seizures
  • Hematoma

Media


(Click Image to Enlarge)
<p>Nerves of the Thorax

Nerves of the Thorax. The nerves of the thorax comprise a network of intricate pathways, including the Aquino stellate ganglion, fusion of the inferior cervical and 1st thoracic ganglion, and the long thoracic, phrenic, vagus, ascending right recurrent laryngeal, and T2 spinal nerves. Radiography is a valuable tool that provides detailed visuals of these complex nerve systems.

Contributed by H Shulman, MD

(http://creativecommons.org/licenses/by-nc-nd/4.0)


(Click Image to Enlarge)
Stellate ganglion
Stellate ganglion Image courtesy S Bhimji MD

References


[1]

Piraccini E, Munakomi S, Chang KV. Stellate Ganglion Blocks. StatPearls. 2023 Jan:():     [PubMed PMID: 29939575]


[2]

Raut MS, Maheshwari A. Stellate Ganglion Block: Important Weapon in the Anesthesiologists' Armamentarium. Journal of cardiothoracic and vascular anesthesia. 2018 Apr:32(2):e36-e37. doi: 10.1053/j.jvca.2017.03.005. Epub 2017 Mar 3     [PubMed PMID: 28625751]


[3]

Carron H, Litwiller R. Stellate ganglion block. Anesthesia and analgesia. 1975 Sep-Oct:54(5):567-70     [PubMed PMID: 1237243]


[4]

Wang D. Image Guidance Technologies for Interventional Pain Procedures: Ultrasound, Fluoroscopy, and CT. Current pain and headache reports. 2018 Jan 26:22(1):6. doi: 10.1007/s11916-018-0660-1. Epub 2018 Jan 26     [PubMed PMID: 29374352]


[5]

Narouze S. Ultrasound-guided stellate ganglion block: safety and efficacy. Current pain and headache reports. 2014 Jun:18(6):424. doi: 10.1007/s11916-014-0424-5. Epub     [PubMed PMID: 24760493]


[6]

Ghai A, Kaushik T, Wadhera R, Wadhera S. Stellate ganglion blockade-techniques and modalities. Acta anaesthesiologica Belgica. 2016:67(1):1-5     [PubMed PMID: 27363208]


[7]

Mulvaney SW, Lynch JH, Kotwal RS. Clinical Guidelines for Stellate Ganglion Block to Treat Anxiety Associated With Posttraumatic Stress Disorder. Journal of special operations medicine : a peer reviewed journal for SOF medical professionals. 2015 Summer:15(2):79-85. doi: 10.55460/EQ05-H5TO. Epub     [PubMed PMID: 26125169]


[8]

Okuda Y, Suzuki H, Saima S. [Complication and Anesthetics-induced Toxicity of Stellate Ganglion Block]. Masui. The Japanese journal of anesthesiology. 2016 Aug:65(7):672-677     [PubMed PMID: 30358297]


[9]

Chaturvedi A, Dash HH. Sympathetic blockade for the relief of chronic pain. Journal of the Indian Medical Association. 2001 Dec:99(12):698-703     [PubMed PMID: 12022220]