UGRA

3 – Colour Doppler mode

Colour Doppler mode can be very useful to identify blood vessels surrounding deeply located target nerves

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Colour Doppler signal from the inferior gluteal artery (red spot) when doing a parasacral parallel shift approach to the sacral plexus (red arrow)
L = left, M = medial

1 – Indications for the superficial cervical plexus block

Superficial cervical plexus block is indicated for head and neck analgesia:

– Central venous cannulation

– Anterior neck surgery

– Thyroid surgery

– Shoulder surgery “cape of anaesthesia”

– Carotid endarterectomy (CEA) – the carotid artery is innervated by the vagus and glossopharyngeal nerves as well as sympathetic branches from the superior cervical ganglion which requires local anaesthetic injected in the carotid sinus region for surgical anaesthesia

– Clavicular fracture – combine superficial cervical plexus and brachial plexus blocks

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The superficial cervical plexus where it emerges from the lateral margin of the sternocleidomastoid muscle.

1 – Probes

Basic UGRA can be performed solely with a high-frequency linear probe

Advanced UGRA requires high-frequency linear as well as low-frequency curved array probes

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Advanced UGRA mandates a low-frequency curved array probe for various blocks

1 – Learning objective

The learning objective of the advanced ultrasound guided regional anaesthesia program is to obtain in-depth sonoanatomical theoretical knowledge about the selected advanced nerve blocks.

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5 – Sonoanatomy: Subgluteal view with a high-frequency linear probe

The needle is advanced from lateral to medial while avoiding piercing the posterior femoral cutaneous nerve.

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Sciatic nerve (yellow), posterior femoral cutaneous nerve (purple), long head of the biceps femoris (green asterix), semitendinosus (white asterix), adductor magnus (cyan asterix), needle (red).

6 – Sonoanatomy: SPEDI

First the needle is advanced to the sciatic nerve between the gluteus maximus and adductor magnus. Then the needle is redirected to the saphenous nerve lateral to the femoral artery below the sartorius muscle in the femoral triangle.

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Sciatic nerve (large yellow shadow), saphenous nerve (small yellow shadow), femoral artery (red profile) in the femoral triangle below the sartorius muscle, femur (white asterix), needles (red).

2 – Anatomy of the sciatic nerve in the subgluteal space

In the subgluteal space the sciatic nerve is sandwiched between the adductor magnus anteriorly and the hamstrings (long head of the biceps femoris laterally and the semitendinosus/semimembranosus medially).

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Sciatic nerve (yellow) below the transparent, yellow biceps femoris (long head), semitendinosus (green asterix), adductor magnus (blue asterix), gluteus maximus (white asterix).

3 – Scanning technique for the subgluteal approach

Place the patient in the lateral position

Place the low-frequency curved array probe in the gluteal crease. A linear probe can be used in lean patients

Visualize the target sciatic nerve (see next page)

Insert the needle from the lateral end of the probe with in-plane technique

Advance the needle tip to the target sciatic nerve

Inject 10-15 mL of local anaesthetic until complete perineural spread is obtained

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The ultrasound guided subgluteal sciatic nerve block.

4 – Scanning technique for the SPEDI approach

Place the patient supine.

Place the low frequency curved array probe approximately 10 cm below the inguinal ligament in the femoral triangle and visualize the sciatic and saphenous nerves (see second next page).

Insert the needle from the lateral end of the probe. First advance the needle tip to the sciatic nerve and then direct it to the saphenous nerve subsartorially just lateral to the femoral artery (see second next page)

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The SPEDI block.