The aim of this retrospective study is to define the paraneural (fascial) sheath and fascial compartments that surround the brachial plexus at the supraclavicular fossa by reviewing previous ultrasound images from cases that have undergone ultrasound guided selective trunk brachial plexus block.
The optimal anatomical plane (relative to the nerve) or the "goal" for local anesthetic (LA) injection during an ultrasound guided (USG) brachial plexus blockade (BPB) at the supraclavicular fossa is currently not known. USG BPB is often described as a "subfascial", "extra fascial", "intracluster", "interfascial", sub-perineural", "intraneural", "corner pocket" or "periplexus" injection. Although this suggests that the local anesthetic is injected into different tissue planes or fascial compartments, even if such planes do exist, as seen in other regions such as popliteal sciatic nerve are not clearly defined at the supraclavicular fossa. However, recently with the use of high definition ultrasound imaging for USG Selective trunk block (SeTB) and principal investigator has often observed distinct paraneural (fascial) sheath and fascial compartments surrounding the brachial plexus at the supraclavicular fossa. These connective tissue layers are also better delineated after the local anesthetic injection. The principal investigator believes these may be the connective tissue layers that previous researchers have referred to in different reports. Currently there are no published data demonstrating the paraneural sheath and fascial compartment surrounding the brachial plexus in-vivo. Principal investigator believes that this fascial layer and compartment influence the spread of LA during USG BPB around the individual elements of the brachial plexus at the supraclavicular fossa and therefore, these anatomical structures have to be delineated so as to improve the safety, success and quality of USG BPB. This study will involve reviewing archived high definition ultrasound images in audio video interleave format from all adult patients who had undergone USG SeTB for surgical anesthesia during upper extremity surgery from January 1, 2020 to June 30, 2021 to define the paraneural sheath and fascial compartments that surround the brachial plexus at the supraclavicular fossa.
Study Type
OBSERVATIONAL
Enrollment
50
High definition ultrasound images that were acquired during USG SeTB are routinely stored in the hard disk of ultrasound machine in DICOM (Digital Imaging and Communications in Medicine) format will be used for this review. The images of principal investigator's previous research studies with Clinical trial registration: NCT04752410 and NCT04773405 will also be retrieved. The ultrasound imaging was performed before (scout scan), during and immediately after the USG SeTB. As is the principal investigator's standard practice, all ultrasound scan was performed in a sequential manner (SUIT: Sequential Ultrasound Imaging Technique) with the orientation marker of the transducer directed laterally so as to obtain a transverse oblique view of the brachial plexus block at the supraclavicular fossa. Approximate 50 cases who had undergone USG SeTB for surgical anesthesia during upper extremity surgery since January 1 2020 to June 30, 2021 will be evaluated by two anesthesiologists.
Department of Anaesthesia & Intensive Care, Prince of Wales Hospital
Shatin, New Territories, Hong Kong
Visualization of anatomical nerve structures
Two anesthesiologists with extensive experience in regional anesthesia and familiar with the fascial anatomy of the brachial plexus at the supraclavicular fossa will independently review the archived ultrasound images and compare the presence of anatomical nerve structures before and after local anesthetic injection. The structure viewed will be scored as 0=no, 1= yes. If a structure is visualized then a previously reported four-point numerical scale, (0=not visible, 1= hardly visible, 2=well visible, 3= very well visible\_ will be used to assess the quality of ultrasound visibility. The total ultrasound visibility score (UVS) of the anatomical structures in the transverse scan will be calculated for every subject (maximum score possible = 30) and the mean total UVS will be determined by averaging the scores of the two observers. Inter-rater agreement of the aforementioned anatomical structures between the anesthesiologist will be calculated using kappa statistics.
Time frame: through study completion, an average of 1 month
Visualization of the presence of anatomical variations
Two anesthesiologists with extensive experience in regional anesthesia and familiar with the fascial anatomy of the brachial plexus at the supraclavicular fossa will independently review the archived ultrasound images and compare the presence of anatomical variations before and after local anesthetic agent injection. It will be scored as 0=not presence, 1=presence.
Time frame: through study completion, an average of 1 month
Presence of artery within the nerve cluster
Two anesthesiologists with extensive experience in regional anesthesia and familiar with the fascial anatomy of the brachial plexus at the supraclavicular fossa will independently review the archived ultrasound images and evaluate the presence or absence of blood vessels inside the nerve cluster at the supraclavicular fossa. A score of 0=not presence and 1=presence.
Time frame: through study completion, an average of 1 month
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