Erector Spinae Plane Block Versus Retrolaminar Block: A Magnetic Resonance Imaging and Anatomical Study

Background and ObjectivesThe erector spinae plane (ESP) and retrolaminar blocks are ultrasound-guided techniques for thoracoabdominal wall analgesia involving injection into the musculofascial plane between the paraspinal back muscles and underlying thoracic vertebrae. The ESP block targets the tips...

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Published in	Regional anesthesia and pain medicine Vol. 43; no. 7; pp. 756 - 762
Main Authors	Adhikary, Sanjib Das, Bernard, Stephanie, Lopez, Hector, Chin, Ki Jinn
Format	Journal Article
Language	English
Published	England BMJ Publishing Group Ltd 01.10.2018 Copyright by American Society of Regional Anesthesia and Pain Medicine BMJ Publishing Group LTD
Subjects	Anatomic Landmarks - anatomy & histology Anatomic Landmarks - diagnostic imaging Cadaver Epidural Humans Magnetic resonance imaging Magnetic Resonance Imaging - methods Nerve Block - methods Paraspinal Muscles - anatomy & histology Paraspinal Muscles - diagnostic imaging Regional anesthesia Regional anesthesia and acute pain: Brief technical reports Thoracic Vertebrae - anatomy & histology Thoracic Vertebrae - diagnostic imaging
Online Access	Get full text
ISSN	1098-7339 1532-8651 1532-8651
DOI	10.1097/AAP.0000000000000798

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Abstract	Background and ObjectivesThe erector spinae plane (ESP) and retrolaminar blocks are ultrasound-guided techniques for thoracoabdominal wall analgesia involving injection into the musculofascial plane between the paraspinal back muscles and underlying thoracic vertebrae. The ESP block targets the tips of the transverse processes, whereas the retrolaminar block targets the laminae. We investigated if there were differences in injectate spread between the 2 techniques that would have implications for their clinical effect.MethodsThe blocks were performed in 3 fresh cadavers. The ESP and retrolaminar blocks were performed on opposite sides of each cadaver at the T5 vertebral level. Twenty milliliters of a radiocontrast dye mixture was injected in each block, and injectate spread was assessed by magnetic resonance imaging and anatomical dissection.ResultsBoth blocks exhibited spread to the epidural and neural foraminal spaces over 2 to 5 levels. The ESP block produced additional spread to intercostal spaces over 5 to 9 levels and was associated with a greater extent of craniocaudal spread along the paraspinal muscles.ConclusionsThe clinical effect of ESP and retrolaminar blocks can be explained by epidural and neural foraminal spread of local anesthetic. The ESP block produces additional intercostal spread, which may contribute to more extensive analgesia. The implications of these cadaveric observations require confirmation in clinical studies.
AbstractList	BACKGROUND AND OBJECTIVESThe erector spinae plane (ESP) and retrolaminar blocks are ultrasound-guided techniques for thoracoabdominal wall analgesia involving injection into the musculofascial plane between the paraspinal back muscles and underlying thoracic vertebrae. The ESP block targets the tips of the transverse processes, whereas the retrolaminar block targets the laminae. We investigated if there were differences in injectate spread between the 2 techniques that would have implications for their clinical effect. METHODSThe blocks were performed in 3 fresh cadavers. The ESP and retrolaminar blocks were performed on opposite sides of each cadaver at the T5 vertebral level. Twenty milliliters of a radiocontrast dye mixture was injected in each block, and injectate spread was assessed by magnetic resonance imaging and anatomical dissection. RESULTSBoth blocks exhibited spread to the epidural and neural foraminal spaces over 2 to 5 levels. The ESP block produced additional spread to intercostal spaces over 5 to 9 levels and was associated with a greater extent of craniocaudal spread along the paraspinal muscles. CONCLUSIONSThe clinical effect of ESP and retrolaminar blocks can be explained by epidural and neural foraminal spread of local anesthetic. The ESP block produces additional intercostal spread, which may contribute to more extensive analgesia. The implications of these cadaveric observations require confirmation in clinical studies. The erector spinae plane (ESP) and retrolaminar blocks are ultrasound-guided techniques for thoracoabdominal wall analgesia involving injection into the musculofascial plane between the paraspinal back muscles and underlying thoracic vertebrae. The ESP block targets the tips of the transverse processes, whereas the retrolaminar block targets the laminae. We investigated if there were differences in injectate spread between the 2 techniques that would have implications for their clinical effect.BACKGROUND AND OBJECTIVESThe erector spinae plane (ESP) and retrolaminar blocks are ultrasound-guided techniques for thoracoabdominal wall analgesia involving injection into the musculofascial plane between the paraspinal back muscles and underlying thoracic vertebrae. The ESP block targets the tips of the transverse processes, whereas the retrolaminar block targets the laminae. We investigated if there were differences in injectate spread between the 2 techniques that would have implications for their clinical effect.The blocks were performed in 3 fresh cadavers. The ESP and retrolaminar blocks were performed on opposite sides of each cadaver at the T5 vertebral level. Twenty milliliters of a radiocontrast dye mixture was injected in each block, and injectate spread was assessed by magnetic resonance imaging and anatomical dissection.METHODSThe blocks were performed in 3 fresh cadavers. The ESP and retrolaminar blocks were performed on opposite sides of each cadaver at the T5 vertebral level. Twenty milliliters of a radiocontrast dye mixture was injected in each block, and injectate spread was assessed by magnetic resonance imaging and anatomical dissection.Both blocks exhibited spread to the epidural and neural foraminal spaces over 2 to 5 levels. The ESP block produced additional spread to intercostal spaces over 5 to 9 levels and was associated with a greater extent of craniocaudal spread along the paraspinal muscles.RESULTSBoth blocks exhibited spread to the epidural and neural foraminal spaces over 2 to 5 levels. The ESP block produced additional spread to intercostal spaces over 5 to 9 levels and was associated with a greater extent of craniocaudal spread along the paraspinal muscles.The clinical effect of ESP and retrolaminar blocks can be explained by epidural and neural foraminal spread of local anesthetic. The ESP block produces additional intercostal spread, which may contribute to more extensive analgesia. The implications of these cadaveric observations require confirmation in clinical studies.CONCLUSIONSThe clinical effect of ESP and retrolaminar blocks can be explained by epidural and neural foraminal spread of local anesthetic. The ESP block produces additional intercostal spread, which may contribute to more extensive analgesia. The implications of these cadaveric observations require confirmation in clinical studies. Background and ObjectivesThe erector spinae plane (ESP) and retrolaminar blocks are ultrasound-guided techniques for thoracoabdominal wall analgesia involving injection into the musculofascial plane between the paraspinal back muscles and underlying thoracic vertebrae. The ESP block targets the tips of the transverse processes, whereas the retrolaminar block targets the laminae. We investigated if there were differences in injectate spread between the 2 techniques that would have implications for their clinical effect.MethodsThe blocks were performed in 3 fresh cadavers. The ESP and retrolaminar blocks were performed on opposite sides of each cadaver at the T5 vertebral level. Twenty milliliters of a radiocontrast dye mixture was injected in each block, and injectate spread was assessed by magnetic resonance imaging and anatomical dissection.ResultsBoth blocks exhibited spread to the epidural and neural foraminal spaces over 2 to 5 levels. The ESP block produced additional spread to intercostal spaces over 5 to 9 levels and was associated with a greater extent of craniocaudal spread along the paraspinal muscles.ConclusionsThe clinical effect of ESP and retrolaminar blocks can be explained by epidural and neural foraminal spread of local anesthetic. The ESP block produces additional intercostal spread, which may contribute to more extensive analgesia. The implications of these cadaveric observations require confirmation in clinical studies. The erector spinae plane (ESP) and retrolaminar blocks are ultrasound-guided techniques for thoracoabdominal wall analgesia involving injection into the musculofascial plane between the paraspinal back muscles and underlying thoracic vertebrae. The ESP block targets the tips of the transverse processes, whereas the retrolaminar block targets the laminae. We investigated if there were differences in injectate spread between the 2 techniques that would have implications for their clinical effect. The blocks were performed in 3 fresh cadavers. The ESP and retrolaminar blocks were performed on opposite sides of each cadaver at the T5 vertebral level. Twenty milliliters of a radiocontrast dye mixture was injected in each block, and injectate spread was assessed by magnetic resonance imaging and anatomical dissection. Both blocks exhibited spread to the epidural and neural foraminal spaces over 2 to 5 levels. The ESP block produced additional spread to intercostal spaces over 5 to 9 levels and was associated with a greater extent of craniocaudal spread along the paraspinal muscles. The clinical effect of ESP and retrolaminar blocks can be explained by epidural and neural foraminal spread of local anesthetic. The ESP block produces additional intercostal spread, which may contribute to more extensive analgesia. The implications of these cadaveric observations require confirmation in clinical studies.
Author	Lopez, Hector Adhikary, Sanjib Das Bernard, Stephanie Chin, Ki Jinn
AuthorAffiliation	Department of Anesthesia, Toronto Western Hospital, University of Toronto, Toronto, Ontario, Canada Department of Radiology, Penn State Hershey Medical Center Department of Orthopedic Surgery, Neural & Behavioral Sciences and Radiology, Penn State Hershey College of Medicine, Hershey, PA
AuthorAffiliation_xml	– name: Department of Anesthesia, Toronto Western Hospital, University of Toronto, Toronto, Ontario, Canada – name: Department of Orthopedic Surgery, Neural & Behavioral Sciences and Radiology, Penn State Hershey College of Medicine, Hershey, PA – name: Department of Radiology, Penn State Hershey Medical Center
Author_xml	– sequence: 1 givenname: Sanjib Das surname: Adhikary fullname: Adhikary, Sanjib Das organization: From the Department of Anaesthesiology and Perioperative Medicine, Penn State College of Medicine – sequence: 2 givenname: Stephanie surname: Bernard fullname: Bernard, Stephanie organization: †Department of Radiology, Penn State Hershey Medical Center; and – sequence: 3 givenname: Hector surname: Lopez fullname: Lopez, Hector organization: ‡Department of Orthopedic Surgery, Neural & Behavioral Sciences and Radiology, Penn State Hershey College of Medicine, Hershey, PA; and – sequence: 4 givenname: Ki Jinn surname: Chin fullname: Chin, Ki Jinn organization: §Department of Anesthesia, Toronto Western Hospital, University of Toronto, Toronto, Ontario, Canada
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Snippet	Background and ObjectivesThe erector spinae plane (ESP) and retrolaminar blocks are ultrasound-guided techniques for thoracoabdominal wall analgesia involving... BACKGROUND AND OBJECTIVESThe erector spinae plane (ESP) and retrolaminar blocks are ultrasound-guided techniques for thoracoabdominal wall analgesia involving... The erector spinae plane (ESP) and retrolaminar blocks are ultrasound-guided techniques for thoracoabdominal wall analgesia involving injection into the...
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SubjectTerms	Anatomic Landmarks - anatomy & histology Anatomic Landmarks - diagnostic imaging Cadaver Epidural Humans Magnetic resonance imaging Magnetic Resonance Imaging - methods Nerve Block - methods Paraspinal Muscles - anatomy & histology Paraspinal Muscles - diagnostic imaging Regional anesthesia Regional anesthesia and acute pain: Brief technical reports Thoracic Vertebrae - anatomy & histology Thoracic Vertebrae - diagnostic imaging
Title	Erector Spinae Plane Block Versus Retrolaminar Block: A Magnetic Resonance Imaging and Anatomical Study
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