César Fernández-de-Las-Peñas1, Juan A Mesa-Jiménez2, Jose A Paredes-Mancilla3, Shane L Koppenhaver4, Samuel Fernández-Carnero5. 1. Department of Physical Therapy, Occupational Therapy, Physical Medicine and Rehabilitation of Universidad Rey Juan Carlos, Alcorcón, Spain; Cátedra de Investigación y Docencia en Fisioterapia: Terapia Manual y Punción Seca, Universidad Rey Juan Carlos, Alcorcón, Madrid, Spain. Electronic address: cesar.fernandez@urjc.es. 2. Department of Physical Therapy, Universidad San-Pablo CEU, Madrid, Spain; Máster Oficial en Dolor Orofacial y Disfunción Cráneo-Mandibular, Universidad San-Pablo CEU, Madrid, Spain. 3. Department of Anatomy and Medicine, Universidad San-Pablo CEU, Madrid, Spain. 4. US Army-Baylor University Doctoral Program in Physical Therapy, San Antonio, Texas. 5. Department of Physical Therapy, Universidad Francisco de Victoria, Madrid, Spain.
Abstract
OBJECTIVE: The aim of this study was to determine if a needle is able to reach the cervical multifidus during the application of dry needling or acupuncture. METHODS: Dry needling and ultrasound imaging of cervical multifidi was conducted on 5 patients (age: 32 ± 5 years) with mechanical neck pain and on 2 fresh cadavers (age: 64 ± 1 years). Dry needling was done using a needle of 40 mm in length inserted perpendicular to the skin about 1 cm lateral to the spinous process at C3-C4. The needle was advanced from a posterior to anterior direction into the cervical multifidus with a slight inferior-medial angle (approximately 10°) to reach the vertebra lamina. For the cadaveric study, the multifidus was isolated by carefully resecting the superficial posterior cervical muscles: trapezius, splenius, and semispinalis. For the ultrasonographic study, a convex transducer was placed transversely over C3-C4 after the insertion of the needle into the muscle. RESULTS: The results of both the cadaveric and ultrasonic studies found that the needle does pierce the cervical multifidus muscle during insertion and that the tip of the needle rests properly against the vertebral laminae, thereby guarding the sensitive underlying spinal structures from damage. CONCLUSION: This anatomical and ultrasound imaging study supports that dry needling of the cervical multifidus could be conducted clinically.
OBJECTIVE: The aim of this study was to determine if a needle is able to reach the cervical multifidus during the application of dry needling or acupuncture. METHODS: Dry needling and ultrasound imaging of cervical multifidi was conducted on 5 patients (age: 32 ± 5 years) with mechanical neck pain and on 2 fresh cadavers (age: 64 ± 1 years). Dry needling was done using a needle of 40 mm in length inserted perpendicular to the skin about 1 cm lateral to the spinous process at C3-C4. The needle was advanced from a posterior to anterior direction into the cervical multifidus with a slight inferior-medial angle (approximately 10°) to reach the vertebra lamina. For the cadaveric study, the multifidus was isolated by carefully resecting the superficial posterior cervical muscles: trapezius, splenius, and semispinalis. For the ultrasonographic study, a convex transducer was placed transversely over C3-C4 after the insertion of the needle into the muscle. RESULTS: The results of both the cadaveric and ultrasonic studies found that the needle does pierce the cervical multifidus muscle during insertion and that the tip of the needle rests properly against the vertebral laminae, thereby guarding the sensitive underlying spinal structures from damage. CONCLUSION: This anatomical and ultrasound imaging study supports that dry needling of the cervical multifidus could be conducted clinically.
Authors: Andrew M Ball; Michelle Finnegan; Shane Koppenhaver; Will Freres; Jan Dommerholt; Orlando Mayoral Del Moral; Carel Bron; Randy Moore; Erin E Ball; Emily E Gaffney Journal: J Man Manip Ther Date: 2019-02-20
Authors: Stephanie R Albin; Larisa R Hoffman; Cameron W MacDonald; Micah Boriack; Lauren Heyn; Kaleb Schuler; Annika Taylor; Jennie Walker; Shane L Koppenhaver; Mark F Reinking Journal: Int J Sports Phys Ther Date: 2021-12-02