{"title":"Angular force mechanics of bilateral accessory piriformis muscles with unilateral Type II sciatic nerve involvement","authors":"Alec J. Steever, Ethan L. Snow","doi":"10.1016/j.tria.2024.100336","DOIUrl":null,"url":null,"abstract":"<div><h3>Introduction</h3><p>The piriformis muscle coordinates external rotation and abduction of the thigh. The superior gluteal and sciatic nerves characteristically enter the gluteal region just superior and inferior to the piriformis, respectively. Variations in piriformis morphology can lesion these nerves but reports of concurrent piriformis aberrations with biomechanical analysis are scarce. The objective of the present study is to investigate a case of bilateral accessory piriformis muscles with concomitant unilateral sciatic nerve involvement via gross examination, biomechanical analyses of angular force mechanics, and intermuscular architectural comparability analyses.</p></div><div><h3>Methods</h3><p>The present case was discovered during routine human cadaver dissection. The aberrations were cleaned and photographed in situ. Attachment angles of the accessory piriformis muscles and split piriformis belly to the force axis of the typical piriformis were measured and recorded. The mean length of observed sarcomeres in each muscle was measured via light microscopy to calculate normalized maximal isometric forces (<em>F</em><sub><em>max</em></sub>) and atypical force vectors on the common piriformis tendon. An intermuscular architectural comparability analysis was also performed.</p></div><div><h3>Results</h3><p>The left and right accessory piriformis muscles (<em>F</em><sub><em>max</em></sub> = 6.52 N and 8.62 N) originated on the gluteal surfaces and inserted onto the tendons of the piriformis muscles (<em>F</em><sub><em>max</em></sub> = 46.25 N and 42.44 N) at 30.1° and 39.5°, respectively. Notably, the superior gluteal nerve coursed between the two piriformis muscles. Concurrently, the superior (common fibular) segment of the left sciatic nerve coursed through piriformis (Type II presentation), separating a small muscular belly (<em>F</em><sub><em>max</em></sub> = 3.14 N) which joined the piriformis tendon at 30.3° inferiorly, was architecturally similar to both accessory piriformis muscles, and generated 1.46 N of compressive force on the nerve.</p></div><div><h3>Conclusions</h3><p>Accessory piriformis muscles can influence ipsilateral hip mechanics by imposing atypical angular forces on the piriformis tendon and may instigate contralateral hip instability during the swing phase of the gait cycle (Trendelenburg sign) by lesioning the superior gluteal nerve. Concomitant aberrations, such as a Type II piriformis-sciatic complex, could also compress the sciatic nerve and elicit piriformis syndrome sequalae (e.g., sciatica). This case report may inform medical educators, clinicians, and anatomy researchers about these and other piriformis aberrations when deliberating related cases.</p></div>","PeriodicalId":37913,"journal":{"name":"Translational Research in Anatomy","volume":"37 ","pages":"Article 100336"},"PeriodicalIF":0.0000,"publicationDate":"2024-08-10","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"https://www.sciencedirect.com/science/article/pii/S2214854X24000608/pdfft?md5=9b8c6e66cfba8e40ca13cb92e5a26358&pid=1-s2.0-S2214854X24000608-main.pdf","citationCount":"0","resultStr":null,"platform":"Semanticscholar","paperid":null,"PeriodicalName":"Translational Research in Anatomy","FirstCategoryId":"1085","ListUrlMain":"https://www.sciencedirect.com/science/article/pii/S2214854X24000608","RegionNum":0,"RegionCategory":null,"ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":null,"EPubDate":"","PubModel":"","JCR":"Q3","JCRName":"Medicine","Score":null,"Total":0}
引用次数: 0
Abstract
Introduction
The piriformis muscle coordinates external rotation and abduction of the thigh. The superior gluteal and sciatic nerves characteristically enter the gluteal region just superior and inferior to the piriformis, respectively. Variations in piriformis morphology can lesion these nerves but reports of concurrent piriformis aberrations with biomechanical analysis are scarce. The objective of the present study is to investigate a case of bilateral accessory piriformis muscles with concomitant unilateral sciatic nerve involvement via gross examination, biomechanical analyses of angular force mechanics, and intermuscular architectural comparability analyses.
Methods
The present case was discovered during routine human cadaver dissection. The aberrations were cleaned and photographed in situ. Attachment angles of the accessory piriformis muscles and split piriformis belly to the force axis of the typical piriformis were measured and recorded. The mean length of observed sarcomeres in each muscle was measured via light microscopy to calculate normalized maximal isometric forces (Fmax) and atypical force vectors on the common piriformis tendon. An intermuscular architectural comparability analysis was also performed.
Results
The left and right accessory piriformis muscles (Fmax = 6.52 N and 8.62 N) originated on the gluteal surfaces and inserted onto the tendons of the piriformis muscles (Fmax = 46.25 N and 42.44 N) at 30.1° and 39.5°, respectively. Notably, the superior gluteal nerve coursed between the two piriformis muscles. Concurrently, the superior (common fibular) segment of the left sciatic nerve coursed through piriformis (Type II presentation), separating a small muscular belly (Fmax = 3.14 N) which joined the piriformis tendon at 30.3° inferiorly, was architecturally similar to both accessory piriformis muscles, and generated 1.46 N of compressive force on the nerve.
Conclusions
Accessory piriformis muscles can influence ipsilateral hip mechanics by imposing atypical angular forces on the piriformis tendon and may instigate contralateral hip instability during the swing phase of the gait cycle (Trendelenburg sign) by lesioning the superior gluteal nerve. Concomitant aberrations, such as a Type II piriformis-sciatic complex, could also compress the sciatic nerve and elicit piriformis syndrome sequalae (e.g., sciatica). This case report may inform medical educators, clinicians, and anatomy researchers about these and other piriformis aberrations when deliberating related cases.
期刊介绍:
Translational Research in Anatomy is an international peer-reviewed and open access journal that publishes high-quality original papers. Focusing on translational research, the journal aims to disseminate the knowledge that is gained in the basic science of anatomy and to apply it to the diagnosis and treatment of human pathology in order to improve individual patient well-being. Topics published in Translational Research in Anatomy include anatomy in all of its aspects, especially those that have application to other scientific disciplines including the health sciences: • gross anatomy • neuroanatomy • histology • immunohistochemistry • comparative anatomy • embryology • molecular biology • microscopic anatomy • forensics • imaging/radiology • medical education Priority will be given to studies that clearly articulate their relevance to the broader aspects of anatomy and how they can impact patient care.Strengthening the ties between morphological research and medicine will foster collaboration between anatomists and physicians. Therefore, Translational Research in Anatomy will serve as a platform for communication and understanding between the disciplines of anatomy and medicine and will aid in the dissemination of anatomical research. The journal accepts the following article types: 1. Review articles 2. Original research papers 3. New state-of-the-art methods of research in the field of anatomy including imaging, dissection methods, medical devices and quantitation 4. Education papers (teaching technologies/methods in medical education in anatomy) 5. Commentaries 6. Letters to the Editor 7. Selected conference papers 8. Case Reports
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