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20-September-2008 10:21:22 - Fascia Not to be confused with Fuchsia. For other uses, see Fascia disambiguation. Fascia The rectus sheath and the thoracolumbar fascia provide strong fascial support between the bottom of the ribcage and the top of the pelvis. Fascia creates pathways in the body. The flexor tendons of the hand travel under the flexor retinaculum, the roof of the carpal tunnel. Latin fascia Gray's subject #104 Precursor mesenchyme MeSH Fascia Dorlands/Elsevier f_03/12354757 Fascia făsh'Ä“-É™, pl. fas·ci·ae făsh'Ä“-Ä“, adj. fascial făsh'Ä“-É™l from latin: a band is the soft tissue component of the connective tissue system that permeates the human body. It interpenetrates and surrounds muscles, bones, organs, nerves, blood vessels and other structures. Fascia is an uninterrupted, three-dimensional web of tissue that extends from head to toe, from front to back, from interior to exterior. It is responsible for maintaining structural integrity; for providing support and protection; and acts as a shock absorber. Fascia has an essential role in hemodynamic and biochemical processes, and provides the matrix that allows for intercellular communication. Fascia functions as the body's first line of defense against pathogenic agents and infections. After injury, it is the fascia that creates an environment for tissue repair. 1 Contents 1 Three layers of the fascia 2 Fascial dynamics 3 Fascial pathology 4 Classification by region2223242526272829 4.1 Fasciae 4.1.1 Abdominal viscera 4.1.2 Brain and nervous system 4.1.3 Ears 4.1.4 Eyes 4.1.5 Heart and blood 4.1.6 Respiration 4.1.7 Thyroid 4.1.8 Urinary tract and genitals 4.1.9 Muscles and bones 4.1.9.1 Generality 4.1.9.2 Head 4.1.9.3 Neck 4.1.9.4 Upper Extremity 4.1.9.5 Torso 4.1.9.6 Pelvis 4.1.9.7 Lower extremity 5 References 6 See also 7 External links Three layers of the fascia Superficial fascia is found in the subcutis in most regions of the body, blending with the reticular layer of the dermis. 2 It is present on the face, over the upper portion of the sternocleidomastoid, at the nape of the neck, and overlying the sternum. 3 It is comprised mainly of loose areolar connective tissue and adipose and is the layer that primarily determines the shape of a body. In addition to its subcutaneous presence, this type of fascia surrounds organs and glands, neurovascular bundles, and is found at many other locations where it fills otherwise unoccupied space. It serves as a storage medium of fat and water; as a passageway for lymph, nerve and blood vessels; and as a protective padding to cushion and insulate. 4 Deep fascia is the dense fibrous connective tissue that interpenetrates and surrounds the muscles, bones, nerves and blood vessels of the body. It provides connection and communication in the form of aponeuroses, ligaments, tendons, retinacula, joint capsules, and septa. The deep fasciae envelop all bone periosteum and endosteum; cartilage perichondrium, and blood vessels tunica externa and become specialized in muscles epimysium, perimysium, and endomysium and nerves epineurium, perineurium, and endoneurium. The high density of collagen fibers is what gives the deep fascia its strength and integrity. The amount of elastin fiber determines how much extensibility and resilience it will have. 5 The galea aponeurotica and the temporal fascia The fascia of the diaphragm The aponeurosis of the external abdominal oblique The deep ligaments of the arch of the foot Visceral fascia suspends the organs within their cavities and wraps them in layers of connective tissue membranes. Each of the organs is covered in a double layer of fascia; these layers are separated by a thin serous membrane. The outermost wall of the organ is known as the parietal layer, whereas the skin of the organ is known as the visceral layer. The organs have specialized names for their visceral fasciae. In the brain, they are known as meninges; in the heart they are known as pericardia; in the lungs, they are known as pleura; and in the abdomen, they are known as peritonea. 6 The meninges The pleurae The pericardium and the left cupola of the diaphragm The peritoneum and renal fascia Fascial dynamics Fascia is a highly adaptable tissue. Due to its viscoelastic properties, superficial fascia can stretch to accommodate the deposition of adipose that accompanies both ordinary and prenatal weight gain. After pregnancy and weight loss, the superficial fascia slowly reverts to its original level of tension. Visceral fascia is less extensible than superficial fascia. Due to its suspensory role of the organs, it needs to maintain its tone rather consistently. If it is too lax, it contributes to organ prolapse, yet if it is hypertonic, it restricts proper organ motility. 7 Deep fascia is also less extensible than superficial fascia. It is essentially avascular 8, but is richly innervated with sensory receptors that report the presence of pain nociceptors; change in movement proprioceptors; change in pressure and vibration mechanoreceptors; change in the chemical milieu chemoreceptors; and fluctuation in temperature thermoreceptors. 9, 10 Deep fascia is able to respond to sensory input by contracting; by relaxing; or by adding, reducing, or changing its composition through the process of fascial remodeling. 11 Deep fascia can contract. What happens during the fight-or-flight response is an example of rapid fascial contraction . In response to a real or imagined threat to the organism, the body responds with a temporary increase in the stiffness of the fascia. Bolstered with tensioned fascia, people are able to perform extraordinary feats of strength and speed under emergency conditions. 12 How fascia contracts is still not well understood, but appears to involve the activity of myofibroblasts. Myofibroblasts are fascial cells that are created as a response to mechanical stress. In a two step process, fibroblasts differentiate into proto-myofibroblasts that with continued mechanical stress, become differentiated myofibroblasts. 13 Fibroblasts cannot contract, but myofibroblasts are able to contract in a smooth muscle-like manner. 14 The deep fascia can also relax. By monitoring changes in muscular tension, joint position, rate of movement, pressure, and vibration, mechanoreceptors in the deep fascia are capable of initiating relaxation. Deep fascia can relax rapidly in response to sudden muscular overload or rapid movements. Golgi tendon organs operate as a feedback mechanism by causing myofascial relaxation before muscle force becomes so great that tendons might be torn. Pacinian corpuscles sense changes in pressure and vibration to monitor the rate of acceleration of movement. They will intiate a sudden relaxatory response if movement happens too fast. 15 Deep fascia can also relax slowly as some mechanoreceptors respond changes over longer timescales. Unlike the Golgi tendon organs, Golgi receptors report joint position independent of muscle contraction. This helps the body to know where the bones are at any given moment. Ruffini endings respond to regular stretching and to slow sustained pressure. In addition to initiating fascial relaxation, they contribute to full-body relaxation by inhibiting sympathetic activity which slows down heart rate and respiration. 16 17 When contraction persists, fascia will respond with the addition of new material. Fibroblasts secrete collagen and other proteins into the extracellular matrix where they bind to existing proteins, making the composition thicker and less extensible. Although this potentiates the tensile strength of the fascia, it can unfortunately restrict the very structures it aims to protect. The pathologies resulting from fascial restrictions range from a mild decrease in joint range of motion to severe fascial binding of muscles, nerves and blood vessels, as in compartment syndrome of the leg. However, if fascial contraction can be interrupted long enough, a reverse form of fascial remodeling occurs. The fascia will normalize its composition and tone and the extra material that was generated by prolonged contraction will be ingested by macrophages within the extracellular matrix. 18 Like mechanoreceptors, chemoreceptors in deep fascia also have the ability to promote fascial relaxation. We tend to think of relaxation as a good thing, however fascia needs to maintain some degree of tension. This is especially true of ligaments. To maintain joint integrity, they need to provide adequate tension between bony surfaces. If a ligament is too lax, injury becomes more likely. Certain chemicals, including hormones, can influence the composition of the ligaments. An example of this is seen in the menstrual cycle, where hormones are secreted to create changes in the uterine and pelvic floor fascia. The hormones are not site-specific, however, and chemoreceptors in other ligaments of the body can be receptive to them as well. The ligaments of the knee may be one of the areas where this happens, as a significant association between the ovulatory phase of the menstrual cycle and an increased likelihood for an anterior cruciate ligament injury has been demonstrated. 19 20 It has been suggested that manipulation of the fascia by acupuncture needles is responsible for the physical sensation of qi flowing along meridians in the body.21 Fascial pathology Adhesions Adhesive capsulitis Benign joint hypermobility syndrome Calcific tendinitis Cardiac tamponade Carpal Tunnel Syndrome Cellulitis Compartment syndrome Constrictive pericarditis Dermatomyositis Dupuytren's contracture Ehlers-Danlos syndrome Eosinophilic fasciitis Fibromyalgia Hemopneumothorax Hemothorax Hernia Marfan's syndrome Meningitis Mixed connective tissue disease Myofascial pain syndrome Necrotizing fasciitis Pericardial effusion Pericarditis Peritonitis Plantar fasciitis Pleural effusion Pleurisy Pneumoperitoneum Pneumothorax Polyarteritis nodosa Rheumatoid arthritis Scars Scleroderma Scoliosis Sprain Systemic lupus erythematosus Tendinitis Wegener's granulomatosis Classification by region2223242526272829 Fasciae Abdominal viscera Buccopharyngeal fascia Coronary ligament Falciform ligament Fibrous capsule of Glisson Gastrocolic ligament Gastrolienal ligament Gastrosplenic ligament Greater omentum Hepatocolic ligament Hepatoduodenal ligament Hepatogastric ligament Hepatorenal ligament Ileocecal fold Lesser curvature of the stomach Lesser omentum Ligamentum venosum Mesentery Mesoappendix Periodontal ligament Peritoneum Pharyngeal aponeurosis Round ligament of liver Sigmoid mesocolon Splenorenal ligament Transverse mesocolon Brain and nervous system Arachnoid mater Denticulate ligament Dura mater Endoneurium Epineurium Meninges Nerve fascicle Perineurium Pia mater Ears Annular stapedial ligament Anterior auricular ligament Anterior ligament of malleus Lateral ligament of malleus Posterior auricular ligament Posterior ligament of incus Superior auricular ligament Superior ligament of incus Superior ligament of malleus Tectorial membrane cochlea Eyes Medial palpebral ligament Orbital fascia Orbital septum Zonular fibers Heart and blood Carotid sheath Chordae tendineae Epicardium Interventricular septum Ligamentum arteriosum Pericardium Tunica externa Respiration Annular ligaments of trachea Central tendon of the diaphragm Crus of diaphragm Gastrophrenic ligament Interarticular ligament Lateral arcuate ligament Left triangular ligament Medial arcuate ligament Median arcuate ligament Phrenicocolic ligament Pleura Right triangular ligament Suprapleural membrane Thyroid Cricoarytenoid ligament Cricopharyngeal ligament Cricothyroid ligament Cricotracheal ligament Lateral thyrohyoid ligament Median thyrohyoid ligament Thyrohyoid membrane Urinary tract and genitals Anal fascia Anococcygeal raphe Cardinal ligament External spermatic fascia Broad ligament of the uterus Cooper's ligaments Cremasteric fascia Duodenorenal ligament Endopelvic part of the pelvic fascia Fascia of Camper Fascia of Colles Fascia of Scarpa Fundiform ligament Inferior ligament of epididymis Inferior pubic ligament Internal spermatic fascia Lateral pubovesical ligament Lateral umbilical ligament Medial pubovesical ligament Medial umbilical ligament Median umbilical ligament Mesosalpinx Ovarian ligament Parametrium Perineal body Perineal membrane Puboprostatic ligament Pubovesical ligament Reflected inguinal ligament Renal capsule Renal fascia Round ligament of uterus Superior fascia of the urogenital diaphragm Superior ligament of epididymis Suspensory ligament of the ovary Suspensory ligament of the penis Tunica albuginea ovaries Tunica albuginea penis Tunica albuginea testicles Muscles and bones Generality Endomysium Endosteum Enthesis Epimysium Muscle fascicle Nerve fascicle Perimysium Periosteum Sharpey's fibers Head Alar ligament Anterior atlantoaxial ligament Anterior atlantooccipital membrane Capsule of temporomandibular joint Cruciform ligament of atlas Galea aponeurotica Ligament of apex dentis Masseteric fascia Posterior atlantoaxial ligament Posterior atlantooccipital membrane Pterygospinal ligament Sphenomandibular ligament Tectorial membrane Temporomandibular ligament Temporal fascia Transverse ligament of the atlas Neck Buccopharyngeal fascia Deep cervical fascia Hyoepiglottic ligament Investing layer of deep cervical fascia Nuchal ligament Pretrachial fascia Prevertebral fascia Stylohyoid ligament Stylomandibular ligament Superficial cervical fascia Upper Extremity Acromioclavicular ligament Annular ligaments of fingers Annular ligament of radius Antebrachial fascia Anterior sternoclavicular ligament Axillary fascia Axillary sheath Bicipital aponeurosis Brachial fascia Clavipectoral fascia Collateral ligament of interphalangeal articulations of hand Conoid ligament Coracoacromial ligament Coracoclavicular ligament Coracohumeral ligament Costoclavicular ligament Deep transverse metacarpal ligament Deltoid fascia Dorsal cuboideonavicular ligament Dorsal cuneonavicular ligaments Dorsal cuneocuboid ligament Dorsal intercarpal ligament Dorsal intercuneiform ligaments Dorsal radiocarpal ligament Dorsal radioulnar ligament Extensor retinaculum of the hand Flexor retinaculum of the hand Glenohumeral ligaments Glenoid labrum Inferior transverse ligament of scapula Infraspinatous fascia Interclavicular ligament Interosseous cuneocuboid ligament Interosseous intercarpal ligaments Interosseous intercuneiform ligaments Interosseous membrane of the forearm Lateral intermuscular septum Medial intermuscular septum Oblique cord Palmar aponeurosis Palmar carpal ligament Palmar carpometacarpal ligament Palmar intercarpal ligaments Palmar metacarpophalangeal ligament Palmar radiocarpal ligament Pectoral fascia Pisohamate ligament Pisometacarpal ligament Plantar cuboideonavicular ligament Plantar cuneocuboid ligament Plantar cuneonavicular ligaments Plantar intercuneiform ligaments Posterior carpometacarpal ligament Posterior ligament of elbow Posterior sternoclavicular ligament Radial carpal collateral ligament Radial collateral ligament Radiate carpal ligament Subscapular aponeurosis Superficial transverse ligament of the fingers Superior transverse scapular ligament Supraspinatous fascia Transverse humeral ligament Trapezoid ligament Ulnar carpal collateral ligament Ulnar collateral ligament Vincula tendina Volar radioulnar ligament Torso Anterior longitudinal ligament Aponeurosis of the Obliquus externus abdominis Conjoint tendon Costotransverse ligament Costoxiphoid ligament Fundiform ligament Iliolumbar ligament Interarticular ligament of the head of the rib Interarticular sternocostal ligament Intercrural fibers Interspinal ligament Intertransverse ligament Lateral costotransverse ligament Ligamenta flava Linea alba Linea semilunaris Lumbocostal ligament Posterior longitudinal ligament Radiate ligament Radiate sternocostal ligaments Rectus sheath Sacrospinous ligament Superior costotransverse ligament Supraspinous ligament Tendinous intersection Thoracolumbar fascia Pelvis Anterior sacrococcygeal ligament Anterior sacroiliac ligament Crura of superficial inguinal ring Deep crural arch Deep inguinal ring Diaphragmatic part of the pelvic fascia Fascia of the Obturator internus Fascia of the Piriformis Gluteal aponeurosis Iliac fascia Iliolumbar ligament Iliopectineal arch Iliopectineal fascia Inferior pubic ligament Inguinal ligament Intercrural fibers Interfoveolar ligament Interosseous sacroiliac ligament Lacunar ligament Obturator membrane Pectineal ligament Posterior sacrococcygeal ligament Posterior sacroiliac ligament Reflex inguinal ligament Sacrotuberous ligament Superficial inguinal ring Superior pubic ligament Tendinous arch Transversalis fascia Lower extremity Achilles tendon Annular ligament of femur Annular ligaments of toes Anterior cruciate ligament Anterior ligament of head of fibula Anterior ligament of the lateral malleolus Anterior meniscofemoral ligament Anterior talofibular ligament Arcuate popliteal ligament Articular capsule of the knee joint Bifurcated ligament Calcaneocuboid ligament Calcaneofibular ligament Calcaneonavicular ligament Capsule of hip joint Collateral ligament of interphalangeal articulations of foot Collateral ligament of metatarsophalangeal articulations Coronary ligament of the knee Deep crural arch Fascia lata Fascia cribrosa Femoral sheath Fibular collateral ligament Iliofemoral ligament Iliotibial tract Inferior extensor retinaculum of the foot Inferior transverse ligament of the tibiofibular syndesmosis Interosseous cuneometatarsal ligaments Interosseous membrane of the leg Ischiofemoral ligament Laciniate ligament Ligament of head of femur Medial collateral ligament Oblique popliteal ligament Patellar ligament Peroneal retinacula Plantar fascia Plantar calcaneocuboid ligament Plantar calcaneonavicular ligament Plantar fascia Posterior cruciate ligament Posterior ligament of head of fibula Posterior ligament of the lateral malleolus Posterior meniscofemoral ligament Posterior talofibular ligament Pubofemoral ligament Round ligament of femur Short plantar ligament Spring ligament Superior extensor retinaculum of foot Tibial collateral ligament Transverse acetabular ligament Zona orbicularis References ^ Paoletti, Serge 2006. The Fasciae: Anatomy, Dysfunction Treatment. Seattle, WA: Eastland Press, 151-161. ISBN 0-939616-53-X. ^ Skandalakis, John E.; Skandalakis, P.N.; Skandalakis, L.J.; Skandalakis, J. 2002. Surgical Anatomy and Technique, 2nd Ed.. Atlanta, GA: Springer, 1-2. ISBN 0-38798-752-5. ^ Paoletti, Serge 2006. The Fasciae: Anatomy, Dysfunction Treatment. Seattle, WA: Eastland Press, 23-24. ISBN 0-939616-53-X. ^ Hedley, Gil. 2005. The Integral Anatomy Series Vol. 1: Skin and Superficial fascia DVD. Integral Anatomy Productions. Retrieved on 2006-07-17. ^ Hedley, Gil. 2005. The Integral Anatomy Series Vol. 2: Deep Fascia and Muscle DVD. Integral Anatomy Productions. Retrieved on 2006-07-17. ^ Hedley, Gil. 2005. The Integral Anatomy Series Vol. 3: Cranial and Visceral Fasciae DVD. Integral Anatomy Productions. Retrieved on 2006-07-17. ^ Paoletti, Serge 2006. The Fasciae: Anatomy, Dysfunction Treatment. Seattle, WA: Eastland Press, 146-147. ISBN 0-939616-53-X. ^ Rolf, Ida P. 1989. Rolfing. Rochester, VT: Healing Arts Press, 38. ISBN 0-89281-335-0. ^ Chaitow, Leon 1988. Soft Tissue Manipulation. Rochester, VT: Healing Arts Press, 26-28. ISBN 0-89281-276-1. ^ Schleip, R. 2003. Fascial plasticity - a new neurobiological explanation: Part 1. Journal of Bodywork and Movement Therapies 7 1: 15-19. Elsevier. ^ Myers, Thomas W. 2002. Anatomy Trains. London, UK: Churchill Livingstone, 15. ISBN 0-443-06351-6. ^ Schleip, R.; Klingler W.; Lehmann-Horn, F. 2005. Active fascial contractility: Fascia may be able to contract in a smooth muscle-like manner and thereby influence musculoskeletal dynamics. Medical Hypotheses 65: 274. Elsevier. ^ Tomasek, J.; Gabbiani, G.; Hinz, B.; Chaponnier, C.; Brown, R. 2002. Myofibroblasts and Mechanoregulation of Connective Tissue Remodelling. Molecular Cell Biology 3: 350-352. Nature Publishing Group. ^ Schleip, R.; Klingler, W.; Lehmann-Horn, F. 2005. Active fascial contractility: Fascia may be able to contract in a smooth muscle-like manner and thereby influence musculoskeletal dynamics. Medical Hypotheses 65: 273-277. Elsevier. doi:10.1016/j.mehy.2005.03.005. ^ Chaitow, Leon 1988. Soft Tissue Manipulation. Rochester, VT: Healing Arts Press, 26-27. ISBN 0-89281-276-1. ^ Schleip, R. 2003. Fascial plasticity - a new neurobiological explanation: Part 1. Journal of Bodywork and Movement Therapies 7 1: 11-19. Elsevier. doi:10.1016/S1360-85920200067-0. ^ Schleip, R. 2003. Fascial plasticity - a new neurobiological explanation: Part 2. Journal of Bodywork and Movement Therapies 7 2: 104-116. Elsevier. doi:10.1016/S1360-85920200076-1. ^ Paoletti, Serge 2006. The Fasciae: Anatomy, Dysfunction Treatment. Seattle, WA: Eastland Press, 138, 147-149. ISBN 0-939616-53-X. ^ Wojtys, E.; Huston, L.; Lindenfeld, T.; Hewett, T.; Greenfield M.L. 1998. Association Between the Menstrual Cycle and Anterior Cruciate Ligament Injuries in Female Athletes. American Journal of Sports Medicine 26: 614-619. American Orthopaedic Society for Sports Medicine. ^ Heitz, N.; Eisenman, P.; Beck, C.; Walker, J. 1999. Hormonal Changes Throughout the Menstrual Cycle and Increased Anterior Cruciate Ligament Laxity in Females. Journal of Athletic Training 32 2: 144-149. National Athletic Trainers Association. ^ Kimura M, Tohya K, Kuroiwa K, Oda H, Gorawski EC, Hua ZX, Toda S, Ohnishi M, Noguchi E. Electron microscopical and immunohistochemical studies on the induction of Qi employing needling manipulation. Am J Chin Med. 1992;201:25-35. ^ Dorlands Medical Dictionary - aponeuroses. Merck Source. ^ Dorlands Medical Dictionary - fasciae. Merck Source. ^ Dorlands Medical Dictionary - ligaments. Merck Source. ^ Dorlands Medical Dictionary - membranes. Merck Source. ^ Dorlands Medical Dictionary - tendons. Merck Source. ^ Fasciae and Aponeuroses - Organized by Region. Department of Anatomy, University of Arkansas for Medical Sciences. ^ Fascia of the Head and Neck. Department of Gross Anatomy at Tufts University. ^ Viscera and Fascia Tables. The University of Michigan - Medical Gross Anatomy. See also Look up Fascia in Wiktionary, the free dictionary. Acupuncture Fasciapulsology Fasciotomy Myofascial Release Active Myofascial Release- The Diamond Method Rolfing External links Fascia Research Fascia Research Congress Dr. Robert Schleip on the Books and Ideas Podcast 2007 Norman/Georgetown lesson1layersofbody v d e General anatomy of head and neck - head Face/Occiput Forehead Eye Orbit/Periorbita, Trochlea Ear Temple Cheek Chin Scalp Nose External nose Nostril Nasal septum cartilages of the septum, Greater alar, Lesser alar, Lateral nasal, Accessory nasal, Vomeronasal Olfactory glands Nasal cavity Nasal concha Sphenoethmoidal recess Ethmoid bulla Semilunar hiatus Maxillary hiatus Inferior meatus Vomeronasal organ Paranasal sinuses Naso-pharynx Choana - Pharyngeal opening of auditory tube Salpingopharyngeal fold, Salpingopalatine fold, Torus tubarius - Pharyngeal tonsil - Pharyngeal recess Mouth/oral cavity Palate/roof of mouth Hard palate Soft palate Palatine raphe Incisive papilla Tongue dorsum Taste bud, Median sulcus, Terminal sulcus, Foramen cecum, Lingual tonsils underside Frenulum, Plica fimbriata, Sublingual caruncle Anterior Posterior Glossoepiglottic folds Teeth Permanent Incisor, Canine, Premolar, Molar Deciduous Oro-pharynx arches/fauces Palatoglossal, Palatopharyngeal Oropharyngeal isthmus Palatine tonsil Uvula Salivary glands Parotid gland/Parotid duct Submandibular gland/Submandibular duct Sublingual gland/Major sublingual duct Other Lip Upper, Lower Philtrum Pterygomandibular raphe Vestibule of mouth Fascia Masseteric fascia - Temporal fascia - Galea aponeurotica v d e General anatomy of head and neck - neck including throat Pharynx Laryngopharynx Piriform sinus, Pharyngeal raphe - Esophagus Larynx Cartilages major/unpaired: Epiglottis Vallecula Thyroid Laryngeal prominence, Oblique line, Superior thyroid notch, Superior horn, Inferior horn Cricoid minor/paired: Arytenoid Vocal process, Muscular process Corniculate Cuneiform Ligaments/folds extrinsic ligaments: Hyoepiglottic ligament Thyrohyoid membrane Lateral ligament, Median ligament Thyroepiglottic ligament Cricotracheal ligament intrinsic ligaments - upper: Quadrangular membrane Aryepiglottic, Vestibular ligament/Vestibular fold intrinsic ligaments - lower: Cricothyroid ligament Median, Lateral/Conus elasticus, Vocal ligament/Vocal folds Laryngeal cavity Laryngeal inlet Vestibule Rima vestibuli Ventricle Rima glottidis/Glottis Infraglottic cavity Triangles of the neck Anterior of the neck Muscular, Carotid, Submandibular, Submental Posterior of the neck Occipital, Subclavian Suboccipital Fasciae Deep cervical fascia Pretracheal fascia, Prevertebral fascia, Investing layer Carotid sheath Alar fascia pharynx: Buccopharyngeal fascia Pharyngobasilar fascia Palatine aponeurosis Spaces Retropharyngeal space Danger space Prevertebral space v d e General anatomy of torso Thorax/ Thoracic cavity Mediastinum Superior, Anterior, Middle, Posterior Superior thoracic aperture Inferior thoracic aperture Triangle of auscultation Intercostal space Thoracic plane Thoracic wall/Thoracic cage - fascia Pectoral fascia, Clavipectoral fascia, Thoracolumbar fascia Chest Midsternal line Thoracic diaphragm openings Caval opening, Esophageal hiatus, Aortic hiatus, Foramina of Morgagni Central tendon Crus of diaphragm arcuate ligaments Lateral, Medial, Median Abdomen/ Abdominal cavity Retroperitoneum Paracolic gutters Hepatobiliary triangle anterior abdominal wall Arcuate line, Linea alba, Tendinous intersection, Linea semilunaris, McBurney's point, Traube's space, Inguinal triangle Inguinal canal Deep inguinal ring, Superficial inguinal ring, Intercrural fibers, Crura of superficial inguinal ring Lumbar triangle regions Epigastrium, Hypochondrium, Umbilical region, Latus, Hypogastrium, Inguinal region planes Transpyloric plane, Intertubercular plane, Midclavicular line fascia Fascia of Camper, Fascia of Scarpa, Transversalis fascia, Renal fascia, Rectus sheath Pelvis/ Pelvic cavity Pelvic floor Retropubic space fascia Pelvic fascia, Superior fascia of diaphragm of pelvis, Inferior fascia of diaphragm of pelvis, Fascia of the Obturator internus, Tendinous arch, Iliac fascia, Iliopectineal fascia Perineum Anal triangle Ischioanal fossa, Pudendal canal, Anococcygeal raphe Urogenital triangle Superficial perineal pouch, Deep perineal pouch Perineal body fascia Dartos/fascia of perineum/superficial perineal fascia/Fascia of Colles, Perineal membrane/Inferior fascia of UGD, Superior fascia of UGD v d e General anatomy of upper limbs Arm Axilla Axillary sheath axillary folds Anterior, Posterior spaces Quadrangular space, Triangular space, Triangular interval Clavipectoral triangle compartment of arm Posterior, Anterior fascia Axillary, Brachial - intermuscular septa Lateral, Medial Forearm Cubital fossa Bicipital aponeurosis Cubital tunnel common tendons Extensor, Flexor Interosseous membrane of the forearm compartment of forearm Posterior, Anterior fascia Antebrachial fascia Hand posterior: Extensor retinaculum Extensor expansion Vincula tendina Anatomical snuff box anterior: Flexor retinaculum Carpal tunnel Palmar aponeurosis Ulnar canal Synovial sheath Common synovial sheath for the flexor tendons Finger v d e General anatomy of lower limbs Buttocks Gluteal sulcus - Gluteal cleft Thigh Fascial compartments of thigh Anterior, Medial, Posterior Inguinal ligament Pectineal ligament Lacunar ligament Reflected inguinal ligament Conjoint tendon Interfoveolar ligament Obturator membrane/Obturator canal Femoral triangle Femoral sheath Femoral canal Femoral ring Adductor canal Adductor hiatus fascia/fascia lata Iliotibial tract, Lateral intermuscular septum of thigh, Medial intermuscular septum of thigh, Fascia cribrosa/Saphenous opening Crus anatomic leg Popliteal fossa Calf Shin Pes anserinus Interosseous membrane of the leg Fascial compartments of leg Anterior, Lateral, Posterior fascia/crural fascia Anterior crural intermuscular septum, Posterior crural intermuscular septum, Transverse intermuscular septum Foot Heel Toe Hallux, Fifth toe Sole Achilles tendon Tarsal tunnel fascia Plantar fascia retinacula Peroneal, Inferior extensor, Superior extensor, Flexor Retrieved from http://en..org/wiki/Fascia Categories: Head and neck | Ligaments | Musculoskeletal system | Tissues | Nervous system | Cardiovascular system Views Article Discussion this page History Personal tools Log in / create account Navigation Main page Contents Featured content Current events Random article Search Go Search Interaction Community portal Recent changes Contact Donate to Help Toolbox What links here Related changes Upload file Special pages Printable version Permanent link Cite this page Languages Deutsch Esperanto Español Français Nederlands Português РуÑ?Ñ?кий Svenska Tagalog This page was last modified on 6 August 2008, at 10:09
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