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Musculoskeletal ultrasound education for sports medicine fellows: a suggested/potential curriculum by the American Medical Society for Sports Medicine
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  1. Jonathan Finnoff1,
  2. Mark E Lavallee2,
  3. Jay Smith1
  1. 1Mayo Clinic College of Medicine, Mayo Clinic Sports Medicine Center, Rochester, Minnesota, USA
  2. 2Department of Family Medicine, Indiana University School of Medicine, South Bend, Indiana, USA; South Bend Sports Medicine Fellowship Program; AMSSM Musculoskeletal Ultrasound Curriculum
  1. Correspondence to Dr Mark E Lavallee, Memorial Sports Medicine Institute, 111 West Jefferson Blvd, Suite 100 South Bend, IN 46601, USA; mlavallee{at}memorialsb.org

Abstract

The following musculoskeletal ultrasound (MSK US) curriculum was developed by the American Medical Society for Sports Medicine (AMSSM) to provide a pathway by which a sports medicine fellow can obtain adequate MSK US training during their fellowship to meet the requirements of competency outlined by the American Institute of Ultrasound in Medicine (AIUM) Training Guidelines for the Performance of MSK US Examination. Many fellowship programmes may not be able to follow all of the recommendations outlined by this document owing to their available resources. However, this curriculum can be used as a suggested/potential guideline for MSK US training within a sports medicine fellowship, and may assist programmes in developing or modifying their own internal training methods.

https://doi.org/10.1136/bjsm.2010.078857

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    Overview

    The educational process should include four components.

    Didactic instructional sessions

    The first component suggested is didactic musculoskeletal ultrasound (MSK US). This can be in the form of a dedicated MSK US course or scheduled teaching within the fellowship programme (see section Introduction 252 to MSK US—Didactic Instructional Sessions). The fellow should receive instruction on basic ultrasound physics, image optimisation, advantages and limitations of MSK US, and diagnostic and interventional techniques.

    Didactic practice sessions

    The second aspect of the fellow's education should involve didactic sessions in which the diagnostic scanning and interventional techniques presented during the didactic instructional sessions are practised under the direct supervision of a mentor in order to become proficient with these skills (see section Diagnostic and Interventional MSK US 433—Didactic Practice Sessions).

    Mentored clinical experience

    Third, the fellow should perform diagnostic scanning and interventional procedures on patients in a clinical setting under the direct supervision of a mentor. Once competency for image acquisition and procedural execution has been determined, direct supervision may be curtailed as allowed by institutional policy governing teaching rules.

    Supplementary and continuing education

    The fourth component of the fellow's education should include supplementary education such as reading reference texts and journal articles; presenting MSK US-related articles in journal club on a regular basis; utilising MSK US-related online educational material; attending MSK US conferences and presentations; and performing independent scanning.

    This natural stepwise progression of diagnostic and interventional MSK US education will ensure the acquisition of adequate MSK US skills to allow independent practice of diagnostic and interventional MSK US upon completion of their fellowship.

    Learning objectives

    1. Identify and discuss the function of basic controls on an ultrasound machine console, including:

      1. i) Transducer selection

      2. ii) Depth

      3. iii) Focal zone

      4. iv) Gain

      5. v) Time gain compensation/depth gain compensation

      6. vi) Zoom

    2. b) Discuss the basic physics principles of ultrasound, including Doppler imaging

    3. c) Review a brief history of ultrasonic medicine

    4. d) Demonstrate how to optimise an ultrasound image

    5. e) Describe the normal ultrasonographic appearance of adipose, muscle, tendon, ligament, bone, fascia, vessels, nerve and cartilage

    6. f) Discuss the benefits and limitations of MSK US

    7. Identify and discuss the source and/or implications of basic ultrasound artefacts, including:

      1. i) Anisotropy

      2. ii) Reverberation

      3. iii) Refraction

      4. iv) Through transmission

      5. v) Acoustic Shadowing

    8. h) Perform image acquisition of vascular structures including neovessels using Colour and Power Doppler

    9. Describe and perform a MSK US static and dynamic examination (including proper patient positioning) of the following regions as recommended by the American Institute of Ultrasound in Medicine (AIUM) Practice Guideline for the Performance of the MSK US Examination:

      1. i) Shoulder

      2. ii) Elbow

      3. iii) Wrist–hand

      4. iv) Hip

      5. v) Knee

      6. vi) Ankle–foot

    10. Obtain an acceptable set of MSK US images of the following structures (see online Appendix A):

      1. i) Shoulder

      2. ii) Elbow

      3. iii) Wrist–hand

      4. iv) Hip

      5. v) Knee

      6. vi) Ankle–foot

    11. Demonstrate appropriate labelling of MSK US images

      1. i) Use of text insertion

      2. ii) Use of arrows and measurement calipers

    12. l) Demonstrate how to capture, store and transfer MSK US images

    13. Generate an appropriate MSK US report

      1. i) Diagnostic MSK US

      2. Interventional procedures using MSK US

        1. (1) Injections

        2. (2) Aspirations

    14. n) Identify and dynamically image a needle in the short axis (transverse plane or out of plane) and long axis (longitudinal plane or in plane) using MSK US guidance in a phantom, turkey breast, cadaveric specimen or other imaging medium

    15. o) Demonstrate the ability to guide a needle into a target region or structure using a long axis and a short axis approach in a phantom, turkey breast, cadaveric specimen or other imaging medium

    16. Perform the following interventional procedures:

      1. Shoulder

        1. (1) Subacromial–subdeltoid bursa injection

        2. (2) Intra-articular glenohumeral joint injection

        3. (3) Intra-articular acromioclavicular joint injection

        4. (4) Bicipital tendon sheath/groove injection

      2. Elbow

        1. (1) Intra-articular elbow joint injection

        2. (2) Peritendinous injection of the common extensor tendon origin

        3. (3) Peritendinous injection of the common flexor tendon origin

      3. Wrist-hand

        1. (1) Carpal tunnel injection

        2. (2) First dorsal compartment tendon sheath injection (ie, DeQuervain's)

        3. (3) Intra-articular wrist injection

        4. (4) First carpometacarpal joint injection

      4. Hip

        1. (1) Intra-articular hip injection

        2. (2) Greater trochanteric bursa injection

      5. Knee

        1. (1) Intra-articular knee injection

        2. (2) Pes Anserine bursa injection

        3. (3) Iliotibial band/bursa (distal) injection

      6. Ankle-foot

        1. (1) Intra-articular ankle injection

        2. (2) Peroneal tendon sheath injection

    Resources/references

    1. a) Jacobson JA. Fundamentals of Musculoskeletal Ultrasound. Philadelphia: Saunders Elsevier 2007. ISBN 978-1-4160-3593-0

    2. b) Bianchi S. Ultrasound of the Musculoskeletal System. Berlin Heidelberg: Springer-Verlag 2007. ISBN 978-3-540–42267-9

    3. c) O'Neill JMD. Musculoskeletal Ultrasound: Anatomy and Technique. New York: Springer 2008. ISBN 978-0-387–76609-6

    4. d) McNally EG. Practical Musculoskeletal Ultrasound. London: Elsevier 2005. ISBN 0-443-07350-3

    5. e) Smith J, Finnoff JT. Diagnostic and interventional musculoskeletal ultrasound: part 1. fundamentals. PMR 2009;1:64–75.

    6. f) Smith J, Finnoff JT. Diagnostic and interventional musculoskeletal ultrasound: part 2. PMR 2009;1:162–177.

    7. g) Musculoskeletal ultrasound scanning protocol checklist (see online Appendix A)

    8. American Institute for ultrasound in medicine

      1. i) Practice guideline for the performance of the musculoskeletal ultrasound examination

      2. ii) Practice guideline for the performance of the shoulder ultrasound examination

      3. iii) Training guidelines for the performance of musculoskeletal ultrasound examinations

      4. iv) http://www.aium.org

    9. European Society of skeletal radiology US scanning protocols

      1. i) http://www.essr.org

    10. American College of Radiology

      1. i) Practice guideline for communication of diagnostic imaging findings

      2. ii) http://www.acr.org

    Introduction to MSK US—didactic instructional sessions

    The introduction to MSK US didactic instructional sessions include the six basic units described in this section. Appropriate reading assignments from a reference text should be given to the fellow in preparation for each unit. Several excellent reference texts exist, many of which are listed in the Resources/References of this document. The sample curriculum provided in this document includes reading assignments from a currently available MSK US textbook (Fundamentals of MSK US by John Jacobson), but fellowship directors may substitute reading assignments from any appropriate text. We also recommend using the MSK US scanning protocols outlined in the AIUM Practice Guideline for the Performance of the MSK US Examination when instructing the fellow on scanning techniques. A MSK US Protocol CheckList based upon this document is provided in online Appendix A.

    The first unit introduces the fellow to basic MSK US physics, the history of MSK US, scanning principles, and advantages and limitations of MSK US. Units 2–5 involve demonstration by an experienced MSK ultrasonographer of the static and dynamic scanning technique(s) for one or more regions followed by practice under the direct supervision of the mentor. The fellow should only consider this an introduction to the scanning technique for each region and should frequently practice the scanning techniques independently between didactic sessions. Unit 6 involves three individual sessions dedicated to interventional MSK US procedures. Basic information regarding interventional procedures including pharmacological principles of commonly used medications, patient selection, aseptic technique with MSK US guided procedures, risks associated with interventional procedures and treatment of common adverse events associated with interventional procedures should be addressed early in unit 6, prior to the start of practising the interventions. Common upper- and lower-extremity interventional procedures should be discussed, demonstrated and practised under the supervision of a mentor. Numerous mediums may be utilised for the practice of the interventional procedures. The ideal mediums are unembalmed cadaveric specimens. However, if cadaveric specimens are unavailable, the fellow can practise patient positioning and target acquisition for various interventional procedures on live models followed by practice of needle visualisation and guidance on turkey breasts, pig feet, pig legs, phantoms and/or other non-cadaveric specimens. The fellow should practice needle visualisation and guidance techniques between mentored didactic sessions to enhance their skills.

    Unit 1 Principles of MSK US and an introduction to scanning techniques

    1. Required reading

      1. (1) Jacobson pp. 1–11

      2. (2) Smith J, Finnoff JT. Diagnostic and interventional musculoskeletal ultrasound: part 1. Fundamentals. PMR 2009;1:64–75.

      3. (3) Smith J, Finnoff JT. Diagnostic and interventional musculoskeletal ultrasound: part 2. PMR 2009;1:162–177.

    2. Introduction to MSK US and scanning

      1. (1) Instruction in ‘knobology’ & basic scanning techniques

      2. (2) Instruction on basic US physics

      3. (3) Review the history of diagnostic and interventional MSK US

      4. (4) Demonstration of normal sonographic appearance of bone, cartilage, tendon, muscle, ligament, nerve and artery/vein

      5. (5) Demonstration of the use of colour and power Doppler for imaging vascular and neo-vascular structures

      6. (6) Demonstration of transducer movements to optimise image (translation, heel-toe, tilt, rotation, pressure/compression)

      7. (7) Supervised practice

    Unit 2 MSK US examination of the knee-hip

    1. Reading—knee

      1. (1) Required Jacobson pp. 224–238

      2. (2) Optional Jacobson pp. 238–263

    2. Reading—hip & thigh

      1. (1) Required Jacobson pp. 178–88

      2. (2) Optional Jacobson pp. 188–93

    3. Knee US scanning protocol

      1. (1) Instruction & supervised practice

      2. Resources

        1. (a) MSK US Protocol Checklists—Knee

        2. (b) AIUM Guidelines for Performance of the MSK US Examination

    4. Hip & thigh US scanning protocol

      1. (1) Instruction & supervised practice

      2. Resources

        1. (a) MSK US protocol checklists—Hip–Thigh

        2. (b) AIUM guidelines for performance of the MSK US examination

    5. vii) Independent scanning

    Unit 3 MSK US examination of the elbow-wrist-hand

    1. Reading—Elbow

      1. (1) Required Jacobson pp. 102–120

      2. (2) Optional Jacobson pp. 120–132

    2. Reading—Wrist–hand

      1. (1) Required Jacobson pp. 133–152

      2. (2) Optional Jacobson pp. 152–177

    3. Elbow US scanning protocol

      1. (1) Instruction & Supervised Practice

      2. Resources

        1. (a) MSK US protocol checklists—Elbow

        2. (b) AIUM guidelines for performance of the MSK US examination

    4. Wrist–Hand US scanning protocol

      1. (1) Instruction & supervised practice

      2. Resources

        1. (a) MSK US protocol checklists—Wrist–hand

        2. (b) AIUM guidelines for performance of the MSK US examination

    5. xii) Independent scanning

    Unit 4 MSK US examination of the ankle-foot

    1. Reading

      1. (1) Required Jacobson pp. 264–287

      2. (2) Optional Jacobson pp. 287–331

    2. Ankle–foot US scanning protocol

      1. (1) Instruction & supervised practice

      2. Resources

        1. (a) MSK US protocol checklists—Ankle–foot

        2. (b) AIUM guidelines for performance of the MSK US examination

    3. xv) Independent scanning

    Unit 5 MSK US examination of the shoulder

    1. Reading

      1. (1) Required Jacobson pp. 39–53 pp. 75–80

      2. (2) Optional Jacobson pp. 53–74 pp. 80–101

    2. Shoulder US scanning protocol

      1. (1) Instruction & supervised practice

      2. Resources

        1. (a) MSK US protocol checklists—shoulder

        2. (b) AIUM guidelines for performance of the shoulder US examination

        3. (c) AIUM guidelines for performance of the MSK US examination

    3. xviii) Independent scanning

    Unit 6 Interventional procedures using MSK US

    1. xix) Required reading Jacobson pp. 11–14

    2. Lectures & hands-on sessions

      1. Injection principles and practice

        1. (a) Lecture and hands-on practice using phantoms, turkey breasts, pigs feet or other non-cadaveric specimens

      2. Upper extremity i

        1. Demonstration and hands-on practice using an upper extremity cadaveric specimen

          1. i) Subacromial-subdeltoid bursa injection

          2. ii) Intra-articular glenohumeral joint injection

          3. iii) Intra-articular acromioclavicular joint injection

          4. iv) Bicipital tendon sheath/groove injection

          5. v) Intra-articular elbow joint injection

          6. xiii) Peritendinous injection of the common extensor tendon origin

          7. vii) Peritendinous injection of the common flexor tendon origin

          8. viii) Carpal tunnel injection

          9. ix) First dorsal compartment tendon sheath injection (ie, DeQuervain's)

          10. x) Intra-articular wrist injection

          11. xi) First carpometacarpal joint injection

      3. Lower extremity injections

        1. Demonstration and hands-on practice using a lower-extremity cadaveric specimen

          1. i) Intra-articular hip injection

          2. ii) Greater trochanteric bursa injection

          3. iii) Intra-articular knee injection

          4. iv) Pes Anserine bursa injection

          5. v) Iliotibial band/bursa (distal) injection

          6. vi) Intra-articular ankle injection

          7. vii) Peroneal tendon sheath injection

    Diagnostic and interventional MSK US—didactic practice sessions

    Didactic practice sessions should be scheduled on a regular basis especially early in training during which the fellow practices, under the direct supervision of their mentor, the diagnostic and interventional MSK US techniques introduced during the didactic instructional sessions. The didactic practice sessions should include the following:

    1. (1) The scanning techniques for each anatomical region should be practised and relevant structures should be imaged (see the AIUM practice guideline for the performance of the MSK US examination located on the AIUM website at http://www.aium.org, and the MSK US scanning checklist provided in online Appendix A of this document).

    2. (2) The fellow should also be instructed on proper image labelling and storage of captured images. Transference of images should follow the guidelines outlined by the Health Insurance Portability and Accountability Act (HIPAA).

    3. (3) Between didactic practice sessions, the fellow should complete a predetermined number of regional MSK US examinations on volunteers. The images should be saved and later reviewed with the mentor to ensure they are adequate and have been labelled appropriately.

    4. (4) Interventional procedures should be practised on a regularly scheduled basis, using cadaveric specimens, preferably unembalmed. If cadaveric specimens are not available, the fellow should practice appropriate imaging of target structures on live models, and should practice needle imaging and guidance techniques using turkey breasts, pig feet, pig legs, phantoms or other appropriate medium. As the fellow's skills improve, more advanced MSK US examination techniques and interventional procedures should be introduced into the didactic practice sessions.

    Diagnostic and interventional MSK US—mentored clinical experience

    The sports medicine fellow should have regularly scheduled clinical time in which they receive supervised hands-on experience performing diagnostic and interventional MSK US on patients. The fellow should practise their diagnostic and interventional MSK US skills but should also focus on enhancing their image optimisation and labelling abilities, and interpretation of diagnostic MSK US examinations. It is important for the fellow to be able to communicate their findings to other healthcare professionals. It is recommended that the fellow use the American College of Radiology Practice Guideline for Communication of Diagnostic Imaging Findings to assist in formulating appropriate diagnostic and/or interventional MSK US procedure notes. Those utilising electronic medical record (EMR) may be able to develop preset reporting protocols.

    This component of the sports medicine fellow's MSK US training process is imperative. It provides the fellow with a supervised environment in which to practise diagnostic and interventional MSK US skills in order to prepare them for independent practice. Fellows should be exposed to a wide variety of pathology during their diagnostic MSK US examination experiences, as well as a multitude of common interventional MSK US procedures. The fellow should be instructed on obtaining informed consent prior to performing interventional ultrasound procedures.

    Supplementary and continuing MSK US education

    The fellow's MSK US education should not be restricted to the formal educational activities outlined in the sections Introduction 252 to MSK US—Didactic Instructional Sessions, Diagnostic and Interventional MSK US 433—Didactic Practice Sessions and Diagnostic and Interventional MSK 461 US—Mentored Clinical Experience. The number of hours to accomplish this will vary from programme to programme and from fellow to fellow. Rather, the fellow should be encouraged to:

    1. (1) Read MSK US journals and texts on a regular basis

    2. (2) Review MSK US related articles on regular basis. It is recommended that the fellow present a MSK US related journal article during journal club at least on a quarterly basis

    3. (3) Participate in online MSK US related courses

    4. (4) Read online MSK US related educational material

    5. (5) Attend MSK US related conferences

    6. (6) Independently practice MSK US examinations and interventional procedures on volunteers and models, respectively

    7. (7) Consider membership to the AIUM

    MSK US record keeping and competency

    The sports medicine fellow should maintain meticulous records of all MSK US educational activities that they participate in throughout their fellowship. In addition, the fellow should maintain a procedure log of all diagnostic and interventional MSK US procedures that they observed and performed. This information can assist when determining competency in diagnostic and interventional MSK US upon completion of their fellowship. The fellowship should attempt to meet the competency criteria outlined by the AIUM Training Guidelines for the Performance of MSK US Examinations. The portion of this document that applies to a sports medicine fellow provides the following competency guideline:

    Completion of a residency or fellowship program supervised by a physician qualified to perform musculoskeletal ultrasound that provides structured musculoskeletal ultrasound training, including the performance, interpretation, and reporting of 150 musculoskeletal ultrasound examinations. Unless within 2 years of completion of a residency and/or fellowship, the physician will also need to have completed 40 hours of AMA PRA Category 1 Credits specific to MSK ultrasound, including at least 1 MSK ultrasound course that includes hands-on training.

    In addition to completing the fellowship's MSK US curriculum and meeting the minimum requirements outlined by the AIUM training guidelines (see above), it is recommended that the fellowship director/ teaching faculty develop an objective system of measurement (eg, practicum and/or written test) to determine the fellow's knowledge and skill in diagnostic and interventional MSK US and establish competency.

    Appendix A. MSK US Examination Checklist

    1. (1) Required—shown in bold type face

    2. (2) Optional—shown in italics

    Shoulder

    • Biceps tendon

    • Subscapularis

    • Dynamic examination for biceps subluxation (as indicated)

    • Acromioclavicular joint

    • Infraspinatus

    • Posterior glenohumeral joint

    • Spinoglenoid notch

    • Supraspinatus (transverse and longitudinal)

    • Dynamic rotator cuff evaluation

    • Supraspinatus notch (if indicated)

    • Extended field of view—supraspinatus & infraspinatus (as indicated)

    With the exception of the shoulder where a complete examination should always be performed, the ultrasound examination may be tailored to a specific area depending on the clinical presentation.

    Elbow

    Anterior:

    • Brachioradialis muscle

    • Radial nerve

    • Anterior humeroradial joint

    • Radial fossa

    • Anterior humeroulnar joint

    • Coronoid fossa

    • Brachialis muscle

    • Brachial artery and vein

    • Pronator teres

    • Median nerve

    • Biceps tendon, including dynamic scanning

    • Dynamic scanning of annular recess of the neck of the radius (supination/pronation)

    Lateral:

    • Lateral epicondyle and attachment of common extensor tendon

    • Lateral collateral ligament complex

    • Lateral humeroradial joint, including dynamic imaging as indicated

    • Proximal attachment of brachioradialis (as indicated)

    • Radial nerve course via lateral elbow and supinator muscle (as indicated)

    • Proximal attachment of extensor carpi radialis longus (as indicated)

    Medial:

    • Medial epicondyle

    • Common flexor tendon

    • Ulnar collateral ligament

    • Ulnar nerve

    • Dynamic flexion-extension to evaluate for ulnar nerve subluxation and/or snapping triceps tendon (as indicated)

    • Dynamic valgus stress of ulnar collateral ligament (as indicated)

    Posterior:

    • Posterior joint space

    • Triceps tendon

    • Olecranon process

    • Olecranon bursa

    Wrist and Hand

    Volar:

    • Transverse & longitudinal images from the volar wrist crease to the thenar muscles

    • Carpal tunnel contents

      • Flexor retinaculum

      • Median nerve

      • Flexor pollicis longus tendon

      • Flexor digitorum profundus and superficialis tendons

      • Dynamic examination with flexion and extension—motion of tendons and median nerve

    • Palmaris longus tendon

    • Flexor carpi radialis longus tendon (occult ganglion cyst)

    • Ulnar nerve and ulnar artery within Guyon's canal

    • Flexor carpi ulnaris tendon

    • Trace all tendons followed to their sites of insertion if clinically indicated

    • Joints as clinically indicated

    Ulnar/medial:

    • Extensor carpi ulnaris tendon

    • Triangular fibrocartilage complex and meniscus homologue

    • Dynamic examination for extensor carpi ulnaris subluxation (as indicated)

    • Joints as clinically indicated

    Dorsal:

    • Tendons in the six dorsal compartments (nine tendons)

    • Dynamic tendon examination—flexion/extension of the fingers (as indicated)

    • Dorsal scapholunate ligament(occult ganglion cyst)

    • Trace all tendons followed to their sites of insertion if clinically indicated

    • Joints as clinically indicated

    • Superficial radial nerve (as indicated)

    Hip

    Anterior:

    • Anterior hip joint, femoral head, femoral neck, capsule and joint effusion (sagittal oblique orientation, parallel to long axis of femoral neck)

    • Anterior labrum

    • Iliopsoas tendon and bursa

    • Femoral vessels and nerve

    • Sartorius and rectus femoris muscles

    • Dynamic scanning if snapping hip (as indicated)

    • Lateral femoral cutaneous nerve (as indicated)

    Lateral:

    • Gluteus medius

    • Gluteus minimus

    • Tensor fascia and iliotibial band

    • Gluteus maximus and greater trochanteric bursa

    • Dynamic scanning for snapping hip (as indicated)

    Medial:

    • - Hip placed in external rotation with 45° knee flexion (frog-leg position)

    • Adductor muscles

    • Distal iliopsoas tendon

    • Pubic bone and symphysis

    • Distal rectus abdominis insertion

    Posterior:

    • Glutei muscles (imaged obliquely from origin to greater trochanter/linea aspera)

    • Hamstring muscles

    • Ischial tuberosity

    • Sciatic nerve

    Prosthetic Hip:

    • Assess for joint effusions and extra-articular fluid collections

    • Greater trochanter and integrity of gluteal attachments (as indicated)

    • Iliopsoas tendon and bursa

    • Impingement on acetabular component (as indicated)

    Knee

    Anterior:

    • Quadriceps tendon

    • Suprapatellar and medial and lateral patellofemoral joint recesses/effusion

    • Medial and lateral patellar retinaculum

    • Patella and Prepatellar bursa

    • Patellar tendon

    • Superficial infrapatellar bursa

    • Deep infrapatellar bursa

    • Tibial tubercle

    • Vastus medialis and medial retinaculum

    • Vastus lateralis and lateral retinaculum

    • Distal femoral cartilage (as indicated) (assessed at 90° of flexion and dynamically to 30°)

    • Distal ACL insertion (as indicated) (knee in maximum flexion)

    Medial:

    • MCL/tibial collateral ligament

    • Pes anserine tendons and bursa

    • Medial meniscus

    • Medial patellar retinaculum

    • Valgus stress testing (as indicated)

    Lateral:

    • LCL/fibular collateral ligament

    • Iliotibial band and bursa

    • Lateral meniscus

    • Biceps femoris tendon

    • Common peroneal nerve

    • Popliteus tendon

    • Lateral patellar retinaculum

    • Varus stress test (as indicated)

    • Proximal tibiofibular joint (as indicated)

    Posterior:

    • Popliteal fossa

    • Semimembranosus

    • Medial gastrocnemius muscle, tendon and bursa

    • Popliteal cyst (document communicating stalk)

    • Popliteal artery and vein

    • Sciatic, tibial and common fibular nerves

    • Posterior horns of both menisci (as indicated)

    • PCL (as indicated) (may be seen in sagittal oblique plane)

    Ankle/foot

    Anterior:

    • Tibialis anterior (from musculotendinous junction to insertion)

    • Extensor hallucis longus

    • Extensor digitorum longus

    • Peroneus tertius (congenitally absent in some patients)

    • Deep peroneal nerve and dorsalis pedis artery

    • Anterior joint recess (effusion, loose bodies and synovial thickening)

    • Anterior joint capsule

    • Anterior tibiofibular ligament (oblique axial plane)

    Medial:

    • Posterior tibialis

    • Flexor digitorum longus

    • Posterior tibial nerve

    • Medial and lateral plantar nerves (as indicated)

    • Tibial artery and veins

    • Flexor hallucis longus

    • Deltoid ligament

    Lateral:

    • Peroneus brevis

    • Peroneus longus

    • Superior peroneal retinaculum

    • Anterior talofibular ligament

    • Calcaneofibular ligament

    • PTFL (as able and indicated)

    • Dynamic assessment for peroneal subluxation (as indicated)

    • Sural nerve (as indicated)

    Posterior:

    • Achilles tendon and paratenon

    • Plantaris tendon (as indicated)

    • Retrocalcaneal bursa

    • Retro-Achilles/superficial Achilles bursa

    • Dynamic scanning in of Achilles (as indicated to assist with tear evaluation)

    Inferior:

    • Plantar fascia

    • Plantar fat pad

    Interdigital:

    Dorsal or plantar approach can be used

    • Longitudinal and transverse views

    • Intermetatarsal bursa (on the dorsal aspect of the interdigital nerve)

    • Dynamic scanning, applying pressure for Morton's neuroma, and/or ultrasonographic Mulder's click (as indicated)

    Footnotes

    • Competing interests None.

    • Provenance and peer review Not commissioned; externally peer reviewed.