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Section 9 - Musculoskeletal

from Part II - Traumatic Conditions

Published online by Cambridge University Press:  05 April 2016

Edited by
Bharti Khurana ,
Jacob Mandell ,
Asha Sarma  and
Stephen Ledbetter
Bharti Khurana
Affiliation:
Brigham and Women's Hospital
Jacob Mandell
Affiliation:
Brigham and Women's Hospital, and Harvard Medical School, Massachusetts
Stephen Ledbetter
Affiliation:
Brigham and Women’s Hospital
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Emergency Radiology COFFEE Case Book
Case-Oriented Fast Focused Effective Education
 , pp. 502 - 501
Publisher: Cambridge University Press
Print publication year: 2016

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References

Further reading

Herkowitz, H. N., Rothman, R. H., Simeone, F. A. Rothman–Simeone, The Spine. Philadelphia: Saunders Elsevier, 2006.Google Scholar
Patel, A. A. et al. Subaxial cervical spine trauma classification: the Subaxial Injury Classification system and case examples. Neurosurg Focus 25, E8 (2008).CrossRefGoogle ScholarPubMed
Pimentel, L. & Diegelmann, L. Evaluation and management of acute cervical spine trauma. Emerg. Med. Clin. North Am. 28, 719738 (2010).Google Scholar
Radcliff, K. & Thomasson, B. G. Flexion–distraction injuries of the subaxial cervical spine. Seminars in Spine Surgery 25, 4556 (2013).Google Scholar
Vaccaro, A. R. et al. The subaxial cervical spine injury classification system: a novel approach to recognize the importance of morphology, neurology, and integrity of the disco-ligamentous complex. Spine 32, 23652374 (2007).Google Scholar

Further reading

Bagley, L. J. Imaging of spinal trauma. Radiol. Clin. North Am. 44, 112, vii (2006).Google Scholar
Dundamadappa, S. K. & Cauley, K. A. MR imaging of acute cervical spinal ligamentous and soft tissue trauma. Emerg Radiol. 19, 277286 (2012).Google Scholar
Herkowitz, H. N., Rothman, R. H., & Simeone, F. A. Rothman–Simeone, The Spine. Philadelphia: Saunders Elsevier, 2006.Google Scholar
Khurana, B., Sheehan, S. E., Sodickson, A., Bono, C. M. & Harris, M. B. Traumatic thoracolumbar spine injuries: what the spine surgeon wants to know. Radiographics 33, 20312046 (2013).CrossRefGoogle ScholarPubMed
Looby, S. & Flanders, A. Spine trauma. Radiol. Clin. North Am. 49, 129163 (2011).CrossRefGoogle ScholarPubMed

Further reading

Campbell, SE. Radiography of the hip: lines, signs, and patterns of disease. Semin Roentgenol 2005;40(3):290319.CrossRefGoogle ScholarPubMed
Kellam, JF, Mayo, KA. Pelvic Ring Disruption: Skeletal Trauma 3rd edn. Philadelphia, PA: Saunders, pp. 10521108.Google Scholar
Khurana, B, Sheehan, SE, Sodickson, AD, Weaver, MJ. Pelvic ring fractures: what the orthopedic surgeon wants to know. Radiographics 2014;34(5):1317-1333.Google Scholar
Stambaugh, LE, Blackmore, CC. Pelvic ring disruptions in emergency radiology. European Journal of Radiology 2003;48(1):7187.CrossRefGoogle ScholarPubMed
White, CE, Hsu, JR, Holcomb, JB. Haemodynamically unstable pelvic fractures. Injury 2009;40(10):10231030.CrossRefGoogle ScholarPubMed
Khurana, B et al. Abbreviated MRI for patients presenting to the emergency department with hip pain. AJR 2012;198(6):W581–588.CrossRefGoogle Scholar

Further reading

Bennett, E. H. (1886). “On fracture of the metacarpal bone of the thumb.” Br Med J 2(1331): 1213.Google Scholar
Breen, T. F., Gelberman, R. H., et al. (1988). “Intra-articular fractures of the basilar joint of the thumb.” Hand Clin 4(3): 491501.Google Scholar
Cannon, S. R., Dowd, G. S., et al. (1986). “A long-term study following Bennett’s fracture.” J Hand Surg Br 11(3): 426431.Google Scholar
Freeland, A. E., Geissler, W. B., et al. (2002). “Surgical treatment of common displaced and unstable fractures of the hand.” Instr Course Lect 51: 185201.Google Scholar
Jupiter, J. B., Hastings, H., II, et al. (2010). “The treatment of complex fractures and fracture-dislocations of the hand.” Instr Course Lect 59: 333341.Google Scholar
Kjaer-Petersen, K., Langhoff, O., et al. (1990). “Bennett’s fracture.” J Hand Surg Br 15(1): 5861.Google Scholar
Langhoff, O., Andersen, K., et al. (1991). “Rolando’s fracture.” J Hand Surg Br 16(4): 454459.Google Scholar
Pollen, A. G. (1968). “The conservative treatment of Bennett’s fracture-subluxation of the thumb metacarpal.” J Bone Joint Surg Br 50(1): 91101.Google Scholar
Rockwood, C. A., Green, D. P., et al. (2006). Rockwood and Green’s fractures in adults. Philadelphia: Lippincott Williams & Wilkins.Google Scholar

Further reading

Bado, J. L. (1967). “The Monteggia lesion.” Clin Orthop Relat Res 50: 7186.Google Scholar
Beutel, B. G. (2012). “Monteggia fractures in pediatric and adult populations.” Orthopedics 35(2): 138144.Google Scholar
Dymond, I. W. (1984). “The treatment of isolated fractures of the distal ulna.” J Bone Joint Surg Br 66(3): 408410.Google Scholar
Nicolaidis, S. C., Hildreth, D. H., et al. (2000). “Acute injuries of the distal radioulnar joint.” Hand Clin 16(3): 449459.Google Scholar
Ring, D., Jupiter, J. B., et al. (1998). “Monteggia fractures in adults.” J Bone Joint Surg Am 80(12): 17331744.CrossRefGoogle ScholarPubMed
Rockwood, C. A., Green, D. P., et al. (2006). Rockwood and Green’s fractures in adults. Philadelphia: Lippincott Williams & Wilkins.Google Scholar

Further reading

Cheung, E. V. (2008). “Chronic lateral elbow instability.” Orthop Clin North Am 39(2): 221228.Google Scholar
Chung, C. B., and Steinbach, L. S. (2010). MRI of the upper extremity : shoulder, elbow, wrist and hand. Philadelphia, PA; Wolters Kluwer Health / Lippincott Williams & Wilkins.Google Scholar
Coonrad, R. W., Roush, T. F., et al. (2005). “The drop sign, a radiographic warning sign of elbow instability.” J Shoulder Elbow Surg 14(3): 312317.Google Scholar
Cotten, A., Jacobson, J., et al. (1997). “Collateral ligaments of the elbow: conventional MR imaging and MR arthrography with coronal oblique plane and elbow flexion.” Radiology 204(3): 806812.Google Scholar
Morrey, B. F., and Sanchez-Sotelo, J. (2009). The elbow and its disorders. Philadelphia, PA: Saunders/Elsevier.Google Scholar
O’Driscoll, S. W., Jupiter, J. B., et al. (2003). “Difficult elbow fractures: pearls and pitfalls.” Instr Course Lect 52: 113134.Google Scholar
O’Driscoll, S. W., Jupiter, J. B., et al. (2001). “The unstable elbow.” Instr Course Lect 50: 89102.Google ScholarPubMed
Ring, D., Jupiter, J. B., et al. (2002). “Posterior dislocation of the elbow with fractures of the radial head and coronoid.” J Bone Joint Surg Am 84-(A4): 547551.Google Scholar
Rockwood, C. A., Green, D. P., et al. (2006). Rockwood and Green’s fractures in adults. Philadelphia, PA: Lippincott Williams & Wilkins.Google Scholar
Rodriguez-Martin, J., Pretell-Mazzini, J., et al. (2011). “Outcomes after terrible triads of the elbow treated with the current surgical protocols: a review.” Int Orthop 35(6): 851860.Google Scholar
Rosas, H. G., and Lee, K. S. (2010). “Imaging acute trauma of the elbow.” Semin Musculoskelet Radiol 14(4): 394411.Google Scholar
Sheehan, S. E., Dyer, G. S., et al. (2013). “Traumatic elbow injuries: what the orthopedic surgeon wants to know.” Radiographics 33: 869888CrossRefGoogle ScholarPubMed
Whiting, W. C., and Zernicke, R. F. (2008). Biomechanics of musculoskeletal injury. Champaign, IL: Human Kinetics.Google Scholar

Further reading

Davies, A. M., and Hodler, J. (2006). Imaging of the shoulder: techniques and applications. Berlin, New York: Springer.Google Scholar
Flatow, E. L., Cuomo, F., et al. (1991). “Open reduction and internal fixation of two-part displaced fractures of the greater tuberosity of the proximal part of the humerus.” J Bone Joint Surg Am 73(8): 12131218.Google Scholar
Kilcoyne, R. F., Shuman, W. P., et al. (1990). “The Neer classification of displaced proximal humeral fractures: spectrum of findings on plain radiographs and CT scans.” AJR Am J Roentgenol 154(5): 10291033.Google Scholar
Mattyasovszky, S. G., Burkhart, K. J. et al. (Dec. 2011) “Isolated fractures of the greater tuberosity of the proximal humerus.” Acta Orthop 82(6): 714720.Google Scholar
Mirzayan, R. (2004). Shoulder and elbow trauma. New York: Thieme.Google Scholar
Müller, M. E., Perren, S. M., et al. (1991). Manual of internal fixation: techniques recommended by the AO–ASIF Group. Berlin, New York: Springer-Verlag.Google Scholar
Neer, C. S., II (1970). “Displaced proximal humeral fractures. I. Classification and evaluation.” J Bone Joint Surg Am 52(6): 10771089.Google Scholar
Rasmussen, S., Hvass, I., et al. (1992). “Displaced proximal humeral fractures: results of conservative treatment.” Injury 23(1): 4143.CrossRefGoogle ScholarPubMed
Rockwood, C. A. (2009). The shoulder. Philadelphia, PA: Saunders/Elsevier.Google Scholar
Rockwood, C. A., Green, D. P., et al. (2006). Rockwood and Green’s fractures in adults. Philadelphia: Lippincott Williams & Wilkins.Google Scholar
Sandstrom, C. K., Kennedy, S. A., Gross, J. A., (2015). Acute Shoulder Trauma: What the Surgeon Wants to Know. Radiographics 2015; 35: 475492.Google Scholar
Siebenrock, K. A., and Gerber, C. (1993). “The reproducibility of classification of fractures of the proximal end of the humerus.” J Bone Joint Surg Am 75(12): 17511755.Google Scholar
Whiting, W. C., and Zernicke, R. F. (2008). Biomechanics of musculoskeletal injury. Champaign, IL: Human Kinetics.Google Scholar

Further reading

Johnston, G. W. (1962). “A follow-up of one hundred cases of fracture of the head of the radius with a review of the literature.” Ulster Med J 31: 5156.Google Scholar
Major, N. M., and Crawford, S. T. (2002). “Elbow effusions in trauma in adults and children: is there an occult fracture?AJR Am J Roentgenol 178(2): 413418.CrossRefGoogle ScholarPubMed
Mason, M. L. (1954). “Some observations on fractures of the head of the radius with a review of one hundred cases.” Br J Surg 42(172): 123132.Google Scholar
Miller, M. D. (2000). Review of orthopedics. Philadelphia, PA: Saunders.Google Scholar
Morrey, B. F., and Sanchez-Sotelo, J. (2009). The elbow and its disorders. Philadelphia, PA: Saunders/Elsevier.Google Scholar
Rockwood, C. A., et al. (2006). Rockwood and Green’s fractures in adults. Philadelphia, PA: Lippincott Williams & Wilkins.Google Scholar
Sheehan, S. E., Dyer, S. G. et al. (2013). “Traumatic elbow injuries: what the orthopedic surgeon wants to know.” Radiographics 33: 869888.Google Scholar

Further reading

Kennedy, P. T., and Mawhinney, H. J. (1995). “Retrosternal dislocation of the sternoclavicular joint.” J R Coll Surg Edinb 40(3): 208209.Google ScholarPubMed
Nettles, J. L., and Linscheid, R. L. (1968). “Sternoclavicular dislocations.” J Trauma 8(2): 158164.Google Scholar
Robinson, C. M., Jenkins, P. J., et al. (2008). “Disorders of the sternoclavicular joint.” J Bone Joint Surg Br 90(6): 685696.CrossRefGoogle ScholarPubMed
Rockwood, C. A., Green, D. P., et al. (2006). Rockwood and Green’s fractures in adults. Philadelphia: Lippincott Williams & Wilkins.Google Scholar
Whiting, W. C., and Zernicke, R. F. (2008). Biomechanics of musculoskeletal injury. Champaign, IL: Human Kinetics.Google Scholar
Wirth, M. A., and Rockwood, C. A. Jr. (1996). “Acute and chronic traumatic injuries of the sternoclavicular joint.” J Am Acad Orthop Surg 4(5): 268278.Google Scholar

Further reading

Bailie, D. S., Benson, L. S., et al. (1996). “Proximal interphalangeal joint injuries of the hand. Part I: anatomy and diagnosis.” Am J Orthop (Belle Mead NJ) 25(7): 474477.Google Scholar
Benson, L. S., and Bailie, D. S. (1996). “Proximal interphalangeal joint injuries of the hand. Part II: Treatment and complications.” Am J Orthop (Belle Mead NJ) 25(8): 527530.Google ScholarPubMed
Clavero, J. A., Alomar, X., et al. (2002). “MR imaging of ligament and tendon injuries of the fingers.” Radiographics 22(2): 237256.CrossRefGoogle ScholarPubMed
Combs, J. A. (2000). “It’s not ‘just a finger.’J Athl Train 35(2): 168178.Google Scholar
Dionysian, E., and Eaton, R. G. (2000). “The long-term outcome of volar plate arthroplasty of the proximal interphalangeal joint.” J Hand Surg Am 25(3): 429437.Google Scholar
Eaton, R. G., and Malerich, M. M. (1980). “Volar plate arthroplasty of the proximal interphalangeal joint: a review of ten years’ experience.” J Hand Surg Am 5(3): 260268.Google Scholar
Miller, M. D. (2000). Review of Orthopedics. Philadelphia, PA: Saunders.Google Scholar
Rockwood, C. A., Green, D. P., et al. (2006). Rockwood and Green’s fractures in adults. Philadelphia, PA: Lippincott Williams & Wilkins.Google Scholar

Further reading

Alyas, F., Curtis, M., et al. (2008). “MR imaging appearances of acromioclavicular joint dislocation.” Radiographics 28(2): 463479; quiz 619.Google Scholar
Bearden, J. M., Hughston, J. C., et al. (1973). “Acromioclavicular dislocation: method of treatment.” J Sports Med 1(4): 517.Google Scholar
Gstettner, C., Tauber, M., et al. (2008). “Rockwood type III acromioclavicular dislocation: surgical versus conservative treatment.” J Shoulder Elbow Surg 17(2): 220225.Google Scholar
Mulier, T., Stuyck, J., et al. (1993). “Conservative treatment of acromioclavicular dislocation: evaluation of functional and radiological results after six years follow-up.” Acta Orthop Belg 59(3): 255262.Google Scholar
Petersson, C. J., and Redlund-Johnell, I. (1983). “Radiographic joint space in normal acromioclavicular joints.” Acta Orthop Scand 54(3): 431433.Google Scholar
Rockwood, C. A., Green, D. P., et al. (2006). Rockwood and Green’s fractures in adults. Philadelphia: Lippincott Williams & Wilkins.Google Scholar
Schlegel, T. F., Burks, R. T., et al. (2001). “A prospective evaluation of untreated acute grade III acromioclavicular separations.” Am J Sports Med 29(6): 699703.Google Scholar
Spencer, E. E. Jr. (2007). “Treatment of grade III acromioclavicular joint injuries: a systematic review.” Clin Orthop Relat Res 455: 3844.Google Scholar
Whiting, W. C., and Zernicke, R. F. (2008). Biomechanics of musculoskeletal injury. Champaign, IL: Human Kinetics.Google Scholar

Further reading

Arciero, R. A., Wheeler, J. H., et al. (1994). “Arthroscopic Bankart repair versus nonoperative treatment for acute, initial anterior shoulder dislocations.” Am J Sports Med 22(5): 589594.Google Scholar
Burgess, B., and Sennett, B. J. (2003). “Traumatic shoulder instability: nonsurgical management versus surgical intervention.” Orthop Nurs 22(5): 345350; quiz 351–352.Google Scholar
Chung, C. B., and Steinbach, L. S. (2010). MRI of the upper extremity: shoulder, elbow, wrist and hand. Philadelphia: Wolters Kluwer Health / Lippincott Williams & Wilkins.Google Scholar
Freundlich, B. D. (1983). “Luxatio erecta.” J Trauma 23(5): 434436.Google Scholar
Mallon, W. J., Bassett, F. H. III, et al. (1990). “Luxatio erecta: the inferior glenohumeral dislocation.” J Orthop Trauma 4(1): 1924.Google Scholar
Miller, M. D. (2000). Philadelphia, PA: Saunders.Google Scholar
Netto, N. A., Tamaoki, M. J., et al. (July 2012). “Treatment of Bankart lesions in traumatic anterior instability of the shoulder: a randomized controlled trial comparing arthroscopy and open techniques.” Arthroscopy 28(7): 900-908.Google Scholar
Provencher, M. T., Frank, R. M., et al. (2012). “The Hill–Sachs lesion: diagnosis, classification, and management.” J Am Acad Orthop Surg 20(4): 242252.Google Scholar
Rockwood, C. A., Green, D. P., et al. (2006). Rockwood and Green’s fractures in adults. Philadelphia: Lippincott Williams & Wilkins.Google Scholar
Wang, R. Y., Arciero, R. A., et al. (2009). “The recognition and treatment of first-time shoulder dislocation in active individuals.” J Orthop Sports Phys Ther 39(2): 118123.Google Scholar
Whiting, W. C., and Zernicke, R. F. (2008). Biomechanics of musculoskeletal injury. Champaign, IL: Human Kinetics.Google Scholar

Further reading

Goldfarb, C. A., Yin, Y., et al. (2001). “Wrist fractures: what the clinician wants to know.” Radiology 219(1): 11-28.Google Scholar
Lafontaine, M., Hardy, D., et al. (1989). “Stability assessment of distal radius fractures.” Injury 20(4): 208-210.Google Scholar
Lichtman, D. M., Bindra, R. R., et al. (2010). “Treatment of distal radius fractures.” J Am Acad Orthop Surg 18(3): 180-189.Google Scholar
Ilyas, A. M., and Jupiter, J. B. (Apr. 2007). “Distal radial fractures – classification of treatment and indications for surgery.” Orthop Clin North Am; 38(2):167-173.Google Scholar
Miller, M. D. (2000). Review of Orthopedics. Philadelphia, PA: Saunders.Google Scholar
Rockwood, C. A., Green, D. P., et al. (2006). Rockwood and Green’s fractures in adults. Philadelphia: Lippincott Williams & Wilkins.Google Scholar
Whiting, W. C., and Zernicke, R. F. (2008). Biomechanics of musculoskeletal injury. Champaign, IL: Human Kinetics.Google Scholar

Further reading

Banffy, MB et al. Nonoperative versus Prophylactic Treatment of Bisphosphonate-associated Femoral Stress Fractures. Clin Orthop Relat Res 469, 20282034 (2011).Google Scholar
Chew, FS Skeletal Radiology: The Bare Bones, 3rd edn. Philadelphia, PA: Lippincott Williams & Wilkins, 2010.Google Scholar
Porrino, JA et al. Clinical Perspective: Diagnosis of Proximal Femoral Insufficiency Fractures in Patients Receiving Bisphosphonate Therapy. AJR. American Journal of Roentgenology 194, 10611064 (2010).Google Scholar
Venkatamarasimha, N et al. Subtrochanteric Femoral Insufficiency Fractures Related to the Use of Long-term Bisphosphonates: A Pictorial Review. Emerg Radiol 17, 511515 (2010).Google Scholar

Further reading

Bolog, N., & Hodler, J. (2007). MR imaging of the posterolateral corner of the knee. Skeletal radiology, 36(8), 715728.Google Scholar
Campos, J. C., Chung, C. B., Lektrakul, N., Pedowitz, R., Trudell, D., Yu, J., & Resnick, D. (2001). Pathogenesis of the Segond fracture: anatomic and MR imaging evidence of an iliotibial tract or anterior oblique band avulsion. Radiology, 219(2), 381386. Retrieved from www.ncbi.nlm.nih.gov/pubmed/11323461Google Scholar
Gottsegen, C. J., Eyer, B. A, White, E. A, Learch, T. J., & Forrester, D. (2008). Avulsion fractures of the knee: imaging findings and clinical significance. Radiographics: a review publication of the Radiological Society of North America, Inc, 28(6), 17551770.Google Scholar
Huang, G. S., Yu, J. S., Munshi, M., et al. (2003). Avulsion fracture of the head of the fibula (the “arcuate” sign): MR imaging findings predictive of injuries to the posterolateral ligaments and posterior cruciate ligament. AJR Am J Roentgenol, 180(2), 381387.Google Scholar
Strub, W. M. (2007). The arcuate sign. Radiology, 244(2), 620621.Google Scholar

Further reading

Berquist, T. H. (2007). Osseous and myotendinous injuries about the knee. Radiologic clinics of North America, 45(6), 955968, vi.Google Scholar
Markhardt, B. K., Gross, J. M., & Monu, J. (2009). Schatzker classification of tibial plateau fractures: use of CT and MR imaging improves assessment. Radiographics, 29(2), 585598.Google Scholar
te Stroet, M. A. J., Holla, M., Biert, J., & van Kampen, A. (2011). The value of a CT scan compared to plain radiographs for the classification and treatment plan in tibial plateau fractures. Emergency radiology, 18(4), 279283.CrossRefGoogle Scholar

Further reading

Clare, MP. A rational approach to ankle fractures. Foot Ankle Clin. Dec. 2008;13(4):593610.Google Scholar
Okanobo, H, Khurana, B, Sheehan, S, Duran-Mendicuti, A, Arianjam, A, Ledbetter, S. Simplified diagnostic algorithm for Lauge–Hansen classification of ankle injuries. Radiographics. Mar.–Apr. 2012;32(2):E71–84.Google Scholar
Perrich, KD, Goodwin, DW, Hecht, PJ, Cheung, Y. Ankle ligaments on MRI: appearance of normal and injured ligaments. AJR Am J Roentgenol. Sept. 2009;193(3):687695.Google Scholar

Further reading

Cheung, Y, Rosenberg, ZS. MR imaging of ligamentous abnormalities of the ankle and foot. Magn Reson Imaging Clin N Am. Aug. 2001;9(3):507531.Google Scholar
Crim, J. MR imaging evaluation of subtle Lisfranc injuries: the midfoot sprain. Magn Reson Imaging Clin N Am. Feb. 2008;16(1):1927.Google Scholar
Dunfee, WR, Dalinka, MK, Kneeland, JB. Imaging of athletic injuries to the ankle and foot. Radiol Clin North Am. Mar. 2002;40(2):289312.Google Scholar
Macmahon, PJ, Dheer, S, Raikin, SM, Elias, I, Morrison, WB, Kavanagh, EC, Zoga, A. MRI of injuries to the first interosseous cuneometatarsal (Lisfranc) ligament. Skeletal Radiol. Mar. 2009;38(3):255260.Google Scholar
Nazarenko, A, Beltran, LS, Bencardino, JT. Imaging evaluation of traumatic ligamentous injuries of the ankle and foot. Radiol Clin North Am. May 2013;51(3):455478.CrossRefGoogle ScholarPubMed
Stoller, DW, Ferkel, RD. The ankle and foot. (2-volume Set) In Stoller, DW et al. (eds.)Magnetic resonance imaging in orthopaedics and sports medicine. Baltimore: Lippincott Williams & Wilkins, 2007, pp. 7331050.Google Scholar
Haapamaki, VV, Kiuru, MJ, Koskinen, SK. Ankle and foot injuries: analysis of MDCT findings. Am J Roentgenol. 2004:183:415422.Google Scholar

Further reading

Fetzer, G. B., & Wright, R. W. (2006). Metatarsal shaft fractures and fractures of the proximal fifth metatarsal. Clinics in sports medicine, 25(1), 139150, x.Google Scholar
Hatch, R. L., Alsobrook, J. A., & Clugston, J. R. (2007). Diagnosis and management of metatarsal fractures. American family physician, 76(6), 817826.Google Scholar
Lawrence, S. J., & Botte, M. J. (1993). Jones’ fractures and related fractures of the proximal fifth metatarsal. Foot ankle, 14(6), 358365.Google Scholar
Pao, D. G., Keats, T. E., & Dussault, R. G. (Aug. 2000). Original report avulsion fracture of the base of the fifth metatarsal not seen on conventional radiography of the foot: the need for an additional projection. Virginia Medical, 549552.Google Scholar
Theodorou, D. J., Theodorou, S. J., Kakitsubata, Y., Botte, M. J., & Resnick, D. (Mar. 2003). Fractures of proximal portion of fifth metatarsal bone: anatomic and imaging evidence of a pathogenesis of avulsion of the plantar aponeurosis and the short peroneal muscle tendon. Radiology, 226(3), 857865.Google Scholar
Zwitser, E. W., & Breederveld, R. S. (2010). Fractures of the fifth metatarsal: diagnosis and treatment. Injury, 41(6), 555562.Google Scholar

Further reading

Boike, A., Schnirring-Judge, M., & McMillin, S. (2011). Sesamoid disorders of the first metatarsophalangeal joint. Clinics in Podiatric Medicine and Surgery, 28(2), 269285, vii.Google Scholar
Cohen, B. E. (2009). Hallux sesamoid disorders. Foot and Ankle Clinics, 14(1), 91104.Google Scholar
Sanders, T. G., & Rathur, S. K. (2008). Imaging of painful conditions of the hallucal sesamoid complex and plantar capsular structures of the first metatarsophalangeal joint. Radiologic Clinics of North America, 46(6), 10791092, vii.Google Scholar

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