Ann Bergman scite author profile

Sesamoid bones form within tendons in regions that wrap around bony prominences. They are common in humans but variable in number. Sesamoid development is mediated epigenetically by local mechanical forces associated with skeletal geometry, posture, and muscular activity. In this article we review the literature on sesamoids and explore the question of genetic control of sesamoid development. Examination of radiographs of 112 people demonstrated that the relatively infrequent appearances of the fabella (in the lateral gastrocnemius tendon of the knee) and os peroneum (in the peroneus longus tendon of the foot) are related within individuals (P < 0.01). This finding suggests that the tendency to form sesamoids may be linked to intrinsic genetic factors. Evolutionary character analyses suggest that the formation of these sesamoids in humans may be a consequence of phylogeny. These observations indicate that variations of intrinsic factors may interact with extrinsic mechanobiological factors to influence sesamoid development and evolution.

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Tibial Stress Reaction in Runners

Fredericson

et al. 1995

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Medial tibial pain in runners has traditionally been diagnosed as either a shin splint syndrome or as a stress fracture. Our work using magnetic resonance imaging suggests that a progression of injury can be identified, starting with periosteal edema, then progressive marrow involvement, and ultimately frank cortical stress fracture. Fourteen runners, with a total of 18 symptomatic legs, were evaluated and, within 10 days, referred for radiographs, a technetium bone scan, and a magnetic resonance imaging scan. In 14 of the 18 symptomatic legs, magnetic resonance imaging findings correlated with an established technetium bone scan grading system and more precisely defined the anatomic location and extent of injury. We identified clinical symptoms, such as pain with daily ambulation and physical examination findings, including localized tibial tenderness and pain with direct or indirect percussion, that correlated with more severe tibial stress injuries. When clinically warranted, we recommend magnetic resonance imaging over bone scan for grading of tibial stress lesions in runners. Magnetic resonance imaging is more accurate in correlating the degree of bone involvement with clinical symptoms, allowing for more accurate recommendations for rehabilitation and return to impact activity. Additional advantages of magnetic resonance imaging include lack of exposure to ionizing radiation and significantly less imaging time than three-phase bone scintigraphy.

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Association of glenoid labral cysts with labral tears and glenohumeral instability: radiologic findings and clinical significance.

Tirman¹,

Feller²,

Janzen³

et al. 1994

Radiology

235

102

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Truth claims and explanatory claims—An ontological typology of futures studies

Bergman

Karlsson

Axelsson

2010

Futures

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MR Imaging of Cyclops Lesions

Bradley¹,

Bergman

Dillingham³

2000

American Journal of Roentgenology

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Localization of specific joint causing hindfoot pain: value of injecting local anesthetics into individual joints during arthrography.

Mitchell

Bielecki²,

Bergman³

et al. 1995

American Journal of Roentgenology

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Asymptomatic Tibial Stress Reactions: MRI Detection and Clinical Follow-Up in Distance Runners

Bergman

Fredericson

Ho³

et al. 2004

American Journal of Roentgenology

120

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Meniscal tears of the knee: accuracy of detection with fast spin-echo MR imaging and arthroscopic correlation in 293 patients.

Cheung¹,

Li²,

Hollett³

et al. 1997

Radiology

124

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Ann Bergman

Coincident development of sesamoid bones and clues to their evolution

Tibial Stress Reaction in Runners

Association of glenoid labral cysts with labral tears and glenohumeral instability: radiologic findings and clinical significance.

Truth claims and explanatory claims—An ontological typology of futures studies

MR Imaging of Cyclops Lesions

Localization of specific joint causing hindfoot pain: value of injecting local anesthetics into individual joints during arthrography.

Asymptomatic Tibial Stress Reactions: MRI Detection and Clinical Follow-Up in Distance Runners

Meniscal tears of the knee: accuracy of detection with fast spin-echo MR imaging and arthroscopic correlation in 293 patients.

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