Coexistence of multiple anomalies in the carpal tunnel

Barbe, Mary F.; Bradfield, J. D.; Donathan, Mark; Elmaleh, Jed

doi:10.1002/ca.20086

Cited by 23 publications

(23 citation statements)

References 31 publications

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“…Because of the perforation of both the MN and AIN and the coursing of the AIN deep to the tendon of GM, this donor may have suffered from symptoms related to PS and AINS (Gainor and Jeffrid, 1987;Proudman and Menz, 1992;Eid and Otsuki, 2009). There is also the possibility that this donor had suffered from chronic CTS, because the PMA, with a diameter of 2.1 mm, was superficial to the MN inside the CT (Barfred et al, 1985;Gassner et al, 2002;Barbe et al, 2005). In fact, the actual diameter of the PMA before death may have been larger.…”

Section: Discussionmentioning

confidence: 93%

Persistent median artery: Cadaveric study and review of the literature

et al. 2011

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The persistent median artery (PMA) may compress the median nerve (MN) and may be a significant supply of blood to the hand. Two cases of unilateral PMA (4%) were detected during the dissection of 50 upper limbs. The first case was a 75-year-old, right-handed male who suffered from chronic pain in both upper limbs, especially the left side. A dissection of his left upper limb revealed a PMA piercing both the MN and the medial branch of the anterior interosseous nerve. This artery coursed distally, deep to the transverse carpal ligament (TCL), forming a median-ulnar pattern for the superficial palmar arch (SPA). The PMA was superficial to two nerves at the distal edge of the TCL; the extraligamentous recurrent thenar (RT) branch of the MN and the third common digital nerve (TCDN). The second case was from the left side of an 80-year-old female found to have a high origin of the radial artery with trifurcation of the latter into PMA, common interosseous, and ulnar arteries. The PMA passed deep to the TCL forming a radial-median-ulnar pattern of SPA. Both the transligamentous RT branch of the MN and the TCDN passed deep to the PMA inside the carpal tunnel, before the abnormal crossing of the latter nerve ventral to the SPA on its way to the digits. The relationships of the PMA to various MN branches may have important implications regarding the diagnosis and treatment of MN compressive neuropathies.

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Section: Discussionmentioning

confidence: 93%

Persistent median artery: Cadaveric study and review of the literature

et al. 2011

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“…As discussed, the presence of additional tendon slips are frequently reported, particularly for the FDP, FDS, and FPL (Linburg and Comstock, 1979;Steinberg and Szabo, 1996;Leijnse et al, 1997;Lindley and Kleinert, 2003;Barbe et al, 2005), with the incidence of such anomalies ranging from 5 to 25%. While the incidence of additional tendon / muscle slips were not assessed in our cadaveric study, the incidence of accessory muscle bellies or heads was found to be substantially lower at 0.16% of forearms or 0.32% of individuals, mirroring the rare reporting of true accessory muscles in reported studies.…”

Section: Discussionmentioning

confidence: 95%

“…While the incidence of additional tendon / muscle slips were not assessed in our cadaveric study, the incidence of accessory muscle bellies or heads was found to be substantially lower at 0.16% of forearms or 0.32% of individuals, mirroring the rare reporting of true accessory muscles in reported studies. These studies comprise accessory muscles of the FDS, FDP, and FPL (Still and Kleinert, 1973;Lahey and Aulicino, 1986;Schon et al, 1992;Steinberg and Szabo, 1996;Wahba et al, 1998;Elliot et al, 1999;Koizumi et al, 2002;Kobayashi et al, 2003;Lindley and Kleinert, 2003;Barbe et al, 2005). In these studies, the variations in muscle location, attachments and structure have been variably associated with variations in local vasculature and innervation, and furthermore have been associated with clinical sequelae including compression neuropathies and iatrogenic injury.…”

Section: Discussionmentioning

confidence: 95%

Anomalies of the flexor carpi ulnaris: Clinical case report and cadaveric study

et al. 2010

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Flexor carpi ulnaris (FCU) is an ever-present muscle of the anterior flexor compartment of the forearm. Variations of FCU are uncommon, with additional slips or heads of muscles described, and only one reported case of an accessory muscle. We describe a unique clinical case report in which an accessory FCU was identified and describe the findings of 5,000 cadaveric dissections of the forearm, performed as part of an ongoing institutional study of anatomical variations. An aberrant accessory forearm flexor muscle was identified incidentally at the wrist during surgery for an anterior interosseous to ulnar nerve transfer for management of ulnar nerve palsy. This muscle was seen running superficial to the ulnar nerve and radial to the FCU proper, arising from the common flexor origin and inserting at the triquetral carpal bone. This was therefore suitably acknowledged as an "accessory FCU". The anomaly was identified as bilateral using ultrasound imaging, and was found to be anomalously innervated by the median nerve with nerve conduction studies. A subsequent review of 5,000 cadaveric dissections of the forearm did not identify any such variations related to FCU, despite identifying a range of variations of the other forearm flexor musculature. While the scarcity of this anomaly is thus highlighted, consideration of an accessory FCU, and its aberrant innervation is important in a range of surgical approaches.

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“…Investigators have developed in vivo primate models (Blake et al 2002;Byl et al 1996cByl et al , 1997 and in vivo rat models (Barbe et al , 2005Barbe 2002, 2004;Clark et al 2004) to study the etiology of FHd. The hypothesis for the primate studies was that high levels of repetitive, near simultaneous movements would lead to central somatosensory changes in the topography of the hand that would ultimately interfere with normal movement control.…”

Section: The Benefits Of Animal Versus Clinical Models For Studying Hmentioning

confidence: 99%

Learning-based Animal Models: Task-specific Focal Hand Dystonia

Byl

2007

ILAR Journal

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Dystonia is a disabling, involuntary disorder of movement that leads to writhing, twisting end-range movements or abnormal postures. Inadequate inhibition could account for excessive excitation and near synchronous co-contractions of agonists and antagonists. Dystonia may be generalized or specific, affecting only one part of the body or involving only a well-learned task (e.g., writing, keyboarding, golfing, playing a musical instrument). Task-specific and other focal dystonias are considered idiopathic, with multiple factors such as genetics, anatomy, physiology, psychology, environment, and behavioral characteristics contributing to the development of symptoms. This article provides detailed descriptions of two behavioral animal models (a primate [owl monkey] model and a rodent [Sprague-Dawley rat] model) developed to study the effect of excessive repetition as a potential etiology of focal hand dystonia (FHd). The hypothesis is that repetitive, near simultaneous hand movements can degrade the topographic representations of the hand on the somatic sensory and motor cortices, creating the involuntary movements characteristic of dystonia. While animal studies permit the opportunity for greater control to determine efficacy, the findings must always be confirmed by clinical studies to evaluate sensitivity and specificity of diagnosis and effectiveness of treatment in the home, work, and personal environment. This article presents a review of the etiology and clinical implications for intervention strategies from animal and clinical studies that support learningbased mechanisms for FHd. Other animal models are also briefly reviewed.

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Coexistence of multiple anomalies in the carpal tunnel

Cited by 23 publications

References 31 publications

Persistent median artery: Cadaveric study and review of the literature

Persistent median artery: Cadaveric study and review of the literature

Anomalies of the flexor carpi ulnaris: Clinical case report and cadaveric study

Learning-based Animal Models: Task-specific Focal Hand Dystonia

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