The significance of ultrasonographic carpal tunnel outlet measurements in the diagnosis of carpal tunnel syndrome

•Median nerve enlargement in CTS is significantly greater at the tunnel outlet than at the inlet.•It is postulated that pressure progressively increases from proximal to distal within the tunnel.•The addition of outlet measurements increases diagnostic sensitivity and accuracy of CTS. A retrospectiv...

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Published in	Clinical neurophysiology Vol. 127; no. 12; pp. 3516 - 3523
Main Authors	Csillik, Anita, Bereczki, Dániel, Bora, László, Arányi, Zsuzsanna
Format	Journal Article
Language	English
Published	Netherlands Elsevier Ireland Ltd 01.12.2016
Subjects	Adult Aged Aged, 80 and over Carpal tunnel outlet Carpal tunnel syndrome Carpal Tunnel Syndrome - diagnostic imaging Carpal Tunnel Syndrome - physiopathology Cross sectional area Female Hand - diagnostic imaging Hand - innervation Hand - physiopathology Humans Male Median Nerve - diagnostic imaging Median Nerve - physiopathology Middle Aged Nerve ultrasound Neural Conduction - physiology Neurology Palm-to-forearm ratio Retrospective Studies Ultrasonography - methods Young Adult Carpal tunnel syndrome Nerve ultrasound Palm-to-forearm ratio Carpal tunnel outlet Cross sectional area
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ISSN	1388-2457 1872-8952 1872-8952
DOI	10.1016/j.clinph.2016.09.015

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Abstract	•Median nerve enlargement in CTS is significantly greater at the tunnel outlet than at the inlet.•It is postulated that pressure progressively increases from proximal to distal within the tunnel.•The addition of outlet measurements increases diagnostic sensitivity and accuracy of CTS. A retrospective study to investigate the utility of ultrasonographic carpal tunnel outlet measurements in the diagnosis of carpal tunnel syndrome (CTS). 118 hands of 87 patients with electrophysiologically confirmed CTS and 44 control hands of 23 subjects were assessed. Cross-sectional areas (CSA) of the median nerve were measured at the tunnel inlet, outlet, and forearm. Longitudinal diameters (LAPD) were measured at the inlet, proximal tunnel, distal tunnel, and outlet. CSA at the outlet (median: 18mm2) and its palm-to-forearm-ratio (median: 2.7) were significantly larger than CSA at the inlet (median: 15mm2) and its wrist-to-forearm-ratio (median: 2.2) (p<0.001). 27% of the hands showed enlargement only at the outlet versus 13% only at the inlet. LAPD jump was significantly greater, suggesting relief of higher pressure, at the outlet/distal tunnel versus inlet/proximal tunnel (p<0.001). Median nerve enlargement in CTS is greater at the tunnel outlet than at the inlet. We postulate that this is explained by the progressive increase of pressure within the tunnel from proximal to distal. The addition of CSA outlet measurements to inlet measurements increased CTS ultrasonographic diagnostic sensitivity and accuracy by 15% and 10%, respectively.
AbstractList	•Median nerve enlargement in CTS is significantly greater at the tunnel outlet than at the inlet.•It is postulated that pressure progressively increases from proximal to distal within the tunnel.•The addition of outlet measurements increases diagnostic sensitivity and accuracy of CTS. A retrospective study to investigate the utility of ultrasonographic carpal tunnel outlet measurements in the diagnosis of carpal tunnel syndrome (CTS). 118 hands of 87 patients with electrophysiologically confirmed CTS and 44 control hands of 23 subjects were assessed. Cross-sectional areas (CSA) of the median nerve were measured at the tunnel inlet, outlet, and forearm. Longitudinal diameters (LAPD) were measured at the inlet, proximal tunnel, distal tunnel, and outlet. CSA at the outlet (median: 18mm2) and its palm-to-forearm-ratio (median: 2.7) were significantly larger than CSA at the inlet (median: 15mm2) and its wrist-to-forearm-ratio (median: 2.2) (p<0.001). 27% of the hands showed enlargement only at the outlet versus 13% only at the inlet. LAPD jump was significantly greater, suggesting relief of higher pressure, at the outlet/distal tunnel versus inlet/proximal tunnel (p<0.001). Median nerve enlargement in CTS is greater at the tunnel outlet than at the inlet. We postulate that this is explained by the progressive increase of pressure within the tunnel from proximal to distal. The addition of CSA outlet measurements to inlet measurements increased CTS ultrasonographic diagnostic sensitivity and accuracy by 15% and 10%, respectively. A retrospective study to investigate the utility of ultrasonographic carpal tunnel outlet measurements in the diagnosis of carpal tunnel syndrome (CTS).OBJECTIVEA retrospective study to investigate the utility of ultrasonographic carpal tunnel outlet measurements in the diagnosis of carpal tunnel syndrome (CTS).118 hands of 87 patients with electrophysiologically confirmed CTS and 44 control hands of 23 subjects were assessed. Cross-sectional areas (CSA) of the median nerve were measured at the tunnel inlet, outlet, and forearm. Longitudinal diameters (LAPD) were measured at the inlet, proximal tunnel, distal tunnel, and outlet.METHODS118 hands of 87 patients with electrophysiologically confirmed CTS and 44 control hands of 23 subjects were assessed. Cross-sectional areas (CSA) of the median nerve were measured at the tunnel inlet, outlet, and forearm. Longitudinal diameters (LAPD) were measured at the inlet, proximal tunnel, distal tunnel, and outlet.CSA at the outlet (median: 18mm2) and its palm-to-forearm-ratio (median: 2.7) were significantly larger than CSA at the inlet (median: 15mm2) and its wrist-to-forearm-ratio (median: 2.2) (p<0.001). 27% of the hands showed enlargement only at the outlet versus 13% only at the inlet. LAPD jump was significantly greater, suggesting relief of higher pressure, at the outlet/distal tunnel versus inlet/proximal tunnel (p<0.001).RESULTSCSA at the outlet (median: 18mm2) and its palm-to-forearm-ratio (median: 2.7) were significantly larger than CSA at the inlet (median: 15mm2) and its wrist-to-forearm-ratio (median: 2.2) (p<0.001). 27% of the hands showed enlargement only at the outlet versus 13% only at the inlet. LAPD jump was significantly greater, suggesting relief of higher pressure, at the outlet/distal tunnel versus inlet/proximal tunnel (p<0.001).Median nerve enlargement in CTS is greater at the tunnel outlet than at the inlet. We postulate that this is explained by the progressive increase of pressure within the tunnel from proximal to distal.CONCLUSIONMedian nerve enlargement in CTS is greater at the tunnel outlet than at the inlet. We postulate that this is explained by the progressive increase of pressure within the tunnel from proximal to distal.The addition of CSA outlet measurements to inlet measurements increased CTS ultrasonographic diagnostic sensitivity and accuracy by 15% and 10%, respectively.SIGNIFICANCEThe addition of CSA outlet measurements to inlet measurements increased CTS ultrasonographic diagnostic sensitivity and accuracy by 15% and 10%, respectively. Highlights • Median nerve enlargement in CTS is significantly greater at the tunnel outlet than at the inlet. • It is postulated that pressure progressively increases from proximal to distal within the tunnel. • The addition of outlet measurements increases diagnostic sensitivity and accuracy of CTS. A retrospective study to investigate the utility of ultrasonographic carpal tunnel outlet measurements in the diagnosis of carpal tunnel syndrome (CTS). 118 hands of 87 patients with electrophysiologically confirmed CTS and 44 control hands of 23 subjects were assessed. Cross-sectional areas (CSA) of the median nerve were measured at the tunnel inlet, outlet, and forearm. Longitudinal diameters (LAPD) were measured at the inlet, proximal tunnel, distal tunnel, and outlet. CSA at the outlet (median: 18mm ) and its palm-to-forearm-ratio (median: 2.7) were significantly larger than CSA at the inlet (median: 15mm ) and its wrist-to-forearm-ratio (median: 2.2) (p<0.001). 27% of the hands showed enlargement only at the outlet versus 13% only at the inlet. LAPD jump was significantly greater, suggesting relief of higher pressure, at the outlet/distal tunnel versus inlet/proximal tunnel (p<0.001). Median nerve enlargement in CTS is greater at the tunnel outlet than at the inlet. We postulate that this is explained by the progressive increase of pressure within the tunnel from proximal to distal. The addition of CSA outlet measurements to inlet measurements increased CTS ultrasonographic diagnostic sensitivity and accuracy by 15% and 10%, respectively.
Author	Arányi, Zsuzsanna Csillik, Anita Bereczki, Dániel Bora, László
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Keywords	Carpal tunnel syndrome Nerve ultrasound Palm-to-forearm ratio Carpal tunnel outlet Cross sectional area
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Snippet	•Median nerve enlargement in CTS is significantly greater at the tunnel outlet than at the inlet.•It is postulated that pressure progressively increases from... Highlights • Median nerve enlargement in CTS is significantly greater at the tunnel outlet than at the inlet. • It is postulated that pressure progressively... A retrospective study to investigate the utility of ultrasonographic carpal tunnel outlet measurements in the diagnosis of carpal tunnel syndrome (CTS). 118... A retrospective study to investigate the utility of ultrasonographic carpal tunnel outlet measurements in the diagnosis of carpal tunnel syndrome...
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SubjectTerms	Adult Aged Aged, 80 and over Carpal tunnel outlet Carpal tunnel syndrome Carpal Tunnel Syndrome - diagnostic imaging Carpal Tunnel Syndrome - physiopathology Cross sectional area Female Hand - diagnostic imaging Hand - innervation Hand - physiopathology Humans Male Median Nerve - diagnostic imaging Median Nerve - physiopathology Middle Aged Nerve ultrasound Neural Conduction - physiology Neurology Palm-to-forearm ratio Retrospective Studies Ultrasonography - methods Young Adult
Title	The significance of ultrasonographic carpal tunnel outlet measurements in the diagnosis of carpal tunnel syndrome
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