Relevance of bone anomalies in patients with thoracic outlet syndrome.

[thoracic outlet syndrome]

Skeletal anomalies are recognized as potential causes of thoracic outlet syndrome (TOS ); however , there is a paucity of information regarding the specific bone anomalies associated with TOS and their relative incidence among the different clinical types of TOS . This study describes the prevalence of bone anomalies in a population with TOS .A retrospective chart review of the clinical records and imaging studies of all patients who were surgically treated at our institution for TOS between 1991 -2011 was conducted . A descriptive analysis of the cohort of patients with associated bone anomalies was performed and compared with the cohort of patients without bone anomalies .During the study period , 400 patients underwent operative procedures for TOS . Of these , 115 (29 %) harbored a bone anomaly and the remaining 285 did not . The bone anomalies included 80 (69 %) cervical ribs , 25 (22 %) clavicular anomalies , and 10 (9 %) isolated first rib aberrations . Ninety (78 %) of the bone anomalies were congenital , while 25 (22 %) were posttraumatic . The bone anomaly cohort was predominantly female (76 %), with an average age of 36 years . The distribution of neurogenic , arterial , and venous types of TOS in the cohort with bone anomalies was 63 %, 33 %, and 4 %, respectively , while it was 51 % neurogenic , 11 % arterial , and 38 % venous in the cohort without bone anomalies . These distributions were significantly different (chi -squared : 56 .75 ; P < 0 .0001 ). The likelihood of neurogenic compression was roughly equivalent between the 2 cohorts (odds ratio [OR ]: 1 .6 ; P = 0 .03 ), while the likelihood of arterial compression was much higher in the presence of a bone anomaly (OR : 4 .0 ; P < 0 .001 ) and the likelihood of venous compression was much lower in the presence of bone anomaly (OR : 0 .07 ; P < 0 .001 ). Conversely , 33 % of all neurogenic TOS cases , 54 % of all arterial TOS cases , and 4 % of all venous TOS cases were associated with a bone anomaly .In our experience , the incidence of bone anomalies among patients treated for TOS was 29 %, which is higher than previously reported . Cervical ribs were present in 20 % of our patients with TOS , an estimated 40 times higher prevalence than that in the general population . However , acquired clavicular deformities and isolated abnormal first ribs were found in 9 % of our patients , accounting for almost one -third of all bone anomalies present in this TOS population . The incidence of bone anomalies is rather different among the subtypes of TOS . The strongest association with the presence of a bone anomaly occurs in patients with arterial TOS , although 46 % of all our arterial TOS cases did not have a bone anomaly . The presence of bone anomalies does not seem to influence the occurrence of neurogenic TOS , while venous TOS likely has no association with congenital bone anomalies , but occasionally mid and medial clavicular fracture calluses may cause venous TOS .