Median nerve entrapment in the wrist joint is the most frequent entrapment neuropathy [1,37], with high prevalence in females [28]. US is a noninvasive tool that can assess the median nerve in CTS [5,6]. We investigated the use of US CSA measurements of the median nerve in patients with electrophysiological confirmed CTS and in non-affected normal controls to validate this technique in the Saudi population. We evaluated the difference and average mean of both the proximal, non affected, part of the median nerve at the level of the pronator quadratus muscle and the CSA at the wrist where you would expect to find the maximum enlargement due to distal compression effect, [20]. Furthermore, we calculated the mean of CSA proximal values to omit the individual variability rather than depend on CSA at the level of carpal tunnel only.
We found a statistical significant difference in the US values of CSAd, CSAp, ∆CSA, and mean CSAdp between CTS patients and healthy controls, with these findings was in agreement with Klauser et al [20].
Although neurophysiologic study is accurate in diagnosis of CTS [1], US has the added value of potentially identifying the underlying pathology causing CTS, such as anatomical variants or space occupying pathology [3–6]. In the our study, the CSAd was statistically correlated to the severity of CTS with neurophysiologic assessment, the higher the value the more severe the CTS, which were concordant with other studies [20,29,30] however, Mhoon et al did not find a significant correlation between CSAd and electrophysiologic severity assessment [31]. Klauser et al also [20] stated that ∆CSA is correlated with neurophysiologic CTS severity, which agreed with our findings related to ∆CS. In addition, we found that the mean CSAdp also statistically correlated to the severity of CTS which was not assessed in previous studies.
Previous studies attempted to ascertain a universal cutoff value of CSA for the diagnosis of CTS, however until now there was no standard universal cutoff range, being mainly dependent on the ethnicity of the group studied [7–12]. In previous literature, the suggested values of CSAd median nerve abnormality varies between 9 to 14 mm2 [27,37]. Although discrepancies in the accuracy of sonographic criteria of median nerve entrapment have been reported, CSA is still agreed upon as the most reliable and reproducible sonographic criterion indicating CTS [32]with cutoff values of more than 9 or 10 mm2 at the scaphoid-pisiform level having been described to indicate CTS [12–15], with sensitivity of 82% and specificity of 87% (which were almost equal to those of electrodiagnostic values) with a cutoff CSA of more than 12 mm2 considered as excellent to diagnose CTS [11]. In the current work, the cutoff value of CSA at the level of carpal tunnel to diagnose CTS in Saudi population was 13 mm2 with 90% sensitivity and 95% specificity which was in agreement with other studies cutoff threshold that ranged between 12–13 mm2 in CTS with or without diabetes [20,33,34]. The mean CSAdp of 9.5 showed sensitivity of 82% and 95% specificity to diagnose CTS, however ∆CSA of 2.5 mm2 was associated with 97% sensitivity and 100% specificity, with much higher sensitivity and specificity than using CSAd and mean CSAdp. In another study, the ∆CSA of 2 mm2 or greater was considered diagnostic for CTS with sensitivity of 99% and a specificity of 100% [20].
Electrodiagnostic testing is considered the reference standard for CTS diagnosis with sensitivities of 82%–94% and specificities of 65%–97% [10–12,15], even though paresthesia may occur before changes can be measured with nerve conduction tests [35]. Since negative electrophysiologic findings can be found in up to 30 % of CTS patients (9), US may have yet another advantage in that it is less painful and more acceptable to patients, noninvasive, more readily available and less expensive. According to our results, ultrasound is highly sensitive and specific, so it may be used as an early tool to assess CTS where patients may have negative or borderline electrophysiologic studies.
In the current study, we also looked at different CTS etiologies. There was a statistical difference regarding CSAd, and mean CSAdp values between CTS patients with idiopathic CTS and diabetes, however, there was no statistical difference between different etiologic groups regarding ∆CSA. A recent meta-analysis on CSA of CTS with diabetes, in spite being not statistically significant (p = 0.52), CSA of median nerve in patients with diabetes and CTS were likely to be larger than patients with idiopathic CTS [17]. A study by Thomsen et al found focal CSA enlargement of median nerve in diabetic patients without CTS, particularly at the level of the carpal tunnel inlet, they suggested other additional factors which may contribute to such phenomenon, such as a reduction in myelinated nerve fibers and capillary density that may predispose diabetics to develop CTS [36]. Imaging modalities as US and MR have had a significant role in understanding, assessment and diagnosis of disorders of the peripheral nervous disorders [39].