Biometrics of the Cervical Spinal Canal and Cord by Computer Tomography in Togo ()
1. Introduction
Spinal stenosis is a major predisposing factor for cervical myelopathy and spinal cord injury [1] [2] . The spinal canal can be tightened congenitally or take the tight form by arthritic injuries resulting in its strong biomechanical implication [3] . The information with regard to the accurate dimensions of the spinal canal is important to suggest the diagnosis for the constitutional tight canal and the spinal surgery. Thus the scanning plays a crucial role for measuring the lumbar canal and the canal tightness diagnosis. The Computer Tomography (CT Scan) and the Magnetic Resonance Imaging (MRI) are the most efficient and the most used imagery tools to diagnose the tightness of the cervical canal. It is seldom to encounter studies that deal with the normal dimensions of the cervical spinal canal and cervical spinal cord in Black Africa. Hence, few studies have assessed the dimensions of the spinal cord, either in terms of MRI or CT Scan. So, we undertook this work to determine in, by CT scan, the biometrics of the cervical spinal canal and cervical spinal cord of adult people in Togo, and then assess the ratio between the cervical spinal cord and cervical spinal canal.
2. Material and Method
It was prospective study carried out over a twelve-month (12) period at the university hospital center of the campus. It concerns CT Scans of adults people of more than 18 years, who did not present any clinical sign of neck pain or cervicobrachial neuralgia. We excluded from our study the cervical spinal which presented malformation, degenerative, infectious, rheumatic, traumatic lesions or spinal surgery backgrounds.
The studies have been carried out on General Electric’s CT Scan. The volume acquisition has been realized on the cervical spinal. The stocked images have been processed on the image processing console with the measurement tools that facilitate the enlargement and rotation.
The measurement of the dimensions of the cervical spinal canal and spinal cord was realized on pedicular axial CT Scan cuts.
The distances measured were the antero-posterior (APD1) and inter-pedicular (IPD) diameters of the cervical spinal canal, as well as the antero-posterior (APD2) and transverse diameters (TD) of the spinal cord. Then we assessed APD2/APD1 (R1) and TD/IPD (R2) ratio.
APD1 has been measured between the posterior edge of the vertebral body and the fore junction of the blades (Figure 1).
IPD represents the longest distance between two pedicles (Figure 1).
APD2 has been measured between the anterior and the posterior edges of the spinal cord (Figure 2), at the same level as the APD1, in order to assess their ratio (R1).
TD has been measured between the right and the left edges of the spinal cord (Figure 2), at the same level as the IPD, in order to assess their report (R2).
The data have been processed and analyzed with Epi info 7 and Microsoft Excel software.
Figure 1. Measurements of anteroposterior diameter (APD1) and interpedicular diameter (IPD) of cervical spinal canal.
Figure 2. Measurements of anteroposterior diameter (APD2) and transverse diameter (TD) of cervical spinal cord.
3. Results
Our study involved 350 CT Scans of the cervical spinal. The mean age stood at 35 ± 10.55 years old. Both genders were involved, with 217 men (62%) and 133 women (38%).
The average of the APD1 stood at 14 ± 2.1 mm, with a minimal average of 12.7 ± 1.5 mm and a maximal average of 18.3 ± 1.9 mm. The highest average was at C1 and the lowest at C3, C4 and C5 (Table 1).
The IPD average was 24 ± 1.3 mm, with a minimal average of 22.2 ± 1.8 mm, and a maximal average of 26 ± 1.9 mm. We found the highest average at C1 and the lowest at C2 and C3 (Table 2).
The APD2 average was 11.66 ± 0.66 mm, with a minimal average of 9.1 ± 0.67 mm and a maximal average of 10.5 ± 1.5 mm. The highest average was found at C1 then at C2. From C3 to C7, the averages were slightly lower, but substantially equal (Table 1).
Table 1. Measures of Antero-Posterior Diameters (APD1) of the cervical spinal canal and the cervical spinal cord (APD2), and the ratio of the APD1 on the dural sac APD.
P values are higher than 0.05: absence of statistically significantly difference of diameters and the ratio between the male and female sex.
Table 2. Measures of the Inter-Pediculaire Diameter (IPD) of the cervical spinal canal and the Transverse Diameter (TD) of the cervical spinal cord, and the ratio of the IPD on the TD.
P values are higher than 0.05: absence of statistically significantly difference of diameters and the ratio between the male and female sex.
The TD average stood at 12.64 ± 1.77 mm. The Minimal TD average was 9 ± 0.6 mm and the maximal average was 14.63 ± 2.5 mm. The highest average was at C1 and the lowest at C5 (Table 2).
The average of R1 was 0.55 ± 0.01, with a minimal average at C4 and C5 (0.54 ± 0.05 mm) and maximal average at C2 (0.58 ± 0.07). All R1 were lower than 0.8 at all levels (Table 1).
The R2 average R2 stood at 0.65 ± 0.04, with a minimal average at C1 (0.57 ± 0.05 mm) which progressively increased to C5 (0.7 ± 0.06 mm) and then decreases to C7 (0.65 ± 0.04 mm). The R2 were lower than 0.9 at all levels (Table 2).
While comparing the measurements of the cervical spinal canal (APD1 and IPD) and the spinal cord (APD2 and TD), as well as R1 and R2 between the two genders, we found that there is no significant difference (Table 3).
4. Discussion
Knowing the normal values of the spinal canal is important, because it enables to detect central canal stenosis by reduction of the canal caliber [4] .
The antero-posterior diameter of the cervical spinal canal (APD1) is important in traumatic, degenerative and inflammatory situations, and a small diameter of APD1 is associated to the increase of lesions occurrence [5] . Generally, it is admitted that a cervical canal stenosis exists when the APD1 of the cervical canal is under the threshold of 12 mm [5] [6] . The global average of the APD1 cervical spinal canal in our study stood at 14 ± 2.1 mm, with a larger APD1 at C1 and the lowest at C3, C4 and C5. We noticed a decrease of APD1 from C1 to C5. Singh et al. [7] , as well as Gupta et al. [8] in India found an average higher (17.05 ± 1.61 mm) than ours. The average of our study is close to that of Lee et al. [9] in Korea, to Taitz [10] in South Africa and Gepstein [11] in Israel. Few studies [4] [10] found the smallest APD1 at C3. Some studies [7] [9] [12] found a smallest
Table 3. Comparison of the APD1 and the IPD of the cervical spinal canal, the APD2 and the TD of the cervical spinal cord, the ratio R1 and the ratio R2 between male and female patients (division of P values).
P values are higher than 0.05: absence of statistically significantly difference of diameters and the ratio between the male and female sex.
APD1 at C4. For most studies [7] [8] [10] [11] [13] , the smallest APD1 would stand at C5. It necessary to consider that regardless of the type of population, the smallest APD1 would stand generally in C3, C4 or C5 as we mention it in our study. Singh et al. [7] found a decrease of the APD1 from C1 to C5. UlbriCH [14] noted a lowering from C1 to C6. Other studies [13] [15] noticed a fall from C1 to C4 with an increase to C5 and a decrease to C6. Our study as well as Singh et al. [7] has not found any statistical significant difference between the APD1 of the cervical spinal canal of men and those of women. However, Evangepolos et al. [13] noticed a significant difference between the genders at C1. The comparison of the APD1 of our study with those of Singh et al. [7] on the one hand and with those of Evangepolos et al. [13] on the other hand, revealed that the differences are not statistically important. As for Taitz [10] , the APD1 would be larger with White people than Black people, without any important difference. It is thus considered that the cervical spinal canal biometrics would not be in relation with the phenotype. Measurements from Asians, Europeans and Africans would be the same. According to the study of Chazono et al. [16] , a possible ethnical difference of the APD1 would exist, with a larger APD1 with Europeans and Americans than with Asians.
With regard to the interpedicular diameter of cervical spinal canal (IPD), our study found out a global average of 24 ± 1.3 mm with a variation from 22.2 ± 1.8 mm to 26 ± 1.9 mm. We observed a higher average at C1 and lower average at C2 and C3. The averages of our study are comparable to that of Chazono et al. [16] , who found out averages varying from 22.6 mm à 27.5 mm, with a minimal average at C3 for Asian people (22.6 mm) and a maximal average in C5 for European and American people (27.5 mm). As for Chazono et al. [16] , many studies found out the lowest IPD at C3 and the highest at C5. Like our study, Chazono et al. [16] , have not found any significant statistical difference of IPD between ethnic groups.
Few studies concerning the measurement of the cervical spinal cord exist [14] . Studies [17] revealed that the average of antero-posterior diameter of the cervical spinal cord (APD2) varies between 5 mm and 6 mm. Our study found out an average of APD2 higher than 11.66 mm ± 0.66 with a variation from 9.1 mm ± 0.67 à 10.5 mm ± 1.5. Yet, the diameters measurement of the cervical spinal cord only would not enable to determine a cervical spinal cord compression. But when the measurement of the cervical spinal cord is coupled with that of the cervical spinal canal, it is possible to calculate the gap or to establish the relationship between the two. Tierney et al. [2] , in their study, measure the gap between the spinal cord and the spinal canal by calculating the difference between the two. Our study considered the relationship between the cord and the canal, with a global average ratio of 0.55 ± 0.01, minimal at C4 and C5 (0.54 ± 0.05 mm) and maximal at C2 (0.58 ± 0.07) in the antero-posterior plan. In the transverse plan, the global average ratio was 0.65 ± 0.04, with a minimal average at C1 (0.57 ± 0.05 mm) which was increasing progressively until C5 (0.7 ± 0.06 mm); then it decreases to reach C7 (0.65 ± 0.04 mm). There is no study concerning the relationship between the cord and the medullar canal regardless of in the antero-posterior plan or in the transverse plan. It is acknowledged that the spinal cord compression is due to an inadequacy between the cord and the medullar canal [18] . The gap around the spinal cord would diminish at the level of the cervical low segment [2] , increasing the risk of medullar compression at this level [19] [20] . In our study, the smallest antero-posterior ratio stands in C4 and C5, and the largest ratio stands in C2. With regard to transverse plan report, our study found out an increase of the ratio from C1 to C5, then a decrease from C5 to C7. The assessment of the gap around the cord would be more contributing than the diameters of the canal and the spinal cord and the medullar canal in the determination of the spinal cord compression [21] .
5. Conclusion
CT scan can provide accurate cervical spinal canal and spinal cord measurements that could serve as a useful guide in the determination of the cervical canal stenosis. The dimensions of the cervical spinal canal and spinal cord in healthy individuals are dependent on spinal level. The consideration of these normal values should help radiologists and clinicians to interpret CT scan.
Conflict of Interests
The authors declare that there is no conflict of interest regarding the publication of this paper.