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Magnetic Resonance Imaging Quantification of Lumbar Spinal Canal Stenosis in Symptomatic Subjects |
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Siddarth Ragupathi, Ajit Kumar Reddy, Jayaraman Gopal 1. Assistant Professor, Department of Radiology, Vinayaka Mision Medical College and Hospital, Karaikal, Puducherry, India. 2. Assistant Professor, Department of Radiology, Kempagowda Institute of Medical Sciences, Bengaluru, Karnataka, India. 3. Associate Professor, Department of Radiology, Mahatma Gandhi Medical College and Research Institute, Puducherry, India. |
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Correspondence Address : Dr. Siddarth Ragupathi, 10/25, Banadurai South Street, Kumbakonam-612001, Tamil Nadu, India. E-mail: rsidd1111@gmail.com |
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ABSTRACT | |||||||||||||||||||||||||||||||||||||||||||||
: Low backache is a common condition to occur in the middle age. It is mainly caused by the degeneration of the intervertebral disc which forms the main support to the vertebral column. Lumbar spinal canal stenosis results in the compression of spinal cord and nerves at the level of lumbar vertebra. Aim: The purpose of this study is to measure the spinal canal dimensions and correlate with the clinical symptoms to establish a radiological criterion based on MRI for diagnosis of lumbar canal stenosis. This study is done to improve the diagnostic accuracy of lumbar spinal canal stenosis. Materials and Methods: Two hundred subjects with complaints of low backache without a traumatic history underwent Magnetic Resonance Imaging (MRI) after assessment of pain by two methods: 1. Oswestry Disability Index (ODI) scoring and 2. Wong Baker Facial Expression scale. All the images were qualitatively analyzed to obtain the MRI grading for central canal at various levels from L1 to S1 vertebra after making sure that the neural foramina is not involved. Anteroposterior and transverse diameter of spinal canal at intervertebral disc and upper part of vertebral body levels and spinal canal area are measurements that are taken. Descriptive and inferential statistical analysis has been carried out in the present study. Results on continuous measurements are presented on mean±SD (min-max) and results on categorical measurements are presented in number (%). Significance is assessed at 5% level of significance. Results: The spinal canal diameter measured along its AP and transverse direction is found to be correlating with the severity of low backache complained by the patient. Comparing the two methods of clinical assessment, ODI scoring was found to be more significant. Conclusion: The spinal canal measurements can be used as a radiologic criterion for diagnosis of acquired lumbar spinal canal stenosis. This will improve the diagnostic accuracy. However, in case of presence of any other pathology or traumatic history with bony fractures, these criterions could not be used. | |||||||||||||||||||||||||||||||||||||||||||||
Keywords : Cauda equina, Intervertebral discs, Low backache, Neural foramina, Oswestry Disability Index (ODI) | |||||||||||||||||||||||||||||||||||||||||||||
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INTRODUCTION | |||||||||||||||||||||||||||||||||||||||||||||
Lumbar spinal canal stenosis results in the compression of spinal cord and nerves at the level of lumbar vertebra. There can either be central stenosis or foraminal stenosis. Central stenosis is the narrowing of the entire canal and foraminal stenosis is the narrowing of the foramen through which the nerve root exits the spinal canal (1). The most common causes for lumbar spinal stenosis include spondylosis, disc degeneration, and ligament thickening. Other causes include spinal fracture and an abnormally narrow spinal canal, which may be an inherited condition. Clinical manifestations of stenosis include low back pain as well as radiating pain in the thighs legs and feet. It can also Keywords: Cauda equina, Intervertebral discs, Low backache, Neural foramina, Oswestry Disability Index (ODI) results in loss of bowel and bladder control (2). These clinical symptoms occur due to the cauda equina and the lumbar nerve roots compression leading to neural root ischemia and neurogenic claudication. The narrowing of the neural foramina is responsible for the radiating pain to the lower limb. Similar symptoms may also occur in case of any tumour mass or an abscess. Usually, patients with narrowing of the spinal canal or neural foramina gives a history of lifting heavy weights (while doing household works or while doing workouts in gym etc.,), doing strenuous work or chronicity. Hence, personal and medical history are important while evaluating the case of low backache. The preferred method for diagnosis and evaluation of this condition is MRI (3). Although, studies on spinal canal stenosis using various techniques like conventional radiography, CT and MRI and various parameters are documented, still the radiological criteria for diagnosing significant lumbar stenosis is controversial especially in early symptomatic stage. The recent development of MRI has made it possible to obtain clear images of the spinal canal non-invasively, thereby making measurements of spinal canal and spinal cord more applicable to routine practice and suitable for best diagnosis of spinal canal stenosis (2). | |||||||||||||||||||||||||||||||||||||||||||||
MATERIAL AND METHODS | |||||||||||||||||||||||||||||||||||||||||||||
This observational clinical study was performed in the Department of Radiodiagnosis, Mahatma Gandhi Medical College and Research Institute, Puducherry, India, for 1 year from August 2013 to July 2014. Patients of all age groups who were referred for MRI of Lumbosacral spine with complaints of low backache and willing for MRI were included in this study. PHILIPS 1.5T MRI was used throughout the study. A total of 200 patients were involved in this study (male-106, female-94). Patients between 18-60 years of age referred for lumbosacral spine MRI with complaint of low backache were selected and their MRI images were qualitatively analysed and only those cases with spinal canal involvement alone and no neural foraminal involvement were selected. An informed consent was obtained from every patient. Patients not willing to give consent, patients with spinal deformities and postoperative patients were excluded from the study. Clinical grading was done using the Wong Baker Facial Expression scale and ODI scoring. Both these scoring were used because the facial expression scale is a subjective scoring and it depends on individuals ability to bear the pain. Some patients even though having a minimal pain won’t be able to bear it and will give a higher grade for their pain. Wong Baker Facial Expression scale: It was mainly developed for young patients to quantify their pain themselves. It consists of 6 faces from no pain to worst pain (4). Grading is as follows- Face 0: is very happy because he doesn’t hurt at all; Face 1: hurts just a little bit; Face 2: hurts a little more; Face 3: hurts even more; Face 4: hurts a whole lot more; Face 5: hurts as much as you can imagine, although you do not have to be crying to feel this bad (Table/Fig 1) (1). Oswestry Disability Index scoring: ODI scoring was first published by Jeremy Fairbank et al. in Physiotherapy in 1980 (5),(6). Currently, many clinicians and researchers consider ODI as the gold standard to quantify the disability in a person with low backache [6,7]. It consists of a set of 10 questions that gives the clinicians the information as to how the pain has affected the patient’s ability to manage in everyday life. Scoring methods is as follows: 0% to 20%: Minimal disability; 21%- 40%: Moderate Disability; 41%-60%: Severe Disability; 61%- 80%: Crippling back pain; 81%-100%: These patients are either bed-bound or have an exaggeration of their symptoms (8). (Table/Fig 2) gives the image of the questionnaire that is used for scoring. All scans were conducted on a 1.5T MRI with a sense spine coil. T1-weighted and T2-weighted sagittal and axial images are acquired [T1W sag- TR/TE- 400/80; FOV:AP- 300, RL- 66, FH- 329; Slice gap- 0.4; Slice thickness- 4 mm; Matrix332X262; Flip angle- 90; T2W sag- TR/TE-3000/80; FOV:FH331 mm, RL-66 mm, AP- 285 mm; Slice thickness- 4 mm; Slice gap- 0.4 MM; Flip angle- 90; Matrix- 440X57; T1W axialTR/TE-3500/90; FOV:FH- 30 mm, FH- 30 mm, RL- 170 mm, AP-170; Slice thickness- 4 mm; Slice gap- 0.4 MM; Flip angle90; Matrix- 240X166; T2W axial- TR/TE-550/84; FOV:FH-30 mm, FH-30 mm, RL-170 mm, AP-170; Slice thickness- 4 mm; Slice gap- 0.4 MM; Flip angle- 90; Matrix- 292X199;]. AP and transverse spinal canal diameter was measured in axial section at intervertebral disc level. Spinal canal area was measured at intervertebral disc level. The method with which the measurement is made is given in (Table/Fig 3) (a-c). MRI grading of the central canal stenosis was also noted which is as follows: Grade 0 = No lumbar stenosis without obliteration of anterior CSF space; Grade 1 = Mild stenosis with separation of all cauda equina; Grade 2 = Moderate stenosis with some cauda equina aggregated; and Grade 3 = Severe stenosis with none of the cauda equina separated (9). Ethics The study was conducted after obtaining approval from the ethical committee of the institute. Informed and written consent was obtained from all the patients who were included in the study beforehand. Patients who were not willing to give consent were not included in the study. STATISTICAL Analysis Descriptive and inferential statistical analysis has been carried out in the present study. Results on continuous measurements are presented on mean±SD (min-max) and results on categorical measurements are presented in number (%). Significance is assessed at 5 % level of significance. The following assumption on data is made, Assumptions: 1. Dependent variables should be normally distributed, 2. Samples drawn from the population should be random, and cases of the samples should be independent. To find the significance of study parameters between three or more groups of patients, Analysis of Variance (ANOVA) has been used. Between two groups (Inter group analysis), to find the significance of study parameters on continuous scale, Student’s ‘t’-test (two tailed, independent) has been used. Based on categorical scale between two or more groups, the significance of study parameters has been found by Chisquare/Fisher’s Exact test. Significant figures: + Suggestive significance (p-value: 0.05 < p < 0.10) * Moderately significant (p-value: 0.01 < p = 0.05) ** Strongly significant (p-value: p=0.01) Statistical software: The statistical software namely SAS 9.2, SPSS 15.0, Stata 10.1, MedCalc 9.0.1, Systat 12.0 and R environment ver.2.11.1 were used for the analysis of the data and Microsoft word and Excel have been used to generate graphs, tables etc. All these softwares were used for cross reference for better quality results. However, only the result from SPSS 15.0 was used in the study (10),(11),(12),(14). | |||||||||||||||||||||||||||||||||||||||||||||
RESULTS | |||||||||||||||||||||||||||||||||||||||||||||
Out of the 200 patients included under the study, the number of males and females were almost equal, with a slight male predominance of 53%. Majority of those were in the age group of 41-50 (28%), 31-40 (25%) and 20-30 (24%). Symptomatic male patients were among the age group of 20-60 years, with slightly more number in the 2nd to 3rd decade, then 5th to 6th decade whereas in females, predominant symptomatic patients were in the age group of 4th to 5th decade. In our study, the AP diameter of spinal canal measured at the intervertebral disc level is in the range of 14.81±1.78 mm. The transverse diameter of the spinal canal falls in the range of 21.47±3.22 mm at intervertebral disc level. Minimum and maximum spinal canal area in our study, with a range of 151.34±40.85 mm2, was 37 mm2 at L4-L5 and 500 mm2 (Table/Fig 4) shows the correlation of measurements of AP diameter of the spinal canal at IVD level with ODI scoring in which strong significance was noted at levels L2-L3 and L3- L4, moderate significance was noted at L1-L2, L4-L5 and L5-S1 levels and overall, a strong significance was noted on correlation of the AP diameter of spinal canal at IVD level with ODI scoring. (Table/Fig 5) explains the correlation of measurement of AP diameter of spinal canal at IVD level with facial scale. Strong significance was noted at L5-S1. The correlation of measurement of Transverse diameter of spinal canal at IVD level with ODI scoring showed strong significance at L1-L2 level (Table/Fig 6). Strong significance was noted at all the intervertebral disc levels on correlating the measurement of transverse diameter of spinal canal at IVD level with facial scale (Table/Fig 7). The correlation of measurement of spinal canal area with ODI scoring showed strong significance at L1-L2, L2-L3, L3-L4 and L4-L5 levels except at L5-S1 level which showed moderate significance (Table/Fig 8) whereas, strong significant was noted only at L1-2 and L4-5 levels on correlation of the spinal canal area measurement with facial scale and moderate significant at L3-4 and L5-S1 levels (Table/Fig 9). Overall, comparison of all the study variables with ODI and facial scoring showed strong significance (Table/Fig 10),(Table/Fig 11). | |||||||||||||||||||||||||||||||||||||||||||||
DISCUSSION | |||||||||||||||||||||||||||||||||||||||||||||
An Indian study on Western Maharashtra population consisting of measurements of lumbar spinal canal diameters showed statistically significant differences in their mean values for males and females indicating sexual dimorphism. Comparison with other groups showed ethnic variation (14). A research done in India using MRI on skeletons of Indians and Italians on the anteroposterior diameter of lumbar spinal canal shows that the mean values are larger in Italian skeletons emphasizing the racial difference in the lumbar spinal canal diameter (15). Another study in India on cadavers measuring the transverse and sagittal diameter of the lumbar vertebral canal in correlation with X-rays reveals that there are probably subtle racial differences in size of the spinal canal thus emphasizing the need for an established grading system (16). A similar study has been done on CT to define the normal values of lumbar spinal canal in patients with symptoms of lumbar spinal stenosis to establish norms of the transverse diameter of the spinal canal (17). A CT based study on quantitative size assessment of the lumbar spinal canal by Computed Tomography stated that lowest possible anteroposterior diameter at L4 is 8 mm and L5 is 10 mm (18). Few other references stated that the lowest possible normal limit for anteroposterior diameter is 12 mm (19),(20). A study was conducted to establish the relationship between clinical symptoms with LSS and osseous AP spinal canal diameter as measured on axial magnetic resonance imaging (21). This study found no significant correlation between imaging appearances and levels of disability in patients with LSS. In the present study, on comparing the correlation of all these measurements with the two clinical assessment methods that we used (ODI and Wong Baker Facial scale), we found that the ODI scoring was more significant. This could be because of the fact that ODI scoring assesses the patient’s disability through questionnaire, whereas the facial scale is more patient dependent. Assessment with facial scale differs in every patient depending on their ability to bear the pain. Some patients may be able to withstand pain while some may not be able to bear even a slight pain. However, the clinical examination to assess the involved nerve root was not done in our study which will be helpful to look for pathology at that level of nerve root and only the quantity of pain was taken into account. Some cases with a non-traumatic low backache had other pathologies like Pott’s spine or dural mass lesions. Such cases were not included in our study. While cases of Pott’s spine may give a history of fever, cough and cold, cases with masses will not have such history. They may give history of low backache alone. Few cases had fracture of the lumbar spine but traumatic history was not present, which may be a pathological fracture also. However, such cases were excluded from our study. Thus, the spinal canal diameter measured along its AP and transverse direction is found to be correlating with the severity of low backache complained by the patient (assessed by using ODI scoring and Wong Baker facial scale) which can be used as a radiologic criterion for diagnosis of acquired lumbar spinal canal stenosis. This will improve the diagnostic accuracy. However, in case of presence of any other pathology, these criterions could not be used. LIMITATION There are a few limitations in this study. First of all, low backache itself is a generalized symptom that can occur not just because of degenerative disc disease, it can occur with many other conditions like renal or ureteric calculus, tuberculosis or any other infective conditions involving the spine etc., to name a few. This study was done in patients with low backache who were not having any other pathologies other than the disc bulge or in post-operative patients. This criterion may not be used in such patients. The other limitation is that the pain scale used may or may not be accurate as the pain tolerance changes with each patient, some patients can tolerate even severe pain while some may not tolerate even a minimal pain. | |||||||||||||||||||||||||||||||||||||||||||||
CONCLUSION | |||||||||||||||||||||||||||||||||||||||||||||
The spinal canal diameter measured along its AP and transverse direction is found to be correlating with the severity of low backache complained by the patient (assessed by using ODI scoring and Wong Baker Facial scale). Severity of the fatty infiltration of the lumbar multifidus muscle is strongly correlating with the severity of pain by ODI scoring rather than with the facial scale. The ligamentous inter facet distance, lateral recess and neural foraminal measurements were not found to be strongly correlating with the clinical severity. Comparing the two methods of clinical assessment we have used, ODI scoring was found to be more significant. Thus, the spinal canal measurements and severity of fatty infiltration can be used as a radiologic criterion for diagnosis of acquired lumbar spinal canal stenosis. This will improve the diagnostic accuracy. | |||||||||||||||||||||||||||||||||||||||||||||
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TABLES AND FIGURES | |||||||||||||||||||||||||||||||||||||||||||||
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