Table of Content Volume 13 Issue 1 - January 2020
Associate Professor, Adihunchangiri Institute of Medical Sciences, B. G. Nagar-571448.Nagamangala (Tq), Mandya (Dist), Karnataka Email: dr.ukm1991@gmail.com
Abstract Background: Thickness of LF in normal and LSS were compared to study the variation of thickness to establish the pathological range of LF and its asymmetry indicated in CT image and associated Vertebral body size at different age and sex. Method: 50 controlled and 50 LSS thickness of LF was measured viewed in CT images, performed at L3, L4, L4, L5, L5, S1. Analysis was studied with’t’ test and P value Results: Cross section Area of Dural Sac of both groups mean values at L3-L4 in control was 132.5 (SD±46) and LSS group was 65.2 (SD±23) at L4-L5 control groups was 133.3 (SD±44) and LSS groups had 48.3 (SD±25). At the level of L5-S1 the control group was 136.2 (SD±46) and had 91.2 (SD±36) Moreover thickness of LF at L3-L4, L4-L5,L5-S1 had significant P value (P<0.01). In addition to thickness of LF in both sexes of normal (control) had also significant P value (P<0.01). Conclusion: This empirical comparative study would be a diagnostic value to rule out LSS at different ages and both sex. Key Words: LSS=lumbar spine stenosis LF= ligamentum flavum CT= computerized Tomography, Controlled group,
INTRODUCTION Ligamentum Flavum (LF) wraps around the medial aspect spinal articulation and is composed more elastic than collagen fibres, hence it's yellow in colour. Its elasticity diminishes with age and there is loss of elastic fibres and a concomitant increase of collagen fibres1. The ligament consists of a superficial and a deep component. The superficial component inserted into superior and posterior superior edges of the caudal lamina. The deep component is inserted at a variable distance into the antero-superior surface of caudal middle of general LF begins in the middle of the cephalic lamina and is inserted into the superior surface of caudal lamina2. It is suggested that, LF plays on important role in vertebral disease more specifically in the spinal stenosis3,4. Thickening of LF can reduce the diameter of spinal canal, compressing the Dural sac and nerve roots and contributing to low back pain (LBP) and sciatica, herniation of nucleus pulposus or bone spurs5,6. Though LF thickness with age but due to degeneration of disc or diseases of vertebrae there could be due to hypertrophy of LF which causes narrowing of spinal canal and stenosis. Hence attempt was made to compare the LSS with controlled group.
MATERIAL AND METHODS 50 controlled (normal) and 50 stenotic of lumbar spines patients who were regularly visiting AIMS B G Nagar, Mandya (dist) have been compared to study the thickness of ligamentum Flavum in both sexes. Inclusive Methods: The Patients having lumbar spine stenosis (L3-S1) having symptoms of low back pain, radicular referred pain, and intermittent claudication were selected for study. Method: 50 lumbar spine stenosis aged between 40 to 60 years, the ligamentum flavum thickness were studied by using Lumbar computerized Tomography (CT) images. The same age group controlled group of 50 healthy persons were also studied compared by CT images. The thicknesses of lignutum Flavum (LF) in both groups were compared. All CT images in controlled and LSS groups were performed in the same position and techniques using the multi planar reformatting technique. Thickness of the section 1 to 3mm, 80 to 250mm. As the left and right LF thickness for each vertebral level (L3-S1) were measured at its mid-width distance in both groups. The duration of study from August- 2016 to jan-2017. Exclusion Criteria: Patients having congenital anomalies of lumbar vertebrae, Tuberculosis and malignancy of lumbar region were excluded from the study. Statistical Analysis: Mean values cross section Area in both groups, relative thickness of ligmentum flavum (LF) were compared in both sexes by SPSS, Software. The ratio of male and female were 1:1.
OBSERVATION AND RESULTS Table-1 Study of mean values of cross section Area of Dural Sac in both group was at the level of L3-L4 in control group was 132.5 (SD+46) and LSS group was 65.2(SD±23) at L4-L5 control groups was 133.3 (SD±44) and LSS groups had 48.3(SD±25). At the level of L5-S1 the control group was 136.2 (SD±46) and had 91.2(SD±36)
Table 1: Mean cross section Area (CSA) of Dural SAC in both groups at different level
Table-2 In the comparative study of thickness of ligament Flavum in both control and LSS group was, At the level of L4-L5 left in control group was 8 cm (SD±3) in LSS 11cm (SD±4), 't' test value was 4.24 and P value was highly significant ( (P<0.01) In right side mean value of controls was 9 (SD±2) and LSS groups had 11.8 (SD±4) 't' test value was 4.42 and P value was highly significant (P<0.1). At the level of L4- L5 right in controls mean value was 11(SD-±3) and LSS group had 13(SD±3) 't' test value was 3.33 and P value was highly significant (P<0.01). In right side mean value was 11.5 (SD-±3) and 13.8 (SD±3) in LSS group 't' test value was -3.83 and P value was highly significant (P<0.01). At the level of L5-S1 mean value of controls left was 10.2 (SD±2)10.4 (SD±3) in LSS group, 't' test value was 0.39 P value was (P<0.01). In right side mean value was 11.5 (SD±3) controls 11.2 (SD±) in LSS group 't' test and P value P<0.05. The relative thickness formula.
Table 2: Comparative study of thickness of Ligamentum Flavum in both groups(Total No-100 SU-control group SU-LSS group)
LF thickness Formula = --------------------------------- × 100 Vertebral body length Table-3 Comparative study of relative thickness in both sexes of normal (controlled group)-25 male and 25 female normal (controlled) were studied. At the level of L3-L4 in males was 7.8 (SD±2) and in females 8.9 (SD±3) 't' test value was 0.55 and P value was highly significant (P<0.01). In right side mean value males, 7.9(SD±2) and female 8.9 (SD±3) 't' test value was 1.38 (P>0.01). At the level of L4-L5 of males in right side mean value 10.6 (SD±2) and in females 10.5 (SD±3) 't' test value 0.13 (P<0.01) In left side mean value of males was 10.2(SD±2) and females 10.8(SD±3)'t' test value 0.83(P<0.01). At the levels L5- S1 mean value of males right side 8.9 (SD±2) in females 9.8 (SD±3) 't' test value was 1.24 (P<0.01). In left side mean value in males was 9.2 (SD±4) in females 9.9 (SD±3) 't' test value was 0.7(P<0.01). Table 3: Comparative study of relative thickness Ligamentum Flavum (LF) in normal (control) group of both sexes (25 male and 25 Female)
Table-4 The present findings of thickness of ligamentum flavum (LF) in LSS group was compared with previous studies of cadavers and living subjects having herniation of disc and Low back pain studied with MRI and CT. Table 4: Study of thickness Ligamentum flavum (LF) in previous study
DISCUSSION In the present study of thickness of LF in LSS and normal groups mean value of cross section area of Dural sac (CSA) mean value of control group at the level L3-L4 was132.5 (SD±46) and LSS group was 65.2(SD±23)at L4-L5 control groups was 133.3 (SD±44) and LSS groups had 48.3 (SD±25) At the level of L5-S1 the control group was 136.2 (SD±46) and had 91.2 (SD±36) (Table-1) But more thickness of LF was observed in LSS group than controlled groups in all three levels i.e. LF at L3-L4, L4-L5,L5-S1 due to hypertrophy of LF in LSS group (Table-2). Moreover in the normal group thickness LF was more in females then males (Table-3) these finding of present study more or less in agreement with previous studies7,8,9 Thickness of LF was also observed in after the age forty in both genders10. Hence it can be hypothesized that, lumbar stenosis associated with LBP, radicular pain, sciatica was mainly observed elderly people rather than young adults. Significant changes in LF thickness were observed in L3-L4 and L4- L5. It could be due to hyper mobility of these two segment as compared to L5-S1 which is stabilized by the ilio-lumbar ligament and the large transverse processes of L5 vertebra. In addition to this articular facets of S1 are more coronally oriented to act to decrease the shearing stress in that segment11. LF being a connective tissue that runs or connect from second cervical vertebra to first sacral vertebra12. Its functions effects the intrinsic stability of the vertebral spine, controls inter verebral movement and maintains a smooth surface for Dural sac. It was also reported that vertebral segmental instability affects the patho-physiology of LF13. Hence degeneration of inter vertebra disc may cause hypertrophy or thickness of LF 14. Hence it is difficult to designate hypertrophy or thickness of LF.
SUMMARY AND CONCLUSION The present comparative study of thickness of LF in LSS with control groups will be quite useful to Radiologist, Neurosurgeon, Neuro-physician to treat such patients efficiently. But this study demands further patho-physiological, nutritional, Kinesiological, genetic study, because this study suggests that the thickness of LF has no any correlation with height of body of vertebrae and exact pathogenesis of thickness of LF is still un-clear. This research paper was approved by Ethical committee of Adichumchangiri Institute of Medical sciences B G Nagar-517448. Nagamangala (Tq) Mandya (dist) Karnataka.
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