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Intraspinal Posterior Epidural Cysts Associated with Baastrup's Disease: Report of 10 Patients

¹ Department of Radiology, Kaohsiung Veterans General Hospital, 386 Ta-Chung 1st Rd., Kaohsiung 813, Taiwan.
² National Yang-Ming University, School of Medicine, 155, Sec. 2, Li-Nong St., Shih-Pai Rd., PeiTou, Taipei 112, Taiwan.
³ Department of Radiology, Veterans Affairs Medical Center and University of California San Diego, 3350 La Jolla Village Dr., San Diego, CA 92161.

Received January 28, 2003; accepted after revision July 23, 2003.

 
Address correspondence to C. K. H. Chen (khchen{at}isca.vghks.gov.tw).

Abstract

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OBJECTIVE. This study was performed to describe the association of posterocentral epidural cysts with interspinous bursal fluid in Baastrup's disease using MRI and interspinous bursography.

CONCLUSION. Interspinous bursal fluid in Baastrup's disease can extend into the posterocentral epidural space and cause various degrees of central canal stenosis. Bursography alone or combined with CT allows documentation of abnormal communicating channels between the interspinous bursa and epidural cyst.

Introduction

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Baastrup's disease is a well-documented disease that is characterized by close approximation and contact of adjacent spinous processes (kissing spine) with resultant enlargement, flattening, and reactive sclerosis of apposing interspinous surfaces [1]. It can manifest clinically as midline localized lumbar tenderness and pain on back extension that can be relieved by flexion, local anesthetic injection, and excision of part of the spinous processes [2]. We report 10 cases of intraspinal posterior epidural cysts associated with Baastrup's disease that resulted in varying degrees of posterior central compression of the thecal sac. Interspinous bursography combined with CT confirmed that the interspinous bursitis extended to the intraspinal cystic mass in five patients. To our knowledge, these findings have not been reported previously.

Materials and Methods

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Between December 1999 and October 2002, 10 cases of intraspinal posterocentral epidural cysts were found to be associated with Baastrup's disease during interpretation of 1,148 MRIs of the lumbar spine. The patients include nine men and one woman, whose ages ranged from 43 to 77 years (average age, 67 years). According to the medical records, they were referred for MRI evaluation of lower back pain (nine patients), radiculopathy in one or both legs (eight patients), or signs of spinal stenosis (five patients). MRIs were obtained with a 1.5-T imager (Signa, General Electric Medical Systems, Milwaukee, WI). Our routine MRI protocol for the lumbar spine consisted of coronal fat-suppressed fast spin-echo T2-weighted sequences (TR range/TE_eff range, 4,400–4,550/67–90), sagittal spin-echo T1-weighted sequences (400–416/14–16), fast spin-echo T2-weighted sequences (3,300–3,800/98–110), oblique axial sequences (angled along respective intervertebral disks), spin-echo T1-weighted sequences (400–616/13–16), and fat-suppressed fast spin-echo T2-weighted sequences (3,500–8,000/81–96). The diagnosis of Baastrup's disease was based on the presence of high T2 signal (similar to that of fluid) in the narrow interspinous space and flattening and sclerosis of the apposing surfaces of the spinous processes on sagittal MRIs or frontal and lateral radiographs (available in all 10 patients), or both.

Interspinous bursography and CT were performed in five patients within days after the MRI studies. Under fluoroscopy, with the patient lying on the right side, a 21-gauge spinal needle was inserted from a direct posterior approach until its tip was located at the midpoint of the involved interspinous space. The amount of nonionic contrast material (iohexol, Omnipaque, Nycomed Amersham, Princeton, NJ) that was injected depended on the capacity of the cystic lesions seen under fluoroscopy and ranged from 5 to 15 mL. Helical CT with coronal and sagittal reformations was performed using a Somatom Plus 4 scanner (Siemens, Erlangen, Germany) with the following parameters: table speed, 3 mm/sec; collimation, 2 mm; pitch, 1.5; and reconstruction interval, 2 mm.

Results

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On sagittal and axial MRIs, the posterocentral epidural cysts were contiguous with the interspinous space. Varying degrees of posterocentral compression of the thecal sac were observed (Figs. 1A, 1B, 2A, 3A, and 3B).

View larger version (149K): [in this window] [in a new window] [as a PowerPoint slide]   Fig. 1A. —75-year-old man with lower back pain. Sagittal spin-echo T1-weighted image (TR/TE, 416/16) shows Baastrup's disease at L4–L5 disk level with approximation of spinous processes and flattening of their apposing surfaces. Small posterocentral epidural cystic mass (arrow) is contiguous to interspinous soft tissue.

View larger version (172K): [in this window] [in a new window] [as a PowerPoint slide]   Fig. 1B. —75-year-old man with lower back pain. Axial fat-suppressed fast spin-echo T2-weighted image (6,000/96) confirms posterocentral epidural cystic mass (arrow) that has led to mild compression of thecal sac. No significant facet arthrosis or effusion or evidence of communicating channel between cyst and facet joints is present.

View larger version (143K): [in this window] [in a new window] [as a PowerPoint slide]   Fig. 2A. —73-year-old man with lower back pain radiating to both legs. Sagittal fast spin-echo T2-weighted image (TR/TE, 3,500/105) shows evidence of Baastrup's disease and central canal stenosis resulting from anterior disk bulging and posterior epidural lesion (arrow) at L4–L5 level.

View larger version (147K): [in this window] [in a new window] [as a PowerPoint slide]   Fig. 3A. —60-year-old man with lower back pain radiating to both legs. Sagittal fast spin-echo T2-weighted image (TR/TE, 3,500/110) shows posterocentral epidural cystic mass (straight arrow) at L2–L3 level and Baastrup's disease with interspinous bursal fluid (curved arrow). Subjacent spondylolisthesis between L3 and L4 is also seen.

View larger version (185K): [in this window] [in a new window] [as a PowerPoint slide]   Fig. 3B. —60-year-old man with lower back pain radiating to both legs. Axial fat-suppressed fast spin-echo T2-weighted image (7,500/96) shows evident compression of thecal sac by posterocentral epidural cyst (arrow).

During bursography, the contrast material flowed directly and smoothly from the interspinous bursa into the posterior epidural cysts (Figs. 2B and 2C). These connections were apparent during fluoroscopic monitoring as well as on axial or reformatted CT images (Figs. 1C, 2B, 2D, 3C, and 3D). Concurrent opacification of a single facet joint was noted in two patients and opacification of the facet joints on both sides (Figs. 3C and 3D) in two other patients; opacification of an adjacent defect of the pars interarticularis was observed in one patient (Fig. 3C).

View larger version (152K): [in this window] [in a new window] [as a PowerPoint slide]   Fig. 2B. —73-year-old man with lower back pain radiating to both legs. Interspinous bursogram, lateral projection, shows bursal fluid extending directly to posterior epidural cyst (open arrow). Tip of spinal needle (solid arrow) was placed at midpoint of L4–L5 interspinous space.

View larger version (157K): [in this window] [in a new window] [as a PowerPoint slide]   Fig. 2C. —73-year-old man with lower back pain radiating to both legs. Interspinous bursogram, frontal projection, shows opacified posterior epidural cyst located in midline.

View larger version (149K): [in this window] [in a new window] [as a PowerPoint slide]   Fig. 1C. —75-year-old man with lower back pain. Sagittally reformatted CT image obtained after interspinous bursogram shows contrast material (arrowheads) in interspinous space extending to small posterior epidural cyst. Note air (arrow) that was inadvertently injected and accumulated in cyst.

View larger version (128K): [in this window] [in a new window] [as a PowerPoint slide]   Fig. 2D. —73-year-old man with lower back pain radiating to both legs. Axial CT image shows bursal fluid extending directly to posterior epidural cyst (arrow). Small opacified communicating channel is evident between cyst and interspinous bursal fluid. No significant facet arthrosis or effusion is present.

View larger version (160K): [in this window] [in a new window] [as a PowerPoint slide]   Fig. 3C. —60-year-old man with lower back pain radiating to both legs. Interspinous bursograms reveal opacification of interspinous bursa (curved arrow) and fluid extending to posterior epidural cyst (straight arrow). Concurrent opacification of L3 spondylolysis (arrowhead) is also present. Spondylolysis at L3 level is more evident on lateral radiograph and MRI of lumbar spine.

View larger version (143K): [in this window] [in a new window] [as a PowerPoint slide]   Fig. 3D. —60-year-old man with lower back pain radiating to both legs. Axial CT image shows contrast material opacification of interspinous bursa extending to posterior epidural cyst (open arrow). Small opacified communicating channel is evident between cyst and interspinous bursal fluid. Resultant moderate to severe central canal stenosis is evident. Concurrent opacification of bilateral facet joint spaces (solid arrows) at L2–L3 spinal level is also visible.

Concurrent degenerative disk disease and variable degrees of spinal stenosis were noted in all patients, spondylolisthesis at or below the level of the cyst (Figs. 3A and 3C) in six patients, and posterior protrusion or extrusion of an intervertebral disk in two patients. Significant arthrosis of the adjacent facet joints with joint effusion was found in three patients.

Six patients underwent spinal decompression surgery, including laminectomy, posterolateral fusion, and posterior instrumentation. Postoperative clinical follow-up recorded improvement in four patients. During retrospective review of the operation notes, we noted that only two posterior epidural cysts were meticulously dissected during surgery. The histologic assessment in these cases indicated a synovial cyst in one and focal granulation tissue and fibrosis in another.

Discussion

Top Abstract Introduction Materials and Methods Results Discussion References

 
Baastrup's disease is well documented, although concurrent spinal lesions (e.g., degenerative disk disease, spinal stenosis, and spondylolisthesis) are common [3]. An excellent review of the history of Baastrup's disease is that of Bywaters and Evans [2] in 1982. In 1929, Brailsford [4] described arthritic joints between the spinous processes on radiologic assessment and noted that "such patients have pain in the back when standing erect which is relieved by bending forward." In 1933, Baastrup [5] described in detail the clinical and radiographic features of the syndrome. Radiographically, the disorder is characterized by close approximation and contact of adjacent spinous processes (kissing spines) and resultant enlargement, flattening, and reactive sclerosis of apposing interspinous surfaces. Baastrup's disease manifests clinically as localized midline lumbar tenderness and pain on spine extension that can be relieved by spinal flexion, local anesthetic injection [6], and excision of part of the involved spinous processes [2].

Histologically, a cavity or adventitious bursa has been described in the interspinous space. In 1825, Mayer of Bonn [7] noted such fluid-filled cavities and designated them "diarthroses interspinosae." Rissanen [8] reported that these cavities did not appear before the age of 10 years but were present in adults with a frequency that increased with age. Bywaters and Evans [2] documented the occurrence of a synovial membrane with a thin layer of sparse lining cells around the cavity and confirmed the presence of an adventitious bursa that related to repeated shearing movement between adjacent spinous processes.

In a study of lumbar facet joint arthrography, Sarazin et al. [9] reported vertical communications (i.e., opacification of the upper or lower ipsilateral facet joint), horizontal communications (i.e., opacification of the contralateral facet joint), and opacification of a defect in the pars interarticularis that may occur via the retrodural or interspinous space. In cases of advanced Baastrup's disease, communication between the interspinous space and both facet joints leads to a classic butterfly appearance.

These patterns of communication were also observed during interspinous bursography in our patients. This observation indicates that extensive degeneration in the soft tissue of retrodural and interspinous spaces may occur and form communicating pathways. When the fluid collection in the interspinous space is large, it may extend directly to the ligamentum flavum and even to the posterior epidural space in a manner similar to the formation of a synovial cyst in the presence of a joint effusion that produces high intraarticular pressure.

In our patients, the presence of direct continuity on sagittal MRIs and a direct opacified communicating channel on CT bursograms between the epidural cysts and the interspinous bursae (Figs. 2D and 3D), the absence of significant facet arthrosis and effusion, the absence of a visible communicating channel between the cysts and facet joints on MRIs (Figs. 1B, 2D, and 3B), and the absence of retrograde contrast material opacification of facet space in at least one patient allow us to postulate that the posterior epidural cyst may be the direct anterior extension of the interspinous bursal fluid. The latter may also communicate with the facet joint, as reported by Sarazin et al. [9]. We cannot, however, exclude the possibility of posterior midline extension of the synovial cyst arising from the facet joints in some patients.

MRI of the lumbar spine can clearly depict Baastrup's disease, interspinous bursal fluid, and an associated posterocentral epidural cyst. Interspinous bursography is not really necessary for preoperative evaluation of spinal stenosis for these patients. For this report, we performed bursography to document the direct communication between the bursa and the epidural cyst. In our opinion, however, bursography with steroid injection may be helpful in conservative treatment of epidural cysts because it is helpful in treating synovial cysts of the facet joints.

Our study has some limitations. Potential selection bias is unavoidable because only 10 cases of MRI manifestation of posterocentral epidural cysts were selected for evaluation. Correlation of clinical findings with the location and size of the epidural cysts was not possible. The number of patients was small, and few patients underwent bursography. Surgical observations and histologic data were limited.

In conclusion, Baastrup's disease is associated with interspinous bursal fluid. Fluid in the bursa can extend into the posterocentral epidural space and cause central spinal stenosis with posterior compression of the thecal sac. Bursography alone or combined with CT allows documentation of abnormal communicating channels between the interspinous bursa and epidural cyst.

References

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1. Resnick D. Degenerative diseases of the vertebral column. Radiology1985; 156:3 –14[Abstract/Free Full Text]
2. Bywaters EG, Evans S. The lumbar interspinous bursae and Baastrup's syndrome: an autopsy study. Rheumatol Int1982; 2:87 –96[Medline]
3. Beks JW. Kissing spines: fact or fancy? Acta Neurochir (Wien) 1989;100:134 –135[Medline]
4. Brailsford JF. Deformities of the lumbo-sacral regions of the spine. Br J Surg1929; 16:562 –627
5. Baastrup CI. Proc spin. vert. lumb. und einige zwischen diesen liegenden Gelenkbildungen mit pathologischen Prozessen in dieser Region. Fortschritte auf dem Gebiete der Röntgenstrahlen1933; 48:430 –435
6. Hazlett J. Kissing spines. J Bone Joint Surg Br 1964;46:1368 –1369
7. Mayer. Ueber zwei neu entdeckte Gelenke an der Wirbelsaule des menschlichen Korpers. Z Physiol1825; 2:29 –35
8. Rissanen PM. The surgical anatomy and pathology of the supraspinous and interspinous ligaments of the lumbar spine with special reference to ligament ruptures. Acta Orthop Scand1960; 46:1 –100
9. Sarazin L, Chevrot A, Pessis E, et al. Lumbar facet joint arthrography with the posterior approach. RadioGraphics1999; 19:93 –104[Abstract/Free Full Text]

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This Article Abstract Figures Only Full Text (PDF) Alert me when this article is cited Alert me if a correction is posted Services Email this article to a friend Similar articles in this journal Similar articles in PubMed Alert me to new issues of the journal Download to citation manager Citing Articles Citing Articles via Google Scholar Google Scholar Articles by Chen, C. K. H. Articles by Yang, C.-F. Search for Related Content PubMed PubMed Citation Articles by Chen, C. K. H. Articles by Yang, C.-F. Social Bookmarking                      What's this?