Aims. To identify the incidence and risk factors for five-year same-site
Studies on
Lumbar disc prolapse is a frequent indication for surgery. The few available long-term follow-up studies focus mainly on repeated surgery for recurrent disease. The aim of this study was to analyze all reasons for additional surgery for patients operated on for a primary lumbar disc prolapse. We retrieved data from the Swedish spine register about 3,291 patients who underwent primary surgery for a lumbar disc prolapse between January 2007 and December 2008. These patients were followed until December 2020 to record all additional lumbar spine operations and the reason for them.Aims
Methods
Aims. The aim of the study was to determine if there was a direct correlation between the pain and disability experienced by patients and size of their disc prolapse, measured by the disc’s cross-sectional area on T2 axial MRI scans. Methods. Patients were asked to prospectively complete visual analogue scale (VAS) and Oswestry Disability Index (ODI) scores on the day of their MRI scan. All patients with primary disc herniation were included. Exclusion criteria included
We analysed prospectively 26 patients who had revision operations for ipsilateral recurrent radicular pain after a period of pain relief of more than six months following primary discectomy. They were assessed before the initial operation, between the two procedures and at a minimum of two years after reoperation. MRI was performed before primary discectomy and reoperation. Fifty consecutive patients who had a disc excision during the study period but did not have recurrent radicular pain, were analysed as a control group. Of the study group 42% related the onset of recurrent radicular pain to an isolated injury or a precipitating event, but none of the control group did so (p <
0.001). T2-weighted MRI performed before primary discectomy showed that patients in the study group had significantly more severe disc degeneration compared with the control group (p = 0.02). Intraoperative findings revealed
The purpose of this study was to investigate the risk of additional surgery in the lumbar spine and to describe long-term changes in patient-reported outcomes after surgery for lumbar disc herniation in adolescents and young adults. We conducted a retrospective study design on prospectively collected data from a national quality register. The 4537 patients were divided into two groups: adolescents (≤ 18 years old, n = 151) and young adults (19 to 39 years old, n = 4386). The risk of additional lumbar spine surgery was surveyed for a mean of 11.4 years (6.0 to 19.3) in all 4537 patients. Long-term patient-reported outcomes were available at a mean of 7.2 years (5.0 to 10.0) in up to 2716 patients and included satisfaction, global assessment for leg and back pain, Oswestry Disability Index, visual analogue scale for leg and back pain, EuroQol five-dimension questionnaire (EQ-5D), and 36-Item Short-Form Health Survey (SF-36) Mental Component Summary and Physical Component Summary scores. Statistical analyses were performed with Cox proportional hazard regression, chi-squared test, McNemar’s test, Welch–Satterthwaite Aims
Patients and Methods
The outcome of surgery for recurrent lumbar disc
herniation is debatable. Some studies show results that are comparable
with those of primary discectomy, whereas others report worse outcomes.
The purpose of this study was to compare the outcome of revision
lumbar discectomy with that of primary discectomy in the same cohort
of patients who had both the primary and the recurrent herniation
at the same level and side. A retrospective analysis of prospectively gathered data was undertaken
in 30 patients who had undergone both primary and revision surgery
for late recurrent lumbar disc herniation. The outcome measures
used were visual analogue scales for lower limb (VAL) and back (VAB)
pain and the Oswestry Disability Index (ODI). There was a significant improvement in the mean VAL and ODI scores
(both p <
0.001) after primary discectomy. Revision surgery also
resulted in improvements in the mean VAL (p <
0.001), VAB (p
= 0.030) and ODI scores (p <
0.001). The changes were similar
in the two groups (all p >
0.05). Revision discectomy can give results that are as good as those
seen after primary surgery. Cite this article:
Little information is available about the incidence
and outcome of incidental dural tears associated with microendoscopic
lumbar decompressive surgery. We prospectively examined the incidence
of dural tears and their influence on the outcome six months post-operatively
in 555 consecutive patients (mean age 47.4 years (13 to 89)) who
underwent this form of surgery. The incidence of dural tears was
5.05% (28/555). The risk factors were the age of the patient and
the procedure of bilateral decompression via a unilateral approach.
The rate of recovery of the Japanese Orthopaedic Association score
in patients with dural tears was significantly lower than that in
those without a tear (77.7% Cite this article:
Posterior lumbar interbody fusion (PLIF) is indicated
for many patients with pain and/or instability of the lumbar spine.
We performed 36 PLIF procedures using the patient’s lumbar spinous
process and laminae, which were inserted as a bone graft between
two vertebral bodies without using a cage. The mean lumbar lordosis
and mean disc height to vertebral body ratio were restored and preserved
after surgery. There were no serious complications. These results suggest that this procedure is safe and effective.
Between March 2000 and February 2006, we carried out a prospective study of 100 patients with a low-grade isthmic spondylolisthesis (Meyerding grade II or below), who were randomised to receive a single-level and instrumented posterior lumbar interbody fusion with either one or two cages. The minimum follow-up was for two years. At this stage 91 patients were available for review. A total of 47 patients received one cage (group 1) and 44 two cages (group 2). The clinical and radiological outcomes of the two groups were compared. There were no significant differences between the two groups in terms of post-operative pain, Oswestry Disability Score, clinical results, complication rate, percentage of post-operative slip, anterior fusion rate or posterior fusion rate. On the other hand, the mean operating time was 144 minutes (100 to 240) for patients in group 1 and 167 minutes (110 to 270) for those in group 2 (p = 0.0002). The mean blood loss up to the end of the first post-operative day was 756 ml (510 to 1440) in group 1 and 817 ml (620 to 1730) in group 2 (p <
0.0001). Our results suggest that an instrumented posterior lumbar interbody fusion performed with either one or two cages in addition to a bone graft around the cage has a low rate of complications and a high fusion rate. The clinical outcomes were good in most cases, regardless of whether one or two cages had been used.