A surgical decompression procedure for effective treatment of calcified lumbar disc herniation

Introduction

Lumbar disc herniation (LDH), the most common type of intervertebral disc herniation, primarily affects people aged 30 to 50 years and more often develops in men than women.^1,2 Natural degeneration of the intervertebral disc occurs with aging, which is associated with LDH.^3–6 Herniated discs can result in local inflammation and mechanically deform surrounding nerve roots, causing radiculopathy, which requires treatment with either surgical or nonsurgical approaches.^7–11

The surgical indications for LDH are well defined. If the patient has imaging-confirmed LDH that is refractory to initial conservative management such as medications and physical therapy and/or symptoms of radiculopathy are severe and persistent, surgical removal of the herniated disc material can achieve great relief of pain and a high degree of patient satisfaction with minimal risks.^8–12 Various surgical techniques have been used for the treatment of LDH to date, including macrodiscectomy, microdiscectomy, and percutaneous endoscopic lumbar discectomy (PELD).^13–19 Microdiscectomy involves the introduction of an operating microscope during surgery for better visualization of the operative field, which entails a smaller incision and makes the procedure less traumatic. ²⁰ Compared with macrodiscectomy, microdiscectomy requires a shorter operation time and causes less bleeding, leading to a shorter hospital stay, less postoperative pain, and faster recovery. ¹³ Percutaneous endoscopic procedures have been increasingly gaining popularity, and many studies have shown high success rates with PELD.^17–19 However, PELD has a steep learning curve, and its superiority over other methods remains unresolved because of the lack of randomized controlled trials with large samples.^21–23 Therefore, microdiscectomy is still the standard treatment method for LDH.^23,24

Calcified LDH (cLDH) is poorly described. ²⁵ It can manifest as low back pain radiating down the leg, severely limiting normal activity and impairing quality of life. The pathology of cLDH is not yet clear. Infection, microtrauma, impaired blood flow, and metabolic diseases are thought to contribute to calcification of intervertebral discs. ²⁵ Research has suggested that calcification may complicate surgical treatment of herniated discs. ²⁶ Resection of calcified herniated lumbar discs in adults has been rarely documented to date. Two groups have described the use of PELD for the removal of calcified herniated lumbar discs in middle-aged patients: Kim et al. ²⁵ employed either the interlaminar or the transforaminal approach and Dabo et al. ²⁷ performed only interlaminar discectomy. Calcification causes the disc to harden, and resection of the calcified disc is challenging. A high incidence of postoperative complications (e.g., dysesthesia) associated with nerve root injury during surgery has been reported. ²⁷ The objective of this study was to examine the effect of a surgical decompression procedure for the treatment of cLDH. This procedure involves the resection of all structures surrounding the nerve root except the calcified disc.

Methods

Results

Forty-one patients were treated with the surgical decompression procedure and 4 were lost to follow-up. Therefore, 37 patients (21 men, 16 women; mean age, 60.5 ± 9.6 years) were included in this study. The patients’ demographics, clinical characteristics, and operative parameters are shown in Table 1. All patients had cLDH as confirmed by preoperative computed tomography and/or magnetic resonance imaging. The herniated disc caused left leg pain in 10 patients, right leg pain in 12 patients, and bilateral leg pain in 15 patients. A single disc was affected in 10 patients, 2 discs were affected in 24 patients, and 3 discs were affected in 3 patients. The median operating time was 40 minutes/disc, and the median blood loss during surgery was 60 mL/disc. One patient developed significant pain on postoperative day 2, possibly due to nerve injury during aggressive release of the nerve root. Anti-inflammatory and neurotropic medications were administered to this patient, and the pain was subdued 1 week later and had disappeared by the 3-month follow-up.

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Table 1.

Patient demographics, clinical characteristics, and operative parameters.

Sex, male/female	21/16
Age, years	60.5 ± 9.6
Affected discs
One disc	10
Two discs	24
Three discs	3
Leg pain
Left	10
Right	12
Bilateral	15
Operation time, minutes/disc	40 (35)
Blood loss, mL/disc	60 (78)

Data are presented as number of patients, mean ± standard deviation, or median (interquartile range).

We determined the VAS scores for leg pain before the surgery and 1 day after the surgery. The VAS scores for leg pain were also measured at the 3-month and 1-year follow-ups. As shown in Table 2, the mean VAS score was 6.9 ± 0.9 before the operation and significantly decreased to 3.2 ± 1.0 on postoperative day 2 (P < 0.01), indicating that the patients’ leg pain was substantially relieved by the procedure. At the 3-month and 1-year follow-ups, the mean VAS scores were 2.1 ± 0.7 and 1.6 ± 0.7, respectively (Table 2).

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Table 2.

Visual analog scale score for leg pain before and after surgery.

Before surgery	6.9 ± 0.9
Second day after surgery	3.2 ± 1.0*
3-month follow-up	2.1 ± 0.7*
1-year follow up	1.6 ± 0.7*

Data are presented as mean ± standard deviation. *P < 0.01 compared with before surgery.

The ODI data are shown in Table 3. The mean ODI was significantly lower at the 3-month follow-up (10.8% ± 5.3%) than before surgery (48.9% ± 6.9%) (P < 0.05). At the 1-year follow-up, the mean ODI was 6.9% ± 3.4%.

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Table 3.

Oswestry Disability Index before surgery and during follow-up.

Before surgery	48.9% ± 6.9%
3-month follow-up	10.8% ± 5.3%*
1-year follow-up	6.9% ± 3.4%†

Data are presented as mean ± standard deviation. *P < 0.05 and ^†P < 0.01 compared with before surgery.

Surgical outcomes evaluated according to the modified Macnab criteria showed that at 3 months after surgery, 43.6% of the patients reported the results as “excellent,” 50.4% as “good,” 6.0% as “fair,” and 0.0% as “poor.”

Discussion

While the herniated disc compresses the nerve root anteriorly, other surrounding structures contribute to nerve compression from other directions. In view of this, we applied a surgical decompression approach to treat cLDH. This method does not involve resection of the calcified disc, which can be very challenging. Instead, we removed the ligamentum flavum and partial medial border of the superior facet and performed hemi-laminectomy of both the inferior edge of the superior lamina and the superior edge of the inferior lamina to relieve the pressure on the nerve root. We found that 1) this approach could be completed in less than 1 hour per affected disc, 2) the leg pain subsided substantially 1 day after surgery as shown by the markedly lower VAS scores, 3) the disability status was remarkably improved after surgery as reflected by the decreased ODI, 4) the surgical outcomes assessed by the modified Macnab criteria indicated that 94% of patients rated the results as excellent or good, and 5) the patients had developed few complications and no recurrence by the 1-year follow-up.

Kim et al. ²⁵ reported the treatment of cLDH by PELD in 31 patients; they used the interlaminar approach in 15 patients and the transforaminal approach in 16. They found that sensory change occurred in 6.5% of patients, transient mild motor weakness in 3.2%, and recurrence of herniation in 3.2% during the average follow-up period of 26.5 months. ²⁵ These data demonstrated a higher complication rate than that in our series. Notably, however, the average follow-up time was approximately 2.2 years in the study by Kim et al., ²⁵ which is longer than the 1-year follow-up in our study. Dabo et al. ²⁷ treated 30 patients with cLDH using PELD and found that interlaminar discectomy was effective in significantly alleviating the symptoms of radiculopathy. However, more than half of the patients (16/30) had developed lower extremity dysesthesia by 3 months after surgery. Additionally, the average duration of hospitalization was 6 days, ²⁷ compared with 2 days in our series. The high rate of motor weakness and dysesthesia observed by both Kim et al. ²⁵ and Dabo et al. ²⁷ was probably due to nerve injury that occurred while releasing the adherent nerve root caused by calcification. We also encountered difficulty in the release of the adherent nerve in one patient, and aggressive separation resulted in significant pain after surgery. Therefore, forceful release of an adherent nerve root should be avoided if freedom of the nerve root is found to be satisfactory during the decompression surgery.

Lee and Lee ³¹ explored the PELD learning curve for a senior surgeon who had performed more than 200 microdiscectomy operations without previous exposure to PELD. For training in PELD, the surgeon observed 15 PELD procedures, practiced epidural block via the transforaminal route for 3 months, and participated in two PELD workshops using a silicon model in one and a cadaver in the other. The surgeon then began treating patients with PELD. The results showed that only after completion of at least 17 PELD procedures did the surgeon become familiar with the procedure and significantly shorten the operation time. Additionally, among the first 51 cases, PELD failed in four patients who had to then undergo open discectomy. ³¹ In another study, Kafadar et al. ³² investigated the PELD learning curve and showed a high failure rate (33.3%, 14/42) among the first 42 PELD procedures. Taken together, these data suggest that PELD carries a steep learning curve. In contrast, our procedure is simple and easy. Additionally, we performed hemi-laminectomy and did not resect the disc, which avoids possible postoperative lumbar instability that can occur after discectomy. ¹³

Older adults with LDH generally have more postoperative complications, slower recovery, and worse quality of life after discectomy than young adults. ³³ We demonstrated that the decompression approach without removal of the disc resulted in few complications and dramatically decreased the ODI after surgery, indicating improvement in the patients’ quality of life. This foraminal decompression method might be suitable for older adults with cLDH.

This study had several limitations. First, it was a retrospective study. Second, only 37 patients were included in the study, and the small sample size might limit the generalizability of the results. Third, the follow-up time was short. Finally, this was a single-center experience.

In conclusion, our results suggest that the surgical decompression approach is effective in the management of cLDH at least in the short term (1 year) for reducing pain and improving patient satisfaction with few complications. However, the long-term effects need to be examined.