Percutaneous minimally invasive versus open spine surgery in the treatment of fractures of the thoracolumbar junction: a comparative effectiveness review.

STUDY
DESIGN: Comparative effectiveness review.
OBJECTIVE: To determine the comparative effectiveness and safety of percutaneous minimally invasive versus open spine surgery for fractures of the thoracolumbar junction.
METHODS: A systematic review of the English-language literature was undertaken for articles published between 1970 and March 15, 2012. Reference lists of key articles were also systematically checked. We attempted to identify all articles that reported on the effectiveness and/or safety comparing minimally invasive surgery (MIS) with open surgery for thoracolumbar fractures in the adult population. Articles containing hematological or neoplastic fractures primarily were excluded. Other exclusions included reviews, editorials, case series, non-English-language written studies, and animal studies. We rated the overall body of evidence using a modified Grades of Recommendation Assessment, Development and Evaluation (GRADE) system for diagnostic and therapeutic studies.
RESULTS: • Two studies (Level of Evidence III) met our inclusion criteria. • Radiographic outcomes were similar between treatment groups. • Postoperative incisional pain was less in patients undergoing percutaneous MIS. • Patient function as assessed by the Hannover Spine Score, the SF-36 and the MacNab criteria were slightly higher in the percutaneous minimally invasive group, but not statistically significant. • Percutaneous MIS resulted in less blood loss and shorter length of hospital stay than open surgery. • No complications were reported using percutaneous MIS.
CONCLUSION: Limited data suggest that percutaneous techniques are associated with less postoperative pain, less blood loss, a shorter hospital stay, and a slightly better functional outcome. However, concerns remain on the effectiveness of percutaneous techniques in correcting spinal deformity and achieving bony fusion. Further studies are needed to verify these preliminary findings.

Study Rationale and Context

Thoracolumbar fractures are the most common spinal fractures, with an incidence ranging between 18 and 30 cases per 100,000 inhabitants/year.1,2 Patients requiring surgical treatment usually undergo either open surgery, including pedicle screw fixations or thoracoscopic approaches. Recently, percutaneous pedicle screw fixation techniques have gained popularity as minimally invasive procedures able to provide spinal stability with a lower rate of morbidity.

Key Questions

With respect to fractures of the thoracolumbar junction:

What is the comparative effectiveness of percutaneous minimally invasive versus open spine surgery?

What is the comparative safety of percutaneous minimally invasive versus open spine surgery?

Materials and Methods

Comparative effectiveness review.

PubMed, Cochrane Collaboration Database, and bibliographies of key articles.

1970 through March 15, 2012.

(1) Skeletally mature men and women (> 18 years); (2) traumatic fractures of the thoracolumbar junction; treatment comparing minimally invasive and open surgery.

(1) ≥ 50% of population included non-traumatic fractures (hematological or neoplastic); (2) vertebroplasty/kyphoplasty as the only surgical intervention; (3) non-surgical treatment as the comparator.

Descriptive.

For evaluating the risk of bias in individual diagnostic studies, we rated the level of evidence using the rating scheme developed by the Oxford Centre for Evidence-based Medicine and used with modification by The Journal of Bone and Joint Surgery American Volume. A more detailed description is in the Web Appendix at . After individual article evaluation, the overall body of evidence with respect to each key question was determined based on modified precepts outlined by the Grades of Recommendation Assessment, Development and Evaluation (GRADE) system.

From 37 citations, 3 underwent full-text review; 2 met our inclusion criteria and are summarized in this review (Fig. 1). Both were retrospective cohort studies (LoE III). See the Web Appendix for critical appraisal.

Fig. 1

Results of literature search.

One study compared percutaneous minimally invasive surgery (MIS) with open surgery in 38 patients (35% type A1; 24%, A2; and 41%, A3) with a 1-year mean follow-up (Table 1).3 The second study treated 23 patients, all with type A fracture.4

Table 1

Characteristics of included studies.

Study (y)	Study design	Population	Diagnosis	Treatment	Follow-up
Wang et al5 (2010)	Retrospective cohort study	N = 38Minimally invasive surgery (MIS; Sextant percutaneous pedicle screw fixation)n = 17Mean age: 41.6 (range, 28–54) yMale: 76.5%Open surgery (open pedicle screw fixation)n = 21Mean age: 45.0 (range, 37–61) yMale: 85.7%	MIS (Sextant percutaneous pedicle screw fixation)Mechanism of injury Falling: 41.2% (7/17 patients) Traffic injuries: 41.2% (7/17 patients) Tumble: 17.6% (3/17 patients) AO fracture classification A1: 35.3% (6/17 patients) A2: 23.5% (4/17 patients) A3: 41.2% (7/17 patients) ASIA score Incomplete injury (grade D): 29.4% (5/17 patients) Neurologically intact (grade E): 70.6% (12/17 patients) Open surgery (open pedicle screw fixation)Mechanism of injury Falling: 71.4% (15/21 patients) Traffic injuries: 9.5% (2/21 patients) Tumble: 14.3% (3/21 patients) Strike by dropping heavy object: 4.8% (1/21 patient) AO fracture classification A1: 52.4% (11/21 patients) A2: 42.9% (9/21 patients) A3: 4.8% (1/21 patients) ASIA score Incomplete injury (grade D): 57.1% (12/21 patients) Neurologically intact (grade E): 42.9% (9/21 patients)	MIS (Sextant percutaneous pedicle screw fixation) Injury segments T12: 17.6% (3/17 patients) L1: 58.8% (10/17 patients) L2: 23.5% (4/17 patients) Open surgery (open pedicle screw fixation)Injury segments T12: 33.3%(7/21 patients) L1: 28.6%(6/21 patients) L2: 38.1%(8/21 patients)	Mean f/u: 11.6 (range, 8–24) mo100% f/u
Wild et al4 (2006)	Retrospective cohort study	N = 23MIS (percutaneous pedicle fixation)n = 10Mean age: 49.1 y*Male: 90%*Open surgery (conventionally open posterior surgery with pedicle fixation)n = 11Mean age: 33.5 y*Male: 63.6%*	AO fracture classification: 100% (21/21) type A fracture	Both groups used Synthes universal spine system's fixateur interne	Mean f/u: 25.5 and 67.9 mo for both groups91.3% f/u

After loss to follow-up (f/u).

Radiographic outcomes (mean change from preoperative to postoperative follow-up) of sagittal Cobb angle, fractured vertebral body angle, anterior vertebral body height, posterior vertebral body height, and bisegmental wedge angle were similar between treatment groups in one or both studies.

Postoperative incisional pain was less in patients undergoing percutaneous MIS (1.5 versus 2.2, VAS, P < .05) in one study.3 However, 2.0 cm improvement for pain has been recommended by some as the minimal clinically important difference.3 Patient function as assessed by the Hannover Spine Score, the SF-36, and the MacNab criteria were slightly higher in the percutaneous minimally invasive group although they did not reach statistical significance.

The overall strength of evidence for radiographic and postoperative outcomes is insufficient due to the literature shortage on this topic and imprecision of results (Table 4).

Table 4

Rating of overall strength of evidence for each key question.*

Question 1: What is the comparative effectiveness of percutaneous minimally invasive versus open spine surgery for thoracolumbar fractures?
Outcome	Strength of evidence	Conclusions/comments	Baseline	Downgrade	Upgrade
Radiographic		Radiographic outcomes that include sagittal angle, fractured vertebral body angle, anterior and posterior vertebral body height, and bisegmental wedge angle were similar between percutaneous minimally invasive and open surgery	Low	Imprecision (1)	No
Clinical		Postoperative incisional pain was less following percutaneous minimally invasive surgery (MIS)Patient-reported and clinician-based outcomes were similar at follow-up between groups	Low	Single study (1)	No
Question 2: What is the comparative safety of percutaneous minimally invasive versus open spine surgery for thoracolumbar fractures?
Outcome		Conclusions/comments	Baseline	Downgrade	Upgrade
Perioperative		Blood loss at surgery and in the postoperative period was less with percutaneous MIS compared with open	Low	No	No
Complications		There were no complications reported for percutaneous MIS in two small studies	Low	No	No

Baseline quality: High indicates majority of article Level I/II; low, majority of articles Level III/IV.

Upgrade: Large magnitude of effect (1 or 2 levels); dose response gradient (1 level).

Downgrade: Inconsistency of results (1 or 2 levels); indirectness of evidence (1 or 2 levels); imprecision of effect estimates (1 or 2 levels).

Percutaneous MIS was consistently better than open surgery with respect to surgical blood loss, postoperative blood loss, surgical time, and length of hospital stay.

Wild et al4 reported that no incorrect screw positioning, infections, or neurological symptoms occurred in either treatment group. In the open treatment of Wang et al,5 three pedicle screws were malpositioned (no symptoms or revision); two patients had incision stagger (successful re-stitching); and one patient developed deep vein thrombosis (managed successfully with drug therapy). There were no complications reported in the percutaneous MIS group.

The overall strength of evidence for evaluating the safety of percutaneous minimally invasive versus open spine surgery for thoracolumbar fractures is low because of the low quality of the literature (Table 4).

None found.

Small number of poor studies available (two studies, both level III).

Limited emphasis on patient-reported outcomes.

Percutaneous MIS can provide a safe and effective treatment for thoracolumbar junction fractures (Table 4).

A significant reduction in blood loss, postoperative pain, surgical time, and hospital stay are the main advantages associated with these new minimally invasive techniques.

These favorable outcomes are particularly important in specific subgroups of patients, including elderly people and patients with important comorbidities, and could make the percutaneous minimally invasive techniques the preferable surgical treatment.

However, long-term maintenance of sagittal profile's correction and difficulty in reconstructing the anterior column via a posterior approach only remain an important element to consider.

Among potential disadvantages of percutaneous techniques, spinal fusion has to be considered. While fusion is more feasible in open surgical procedures, it is difficult to achieve with minimally invasive techniques.

More studies with a longer follow-up, including randomized trials, are necessary to evaluate the theoretical benefit of percutaneous techniques and to assess whether the results of the latters are as durable as the ones achieved by open surgery.

Illustrative Case

A 67-year-old woman presented with a 3-month history of severe pain in the dorsal and lumbar regions of her spine. Symptoms made her ambulation difficult, as well as sitting and sleeping.

Her medical history was remarkable for myocardial infarction; insulin-dependent diabetes; HCV-related hepatitis; and diabetes-related retinopathy and neuropathy. She reported to have undergone, in 2010, a vertebroplasty for a fracture of Th12 (Fig. 2). Postoperatively, she improved considerably and remained well until October 2011, when a new spinal trauma caused a type B1.2 fracture of the same vertebra associated with a fracture of the anteroinferior portion of the 11th posterior vertebra and a minor lesion of the posterosuperior end plate of L1 (Fig. 3).

Fig. 2

Lateral thoracolumbar x-ray showing a vertebroplasty of Th12.

Fig. 3a

Lateral thoracolumbar x-ray showing the recurrent posttraumatic fracture of Th12 as well as the fracture of the anteroinferior surface of the Th11 vertebral body. An obvious kyphosis at the same levels is also seen. b Sagittal reformatted CT image revealing the Th11 and Th12 vertebral bodies' fractures. Also perceived is a signal change in the posterosuperior area of the L1 vertebra. c Sagittal T2-weighted MR image confirming the Th11 and Th12 fractures. A signal change in keeping with an impact fracture of the posterosuperior bone of the L1 vertebra is also seen.

The patient was consented for a Th10-Th11-L1-L2 percutaneous pedicle screw fixation. Following this procedure, a satisfactory spinal stability and alignment was obtained as well as improvement of the 12th vertebral body's height (Fig. 4). At 1-year follow-up, the patient remains unchanged (Fig. 5).

Fig. 4

Postoperative lateral thoracolumbar x-ray showing the reduced kyphosis and correct sagittal alignment following the percutaneous Th10-Th11-L1-L2 fixation.

Fig. 5

AP (a) and sagittal (b) thoracolumbar, 1-year follow-up x-ray confirming the acquired stability of the thoracolumbar junction, with marked reduction of the focal kyphosis.

Table 2

Comparative effectiveness between percutaneous minimally invasive and open surgery for thoracolumbar fracture.

Outcome	Minimally invasive	Open	P
Radiographic	Mean change	Mean change
Sagittal Cobb angle, °
– Wang et al5	10.3 ± 6.1	9.3 ± 7.3	.651
Fractured vertebral body angle, °
– Wang et al5	6.6 ± 4.0	7.9 ± 4.9	.396
– Wild et al4	7.7	12.2
Anterior vertebral body height, %
– Wang et al5	21.0 ± 11.8	28.6 ± 18.7	.155
Posterior vertebral body height, %
– Wang et al5	4.4 ± 3.2	6.2 ± 4.8	.196
Bisegmental wedge angle, °
– Wild et al4	2.6	2.4
Clinical
VAS (incisional pain)
– Wang et al5	1.5 ± 0.9	2.2 ± 0.8	< .05
MacNab criteria
– Wang et al5	88.2	85.7
Hannover spine score
– Wild et al4	84.8	78
SF-36
– Wild et al4	59.1	50	.069

Table 3

Comparative safety between percutaneous minimally invasive and open surgery for thoracolumbar fracture.

Outcome	Minimally invasive	Open	P
Perioperative	Mean ± SD	Mean ± SD
Surgical blood loss, mL
– Wang et al5	83.5 ± 51.8	304.8 ± 209.1	.000
– Wild et al4	194.4 ± 72.6	380 ± 198.9	.017
Postoperative blood loss, mL
– Wang et al5	14.4 ± 4.3	350.1 ± 204.5	.000
– Wild et al4	155.6 ± 35.0	441.1 ± 162.3	.000
Operation time, min
– Wang et al5	97.1 ± 15.3	161.0 ± 72.5
– Wild et al4	87.4	80.9
Hospital stay, days
– Wang et al5	11.1 ± 3.8	22.9 ± 14.1
Complications	%	%
Screw malposition
– Wang et al5	0.0	2.1
– Wild et al4	0.0	0.0
Infection
– Wild et al4	0.0	0.0
Neurological symptoms
– Wild et al4	0.0	0.0
Incisional stagger
– Wild et al4	0.0	11.8
Deep vein thrombosis
– Wild et al4	0.0	5.9

From preoperative to postoperative.