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SPINAL CORD STIMULATION FOR FAIL BACK SURGERY SYNDROME: LITERATURE REVIEW AND CLINICAL STUDY

ESTIMULACIÓN DE LA MÉDULA ESPINAL PARA EL SÍNDROME DE CIRUGÍA DE ESPALDA FALLIDA: REVISIÓN DE LA LITERATURA Y ESTUDIO CLÍNICO

ESTIMULAÇÃO DA MEDULA ESPINHAL PARA SÍNDROME DE CIRURGIA DE RETORNO: REVISÃO DA LITERATURA E ESTUDO CLÍNICO

ABSTRACT

Objective:

Fail back surgery syndrome (FBSS) is a common cause of pain following spine surgery, and is associated with persistent or recurrent pain despite anatomically correct intervention. Spinal cord stimulation (SCS) is regarded as one of the most effective methods of treatment for fail back surgery syndrome.

Methods:

We studied 34 patients who underwent test stimulation and chronic SCS for FBSS.

Results:

Six months postoperatively, mean improvement by the visual analog scale (VAS) of average and maximum daily pain, and the painDETECT score, were 54.4%, 50.7% and 57.3%, respectively. This meets the criteria for effectiveness of the method, according to the literature. Most of patients reported significant improvements in life quality and less need for analgesics. Complications were seen in nine patients (26.4%) and included: intraoperative dura injury (one patient, 2.9%), wound infection (one patient, 2.9%), and electrode displacement (seven patients, 20.5%). No cases of postoperative neurological deterioration were seen.

Conclusions:

SCS is safe and effective for the treatment of neuropathic pain caused by FBSS. Level of Evidence IV; Case series.

Keywords:
Spinal Cord Stimulation; Neuralgia; Failed Back Surgery Syndrome

RESUMO

Objetivos:

A síndrome da cirurgia de falência reversa (SAF) é uma causa comum de dor após cirurgia de coluna e associada a dor persistente ou recorrente, apesar da intervenção anatomicamente correta. Estimulação da medula espinhal (SCS) é considerado como um dos métodos mais eficazes de tratamento para a síndrome de cirurgia de retorno.

Métodos:

Foram estudados 34 pacientes submetidos a estimulação de teste e SCS crônica para FBSS.

Resultados:

6 meses de pós-operatório melhora a média de dor diária média e máxima diária na escala análoga visual (VAS), bem como a pontuação do PainDetect foram de 54,4%, 50,7% e 57,3%, respectivamente. Ele atende aos critérios de eficácia do método, de acordo com a literatura. A maioria dos pacientes relatou melhora significativa da qualidade de vida e menor necessidade de analgésicos. As complicações foram observadas em nove pacientes (26,4%) e incluíram: lesão da dura-máter intraoperatória (um paciente, 2,9%), infecção da ferida (um paciente, 2,9%), deslocamento do eletrodo (sete pacientes, 20,5%). Não houve casos de deterioração neurológica no pós-operatório.

Conclusões:

A SCS é segura e eficaz para o tratamento da dor neuropática causada pela FBSS. Nível de Evidência IV; Séries de casos.

Descritores:
Estimulação da medula Espinal; Neuralgia; Síndrome pós – lamenectomia

RESUMEN

Objetivo:

El síndrome de cirugía de espalda fallida (FBSS) es una razón común para el dolor después de la cirugía de la columna vertebral y se asocia con dolor persistente o recurrente a pesar de la intervención anatómicamente correcta. La estimulación de la médula espinal (SCS) se considera uno de los métodos de tratamiento más eficaces para el síndrome de cirugía de espalda fallida.

Métodos:

Se estudiaron 34 pacientes que se sometieron a estimulación de prueba y SCS crónica para FBSS.

Resultados:

A los seis meses la mejora promedio postoperatoria por la escala visual análoga (EVA) del dolor diario promedio y máximo diario, así como el puntaje de painDETECT fueron 54,4%, 50,7% y 57,3%, respectivamente. Esto cumple con los criterios de efectividad del método, según la literatura. La mayoría de los pacientes informaron una mejoría significativa de la calidad de vida y una menor necesidad de analgésicos. Las complicaciones se observaron en nueve pacientes (26,4%) e incluyeron: lesión duramadre intraoperatoria (uno paciente, 2,9%), infección de la herida (uno paciente, 2,9%), desplazamiento del electrodo (siete pacientes, 20,5%). No se observaron casos de deterioro neurológico postoperatorio.

Conclusiones:

SCS es seguro y efectivo para el tratamiento del dolor neuropático causado por FBSS. Nivel de Evidencia IV; Series de casos.

Descriptores:
Estimulación de la médula espinal; Neuralgia; Sindrome de fracaso de la cirugía espinal lumbar

INTRODUCTION

Spine surgery is one of the most rapidly developing fields of modern medicine, and more than 1,000,000 spine operations are currently performed each year, worldwide.11. Tulkin ON, Nazarov AS, Davydov EA, Bersnev VP. Characteristics of clinical presentations of Failed Back Surgery Syndrome. Translational Medicine. 2015;2(3):31-2. Thanks to minimally invasive, endoscopic and percutaneous technologies, the number of intraoperative and early postoperative complications has decreased and the overall postoperative results have dramatically improved.

Nevertheless, the incidence of late postoperative complications is still high.22. Taylor RS. Epidemiology of refractory neuropathic pain. Pain Pract. 2006;6(1):22-6. One of the main such complications is fail back surgery syndrome (FBSS, or post-laminectomy syndrome), a term that is still controversial. According to different authors, FBSS can be defined as “Persistent or recurrent pain in the back/neck or limbs, despite surgery or treatment thought likely to relieve pain”,33. Kumar K, Taylor RS, Jacques L, Eldabe S, Meglio M, Molet J et al. Spinal cord stimulation versus conventional medical management for neuropathic pain: a multicentre randomised controlled trial in patients with failed back surgery syndrome. Pain. 2007;132(1-2):179-88. “Chronic radicular pain that has recurred or persists in the same distribution despite anatomically satisfactory previous spinal surgery”,44. Kumar K, Taylor RS, Jacques L, Eldabe S, Meglio M, Molet J et al. The effects of spinal cord stimulation in neuropathic pain are sustained: a 24-month follow-up of the prospective randomized controlled multicenter trial of the effectiveness of spinal cord stimulation. Neurosurgery. 2008;63(4):762-70.,55. Leveque JC, Villavicencio AT, Rubin L, Bulsara K, Gorecki JP Spinal cord stimulation for failed back surgery syndrome. Neuromodulation. 2001;4(1):1-9. “Lumbar (cervical) pain of unknown origin either persisting despite surgical intervention or appearing after surgical intervention for spinal (origin) pain originally in the same topographical distribution”.66. Merskey H, Bogduk N. Lumbar spinal or radicular pain after failed spinal surgery. In: Merskey H, Bogduk, N, editors. Classification of Chronic Pain. Seattle: IASP Press; 1994. p. 179. As a result, we can emphasize that FBSS always has the following characteristics: chronic neuropathic pain, history of spine surgery (or surgeries), absence of clear etiologic factor of pain, and anatomically correct primary spine surgery.

One of the most modern and encouraging methods of treatment for FBSS is spinal cord stimulation (SCS).

METHODS

Patients with FBSS treated by chronic SCS in the neurosurgical department of the Research Center of Neurology from 2014 to 2017 were prospectively included in our study. All patients signed an Informed Consent Form. The study was approved by the local Ethics Committee of the Research Center of Neurology.

The extended preoperative clinical examination included:

  • neurological examination (by a neurosurgeon and neurologist, independently);

  • medical history;

  • visual analog scales (VAS) of pain, painDETECT score, Beck depression inventory;

  • magnetic resonance imaging (MRI), computed tomography (CT), dynamic X-Ray;

  • neurophysiological examination (electroneuromyography, transcranial magnetic stimulation);

  • test X-Ray assisted blockages;

  • standard preoperative tests and examinations (blood and urine tests, ECG, chest X-Ray);

  • other methods, if needed (densitometry, ultrasound etc).

The Inclusion criteria were as follows:

  • neuropathic pain, everyday VAS score ≥ 4, painDETECT score ≥ 19;

  • no indications for direct revision surgery;

  • no effect of correct conservative pain management for 3-6 months (estimated by a neurosurgeon and neurologist, independently). The Exclusion criteria were as follows:

  • clear correlation between body position and pain, indications for revision surgery, satisfactory or good effect of conservative pain management;

  • radicular or conduction pain;

  • severe depression (Beck depression inventory ≥ 20), attempted suicide, mental disorders troubling patient education and/or decreasing compliance;

  • severe comorbidities;

  • negative test stimulation.

All patients underwent two-stage implantation of SCS systems produced by two different manufacturers (St. Jude and Medtronic). The First stage included test stimulation to estimate the coverage and clinical effect of the stimulation.

The epidural space was punctured percutaneously at level L2-L3 under local anesthesia, using a Tuohy needle. The needle position was verified by a common method (loss of resistance) and intraoperative X- Ray. An electrode was then implanted using fluoroscopic control at level Th7-Th12, depending on the site of the pain. (Figure 1) The technical feasibility of electrode implantation strongly depended on epidural scarring.

Figure 1
Implantation of test electrode for SCS: A – Needle insertion (angle not more than 30 °); B – gauge insertion; C, D – electrode is located dorsally on Th9-Th10 (A/P and lateral view).

Intraoperative testing was normally performed at a frequency 60 Hz, pulse width 300 msec. The results of the intraoperative testing were regarded as positive if the patient felt paresthesia and a feeling of vibration in the region of pain. It is important that these feelings should be tolerable and comfortable for patient. At higher frequencies, muscle fibrillation can be seen in the corresponding group of muscles.

The test electrode was pulled through the counteropening in the lumbar region and fixed by suture. (Figure 2) Patient can walk immediately after surgery.

Figure 2
Intraoperative test: A, B – Connection of electrode with extension; C – intraoperative X-Ray (1 – 8 contacts of electrode; 2 – connector of extension).

During the test period (1-10 days) the results of pain relief were estimated using the pain scales and patient's questionnaire. Reprogramming can also be done if needed. (Figure 3) The main parameters of stimulation are level of perception and level of comfort.

Figure 3
Test period: A – Test electrode and extension are connected to the patient's programmer; B – physician's programmer.

If the test was effective, the second stage (generator implantation) was performed.

The site of electrode insertion was revised and the extension removed. The site of generator implantation (‘pocket’) was prepared, normally in the right gluteal region (if the patient was right-handed). The generator was connected to the electrode and intraoperative testing, as well as Z-Ray control, were performed. The wounds were closed. (Figure 4) Patient can walk immediately after surgery.

Figure 4
Implantation of permanent system for chronic SCS: A – Generator; B – “Pocket” for generator; C – connection of generator and electrode; D – connector; e – wound closure.

The aim of the postoperative period was to program different modes for stimulation (i.e., for sleeping, walking, the sitting position etc). The level of comfort depended on the body position during the first two-to-three months postoperatively.

Results were estimated six months postoperatively by following parameters: visual analog scale (VAS) of daily average and maximum daily pain; painDETECT score; postoperative complications.

RESULTS

Thirty-four patients met the inclusion criteria, were included in the study and operated via both stages of SCS system implantation. Five patients (12.8% from the primary selection) matched the inclusion criteria but were excluded because of negative test stimulation results.

Nineteen patients (55.8%) were male, 15 - female (44.2%); age varied from 29 to 82 years. The number of previous lumbar surgeries was: 1 (11.7%), 2 (32.3%), 3 (26.5%), 4 (17.6%), 5 (5.9%), 6 (3.0%) и 7 (3.0%). Twenty patients (58.8%) underwent fusion before SCS.

The mean hospitalization time was 12.9 days.

Six months postoperatively clear pain relief was demonstrated by all three studied parameters. (Table 1)

Tabela 1
Preoperative and postoperative neuropathic pain syndrome.

Complications were seen in nine patients (26.4%) and included: intraoperative dura injury (one patient, 2.9%), wound infection (one patient, 2.9%), and electrode displacement requiring surgical correction (seven patients, 20.5%). No cases of postoperative neurological deterioration were seen.

DISCUSSION

According to relevant clinical studies, fail back surgery syndrome (FBSS) is a common condition with prevalence ranging from 10% to 40%.77. Hoy D, Brooks P Blyth F, Buchbinder R. The epidemiology of low back pain. Best Pract Res Clin Rheumatol. 2010;24(6):769-81. FBSS develops around 4.7 years after primary surgery.88. Follet KA, Dirks BA. Etiology and evaluation of the failed back surgery syndrome. Neurosurg Q. 1993;3(1):40-59. FBSS significantly decreases quality of life, and leads to multiple revisions (rate of revisions – 4%-19%),99. Durand G, Girodon J, Debiais F Medical management of failed back surgery syndrome in Europe: evaluation modalities and treatment proposals. Neurochirurgie. 2015;61(Suppl 1):S57-65. chronic pain, depression, medical and social impairment, disability and the need for of medical treatment. Patients with FBSS permanently take antidepressants (38%), anticonvulsants (38%), and opioid analgesics (62%),1010. Thomson S, Jacques L. Demographic characteristics of patients with severe neuropathic pain secondary to failed back surgery syndrome. Pain Pract. 2009;9(3): 206-15. 86% of patients have to use more than four methods of conservative management simultaneously.1111. Ragab A, Deshazo RD. Management of back pain in patients with previous back surgery. Am J Med. 2008;121(4):272-8. As a result, FBSS is a serious medical and social problem.

Multiple studies have shown effectiveness of SCS for FBSS. To date, after SCS was invented by CN Shealy in 1967 more than 200,000 SCS systems have implanted worldwide, with more than 25,000 implanted each year.1212. Shealy CN, Mortimer JT, Reswick JB. Electrical inhibition of pain by stimulation of the dorsal columns: preliminary clinical report. Anesth Analg. 1967;46(4):489-91.,1313. Kreis P, Fishman S. Spinal cord stimulation percutaneous implantation techniques. New York: Oxford University Press; 2009. FBSS is one of the most evidence-based indications for SCS.1414. Isagulyan ED, Shabalov VA. Chronic Spinal Cord Stimulation in treatment of Failed Back Surgery Syndrome. Hirurgia Pozvonochnika. 2015;12(3):33-43. A prospective, randomized, multicenter, international, controlled study EVIDENCE trial of 132 patients with FBSS showed stable pain relief in leg or legs (more than 50% from baseline) 6-24 months postoperatively.1515. North RB, Kumar K, Wallace MS, Henderson JM, Shipley J, Hernandez J et al. Spinal Cord Stimulation versus re-operation in patients with failed back surgery syndrome: an international multicenter randomized controlled trial (EVIDENCE study). Neuromodulation. 2011;14(4):330-5. The multicenter, randomized PROCESS trial demonstrated pain relief of 50%-70% and a statistically significant reduction of drug intake.1616. Kumar K, North R, Taylor R, Sculpher M, den Abeele C, Gehring M et al. Spinal Cord Stimulation vs. Conventional Medical Management: A Prospective, Randomized, Controlled, Multicenter Study of Patients with Failed Back Surgery Syndrome (PROCESS Study). Neuromodulation. 2005;8(4):213-8. RB North et al. showed that in USA SCS for FBSS is 17-53% less expensive and more effective than reoperation.1717. North RB, Kidd D, Shipley J, Taylor RS. Spinal cord stimulation versus reoperation for failed back surgery syndrome: a cost effectiveness and cost utility analysis based on a randomized, controlled trial. Neurosurgery. 2007;61(2):361-8. Retrospective studies (410 patients) also showed that 60% of patients had pain relief of more than 50%.1818. Kumar K, Hunter G, Demeria D. Spinal cord stimulation in treatment of chronic benign pain: challenges in treatment planning and present status, a 22-year experience. Neurosurgery. 2006;58(3):481-96. Available data in the Russian literature confirm these results: SCS was effective in early and late periods with a more than 75% decrease in analgesic drug intake in a group of more than 100 patients operated at the Neurosurgical Institute named after N.N. Burdenko.1919. Isagulyan ED, Tomskij AA, Shabalov VA, Salova EM. Chronic electrical stimulation of the spinal cord for failed back surgery syndrome. Hirurgiâ Pozvonocnika. 2015;12(3):33-43. Another study on 45 patients showed that SCS is more effective than conservative pain management for SCS.2020. Morozov IN, Ushakov AI. Neuromodulation for Refractory Failed Back Surgery Syndrome Patients. Sovremennyje technologii v medicine. 2015;7(3):90-4.

Our results are comparable with those of other authors; pain relief varies from 50% to 60% depending on the measurement scale used. According to common opinion, test stimulation effectiveness of less than 50% should be regarded as a negative result. Nevertheless 4 of our 34 patients had less than 50% pain relief during the test, but claimed that they wanted the whole SCS system to be implanted as even this pain relief is still important for their quality of life. In some of our patients pain relief in the initial months after implantation was higher than in long-term; this can be explained by phenomenon of neural tolerance, and corresponds to the finding of Isagulyan ID, Tomsky AA et al.2121. Isagulyan ED,Tomsky AA, Dekopov AV, Salova EM,Troshina EM, Dorokhov EV, et al. Results of motor cortex stimulation in the treatment of chronic pain syndromes]. Zh Vopr Neirokhir Im N N Burdenko. 2015;79(6):46-60. The rate of technical complications in our group was fairly high (20.5%). This can be explained by learning curve that our surgical team underwent: most complications were seen during 1st year of mastering the SCS technique. It is interesting that in all patients with long fusions for deformity correction, it was feasible to implant the electrode percutaneously and avoid open surgery.

CONCLUSIONS

SCS is an effective method of the treatment for intractable neuropathic pain caused by FBSS. Chronic SCS led to ≥ 50% pain relief, significantly improved quality of life, reduced the need for analgesic medications, and helped avoid unnecessary revisions. Adherence to strict indications and precise patient selection are crucial for successful SCS. Neurostimulation in most cases is safe for the patient, and technically feasible; complications include electrode migration, which can be easily corrected. New methods of stimulation such as high-frequency stimulation and non-invasive external generators will improve the results of treatment and decrease the rate of complications. Long-term results of SCS for FBSS should be estimated, while enlarging the study group. We presume that patients with FBSS require a multidisciplinary approach, with the participation of neurosurgeons, neurologists, orthopedists, rehabilitation specialists and other staff.

  • Study conducted at Federal State Research Institution, Research Center of Neurology, Department of Neurosurgery.

REFERENCES

  • 1
    Tulkin ON, Nazarov AS, Davydov EA, Bersnev VP. Characteristics of clinical presentations of Failed Back Surgery Syndrome. Translational Medicine. 2015;2(3):31-2.
  • 2
    Taylor RS. Epidemiology of refractory neuropathic pain. Pain Pract. 2006;6(1):22-6.
  • 3
    Kumar K, Taylor RS, Jacques L, Eldabe S, Meglio M, Molet J et al. Spinal cord stimulation versus conventional medical management for neuropathic pain: a multicentre randomised controlled trial in patients with failed back surgery syndrome. Pain. 2007;132(1-2):179-88.
  • 4
    Kumar K, Taylor RS, Jacques L, Eldabe S, Meglio M, Molet J et al. The effects of spinal cord stimulation in neuropathic pain are sustained: a 24-month follow-up of the prospective randomized controlled multicenter trial of the effectiveness of spinal cord stimulation. Neurosurgery. 2008;63(4):762-70.
  • 5
    Leveque JC, Villavicencio AT, Rubin L, Bulsara K, Gorecki JP Spinal cord stimulation for failed back surgery syndrome. Neuromodulation. 2001;4(1):1-9.
  • 6
    Merskey H, Bogduk N. Lumbar spinal or radicular pain after failed spinal surgery. In: Merskey H, Bogduk, N, editors. Classification of Chronic Pain. Seattle: IASP Press; 1994. p. 179.
  • 7
    Hoy D, Brooks P Blyth F, Buchbinder R. The epidemiology of low back pain. Best Pract Res Clin Rheumatol. 2010;24(6):769-81.
  • 8
    Follet KA, Dirks BA. Etiology and evaluation of the failed back surgery syndrome. Neurosurg Q. 1993;3(1):40-59.
  • 9
    Durand G, Girodon J, Debiais F Medical management of failed back surgery syndrome in Europe: evaluation modalities and treatment proposals. Neurochirurgie. 2015;61(Suppl 1):S57-65.
  • 10
    Thomson S, Jacques L. Demographic characteristics of patients with severe neuropathic pain secondary to failed back surgery syndrome. Pain Pract. 2009;9(3): 206-15.
  • 11
    Ragab A, Deshazo RD. Management of back pain in patients with previous back surgery. Am J Med. 2008;121(4):272-8.
  • 12
    Shealy CN, Mortimer JT, Reswick JB. Electrical inhibition of pain by stimulation of the dorsal columns: preliminary clinical report. Anesth Analg. 1967;46(4):489-91.
  • 13
    Kreis P, Fishman S. Spinal cord stimulation percutaneous implantation techniques. New York: Oxford University Press; 2009.
  • 14
    Isagulyan ED, Shabalov VA. Chronic Spinal Cord Stimulation in treatment of Failed Back Surgery Syndrome. Hirurgia Pozvonochnika. 2015;12(3):33-43.
  • 15
    North RB, Kumar K, Wallace MS, Henderson JM, Shipley J, Hernandez J et al. Spinal Cord Stimulation versus re-operation in patients with failed back surgery syndrome: an international multicenter randomized controlled trial (EVIDENCE study). Neuromodulation. 2011;14(4):330-5.
  • 16
    Kumar K, North R, Taylor R, Sculpher M, den Abeele C, Gehring M et al. Spinal Cord Stimulation vs. Conventional Medical Management: A Prospective, Randomized, Controlled, Multicenter Study of Patients with Failed Back Surgery Syndrome (PROCESS Study). Neuromodulation. 2005;8(4):213-8.
  • 17
    North RB, Kidd D, Shipley J, Taylor RS. Spinal cord stimulation versus reoperation for failed back surgery syndrome: a cost effectiveness and cost utility analysis based on a randomized, controlled trial. Neurosurgery. 2007;61(2):361-8.
  • 18
    Kumar K, Hunter G, Demeria D. Spinal cord stimulation in treatment of chronic benign pain: challenges in treatment planning and present status, a 22-year experience. Neurosurgery. 2006;58(3):481-96.
  • 19
    Isagulyan ED, Tomskij AA, Shabalov VA, Salova EM. Chronic electrical stimulation of the spinal cord for failed back surgery syndrome. Hirurgiâ Pozvonocnika. 2015;12(3):33-43.
  • 20
    Morozov IN, Ushakov AI. Neuromodulation for Refractory Failed Back Surgery Syndrome Patients. Sovremennyje technologii v medicine. 2015;7(3):90-4.
  • 21
    Isagulyan ED,Tomsky AA, Dekopov AV, Salova EM,Troshina EM, Dorokhov EV, et al. Results of motor cortex stimulation in the treatment of chronic pain syndromes]. Zh Vopr Neirokhir Im N N Burdenko. 2015;79(6):46-60.

Publication Dates

  • Publication in this collection
    2018

History

  • Received
    21 Mar 2018
  • Accepted
    25 July 2018
Sociedade Brasileira de Coluna Al. Lorena, 1304 cj. 1406/1407, 01424-001 São Paulo, SP, Brasil, Tel.: (55 11) 3088-6616 - São Paulo - SP - Brazil
E-mail: coluna.columna@uol.com.br