PROSPECTIVE CONTROLLED STUDY OF SPINAL SURGERY VERSUS PHYSICAL CAPACITY

Almeida, Vam Charly Pereira Araújo; Felix, Hector Figueiredo; Navarro, Fernanda Andrea Minutti; Salles, Ana Fatima; Oliveira, Carolinne Nascimento de; Rodrigues, Luiz Claudio Lacerda

doi:10.1590/1413-785220233101e259011

ABSTRACT

Objectives:

Assess whether the spine surgical approach for degenerative diseases can influence the physical capacity of patients and its correlation with cardiorespiratory function.

Methods:

A prospective study was conducted on 9 patients of both genders, aged between eighteen and sixty, scheduled for spinal surgery for degenerative disease in the lumbar segment. Patients underwent treadmill stress test two times, fifteen days before and sixty days after the surgery. A cardiologist performed the test according to the Bruce protocol with a progressive increase in incline and speed.

Results:

There were no statistically significant differences between pre- and postoperative assessments for the parameters evaluated in the treadmill stress test. Forty-four percent of patients needed to interrupt the test postoperatively due to dyspnea (p=0.023).

Conclusion:

The improvement obtained with spinal surgery does not have statistically significant relevance in tiredness, pain, and fatigue in the lower limbs and low back pain. Some patients could not complete the examination after surgery due to poor physical conditioning, and it was necessary to interrupt the examination due to dyspnea. Level of Evidence II; Lesser quality RCT (eg, < 80% followup, no blinding, or improper randomization).

Keywords:
Orthopedic Surgery; Osteoarthritis, Spine; Exercise Test

RESUMO

Objetivo:

Avaliar se a abordagem cirúrgica da coluna vertebral para doenças degenerativas pode influenciar a capacidade física dos pacientes e sua correlação com a função cardiorrespiratória.

Métodos:

Um estudo prospectivo foi realizado em 9 pacientes, de ambos os sexos, com idade entre 18 e 60 anos, programados para cirurgia de coluna vertebral para doenças degenerativas no segmento lombar. Os pacientes foram submetidos a teste de esforço em esteira duas vezes, quinze dias antes do procedimento cirúrgico e sessenta dias após a cirurgia. O teste foi realizado por um cardiologista de acordo com o protocolo Bruce com aumento progressivo de inclinação e velocidade.

Resultados:

Não houve diferenças estatisticamente significativas entre as avaliações pré e pós-operatórias para os parâmetros avaliados no teste de esforço em esteira. Quarenta e quatro por cento dos pacientes precisaram interromper o teste no pós-operatório devido à dispnéia (p=0,023).

Conclusão:

A melhora obtida com a cirurgia da coluna vertebral não apresenta impactos estatísticos no cansaço, dor e fadiga relativos aos membros inferiores e dores lombares baixas. Alguns pacientes não puderam completar o exame após a cirurgia devido ao mau condicionamento físico, exigindo a interrupção do exame devido à dispnéia. Nível de Evidência II; ECRC de menor qualidade (por exemplo, < 80% de acompanhamento, sem mascaramento do código de randomização ou randomização inadequada).

Descritores:
Cirurgia Ortopédica; Osteoartrite da Coluna Vertebral; Teste de Esforço

INTRODUCTION

The search for chronic low back pain treatment is growing.¹1 Silva MC, Fassa AG, Valle NCJ. Dor lombar crônica em uma população adulta do Sul do Brasil: prevalência e fatores associados. Cad Saúde Pública. 2004;20(2):377-85. Low back pain is considered chronic if lasts longer than six months. It is estimated that 70 to 85% of the world's population will experience back pain at some point in their lives.²2 Andersson GB. Epidemiological features of chronic low-back pain. Lancet. 1999;354(9178):581-5. In Brazil about ten million of Brazilians suffer with disabilities caused by low back pain,³3 Teixeira MJ. Tratamento multidisciplinar do doente com dor. In: Carvalho MMJ. Dor: um estudo multidisciplinar. São Paulo: Summus Editorial; 1999. p. 77-85. which is considered a public health problem.⁴4 Diseases & World Health Organization. 1985. [http://www.who.int/]. Identification and control of work-related diseases: report of a WHO expert committee [meeting held in Geneva from 28 November to 2 December 1983] [accessed 03/20/2022]. Available at: http://www.who.int/iris/handle/10665/40176.
http://www.who.int/... LBP can be caused by several factors, such as inflammation, muscle weakness and degenerative diseases. Disc degeneration is related to environmental effects, injuries caused by trauma, smoking, atherosclerosis and the natural aging.⁵5 Froes NDTC, Nunes FTB, Negrelli WF. Influência genética na degeneração do disco intervertebral. Acta Ortop Bras. 2005;13(5):255-7. The lumbar spine is divided according to its functional capacity; in anterior, middle, and posterior. The anterior portion of spine is made up of the intervertebral discs and vertebral bodies. The middle portion consists of the spinal canal and pedicles. The posterior portion is responsible for directing the functional units in the movements of anterior/lateral flexion, extension and rotation.⁶6 Imamura ST, Kaziyama MST, Kaziyama M. Lombalgia. Rev Med (São Paulo). 2001;80(n. esp pt. 2):375-90. The intervertebral disc works as a hydraulic system, absorbing shock and distributing the load evenly.⁷7 Miranda E. Bases de Anatomia e Cinesiologia. 2nd ed. São Paulo: Sprint; 2000. Thus, the amount of water in its composition it is proportional to its absorption capacity.⁸8 Adams MA, Dolan P, Hutton WC, Porter RW. Diurnal changes in spinal mechanics and their clinical significance. J Bone Joint Surg. 1990;72(2):266-70. Interverterbal disc collagen production occurs in three phases: the initial one, where there is abundant collagen production; the maturation phase, which maintains collagen renewal; and, finally, the degenerative phase, where there is a decrease in renewal.⁹9 Antoniou J, Gouysouzian BSC, Heathfield TF, Steffen T, Poole AR, Aebi M, et al. The human lumbar Endplate Evidence of changes in biosynthesis and denaturation of the extracellular matrix with growth, maturation, aging and degeneration. Spine. 1996;21(10):1153-61. As it is an avascular structure, the nutrition of the disc occurs by diffusion.¹⁰10 Seymour MB. The ergonomics of seating-posture and chair adjustment. Nurs Times. 1995;91(9):35-7. Anatomically described, the soluble regulators of cell function indicate the aging and senescence of the disc - which consists of a nucleus pulposus surrounded by an annulus fibrosus. The nucleus pulposus acts allows the vertebral disc to withstand forces of compression and torsion, permitting the liquid exchange between capillaries and vertebral discs and the axis of vertical movement between two vertebrae. The fibrous annulus, on the other hand, participates in the stabilization and movement of the vertebral bodies and loads dampening.¹¹11 Natour J. Coluna Vertebral: Conhecimentos básicos. São Paulo: Etcetera Editora; 2004. However, with aging, its biomechanical efficiency starts to decrease due to dehydration.¹²12 Nachemson AL. Advances in low-back pain. Clin Orthop Relat Res. 1985;(200):266-78.,¹³13 Hansen HJ. Apud Comparative views on the pathology of disk degeneration in animals. Lab Invest. 1959;8:1242-65. The nucleus pulposus progressively loses its capacity to hold water and the annulus fibrosus begins to lose its elasticity, demonstrating the degradation of the nutrition mechanism and then resulting in disc degeneration.¹⁴14 Freemont AJ. The cellular pathobiology of the degenerate intervertebral disc and discogenic back pain. Rheumatology (Oxford). 2009;48(1):5-10. New studies show that the main factors influencing healthy and degenerated intervertebral disc are: mechanical load, genetic influences, diffusion of nutrients and oxygen through the intervertebral disc matrix.¹⁴14 Freemont AJ. The cellular pathobiology of the degenerate intervertebral disc and discogenic back pain. Rheumatology (Oxford). 2009;48(1):5-10.

The treatment of chronic low back pain, among its many causes, includes several therapeutic options, from conservative treatment to surgical intervention.⁶6 Imamura ST, Kaziyama MST, Kaziyama M. Lombalgia. Rev Med (São Paulo). 2001;80(n. esp pt. 2):375-90. In this study, we sought to assess the physical capacity of patients undergoing surgical treatment of the spine through the treadmill stress test. In addition to diagnosing cardiovascular diseases, the treadmill stress test also determines prognosis and assesses therapeutic responses to exercise tolerance, in addition to being a test considered to be of low risk. The patient is submitted to a programmed physical effort, which allows the assessment of their clinical, electrocardiographic, hemodynamic, metabolic, autonomic and ventilatory responses. The test will enable the evaluation of the therapeutic interventions results and the patient's actual physical conditions.¹⁵15 Meneghelo RS, Araújo CGS, Stein R, Mastrocolla LE, Albuquerque PF, Serra SM, et al. III Diretrizes da Sociedade Brasileira de Cardiologia sobre Teste Ergométrico. Arq Bras Cardiol. 2010;95(5 Suppl 1):1-26.

The aim of this study was to assess whether the spine surgical approach for degenerative diseases can influence the physical capacity of patients, correlating it with cardiorespiratory function.

METHODS

This study was approved by the research ethics committee and (number 2.904.787/2018) was carried out in accordance with the 1995 Declaration of Helsinki in the period from May 2019 to May 2020. Nine patients of both genders, aged between eighteen and sixty years, scheduled for spinal surgery for degenerative disease in the lumbar segment were included.

Patients with neuromuscular diseases, history of cardiovascular diseases, spine fractures, any sequelae on spine, pelvis and lower limbs diseases were excluded due to limitations in performing the treadmill stress test.

A prospective study was carried out, with qualitative and quantitative data collection. Patients were submitted to the exercise test in two moments, which would be done fifteen days before the surgical procedure and sixty days after the surgery.

The test was performed by a cardiologist according to the Bruce protocol with a progressive increment in inclination and speed, to assess functional capacity.⁹9 Antoniou J, Gouysouzian BSC, Heathfield TF, Steffen T, Poole AR, Aebi M, et al. The human lumbar Endplate Evidence of changes in biosynthesis and denaturation of the extracellular matrix with growth, maturation, aging and degeneration. Spine. 1996;21(10):1153-61. For this purpose, a treadmill was used for thirty minutes, and vital signs such as blood pressure, respiratory and heart rate were measured.

Data collection began after approval by the Research Ethics Committee and the signing of the free and informed consent form by the volunteers.

A significance level of 0.05 (5%) was defined for this work. We chose to use non-parametric tests, as the dataset has a low sampling. Pre and post operative tests were compared using the Wilcoxon test, as the data are paired.

RESULTS

Nine patients were included, 6 females and 3 males. The minimum age was 18 years and the maximum age was 62 years with an average of 45 years.

All patients included had the degenerative condition of the lumbar spine as their underlying disease, and all underwent spinal arthrodesis with instrumentation of up to 3 levels.

When evaluating the associated comorbidities, we considered as obesity patients those with a body mass index (BMI) above 35 and overweight BMI ranging from 28 to 34.9. The distribution of comorbidities was presented in Table 1, remember that comorbidities may overlap, because patients may have more than one associated disease. The results of the pre and postoperative test evaluation are presented in Table 2. There were no statistically significant differences between pre and postoperative assessments for the parameters evaluated in the treadmill stress test.

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Table 1
Comorbidities distribution.

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Table 2
Comparison between pre and postoperative for treadmill stress testing.

When we analyzed the reason for the interruption of the test (Table 3), we observed a statistically significant difference (p = 0.023) in one of the reasons for interruption. Forty four percent of the patients needed to interrupt the postoperative test due to dyspnea that not observed in the preoperative evaluation.

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Table 3
Comparison between the different reasons for interruption of the exam.

DISCUSSION

This study evaluated the surgical approach in the treatment of degenerative disease of the spine, with a treadmill stress test performed in the preoperative and postoperative periods (3-month). The mean age of patients was 44.6 years, with a low variability, keeping the data homogeneous and in accordance with the previous literature.^16,17,18 There was no difference regarding gender distribution, even with the prevalence of female with 66.7% and male with 33.3% (p-value 0.157). This prevalence of female gender was found in several literature review papers for chronic low back pain.¹⁹19 Nascimento PR, Costa LO. Low back pain prevalence in Brazil: a systematic review. Cad. Saúde Pública. 2015;31(6):1141-55. The obesity was the most recurrent comorbidity in this study, with 44.4%, and it may be one of the variables with the most interference in the postoperative evaluation. Patients had an increase in body weight, which may be due to improved pain, mood, and reduced use of oral medications, which could lead to an improvement in gastrointestinal feelings. In several papers, obesity has been listed as an important factor in etiology and pain. One of these studies was carried out with an epidemiological profile of Brazil.¹⁹19 Nascimento PR, Costa LO. Low back pain prevalence in Brazil: a systematic review. Cad. Saúde Pública. 2015;31(6):1141-55.

In the comparison pre and postoperative for the treadmill stress tests, our aim was to evaluate the patient's physiological changes after the surgery improvement in the low back pain and the limitation it could be causing. However, it was not significant between these two moments. No previous similar study was found in literature. The moments (pre- and postoperative) and the reasons of treadmill stress test interruption were evaluated. It was found that there is a statistical difference between the moments for the distribution of dyspnea, where the percentage raised from 0.0% in the preoperative period (p = 0.023) to more than 44% in the postoperative period, which led us to think that even with the improvement in pain and functional limitation, obesity may influence the dyspnea, since even some patients being smokers or former smokers, they did not present preoperative dyspnea. We did not find papers to make a comparison with the data obtained in our study.

This study presents us with some questions and directs us to new variables to be observed in the surgical treatment of the spine, emphasizing the importance of metabolic disorders and obesity, for example, not only as triggering factors, but also as harmful factors in the intra and postoperative. Relevant information was given to patients, such as problems encountered in the postoperative period. Aiming to improve clinical conditions and quality of life, trained multidisciplinary professionals such as nutritionists, psychologists and physiotherapists were suggested. We can also think that dyspnea may not have been observed, as the mechanical disorder of chronic low back pain would not allow this patient to make great efforts, which may not allow an activity that would cause dyspnea. The removal of this factor associated with the time of postoperative convalescence could add another factor not analyzed. Perhaps the need for earlier and more intense rehabilitation after surgery, after removing the mechanical factor, could be the best option to improve this limiting clinical condition. Some limitations of our study must be presented – small sample and short follow-up - however, it could provide us with new possibilities for study, leading to future research.

CONCLUSION

Improvement achieved with spinal surgery does not have a statistically significant in tiredness, pain, and fatigue in the lower limbs in patients with chronic low back pain.

Regarding patients who were not able to complete the treadmill stress test due to physical limitations after surgery, this probably occur due to poor physical conditioning, being necessary to interrupt the test due to dyspnea.

The study was conducted at the Departamento de Ortopedia e Traumatologia do Hospital Santa Marcelina, São Paulo, SP, Brazil.

ACKNOWLEDGMENTS

To the Cardiology Department of Hospital Santa Marcelina for their support.

REFERENCES

¹
Silva MC, Fassa AG, Valle NCJ. Dor lombar crônica em uma população adulta do Sul do Brasil: prevalência e fatores associados. Cad Saúde Pública. 2004;20(2):377-85.
²
Andersson GB. Epidemiological features of chronic low-back pain. Lancet. 1999;354(9178):581-5.
³
Teixeira MJ. Tratamento multidisciplinar do doente com dor. In: Carvalho MMJ. Dor: um estudo multidisciplinar. São Paulo: Summus Editorial; 1999. p. 77-85.
⁴
Diseases & World Health Organization. 1985. [http://www.who.int/]. Identification and control of work-related diseases: report of a WHO expert committee [meeting held in Geneva from 28 November to 2 December 1983] [accessed 03/20/2022]. Available at: http://www.who.int/iris/handle/10665/40176.
» http://www.who.int/» http://www.who.int/iris/handle/10665/40176
⁵
Froes NDTC, Nunes FTB, Negrelli WF. Influência genética na degeneração do disco intervertebral. Acta Ortop Bras. 2005;13(5):255-7.
⁶
Imamura ST, Kaziyama MST, Kaziyama M. Lombalgia. Rev Med (São Paulo). 2001;80(n. esp pt. 2):375-90.
⁷
Miranda E. Bases de Anatomia e Cinesiologia. 2nd ed. São Paulo: Sprint; 2000.
⁸
Adams MA, Dolan P, Hutton WC, Porter RW. Diurnal changes in spinal mechanics and their clinical significance. J Bone Joint Surg. 1990;72(2):266-70.
⁹
Antoniou J, Gouysouzian BSC, Heathfield TF, Steffen T, Poole AR, Aebi M, et al. The human lumbar Endplate Evidence of changes in biosynthesis and denaturation of the extracellular matrix with growth, maturation, aging and degeneration. Spine. 1996;21(10):1153-61.
¹⁰
Seymour MB. The ergonomics of seating-posture and chair adjustment. Nurs Times. 1995;91(9):35-7.
¹¹
Natour J. Coluna Vertebral: Conhecimentos básicos. São Paulo: Etcetera Editora; 2004.
¹²
Nachemson AL. Advances in low-back pain. Clin Orthop Relat Res. 1985;(200):266-78.
¹³
Hansen HJ. Apud Comparative views on the pathology of disk degeneration in animals. Lab Invest. 1959;8:1242-65.
¹⁴
Freemont AJ. The cellular pathobiology of the degenerate intervertebral disc and discogenic back pain. Rheumatology (Oxford). 2009;48(1):5-10.
¹⁵
Meneghelo RS, Araújo CGS, Stein R, Mastrocolla LE, Albuquerque PF, Serra SM, et al. III Diretrizes da Sociedade Brasileira de Cardiologia sobre Teste Ergométrico. Arq Bras Cardiol. 2010;95(5 Suppl 1):1-26.
¹⁶
Carson J, Gumpert J, Jefferson A. Diagnosis and treatment of thoracic intervertebral disc protrusions. J Neurol Neurosurg Psychiatry. 1971;34(1):68-77.
¹⁷
Otani K, Yoshida M, Fuji E, Nakai S, Shibasaki K. Thoracic disc herniation: Surgical treatment in 23 patients. Spine (Phila Pa 1976). 1988;13(11):1262-7.
¹⁸
Powell MC, Wilson M, Szypryt P, Symonds EM, Worthington BS. Prevalence of lumbar disc degeneration observed by magnetic resonance in symptomless women. Lancet. 1986;2(8520):1366-7.
¹⁹
Nascimento PR, Costa LO. Low back pain prevalence in Brazil: a systematic review. Cad. Saúde Pública. 2015;31(6):1141-55.

Publication Dates

Publication in this collection
17 Apr 2023
Date of issue
2023

History

Received
10 Sept 2021
Accepted
18 Feb 2022

This is an Open Access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.

[1] The study was conducted at the Departamento de Ortopedia e Traumatologia do Hospital Santa Marcelina, São Paulo, SP, Brazil.

Comorbidities	N(%)
Obesity	4(44,4)
Smoker	2(22,2)
Ex-smoker	3(33,3)
Arterial hypertension	2(22,2)
Oerweight	2(22,2)
Dyslipidemia	1(11,1)

	Moments	Mean	Median	Standard deviation	Minimum	Maximum	IC	P-valor
Weight (kg)	Pre-Operative	72.1	66	15.6	46	95	10.2	0.513
Weight (kg)	Post-Operative	72.8	69	14.7	47	99.4	9.6	0.513
Speed (mph)	Pre-Operative	3.29	3.40	0.52	2.50	4.20	0.34	0.196
Speed (mph)	Post-Operative	2.83	3.40	1.29	1.20	4.20	0.84	0.196
Distance (miles)	Pre-Operative	0.299	0.300	0.124	0.110	0.460	0.081	0.374
Distance (miles)	Post-Operative	0.261	0.230	0.201	0.010	0.520	0.131	0.374
Interruption time (m:sec)	Pre-Operative	07:40	07:38	02:41	03:30	11:59	01:45	0.214
Interruption time (m:sec)	Post-Operative	06:14	06:16	04:09	00:30	10:59	02:43	0.214

Reasons for interruption	Pre-Operative	Post-Operative	P-value
Reasons for interruption	N (%)	N(%)	P-value
Tiredness	2(22.2)	1(11.1)	0,527
Pain in lower limbs	5(55.6)	4(44.4)	0,637
Fatigue in the lower limbs	1(11.1)	0(0.0)	0,303
Low back pain	1(11.1)	0(0.0)	0,303
Dyspnea	0(0.0)	4(44.4)	0,023 ^* * statistically significant p value.

Brasil

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PROSPECTIVE CONTROLLED STUDY OF SPINAL SURGERY VERSUS PHYSICAL CAPACITY

ESTUDO PROSPECTIVO CONTROLADO DA CIRURGIA VERTEBRAL VERSUS CAPACIDADE FÍSICA

ABSTRACT

Objectives:

Methods:

Results:

Conclusion:

RESUMO

Objetivo:

Métodos:

Resultados:

Conclusão:

INTRODUCTION

METHODS

RESULTS

DISCUSSION

CONCLUSION

ACKNOWLEDGMENTS

REFERENCES

Publication Dates

History