PROXIMAL DISABILITY AND SPINAL DEFORMITY INDEX IN PATIENTS WITH PROXIMAL FEMUR FRACTURES

Objective: To evaluate the quality of life related to the spine in patients with proximal femoral fractures. Methods: Study conducted in a tertiary public hospital in patients with proximal femoral fractures caused by low-energy trauma, through the Oswestry Disability Index questionnaire to asses complaints related to the spine at the time of life prior to the femoral fracture. The thoracic and lumbar spine of patients were also evaluated applying the radiographic index described by Gennant (Spinal Deformity Index), which assesses the number and severity of fractures. Results: Seventeen subjects completed the study. All had some degree of vertebral fracture. Patients were classified in the categories of severe and very severe disability in the questionnaire about quality of life. It was found that the higher SDI, the better the quality of life. Conclusion: There is a strong association of disability related to the spine in patients with proximal femoral fracture, and this complaint must be systematically evaluated in patients with appendicular fracture.


INTRODUCTION
Osteoporosis is a global public health issue. 1 It is characterized as a diffuse bone disease with a decrease in bone mass and a change in the microarchitecture of the bone tissue, with a consequent increase in fragility and susceptibility to fracture from low energy traumas. 2 This disease is responsible for more than 1.5 million fractures per year in the USA. 3 Approximately 40% of Caucasian women and 13% of men above 50 years of age have at least one clinically-recognized fracture from osteoporosis in the hip, wrist, or spine. 4,5The expenditure of public health resources on the consequences of osteoporosis is very high, with approximately 17 billion dollars spent in 2005 in the USA, a figure that is expected to triple by 2010. 6,7Hip and spine fractures are hallmarks of insufficiency fractures, the two most com-mon injuries caused by osteoporosis, among which spine fractures are responsible for approximately 50% of all osteoporotic fractures, totaling between 700,000 and 750,000 injuries in the USA annually. 3ip fractures are clinically easily recognizable by the immediate functional disability that they generate.][13][14] The impact on quality of life of patients with osteoporosis is primarily related to the consequences of the fractures, which, in the case of vertebral fractures, bring pain, deformity, weight loss, physical dysfunction, immobility, loss of lung capacity, and gastroesophageal reflux, among others.Abnormality in physical activity and changes in appearance contribute to social isolation, loss of self-esteem, and depression.This impact can be evaluated using tools that assess the state of health of patients by means of self-or interviewer-administered questionnaires. 1,15,16Among the questionnaires that evaluate the quality of life, we cite the Oswestry Disability Index (ODI). 16he spine can be evaluated using various radiographic methods, among them the Spinal Deformity Index (SDI) described by Minnie and Gennant, which assesses both the number of fractured vertebrae and their degree of seriousness via radiographs of the thoracolumbar spine, allowing the prevalent fractures to be evaluated in an initial assessment, and incidental fractures in serial exams. 17he objective of this study is to evaluate spine-related disability prior to the event of an appendicular fracture through a quality of life questionnaire, using radiographic methods to confirm possible alterations in the spine.

MATERIALS AND METHODS
In the period May 2012 to March 2014, patients admitted to a tertiary public hospital who had proximal femoral fractures (femoral neck, transtrochanteric, or subtrochanteric), originating from low--energy trauma, underwent definitive treatment, had their thoracic and lumbar spines x-rayed, and were given a quality of life questionnaire, the Oswestry Disability Index, which was filled out with regressive information from the period immediately prior to the hip fracture.All the patients agreed to and signed the Informed Consent Form, which was approved by the Institutional Review Board, under registration number CAAE 04559312.0000.5404.
The exclusion criteria of the study were patients less than 50 years of age, patients with pathological fractures caused by tumors, victims of high energy trauma, patients who had undergone surgical treatment for any disease of the thoracic or lumbar spine, patients with congenital spine deformities, patients with scoliosis, patients with insufficient understanding to fill out the questionnaire, and patients who refused to participate in the study or sign the Informed Consent Form of the study.For the application of the ODI questionnaire, the patient was instructed to respond based on the presence or absence of back or leg pain during the period immediately prior to the hip fracture.The questionnaire is made up of 10 questions, each with six statements, in order to identify limitations in nine day-to-day activities, and in the sex life.The final score measures the degree of disability as a percentage, classified as minimum, moderate, severe, very severe, and exaggerated symptoms, as illustrated in Attachment 1.
Radiographs were taken in posteroanterior and lateral views, in separate instances, for the thoracic and lumbar spines, in order to evaluate deformities in the coronal and sagittal planes, respectively.Scoliosis and changes that led to the suspicion of neoplasia were investigated in the posteroanterior radiograph.In the lateral radiograph the spinal deformity resulting from vertebral compression fractures was evaluated.
In the lateral radiographs, the T4 to L4 vertebrae were scored individually on a scale from one to three.This method is not usable in the presence of congenital deformity, scoliosis, previous bone surgeries of the spine, or the presence of vertebral tumors.As illustrated in Figure 1, a vertebra classified with a grade 1 fracture presents a reduction of 25% in the height of one of the walls, grade 2 between 25% and 40%, and grade 3 more than 40%.The sum of the results classifies the spine with an index that represents the Spinal Deformity Index, shown in Figure 2.

RESULTS
The study consisted of 17 patients; 11 female and 6 male.The average age was 75.4 years, as shown in Table 1.SPSS 20.0 (SPSS, Inc., Chicago, IL, USA) was used for the statistical analysis, with the tests conducted at a significance of 5%.
Coluna/Columna.2015;14(4):276-80  None of the patients in this study were being treated for osteoporosis and none had any condition prior to the fracture of the femur that could have masked the results of the ODI questionnaire.
The ODI results showed that 11 patients (64.7%) had severe disability and 6 patients (35.3%) had very severe disability, as can be seen in Table 2.
A correlation of the sex of the patient with the ODI results was performed by applying the Mann-Whitney test. 19No statistically significant relationship (p=0.062) was observed, but the test suggested that male patients had lower quality of life scores as compared to the females, as shown in Table 3.
The 17 patients all had spine fractures evaluated by the SDI and L1 was the vertebra where some grade of fracture occurred most often, in 13 patients as shown in Table 4.
In applying the Spearman correlation, 19 which correlates the result of the ODI and the age of the patient with the individual score of each vertebra and with the SDI, we observed a statistically significant inverse relationship between the score of the fracture and the ODI (r= -0.528 and p=0.029) in L3 and a statistically significant direct correlation of age with individual score was observed in T7 (r=0.560 and p=0.019).
We also observed a statistically significant inverse correlation of the ODI with the SDI.The greater the SDI, the lower the ODI of the patient (r= -0.628 and p=0.007), as shown in Table 5.
In order to confirm whether the grade of disability shown by the ODI has a relationship to the SDI, the Mann-Whitney test 19 was applied, in which it was shown that patients with very severe disability have SDI values that are statistically significantly lower than patients with severe disability, with p=0.001, as shown in Table 6.
The ROC curve was created, the best SDI cutoff point to discriminate the quality of life categories of quality of life was established, the SDI cutoff point and its associated sensitivity and specificity were provided.Thus, we confirmed that the SDI shows good discrimination of the quality of life categories, since it presents almost 100% of the area of the graph, and a cutoff point for the SDI can be established at 5.5 with sensitivity of 90.9% and specificity of 100%, shown in Figure 3 and Table 7.

DISCUSSION
This study evaluated patients with insufficiency fractures of the proximal femur, but who had no prior knowledge of pathologies of the spine.The quality of life/disability questionnaire showed that all the study patients had significant complaints in relation to the spine (severe and very severe disability) prior to the femoral fracture event and that all of them had some degree of spinal fracture.Despite the relatively small number of patients in the study, the higher proportion of insufficiency hip fractures in the women than in the men corroborates the literature figures of around 60%-70% of fractures in female patients, as does the average age of occurrence of the event. 20he study was conducted in a tertiary public university hospital, where a large percentage of the cases treated are patients in unfavorable economic conditions, often with limited access to basic and preventative health services.This is demonstrated in our study by the fact that none of the patients, all of whom had osteoporotic fractures, had been either diagnosed with or had undergone any therapy for this pathology, which conforms with Marques Neto JF et al., 21 who state that only one in every three people with osteoporosis is diagnosed and, of these, only one in five receive any kind of treatment.
22,23 This information agrees with that found in our study through the application of the Oswestry Disability Index in which patients had severe or very severe disability related to the spine prior to the appendicular fracture.This fact must be taken seriously, as these patients already had vertebral fractures prior to the fracture of the femur.The diagnosis, monitoring, and effective treatment of pre-existing osteoporosis could have interfered positively with the evolution of the appendicular fractures and may have even prevented the hip fractures, which together with the spinal fractures, result in mortality rates of 20% in one year, possibly reaching as high as 50% over three years. 1,15his study showed clearly that the evaluation method proposed by Gennant et al. 17 is useful for the identification of vertebral fractures from thoracolumbar insufficiency.We found a high prevalence of vertebral insufficiency fractures in the patients with fractures of the proximal femur, 100% in our study, a finding that agrees with Castro et al. 23 Even though the correlation of sex with quality of life did not yield a statistically significant value, our findings suggest that the male patients have a better quality of life score than the female patients, as evidenced by the lower ODI scores.The deterioration of the quality of life in women with osteoporotic fractures is well documented in the literature, however there is little information on this issue with respect to the male population, even though it is known that the progress of patients with osteoporotic fractures tends to be worse in men. 24,25This finding may be due to the relatively low number of patients included in the case series in our study.
The correlation between patient age and the SDI fracture score only showed statistical significance in T7, that is, the older the patient the greater the probability of a fracture in this vertebra, but there is no supporting evidence of this finding in the literature, nor  for the statistically significant inverse correlation between the finding of fractures in L3 and a worse evolution score in the ODI.The latter finding could be an indication of the fact that L3 is generally located at the apex of the lumbar lordosis.
There was a statistically significant inverse correlation between the SDI and Oswestry scores, i.e. the higher the SDI the better the ODI result.This could be related to the fact that lower SDI indices are linked to more recent compression fractures, which can manifest themselves in a more symptomatic manner, among other factors, because the body has not yet made any postural adaptation and that no adequate and timely treatment has been instituted, leading to the deterioration of the quality of life of the patient.This can be added to the information published in the study of Roux et al. 8 in which, when the SDI score is higher than five, the risk of new fractures increases considerably.When the score is higher than eight, the risk of new fractures plateaus.This is because 13 vertebrae (T4 to L4) are evaluated, so it is natural that at some point, there will be no more vertebrae to be fractured.
Analyzing whether there is a cutoff for the SDI value that discri-minates the quality of life categories, we arrived at a value of 5.5, at which the ROC curve was 97%, providing sensitivity of 90.9% and specificity of 100%, i.e. patients with SDI scores greater than 5.5 tend to present worse ODI indices.

CONCLUSION
Patients with fractures of the proximal femur show significant changes in the quality of their lives when their complaints related to the spine prior to the femoral fracture are investigated, and the spine should be systematically investigated in these patients.These complaints can and should be an alert for the diagnosis and treatment of osteoporosis at an early stage with the goal of trying to minimize the chances of occurrence of other fractures and of the increase in morbimortality inherent in this disease.

Figure 1 .
Figure 1.Gradation of vertebral fractures according to the Gennant method.

Table 1 .
Description of patient's age and sex.

Table 2 .
Description of the patients' degree of disability.

Table 3 .
Description of Oswestry according to sex and result of the comparison between the sexes.

Table 4 .
Description of the scores for each vertebra and of the SDI.

Table 7 .
Values of the area of the ROC curve of the SDI in relation to the quality of life categories, established cutoff, and the respective sensitivity and specificity values of the cutoff.

Table 5 .
Correlation of Oswestry and of age with the score for fracture in each vertebra and with the SDI.

Table 6 .
Description of SDI according to the quality of life category and the result of the comparison.
Figure 3. ROC curve of the SDI to discriminate the quality of life categories.