metricas
covid
Buscar en
Revista Colombiana de Reumatología (English Edition)
Toda la web
Inicio Revista Colombiana de Reumatología (English Edition) Cross-cultural adaptation of the Community Oriented Program for the Control of R...
Información de la revista
Vol. 26. Núm. 2.
Páginas 88-96 (abril - junio 2019)
Visitas
2034
Vol. 26. Núm. 2.
Páginas 88-96 (abril - junio 2019)
Original Investigation
Acceso a texto completo
Cross-cultural adaptation of the Community Oriented Program for the Control of Rheumatic Diseases (COPCORD) in a Colombian population
Adecuación y validación transcultural del cuestionario COPCORD: Programa Orientado a la Comunidad para el Control de las Enfermedades Reumáticas en Colombia
Visitas
2034
Ingris Peláez Ballestasa,b, Ana María Santosc, Ignacio Angaritac, Juan Camilo Ruedac, Jesús Giovanny Ballesterosc, Rodrigo Giraldoc, Eugenia Saldarriagac, Francy Cuervoc, Roberto Baqueroc, Elías Forerod, Javier Ramíreze, Carlos Toroe, Enrique Gamboa Silvac, John Londonoc,
Autor para correspondencia
a Sociomedical Sciences Program, Faculty of Medicine, Universidad Nacional Autónoma de México (UNAM), Ciudad de México, Mexico
b Departamento de Reumatología, Hospital General de México, Ciudad de México, Mexico
c Grupo de Investigación Espondiloartropatías, Hospital Militar Central, Universidad de La Sabana, Bogotá D.C., Colombia
d Medicina Interna Reumatología, Universidad del Norte Barranquilla, Barranquilla, Colombia
e Asociación Colombiana de Reumatología, Bogotá D.C., Colombia
Este artículo ha recibido
Información del artículo
Resumen
Texto completo
Bibliografía
Descargar PDF
Estadísticas
Tablas (6)
Table 1. Sociodemographic description.
Table 2. Pain description, functional capacity, physical limitation.
Table 3. Major diagnoses identified in the assessment by rheumatologists.
Table 4. Internal consistency with the COPCORD questionnaire.
Table 5. Performance of the COPCORD questionnaire as a screening test for the detection of rheumatic diseases.
Table 6. Comparison of the performance of the COPCORD questionnaire as a screening test for the detection of rheumatic diseases in various studies in Latin America.
Mostrar másMostrar menos
Material adicional (1)
Abstract
Introduction

The validation of questionnaires is fundamental in the measurement process of any research study. The Community Oriented Program for Control of Rheumatic Diseases (COPCORD) questionnaire is useful as a screening tool for the detection of rheumatic diseases.

Objective

To adapt and validate the methodology and the COPCORD questionnaire in the Colombian population.

Materials and methods

A validation study of the COPCORD methodology was carried out that included: (1) transcultural adaptation of the COPCORD questionnaire of Mexican Spanish, and (2) validation of the questionnaires: COPCORD, socioeconomic level questionnaire, use of health services and a quality of life questionnaire (EQ-5D-3L), following international guidelines.

Results

A total of 329 subjects of 6 cities in Colombia participated in the process, with 10 in the first phase and 309 in the second. Approximately two-thirds (67.3%) were women. The mean age was 46.4±18.4 years, with an educational level between basic and medium (77%). Participants resided in Bogota (29.4%), Barranquilla (22%), Cali (20.3%), Medellin (15.2%), Bucaramanga (6.4%), and Cucuta (6.4%). Musculoskeletal pain in the previous 7 days was reported by 43.6%, and historical pain was reported by 68.9%. A rheumatological diagnosis was established in 127 (41.1%) cases: osteoarthrosis (9.3%), regional pain syndromes (5.5%), low back pain (5.1%), and rheumatoid arthritis (0.9%). The internal validity was 0.70. When comparing the COPCORD questionnaire with the diagnosis made by the rheumatologist, it had a sensitivity of 70.8%, specificity 35%, positive likelihood ratio of 1.09m and area under the curve of 0.53.

Conclusions

The COPCORD questionnaire is valid as a screening test to detect musculoskeletal complaints and rheumatic diseases in the Colombian population.

Keywords:
Cross-cultural validation
Musculoskeletal pain
Rheumatic diseases
Colombia
Resumen
Introducción

La validación de cuestionarios es fundamental en el proceso de medición de cualquier estudio de investigación. El cuestionario Community Oriented Program for Control of Rheumatic Diseases (COPCORD) es útil como tamizaje para la detección de enfermedades reumáticas.

Objetivo

Adecuar y validar la metodología y el cuestionario COPCORD en población colombiana.

Materiales y métodos

Se realizó un estudio de validación de metodología COPCORD que incluyó: 1) adecuación transcultural del cuestionario COPCORD del español mexicano, y 2) validación de los cuestionarios: COPCORD, cuestionario de nivel socioeconómico, uso de servicios de salud y un instrumento de calidad de vida (EQ-5D-3L), siguiendo las guías internacionales.

Resultados

Participaron 329 sujetos de 6 ciudades de Colombia, 10 en la primera fase del estudio y 309 en la segunda; un 67,3% fueron mujeres, con una edad promedio de 46,4 años, con una escolaridad entre básica y media (77%). Los participantes residían en Bogotá (29,4%), Barranquilla (22%), Cali (20,3%), Medellín (15,2%), Bucaramanga (6,4%) y Cúcuta (6,4%). Reportaron dolor musculoesquelético en los últimos 7 días el 43,6% y dolor histórico el 68,9%. En 127 (41,1%) se estableció un diagnóstico reumatológico: osteoartrosis (9,3%), síndrome de dolor regional (5,5%), lumbalgia (5,1%) y artritis reumatoide (0,9%). La validez interna fue de 0,70. Al comparar el cuestionario COPCORD con la revisión por el reumatólogo, tuvo una sensibilidad del 70,8%, una especificidad del 35%, una razón de verosimilitud positiva de 1,09 y un área bajo la curva de 0,53.

Conclusiones

El cuestionario COPCORD es válido como prueba de tamizaje de detección de malestares musculoesqueléticos y enfermedades reumáticas en población colombiana.

Palabras clave:
Validación transcultural
Dolor musculoesquelético
Enfermedad reumática
Colombia
Texto completo
Introduction

The impact of rheumatic diseases has been well documented in high income countries and to a lesser degree in the developing countries.1 These diseases represent the number one cause of permanent disability in industrialized countries, with a significant socio-economic impact, and worsening of the quality of life of the individuals affected.2 Early detection and diagnosis, healthcare intervention, and rapid and effective therapy are all key to reduce or reverse the physical and social disability resulting from these conditions.3

The Community Oriented Program for Control of Rheumatic Diseases (COPCORD) methodology has proven to be an effective tool to estimate the prevalence of musculoskeletal disorders (MSD) and rheumatic disease in the general population.4 The objective of this program is to obtain reliable epidemiological information through low cost studies conducted in the community.2,4 The COPCORD methodology includes three stages: stage I corresponds to the epidemiological phase; stage II corresponds to treatment and education strategies; and stage III, corresponds to the identification of environmental and genetic risk factors of rheumatic diseases. The Core COPCORD Questionnaire (CCQ) is administered in Stage I, with a view to do a screening for the detection of rheumatic diseases.4

The COPCORD methodology has been used in several countries over the past 3 decades.5–11 Using a standardized methodology enables a comparison of the studies conducted in different populations, and the identification of factors associated with such variability.

As part of Stage I of the COPCORD methodology, Pfleger suggests that the CCQ screening questionnaire be cross-culturally validated and adapted to the local conditions and to the language of the target population. The validation of the CCQ questionnaire in its original English version translated into other languages and cultures is seldom reported in detail in the COPCORD studies.2,12

In Latin America, COPCORD studies have been conducted in Cuba,13 Venezuela,10 Mexico,11,14,15 Brazil,16 and Ecuador.17 Studies have also been conducted in indigenous populations for whom the COPCORD questionnaire in Spanish had to be translated into 7 indigenous dialects: warao, kariña, and chaima (Venezuela); mixteco, maya-yucateco and rarámuri (México) and qom (Argentina).18

Validation processes of the methodology and the COPCORD questionnaire in different Latin American countries have been reported.17–20 The Mexican version 2 of the COPCORD19 was used as a reference for the Colombian population, because of its availability and complete validation process, and it has been the foundation for most of the studies conducted in the region.9 Since the personal answers to the questionnaire vary from one culture to another, its use is conditioned by the local context in which the questionnaire is administered. Therefore, there is a need to do an adaptation and cross-cultural validation comprising two steps: the language adaptation with an assessment of the conceptual, semantic, and operative aspects, and the validation of the instrument.9

The objective of this study is to adapt and do a cross-cultural validation of the COPCORD methodology and the CCQ questionnaire to identify any MSD and rheumatic diseases among the Colombian population. Furthermore, the intent is to use the performance of the CCQ questionnaire as a screening test for rheumatic diseases.

Materials and methodsDesign

Cross-cultural adaptation and validation of the methodology and of the screening questionnaire (COPCORD) Mexican version 219 to identify rheumatic disorders and diseases.

Cross-cultural adaptation

This was done pursuant to the proposal by Beaton et al.,21 that defined cross-cultural adaptation as a process that observes both parts of the cultural and language adaptation in the process of developing a questionnaire for use in other contexts. They argue that this process shall be adapted in accordance with 4 different aspects: the target population (natives, established immigrants, new immigrants), the culture, the language, and the country.

The process of adaptation involves 7 steps: (1) translation; (2) synthesis of translations; (3) back translation; (4) expert committee; (5) pre-final version test; (6) document review for developers; and (7) cross-cultural adaptation that includes an evaluation of the conceptual, semantic equivalence by item and operational22; Step 8 involves the process of validation of the adaptation, in order to assess the equivalence in measurements (psychometric and clinimetric properties of the questionnaire).23 Since a Mexican Spanish version that met all the adaptation requirements suggested (i.e., steps 1–6) was available, a cross-cultural adaptation was put together, including steps 7 and 8 only.

Population

The participants were adults aged 18 and over, who had lived for more than 6 consecutive months in the following cities: Cali, Cucuta, Medellin, Barranquilla, Bucaramanga, and Bogotá.

Convenience sampling was used, and the sample size was estimated pursuant to the recommendations by Terwee et al. for this type of design.24

COPCORD methodology

The following steps were completed: (1) the surveyors and the coordination staff were trained and homogenized; (2) the study population was invited to participate and the informed consent of the participants from each community was signed; (3) 2 pilot tests were conducted, one for adaptation of the questionnaires in 10 subjects and the second one for validation and evolution of the field strategy in 300 subjects: (4) individuals over 18 years old who had lived in the same address for at least 12 months at the time of the interview were selected; (5) the CCQ-COPCORD, functional capacity (Health Assessment Questionnaire Disability Index), biomechanical stress, and socio-economic status questionnaires were home administered (if the person was not at home, the interviewer paid at least 3 visits, at different times and days of the week, including holidays, to obtain the information); (6) the surveys were crossed-reviewed among the surveyors on the same day they were administered and were subsequently checked by the coordinators; (7) The COPCORD positive patients underwent a clinical checkup by a resident physician of a postgraduate program in rheumatology (the definition of positive was applied to those cases in which MSD pain of more than 1 was reported, in a visual analogue scale from 0 to 10, during the past 7 days, or pain at any point in their life, including trauma-associated pain); 8) any subjects with suspicion of rheumatic disease were assessed in the community by a certified rheumatologist to confirm the diagnosis and subsequent follow-up. The diagnosis was done using the International Classification of Diseases, and the criteria of the American College of Rheumatology for rheumatic diseases. The time elapsed between the interview and the medical evaluation was maximum 7 days. Radiographs and laboratory tests were ordered as needed.

MeasurementsScreening questionnaire for rheumatic diseases CCQ-COPCORD

In this study the Mexican version 2 was used for the cross-cultural adaptation.19

The CCQ-COPCORD questionnaire validated in Mexico, version 2, comprises the following sections: explanation, demographic information, self-reported comorbidities, pain in the past 7 days, pain at any point in time in their life, location on the dummy, pain intensity measured on a visual analogue scale from 0 to 10, duration, pain behavior patterns, type of care sought (biomedical, surgical, traditional), functional limitation due to pain, pain adaptation and functional capacity measured by the Bruce and Fries's Health Assessment Questionnaire.25

This questionnaire identifies individuals with rheumatic symptoms through an interview with trained surveyors. The average time for administering the survey is 8min. It includes questions associated with symptoms (pain and stiffness, disability, treatment, and adaptation to the problem). This instrument includes a section on behavior to search help and a list of non-conventional medications (Annex 1).

Functional capacity and biomechanical stress

The functional capacity was measured using the Health Assessment Questionnaire. The biomechanical stress was considered an important variable due to its association with MSDs and rheumatic diseases; such questionnaire was developed to enquire on the biomechanical load in activities of daily life.

Socio-economic status

This questionnaire, structured with a view to typify the population participating in an epidemiological study, comprises the following items: age, gender, self-qualified ethnicity, marital status, occupation, education, healthcare service used, and other items (Annex 1).

The process of cross-cultural adaptation was conducted as follows:

Phase 1Review of the process and questionnaires by a multidisciplinary committee (rheumatologists, epidemiologists, immunologists, internists, experts in methodology). Discussions were held with the committee in full until a preliminary version of the questionnaire in Colombian Spanish was completed, checking for semantics, language, conceptual and cultural equivalence.

Phase 2Test of version 1. A new pre-pilot test was conducted with the version agreed in phase 1. Colombian individuals over 18 years old, with or without osteomuscular symptoms were included. Consecutive convenience sampling was used to obtain the desired sample size, from 7 randomly selected households in the Kennedy and Usaquen neighborhoods. An assessment was made to make sure that the language was clear, the drafting was appropriate, and that the questions were comprehensible, in addition to the rating scale for the questions in the questionnaire. A sample of 10 participants was selected, 6 healthy and 4 with osteomuscular symptoms, whose mother tongue was Colombian Spanish. An in-depth interview was administered assessing comprehension, understanding item by item, and any items exhibiting difficulties were revised.

Phase 3 – Review of version 2. Any spelling, grammar, and typing errors were revised. The changes recommended by the participants in phase 2 were included.

Phase 4 – Submission to the committee of experts and participating researchers. Discussion groups were held at the experts’ committee; notes were taken during the meetings to make all the changes and adopt the recommendations of the committee to version 2, which was presented and discussed with the whole group of researchers participating in the study, in order to get a final version (version 3) approved for validation.

Phase 5 – Validation of Final Version (version 3). Administration of questionnaires to individuals in each city, use of convenience sampling; the sample size was based on Terwee et al.24 The final adapted version 3 was used. The positive subjects (pain, stiffness and swelling in any part of the body during the last 7 days or any time in their life) were assessed by the group of family doctors (internists) and rheumatologists, to establish a diagnosis in accordance with the international criteria for rheumatic diseases. The purpose of this phase was to assess all of the psychometric characteristics (construct validity, internal validity, performance as a screening test, and predictive validity) of CCQ-COPCORD questionnaire.

Ethical considerations

The approval of the Ethics Committee of the School of Medicine of Universidad de La Sabana was obtained. Upon a detailed explanation about the study, each participant accepted to be part of the research project and signed the informed consent.

Statistical analysis

An analysis of the variables was completed, reporting central tendency and dispersion measurements in continuous variables, and absolute and relative frequencies in ordinal, nominal, or categorical variables.

Cronbach's alpha was measured, considering a dimension criterion; values below 0.70 are interpreted as multidimensional and above 0.70 are interpreted as unidimensional.26 Correlation matrixes were developed using the Spearman test for the CCQ dimensions.

Construct validity: The MSDs and pain course were contrasted against the clinical assessment by the rheumatologist.

Performance of the screening test: An analysis was carried out comparing the pain course (over the past 7 days, and historical pain) against the clinical assessment and final diagnosis established by the rheumatologist, through an estimate of the sensitivity, specificity, the plausibility, and the areas under the ROC curve and 95% confidence intervals.27

The analysis was conducted with the Stata v 11.0 statistical software for MAC.

Results

Phase 1 – Review of the process and questionnaires by a multidisciplinary committee. A section on demographic data was included, intended to typify the individual in terms of social conditions, family group, housing, ethnicity, and healthcare-social security status (Annex 1. P14–P18, P20, P21, P24). Under the comorbidities section, the item that characterizes cigarette use became a continuous variable because the actual data was required for subsequent analysis.

Phases 2 and 3 – 10 individuals participated, 6 females and 4 males. The mean age was 54.7±20.3 years. The group proposed the following changes in the socio-economic questionnaire: classify the questions intended to identify the healthcare company to which each individual was affiliated, as well as the average monthly income, because of the potential reservations about such information, and the discontent of some people when analyzing the instrument. The Health Assessment Questionnaire, with regards to the items associated with the use of mobility aids, specifying the type of aid that could be used by individuals, with a view to collect accurate information. In terms of items P11 and P11a, that address the identification of the caregiver for everyday activities, in contrast to the original document, the decision was adopted to include one item specifying the daily activities in which the caregiver is involved, with a view to indirectly know the level of disability of the individual.

Phase 4 – The multidisciplinary committee, taking all the recommendations from the previous phases into account, agreed to organize the instrument into 4 sections: (1) Sociodemographic characteristics; (2) Diagnostic assessment and severity of the osteomuscular disease; (3) economic status; and (4) insurance of the individual. Therefore, the items that characterized the socioeconomic status were modified to assess the level of income and the drafting of the item on limitation to labor access because the individual's physical condition changed, and was included in the section on diagnostic assessment and severity of the osteomuscular disease (Annex 1).

Phase 5 – 309 subjects were surveyed (29.45% from Bogotá, 20.30% from Cali, 22.0% from Barranquilla, 15.21% from Medellin, and 6.47% from Bucaramanga, and Cucuta); 67.31% were females. The rest of the sociodemographic characteristics are described in Table 1.

Table 1.

Sociodemographic description.

Variable  Total, N=309 
Age (years), median ± SD  46.4±18.4 
Gender (female), n (%)  208 (67.31) 
Marital status, n (%)
Single  82 (26.54) 
Married  90 (29.13) 
Co-habitation  78 (25.24) 
Widow  30 (9.71) 
Separated  20 (6.47) 
Self-reported ethnicity, n (%)
White  127 (41.1) 
Mestizo  119 (38.51) 
Black/mulatto/afro  38 (12.3) 
Indigenous  15 (4.85) 
Others  3 (0.97) 
Education, n (%)a
Basic elementary (1–5 years)  62(20.0) 
Basic high school (6–9 years)  39(12.62) 
Middle (10–11 years)  77(24.92) 
Technician  34 (11.0) 
Technologist  17 (5.50) 
University degree  30 (9.71) 
Postgraduate/masters  11 (3.1) 
Occupation, n (%)b
Housewife  96 (31.0) 
Independent worker  60 (19.42) 
Blue collar worker or company employee  47 (15.21) 
Retired  29 (9.39) 
None  19 (6.15) 
Others  16 (5.17) 
Place of residence, n (%)
Bogota  91 (29.45) 
Barranquilla  68 (22.0) 
Cali  63 (20.39) 
Medellin  47 (15.21) 
Bucaramanga  20 (6.47) 
Cucuta  20 (6.47) 
Household income ($), n (%)
Up to 434.000  35 (11.33) 
434.001–870.000  102 (33.01) 
870.001–1.300.000  60 (19.42) 
1.300.001–1.740.000  21 (6.80) 
1.740.001–2.000.00  23 (7.44) 
2.000.001–2.500.000  12 (3.88) 
More than 2.500.001  26 (8.41) 
No answer  30 (9.71) 
Socio-economic level
25 (8.09) 
94 (30.42) 
146 (47.25) 
26 (8.41) 
5 (1.62) 
10 (3.24) 

SD: standard deviation.

a

Seven patients (2.27%) failed to answer this question.

b

Twenty patients (6.47%) failed to answer this question.

Table 2 illustrates the results of the pain domain in the CCQ questionnaire; 135 expressed having non-specific MSDs pain in the last 7 days and 213 (68.9%) expressed pain at some point in their lives or historical pain.

Table 2.

Pain description, functional capacity, physical limitation.

Variable  Total, N=309 
MSD pain 7 days, n (%)  135 (43.69) 
MSD pain 7 days associated to trauma, n/N (%)  19/135 (14) 
MSD pain non-associated to trauma (COPCORP+), n/N (%)  103/135 (76.3) 
MSD pain intensity 7 days (VAS 0–10), median±SD)  6.56±2.3 
Historical pain, n (%)  213 (68.9) 
MSD historical pain associated to trauma, n/N (%)  51/213 (23.9) 
MSD historical pain non-associated with trauma, n(%)  141/213 (66.2) 
MSD pain intensity 7 days (VAS 1–10), median±SD  6.53±2.4 
Adaptation to pain, n(%)a
Very good  33 (24.8) 
Good  68 (51.1) 
Poor  21 (15.8) 
None  1 (0.7) 
Current physical limitation, n(%)  39 (18.3) 

SD: Standard deviation; VAS: Visual analogue scale; MSD; musculoskeletal.

a Ten patients (7.52%) failed to answer this question.

In 127 (41%) (12 refused medical check-up) a rheumatologic diagnosis was established in the community. The most common were osteoarthritis, regional pain syndrome, and lower back pain (Table 3).

Table 3.

Major diagnoses identified in the assessment by rheumatologists.

Disease  n (%; 95% CI) 
Osteoarthritis  29 (9.3; 6.3–13.2) 
Appendicular Regional pain syndrome  17 (5.5; 3.2–8.6) 
Low back pain  16 (5.1; 2.9–8.2) 
Mechanical low back pain  11 (3.5; 1.7–6.2) 
Chronic inflammatory low back pain  5 (1.6; 0.5–3.7) 
Fibromyalgia  7 (2.2; 0.9–4.6) 
Osteoporosis  5 (1.6; 0.5–3.7) 
Rheumatoid arthritis  3 (0.9; 0.2–2.8) 
Undifferentiated spondyloarthritis  2 (0.6; 0.07–2.3) 
Unspecific for MSD  27 (8.7; 5.8–12.4) 

95% CI: 95% confidence interval; MSD: muscoloskeletal disorders.

Twelve (9.0%) subjects who were positive for the Community Oriented Program for Control of Rheumatic Diseases Core Questionnaire, refused to undergo the medical examination.

Validity analysis

When conducting an internal validity analysis based on the measurements of the COPCORD questionnaire, Cronbach's Alpha was found to range from 0.89 for biomechanical load, to 0.51 for socioeconomic status (Table 4).

Table 4.

Internal consistency with the COPCORD questionnaire.

COPCORD dimensions  Cronbach's alpha  Items, n 
MSD pain trajectory 3  0.61 
Biomechanical load b  0.89 
Socioeconomic status c  0.51 
Functional capacity HAQ-DI d  0.76  21 

COPCORD: Community Oriented Program for Control of Rheumatic Diseases; HAQ-DI: Health Assessment Questionnaire Disability Index; MSD: muscoskeletal disorders

Performance of the COPCORD screening test analysis

When analyzing the performance of the COPCORD questionnaire using the 2 questions enquiring about pain in the past 7 days and historical pain (pain in the last 7 days as proxy for chronic pain) versus the diagnosis established by the rheumatologist, the resulting sensitivity was 70.8%, the specificity was 35%, a positive verosimilarity ratio of 1.0, and an area under the curve of 0.53. The results per rheumatic disease diagnosed varied from a sensitivity of 46.6 to 100%, and a specificity of 35 to 58.8% (Table 5).

Table 5.

Performance of the COPCORD questionnaire as a screening test for the detection of rheumatic diseases.

  Sensitivity  Specificity  RV  AUC (95% CI) 
Any rheumatic disease (COPCORD+pain 7 days)  70.83  35.0  1.09  0.53 (0.44–0.60) 
Osteoarthritis  65.52  58.87  1.59  0.62 (0.52–0.71) 
Low back pain  46.67  56.76  1.07  0.51 (0.38–0.65) 
ARPS  87.5  58.98  2.1  0.73 (0.64–0.82) 
RA  100  57.10  2.33  0.78 (0.75–0.81) 
Fibromyalgia  83.33  57.38  1.95  0.70 (0.53–0.86) 
Spondyloarthritis  100  56.96  2.32  0.78 (0.75–0.81) 

AUC: area under the curve; RA: Rheumatoid arthritis; COPCORD: Community Oriented Program for Control of Rheumatic Diseases; CI: Confidence Interval; VR: Verosimilarity Ratio; ARPS: Appendicular Regional Pain Syndrome

Discussion

The COPCORD methodology and the modified CCQ-COPCORD questionnaire performed well as a screening test for muscoskeletal disorders and rheumatic diseases in the Colombian cities evaluated. 5 cross-cultural validations have been reported in developing countries using different validation methods.

The results obtained from the first cross-cultural validation of the methodology and the COPCORD instrument in Latin American mestizo populations from Mexico, Brazil and Chile, report a generic sensitivity and specificity of the instrument of only 84% and 80.2%, respectively.17

In Kuwait, the sensitivity and specificity reported are 94.3% and 98.8%, respectively,28 which is higher than the results from our study. This may be due to differences in the definition of positive COPCORD. The first 2 studies considered positive the non-trauma associated musculoskeletal pain over the past 7 days and a pain intensity of more than 4 points in the pain visual analogue scale. In this study, a positive COPCORD was not limited to the association to trauma, or the pain intensity. When comparing our results against those of other validations conducted in Latin America, the sensitivity to detect any rheumatic disease is higher (70.83%) than the one reported in Ecuador (62.0%) and Mexico (51.7%),19 but similar to those of the Latin American indigenous communities (73.8%). In terms of specificity, it is lower than the one reported in other studies.18

The performance of the CCQ-COPCORD questionnaire, as a screening tool for each of the most common rheumatic diseases (osteoarthritis, low back pain, regional syndromes spondyloarthritis), ranges from fair to very good in terms of sensitivity and specificity. The performance was superior to detect rheumatoid arthritis, spondyloarthritis, regional syndromes and fibromyalgia, which is consistent with the reports of the study conducted in Ecuador, with Latin American indigenous peoples (Table 6).

Table 6.

Comparison of the performance of the COPCORD questionnaire as a screening test for the detection of rheumatic diseases in various studies in Latin America.

  ColombiaEcuadorMexicoIndigenous Communities LATAM
Variable  Sen  Spec  VR+  AUC  Sen  Spec  VR+  AUC  Sen  Spec  VR+  AUC  Sen  Spec  VR+  AUC 
Rheumatic diseaseaOALow back painARPSRASpA  70.8365.5246.6787.5100100  35.058.8756.7658.9857.1056.96  1.091.591.072.12.332.32  0.53(0.44–0.60)0.62(0.52–0.71)0.51(0.38–0.65)0.73(0.64–0.82)0.78(0.75–0.81)  62.0785.4578.95100100  83.5352.7444.5142.9343.59  3.761.801.421.751.77  0.72 (0.66–0.78)0.69 (0.62–0.75)0.61 (0.51–0.71)0.71 (0.68–0.74)0.71 (0.68–0.75)  51.751.8–53.548.5  80.178.0–76.475.5  2.62.3–2.21.9  0.650.64(0.64–0.65)–0.65(0.64–0.65)0.62(0.61–0.62)  73.8580.6560.7172.7390.91100  72.9866.1761.7661.0360.7860.14  2.732.381.581.862.312.50  0.73(0.69–0.77)0.73 (0.68–0.77)0.61(0.54–0.67)0.66(0.57–0.76)0.75(0.66–0.84)0.80(0.78–0.81) 

AUC: area under the curve; RA: rheumatoid arthritis; COPCORD: Community Oriented Program for Control of Rheumatic Diseases; Spec: Specificity; OA: osteoarthritis; VR+: positive verosimilarity ratio; ARPS: appendicular regional pain syndrome; Sen: Sensitivity; SpA: Spondyloarthritis.

a

Rheumatic disease, excluding unspecific musculoskeletal disorders, trauma, and non-rheumatic disease associated.

The results of the measurements and internal validity with Cronbach's alpha, were interpreted pursuant to Sijtsma's proposal,26 classifying the very low scores as separate multidimensional sets, and the very high scores as unidimensional sets of the questionnaire; such is the case of the socioeconomic status (0.51) and the biomechanical load (0.98); the internal validity was moderate for pain trajectory (0.61) and functional capacity (0.76). The total validity was 0.70. A possible explanation for the low results is that the data for the item socioeconomic status are multidimensional. The general validity of our study is lower than the validity of the Kuwaiti population with 0.97.28 Only the studies from Ecuador9 and in indigenous peoples, report the internal validity based on dimensions; although these vary, there is consistency in terms of pain trajectory, which in our study was reported at 0.66; this number is below the number reported for indigenous peoples (0.77)18 but higher than the figures reported in the Ecuadorian study (0.17).9

It should be highlighted that this version included biomechanical load, a measurement never reported before, which resulted in a very strong internal validity. Therefore, the recommendation is to include the biomechanical load measurement in future versions of the COPCORD questionnaire.

Whilst the objective of this study was not to estimate the prevalence of musculoskeletal disorders and rheumatic diseases, it can be seen that the frequency of MSD and rheumatic diseases is similar to what has been reported in other validation studies.18,19,21

Limitations

Sensitivity to change was not assessed as part of the validation, since the COPCORD questionnaire is for screening purposes and not to make comparisons through any intervention.

No test-retest reliability was conducted because of the limitation of a second assessment in less than 7 days, the ability to access the populations, and the limitation of human and economic resources.

Conclusions

Questionnaire CCQ-COPCORD is valid for use in the Colombian population as a screening test for musculoskeletal disorders and rheumatic diseases. Biomechanical load was a measure added to the Colombian version, since it its an important measurement as an associated factor to the prevalence of rheumatic diseases, and in particular regional pain syndromes. The performance of the questionnaire as a screening test is good.

Funding

The authors received non-conditioned economic support from the Colombian Association of Rheumatology (Minutes No. 156 of 2015) that enabled the completion of this project.

Conflict of interests

The authors have no conflict of interests to disclose.

Acknowledgements

  • -

    Universidad de La Sabana.

  • -

    Centro Nacional de Consultoría.

  • -

    EuroQol Research Foundation.

  • -

    Grupo de Estudio Epidemiológico de las enfermedades.

  • -

    Músculo-Articulares (GEEMA)-Colegio Mexicano de Reumatología.

Appendix A
Supplementary data

The following are the supplementary data to this article:

References
[1]
WHO Scientific Group on the Burden of Musculoskeletal Conditions at the Start of the New Millennium.
The burden of musculoskeletal conditions at the start of the new millennium.
World Health Organ Tech Rep Ser, 919 (2003), pp. i-x
[2]
B. Pfleger.
Burden and control of musculoskeletal conditions in developing countries: a joint WHO/ILAR/BJD meeting report.
Clin Rheumatol, 26 (2007), pp. 1217-1227
[3]
F. Guillemin, E. Carruthers, L.C. Li.
Determinants of MSK health and disability-social determinants of inequities in MSK health.
Best Pract Res Clin Rheumatol, 28 (2014), pp. 411-433
[4]
A. Chopra, A. Abdel-Nasser.
Epidemiology of rheumatic musculoskeletal disorders in the developing world.
Best Pract Res Clin Rheumatol, 22 (2008), pp. 583-604
[5]
K.D. Muirden.
Community oriented program for the control of rheumatic diseases: studies of rheumatic diseases in the developing world.
Curr Opin Rheumatol, 17 (2005), pp. 153-156
[6]
A. Chopra.
The WHO ILAR COPCORD Latin America: consistent with the world and setting a new perspective.
J Clin Rheumatol, 18 (2012), pp. 167-169
[7]
I. Peláez-Ballestas, B.A. Pons-Estel, R. Burgos-Vargas.
Epidemiology of rheumatic diseases in indigenous populations in Latin-Americans.
Clin Rheumatol, 35 (2016), pp. 1-3
[8]
M.H. Cardiel, R. Burgos-Vargas.
Towards elucidation of the epidemiology of the rheumatic diseases in Mexico. COPCORD studies in the community.
J Rheumatol Suppl, 86 (2011), pp. 1-2
[9]
S. Guevara-Pacheco, A. Feican-Alvarado, L.H. Sanin, J. Vintimilla-Ugalde, F. Vintimilla-Moscoso, J. Delgado-Pauta, et al.
Prevalence of musculoskeletal disorders and rheumatic diseases in Cuenca, Ecuador: a WHO-ILAR COPCORD study.
Rheumatol Int, 36 (2016), pp. 1195-1204
[10]
Y. Granados, L. Cedeno, C. Rosillo, S. Berbin, M. Azocar, M.E. Molina, et al.
Prevalence of musculoskeletal disorders and rheumatic diseases in an urban community in Monagas State, Venezuela: a COPCORD study.
Clin Rheumatol, 34 (2015), pp. 871-877
[11]
D. Del Río Nájera, S.A. González-Chávez, C.M. Quiñonez-Flores, I. Peláez-Ballestas, N. Hernández-Nájera, C.F. Pacheco-Tena.
Rheumatic diseases in Chihuahua, Mexico: a COPCORD survey.
J Clin Rheumatol, 22 (2016), pp. 188-193
[12]
A. Chopra, M. Saluja, J. Patil, H.S. Tandale.
Pain and disability, perceptions and beliefs of a rural Indian population: a WHO-ILAR COPCORD study. WHO-International League of Associations for Rheumatology. Community Oriented Program for Control of Rheumatic Diseases.
J Rheumatol, 29 (2002), pp. 614-621
[13]
G.A. Reyes-Llerena, M. Guibert-Toledano, A. Penedo-Coello, A. Pérez-Rodríguez, R.M. Báez-Dueñas, R. Charnicharo-Vidal, et al.
Community-based study to estimate prevalence and burden of illness of rheumatic diseases in Cuba: a COPCORD study.
J Clin Rheumatol, 15 (2009), pp. 51-55
[14]
M.H. Cardiel, J. Rojas-Serrano.
Community based study to estimate prevalence, burden of illness and help seeking behavior in rheumatic diseases in Mexico City. A COPCORD study.
Clin Exp Rheumatol, 20 (2002), pp. 617-624
[15]
I. Peláez-Ballestas, L.H. Sanin, J. Moreno-Montoya, J. Álvarez-Nemegyei, R. Burgos-Vargas, M. Garza-Elizondo, et al.
Epidemiology of the rheumatic diseases in Mexico. A study of 5 regions based on the COPCORD methodology.
J Rheumatol Suppl, 86 (2011), pp. 3-8
[16]
E.R. Senna, A.L. de Barros, E.O. Silva, I.F. Costa, L.V. Pereira, R.M. Ciconelli, et al.
Prevalence of rheumatic diseases in Brazil: a study using the COPCORD approach.
J Rheumatol, 31 (2004), pp. 594-597
[17]
K. Bennett, M. Cardiel, M. Ferraz, P. Riedemann, C. Goldsmith, P. Tugwell.
Community screening for rheumatic disorder: cross cultural adaptation and screening characteristics of the COPCORD Core Questionnaire in Brazil, Chile, and Mexico. The PANLAR-COPCORD Working Group. Pan American League of Associations for Rheumatology. Community Oriented Programme for the Control of Rheumatic Disease.
J Rheumatol, 24 (1997), pp. 160-168
[18]
I. Peláez-Ballestas, Y. Granados, A. Silvestre, J. Álvarez-Nemegyei, E. Valls, R. Quintana, et al.
Culture-sensitive adaptation and validation of the community-oriented program for the control of rheumatic diseases methodology for rheumatic disease in Latin American indigenous populations.
Rheumatol Int, 34 (2014), pp. 1299-1309
[19]
M.V. Goycochea-Robles, L.H. Sanin, J. Moreno-Montoya, J. Álvarez-Nemegyei, R. Burgos-Vargas, M. Garza-Elizondo, et al.
Validity of the COPCORD core questionnaire as a classification tool for rheumatic diseases.
J Rheumatol Suppl, 86 (2011), pp. 31-35
[20]
J. Moreno-Montoya, J. Ávarez-Nemegyei, B. Trejo-Valdivia, I. Peláez-Ballestas.
Assessment of the dimensions, construct validity, and utility for rheumatoid arthritis screening of the COPCORD instrument.
Clin Rheumatol, 33 (2014), pp. 631-636
[21]
D.E. Beaton, C. Bombardier, F. Guillemin, M.B. Ferraz.
Guidelines for the process of cross-cultural adaptation of self-report measures.
Spine (Phila Pa 1976), 25 (2000), pp. 3186-3191
[22]
C. Acquadro, K. Conway, A. Hareendran, N. Aaronson.
Literature review of methods to translate health-related quality of life questionnaires for use in multinational clinical trials.
Value Health, 11 (2008), pp. 509-521
[23]
M.E. Reichenheim, C.L. Moraes.
Operationalizing the cross-cultural adaptation of epidemiological measurement instruments [Portuguese].
Rev Saude Publica, 41 (2007), pp. 665-673
[24]
C.B. Terwee, S.D. Bot, M.R. de Boer, D.A. van der Windt, D.L. Knol, J. Dekker, et al.
Quality criteria were proposed for measurement properties of health status questionnaires.
J Clin Epidemiol, 60 (2007), pp. 34-42
[25]
B. Bruce, J.F. Fries.
The Stanford health assessment questionnaire: dimensions and practical applications.
Health Qual Life Outcomes, 1 (2003), pp. 20
[26]
K. Sijtsma.
On the use, the misuse, and the very limited usefulness of Cronbach's alpha.
Psychometrika, 74 (2009), pp. 107-120
[27]
V. Bewick, L. Cheek, J. Ball.
Statistics review 13: receiver operating characteristic curves.
Crit Care, 8 (2004), pp. 508-512
[28]
A. Al-Awadhi, S. Olusi, M. Moussa, N. Al-Zaid, D. Shehab, A. Al-Herz, et al.
Validation of the Arabic version of the WHO-ILAR COPCORD Core Questionnaire for community screening of rheumatic diseases in Kuwaitis. World Health Organization. International League Against Rheumatism. Community Oriented Program for the Control of Rheumatic Diseases.
J Rheumatol, 29 (2002), pp. 1754-1759

Please cite this article as: Peláez Ballestas I, Santos AM, Angarita I, Rueda JC, Ballesteros JG, Giraldo R, et al. Adecuación y validación transcultural del cuestionario COPCORD: Programa Orientado a la Comunidad para el Control de las Enfermedades Reumáticas en Colombia. Rev Colomb Reumatol. 2019;26:88–96.

Copyright © 2019. Asociación Colombiana de Reumatología
Descargar PDF
Opciones de artículo