Introduction
Musculoskeletal discomfort (MSD) and rheumatic diseases are a group of conditions that can generate marked morbidity and mortality, impact quality of life, and high treatment costs.1 Faced with this problem, the World Health Organization (WHO) and the International League of Rheumatology Associations (ILAR) developed the Community Oriented Pro-gram for the Control of Rheumatic Diseases (COPCORD), to identify, prevent, and control rheumatic diseases in developing countries.2
The COPCORD is a simple and reliable methodology that seeks to obtain standardized epidemiological records of rheumatic diseases, following three stages: (1) application of a community survey to detect patients with suspected MSD (positive COPCORD) to be evaluated by doctors, as well as to diagnose rheumatic diseases; (2) creation of educational strategies and dissemination of treatment of the most prevalent diseases; and (3) generation of control and prevention strategies focused on the identified risk factors. In the case of Colombia, using this methodology, a prevalence of MSD between 48% and 73%3 has been established.
In recent years, great interest has arisen in knowing the impact of rheumatic diseases in indigenous populations, derived from previous genetic and epidemiological studies, where it has been documented that some of these diseases, such as rheumatoid arthritis (RA), are present with greater prevalence or severity in these populations.4,5 The Latin American Group for the Study of Rheumatic Diseases in Indigenous Peoples (Gladerpo) has reported interesting epidemiological data using the COPCORD strategy in indigenous groups in Mexico, Venezuela, Argentina, and Ecuador.6-11 In Colombia, there are no specific epidemiological studies on rheumatic diseases in the indigenous population. According to the 2018 Colombian national census, this population grew by 36.8%, constituting 4.4% of the country's total, with Cauca as the second department that houses the largest number of individuals belonging to it.12 The Misak community is represented by approximately 22,000 people, of which 65% say they speak the local language nam trik wam fluently,13 an endangered language that needs to be strengthened, as proposed by the Native Languages Law (Law 1381 of 2010).14
Under this reality, a process of adaptation of instruments such as the COPCORD to the sociocultural context is required, since the perception of health/illness can vary due to the incidence of cultural patterns, beliefs, preferences in medical care, or difficulty accessing the different levels of medical care2; In addition, it is necessary to expand the epidemiological information on rheumatic diseases in the countrys indigenous population. The present study aims to adapt and validate, with cultural sensitivity, the COPCORD instrument in the Misak population, as a first step to carryingout epidemiological studies of rheumatic diseases in this population.
Materials and methods
Design
A cross-cultural adaptation and validation to nam trik wam of the methodology and the COPCORD screening questionnaire (Spanish version), to identify MSD and rheumatic diseases, used in the Mayan-Yucatecan indigenous people of Mexico was conducted.6 Sections of the COPCORD Colombia questionnaire were also considered to complement instrument.15 The process was held between August 1-30, 2019.
Population
The Misak people live mainly in the department of Cauca, Colombia, in reservations located in the municipalities of Silvia, Jambaló, Totoró, Caldono, and Toribío; the areas with the highest population density are the reservations of Guambia and Quisgó in the municipality of Silvia.16 The Guambia region, in which around 16,000 people live, is characterized by being rainy and cold, with an altitude between 2,500 and 3,500m asl, with an average temperature of 12°C.17,18
This study included subjects older than 18 years belonging to the Misak community, residents of the Guambia reservation, who voluntarily accepted the application of the COPCORD questionnaire. The reservation is divided into nine zones and these, in turn, are divided into trails. Participants from 11 villages (Las Delicias, Bujíos, San Fernando, Agua Blanca, Tapias, Guambia Nueva, Santiago, Puente Arriba, Sierra Morena, Pueblito, and Treyo) of the Guambia Nueva area were selected for convenience. In this place, the Mamá Dominga Hospital (a first-level care center for western medicine) and Casa de Plantas Sierra Morena, a care center for traditional medicine were located (Fig. 1).
The sample size was calculated at convenience; it was considered that it should include at least 100 observations, as suggested by Terwee et al. for the validation of questionnaires on the state of health.19
COPCORD questionnaire
This questionnaire has several sections, which include: an explanation of the study and informed consent, demographic information, recent pain (last seven days), historical pain (sometime in your life), anatomical location of pain on a figure of the human body, pain severity (assessed using the categories intense, strong, moderate, little or mild, no pain), pain duration, care-seeking, previous diagnosis, treatment received, functional limitation, functional capacity measured by the Health Assessment Questionnaire (HAQ -DI), history of comorbidities, economic situation and, finally, a section on the assessment of the questionnaire and suggestions.
In this study, the definition of positive COPCORD was the presence of new (within the last 7 days) or historical (at any time in life) musculoskeletal pain, stiffness, or swelling, unrelated to self-reported trauma.
Cross-cultural adaptation
The COPCORD questionnaire (Mexican-Spanish version), used with the Yucatec Mayan people,6 was adapted to Colombian Spanish and the cultural context of the Misak people, constructing the first version and generated for translation. A few modifications were made, including changing the order of the sections and including additional variables-for example, whether you can read and write Wam, considering that it is a predominantly oral language. In the painsection, a Likert-type scale was maintained for pain grading; in the treatment section, it was added if they attended the traditional, alternative, or western doctor; and in the section biomechanical load the weight load was adjusted in arrobas, since this term is more understandable for the study population, and weaving or spinning was added to daily activities through which manual functionality was assessed. In the section on comorbidities and exposures, exposure to wood smoke was also asked. The human diagram of COPCORD Colombia was used; the section on demographic data and econometrics was taken from it, without asking directly about net income, since it is a sensitive question for the community; the latter was changed to multiple questions related to material possessions and services.
Once the version in Colombian Spanish was built, the seven-step process was undertaken to achieve the final version, adapting Beaton's proposals20; these steps include: (1) translation; (2) synthesis of the translation; (3) back translation; (4) review by an expert committee; (5) evaluation of the prefinal version; (6) review of the document by researchers and people from the community; and (7) establishment of a final version of the questionnaire. In a transversal way, adaptations were also performed to the Spanish version, according to the target population, culture, language, and country, following community recommendations.
Step 1. Translation of the questionnaire: three bilingual volunteer translators belonging to the community were selected, who independently carried out a written and oral translation from Spanish into nam trik wam of the COPCORD document in Mexican Spanish, used in the Mayan-Yucatecan community.6
Step 2. Synthesis of the translation: a meeting was held between the three translators and the representatives of the research group, in which the three translations were analyzed, doubts were resolved, and the first version of the COPCORD misak questionnaire was established by consensus techniques. This version was applied to five monolingual people from the community to verify their comprehension.
Step 3. Back translation: two bilingual translators, belonging to the Misak community (different from the translators in step 1), independently performed a back translation of version 1 of the COPCORD Misak questionnaire from the nam trik wam language into Spanish.
Step 4. Committee review process: discussion sessions were held between representatives of the research group, the translators of steps 1 and 3, a linguist from the community, and an anthropologist, to obtain version 3 of the questionnaire, verifying a culturally semantic appropriate language, conceptual, and cultural equivalence.
Step 5. Evaluation of the pre-final version: 20 monolingual wam people were surveyed with version 3 of the questionnaire, to check that during the process of completing the instrument, accessibility, and respect for the traditions and customs of the misak.
Step 6. Presentation of the committee of experts and participating researchers: a meeting was held with the translators, the community linguist, the anthropologist, and the research group, in which the comments, suggestions, and recommendations were taken into account to establish a final version of the document.
Step 7. Validation of the final version: the purpose of this phase of the project was to assess the performance of the COPCORD misak questionnaire. For this, the final version of the questionnaire was applied to a sample of 100 individuals selected for convenience within the indigenous community.
For the application of the final questionnaire, three filters were established: filter 1, constituted by interviewers trained to fill out the COPCORD misak questionnaire; filter 2, made up of an internal medicine specialist (or internal medicine fellow) trained in the detection of rheumatic diseases and a physio-therapist; and filter 3, a rheumatologist. The interviews and medical evaluations were carried out house by house, with individuals over 18 years of age who voluntarily decided to participate.
Positive COPCORD patients identified through the instrument applied by filter 1 were immediately evaluated by filter 2, to establish a presumptive diagnosis of musculoskeletal disease, rule it out, and redirect attention to other diseases causing the symptoms. Patients suspected of musculoskeletal disease were immediately evaluated by filter 3, to generate a definitive diagnosis using the internationally established diagnostic criteria for rheumatic diseases.
Ethical aspects
The present research respected the principles of bioethics: respect for people, beneficence, and justice ensured the voluntary participation of individuals, which was done using informed consent, in which the benefits and risks of the research, the commitments of the researchers, and the right to withdraw from their participation were explained. The Resolution 8430 of 1993 of the Colombian Ministry of Health was considered. This project is registered in the Vice-Rectory for Research of the Universidad del Cauca (ID 5083 - Resolution 0329 of March 2019) and was endorsed by the ethics committee in a session in April 2019. The endorsement and disclosure of the results by the Indigenous Council of the Guambia Reserve, using a format of ethic aspects for research in communities/ethnic groups, communicated to the Office of the Vice-Rector for Investigations of the Universidad del Cauca using an official letter dated November 14, 2018, in which the commitment of the community to particípate in the research project is also exhibited.
Statistical analysis
The analysis included descriptive statistics for all study variables, which are reported as measures of central tendency and dispersion, and proportions for dichotomous or ordinal variables. Cronbach's alpha coefficient was used to measure internal consistency and dimensionality; the lowest values were interpreted as multidimensional and those above 0.70 as unidimensional.21 Correlation matrices were prepared for the dimensions of the questionnaire.
Construct validity: MSD and medical treatment were compared with the clinical assessment of the rheumatologist.
Performance as a screening test: Pain symptoms (in the last seven days and historical pain) were compared with the clinical assessment and final diagnosis provided by a rheumatologist by assessing sensitivity, specificity, likelihood ratio, areas under the curve (AUC), and their 95% confidence inter-vals (CI).17 Analysis was performed using Stata v.12.0 (Stata Corp, College Station, TX, USA).
Results
The instrument was applied to 106 people belonging to the Guambia reservation. Among the sociodemographic characteristics, an average age of 45.5 years stands out and most of the population is female (58.5%). Hence, 63% of those surveyed spoke and wrote the nam trik wam language (Table 1).
Variable | Total, n = 106 (%) |
---|---|
Gender, n (%) | |
Male | 44 (41.51) |
Female | 62 (58.49) |
Age, mean (SD; range) | 45.47 (16.72;16-80) |
Educational level | |
Did not study | 24 (23.53) |
Elementary | 43 (42.16) |
High-school | 25 (24.51) |
Technician or technologist | 3 (2.94) |
University | 4 (3.92) |
Specialization, Masters or PhD | 3 (2.94) |
Speak and write wam yes, (n = 101) n% | 63 (62.38) |
Speak and write Spanish yes, (n = 96) n% | 77 (80.21) |
Village (n = 104) n% | |
Treyo | 11 (10.58) |
Guambia Nueva | 24 (23.08) |
Santiago | 7 (6.73) |
Tapias | 13 (12.50) |
Agua Blanca | 1 (0.96) |
Puente Arriba | 13 (12.50) |
Delicias | 14 (13.46) |
Sierra Morena | 2 (1.92) |
Pueblito | 4 (3.85) |
San Fernando | 11 (10.58) |
Bujios | 4 (3.85) |
Marital status | |
Single | 21 (20.39) |
Married | 42 (40.78) |
Widower | 34 (33.01) |
Free union | 6 (5.83) |
Occupation before n (%)/occupation after n (%) | n = 67 |
Household trades | 14 (20.90)/18 (26.87) |
Employee of a company | 3(4.48)/7(10.45) |
Patron or employer | 1 (1.49) |
Student | 9 (13.43)/3 (4.48) |
Farmer | 22 (33.85)/22 (33.85) |
Retired or pensioner | 3 (4.48) |
Independent worker | 13 (19.40)/25 (37.31) |
Walking worker | 2 (2.98)/2 (2.98) |
None | 2 (2.98)/1 (1.49) |
Affiliation to the health system n = 103 (%) | |
Subsidized | 93 (90.29) |
Contributory | 9 (8.74) |
Linked | 1 (0.97) |
Economic goods n = 92 (%) | |
Radius | 77 (83.78) |
Television | 72 (78.26) |
DVDs | 25 (27.17) |
Sewing machine | 8 (8.78) |
Fridge | 6 (6.52) |
Washing machine | 5 (5.43) |
Stove | 41 (44.57) |
Computer | 27 (29.35) |
Heater | 5 (5.43) |
Bicycle | 19 (20.65) |
Motorcycle | 28 (30.43) |
Car | 6 (6.52) |
Truck | 7 (7.61) |
Phone | 6 (6.52) |
Cell phone | 77 (83.70) |
Energy | 84 (91.30) |
Variable | Total, n =106 (%) |
Aqueduct | 84 (91.30) |
Sewage | 14 (15.22) |
Type of dwelling n = 72 (%) | |
Own home | 70 (97.22) |
Housing for rent | 2 (2.78) |
The comorbidities self-reported by the study population were gastritis (dyspepsia) in 25 (23.6%) cases, anxiety in 14 (13.2%), heart disease in 10 (9.4%), chronic arterial hypertension in 7 (6.6%), chronic venous insufficiency in 7 (6.6%), dyslipidemia in 6 (5.7%), cerebrovascular disease in 3 (2.9%), type 2 diabetes mellitus in one (0.9 %) and obesity in one (0.9%).
The manifestation of musculoskeletal pain in the last seven days was present in 51 individuals (48.1%), and at some point in their lives in 47 (44.3%). Of 61 (57.5%) subjects who responded to the question of current functional limitation, only 17 (27.9%) stated that they present it. The opposite occurred with previous functional limitation, in which of 55 (51.9%) people who answered this variable, 23 (40%) stated that they had presented it, highlighting that in 7 (12.7%) patients, the involvement was more than one year. Table 2 reports the data from the HAQ-DI.
Difficulty n = 70 (%) | Without any trouble | With some difficulty | With much difficulty | Can't do it |
---|---|---|---|---|
1. Dressing oneself including tying shoelaces | 58 (82.86) | 7 (10.00) | 4 (5.71) | 1 (1.43) |
2. Getting in and out of bed | 54 (77.14) | 11 (15.71) | 5 (7.14) | |
3. Take to the mouth-difficulty rinsing | 63 (90.00) | 2 (2.86) | 4 (5.71) | 1 (1.43) |
4. Standing up from a chair | 54 (77.14) | 14 (20.00) | 2 (2.86) | |
5. Cut the food | 64 (91.43) | 5 (7.14) | 1 (1.43) | |
6. Grab the cup or a full glass | 63 (90.00) | 6 (8.57) | 1 (1.43) | |
7. Walking on flat ground | 60 (85.71) | 10 (14.29) | ||
8. Open a bottle | 57 (81.43) | 8 (11.43) | 4 (5.71) | 1 (1.43) |
9. Climb steps | 57 (81.43) | 10 (14.29) | 3 (4.28) | |
10. Wash and dry the entire body | 64 (91.43) | 5 (7.14) | 1 (1.43) | |
11. Grab and lower something over 1 kg that is above your head | 59 (84.29) | 6 (8.57) | 4 (5.71) | 1 (1.43) |
12. Leaning over and picking things up off the ground | 53 (75.71) | 10 (14.29) | 5 (7.14) | 2 (2.86) |
13. Grab the car door | 59 (84.29) | 9 (12.86) | 1 (1.43) | 1 (1.43) |
14. Grab a jar | 58 (82.86) | 7 (10.00) | 4 (5.71) | 1 (1.43) |
15. Water faucet | 62 (88.57) | 5 (7.14) | 1 (1.43) | 2 (2.86) |
16. Go shopping | 64 (91.43) | 3 (4.29) | 1 (1.43) | 2 (2.86) |
17. Getting in and out of the car | 63 (90) | 4(5.71) | 1 (1.43) | 2 (2.86) |
18. Housework | 53 (75.71) | 10 (14.29) | 3 (4.29) | 3 (4.29) |
19. Weave or spin | 58 (82.86) | 6 (8.58) | 3 (4.29) | 3 (4.29) |
Regarding pain treatment, 32 (30.2%) respondents stated that they had received some type of management, of which 17 (53.1%) used traditional medicines, 11 (34.4%) consumed homeopathic medicines, and 8 (25%) received allopathic therapy.
After medical evaluation by rheumatology, a diagnosis of rheumatological disease was made in 30 (28.3%) patients, of which 9 (8.5%) had more than one diagnosis, and 9 (8.5%) cases of inflammatory-type disease were found. Table 3 describes the rheumatic diseases detected.
Diagnosis | No. (%) |
---|---|
Knee osteoarthritis | 5 (4.72) |
Hand osteoarthritis | 4 (3.77) |
Osteoarthritis in another jointa | 7 (6.60) |
Rheumatoid arthritis | 2 (1.89) |
Undifferentiated arthritisb | 5 (4.72) |
Arthralgia, unspecifiedc ++ | 8(7.55) |
Sjogren's syndrome | 2 (1.89) |
Apendicular painful regional syndromed | 16 (15.09) |
Rheumatic diseasee | 42 (39.62) |
Inflammatory rheumatic disease | 9 (8.49) |
a Osteoarthritis other than knee or hand. b Arthritis that does not meet the full classification criteria for RA. c Non-inflammatory joint pain. d This includes shoulder tendonitis (4), rotator cuff syndrome (3), epicondylitis (5), wrist tenosynovitis (1), de Quervain's tenosynovitis (1), carpal tunnel syndrome (2). e Rheumatic disease, excluding non-specific musculoskeletal complaints, trauma, and those not associated with rheumatic diseases. |
Validity analysis
When carrying out an analysis of the internal validity by dimensions of the COPCORD questionnaire, it was found that Cronbach's alpha ranges from 0.95 for the components of the HAQ-DI, to 0.58 for the self-reported comorbidities (Table 4).
COPCORD Dimensions | Cronbach's Alpha | Items |
---|---|---|
MSK pain trajectorya | 0.64 | 4 |
Comorbidityb | 0.58 | 10 |
Workc | 0.61 | 18 |
HAQ-DI functional capacityd | 0.95 | 19 |
MSK: musculoskeletal. a Pain trajectory: pain in the last seven days, historical pain, historical pain intensity, current pain intensity. b All comorbidities (type 2 diabetes mellitus, arterial hypertension, heart disease, cardiovascular disease, anxiety, gastritis, obesity, dyslipidemia, venous insufficiency, and cancer). c All questions related to work and activity. d All the questions of the Health Assessment Questionnaire (HAQ-DI) and functional limitation. |
When assessing the correlation between the pain variables and the diagnosis of a rheumatological disease using the Pear-son correlation coefficient, it was found that both pain less than seven days and historical pain had a positive correlation, with an adequate significance of 0.38 (p = 0.001) and 0.35 (p = 0.003), respectively.
COPCORD screening test performance analysis
For the definition of positive COPCORD, the presence of current or historical pain in the absence of any trauma was considered. When carrying out the performance analysis of the COPCORD questionnaire using the two questions that inquire about pain in the last seven days and historical pain, comparing with the diagnosis of rheumatological disease confirmed by the rheumatologist, a sensitivity of 63.3% was obtained, a specificity 80.2%, a positive likelihood ratio (LR+) of 3.2, and an area under the curve of 0.71. The results for each rheumatic disease are described in Table 5, which also shows the comparison with the diagnostic performance of the definition of positive COPCORD used in other validation studies: the presence of pain in the last seven days or historical pain, independently of the presence of associated trauma.
COPCORD 1 | COPCORD 2 | |||||||||||
---|---|---|---|---|---|---|---|---|---|---|---|---|
DX | S% | Sp% | LR+ | LR- | AUC | CI | S% | Sp% | LR+ | LR- | AUC | CI |
Knee osteoarthritis | 100 | 41.58 | 1.71 | 0.00 | 0.70 | 0.65 - 0.75 | 40 | 68.32 | 1.26 | 0.87 | 0.54 | 0.29 - 0.78 |
Rheumatoid arthritis | 100 | 40.38 | 1.67 | 0.00 | 0.70 | 0.65 - 0.74 | 100 | 69.23 | 3.25 | 0.00 | 0.84 | 0.80 - 0.89 |
Sjogren's síndrome | 100 | 40.38 | 1.67 | 0.00 | 0.70 | 0.65 - 0.74 | 100 | 69.23 | 3.25 | 0.00 | 0.84 | 0.80 - 0.89 |
Undifferentiated arthritis | 100 | 41.58 | 1.71 | 0.00 | 0.70 | 0.65 - 0.74 | 80 | 70.30 | 2.69 | 0.28 | 0.75 | 0.55 - 0.95 |
Unspecified arthralgia | 100 | 42.86 | 1.75 | 0.00 | 0.71 | 0.66 - 0.76 | 25 | 67.35 | 0.76 | 1.11 | 0.46 | 0.29 - 0.62 |
Hand osteoarthritis | 100 | 41.18 | 1.70 | 0.00 | 0.70 | 0.65 - 0.74 | 75 | 69.61 | 2.47 | 0.35 | 0.72 | 0.47 - 0.97 |
Osteoarthritis | 100 | 42.42 | 1.73 | 0.00 | 0.71 | 0.66 - 0.76 | 57.14 | 69.70 | 1.88 | 0.61 | 0.63 | 0.43 - 0.83 |
Appendiceal syndromes | 100 | 45.65 | 1.84 | 0.00 | 0.72 | 0.67 - 0.77 | 64.29 | 72.83 | 2.36 | 0.49 | 0.68 | 0.54 - 0.82 |
Rheumatic disease | 100 | 55.26 | 2.23 | 0.00 | 0.77 | 0.72 - 0.83 | 63.33 | 80.26 | 3.20 | 0.45 | 0.71 | 0.61 - 0.81 |
Inflammatory rheumatic disease | 100 | 42.42 | 1.73 | 0.00 | 0.71 | 0.66 - 0.76 | 85.71 | 71.72 | 3.03 | 0.19 | 0.78 | 0.64 - 0.93 |
COPCORD 1, Definition used in similar studies in Latin America; COPCORD 2, Definition used in this study; S% Sensitivity, Sp% Specificity; LR, likelihood ratio; AUC, Area under the curve; CI, confidence interval. |
Discussion
The COPCORD misak questionnaire demonstrated an adequate capacity to detect musculoskeletal disorders and rheumatic diseases in the misak indigenous population of the Guambia reservation.
The sensitivity of the COPCORD misak questionnaire was lower than that reported in other validation studies of the COPCORD strategy in indigenous peoples, ranging between 70.8% and 100% in Latin American indigenous communities (warao, kariüa, chaima [Venezuela], mixtec, Maya-Yucatec and raramuri [Mexico], qom [Argentina]),22 the saraguro of Ecuador,23) and the wayúu of Venezuela.24
The specificity of the COPCORD misak questionnaire is comparable to that reported in validation studies of the COPCORD strategy in non-indigenous communities in Ecuador25 and Mexico.26 On the contrary, it was higher than that reported in the studies validating such strategy in the saraguro23 and wayúu24 communities, the study of Latin American indigenous communities,22 and its validation in the non-indigenous population in Colombia15 (Annex 1).
The positive likelihood ratio of the COPCORD misak questionnaire was higher than that reported in all validation studies of the COPCORD strategy in Latin America, both in indigenous and non-indigenous populations, which varies between 1.09 and 2.73, except for Ecuador in the non-indigenous population, where an LR + of 3.725 was reported.
The COPCORD misak questionnaire has adequate internal consistency in the dimensions evaluated, the pain trajectory dimension being comparable with the COPCORD validation studies in Ecuador in non-indigenous populations,25) in the indigenous wayúu population in Venezuela,24 and in the study of Latin American indigenous populations.22) The internal consistency (Cronbach's alpha) in the comorbidities dimension was higher than that reported in the studies of the indigenous wayúu,24 Saraguro,23 and Latin American indigenous communities22 and comparable to that reported in the case of the non-indigenous population in Ecuador.24 The functional capacity dimension had an excellent internal consistency, superior to that reported in the previously mentioned Latin American studies in indigenous and non-indigenous populations.
In Colombia, the COPCORD strategy was validated in the non-indigen ous populationin 2019.18) On that occasion, a sensitivity of 70.83%, a specificity of 35%, a positive likelihood ratio of 1.09, and an AUC of 0.53 were reported for the diagnosis of rheumatic disease. Compared to this study, the COPCORD misak questionnaire was less sensitive but showed greater specificity, positive likelihood ratio, and a greater area under the curve.
The difference in the diagnostic performance of the COP-CORD misak, compared to the other validation studies of the COPCORD strategy, is mainly associated with the fact that the positive case definition used in the validation for the misak population excluded all patients with trauma related to the musculoskeletal discomfort, which favored an increase in the specificity in the detection of rheumatic diseases with lower sensitivity. Therefore, the working group established a strategy of three adequately trained and standardized filters to improve the detection capacity of the study.
Limitations
In this study, the presence of MSD in the absence of related trauma as a condition to define COPCORD positivity generated a loss of sensitivity. Considering that this is a screening test, it is suggested to eliminate the absence of associated trauma in the positive COPCORD definition in future validation studies and implementation of the strategy.
Adaptive adjustments were performed to the COPCORD instrument used for the Misak community, so some results in the socioeconomic field may not be completely comparable with similar studies in other populations. Added to this, there were difficulties in completing the questionnaires by the inter-viewers (despite the received training), which led to a loss of data, especially in the socioeconomic aspect.
The interview of the personal pathological history is based on what was strictly referred to by the respondents, which, following the general conception of the community about some diseases, can generate an overestimation of said entities, as is the case of gastritis. Screening for rheumatic diseases was carried out based solely on clinical diagnostic criteria.
Conclusions
This study demonstrated that the cross-cultural adaptation and its validation in the nam trik wam language, for the Misak indigenous group of the Guambia reservation in Colombia has adequate performance for the detection of rheumatic diseases and is easy to fill out.
The validation and adaptation of the COPCORD strategy to the nam trik wam promotes the recognition, promotion, protection, use, preservation, and strengthening of the languages of the ethnic groups of Colombia, as established by current legislation (Law 1381 of 2010).