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Introduction
Chronic venous disease (CVD) is defined as any long-term morphological and functional abnormalities of the venous system with signs or symptoms that require investigation or care1. CVD is one of the most commonly reported chronic medical conditions and a substantial source of morbidity in the Western world; it affects more than 25 million adults in the United States, 6 million of whom experience more advanced venous disease2. Although CVD remains a non-lethal condition, the total number of people affected and the associated management costs make it a major public health issue3. However, its quality of life (QoL) impact is often underestimated, causing discomfort and disability, necessitating leave from work for medical consultations, or emergency care visits.
The clinical, etiological, anatomical, and pathophysiological (CEAP) classification4 allows the accurate determination of moderate (varicose veins and edema) and severe (cutaneous dystrophy and ulcer) grades of CVD, but it does not extensively evaluate the clinical symptomatology or measure the impact on patients QoL. It is well-known that CVD negatively impacts the well-being of patients, both physical and mental aspects5, and there are various QoL questionnaires specific to venous diseases that provide information about patients perception of their own health6,7.
Nevertheless, there is still a paucity of scientific data regarding the impact of CVD on QoL8. Estimates of CVD prevalence are subject to significant heterogeneity, as epidemiological studies worldwide vary due to their population, selection criteria, disease definition, and imaging techniques9. Gathering demographic data of CVD patients from individual countries are vital for a better understanding of the disease and developing prevention and treatment programs. In Mexico, epidemiological information on CVD is limited, and what is available has been gathered either in regional settings or in specific occupational groups10,11.
The Vein Consult Program is one of the largest global efforts to raise awareness of CVD among patients, health-care professionals, and health authorities12. Although Mexico actively participated in recruiting patients and the data collected were included in the final worldwide report13, the nationwide results for the Mexican population were never published.
We aim to provide nationally representative epidemiological data on CVD among patients attending routine consultations in general practice and to evaluate the impact on the QoL in this patient population to improve our understanding of the different settings of the disease.
Methods
We reviewed data from a cross-sectional descriptive study carried out in urban and rural areas of Mexico as part of the Vein Consult Program, a global joint initiative between the International Union of Phlebology and Servier Laboratories. The data were collected through opportunistic screening by a selection of general practitioners (GPs), who attempted to enroll patients consecutively during ordinary medical consultations. Those who received a CVD diagnosis were asked to complete the CIVIQ-14 questionnaire. All data collection procedures complied with the ethical standards in the Helsinki Declaration amended in October 2008.
Target population
Participants selected were male or female outpatients, aged over 18 years, who were fully informed about the study and required to give written consent to participate in the screening program. Patients attending for emergency visits were excluded from the study. Participants could not be further scheduled to continue the consultation visit with their GP regarding the screening program, nor require any changes to their usual medical and therapeutic care.
Methodology
Each GP randomly recruited ten or 20 consecutive patients who attended the practice for various medical reasons. In addition to the original reason for consultation, each GP conducted an evaluation defined as step one of the study. For each participant, the GP completed a report assessing the patients history, listing any CVD risk factors, screening for CVD symptoms, and performing a routine leg examination. The GP scored the patient according to the C-classification by visual examination. No ultrasound was carried out.
After the evaluation, if the GP diagnosed the patient with CVD, the patient was provided with the CIVIQ-14 questionnaire, asked to complete it at the front desk, and to return it before leaving the office. In addition, at the discretion of the GP, the patient was invited to take part in step two of the study, where they were referred to a vascular specialist for a further clinical evaluation, including a Doppler ultrasound examination. If they did not withdraw, the patient was enrolled in step two upon signing a new written agreement. In all cases, whether or not the patient agreed to participate, their medical care and treatment were not affected. The completed case report forms were collected and provided to the data management and statistics departments. The methodology is represented in figure 1.
Statistical methodology
Unless specified, qualitative and quantitative variables were, respectively, described as numbers (percentages) and means ± standard deviations. Percentages were calculated from the total number of valid answers, excluding missing values. If there were missing values, no imputation was performed. For cross-tables, the means for quantitative variables were compared using a student t-test or one-way ANOVA, and frequencies for qualitative variables were analyzed with a chi-squared test. An a level of 0.05 was used. p-value ≤ 0.05 indicated a statistically significant difference. Some items were included in two questionnaires, such as both GP and patient questionnaires. To compare the data and assess their agreement, the kappa coefficient (K) was calculated from two different estimates: the percentage of observed agreement and the probability of random agreement. Agreement was considered very good if K > 0.8, good if K was between 0.08-0.6, and moderate if K was < 0.4.
For the CIVIQ-14 scale, a global index score (GIS) was estimated as follows: there were 14 questions in the CIVIQ-14, each with five possible answers (1-5). The minimum possible score was 14 and the maximum was 70. The difference between the final score and the minimum possible score was divided by the difference between the theoretical maximum and minimum scores (70-14 = 56), and the result was multiplied by 100.
GIS = ([Final score minimum possible score]/[Theoretical maximum minimum score]) × 100
GIS = ([Final score minimum possible score]/56) × 100
GIS = ([Final score 14]/56) × 100.
Patients answering fewer than 50% of the CIVIQ-14 were excluded from the QoL analysis.
Results
Sociodemographic data
We review data collected from a total of 5484 patients between April 1, 2009, and December 18, 2010. The majority of the study participants were women (76.3%), the mean age was 44.7 ± 15.3 years, and the BMI average was 27.63 ± 4.83. Two thousand eight hundred and ninety-five (53.2%) participants were full-time workers, with a mean of 7.2 ± 3.7 h spent standing per day. The demographic data are presented in detail in table 1.
Table 1 General demographic. Table displays general and female-specific demographic data, as well as risk factors for CVD. Reflected numbers, means, and percentages in each category include valid answers only, as missing data were not imputed
| Characteristic | Total population (n = 5,484) |
|---|---|
| Age | |
| Mean (years), SD | 44.7 ± 15.3 |
| 18-34, n (%) | 1538 (28.3) |
| 35-50, n (%) | 2026 (37.2) |
| 51-64, n (%) | 1281 (23.5) |
| 65 and older, n (%) | 597 (11) |
| Gender | |
| Male, n (%) | 1299 (23.7) |
| Female, n (%) | 4184 (76.3) |
| BMI | |
| Mean, SD | 27.63 ± 4.83 |
| Occupation | |
| Full time, n (%) | 2895 (53.2) |
| Part time, n (%) | 856 (15.7) |
| Unemployed, n (%) | 524 (9.6) |
| Student, n (%) | 184 (3.4) |
| Retired, n (%) | 318 (5.8) |
| Other, n (%) | 663 (12.2) |
| Women specific | |
| Number of births, mean, SD | 3.2 ± 2.2 |
| 0, n | 0 |
| 1, n (%) | 572 (17.8) |
| 2, n (%) | 944 (29.4) |
| 3, n (%) | 724 (22.5) |
| 4, n (%) | 408 (12.7) |
| 5 or more, n (%) | 567 (17.6) |
| Current use of birth control pills, n (%) | 607 (14.9) |
| Pregnant women, n (%) | 109 (3.1) |
| Menopause, n (%) | 1007 (28.2) |
| Under hormonal replacement therapy, n (%) | 230 (7.7) |
| Risk factor for CVD | |
| Family history of venous disease, n (%) | 3006 (54.8) |
| History of venous thrombosis, n (%) | 566 (10.4) |
| Hours per day spent standing, mean (SD) | 7.2 ± 3.7 |
| Hours per day spent sitting, mean (SD) | 5.1 ± 2.9 |
| Regular exercise practice, n (%) | 1800 (32.9) |
| Smoker (current or past), n (%) | 1936 (35.6) |
For quantitative analysis the parameter used was mean ± SD , and for qualitative analysis, the parameter used was number of patients in each category (%), CVD: Chronic venous disease; n: number of patients; SD: Standard deviation; %: Percentage; BMI: Body mass index; Kg: Kilograms; cm: centimeters.
CVD data
When including C0s patients, the prevalence of CVD was reported to be 89.6%, or 71.3% if considering only CEAP categories C1-C6. Chronic venous insufficiency (CEAP categories C3-C6) had a prevalence of 25%. Three thousand six patients (54.8%) mentioned a family history of CVD. The most frequently reported leg symptoms were pain (73.1%) and heaviness (71.9%), with 94% of patients indicating these to be present at the end of the day or at night. More detailed data are displayed in tables 2 and 3.
Table 2 Clinical data. Table displays characteristics of clinical symptoms reported by the study population and prevalence in the patients that the reason for visiting the GP was leg vein problem. Also shows, the distribution of patients according to the clinical parameter of the CEAP classification
| Symptoms | Prevalence of CVD (n = 3718) | Leg vein problem consultation (n = 910) |
|---|---|---|
| Heavy legs, n (%) | 2673 (71.9) | 729 (80.1) |
| Pain in the legs, n (%) | 2720 (73.2) | 758 (83.8) |
| Sensation of swelling, n (%) | 2341 (63) | 655 (71.9) |
| Night cramps, n (%) | 1949 (53.7) | 516 (56.7) |
| Itching, n (%) | 1559 (41.9) | 480 (52.7) |
| Sensation of “pins and needles” in the legs, n (%) | 1440 (38.7) | 454 (49.9) |
| When symptoms are most intense | ||
| At the end of the day | 2241 (47.5) | |
| Nighttime | 2152 (45.7) | |
| After prolonged standing | 1792 (38%) | |
| After prolonged sitting | 816 (17.3) | |
| In summer | 699 (14.8) | |
| After warm baths | 218 (4.6) | |
| During walking | 875 (18.6) | |
| Before menstrual periods | 373 (7.9) | |
| Other | 207 (4.4) | |
| CEAP classification | ||
| C0, n (%) | 512 (10.4) | |
| C0s, n (%) | 894 (18.1) | |
| C1, n (%) | 1504 (30.5) | |
| C2, n (%) | 778 (15.8) | |
| C3, n (%) | 662 (13.4) | |
| C4, n (%) | 436 (8.8) | |
| C5, n (%) | 76 (1.5) | |
| C6, n (%) | 65 (1.3) |
For quantitative analysis the parameter used was mean ± SD, and for qualitative analysis, the parameter used was number of patients in each category. Percentages were calculated out of the total number of valid answers, excluding missing values. n: number of patients; SD: Standard deviation; %: Percentage.
Table 3 Prevalence of clinical symptoms. Table displays the correlation between the type of symptoms described by the patients and the actual CVD status assessment by GPs relying on the Clinical (C) parameter of the CEAP classification. The presence of symptoms was higher as CEAP class grading increased from C0s to C6 (p value < 0.01)
| Type of symptom | C0s (n = 894) | C1 (n = 1504) | C2 (n = 778) | C3 (n = 662) | C4 (n = 436) | C5 (n = 76) | C6 (n = 65) | p-value |
|---|---|---|---|---|---|---|---|---|
| Heavy legs, n (%) | 419 (46.9) | 914 (60.8) | 591 (76) | 536 (81) | 367 (84.2) | 65 (85) | 52 (80) | < 0.01 |
| Pain in the legs, n (%) | 439 (49.1) | 917 (61) | 619 (79.6) | 533 (80.5) | 377 (86.5) | 69 (90.8) | 57 (87.7) | < 0.01 |
| Sensation of swelling, n (%) | 283 (31.7) | 732 (48.7) | 502 (64.5) | 517 (78.1) | 341 (78.2) | 65 (85.5) | 56 (86.2) | < 0.01 |
| Night cramps, n (%) | 278 (31.1) | 564 (37.5) | 361 (46.4) | 356 (53.8) | 268 (61.5) | 56 (73.7) | 44 (67.7) | < 0.01 |
| Itching, n (%) | 180 (20.1) | 486 (32.3) | 336 (43.2) | 284 (42.9) | 258 (59.2) | 52 (68.4) | 47 (72.3) | < 0.01 |
| Sensation of “pins and needles” in the legs, n (%) | 131 (14.7) | 411 (27.3) | 297 (38.2) | 298 (45) | 245 (56.2) | 51 (67.1) | 51 (78.5) | < 0.01 |
| No symptom, n (%) | 0 | 24 (1.6) | 0 | 0 | 0 | 0 | 0 |
For qualitative analysis, the parameter used was number of patients in each category. Percentages were calculated out of the total number of valid answers, excluding missing values. For p = value determination, the means for quantitative variables were compared using a student t-test and for qualitative analysis, Chi square was used, n: Number of patients; %: Percentage.
QoL data
QoL was measured using the CIVIQ-14 questionnaire. QoL steadily declined as age increased (mean GIS decreases from 82.75 ± 16.39 for the 18-34 age group to 64.12 ± 24.63 for the ≥ 65 age group). QoL was also lower in patients with a BMI > 30 kg/m2 (mean GIS 67.78 ± 22.98), and those presenting three or more symptoms (mean GIS 64.83 ± 21.1). Patients QoL decreased as the CEAP category increased, with GIS fluctuating between 86.69 ± 14.95 for C0s (symptomatic with no visible signs) and 44.25 ± 24.93 for C6 (active venous ulcer). Data are displayed in table 4. Based on gender stratification, women reported a lower mean CIVIQ-14 GIS at CEAP categories C3, C4, C5, and C6; mens scores were commonly ten points higher than womens (p < 0.01).
Table 4 CIVIQ-14 Demographic and Clinical data. Table displays the data from patients diagnosed with chronic venous disease after general practician evaluation and completion of the CIVIQ-14 questionnaire. No missing data was imputed. The GIS fluctuation between C0s and C6 patients was significant (p < 0.001)
| Demographic characteristic | Patients (n = 2808) | CIVIQ-14 GIS Mean (SD) | p-value |
|---|---|---|---|
| Gender | < 0.01 | ||
| Male | 501 | 79.13 ± 20.23 | |
| Female | 2307 | 72.64 ± 2102 | |
| Age | < 0.01 | ||
| 18-34 | 555 | 82.75 ± 16.39 | |
| 35-50 | 1059 | 74.66 ± 19.94 | |
| 51-64 | 799 | 70.96 ± 20.99 | |
| ≥ 65 | 373 | 64. 12 ± 24.63 | |
| BMI (kg/m²) | < 0.01 | ||
| < 18 | 6 | 76.49 ± 22.26 | |
| 18-24 | 713 | 78.74 ± 18.22 | |
| 25-30 | 1121 | 75.66 ± 19.67 | |
| > 30 | 800 | 67.78 ± 22.98 | |
| Number of hours spent standing per day | < 0.01 | ||
| < 5 | 636 | 75.34 ± 22.38 | |
| 5-10 | 1646 | 74 ± 20.71 | |
| > 10 | 491 | 71.78 ± 19.61 | |
| Number of symptoms | < 0.01 | ||
| 0 | 103 | 95.09 ± 9.04 | |
| 1 | 234 | 90.34 ± 11.67 | |
| 2 | 357 | 84.88 ± 13.07 | |
| 3 | 464 | 80.1 ± 15.04 | |
| > 3 | 1583 | 64.83 ± 21.1 | |
| CEAP classification | < 0.01 | ||
| C0s | 210 | 86.69 ± 14.95 | |
| C1 | 840 | 81.74 ± 15.88 | |
| C2 | 604 | 72.33 ± 18.31 | |
| C3 | 494 | 67.14 ± 20.61 | |
| C4 | 348 | 61.94 ± 21.82 | |
| C5 | 65 | 51.70 ± 20.94 | |
| C6 | 57 | 44.25 ± 24.93 |
The parameter used for quantitative analysis was mean ± SD, and number of patients. Percentages were calculated out of the total number of valid answers, excluding missing values. For p = value determination, the means for quantitative variables were compared using a student t-test and for qualitative analysis, Chi square was used. GSI: Global index score; n: Number of patients; SD: Standard deviation; %: Percentage; BMI: Body mass index; Kg: Kilograms; cm: Centimeters.
Seven hundred and seventy-two patients had a history of venous leg problems (leg ulcers, thrombosis, edema, pain, etc.) that resulted in a loss of work days, change of job, or change of professional activities. The mean CIVIQ-14 GIS of this group was lower than that of the total study population. This was particularly true for those with a history of surgery (62.64 ± 23.77) and subsequent changes in professional activities (51.04 ± 22.45), previous hospitalizations due to venous leg problems (54.62 ± 25.83), and loss of workdays due to venous leg problems (52.70 ± 23.67).
Miscellaneous data
Of the 3558 patients who received treatment, 3296 (92.6%) received advice on adapting their lifestyle to manage CVD, and 2872 (80.7%) patients were advised to add a venoactive medication to this adapted lifestyle. Compression therapy was recommended alone or in combination with lifestyle advice or venoactive medication to 1587 (44.6%) of patients. Lifestyle adaptations and venoactive medication were recommended equally by GPs among every CEAP grading class. More detailed data are shown in table 5.
Table 5 Treatment recommendation. Table displays the correlation between the CEAP classification and the recommended treatment the general practitioner offered the patients. Some patients received a combination of treatments
| CEAP, n, (%) | Lifestyle advise (n = 3296) | Venoactive medication (n = 2872) | Compression therapy (n = 1587) | Vein procedure (n = 241) |
|---|---|---|---|---|
| Missing data or C0 | 73 (2.2) | 50 (1.7) | 29 (1.8) | 7 (2.9) |
| C0s | 265 (8) | 142 (4.9) | 51 (3.2) | 2 (0.8) |
| C1 | 1203 (36.5) | 936 (32.6) | 458 (28.9) | 34 (14.1) |
| C2 | 663 (20.1) | 675 (23.5) | 363 (22.9) | 56 (23.2) |
| C3 | 581 (17.6) | 549 (19.1) | 346 (21.8) | 29 (12) |
| C4 | 395 (12) | 395 (13.8) | 253 (15.9) | 71 (29.5) |
| C5 | 62 (1.9) | 70 (2.4) | 52 (3.3) | 18 (7.5) |
| C6 | 54 (1.6) | 55 (1.9) | 35 (2.2) | 24 (10) |
For qualitative analysis the parameter used was number of patients in each category. Percentages were calculated out of the total number of valid answers, excluding missing values. n: Number of patients;, %: Percentage.
Of the 4823 patients with valid answers, 924 patients were referred to a vascular specialist, although only 172 (18.6 %) consulted the specialist (Table 6). A total of 569 patients in the C3-C6 category were not referred to a vascular specialist. One hundred and eighty-eight (3.9%) of the patients screened were already under the medical care of a vascular specialist.
Table 6 Patients referred to a vascular specialist. Table displays the number of patients that were referred to a vascular specialist after general practitioner evaluation distributed by their clinical category CEAP classification
| CEAP, n, (%) | Missing data (n = 658) | Not Referred to specialist (n = 3714) | Referred to specialist (n = 924) | Already under specialist care (n = 188) |
|---|---|---|---|---|
| C0 | 289 (27) | 751 (70.3) | 21 (2) | 8 (0.7) |
| C0s | 100 (11.2) | 761 (85.1) | 19 (2.1) | 14 (1.6) |
| C1 | 132 (8.8) | 1175 (78.1) | 156 (10.4) | 41 (2.7) |
| C2 | 57 (7.3) | 458 (58.9) | 213 (27.4) | 50 (6.4) |
| C3 | 55 (8.3) | 371 (56) | 216 (32.6) | 20 (3) |
| C4 | 20 (4.6) | 178 (40.8) | 202 (46.3) | 36 (8.3) |
| C5 | 4 (5.3) | 9 (11.8) | 50 (65.8) | 13 (17.1) |
| C6 | 1 (1.5) | 11 (16.9) | 47 (72.3) | 6 (9.2) |
For qualitative analysis the parameter used was number of patients in each category. Percentages were calculated out of the total number of valid answers, excluding missing values. n: Number of patients; s: Symptomatic; SD: Standard deviation; %: Percentage.
Among related comorbidities, the most frequently reported were high blood pressure (34.1%), diabetes (18.6%), and inflammatory bowel disease (18%).
Doppler ultrasound was only performed for 162 patients.
Discussion
CVD epidemiology is important for the creation of specific clinical guidelines for prevention and treatment, as international guidelines may not properly reflect populations of individual countries. This study represents one of the largest recent epidemiological studies focusing on vein disease in the Mexican population. It provides reliable data on the high prevalence of CVD and how the QoL of patients deteriorates as the disease progresses to more severe stages.
Overall, epidemiological studies have demonstrated that CVD is widespread, age-progressive, more commonly encountered in women, and multifactorial in etiologies14. Beebe-Dimmer et al. reviewed methodologies and results of studies on varicose veins and CVD15. Overall, estimated prevalence of simple uncomplicated varicose veins ranges dramatically from 2% to 56% in men and <1% to 73% in women. The definition of varicose veins varies among epidemiological investigations, resulting in a range of prevalence estimations. Namely, case definitions may rely on reports of varicose veins by study participants, which may be based on self-diagnosis, recall of a diagnosis by a physician, or a standardized physical examination. The Edinburgh Vein Study, one of the largest studies of venous disease, employed the Basle criteria to categorize varicose veins based on location and severity16. In a systematic review of global CVD epidemiology, Salim et al. identified 32 studies including over 300,000 adults9. The unadjusted and pooled prevalence estimates were as follows: C0S: 9%, C1: 26%, C2: 19%, C3: 8%, C4: 4%, C5: 1%, and C6: 0.4%. The pooled prevalence of C2 disease was highest in Europe (21%) and lowest in Africa (5.5%), indicating that CVD affects a significant proportion of the population globally, but also that there is significant heterogeneity in existing epidemiological studies. Our results showed a C2 prevalence of 15.8% in Mexico, which could reflect the inclusion of a younger population, compared to the San Diego study, for example, where the average age was over 60 years.
Commonly reported risk factors for CVD include female gender, age, obesity, prolonged standing, CVD-positive family history, and parity17. However, obesity has not been consistently shown to be a risk factor for CVD. Case-control studies of obesity and CVD are limited in that they do not establish a temporal sequence between exposure and disease. It is possible that CVD and varicose veins may cause patients to be less physically active, making them more prone to becoming overweight. As obesity is associated with a deterioration in joint mobility, this, in turn, can lead to worsening of CVD18. In this trial, although C0 patients had a lower mean BMI than C1C6 patients (26.49 ± 4.62 kg/m2 versus 28.26 ± 5.11 kg/m2), both groups were still overweight. However, the QoL was lower in the obese group (BMI > 30 kg/m2).
One surprising observation in this study was that the rate of referral to vascular specialists was low. A 2013 survey of GPs in the UK indicated that under 50% were aware of referral guidelines for CVD patients and would refer patients with moderate to severe disease (C4 or C5) to a vein specialist. In addition, only about 10% were aware of clinical venous scoring systems19. These findings indicate that for CVD patients of all severities to receive the treatment specified by international guidelines, a substantial knowledge gap needs to be bridged20. In this study, only 16.8% of patients with CVD were considered for a referral to a vein specialist, even some with higher CEAP classification. Several factors can influence these decisions; some health-care providers do not authorize referrals to specialists for patients in the lower CEAP categories unless they are very symptomatic, and many patients cannot afford to lose work days if they are only mildly symptomatic, or only consider their condition to be a cosmetic problem.
Of the 924 patients eligible for step two of the study, which involved referral to a vascular specialist, only 172 (18.6 %) consulted the specialist. In this trial, there was no follow-up regarding the reasons behind the low compliance with referrals to vascular specialists, but the accessibility of specialist care has long been debated21. The wait for access to specialists has a significant impact on patients, with longer delays increasing stress, anxiety, and pain, affecting daily activities and sometimes leading to deterioration in health. Delayed access to specialist care can also result in diagnostic delays, repetition of tests and services, dissatisfaction among patients and providers, and rising costs21; this was also observed in this study, with only 162 patients having a Doppler ultrasound performed. Lack of early treatment can lead to disease progression and the development of skin lesions, such as lipodermatosclerosis and venous leg ulcers. Even before escalation to ulcers, there is still a significant disease burden from chronic venous disorders, such as pain or edema8. Although opinions on the need for the early treatment are highly divided, early treatment of these conditions can reduce the risk of escalation and help improve QoL. The low compliance of patients in this study may reflect their perceived minimization of the potential severity of the disease, as it can lead to missed work days. In addition, CVD was not the reason for their initial medical consultations.
Current guidelines and scientific publications tend to focus on clinical and physiological aspects of CVD, as opposed to its impact on patients QoL22,23. In the present study, CIVIQ-14 scores represented a progressive reduction of QoL from C0s to C6, although this work did not separately compare each section of the questionnaire, such as pain and physical or psychological effects. Radak et al. observed progressive impairment of QoL that primarily involved pain and physical limitations in older patients and women7. Similarly, the results of the RELIEF trial also showed that age had a significant effect on global scores, but not on psychological scores24. It is reasonable to infer that the emotional effect of CVD is greater in younger people than in older people, and especially higher in women25, as a significant emphasis is placed on appearance for them.
One important factor that has a long-term effect on QoL was the higher prevalence of diabetes and high blood pressure in patients with CVD in this study. Clinical studies have reported the association of CVD with cardiovascular disease and its risk factors, which have a higher prevalence in CVD patients when compared to the general population (17% vs. 8.6%)26. Diabetes and CVD share microvascular ethological afflictions that predispose patients to vascular wall remodeling, impaired blood flow, increased oxidative stress, vascular inflammation, increased vascular permeability, and endothelial dysfunction27. Higher CEAP classes have been associated with a a higher predicted 10-year risk of developing cardiovascular disease. In individuals without cardiovascular disease (n = 9923), CVD was found to be a strong predictor of all-cause death regardless of the concomitant clinical profile and medication17. The association of CVD with an increased risk of all-cause death was externally validated in the MyoVasc cohort28.
This study had some limitations: there were several missing data; test-retest reproducibility and responsiveness of the CIVIQ-14 were not assessed; and a CVD diagnosis was made by a GP based on symptoms and clinical and visible changes, rather than on a functional basis and not confirmed by a specialist in most cases, due to the very low compliance of patients with referrals. Available data from those who were evaluated by a specialist were too limited for proper statistical analysis. The CEAP classification, although useful as an objective parameter, does not consider the severity of a patients different symptoms. In addition, classification was only done through the clinical evaluation “C,” and the updated classification4 was not used.
Conclusion
This study provides reliable data showing that CVD is highly prevalent among patients seen at primary care clinics in Mexico, especially in women, and is not limited to elderly patients, as it was detected even in younger age groups. CVD affects QoL as it progresses, underlining the importance of adequate screening for CVD and additional training for GPs to improve the rates of early referral to vascular specialists. The data generated can be the foundation for proper prevention and treatment programs specifically targeting high-risk populations.
