1 Department of Family and Preventive Medicine, School of Medicine, University of California, San Diego, San Diego, CA.
2 Department of Medicine, School of Medicine, University of California, San Diego, San Diego, CA.
3 Department of Bio-Engineering, Jacobs School of Engineering, University of California, San Diego, San Diego, CA.
4 Department of Surgery, School of Medicine, University of California, San Diego, San Diego, CA.
Received for publication November 27, 2002; accepted for publication February 21, 2003.
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ABSTRACT |
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cross-sectional studies; diagnostic imaging; ethnic groups; population; thrombosis; ultrasonics; veins
Abbreviations: Abbreviations: CEAP, Clinical-Etiologic-Anatomic-Pathophysiologic; OR, odds ratio.
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INTRODUCTION |
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Most previous studies have defined chronic venous disease by visual inspection of the lower limbs for varicose veins, or, in some studies, for telangectasias (spider veins), or by visual evidence of trophic changes of chronic venous insufficiency such as hyperpigmentation, edema, and ulcers (16). The previous "gold standard" for diagnosing functional disease (i.e., obstruction or reflux) was venography. However, in recent years, a noninvasive assessment, duplex ultrasound, which allows both real-time B-mode visualization and measurement of flow velocity, has been shown to be the equal of venography in terms of diagnostic accuracy (1113).
An ethnically diverse population was studied for venous disease by using the diagnostic methods of physical examination, duplex ultrasonography, and clinical history. This paper reports on that study.
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MATERIALS AND METHODS |
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The study design was cross-sectional. At the study visit, trained interviewers followed a standardized protocol and collected information on demographics, lifestyle, and personal and family medical history. Specific questions included "a blood clot in a leg vein" and "phlebitis or inflamed vein in your leg" in a superficial or deep vein, "pulmonary embolism or blood clot in lung," and "heparin or coumadin/warfarin therapy for a problem with your veins." Clots or phlebitis in superficial veins was classified as "superficial thrombotic events," whereas clots or phlebitis in a deep vein, a history of pulmonary embolus, and heparin or coumadin therapy for a vein problem were classified as "deep thrombotic events."
Certified vascular technologists, trained in the protocol and unaware of the subjects interview responses, performed the venous examination. With the subject standing, the technologist recorded simple telangiectasias >3 cm in length, reticular telangiectasias (web >8 cm across), simple varicosities, and reticular varicosities (four or more interconnected varicosities) on five anatomic regions of each legthigh, knee, calf, ankle, and footas well as evidence of trophic changes: hyperpigmentation, lipodermatosclerosis, or healed or active ulcer (at the level of the calf or below) and the presence of edema (calf or below).
For functional disease, reflux and obstruction were determined by using an Acuson model 128 duplex ultrasonograph (Siemens Corporation, Mountain View, California) with a 5-MHz transducer. Measurements were recorded at prespecified anatomic levels with the subject on a tilt table in a 15° reverse Trendelenburg position, the legs slightly flexed in minimal external rotation. With the patient at rest, a probe was used to determine vein wall compressibility. Standardized pressure determined by using an automatic cuff inflator (Hokanson, Bellevue, Washington) with rapid inflation and deflation of cuffs placed sequentially at midthigh, midcalf, and foot level was used to identify reflux. For Valsalva reflux testing, a pressure monitoring system was used to maintain a reading of 40 mmHg for 3 seconds of subject effort.
Reflux duration of 0.5 seconds or Valsalva reflux of
0.5 seconds was taken as evidence of valvular insufficiency (14). Partial and complete venous obstruction was assessed by the degree of compressibility of venous walls; complete compressibility was normal (15, 16). Information on the reproducibility of these measurements in our study has been published previously (17).
For all study procedures, participants provided signed informed consent following a detailed explanation of the study. The Committee on Investigations involving Human Subjects of the University of California, San Diego, approved the study.
Disease classification
Venous disease was classified by using the four visible and three functional categories defined below. We simplified the Clinical-Etiologic-Anatomic-Pathophysiologic (CEAP) classification (10) for this epidemiologic study because of the large number of CEAP categories (seven clinical, five etiologic, 18 anatomic, and three pathophysiologic) and because of the implicit CEAP assumptions that we wanted to test, such as whether, for example, edema and pigmentation always indicate underlying venous disease. For comparison, the CEAP equivalents for each of our categorical definitions are detailed below.
Visible disease categories
Visible classification of each leg was made prior to and thus independent of duplex interrogation. Four hierarchic categories were established: normal, spider veins, varicose veins, and trophic changes. Thus, normal legs were free of spider veins, varicose veins, or trophic changes; legs in the spider veins category were free of varicose veins and trophic changes; those in the varicose veins category may or may not have also had spider veins present and were free of trophic changes; and legs in the trophic changes category may or may not have had spider veins or varicose veins present. Legs that were visibly normal but for which there was a history of sclerotherapy were arbitrarily classified as having spider veins (n = 7), and legs visibly normal or with spider veins for which there was a history of vein stripping were classified as having varicose veins (n = 29). For comparison with the CEAP classification, normal corresponds to class 0, spider veins to class 1, varicose veins to class 2, and trophic changes to classes 4, 5, and 6 combined.
Functional disease categories
When the duplex criteria were used, the hierarchic classification was normal, superficial functional disease, and deep functional disease. Superficial functional disease was defined as reflux or abnormal compression (i.e., partial or complete obstruction) in the long or short saphenous veins, or at the sapheno-femoral junction (including Valsalva challenge), or at the sapheno-popliteal junction, or in another superficial vein noted by a technologist. Deep functional disease was defined as reflux or abnormal compression in the common femoral vein (including Valsalva challenge) or in the superficial femoral, popliteal, or posterior tibial veins; or as abnormal compression at the peroneal vein. Legs functionally normal for which there was a history of vein stripping were arbitrarily classified as evidencing superficial functional disease (n = 26). These functional categories correspond to a combination of the CEAP anatomic classification (superficial, deep, perforating veins) and pathophysiologic classification (reflux, obstruction, both) categories (10).
Statistical methods
For statistical analyses, DBMS Copy software (Conceptual Software, Inc., Houston, Texas) was used to extract the data required for these analyses into a file usable by SAS version 6.12 for Windows (Statistical Analysis System; SAS Institute, Inc., Cary, North Carolina). Differences in means were tested by using one-way analysis of variance, and categorical differences were tested with chi-square statistics. Differences in adjusted prevalences were assessed by using the general linear models procedure. The contributions of different factors to the various disease categories (spider veins, varicose veins, trophic changes, superficial functional disease, and deep functional disease), and potential interactions, were tested by using multiple logistic regression. All p values reflect two-tailed tests. No adjustments were made for multiple comparisons.
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RESULTS |
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The data in table 1 are based on the subjects "worst" leg. Overall, visible examination of the legs showed that 19.0 percent were normal, 51.6 percent had spider veins, 23.3 percent had varicose veins, and 6.2 percent had trophic changes. According to the functional evaluation, 72.1 percent were normal, 19.0 percent had superficial functional disease, and 9.0 percent had deep functional disease.
Mens legs were more than three times as likely as those of women to be visibly normal (33.6 percent vs. 11.0 percent), whereas women had substantially more spider veins and varicose veins. However, the prevalence of trophic changes was higher in men. With age, there was little change in spider veins but a linear increase in varicose veins and a marked increase in trophic changes. For varicose veins, the prevalence increased from 16.9 percent at age <50 years to 29.9 percent at age 70 years. For trophic changes from ages <50 to
70 years, the prevalence more than quadrupled, from 2.3 percent to 10.2 percent. For functional disease, superficial functional disease was more common in women than men (22.2 percent vs. 13.1 percent), but deep functional disease was more common in men (11.3 percent vs. 7.8 percent). The prevalence of both superficial and deep functional disease increased monotonically with age: from 11.2 percent at age <50 years to 27.3 percent at age
70 years for superficial functional disease and from 6.9 percent at age <50 years to 11.3 percent at age
70 years for deep functional disease. Compared with non-Hispanic Whites, minority groups in general had lower prevalences of both visible and functional disease. An exception was for varicose veins and superficial functional disease in Hispanics, who had slightly higher prevalences of these conditions than non-Hispanic Whites did.
Table 2 shows similar data for edema and for a history of superficial and deep thrombotic events. The prevalence of edema was higher among men and increased sharply with age, from 2.6 percent at age <50 years to 10.7 percent at age 70 years, and was highest by far among non-Hispanic Whites. Superficial events were nearly twice as common in women as men, 2.8 percent versus 1.5 percent, and this sex difference and the ethnic differences paralleled the findings for superficial functional disease. The findings for deep thrombotic events paralleled the findings for deep functional disease, with more events in men, in non-Hispanic Whites, and at older ages.
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Superficial functional disease was significantly more common in women (OR = 1.85) and increased with age, and prevalence was significantly lower among Asians compared with non-Hispanic Whites (OR = 0.65). Conversely, the prevalence of deep functional disease was significantly lower among women than men (OR = 0.69).
The higher prevalence of edema at ages 6069 and 70 years and the lower prevalence of edema among Hispanics (OR = 0.29) were highly significant. Superficial thrombotic events were somewhat more common in women (OR = 1.89) and less common in African Americans (OR = 0.34), but neither odds ratio attained significance. Compared with non-Hispanic Whites, Hispanics and Asians reported significantly fewer deep thrombotic events (OR = 0.35 and OR = 0.25, respectively).
To evaluate the degree of overlap between visible and functional venous disease, the analyses shown in table 4 were performed for individual legs rather than by person. Table 4 shows the overall results for the 4,422 legs of the 2,211 participants. Visible inspection showed that 23.0 percent of the legs were normal, 54.6 percent had spider veins, 17.7 percent had varicose veins, and 4.6 percent evidenced trophic changes. Functionally, 79.5 percent of the legs were normal, 14.9 percent evidenced superficial functional disease, and 5.6 percent showed deep functional disease. Thus, the majority of legs had spider veins but were also functionally normal. When spider veins were considered a "normal" visible finding, visible (varicose veins or trophic changes) and functional (superficial or deep) disease were closely linked; 92.0 percent of the legs were concordant (17.4 percent concordant for disease presence and 74.6 percent concordant for disease absence), and 8.0 percent of the legs were discordant (4.9 percent evidencing visible but not functional disease and 3.1 percent functional but not visible disease).
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Table 5 shows, for each cell in table 4, the age-adjusted proportion of legs with 1) edema on clinical examination, 2) a history of superficial thrombotic events, and 3) a history of deep thrombotic events. Percentages statistically significantly different from the normal/normal reference group are noted.
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Of the 208 edematous legs, 55 (26.4 percent) were either normal or had spider veins and showed normal venous function. These findings provide an estimate of the minimum proportion of legs, on a population basis, with edema of nonvenous etiology.
Superficial thrombotic events were unrelated to visible disease in legs that functioned normally but were increased similarly by both superficial and deep functional disease, and these results were significant for three of four superficial functional disease subcells. This finding is concordant with the large proportion of legs evidencing deep functional disease in which superficial functional disease also occurred (48.0 percent).
A history of deep thrombotic events was independently related to both trophic changes and deep functional disease but not to varicose veins or superficial functional disease. The highest prevalence of deep thrombotic events by far, 24.6 percent, occurred in the group of limbs showing both trophic changes and deep functional disease.
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DISCUSSION |
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Most previous studies found a higher prevalence of both spider veins and varicose veins in women and a linear increase in prevalence with age, consistent with findings from the present study. Our data provide a carefully standardized assessment of ethnic differences and show significantly lower prevalences of spider veins in three minority ethnic groups compared with non-Hispanic Whites. It is possible that the lower prevalence of spider veins in ethnic groups with, on average, darker skin might reflect to some degree a detection bias, but our technologists were trained to avoid such a bias.
Earlier literature typically used ulcers as a specific marker of chronic venous insufficiency. Data from Australia (21) and Sweden (22) showed an exponential increase in the prevalence of venous ulcers with age for both men and women, in the 1 percent range before age 50 years and increasing to 38 percent by age 75 years. In our study, trophic changes showed a similar trend, but at higher prevalences, because we included hyperpigmentation and lipodermatosclerosis as well as ulcers. Previous studies have suggested a small excess of chronic venous insufficiency in women, as reflected by ulcers, particularly at the oldest ages. Our study showed significantly fewer trophic changes in women (OR = 0.65). However, we included very few subjects older than 79 years of age.
Despite population and ethnic differences, the data from the Edinburgh study (20) can be roughly compared with ours. Visibly normal participants were less common in Edinburgh, fewer than 15 percent of men and 7 percent of women versus 34 percent of men and 11 percent of women in our study. Within a comparable age stratum (5564 years), 61 percent of Scottish men and 51 percent of Scottish women had varicose veins versus 15 percent of men and 28 percent of women in our study. Finally, the prevalences of chronic venous insufficiency in this same age group in the Edinburgh study were 25 percent in men and 12 percent in women versus prevalences of trophic changes in our study of 8 percent in men and 5 percent in women. In summary, even after ethnic differences were considered, the prevalences of all visible conditions were substantially higher in Scotland than in southern California. In addition, although both studies showed higher prevalences of spider veins in women and of chronic venous insufficiency/trophic changes in men, the Edinburgh study showed higher prevalences of varicose veins in men, whereas our study and most other population studies of varicose veins have found higher prevalences in women (1, 2328).
Functional disease
Previous population studies have not used duplex technology to delineate visible from functional abnormalities, with the exception of the Edinburgh study. Thus, these studies inferred the presence of superficial and/or deep functional disease from visible findings of varicose veins and trophic changes. However, our data clearly show the limitations of such assumptions. Although a strong overall association was found between visible disease and functional disease, there were numerous exceptions.
Regarding functional disease, the Edinburgh investigators evaluated reflux but not obstruction (19). Nonetheless, considerably more functional disease was found in Scotland than in southern California, albeit with a similar sex ratio. The duplex examination in Edinburgh was conducted with the subject in a 45° reverse Trendelenburg position versus 15° in our study, so gravity may have resulted in somewhat more reflux in Edinburgh. However, this possibility would account for only a small part of the difference. In addition, in both studies, the visible examination was performed while the subject was standing, and the prevalence of visible (as well as functional) disease was much higher in Edinburgh.
Comparing visible and functional disease in the same leg
To our knowledge, our study is the first to report the concordance of visible and functional disease on an individual limb basis, and it indicates the expected strong, but far from perfect, association between visible and functional venous disease. The finding of deep functional disease in limbs visibly normal is well known clinically (29). The Edinburgh investigators compared visible and functional disease on a person rather than a limb basis and, similar to our data, found a substantial number of subjects with deep vein reflux and no varicose veins or trophic changes (19). In addition, similar to our data, discordance for reflux and visible disease was considerably more common in deep versus superficial veins.
Our data are consistent with previous literature showing that, with trophic changes, superficial functional disease alone is present at least as often as deep functional disease (3034). However, the finding that 25.9 percent of legs evidenced trophic changes but functioned normally was a surprise. Thus, we were careful not to use the term "chronic venous insufficiency" for trophic changes, because chronic venous insufficiency by definition implies venous insufficiency. Some limbs showing trophic changes but normal venous function probably represent chronically increased venous pressure from restricted return in the absence of a specific finding of superficial or deep functional disease, or such limbs may have had distal pigmentation or lipodermatosclerosis from chronic dermatitis or other nonvenous conditions. However, in our study, more severe trophic changes nearly always implied chronic venous insufficiency, a finding consistent with previous research (35).
With regard to our discordant visible/functional findings, also surprising was the finding of a significant minority of legs with varicose veins but normal function. We looked intensively at all legs with varicose veins to attempt to demonstrate reflux, but we were unable to do so for 21.0 percent of them. The Edinburgh group also found varicose veins without reflux (19). A recent report indicated some discordance between varicose veins, chronic venous insufficiency, and reflux (36), but the prevalences of varicose veins and chronic venous insufficiency, and the proportion with reflux, were not consistent in the data presented.
Edema
The strong age gradient for edema in our population was expected. The marked ethnic differences were concordant with the generally lower prevalence of visible and functional venous disease in the three minority groups compared with non-Hispanic Whites in our study.
Population studies typically have not used edema alone to define chronic venous insufficiency and have relied on the conservative finding of active or healed leg ulcer. On the basis of the CEAP classification, edema is considered clinical class 3 of chronic venous disease (10). However, edema can result from a number of conditions, such as congestive heart failure, in which venous disease is not the primary underlying pathology. Our data suggest that in at least a fourth of all limbs with clinically recognizable edema, there is no functional venous pathology.
The Edinburgh group reported a higher prevalence of edema than in our population (20). They surprisingly reported more than twice as much edema in women but more than twice as much chronic venous insufficiency in men. In contrast, men in our study had a somewhat higher prevalence of both edema and trophic changes, an expected concordance.
Superficial thrombotic events
Superficial venous thrombosis was nearly twice as prevalent in women in our study. A period of high risk of superficial thrombosis following childbirth may contribute to this female preponderance (37). Other hormonal factors may also account for some of the discrepancy. An increased risk (relative risk = 2.7) of superficial and deep thrombotic events with use of ethinyl estradiol was found in one study (38).
Deep thrombotic events
Our study showed a monotonic age gradient in past experience with deep thrombotic events, and some studies have suggested an exponential increase (39, 40). Our study showed a nonsignificant excess in males. Similarly, in a short-stay hospital study, there were equal overall incidences for males and females (across all age groups) of 48/100,000 (39). The deep-event prevalences in the four age groups in our study (2.4 percent, 2.5 percent, 3.8 percent, and 4.1 percent) appear quite similar to the "lifetime prevalence" of deep venous thrombosis of 3.1 percent in a population-based, 5-year follow-up of 5,568 persons (41). Any study evaluating clinical deep events may substantially underestimate the incidence and prevalence of venous thrombosis due to asymptomatic events, which have been documented in air travelers (42). No studies were identified that provide data enabling the fraction of asymptomatic deep thrombotic events to be calculated.
The data in table 5 show, as expected, a strong association of deep thrombotic events with both visible and functional venous disease. To our knowledge, no previous population study has reported data comparable to those presented in table 5.
In terms of disease prevalence, our study must be considered exploratory given the selected population and modest response rate. Either our selection algorithm or the response rate could have biased our results compared with a random sample of the population. Nonetheless, our prevalence results were concordant from earlier studies using sundry recruitment designs. In addition, estimates of risk of venous disease by various predictors, and the overlap between visible and functional disease, are less likely to be biased than prevalence estimates, since such bias would require an interaction between a selection or participation factor and a predictor (4346).
Conclusion
The prevalence of both visible (81.0 percent) and functional (27.9 percent) venous disease makes this condition the most prevalent vascular disease. In general, we found that women had more superficial functional disease whereas men had more deep functional disease. Venous disease increased with age, and non-Hispanic Whites had more disease than did Hispanics, African Americans, or Asians. Visible and functional disease were closely linked, and both were strongly associated with edema and thrombotic events. Nonetheless, discordance within a leg for visible, functional, and clinical disease was not uncommon. Thus, visible did not necessarily imply functional disease, or vice versa, and, although edema and thrombotic events were much more common in the presence of visible and/or functional disease, they also occurred in normal limbs.
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ACKNOWLEDGMENTS |
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The authors thank Linda Sridhar for assistance with manuscript preparation.
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NOTES |
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REFERENCES |
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