eISSN: 1896-9151
ISSN: 1734-1922
Archives of Medical Science
Current issue Archive Special issues Subscription
Editorial System
Submit your Manuscript
SCImago Journal & Country Rank
3/2010
vol. 6
 
Share:
Share:

Clinical research
Buerger’s disease as an indicator of socioeconomic development in different societies, a cross-sectional descriptive study in the North-East of Iran

Bahare Fazeli

Arch Med Sci 2010; 6, 3: 343-347
Online publish date: 2010/06/30
Article file
- Buergers disease.pdf  [0.06 MB]
Get citation
 
 
Introduction
Thromboangiitis obliterans (Buerger’s disease) is a non-atherosclerotic segmental inflammatory and occlusive vascular disease. It most commonly affects the small and medium-sized arteries, veins, and nerves of the legs and arms, predominantly in young male smokers [1]. Although Buerger’s disease (BD) has a worldwide distribution, nowadays it is more prevalent in the Middle East and Far East than in North America and Western Europe [2]. The initiating factor of this disease is still unknown. Some hypotheses such as bacterial infection, immunological processes and genetic factors have been suggested for the onset of BD, although they have been neither ruled out nor certainly confirmed [1, 3]. The only hypothesis that has been admissible since Leo Buerger’s time is the extremely strong association between tobacco exposure and this disease. However, some investigators believe that nicotine is just a physiological vasoconstrictor, so it should not be the main cause or the initiating one [4]. As a matter of fact, a small number of smokers all around the world eventually develop this disease and it appears mostly in young male smokers from the low socioeconomic sector of the community [1, 4].
There is not a distinct definition of ”low socio­economic condition”; generally, “low socioeconomic status” is considered as “poverty”. There is no definite meaning of “poverty” either, but an admissible one is ”a specific status of life in which the talents of people remain hidden or emerge with delay” [5]. Poverty is usually divided into absolute poverty and relative poverty. Generally, this classification is established according to the monthly income (poverty line). “Absolute poverty” is defined by difficulty in arrangement of basic life expenses such as food and clothing, as a result which life becomes burdensome. In contrast, “relative poverty” is a condition in which the income is just enough to pay for the basic needs. People in this class have to pass their daily lives while having the lowest standard of living while they compare themselves with the better off people in their society [5].
We have noticed that there is an annual increment of new cases of BD reported to Mashhad Vascular Surgery Research Centre (MVasRc), a referral centre in Khorasan province of Iran (Figure 1) [6]. Khorasan is the largest province in Iran and has a population of over 6 million. Therefore, an investigating programme has been commenced for various aspects of Buerger’s disease; in this paper the smoking habits and socioeconomic status of patients who reported to MVasRc are highlighted.

Material and methods
During a period of 22 months from August 2003 to June 2005, a descriptive study was conducted using a questionnaire related to the history, clinical features of BD and socioeconomic indices. This questionnaire was filled in based on the information obtained from the individual patients who corresponded with Shionoya’s criteria. Shionoya’s criteria include 1) history of smoking, 2) onset before the age of 50 years, 3) infrapopliteal arterial occlusive disease, 4) either upper limb involvement or phlebitis migrans, and 5) absence of athero­sclerotic risk factors other than smoking [7].
Owing to the fact that poverty does not only mean ”low economy”, some indices for the assessment of socioeconomic status in this study were set up regarding: 1) clean and tidy appearance, 2) level of literacy based on the high school diploma as the minimum qualification, 3) having a known professional career, 4) unemployment, longer than 3 months in Iran, 5) good quality job, with respect to the number of hours worked per day and suitable payment, 6) monthly income taking into consideration the fact that in Iran the relative and absolute poverty lines are defined as 300 and 160 US dollars respectively, and finally, 7) the place of living [5, 8].
In this study, poverty line was the index for economic status and the rest of the indices were associated with the social condition; thus, if the patient was below the poverty line, and not eligible for more than two social indices, he or she would be included in the low socioeconomic category.
Additionally, absolute lymphocyte count (ALC) as a non-specific indicator of protein-energy malnutrition [9] was measured for hospitalized patients whose cell blood count (CBC) was known before sympathectomy surgery. In healthy subjects, the absolute lymphocyte count should be above 2,500 per mm3. Mild lymphopenia is considered to be in the range 1500-2000 per mm3, and counts below 1,500 are classed as severe lymphopenia [9]. Patients were excluded from the body mass index (BMI) evaluation for biases such as major extremity amputations, atrophic limbs due to ischaemia and severe rest pain that did not allow them to stand up straight or to get on the balance for weight measurement. Also, the patients’ places of living were specified on a map of the city. The study was approved by the ethical committee of Mashhad University of Medical Sciences (MUMS).
Statistical analysis
The questionnaire was designed in Microsoft Access software version 2000 and the entered data were exported to SPSS software version 11.5 and were analysed based on descriptive methods including central and spread parameters.

Results
During the period from August 2003 to June 2005, a total of 90 patients diagnosed with BD reported to MVasRc; 86 corresponded with Shionoya’s criteria and were included in the list of patients, 61 (71.6%) were new cases of BD, 2 of them were females and only 1 had a positive family history (his father). From the total cases, 90.6% were below the relative poverty line (with an average of 280 US dollars monthly income) and 5.8% were below the absolute poverty line (with an average of 100 US dollars monthly income). All the patients had poor oral and dental hygiene but the appearances of 87.2% were acceptable. Only 4% of the patients had a high school diploma, one of them had a bachelor degree, 21% were illiterate and the rest had the ability to read and write to high school standard. 27.6% had a known profession, while the rest had temporary jobs such as simple labourers (27.9%), peasants (18.6%), taxi drivers (10.8%), hawkers (11.6%) and 3.5% were totally unemployed. Sadly, 2 of the patients were street beggars by revealing their disability. For 60% of them, the wages were not adequate for the number of hours worked per day and almost all of them had no free or leisure time. About 53% had been unemployed more than 3 months and 76% were made redundant at the time of reporting for their claudication or severe rest pain. Moreover, 43% of patients lived in the Mashhad city slum; the remainder stayed in towns or villages in the province. Lymphopenia was observed as a factor of malnutrition in 31 hospitalized patients by measuring the ALC; among these cases, 29% and 22% had severe and mild lymphopenia respectively.
About 45% of the patients had experienced a minor amputation and about 25% had a major amputation during the study.
From the total number of subjects, 66% had started smoking before the age of 20 (half of them before 15), and the lowest age of smoking was 10 (Figure 2). Cigarette smoking had a range of 2-80 cigarettes/day with an average of 22 cigarettes/day. The duration of cigarette smoking, before the onset of BD, ranged from 2 months to 35 years (Figure 3). Of patients, 94% were active smokers, 3.4% were passive smokers and the rest consumed chewing tobacco; 86% had simultaneous opium addiction. Of these patients, 24% had become addicted because of their rest pain or the depression and discomfort after amputation.

Discussion
According to our indices of socioeconomic status, 95.4% of the patients were in the low category, and their economic condition had worsened due to the disabling characteristics of this disease. Clearly, low socioeconomic status was a considerable risk factor for their tendency toward smoking and opium addiction; for instance, only 27% of the patients had a known profession or a long-term career, while absence of professional identity is a risk factor for tobacco and opium addiction [10]. Long time of working for a higher monthly income, hard and heavy jobs with inappropriate nourishment are other risk factors for smoking and in particular drug abuse, because in these patients smoking and drug addiction are the main sources of energy and the cause of making them float in their inaccessible dreams [11].
During the study the author noticed that for numerous subjects, the first manifestation of this disease had occurred following a considerable stress such as losing a family member (8 patients), divorce (3 patients), or bankruptcy (4 patients). This aspect was not considered in the primary questionnaire and only the last 19 patients were asked about it.
Furthermore, the prevalence of this disease has declined in the developed countries, such as in North America, Western Europe and Japan. The decline in prevalence of BD in these countries could be related to the decrease of smoking prevalence and more precise diagnostic criteria. However, during the last decades from 1980 to 2000 – which the diagnostic criteria established more definitely – the decreases in the prevalence of smoking and the prevalence of BD were not parallel. For instance, in the United States, the prevalence of Buerger’s disease declined from 104 to 12 per 100 000 [1]. However, during this time, the prevalence of young male current smokers had been increased from 42 300 to 50 300 per 100 000 [12]. Moreover, in Japan, the new cases of this disease reported to Nagoya University Hospital, from 1985 to 1996, showed a 3-fold decline [13]. However, the smoking prevalence had declined around 15% in that time [14]. According to the World Health Organization (WHO) in 2003, 47.7% of adult men and 11.5% of women above the age of 20 were regarded as smokers in Japan [15].
Recently, since 1990 in northern Thailand more people aged 20-50 years have been employed in industry, and as a result their living standard and sanitary condition have improved. Also, a decrease in the number of patients with BD was noticed [16].
The reports of high BD in developing countries such as India, Bangladesh, Turkey or north-east Iran (according to our study) is probably due to the rise in consumption of tobacco (3.4% per year). However, the prevalence of smoking in some developing countries, such as Iran, is still the same as or lower than many Western European countries (about 25% of adult men and 2.5% of adult women smoke in Iran, according to the report of 2005) [17-21].
There are no clear statistics about the status of poverty in Iran. Although, based on news media in Iran, the state of people in absolute poverty improved from 2003 to 2005, during the same period the condition of people in relative poverty worsened [22].
In conclusion, it can be concluded that: 1) the annual increment in the number of BD patients reporting to MVasRc, with 2) only one patient having a positive family history, 3) the variation of time and the level of tobacco consumption in studied patients, and 4) the strong relationship between this disease and low socioeconomic status in the study implies “socioeconomic status” as a controllable risk factor for the initiation of this disease. This could even contribute to the diagnostic criteria of the disease; and a better prognosis may be accomplished by improving the socioeconomic situation of the patients, at least by improving their nutritional status.
As a final suggestion, for the strong relationship between Buerger’s disease, tobacco consumption and socioeconomic status, the prevalence of this disease might be an indicator of socioeconomic development in different societies.

Acknowledgments
The author would like to appreciate the support of Mashhad University of Medical Sciences, Mashhad Vascular Surgery Research Centre (MVasRc), Dr. H. Modaghegh, Dr. H. Ravari and Dr. Gh. Kazemzadeh for their helpful cooperation in this study, and finally, Dr. A.R. Moosavi for preparation of this manuscript.

References
 1. Olin JW. Thromboangiitis Obliterans (Buerger’s disease). In: Rutherford R. Vascular surgery. 5th ed. W.B. Saunders, Philadelphia 2000; 350-62.
 2. Hanly E, Meireles O. Buerger’s disease (thromboangiitis obliterans). Available from URL: http://emedicine. medscape.com/article/460027-overview. Accessed Apr 01 2009.
 3. Allen E, Barker N, Hines E. Peripheral vascular diseases. 4th ed. WB Saunders, Philadelphia 1972; 326-49.
 4. Fleshman K. Buerger’s disease in Nepal. Trop Doct 1998; 28: 203-6.
 5. Hosseini H. Phenomenology of poverty and development. Bustane ketabe Qom 2001; 35-52.
 6. Fazeli B, Modaghegh H, Ravrai H, Kazemzadeh G. Thrombophlebitis migrans as a footprint of Buerger’s disease: a prospectivedescriptive study in north-east of Iran. Clin Rheumatol 2008; 27: 55-7.
 7. Shionoya S. Diagnostic criteria of Buerger’s disease. Int J Cardiol 1998; 66 Suppl 1: S243-5.
 8. The measure of poverty. A Report to Congress as Mandated by The Education Amendments of 1974, U.S. Department of Health, Education, and Welfare, April 1976; 52-70.
 9. Chandra RK. Immunocompetence in undernutrition. J Pediat 1972; 81: 1194-200.
10. Moosanejhad A. Review of effective factors in tendency of young population to drug abuse. In: Opium addiction and smuggled. Agah, Tehran 2002; 217.
11. Sargolzaee M. The Horizon (addiction rehabilitation). Mashhad: Daneshgah Ferdowsi 2004; 10.
12. Novotny TE, Fiore MC, Hatziandreu EJ, Giovino GA, Mills SL, Pierce JP. Trends in smoking by age and sex, United States, 1974-1987: the implications for disease impact. Prev Med 1990; 19: 552-61.
13. Matsushita M, Nishikimi N, Sakurai T, Nimura Y. Decrease in prevalence of Buerger’s disease in Japan. Surgery 1998; 124: 498-502.
14. Ohida T, Sakurai H, Mochizuki Y, et al. Smoking prevalence and attitudes toward smoking among Japanese physicians. JAMA 2001; 285: 2643-8.
15. The SuRF. Surveillance of risk factors related to noncommunicable diseases: current status of global data. Geneva: World Health Organization, 2003. Report 1.
16. Laohapensang K, Rerkasem K, Kattipattanapong V. Decrease in the incidence of Buerger’s disease recurrence in northern Thailand. Surg Today 2005; 35: 1060-5.
17. Kinare SG, Kher YR, Rao G, Sen PK. Pattern of occlusive peripheral vascular disease in India. (clinicopathological study of 79 cases). Angiology 1976; 27: 165-80.
18. Grove WJ, Stansby GP. Buerger’s disease and cigarette smoking in Bangladesh. Ann R Coll Surg Engl 1992; 74: 115-7; discussion 118.
19. Ates A, Yekeler I, Ceviz M, et al. One of the most frequent vascular diseases in northeastern of Turkey: thrombo­angiitis obliterans or Buerger’s disease (experience with 344 cases). Int J Cardiol 2006; 111: 147-53.
20. Smoking Statistics, World Health Organization. Available at: http://www.wpro.who.int/media_centre/fact_sheets/ fs_20020528.htm. Accessed Dec 03 2007.
21. Tobacco control in Iran, borderless physicians news center. Available at: http://www.pezeshk.us/?p=7712.
22. Iran Economics. One Step to Poverty. Available at: http://www.iraneconomics.net/fa/articles.asp?id=3085. Accessed Dec 03 2007.
Copyright: © 2010 Termedia & Banach. This is an Open Access article distributed under the terms of the Creative Commons Attribution-NonCommercial-ShareAlike 4.0 International (CC BY-NC-SA 4.0) License (http://creativecommons.org/licenses/by-nc-sa/4.0/), allowing third parties to copy and redistribute the material in any medium or format and to remix, transform, and build upon the material, provided the original work is properly cited and states its license.
Quick links
© 2024 Termedia Sp. z o.o.
Developed by Bentus.