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Water pipe smoking and human oral cancers
Medical Hypotheses 74 (2010) 457–459
Contents lists available at ScienceDirect
Medical Hypotheses journal homepage: www.elsevier.com/locate/mehy
Water pipe smoking and human oral cancers Samer Rastam a,b, Fu-Min Li c, Fouad M. Fouad a, Haysam M. Al Kamal a, Nizar Akil a,b, Ala-Eddin Al Moustafa a,b,d,e,* a
Syrian Research Cancer Centre, Syrian Society Against Cancer, Aleppo, Syria Departments of Anatomy & Embryology and Pathology, Aleppo University, Aleppo, Syria c Emergency Medical Centre, Xu Zhou Hospital, South-East University, Xu Zhou, Jiang Su, China d Department of Oncology, McGill University, Montreal, Quebec, Canada e Department of Mechanical & Industrial Engineering, Concordia University, Montreal, Quebec, Canada b
a r t i c l e
i n f o
Article history: Received 27 September 2009 Accepted 4 October 2009
s u m m a r y While cigarette smoking is recognized as an important risk factor in human oral cancers, the effect of water pipe smoking (WPS) on these cancers is not known. WPS is very common in the young adult population, especially in the Middle East, and has been associated with several respiratory problems. However, to date, there have been no studies examining the association between WPS and the progression of human oral cancers. Currently, the role of WPS in human oral cancers remains uncertain because of the limited number of investigations. This raises the question of whether WPS plays a significant role in the development of human oral carcinomas. In this paper, we propose the hypothesis that human oral normal epithelial cells are vulnerable to persistent WPS; moreover, WPS could play an important role in the initiation of a neoplastic transformation of human normal oral epithelial cells. Therefore, we believe that an international collaboration of epidemiological and clinical studies as well as cellular and molecular biology investigations is necessary to answer this important question. Ó 2009 Elsevier Ltd. All rights reserved.
Introduction Cancers of the oral cavity, larynx and pharynx, collectively referred to as squamous cell carcinomas of the head and neck are estimated by the WHO to be the eighth most common cancer worldwide. More than 290,000 new cases worldwide are being diagnosed annually with oral squamous cell carcinomas [1]. Surgery, radiation and/or chemotherapy have not improved the 50% overall 5-year survival of this devastating disease over the past 25 years [2,3]. In general, the incidence of these cancers has significant local variation and is increasing in some parts of the world [1]. For example, in India and other Asian countries including some of the Middle East counties, oral and oropharyngeal malignancies are very high in comparison with other regions in the world, with this particularly high prevalence being attributed to the influence of carcinogens and region-specific epidemiological factors, especially tobacco including water pipe smoking (WPS), betel quid chewing and viruses such as high-risk HPVs and EBV [4–10]. WPS is traditional and common in different parts of the world especially in the majority Middle East countries and some North
* Corresponding author. Address: Syrian Research Cancer Centre, Syrian Society Against Cancer, Aleppo, Syria. Tel.: +963 21 2644246; fax: +963 21 26499150. E-mail addresses: [email protected], aalmoust@encs. concordia.ca, [email protected] (A.-E. Al Moustafa). 0306-9877/$ - see front matter Ó 2009 Elsevier Ltd. All rights reserved. doi:10.1016/j.mehy.2009.10.013
African countries as well as India [11–14]. It is believed to have been used to smoke tobacco or other substances by the indigenous people of Africa and Asia including Middle East for at least four centuries [12,13]. The water pipe is now the object of renewed interest, as its use has recently been spreading among young people in the western countries including the United States and Canada [14,15, and personal observation]. Though, a precise evaluation of the health effects of WPS is hindered by the paucity of published studies [14,16]. Smoke from water pipes contains most of the compounds that are also present in cigarette smoke, albeit in different proportions. More importantly, the longer duration of a WPS session leads to a much higher yield of tar, nicotine, carbon monoxide, polycyclic aromatic hydrocarbons and heavy metals than cigarette smoking. The water pipe smoker may therefore inhale the equivalent of 100 or more cigarettes [16–18]. Studies on the consequences for human health of WPS mostly come, for the time being, from the Middle East with occasional evaluations as part of case-control studies looking at risk factors for specific cancers that include the assessment of different forms of smoking, for example in India or China, where an increased risk of lung cancer was indicated as well as other cancers, such as lip and oral cancers [7,12–14,19]. Overall, these studies demonstrate that WPS could play an important role in human oral carcinogenesis. Meanwhile, the specific role of WPS in human oral carcinomas remains to be determined.
458
S. Rastam et al. / Medical Hypotheses 74 (2010) 457–459
Hypothesis In this paper, we propose the hypothesis that human normal oral epithelial cells are susceptible to WPS, a cultural activity that is very common among young adults, especially in the Middle East. Moreover, we presume that WPS enhances the progression of human oral cancers. Therefore, we firmly believe that extensive epidemiological, clinical and biological studies, including a microarray investigation, are required to elucidate the role of WPS in human oral carcinogenesis.
Discussion and conclusion It is well established that tobacco-induced pulmonary cellular network presents a unique environment in which carcinogenesis proceeds in complicity with surrounding lung inflammatory, structural and stromal cells [20,21]. The commonalities in smoking, chronic obstructive pulmonary disease (COPD) and lung cancer begin with the profound alterations induced by cigarette smoke and probably by WPS, which contains known carcinogens as well as high levels of reactive oxygen species (ROS) [20,22,23]. The ready induction of ROS after tobacco smoke exposure leads to impairment of epithelial and endothelial cell functions as well as inflammation. The ongoing inflammatory processes in COPD may be persistent even after smoking cessation and have been quantified and related to disease progression [20,23]. As COPD progresses, the percentage of the airways that contain macrophages, neutrophils, T and B cells as well as lymphoid aggregates containing follicles increases [20,21,23]. Smoking-induced epithelial abnormalities can serve both as targets for abnormal inflammatory responses and as initiators of deregulated inflammation. Cytokines chemokines and growth factors released by alveolar macrophages, lymphocytes, neutrophils, endothelial cells and fibroblasts can act to promote epithelial dysfunction and malignant progression [20,21,24]. Some of these relationships are most clearly demonstrable in genetically engineered animal models [25]. Epithelial cells can also serve as a site of deregulated inflammatory responses in pulmonary tumorigenesis. For example, chronic exposure to tobacco compounds can lead to loss of p53 and K-ras mutation. These in turn can lead to deregulated inflammation and angiogenesis. For example, Komarova et al. [26] found that p53, by acting to suppress NF-kB activity, could serve as a ‘‘buffer” for inflammatory responses. These studies clearly demonstrate the carcinogenic role of cigarette smoke and probably WPS in human lung and oral epithelial cells. On the other hand, it is well known that water pipe smokers inhale the equivalent of 100 or more cigarettes which can affect the lungs and the oral cavity of the smokers [16–18]. Therefore, we firmly believe that WPS can provoke lung cancer as well as oral cancer. However, an international collaboration of epidemiological and clinical studies as well as cellular and molecular biology including microarray investigations are necessary to elucidate the specific role of WPS in human cancers especially oral cancer. For example in our laboratory, we have previously identified a list of genes that are differentially expressed between matched primary human oral normal and cancer cells using microarray technology. Our list of genes represents a useful source of potential targets for human oral cancers prevention and/or therapeutics [27]. Accordingly, we think that identification of differential gene deregulation patterns between human normal oral epithelial cells and their matched counterpart exposed to the water pipe smoke is the basis for a comprehensive understanding of the molecular mechanism of the carcinogenic process related to WPS, as these differences will most likely represent the coordinated alteration of critical pathways involved in human oral carcinogenesis of water pipe smokers.
Conflicts of interest statement The authors declare the absence of any conflicting or interests. Acknowledgments We are thankful to Mrs. A. Kassab and Dr. A.D. Darnel for their critical discussion and reading of the manuscript. The research works from Dr. Al Moustafa’s laboratory has been supported by the Canadian Institutes for Health Research, the Cancer Research Society Inc. of Canada, the National Colorectal Cancer Campaign and the Fonds de la Recherche en Santé du Québec (FRSQ – Réseau du Cancer). References [1] Parkin DM, Bray F, Ferlay J, Pisani P. Global cancer statistics, 2002. CA Cancer J Clin 2005;55(2):74–108. [2] Mücke T, Wagenpfeil S, Kesting MR, Hölzle F, Wolff KD. Recurrence interval affects survival after local relapse of oral cancer. Oral Oncol 2009;45(8):687–91. [3] Khalili J. Oral cancer: risk factors, prevention and diagnostic. Exp Oncol 2008;30(4):259–64. [4] Wei WI, Sham JS. Nasopharyngeal carcinoma. Lancet 2005;365(9476):2041–54. [5] Babu KG. Oral cancers in India. Semin Oncol 2001;28(2):169–73. [6] Whitney BM, Chan AT, Rickinson AB, Lee SP, Lin CK, Johnson PJ. Frequency of Epstein-Barr virus-specific cytotoxic T lymphocytes in the blood of Southern Chinese blood donors and nasopharyngeal carcinoma patients. J Med Virol 2002;67(3):359–63. [7] Dar-Odeh NS, Abu-Hammad OA. Narghile smoking and its adverse health consequences: a literature review. Br Dent J 2009;206(11):571–3. [8] Curado MP, Hashibe M. Recent changes in the epidemiology of head and neck cancer. Curr Opin Oncol 2009;21(3):194–200. [9] Gillison ML, Koch WM, Capone RB, Spafford M, Westra WH, Wu L, et al. Evidence for a causal association between human papillomavirus and a subset of head and neck cancers. J Natl Cancer Inst 2000;92(9):709–20. [10] Al Moustafa AE, Chen D, Ghabreau L, Akil N. Association between human papillomavirus and Epstein-Barr virus infections in human oral carcinogenesis. Med Hypothes 2009;73(2):184–6. [11] Rastam S, Ward KD, Eissenberg T, Maziak W. Estimating the beginning of the water pipe epidemic in Syria. BMC Public Health 2004;4:4–32. [12] Maziak W, Ward KD, Afifi Soweid RA, Eissenberg T. Tobacco smoking using a waterpipe: a re-emerging strain in a global epidemic. Tob Control 2004;13(4):327–33. [13] Urkin J, Ochaion R, Peleg A. Hubble bubble equals trouble: the hazards of water pipe smoking. Scientific World J 2006;2(6):1990–7. [14] Prignot JJ, Sasco AJ, Poulet E, Gupta PC, Aditama TY. Alternative forms of tobacco use. Int J Tuberc Lung Dis 2008;12(7):718–27. [15] Primack BA, Walsh M, Bryce C, Eissenberg T. Water-pipe tobacco smoking among middle and high school students in Arizona. Pediatrics 2009;123(2):e282–8. [16] Chaouachi K. Hookah (Shisha, Narghile) Smoking and Environmental Tobacco Smoke (ETS). A critical review of the relevant literature and the public health consequences. Int J Environ Res Public Health 2009;6(2):798–843. [17] World Health Organization Study Group on Tobacco Product Regulation. Water pipe tobacco smoking: health effects, research needs and recommended actions by regulators 2005. Geneva, Switzerland: WHO; 2005. [accessed April 2007]. [18] Shihadeh A, Saleh R. Polycyclic aromatic hydrocarbons, carbon monoxide, ‘tar’, and nicotine in the mainstream smoke aerosol of the narghile water pipe. Food Chem Toxicol 2005;43:655–61. [19] Lubin JH, Li JY, Xuan XZ, Cai SK, Luo QS, Yang LF, et al. Risk of lung cancer among cigarette and pipe smokers in southern China. Int J Cancer 1992;51(3):390–5. [20] O’Donnell R, Breen D, Wilson S, Djukanovic R. Inflammatory cells in the airways in COPD. Thorax 2006;61:448–54. [21] Taraseviciene-Stewart L, Voelkel NF. Molecular pathogenesis of emphysema. J Clin Invest 2008;118:394–402. [22] Smith CJ, Perfetti TA, King JA. Perspectives on pulmonary inflammation and lung cancer risk in cigarette smokers. Inhal Toxicol 2006;18:6672677. [23] Hogg JC, Chu F, Utokaparch S, Woods R, Elliott WM, Buzatu L, et al. The nature of small-airway obstruction in chronic obstructive pulmonary disease. N Engl J Med 2004;350:2645–53. [24] Dasari V, Gallup M, Lemjabbar H, Maltseva I, McNamara N. Epithelialmesenchymal transition in lung cancer: is tobacco the ‘‘smoking gun’’? Am J Respir Cell Mol Biol 2006;35:3–9. [25] Abate-Shen C, Brown PH, Colburn NH, Gerner EW, Green JE, Lipkin M, et al. The untapped potential of genetically engineered mouse models in chemoprevention research: opportunities and challenges. Cancer Prevent Res 2008;1:161–6.
S. Rastam et al. / Medical Hypotheses 74 (2010) 457–459 [26] Komarova EA, Krivokrysenko V, Wang K, Neznanov N, Chernov MV, Komarov PG, et al. P53 is a suppressor of inflammatory response in mice. FASEB J 2005;19:1030–2. [27] Al Moustafa AE, Alaoui-Jamali MA, Batist G, Hernandez-Perez M, Serruya C, Alpert L, et al. Identification of genes associated with head and neck
459
carcinogenesis by cDNA microarray comparison between matched primary normal epithelial and squamous carcinoma cells. Oncogene 2002;21(17):2634–40.
Contents lists available at ScienceDirect
Medical Hypotheses journal homepage: www.elsevier.com/locate/mehy
Water pipe smoking and human oral cancers Samer Rastam a,b, Fu-Min Li c, Fouad M. Fouad a, Haysam M. Al Kamal a, Nizar Akil a,b, Ala-Eddin Al Moustafa a,b,d,e,* a
Syrian Research Cancer Centre, Syrian Society Against Cancer, Aleppo, Syria Departments of Anatomy & Embryology and Pathology, Aleppo University, Aleppo, Syria c Emergency Medical Centre, Xu Zhou Hospital, South-East University, Xu Zhou, Jiang Su, China d Department of Oncology, McGill University, Montreal, Quebec, Canada e Department of Mechanical & Industrial Engineering, Concordia University, Montreal, Quebec, Canada b
a r t i c l e
i n f o
Article history: Received 27 September 2009 Accepted 4 October 2009
s u m m a r y While cigarette smoking is recognized as an important risk factor in human oral cancers, the effect of water pipe smoking (WPS) on these cancers is not known. WPS is very common in the young adult population, especially in the Middle East, and has been associated with several respiratory problems. However, to date, there have been no studies examining the association between WPS and the progression of human oral cancers. Currently, the role of WPS in human oral cancers remains uncertain because of the limited number of investigations. This raises the question of whether WPS plays a significant role in the development of human oral carcinomas. In this paper, we propose the hypothesis that human oral normal epithelial cells are vulnerable to persistent WPS; moreover, WPS could play an important role in the initiation of a neoplastic transformation of human normal oral epithelial cells. Therefore, we believe that an international collaboration of epidemiological and clinical studies as well as cellular and molecular biology investigations is necessary to answer this important question. Ó 2009 Elsevier Ltd. All rights reserved.
Introduction Cancers of the oral cavity, larynx and pharynx, collectively referred to as squamous cell carcinomas of the head and neck are estimated by the WHO to be the eighth most common cancer worldwide. More than 290,000 new cases worldwide are being diagnosed annually with oral squamous cell carcinomas [1]. Surgery, radiation and/or chemotherapy have not improved the 50% overall 5-year survival of this devastating disease over the past 25 years [2,3]. In general, the incidence of these cancers has significant local variation and is increasing in some parts of the world [1]. For example, in India and other Asian countries including some of the Middle East counties, oral and oropharyngeal malignancies are very high in comparison with other regions in the world, with this particularly high prevalence being attributed to the influence of carcinogens and region-specific epidemiological factors, especially tobacco including water pipe smoking (WPS), betel quid chewing and viruses such as high-risk HPVs and EBV [4–10]. WPS is traditional and common in different parts of the world especially in the majority Middle East countries and some North
* Corresponding author. Address: Syrian Research Cancer Centre, Syrian Society Against Cancer, Aleppo, Syria. Tel.: +963 21 2644246; fax: +963 21 26499150. E-mail addresses: [email protected], aalmoust@encs. concordia.ca, [email protected] (A.-E. Al Moustafa). 0306-9877/$ - see front matter Ó 2009 Elsevier Ltd. All rights reserved. doi:10.1016/j.mehy.2009.10.013
African countries as well as India [11–14]. It is believed to have been used to smoke tobacco or other substances by the indigenous people of Africa and Asia including Middle East for at least four centuries [12,13]. The water pipe is now the object of renewed interest, as its use has recently been spreading among young people in the western countries including the United States and Canada [14,15, and personal observation]. Though, a precise evaluation of the health effects of WPS is hindered by the paucity of published studies [14,16]. Smoke from water pipes contains most of the compounds that are also present in cigarette smoke, albeit in different proportions. More importantly, the longer duration of a WPS session leads to a much higher yield of tar, nicotine, carbon monoxide, polycyclic aromatic hydrocarbons and heavy metals than cigarette smoking. The water pipe smoker may therefore inhale the equivalent of 100 or more cigarettes [16–18]. Studies on the consequences for human health of WPS mostly come, for the time being, from the Middle East with occasional evaluations as part of case-control studies looking at risk factors for specific cancers that include the assessment of different forms of smoking, for example in India or China, where an increased risk of lung cancer was indicated as well as other cancers, such as lip and oral cancers [7,12–14,19]. Overall, these studies demonstrate that WPS could play an important role in human oral carcinogenesis. Meanwhile, the specific role of WPS in human oral carcinomas remains to be determined.
458
S. Rastam et al. / Medical Hypotheses 74 (2010) 457–459
Hypothesis In this paper, we propose the hypothesis that human normal oral epithelial cells are susceptible to WPS, a cultural activity that is very common among young adults, especially in the Middle East. Moreover, we presume that WPS enhances the progression of human oral cancers. Therefore, we firmly believe that extensive epidemiological, clinical and biological studies, including a microarray investigation, are required to elucidate the role of WPS in human oral carcinogenesis.
Discussion and conclusion It is well established that tobacco-induced pulmonary cellular network presents a unique environment in which carcinogenesis proceeds in complicity with surrounding lung inflammatory, structural and stromal cells [20,21]. The commonalities in smoking, chronic obstructive pulmonary disease (COPD) and lung cancer begin with the profound alterations induced by cigarette smoke and probably by WPS, which contains known carcinogens as well as high levels of reactive oxygen species (ROS) [20,22,23]. The ready induction of ROS after tobacco smoke exposure leads to impairment of epithelial and endothelial cell functions as well as inflammation. The ongoing inflammatory processes in COPD may be persistent even after smoking cessation and have been quantified and related to disease progression [20,23]. As COPD progresses, the percentage of the airways that contain macrophages, neutrophils, T and B cells as well as lymphoid aggregates containing follicles increases [20,21,23]. Smoking-induced epithelial abnormalities can serve both as targets for abnormal inflammatory responses and as initiators of deregulated inflammation. Cytokines chemokines and growth factors released by alveolar macrophages, lymphocytes, neutrophils, endothelial cells and fibroblasts can act to promote epithelial dysfunction and malignant progression [20,21,24]. Some of these relationships are most clearly demonstrable in genetically engineered animal models [25]. Epithelial cells can also serve as a site of deregulated inflammatory responses in pulmonary tumorigenesis. For example, chronic exposure to tobacco compounds can lead to loss of p53 and K-ras mutation. These in turn can lead to deregulated inflammation and angiogenesis. For example, Komarova et al. [26] found that p53, by acting to suppress NF-kB activity, could serve as a ‘‘buffer” for inflammatory responses. These studies clearly demonstrate the carcinogenic role of cigarette smoke and probably WPS in human lung and oral epithelial cells. On the other hand, it is well known that water pipe smokers inhale the equivalent of 100 or more cigarettes which can affect the lungs and the oral cavity of the smokers [16–18]. Therefore, we firmly believe that WPS can provoke lung cancer as well as oral cancer. However, an international collaboration of epidemiological and clinical studies as well as cellular and molecular biology including microarray investigations are necessary to elucidate the specific role of WPS in human cancers especially oral cancer. For example in our laboratory, we have previously identified a list of genes that are differentially expressed between matched primary human oral normal and cancer cells using microarray technology. Our list of genes represents a useful source of potential targets for human oral cancers prevention and/or therapeutics [27]. Accordingly, we think that identification of differential gene deregulation patterns between human normal oral epithelial cells and their matched counterpart exposed to the water pipe smoke is the basis for a comprehensive understanding of the molecular mechanism of the carcinogenic process related to WPS, as these differences will most likely represent the coordinated alteration of critical pathways involved in human oral carcinogenesis of water pipe smokers.
Conflicts of interest statement The authors declare the absence of any conflicting or interests. Acknowledgments We are thankful to Mrs. A. Kassab and Dr. A.D. Darnel for their critical discussion and reading of the manuscript. The research works from Dr. Al Moustafa’s laboratory has been supported by the Canadian Institutes for Health Research, the Cancer Research Society Inc. of Canada, the National Colorectal Cancer Campaign and the Fonds de la Recherche en Santé du Québec (FRSQ – Réseau du Cancer). References [1] Parkin DM, Bray F, Ferlay J, Pisani P. Global cancer statistics, 2002. CA Cancer J Clin 2005;55(2):74–108. [2] Mücke T, Wagenpfeil S, Kesting MR, Hölzle F, Wolff KD. Recurrence interval affects survival after local relapse of oral cancer. Oral Oncol 2009;45(8):687–91. [3] Khalili J. Oral cancer: risk factors, prevention and diagnostic. Exp Oncol 2008;30(4):259–64. [4] Wei WI, Sham JS. Nasopharyngeal carcinoma. Lancet 2005;365(9476):2041–54. [5] Babu KG. Oral cancers in India. Semin Oncol 2001;28(2):169–73. [6] Whitney BM, Chan AT, Rickinson AB, Lee SP, Lin CK, Johnson PJ. Frequency of Epstein-Barr virus-specific cytotoxic T lymphocytes in the blood of Southern Chinese blood donors and nasopharyngeal carcinoma patients. J Med Virol 2002;67(3):359–63. [7] Dar-Odeh NS, Abu-Hammad OA. Narghile smoking and its adverse health consequences: a literature review. Br Dent J 2009;206(11):571–3. [8] Curado MP, Hashibe M. Recent changes in the epidemiology of head and neck cancer. Curr Opin Oncol 2009;21(3):194–200. [9] Gillison ML, Koch WM, Capone RB, Spafford M, Westra WH, Wu L, et al. Evidence for a causal association between human papillomavirus and a subset of head and neck cancers. J Natl Cancer Inst 2000;92(9):709–20. [10] Al Moustafa AE, Chen D, Ghabreau L, Akil N. Association between human papillomavirus and Epstein-Barr virus infections in human oral carcinogenesis. Med Hypothes 2009;73(2):184–6. [11] Rastam S, Ward KD, Eissenberg T, Maziak W. Estimating the beginning of the water pipe epidemic in Syria. BMC Public Health 2004;4:4–32. [12] Maziak W, Ward KD, Afifi Soweid RA, Eissenberg T. Tobacco smoking using a waterpipe: a re-emerging strain in a global epidemic. Tob Control 2004;13(4):327–33. [13] Urkin J, Ochaion R, Peleg A. Hubble bubble equals trouble: the hazards of water pipe smoking. Scientific World J 2006;2(6):1990–7. [14] Prignot JJ, Sasco AJ, Poulet E, Gupta PC, Aditama TY. Alternative forms of tobacco use. Int J Tuberc Lung Dis 2008;12(7):718–27. [15] Primack BA, Walsh M, Bryce C, Eissenberg T. Water-pipe tobacco smoking among middle and high school students in Arizona. Pediatrics 2009;123(2):e282–8. [16] Chaouachi K. Hookah (Shisha, Narghile) Smoking and Environmental Tobacco Smoke (ETS). A critical review of the relevant literature and the public health consequences. Int J Environ Res Public Health 2009;6(2):798–843. [17] World Health Organization Study Group on Tobacco Product Regulation. Water pipe tobacco smoking: health effects, research needs and recommended actions by regulators 2005. Geneva, Switzerland: WHO; 2005.
S. Rastam et al. / Medical Hypotheses 74 (2010) 457–459 [26] Komarova EA, Krivokrysenko V, Wang K, Neznanov N, Chernov MV, Komarov PG, et al. P53 is a suppressor of inflammatory response in mice. FASEB J 2005;19:1030–2. [27] Al Moustafa AE, Alaoui-Jamali MA, Batist G, Hernandez-Perez M, Serruya C, Alpert L, et al. Identification of genes associated with head and neck
459
carcinogenesis by cDNA microarray comparison between matched primary normal epithelial and squamous carcinoma cells. Oncogene 2002;21(17):2634–40.