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Clinicopathological Diversity and Epidemiological Aspects of Canine and Feline Mammary Gland Tumors in Tehran: A Survey (2020-2022) | ||
Iranian Journal of Veterinary Medicine | ||
مقاله 5، دوره 17، شماره 3، مهر 2023، صفحه 231-242 اصل مقاله (9.37 M) | ||
نوع مقاله: Original Articles | ||
شناسه دیجیتال (DOI): 10.32598/ijvm.17.3.1005291 | ||
نویسندگان | ||
Diba Golchin1؛ Farhang Sasani* 1؛ Mir Sepehr Pedram2؛ Zohreh Khaki3 | ||
1Department of Pathology, Faculty of Veterinary Medicine, University of Tehran, Tehran, Iran. | ||
2Department of Surgery and Radiology, Faculty of Veterinary Medicine, University of Tehran, Tehran, Iran. | ||
3Department of Clinical Sciences, Faculty of Veterinary Medicine, University of Tehran, Tehran, Iran. | ||
چکیده | ||
Background: Mammary tumors are common in dogs and cats. They are models for investigating carcinogenesis and designing treatment protocols that benefit human beings. Senescence, sex, and reproductive status affect the development of such neoplasms. Objectives: In Iran’s absence of a national animal tumor registry, the present study determined clinicopathological and epidemiological aspects of canine and feline mammary tumors in referral cases of four veterinary practices across Tehran from 2020 to 2022. Here, the incidence and types of canine and feline mammary tumors are described, in addition to sex, reproductive status, age, breed, the affected mammary gland(s), grades, lymphatic invasion, and lymph node metastases. Methods: All canine and feline patients with masses in the mammary gland region were considered in this study. The resected tumors and occasional lymph nodes were macroscopically scrutinized. Hematoxylin-Eosin slides were reviewed by light microscopy and immunohistochemistry was utilized when necessary. Results: Of the 76 dogs and eight cats, 100% were females, and the majority were intact. Most patients were 10-11 years old. Purebreds were the most frequent referrals. In some patients, more than one mammary gland had developed neoplasm, i.e. 141 affected glands in 76 bitches and nine affected glands in eight queens. Tumors were presented in both chains and even on the ventral midline, with an increased preponderance of caudally located glands. Thus, the caudal-most glands, i.e. inguinal and caudal abdominal glands, constituted 31.2% and 66.7% of the affected glands in bitches and queens, respectively. Intraductal papillary carcinoma (17%) and complex carcinoma (16.3%) had the highest incidence in dogs. The most commonly observed lesions in cats were lobular hyperplasia with atypia, and duct ectasia, each encompassing 22.3% of the affected glands. Most canine neoplasms were grade I (90.3%), while grade II neoplasms had the highest incidence in cats (50%). Lymphatic invasion and lymph node metastases were seen in canine anaplastic carcinoma, solid carcinoma, and complex carcinoma, as well as feline comedocarcinoma and tubular carcinoma. Conclusion: The risk of developing malignant tumors increases as the individual ages, and generally, caudally located mammary glands in intact purebred females are at increased risk. Moreover, anaplastic carcinomas must be precisely examined, both clinically and histopathologically, for lymph node metastases. | ||
کلیدواژهها | ||
Cat؛ Dog؛ Mammary gland؛ Neoplasm؛ Surgical pathology | ||
اصل مقاله | ||
1. Introduction
Of the 30 different lesions diagnosed in 141 glands in canine patients, intraductal papillary carcinoma (Figure 6) had the highest incidence with 24(17%).
Complex carcinoma (Figure 7) had the second-highest incidence with 23(16.3%) affected glands, followed by carcinoma-mixed type with 20(14.1%) neoplastic glands (Figure 8). In feline patients, the most observed lesions were lobular hyperplasia with atypia, and duct ectasia, each with 2(22.3%) affected glands. In five dogs and two cats, more than one histologic lesion was seen within each gland. A combination of lobular hyperplasia with atypia and epitheliosis was diagnosed in a 12-year-old intact Terrier. Concurrent tubulopapillary carcinoma and suppurative mastitis were seen in a nine-year-old intact Siberian Husky. Intraductal papillary carcinoma was associated with lobular hyperplasia with atypia in a five-year-old Docker spayed after its third heat cycle. Duct ectasia and intraductal papillary adenoma were simultaneously observed in an 11-year-old Terrier spayed after its third heat cycle. An eight-year-old Terrier, spayed after its third heat cycle, suffered from duct ectasia with dysplastic alterations. In two cats, a three-year-old Persian and a 15-year-old domestic shorthair (DSH), duct ectasia was seen accompanied by lobular hyperplasia with atypia and tubulopapillary carcinoma, respectively. This heterogeneity was also observed between different glands of the same individual (13 dogs and one cat), i.e. neoplastic glands presented various neoplasms.
References Abdulhussain Fadhil, A., Abdul Hussein, H., Jawad, M., Khaled Younis Albahadly, W., Hussein, A. S., & Abed Jawad, M., et al. (2022). Identify breast cancer risk factors using the Gail assessment model in Iraq. Archives of Razi Institute, 77(5), 1901-1907. [DOI:10.22092/ARI.2022.359509.2436] Argyle, D. J., Turek, M. M., & MacDonald, V. (2008). Canine and feline mammary tumors. In: D. J. Argyle, M. J. Brearley, & M. M. Turek (Eds.), Decision making in small animal oncology(pp. 161-170). New Jersey: John Wiley & Sons, Inc. [Link] Ciaputa, R., Kandefer-Gola, M., Nowak, M., & Madej, J. A. (2013). Prevalence of tumours in domestic animals in the lower silesia (Poland) in 2009-2011. Journal of Veterinary Research, 57(1), 53-59. [DOI:10.2478/bvip-2013-0010] Devarathnam, J., Suresh Kumar, R. V., Bharathi, S., Anand Kumar, A., & Jagapathi Ramayya, P. (2021). Epidemiological studies of canine mammary gland tumors. The Pharma Innovation Journal, 10(7), 13-17. [Link] Dorn, C. R., Taylor, D. O. N., Schneider, R., Hibbard, H. H., & Klauber, M. R. (1968). Survey of animal neoplasms in Alameda and Contra Costa Counties, California. II. Cancer morbidity in dogs and cats from Alameda County. Journal of the National Cancer Institute, 40(2), 307-318. [DOI:10.1093/jnci/40.2.307] Elahirad, E., Sasani, F., Khosravi, A., Gharagozlou M. J., & Khanbarari, F. (2021). Evaluation of cytokeratin 7 expression in different mammary gland neoplasms. Iranian Journal of Veterinary Medicine, 15(1), 56-67. [Link] Ežerskytė, A., Zamokas, G., Grigonis, A., & Juodžiukynienė, N. (2011). The retrospective analysis of mammary tumors in dogs. Veterinarija Ir Zootechnika, 53(75), 3-8. [Link] García, E., Alpízar, A., Fajardo, R., Córdova, D., Pérez, L., & Martínez, S. (2019). Epidemiology of tumors in dogs in the capital of the state of Mexico from 2002-2016. Arquivo brasileiro de Medicina Veterinária e Zootecnia, 71(4), 1085-1092. [DOI:10.1590/1678-4162-10534] Gedon, J., Wehrend, A., & Kessler, M. (2022). Ovariectomy reduces the risk of tumour development and influences the histologic continuum in canine mammary tumours. Veterinary and Comparative Oncology, 20(2), 476-483. [DOI:10.1111/vco.12793][PMID] Goldschmidt, M., Peña, L., Rasotto, R., & Zappulli, V. (2011). Classification and Grading of Canine Mammary Tumors. Veterinary Pathology, 48(1), 117-131. [DOI:10.1177/0300985810393258][PMID] Goldschmidt, M. H., Peña, L., & Zappulli, V. (2017). Tumors of the mammary gland. In: D. J. Meuten (Ed), Tumors in domestic animals (pp. 723-765). New Jersey: John Wiley & Sons, Inc., [DOI:10.1002/9781119181200.ch17] Hameed, B. H., Abdulsatar Al-Rayahi, I., & Muhsin, S. S. (2022). The preoperative serum levels of the anaphylatoxins C3a and C5a and their association with clinico-pathological factors in breast cancer patients. Archives of Razi Institute, 77(5), 1873-1879. [Link] Hemanth, I., Kumar, R., Varshney, K. C., Nair, M. G., Kumar, B. R., & Sivakumar, M., et al. (2015). Epidemiological and clinical studies on canine mammary tumors. The Indian Journal of Veterinary Research, 24(1), 11-14. [Link] Kim, Y. H., Ahn, N. K., Roh, I. S., Yoon, B. I., & Han, J. H. (2009). Retrospective investigation of canine skin and mammary tumors in Korea. Journal of Veterinary Clinics, 26(6), 556-562. [Link] Mills, S. W., Musil, K. M., Davies, J. L., Hendrick, S., Duncan, C., & Jackson, M. L., et al. (2015). Prognostic value of histologic grading for feline mammary carcinoma: A retrospective survival analysis. Veterinary Pathology, 52(2), 238-249. [DOI:10.1177/0300985814543198][PMID] Nadhiya, C., Nair, M. G., Kumar, R., Uma, A. W. L. S., & Alphonse, R. M. D. (2020). Occurrence and pathology of canine mammary neoplasms- A prospective study citation. Journal of Entomology and Zoology Studies, 8(4), 1498-1503. [Link] Noury, S., Bouayad, H., Tligui, N., & Azrib, R. (2020). A retrospective study on frequency of canine tumors at the Veterinary Teaching Hospital in Rabat (Morocco). Moroccan Journal of Agricultural Sciences, 1(1), 34-38. [Link] Overley, B., Shofer, F. S., Goldschmidt, M. H., Sherer, D., & Sorenmo, K. U. (2005). Association between ovarihysterectomy and feline mammary carcinoma. Journal of Veterinary Internal Medicine, 19(4), 560-563. [DOI:10.1111/j.1939-1676.2005.tb02727.x][PMID] Pastor, N., Caballé, N. C., Santella, M., Ezquerra, L. J., Tarazona, R., & Duran, E. (2018). Epidemiological study of canine mammary tumors: age, breed, size and malignancy. Australian Journal of Veterinary Science, 50(3), 143-147. [DOI:10.4067/S0719-81322018000300143] Patel, M. P., Ghodasara, D. J., Raval, S. H., & Joshi, B. P. (2019). Incidence, gross morphology, histopathology and immunohistochemistry of canine mammary tumors. The Indian Journal of Veterinary Sciences and Biotechnology, 14(4), 40-44. [Link] Peña, L., De Andrés, P. J., Clemente, M., Cuesta, P., & Pérez-Alenza, M. D. (2013). Prognostic value of histological grading in noninflammatory canine mammary carcinomas in a prospective study with two-year follow-up: Relationship with clinical and histological characteristics. Veterinary Pathology, 50(1), 94-105. [DOI:10.1177/0300985812447830][PMID] Runnells, R. A., Monlux, W. S., & Monlux, A. W. (1965). Principles of veterinary pathology. Iowa: Iowa State University Press. [Link] Saba, C. F., Rogers, K. S., Newman, S. J., Mauldin, G. E., & Vail, D. M. (2007). Mammary gland tumors in male dogs. Journal of Veterinary Internal Medicine, 21(5), 1056-1059. [DOI:10.1111/j.1939-1676.2007.tb03064.x] Sahabi, K., Selvarajah, G. T., Noordin, M. M., Sharma, R. S. K., & Dhaliwal, G. K. (2015). Retrospective histopathological study of canine mammary gland tumours diagnosed from 2006 - 2012 in university putra Malaysia. Journal of Veterinary Malaysia, 27(1), 1-6. [Link] Salas, Y., Márquez, A., Diaz, D., & Romero, L. (2015). Epidemiological study of mammary tumors in female dogs diagnosed during the period 2002-2012: A growing animal health problem. PLoS One, 10(5), e0127381. [DOI:10.1371/journal.pone.0127381][PMID][PMCID] Silva, H. C., Oliveira, A. R., Horta, R. S., Rassele Merísio, A. C., de Sena, B. V., & Carlos de Souza, M. C., et al. (2019). Epidemiology of canine mammary gland tumours in Espírito Santo, Brazil. Acta Scientiae Veterinariae, 47(1). [DOI:10.22456/1679-9216.89901] Sorenmo, K. U., Kristiansen, V. M., Cofone, M. A., Shofer, F. S., Breen, A. M., & Langeland, M., et al. (2009). Canine mammary gland tumours; A histological continuum from benign to malignant; clinical and histopathological evidence. Veterinary and Comparative Oncology, 7(3), 162-172. [DOI:10.1111/j.1476-5829.2009.00184.x][PMID] Šoštarić-Zuckermann, I. C., Severin, K., Hohšteter, M., Artuković, B., Beck, A., & Kurilj, . A. G., etal. (2013). Incidence and types of canine tumours in Croatia. Veterinarski Arhiv, 83(1), 31-45. [Link] Varallo, G. R., Gelaleti, G. B., Maschio-Signorini, L. B., Moschetta, M. G., Lopes, J. R., & De Nardi, A. B., et al. (2019). Prognostic phenotypic classification for canine mammary tumors. Oncology Letters, 18(6), 6545–6553. [DOI:10.3892/ol.2019.11052][PMID][PMCID] Vascellari, M., Capello, K., Carminato, A., Zanardello, C., Baioni, E., & Mutinelli, F. (2016). Incidence of mammary tumors in the canine population living in the Veneto region (Northeastern Italy): Risk factors and similarities to human breast cancer. Preventive Veterinary Medicine, 126, 183-189. [DOI:10.1016/j.prevetmed.2016.02.008][PMID] Zatloukal, J., Lorenzová, J., Tich F., Neâas, A., Kecová, H., & Kohout, P. (2005). Breed and age as risk factors for canine mammary tumours. Acta Veterinaria Brno, 74(1), 103-109. [DOI:10.2754/avb200574010103] | ||
مراجع | ||
Abdulhussain Fadhil, A., Abdul Hussein, H., Jawad, M., Khaled Younis Albahadly, W., Hussein, A. S., & Abed Jawad, M., et al. (2022). Identify breast cancer risk factors using the Gail assessment model in Iraq. Archives of Razi Institute, 77(5), 1901-1907. [DOI:10.22092/ARI.2022.359509.2436] Argyle, D. J., Turek, M. M., & MacDonald, V. (2008). Canine and feline mammary tumors. In: D. J. Argyle, M. J. Brearley, & M. M. Turek (Eds.), Decision making in small animal oncology(pp. 161-170). New Jersey: John Wiley & Sons, Inc. [Link] Ciaputa, R., Kandefer-Gola, M., Nowak, M., & Madej, J. A. (2013). Prevalence of tumours in domestic animals in the lower silesia (Poland) in 2009-2011. Journal of Veterinary Research, 57(1), 53-59. [DOI:10.2478/bvip-2013-0010] Devarathnam, J., Suresh Kumar, R. V., Bharathi, S., Anand Kumar, A., & Jagapathi Ramayya, P. (2021). Epidemiological studies of canine mammary gland tumors. The Pharma Innovation Journal, 10(7), 13-17. [Link] Dorn, C. R., Taylor, D. O. N., Schneider, R., Hibbard, H. H., & Klauber, M. R. (1968). Survey of animal neoplasms in Alameda and Contra Costa Counties, California. II. Cancer morbidity in dogs and cats from Alameda County. Journal of the National Cancer Institute, 40(2), 307-318. [DOI:10.1093/jnci/40.2.307] Elahirad, E., Sasani, F., Khosravi, A., Gharagozlou M. J., & Khanbarari, F. (2021). Evaluation of cytokeratin 7 expression in different mammary gland neoplasms. Iranian Journal of Veterinary Medicine, 15(1), 56-67. [Link] Ežerskytė, A., Zamokas, G., Grigonis, A., & Juodžiukynienė, N. (2011). The retrospective analysis of mammary tumors in dogs. Veterinarija Ir Zootechnika, 53(75), 3-8. [Link] García, E., Alpízar, A., Fajardo, R., Córdova, D., Pérez, L., & Martínez, S. (2019). Epidemiology of tumors in dogs in the capital of the state of Mexico from 2002-2016. Arquivo brasileiro de Medicina Veterinária e Zootecnia, 71(4), 1085-1092. [DOI:10.1590/1678-4162-10534] Gedon, J., Wehrend, A., & Kessler, M. (2022). Ovariectomy reduces the risk of tumour development and influences the histologic continuum in canine mammary tumours. Veterinary and Comparative Oncology, 20(2), 476-483. [DOI:10.1111/vco.12793][PMID] Goldschmidt, M., Peña, L., Rasotto, R., & Zappulli, V. (2011). Classification and Grading of Canine Mammary Tumors. Veterinary Pathology, 48(1), 117-131. [DOI:10.1177/0300985810393258][PMID] Goldschmidt, M. H., Peña, L., & Zappulli, V. (2017). Tumors of the mammary gland. In: D. J. Meuten (Ed), Tumors in domestic animals (pp. 723-765). New Jersey: John Wiley & Sons, Inc., [DOI:10.1002/9781119181200.ch17] Hameed, B. H., Abdulsatar Al-Rayahi, I., & Muhsin, S. S. (2022). The preoperative serum levels of the anaphylatoxins C3a and C5a and their association with clinico-pathological factors in breast cancer patients. Archives of Razi Institute, 77(5), 1873-1879. [Link] Hemanth, I., Kumar, R., Varshney, K. C., Nair, M. G., Kumar, B. R., & Sivakumar, M., et al. (2015). Epidemiological and clinical studies on canine mammary tumors. The Indian Journal of Veterinary Research, 24(1), 11-14. [Link] Kim, Y. H., Ahn, N. K., Roh, I. S., Yoon, B. I., & Han, J. H. (2009). Retrospective investigation of canine skin and mammary tumors in Korea. Journal of Veterinary Clinics, 26(6), 556-562. [Link] Mills, S. W., Musil, K. M., Davies, J. L., Hendrick, S., Duncan, C., & Jackson, M. L., et al. (2015). Prognostic value of histologic grading for feline mammary carcinoma: A retrospective survival analysis. Veterinary Pathology, 52(2), 238-249. [DOI:10.1177/0300985814543198][PMID] Nadhiya, C., Nair, M. G., Kumar, R., Uma, A. W. L. S., & Alphonse, R. M. D. (2020). Occurrence and pathology of canine mammary neoplasms- A prospective study citation. Journal of Entomology and Zoology Studies, 8(4), 1498-1503. [Link] Noury, S., Bouayad, H., Tligui, N., & Azrib, R. (2020). A retrospective study on frequency of canine tumors at the Veterinary Teaching Hospital in Rabat (Morocco). Moroccan Journal of Agricultural Sciences, 1(1), 34-38. [Link] Overley, B., Shofer, F. S., Goldschmidt, M. H., Sherer, D., & Sorenmo, K. U. (2005). Association between ovarihysterectomy and feline mammary carcinoma. Journal of Veterinary Internal Medicine, 19(4), 560-563. [DOI:10.1111/j.1939-1676.2005.tb02727.x][PMID] Pastor, N., Caballé, N. C., Santella, M., Ezquerra, L. J., Tarazona, R., & Duran, E. (2018). Epidemiological study of canine mammary tumors: age, breed, size and malignancy. Australian Journal of Veterinary Science, 50(3), 143-147. [DOI:10.4067/S0719-81322018000300143] Patel, M. P., Ghodasara, D. J., Raval, S. H., & Joshi, B. P. (2019). Incidence, gross morphology, histopathology and immunohistochemistry of canine mammary tumors. The Indian Journal of Veterinary Sciences and Biotechnology, 14(4), 40-44. [Link] Peña, L., De Andrés, P. J., Clemente, M., Cuesta, P., & Pérez-Alenza, M. D. (2013). Prognostic value of histological grading in noninflammatory canine mammary carcinomas in a prospective study with two-year follow-up: Relationship with clinical and histological characteristics. Veterinary Pathology, 50(1), 94-105. [DOI:10.1177/0300985812447830][PMID] Runnells, R. A., Monlux, W. S., & Monlux, A. W. (1965). Principles of veterinary pathology. Iowa: Iowa State University Press. [Link] Saba, C. F., Rogers, K. S., Newman, S. J., Mauldin, G. E., & Vail, D. M. (2007). Mammary gland tumors in male dogs. Journal of Veterinary Internal Medicine, 21(5), 1056-1059. [DOI:10.1111/j.1939-1676.2007.tb03064.x] Sahabi, K., Selvarajah, G. T., Noordin, M. M., Sharma, R. S. K., & Dhaliwal, G. K. (2015). Retrospective histopathological study of canine mammary gland tumours diagnosed from 2006 - 2012 in university putra Malaysia. Journal of Veterinary Malaysia, 27(1), 1-6. [Link] Salas, Y., Márquez, A., Diaz, D., & Romero, L. (2015). Epidemiological study of mammary tumors in female dogs diagnosed during the period 2002-2012: A growing animal health problem. PLoS One, 10(5), e0127381. [DOI:10.1371/journal.pone.0127381][PMID][PMCID] Silva, H. C., Oliveira, A. R., Horta, R. S., Rassele Merísio, A. C., de Sena, B. V., & Carlos de Souza, M. C., et al. (2019). Epidemiology of canine mammary gland tumours in Espírito Santo, Brazil. Acta Scientiae Veterinariae, 47(1). [DOI:10.22456/1679-9216.89901] Sorenmo, K. U., Kristiansen, V. M., Cofone, M. A., Shofer, F. S., Breen, A. M., & Langeland, M., et al. (2009). Canine mammary gland tumours; A histological continuum from benign to malignant; clinical and histopathological evidence. Veterinary and Comparative Oncology, 7(3), 162-172. [DOI:10.1111/j.1476-5829.2009.00184.x][PMID] Šoštarić-Zuckermann, I. C., Severin, K., Hohšteter, M., Artuković, B., Beck, A., & Kurilj, . A. G., etal. (2013). Incidence and types of canine tumours in Croatia. Veterinarski Arhiv, 83(1), 31-45. [Link] Varallo, G. R., Gelaleti, G. B., Maschio-Signorini, L. B., Moschetta, M. G., Lopes, J. R., & De Nardi, A. B., et al. (2019). Prognostic phenotypic classification for canine mammary tumors. Oncology Letters, 18(6), 6545–6553. [DOI:10.3892/ol.2019.11052][PMID][PMCID] Vascellari, M., Capello, K., Carminato, A., Zanardello, C., Baioni, E., & Mutinelli, F. (2016). Incidence of mammary tumors in the canine population living in the Veneto region (Northeastern Italy): Risk factors and similarities to human breast cancer. Preventive Veterinary Medicine, 126, 183-189. [DOI:10.1016/j.prevetmed.2016.02.008][PMID] Zatloukal, J., Lorenzová, J., Tich F., Neâas, A., Kecová, H., & Kohout, P. (2005). Breed and age as risk factors for canine mammary tumours. Acta Veterinaria Brno, 74(1), 103-109. [DOI:10.2754/avb200574010103] | ||
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