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Gross Anatomical, Histological, and Cytological Study of the One-humped Camel (Camelus dromedarius) Lymph Nodes in Southeastern Algeria | ||
Iranian Journal of Veterinary Medicine | ||
مقاله 5، دوره 17، شماره 4، دی 2023، صفحه 333-344 اصل مقاله (944.52 K) | ||
نوع مقاله: Original Articles | ||
شناسه دیجیتال (DOI): 10.32598/ijvm.17.4.202301 | ||
نویسندگان | ||
Mohamed Amine Fares* 1؛ Tarek Khenenou1؛ Djallal Eddine Rahmoun2؛ Hemida Houari3 | ||
1Laboratory of Sciences and Technics of the Livings, Institute of Agriculture and Veterinary Sciences Taoura, University of Souk Ahras, Souk Ahras, Algeria. | ||
2Laboratory of Animal Production, Biotechnologies and Health (PABIOS), Institute of Agriculture and Veterinary Sciences Taoura, University of Souk Ahras, Souk Ahras, Algeria. | ||
3Institute of Veterinary Sciences, University of Tiaret, Tiaret, Algeria. | ||
چکیده | ||
Background: The immune system of the dromedary has remained a subject that has not been extensively researched in immunology. Researchers in morphology and immunology have long sought to delve into the structure and function of the dromedary’s immune system to gain a deeper understanding of its mechanisms and potential applications in human and animal health. Objectives: This study aims to elucidate the histological architecture and cellular composition of the lymph nodes in the indigenous dromedary breed of the El Oued region in Algeria and to compare the results with those of prior investigations of lymph node structures in other mammalian species. Methods: Hematoxylin, eosin stain, and Masson’s trichrome stain techniques were used for histological analysis. In contrast, methylene blue, eosin, and May-Grünwald Giemsa staining techniques were used for cytological analysis. The study data were collected and analyzed using qualitative and quantitative methods to identify the histological and cellular features of the lymph nodes. Results: Our study revealed that the lymphatic follicles in the dromedary’s lymph nodes have a higher concentration of lymphocytes within the follicles’ germinal center than other species. The lymph nodes were observed to be divided into conglomerates. The cytological study showed that the major cellular population consisted of lymphocytes, followed by macrophages and reticulocytes according to the localization and the functional zone. Conclusion: The study provided novel insights into the architecture and cellular composition of the lymph nodes of dromedaries, distinct from those of other species. These findings may have implications for the understanding and treatment of immune-related conditions in dromedaries. | ||
کلیدواژهها | ||
Cytology؛ Dromedary؛ Histology؛ Lymph nodes؛ Morphology | ||
اصل مقاله | ||
1. Introduction
2. Materials and Methods
Statistical analysis
The quantitative research revealed that in the active lymph node follicles, lymphocytes occupied a maximum value in the tracheobronchial lymph node, with a Mean±SD value of 77.93%±1.28%. In contrast, they occupied a minimum Mean±SD value of 61.7%±0.04% in the popliteal lymph node. Regarding plasma cells, it was found that the maximum Mean±SD value found was 5.93%±1.63% in the tracheobronchial lymph node. In contrast, the minimum Mean±SD value was 0.65%±0.47% in the popliteal lymph node, while reticulocytes occupied a Mean±SD area of 25.93%±1.16% in the pre-scapular lymph node. In contrast, they occupied a minimum Mean±SD area of 6.87±0.68 in the tracheobronchial lymph node. Thus, the maximum Mean±SD area occupied by the granulocytes and the erythrocytes was 13.36%±1.55% in the popliteal lymph node, while the minimum value was, on the other hand, it was found that the maximum surface occupied by macrophages was 11.36%±1.47% in the retro-pharyngeal lymph node. In contrast, the minimum Mean±SD value was 1.98%±0.22% in the pre-scapular lymph node, while the minimum was 1.25%±0.37% in the retropharyngeal lymph node (Figure 8).
Funding
Al-Ramadan, S. Y. (2022). Tissues and organs of the immune system of dromedary camel (camelus dromedarius): A comparative review. Journal of Camel Practice and Research, 29(3), 265-279. [DOI:10.5958/2277-8934.2022.00037.6] Al Ramadan, S. Y., Salem, K. T. A. M., Alshubaith, I. H., Al-Ali, A. M., Abohelaika, S., Moqbel, M. S., & Alluwaimi, A. M. (2021). Selected aspects of camel immune system and immune responses. Open Journal of Veterinary Medicine, 11(6), 177-211. [DOI:10.4236/ojvm.2021.116013] Avtandilov, G. G., & Zukakova, I. B. (1975). [Method of morphometric study of the kidneys (Russian)]. Biulleten' Eksperimental'noi Biologii I Meditsiny, 80(7), 122–124. [PMID] Elmore, S. A. (2006). Histopathology of the lymph nodes. Toxicologic Pathology, 34(5), 425-54. [DOI:10.1080/01926230600964722][PMID][PMCID] Hussen, J., & Al-Sukruwah, M. A. (2022). The impact of the animal housing system on immune cell composition and function in the blood of dromedary camels. Animals, 12(3), 317. [DOI:10.3390/ani12030317][PMID][PMCID] Faraz, A., Khan, N. U., Passantino, A., Pugliese, M., Eyduran, E., & Pastrana, C. I., et al. (2021). Effect of different watering regimes in summer season on water intake, feed intake, and milk production of marecha she-camel (camelus dromedarius). Animals (Basel), 11(5), 1342. [DOI:10.3390/ani11051342] [PMID] [PMCID] Fares, M. A., Rahmoun, D. E., & Lieshchova, M. A. (2019). Anatomy of lymph nodes deep cortex in laboratory spices. Theoretical and Applied Veterinary Medicine, 7(4), 251-256. [DOI:10.32819/2019.74043] Fischer, A. H., Jacobson, K. A., Rose, J., & Zeller, R. (2008). Hematoxylin and eosin staining of tissue and cell sections. CSH protocols, 2008, pdb.prot4986. [DOI:10.1101/pdb.prot4986][PMID] Foot, N. C. (1933). The Masson trichrome staining methods in routine laboratory use. Stain Technology, 8(3), 101-110. [DOI:10.3109/10520293309116112] Gavrilin, P. M., & Kolesnyk, A. O. (2019). [Lymphatic supply and architectonics of intranodal lymphatic channel of lymph nodes of domestic pig (Russian)]. Theoretical and Applied Veterinary Medicine, 7(3), 158-162. [DOI:10.32819/2019.71028] Gavrilin, P. N., Gavrilina, O. G., Brygadyrenko, V. V., & Rahmoun, D. E. (2017). Structural and functional units of parenchyma of lymph nodes of dromedaries (Camelus dromedarius). Regulatory Mechanisms in Biosystems, 8(3), 232-333. [DOI: 10.15421/021751] Gavrilin, P. N., Lieshchova, M. A., Gavrilina, O. G., & Boldyreva, T. F. (2018). Prenatal morphogenesis of compartments of the parenchyma of the lymph nodes of domestic cattle (Bos taurus). Regulatory Mechanisms in Biosystems, 9(1), 95-104. [DOI:10.15421/021814] Giuliano, A. E., McCall, L., Beitsch, P., Whitworth, P. W., Blumencranz, P., & Leitch, A. M., et al. (2010). Locoregional recurrence after sentinel lymph node dissection with or without axillary dissection in patients with sentinel lymph node metastases: The American College of Surgeons Oncology Group Z0011 randomized trial. Annals of Surgery, 252(3), 426-433. [DOI:10.1097/SLA.0b013e3181f08f32][PMID][PMCID] Gupta, P., Gupta, N., Kumar, P., Bhardwaj, S., Srinivasan, R., & Dey, P., et al. (2021). Assessment of risk of malignancy by application of the proposed Sydney system for classification and reporting lymph node cytopathology. Cancer Cytopathology, 129(9), 701-718. [DOI:10.1002/cncy.22432][PMID] Hajinejad-Bamroud, G., Maghsoudi, A., Rokouei, M., Jahantigh, M., & Masoudi, A. (2020). Comparison of anatomical and blood biochemical parameters of Iranian racing and dual-purpose camels (camelus dromedarius). Iranian Journal of Veterinary Medicine, 14(3), 289-302. [Link] Hu, X., Laguerre, V., Packert, D., Nakasone, A., & Moscinski, L. (2015). A Simple and efficient method for preparing cell slides and staining without using cytocentrifuge and cytoclips. International Journal of Cell Biology, 2015, 813216. [DOI:10.1155/2015/813216][PMID][PMCID] Kamoun, M., Zerva, L., Sloan, S., Zmijewski, C., Monos, D., & Trinchieri, G. (1992). Induction of HLA class II molecules on human T cells: Relationship to immunoregulation and the pathogenesis of AIDS. DNA and Cell Biology, 11(3), 265–268.[DOI:10.1089/dna.1992.11.265][PMID] Lawson, T. L., Foley, W. D., Thorsen, M. K., Chintapalli, K., Smith, D. F., & Alpern, M., et al. (1985). Magnetic resonance imaging of discrete and conglomerate retroperitoneal lymph node masses. Radiographics, 5(6), 971-984. [DOI:10.1148/radiographics.5.6.3880010][PMID] Lobov, G. I., & Pan'kova, M. N. (2011). Mechanical properties of lymph node capsule. Bulletin of Experimental Biology and Medicine, 151(1), 5-8. [DOI:10.1007/s10517-011-1246-7][PMID] Fares, M. A., Khenenou, T., & Rahmoun, D. E. (2023). Anatomo-topographic and histo-cytological study of dromedary's spleen in Algeria. Folia Morphologica, 82(1), 137–146. [DOI:10.5603/FM.a2022.0004] [PMID] Moradi, Z., Ebrahimzadeh, E., Shayan, P., & Zarghami, F. (2021). Morphological and molecular investigation of anaplasma infection in dromedary camel (camelus dromedarius) in Bushehr Province, Iran. Iranian Journal of Veterinary Medicine, 15(3), 295-300. [DOI:10.22059/IJVM.2020.306095.1005109] Rahmoun, D. E., Barani, S., & Lieshchova, M. A. (2020). Anatomo-topographic and radiological study of the sheep lymph node in Algeria. Journal of Veterinary Medicine and Research, 7(4). [DOI:10.47739/2378-931X/1195] Rahmoun, D. E., Lieshchova, M., & Fares, M. A. (2020). Morphological and radiological study of lymph nodes in dromedaries in Algeria. Regulatory Mechanisms in Biosystems, 11(2), 330-337. [Link] Stark, E., Haffner, O., & Kučera, E. (2022). Low-Cost method for 3D Body measurement based on photogrammetry using smartphone. Electronics, 11(7), 1048. [DOI:10.3390/electronics11071048] von Andrian, U. H., & Mempel, T. R. (2003). Homing and cellular traffic in lymph nodes. Nature Reviews. Immunology, 3(11), 867-878. [DOI:10.1038/nri1222][PMID] Zidan, M., & Pabst, R. (2012). Histological, histochemical and immunohistochemical study of the lymph nodes of the one humped camel (Camelus dromedarius). Veterinary Immunology and Immunopathology, 145(1-2), 191-198. [DOI:10.1016/j.vetimm.2011.11.004] [PMID] | ||
مراجع | ||
Al-Ramadan, S. Y. (2022). Tissues and organs of the immune system of dromedary camel (camelus dromedarius): A comparative review. Journal of Camel Practice and Research, 29(3), 265-279. [DOI:10.5958/2277-8934.2022.00037.6]
Al Ramadan, S. Y., Salem, K. T. A. M., Alshubaith, I. H., Al-Ali, A. M., Abohelaika, S., Moqbel, M. S., & Alluwaimi, A. M. (2021). Selected aspects of camel immune system and immune responses. Open Journal of Veterinary Medicine, 11(6), 177-211. [DOI:10.4236/ojvm.2021.116013]
Avtandilov, G. G., & Zukakova, I. B. (1975). [Method of morphometric study of the kidneys (Russian)]. Biulleten' Eksperimental'noi Biologii I Meditsiny, 80(7), 122–124. [PMID]
Elmore, S. A. (2006). Histopathology of the lymph nodes. Toxicologic Pathology, 34(5), 425-54. [DOI:10.1080/01926230600964722][PMID][PMCID]
Hussen, J., & Al-Sukruwah, M. A. (2022). The impact of the animal housing system on immune cell composition and function in the blood of dromedary camels. Animals, 12(3), 317. [DOI:10.3390/ani12030317][PMID][PMCID]
Faraz, A., Khan, N. U., Passantino, A., Pugliese, M., Eyduran, E., & Pastrana, C. I., et al. (2021). Effect of different watering regimes in summer season on water intake, feed intake, and milk production of marecha she-camel (camelus dromedarius). Animals (Basel), 11(5), 1342. [DOI:10.3390/ani11051342] [PMID] [PMCID]
Fares, M. A., Rahmoun, D. E., & Lieshchova, M. A. (2019). Anatomy of lymph nodes deep cortex in laboratory spices. Theoretical and Applied Veterinary Medicine, 7(4), 251-256. [DOI:10.32819/2019.74043]
Fischer, A. H., Jacobson, K. A., Rose, J., & Zeller, R. (2008). Hematoxylin and eosin staining of tissue and cell sections. CSH protocols, 2008, pdb.prot4986. [DOI:10.1101/pdb.prot4986][PMID]
Foot, N. C. (1933). The Masson trichrome staining methods in routine laboratory use. Stain Technology, 8(3), 101-110. [DOI:10.3109/10520293309116112]
Gavrilin, P. M., & Kolesnyk, A. O. (2019). [Lymphatic supply and architectonics of intranodal lymphatic channel of lymph nodes of domestic pig (Russian)]. Theoretical and Applied Veterinary Medicine, 7(3), 158-162. [DOI:10.32819/2019.71028]
Gavrilin, P. N., Gavrilina, O. G., Brygadyrenko, V. V., & Rahmoun, D. E. (2017). Structural and functional units of parenchyma of lymph nodes of dromedaries (Camelus dromedarius). Regulatory Mechanisms in Biosystems, 8(3), 232-333. [DOI: 10.15421/021751]
Gavrilin, P. N., Lieshchova, M. A., Gavrilina, O. G., & Boldyreva, T. F. (2018). Prenatal morphogenesis of compartments of the parenchyma of the lymph nodes of domestic cattle (Bos taurus). Regulatory Mechanisms in Biosystems, 9(1), 95-104. [DOI:10.15421/021814]
Giuliano, A. E., McCall, L., Beitsch, P., Whitworth, P. W., Blumencranz, P., & Leitch, A. M., et al. (2010). Locoregional recurrence after sentinel lymph node dissection with or without axillary dissection in patients with sentinel lymph node metastases: The American College of Surgeons Oncology Group Z0011 randomized trial. Annals of Surgery, 252(3), 426-433. [DOI:10.1097/SLA.0b013e3181f08f32][PMID][PMCID]
Gupta, P., Gupta, N., Kumar, P., Bhardwaj, S., Srinivasan, R., & Dey, P., et al. (2021). Assessment of risk of malignancy by application of the proposed Sydney system for classification and reporting lymph node cytopathology. Cancer Cytopathology, 129(9), 701-718. [DOI:10.1002/cncy.22432][PMID]
Hajinejad-Bamroud, G., Maghsoudi, A., Rokouei, M., Jahantigh, M., & Masoudi, A. (2020). Comparison of anatomical and blood biochemical parameters of Iranian racing and dual-purpose camels (camelus dromedarius). Iranian Journal of Veterinary Medicine, 14(3), 289-302. [Link]
Hu, X., Laguerre, V., Packert, D., Nakasone, A., & Moscinski, L. (2015). A Simple and efficient method for preparing cell slides and staining without using cytocentrifuge and cytoclips. International Journal of Cell Biology, 2015, 813216. [DOI:10.1155/2015/813216][PMID][PMCID]
Kamoun, M., Zerva, L., Sloan, S., Zmijewski, C., Monos, D., & Trinchieri, G. (1992). Induction of HLA class II molecules on human T cells: Relationship to immunoregulation and the pathogenesis of AIDS. DNA and Cell Biology, 11(3), 265–268.[DOI:10.1089/dna.1992.11.265][PMID]
Lawson, T. L., Foley, W. D., Thorsen, M. K., Chintapalli, K., Smith, D. F., & Alpern, M., et al. (1985). Magnetic resonance imaging of discrete and conglomerate retroperitoneal lymph node masses. Radiographics, 5(6), 971-984. [DOI:10.1148/radiographics.5.6.3880010][PMID]
Lobov, G. I., & Pan'kova, M. N. (2011). Mechanical properties of lymph node capsule. Bulletin of Experimental Biology and Medicine, 151(1), 5-8. [DOI:10.1007/s10517-011-1246-7][PMID]
Fares, M. A., Khenenou, T., & Rahmoun, D. E. (2023). Anatomo-topographic and histo-cytological study of dromedary's spleen in Algeria. Folia Morphologica, 82(1), 137–146. [DOI:10.5603/FM.a2022.0004] [PMID]
Moradi, Z., Ebrahimzadeh, E., Shayan, P., & Zarghami, F. (2021). Morphological and molecular investigation of anaplasma infection in dromedary camel (camelus dromedarius) in Bushehr Province, Iran. Iranian Journal of Veterinary Medicine, 15(3), 295-300. [DOI:10.22059/IJVM.2020.306095.1005109]
Rahmoun, D. E., Barani, S., & Lieshchova, M. A. (2020). Anatomo-topographic and radiological study of the sheep lymph node in Algeria. Journal of Veterinary Medicine and Research, 7(4). [DOI:10.47739/2378-931X/1195]
Rahmoun, D. E., Lieshchova, M., & Fares, M. A. (2020). Morphological and radiological study of lymph nodes in dromedaries in Algeria. Regulatory Mechanisms in Biosystems, 11(2), 330-337. [Link]
Stark, E., Haffner, O., & Kučera, E. (2022). Low-Cost method for 3D Body measurement based on photogrammetry using smartphone. Electronics, 11(7), 1048. [DOI:10.3390/electronics11071048]
von Andrian, U. H., & Mempel, T. R. (2003). Homing and cellular traffic in lymph nodes. Nature Reviews. Immunology, 3(11), 867-878. [DOI:10.1038/nri1222][PMID]
Zidan, M., & Pabst, R. (2012). Histological, histochemical and immunohistochemical study of the lymph nodes of the one humped camel (Camelus dromedarius). Veterinary Immunology and Immunopathology, 145(1-2), 191-198. [DOI:10.1016/j.vetimm.2011.11.004] [PMID] | ||
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