Lymphography by MRI for animal model canine
Keywords:
Canine, lymphatic duct, lymph node, image by magnetic resonance, signal intensity.
Abstract
For this study were included two groups, one of 12 healthy animals and another of 10 animals affected by disease conditions in the mammary gland. With the anesthetized animal were used magnetic resonance imaging to visualize the lymph ducts and lymph nodes in the inguinale area in potentiated series in 3D TOF in dorsal plane. In both groups it was administered gadopentetate dimeglumine. To validate the technique used, were considered in the images three structures (air, fat and muscle) which IS showed significant difference between glandular breast tissue (IS 184.8 ± 28.2) and regional lymph nodes (IS 51.3 ± 5, 4), allowing to determine the benchmark for the study. It is concluded that the use of a low field equipment of MRI provides enough information to differentiate signal intensities of lymph nodes that collect lymph from pathological processes regarding healthy lymph nodes in dogsDownloads
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References
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Cserni, “Metastases in axillary sentinel lymph nodes in breast cancer as detected by intensive histopathological work up”, J Clin Pathol. 52, pp. 922-4, 1999.
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B. Misselwitz, H. Schmitt-Willich, M. Michaelis, “Interstitial magnetic resonance lymphography using a polymetric T1 contrast agent. Initial experience with gadmer-17”, Invest Radiol., 37, pp. 146-151, 2002.
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A.J. Wilhelm, G.S. Mijnhout, F.J.F. Franssen, “Radiopharmaceuticals in sentinel lymph-node detection; an overview”, Eur. J. Nucl. Med., 26, p. S36, 1999.
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M-Y. Su; E. Head, W.M. Brooks, Z. Wang, B. Muggenburg, G.E. Adam, R. Sutherland, C.W. Cotman, O. Nalcioglu, “Magnetic resonance imaging of anatomic and vascular characteristics in a canine model of human aging”, Neurobiology of Aging, vol. 19 (5), pp. 479-485, 1998.
M-Y. Su, E. Head, B. Muggenburg, G.J-Y. Chiou, J. Wang, W.M. Brooks, R, Lee, C.W. Cotman, O. Nalcioglu, MRI measurement of changes in the aging canine brain, presented at the Symposium on Brain Aging and Related Behavioral Changes in Dogs, pp. 13-16, 2002.
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D. Tapp, C.T. Siwak, F.Q. Gao, J.Y. Chiou, S.E. Black, E. Head, B.A. Muggenburg, C.W. Cotman, N.W. Milgram, L.M. Su, “Frontal lobe volume, function, and β-amyloid pathology in a canine model of aging”, Journal of Neuroscience, vol. 24 (38), pp. 8205-8213, 2004.
P.D. Tapp, K. Head, E. Head, N.W. Milgram, B.A Muggenburg, M-Y. Su, “Application of an automated voxelbased morphometry technique to assess regional gray and white matter brain atrophy in a canine model of aging”, Neuroimage, vol. 29 pp. 234-244, 2006.
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L.W. Nunes, M.D. Schnall, S.G. Orel, “Update of breast MR imaging architectural interpretation model”. Radiology, 219 (2), pp. 484-94, 2001.
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D. W. Fawcett, Tratado de histología. Sistemas vasculares sanguíneo y linfático. Interamericana McGraw Hill, 1994, p. 404.
R. Barone, “Anatomia comparata dei mammiferei domestici. Splancnologia”, Ed agricole, vol. 4. pp. 404-406, 1994.
E. Ayllon, A.J. Flores, Caracterización de tumores mamarios en la perra. Curso Oncología Mamaria en la perra, Torremolinos (Málaga), 1996. http: //www.Veterinaria.org/ajfa/col l.htm.
P.E. Flores, U.G. Cattaneo, “Tumores mamarios en caninos domésticos, epidemiología, criterios de diagnóstico y enfoque terapéutico”. Monografías de medicina veterinaria, col. 21 jul. 2001. Linfografía mediante imagen por resonancia magnética en modelo animal canino – Jaramillo, Bustamante, Gómez 59
L. Marconato, F. Del Piero, Oncologia medica dei piccoli animali, Poletto Editore Srl., 2005, pp. 2-16, 47-50, 440-459, 670-676, 679.681.
M. Weiss, R.G. Baumeister, K. Hahn, “Dynamic iymph flow imaging in patients with edema of the lower limb for evaluation of the functional outcome after autologous lymph vessel transplantation: an 8-year follow-up study”, Eur J Nucl Med Mol Imaging., 30, pp. 202-6, 2003.
Cserni, “Metastases in axillary sentinel lymph nodes in breast cancer as detected by intensive histopathological work up”, J Clin Pathol. 52, pp. 922-4, 1999.
R. El Khouli, A. Jacobs, D. Bluemke, “Magnetic resonance imaging of the breast”, Seminars in Roentgenology, Elservier, 2008.
F. Rety, O. Clement, N. Siauve, “MR lymphography using iron oxide nanoparticles in rats: Pharmacokunesis in the lymphatic system after intravenous injection”, J Magn Reson Imaging., 12, pp. 734-9, 2000.
K. Suga, Y. Yuan, N. Ogasawara, M. Okada, N. Matsunaga, “Visualization of normal and interrupted lymphatic drainage in dog whit interstitial MR Lymphography using an extracellular MR Contrast Agent, Gadopentetate dimeglumine”, Investigative radiology, vol 38, No.6, Jun. 2003.
S.G. Ruehm, C. Corot, J.F. Debatin, “Interstitial MR lymphography with a conventional extracellular gadolinium-based agent: assessment in rabbits”, Radiology, 218, pp. 664-669, 2001.
S.G. Ruehm, T. Schroeder, J.F. Debatin, “Interstitial MR Lymphography with gadoterate meglumine: initial experience in humans”, Radiology, 220, p. 816, 2001.
B.R. Krynyckyi, M.K. Shafir, S.C. Kim, D.W. Kim, A. Travis, R.M. Moadel, Ch.K. Kim. “Lymphoscintigraphy and triangulated body marking for morbidity reduction during sentinel node biopsy in breast cancer”, Int Semin Surg Oncol., 2, p. 25, 2005.
P.J. Tanis, O.E. Nieweg, R.A. Valdés-Olmos, E. Rutgers, B.B.R. Kron. “Anatomy and physiology of lymphatic drainage of the breast from the perspective of sentinel node biopsy”, Jam Coll Surg., 192, pp. 399-409, 2001.
J.F. Gallegos-Hernández, M. Aranda-Soto, P. Pichardo, R. García, J.F. Chávez, M. Arias, O.A. Melhado, “Linfadenectomía radiogiada de ganglio centinela en cáncer de mama”, Cir Ciruj., vol. 5, pp. 339-345, 2002.
K.A. Kern, “Sentinel Lymph node mapping in breast cancer using subareolar injection of blue dye”, J Am Coll Surg., 189, pp. 539-545, 1999.
K.G. Burnand, C. Mcguinness, N.R. Lagattolla, “Value of isotope lymphography in the diagnosis of lymphedema of the leg”, Br I Surg., 89, pp. 74-78, 2002.
D. Lubach, W. Ludemann, V. Berens, “Recent findings on the angioarchitecture of the lymph vessel system of human skin”, Br. J. Dermatol, 135, p. 733, 1996.
P.J. Borgstein, S. Meier, R. Pipers, “Intradermal blue dye to identify sentinel lymph node in breast cancer”, Lancet, 349, pp. 1668-69, 1999.
D. C. Conor, “The sentinel node in breast cancer: an update”, Cancer Imaging, 5, S3–S9, 2005. DOI: 10.1102/1470-7330.2005.0039
H.S. Cody, P.I. Borgen, “State of the art approaches to sentinel node biopsy for breast cancer. Study design, patient selection, technique, and quality control at Memorial Sloan Kettering”, Cancer Center. Surg. Oncol., 8, p. 85, 1999.
T. Rosenow, C. Biedendieck, H. Fricke, M. Brinkmann, U. Cirkel, W.-D. Reinbold, and E. Fricke, “Sentinel Lymph Node Biopsy in Patients with Breast Cancer: Comparison of Peritumoral and Periareolar Injection”, Geburtshilfe Frauenheilkunde, 72(11), pp. 1024-1028, Nov. 2012. doi: 10.1055/s-0032-1315304.
A. Chagpar, R.C. Martin, C. Chao, S.L. Wong, M.J. Edwards, T. Tuttle, K.M. McMasters, “Validation of subareolar and periareolar injection techniques for breast sentinel lymph node biopsy”. Arch Surg. Jun. 139 (6), 2004, pp. 614-8, discussion 618-20.
S.M. Moghimi, “Bonnemain, Subcutaneous and intravenous delivery of diagnostic agents to the lymphatic system: applications in lymphoscintigraphy and indirect lymphography”, Adv Drug Deliv Rev., vol. 37, pp. 295-312, 1999.
G.W. Schmid-schonbein, “Microlymphatics and lymph flow”, Physiol Rev., 70, pp. 987-1028, 1990.
G.L. McIntire, E.R. Bacon, K.J. Illig, “Time course of nodal enhancement with CT X-ray nanoparticle contrast agents: effect of particle size and chemical structure”, Invest Radiol., 35, pp. 91-6, 2000.
G. Staatz, C.C. Nolte-Erusting, G.B. Adam, “Interstitial T1-weighted MR lymphography: lipophilic perfluorinated chelotes in pigs”, Radiology 220, pp. 129-134, 2001.
B. Misselwitz, H. Schmitt-Willich, M. Michaelis, “Interstitial magnetic resonance lymphography using a polymetric T1 contrast agent. Initial experience with gadmer-17”, Invest Radiol., 37, pp. 146-151, 2002.
L. Qing, X. Jianrong, L. Ningfei, “Chronic lower extremity lymphedema: A comparative study of high-resolution interstitial MR lymphangiography and heavily 60 ITECKNE Vol. 14 Número 1 • ISSN 1692-1798 • ISSN Digital 2339 - 3483 • junio 2017 • 46 – 61 T2-weighted MRI”, European Journal of Radiology, 73, pp. 365-373, 2010.
G. Viale, S. Bosari, G. Mazzarol, V. Galimberti, A. Luini, P. Veronesi, “Intraoperative examination of axillary sentinel lymph nodes in breast carcinoma patients”, Cancer, 85, pp. 2433-38, 1999.
A.J. Wilhelm, G.S. Mijnhout, F.J.F. Franssen, “Radiopharmaceuticals in sentinel lymph-node detection; an overview”, Eur. J. Nucl. Med., 26, p. S36, 1999.
G. Mariani, L. Moresco, G. Viale, “Radioguided sentinel lymph node biopsy in breast cancer surgery”, J. Nucl. Med., 42, p. 1198, 2001.
L. Millán, “Aplicación de la imagen por resonancia magnética al estudio de las patologías que afectan a la columna vertebral del perro”, (Tesis Doctoral). Facultad de Veterinaria. Universidad de León. León. España. 2000.
R. Godoy, “Diagnóstico de tumores cerebrales primarios en caninos mediante imagen por resonancia magnética”, (Tesis Doctoral). Facultad de Veterinaria. Universidad de León. León, España. 2005.
A.M. Duarte, “Estudio mediante resonancia magnética del cerebro del perro geriátrico”, (Tesis Doctoral). Facultad de Veterinaria. Universidad de León. León, España, 2008.
J. Gili, Introducción biofísica a la resonancia magnética. Barcelona, España: Ed Centre Diagnóstic Pedralbes, 1993.
X.L. Jaramillo-Chaustre, A.E. Serantes-Gómez, & J.J. Bustamante-Cano, “Caracterización de la intensidad de señal de la glándula mamaria mediante imagen por resonancia magnética en modelo animal canino”, Iteckne, 13(2), pp. 137-145. Retrieved January 29, 2017, from http://www.scielo.org.co/scielo.php?script=sci_arttext&pid=S1692-17982016000200004&lng=en&tlng=es. (2016)
A.G, Dean, A.J. Dean, D. Coulombier, A.H. Burton, K.A. Brendel, D.C. Smith, R.C. Dicker, K.M. Sullivan, R.F. Fagan, Epi Info, Version 6,04: a word processing, database, and statistics program or epidemiology on microcomputer, 1994.
A. Desgrez, J. Bittoun, I. Idy-Peretti, “Bases físicas de la IRM”. Cuadernos de IRM. Barcelona, España: Ed Mason, S.A., 1991.
S. Kii, Y. Uzuka, Y. Taura, M. Nakaichi, A. Takeuchi, H. Inokuma, T. Onishi, “Magnetic resonance imaging of the lateral ventricles in beagle-type dogs”. Veterinary Radiology & Ultrasound, vol. 38 (6), pp. 430-433, 1997.
B.E. Ratsch, S. Kneissl, C. Gabler, “Comparative evaluation of the ventricles in the Yorkshire terrier and the German shepherd dog using low-field MRI”, Veterinary Radiology & Ultrasound, vol. 42 (5), pp. 410-413, 2001.
T. Vullo, E. Korenman, R.P. Manzo, D.G. Gómez, M.D.F. Deck, P.T. Cahill, “Diagnosis of cerebral ventriculomegaly in normal adult Beagles using quantitative MRI”, Veterinary Radiology & Ultrasound, vol.38 (4) pp. 277-281, 1997.
M-Y. Su; E. Head, W.M. Brooks, Z. Wang, B. Muggenburg, G.E. Adam, R. Sutherland, C.W. Cotman, O. Nalcioglu, “Magnetic resonance imaging of anatomic and vascular characteristics in a canine model of human aging”, Neurobiology of Aging, vol. 19 (5), pp. 479-485, 1998.
M-Y. Su, E. Head, B. Muggenburg, G.J-Y. Chiou, J. Wang, W.M. Brooks, R, Lee, C.W. Cotman, O. Nalcioglu, MRI measurement of changes in the aging canine brain, presented at the Symposium on Brain Aging and Related Behavioral Changes in Dogs, pp. 13-16, 2002.
V. Ho, S. Allen, M. Hood, “Renal Masses: Quantitative Assessment of Enhancement with Dynamic MR Imaging”, Radiology, vol. 224. pp. 695-700, 2002.
D. Tapp, C.T. Siwak, F.Q. Gao, J.Y. Chiou, S.E. Black, E. Head, B.A. Muggenburg, C.W. Cotman, N.W. Milgram, L.M. Su, “Frontal lobe volume, function, and β-amyloid pathology in a canine model of aging”, Journal of Neuroscience, vol. 24 (38), pp. 8205-8213, 2004.
P.D. Tapp, K. Head, E. Head, N.W. Milgram, B.A Muggenburg, M-Y. Su, “Application of an automated voxelbased morphometry technique to assess regional gray and white matter brain atrophy in a canine model of aging”, Neuroimage, vol. 29 pp. 234-244, 2006.
R. Dennis, “An introduction to veterinary CT and MR scanning”. Vet. Annual. 36, pp. 17-40, 1996.
M. Snellman, Magnetic resonance imaging in canine spontaneous neurological disorders: an evaluation of equipment and methods, Academic dissertation. University of Helsinki, Finland. 2000, pp. 32-64.
D. Thrall, “Principios físicos de la tomografía computarizado y de la resonancia magnética”. Manual de Diagnóstico Radiológico Veterinario, 4ª. ed. Clifford R. Berry, Cap. 3, 2003.
S.H. Heywang, T. Hilbertz, R. Beck, W.M. Bauer, W. Eiermann, W. Permanetter, “Gd-DTPA enhanced MR imaging of the breast in patients with postoperative scarring and silicon implants”, J Comput Assist Tomogr., 14, pp. 348±356, 1990.
T.H. Helbich, “Contrast-enhanced magnetic resonance imaging of the breast”. European Journal of Radiology 34, pp. 208-219. Department of Radiology, University of Viena, 2000. Linfografía mediante imagen por resonancia magnética en modelo animal canino – Jaramillo, Bustamante, Gómez 61
J.P. Stack, O.M. Redmond, M.B. Codd, P.A. Dervan, J.T. Ennis, “Breast disease: tissue characterization with Gd- DTPA enhancement profiles”, Radiology, 174(2), pp. 491-4, 1990.
G. Pons i Playà, “Planificación Pre-operatoria de Anastomosis Linfático-venosas mediante ICG-Linfografía y Linfo-Resonancia Magnética”. (Tesis Doctoral). Universidad Autónoma de Barcelona, Barcelona, España, 2015.
L.W. Nunes, M.D. Schnall, S.G. Orel, “Update of breast MR imaging architectural interpretation model”. Radiology, 219 (2), pp. 484-94, 2001.
S.G. Orel, M.D. Schnall, “MR imaging of the breast for the detection, diagnosis, and staging of breast cancer”, Radiology, 220, pp. 13-30, 2001.
T. Kinoshita, T. Fukutomi, K. Kubochi, “Magnetic Resonance Imaging of Benign phyllodes tumors of the breast”, The Breast Journal, vol. 10, No. 3, pp. 232-236, 2004.
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Published
2017-03-28
How to Cite
Jaramillo-Chaustre, X., Bustamante-Cano, J., & Gómez-Parra, F. (2017). Lymphography by MRI for animal model canine. ITECKNE, 14(1), 46 - 61. https://doi.org/https://doi.org/10.15332/iteckne.v14i1.1630
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Section
Research and Innovation Articles
