Animal Models for the Study of Lymphatic Insufficiency

Shin, William S.; Szuba, Andrzej; Rockson, Stanley G.

doi:10.1089/153968503321642642

Cited by 49 publications

(54 citation statements)

References 44 publications

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“…Surprisingly, all dogs showed improvement of their lymphedema irrespective of the group, suggesting that lympho-lymphatic anastomosis in microsurgical lymph node transplantation has little clinical relevance. Regrettably, no dog presented a complete resolution of the disease (6).…”

Section: Beginnings With Canine Modelsmentioning

confidence: 97%

“…This model was used to study lymphaticovenous microanastomoses (as reviewed in ref. 6). Researchers showed that postoperative pressure gradients between the lymph and venous blood were inversed when lymphedema tended to resolve, thus causing lymph reflux and thrombosis of the anastomosis.…”

Section: Beginnings With Canine Modelsmentioning

confidence: 99%

“…6) extensively irradiated the groin of 15 dogs preoperatively with a single dose of 15 Gray (Gy). An extensive excision of all connective tissue, muscle fascia, and deep lymphatics was then performed.…”

Section: Beginnings With Canine Modelsmentioning

confidence: 99%

“…6) irradiated dogs in the knee with a single dose of 12 Gy. A surgical excision of a circumferential strip of skin and s.c. tissue followed.…”

Section: Beginnings With Canine Modelsmentioning

confidence: 99%

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Acquired Lymphedema: An Urgent Need for Adequate Animal Models

Hadamitzky

Pabst

2008

Cancer Research

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In cancer patients, the removal of tumor-draining lymph nodes during tumor resection can lead to acquired lymphedema. This disease, which is characterized by tissue swelling and increased risk of infection due to restricted lymph flow, lacks an effective treatment. Limitations to the design and conduct of randomized trials to date have limited the evaluation of proposed surgical techniques. As a result, animal models have provided an important research base. This review summarizes work in canine, rabbit, and rodent models of acquired lymphedema, focusing on arising limitations and potential applications. [Cancer Res 2008;68(2):343-5]

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Section: Beginnings With Canine Modelsmentioning

confidence: 97%

Section: Beginnings With Canine Modelsmentioning

confidence: 99%

Section: Beginnings With Canine Modelsmentioning

confidence: 99%

“…6) irradiated dogs in the knee with a single dose of 12 Gy. A surgical excision of a circumferential strip of skin and s.c. tissue followed.…”

Section: Beginnings With Canine Modelsmentioning

confidence: 99%

See 2 more Smart Citations

Acquired Lymphedema: An Urgent Need for Adequate Animal Models

Hadamitzky

Pabst

2008

Cancer Research

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“…This was considered to be indicative of insufficient drainage of the lymph that had flowed from the extracellular fluid into the lymph vessels. 8,9) Normal lymph vessels are straight in form, but in cases of lymphostasis, their lumens become enlarged, as is seen in , and 28 days after the procedure, the lymphatic vessels in the lymphatic insufficiency model tissue exhibited significantly greater diameters than those in the control tissue (*P <0 .05). (C) At 28 days after the procedure, the number of lymphatic vessels in the lymphatic insufficiency model tissue was lower than that seen in the control tissue (n = 5, *P <0.05).…”

Section: Presence Of Lymphatic Insufficiency In the Animal Modelmentioning

confidence: 88%

Insufficient Lymph Drainage Causes Abnormal Lipid Accumulation and Vein Wall Degeneration

Tanaka

Yamamoto

Suzuki

et al. 2016

Annals of Vascular Diseases

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Mapping Superficial Lymphatic Territories in the Rabbit

Soto-Miranda

Suami

Chang

2013

The Anatomical Record

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Little is known about the anatomy of the lymphatic system in the rabbit with regard to relationships between the lymphatic vessel and lymph node. According to our previous studies in human cadavers and canines, the superficial lymphatic system could be divided into lymphatic territories. The aim of this study was to completely map the superficial lymphatic system in the rabbit. We used our microinjection technique and histological analysis for dissecting studies and recently developed indocyanine green (ICG) fluorescent lymphography for demonstrating dynamic lymph flow in living rabbits. Real-time ICG fluorescent lymphography was performed in two living New Zealand White rabbits, and direct dye microinjection of the lymphatic vessels was performed in eight dead rabbits. To assess the relationships between the vascular and lymphatic systems in rabbits, we performed radiocontrast injection into arteries in two dead rabbits prior to the lymphatic injection. The ICG fluorescent lymphography revealed eight lymphatic territories in the preauricular, submandibular, root of the lateral neck, axillary, lumbar, inguinal, root of the tail, and popliteal regions. We injected blue acrylic dye into every lymphatic vessel 0.1 mm in diameter or larger. We then dissected and chased the stained lymphatic vessels proximally until the vessels connected to the first tier lymph node. This procedure was repeated throughout the body until all the relationships between the lymphatic vessels and lymph nodes were defined. The lymphatic system of the rabbit could be defined as eight lymphatic territories, each with its own lymphatic vessels and lymph node. Anat Rec, 296:965-970, 2013. V C 2013 Wiley Periodicals, Inc.Key words: lymphatic system; indocyanine green fluorescent lymphography; microinjection; rabbits Our knowledge of the lymphatic system in animals and humans is limited and is one of the least understood aspect of the gross anatomy (Shin et al., 2003;Hadamitzky and Pabst, 2008). A better understanding of the lymphatic system is of the utmost importance in establishing the scientific basis for the clinical management of infectious diseases, lymphedema, and cancer metastasis. Since Aselli described lymphatic vessels as "lacteals" (Aselli, 1627), researchers have used mercury (Nuck, 1692;Cruikshank, 1786;Mascagni, 1787;Sappey, 1874) and dye (Gerota, 1896;Bartels, 1909) in cadaveric studies and radiocontrast medium (Kinmonth, 1952) and radioisotopes (Sherman and Ter-Pogoissian, 1953) in clinical settings to demonstrate the lymphatic system.Researchers have investigated the anatomy of the lymphatic system in various species: rats, dogs, pigs,

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Animal Models for the Study of Lymphatic Insufficiency

Cited by 49 publications

References 44 publications

Acquired Lymphedema: An Urgent Need for Adequate Animal Models

Acquired Lymphedema: An Urgent Need for Adequate Animal Models

Insufficient Lymph Drainage Causes Abnormal Lipid Accumulation and Vein Wall Degeneration

Mapping Superficial Lymphatic Territories in the Rabbit

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