CANINE LIMB MODELS

The use of dogs to develop models of chronic lymphedema has a long history and dates back to Halsted, ¹⁴ who was interested in this disease after he popularized the radical mastectomy. However, despite multiple attempts, Halsted was unable to develop a chronic model of lymphedema that was sustained over the long-term despite extreme surgical resections. Reichert ¹⁵ and Drinker et al ² expanded on these efforts and removed the lymph nodes and deep soft tissues. Drinker et al repeatedly cannulated the deep lymphatics with sclerosing agents. Eventually, chronic lymphedema developed in a subset of animals at the cost of severe surgical morbidity and mortality and in most cases, multiple surgical interventions. Olszewski et al ³ understood the importance of the superficial lymphatic network and described a canine model in which the deep lymphatics were ligated at the midthigh, and a circumferential strip of skin, subcutaneous tissues, fascia, and periosteum was excised (to remove the superficial lymphatics), leaving a gap for healing by secondary intention. They followed 23 dogs over 1 year and found that all animals had initial edema that resolved in 6 to 8 weeks. However, in 8 of 23 animals (that is, 35%), chronic lymphedema developed 7 to 10 months later, which was confirmed by limb volume measurements, histologic findings, and radiologic analysis.

Danese et al ⁴ reported a canine hindlimb model that combined surgery and radiation treatment. In this model, the animals were initially treated with 1500 rad from the midthigh to the right lower quadrant, followed by surgical excision 2 to 4 weeks later. During surgery, the skin flaps were elevated from the abdomen to knee and muscle connective tissues, and the periosteum was removed, leaving only the skin bridge and neurovascular bundle intact. The deep lymphatics were visualized and removed for a length of at least 5 cm. These animals had initial edema that resolved, and approximately 50% developed chronic lymphedema at a later stage. Chen et al ⁵ also described a radiation and surgical model in which the animals for the most part developed modest lymphedema (15% increase in volume). However, the combination of surgery and radiation was morbid, with postoperative infection and mortality rates of about 30%.

Suami et al ⁶ reported on lymph node dissection of a canine forelimb model. In this model, which used detailed radiologic methods and indocyanine green (ICG) lymphangiography, they described the lymphatic anatomy of normal dogs and also the anatomy 6 months after axillary lymph node dissection. Although axillary lymphadenectomy in this model did not result in long-term differences in limb volume or overt lymphedema, they noted a rerouting of the lymphatic system in the axilla, with bypass of the damaged lymphatic vessels through the superficial network.

In general, the main reason for the use of dog models is the relative size of the lymphatic vessels and supporting structures, enabling the identification, cannulation, and radiologic analysis of the lymphatic tree with or without injury. The limitations of the described dog models include the morbid procedures necessary to produce lymphedema, the time required for lymphedema to develop, the development of lymphedema in only a subset of animals, the high costs of canine experiments (for example, animal husbandry and surgical procedures), and the lack of molecular reagents for canines.