The complications of spinal cord injury (SCI) increase in number and severity with the level of injury. A recent survey of SCI researchers reveals that animal models of high SCI are essential. Despite this consensus, most laboratories continue to work with mid- or low-thoracic SCI. The available data on cervical SCI in animals characterize incomplete injuries; for example, nearly all studies published in 2009 examine discrete, tract-specific lesions that are not clinically-relevant. A primary barrier to developing animal models of severe, higher SCI is the challenge of animal care, a critical determinant of experimental outcome. Currently, many of these practices vary substantially between laboratories, and are passed down anecdotally within institutions. The care of animals with SCI is complex, and becomes much more challenging as the lesion level ascends. In our experience, the care of animals with high-thoracic (T3) SCI is much more demanding than the care of animals with low-thoracic SCI, even though both injuries result in paraplegia. We have developed an animal care regimen for rats with complete high-thoracic SCI. Our practices have been refined over the past 7 years, in collaboration with animal care centre staff and veterinarians. During this time, we have cared for more than 300 rats with T3 complete transection SCI, with experimental end-points of up to 3 months. Here we provide details of our animal care procedures, including acclimatization, housing, diet, antibiotic prophylaxis, surgical procedures, post-operative monitoring, and prevention of complications. In our laboratory, this comprehensive approach consistently produces good outcomes following T3 complete transection SCI: using body weight as an objective indicator of animal health, we have found that our rats typically return to pre-operative weights within 10 days of T3 complete SCI. It is our hope that the information provided here will improve care of experimental animals, and facilitate adoption of models that directly address the complications associated with higher level injuries.
Cardiometabolic risk factors are sorely underreported after spinal cord injury (SCI), despite the high prevalence of metabolic disorders and cardiovascular mortality in this population. Body-composition analysis and serum-lipid profiling are two assessments that are beginning to be more widely used to document metabolic changes after clinical SCI. Individuals with SCI have been reported to carry increased visceral fat and to exhibit altered serum-lipid levels. However, little is known about the development of these cardiometabolic risk factors in animal models. Using a combination of magnetic resonance imaging (MRI) and adipose tissue dissection, we show that visceral and subcutaneous adipose tissue were both increased at 1 month, but not at 1 week, after complete T3 SCI in rats. Additionally, at 1 month post injury, T3 SCI rats exhibited nonfasting serum hypertriglyceridemia, a result obtained using both standard clinical methods and a home cholesterol monitoring device (CardioChek). Interestingly, at 1 month post injury, rats with complete T10 SCI did not show an increase in either visceral adiposity or serum triglyceride levels. The fact that complete high-thoracic SCI disrupts lipid metabolism and perturbs fat storage in the subacute period, while low-thoracic SCI does not, suggests that differences in descending sympathetic control of adipose tissue might play a role in these changes. These results provide the first evidence of cardiometabolic risk factors in experimental animals with SCI, and are a starting point for investigations of the etiology of obesity and metabolic dysfunctions that often accompany SCI.
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