Use of Impedance Plethysmography for Assessment of Intraosseous Hemodynamics in Ilizarov Transosseous Osteosynthesis

Кононович, Н. А.; Shastov, A. L.

doi:10.1007/s10527-021-10111-0

Cited by 2 publications

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“…Поэтому не прекращаются поиски информативных недорогих и легковыполнимых неинвазивных либо малоинвазивных методик оценки качества костного регенерата [8,9,10]. Для прогноза скорости заживления переломов и дефектов костей представляются перспективными методы измерения кровотока в костной и мягких тканях, на потенциал которых указывают многие авторы [11,12,13].…”

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Hemodynamics and Tissue Temperature in Bone Union Area of Long Bones Primary Fractures and Refractures: <i>in vivo</i> Experiment

Kosimov

Khodzhanov

Кононович

2022

Traumatology and Orthopedics of Russia

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Relevance. Adequate blood circulation in the tissues during healing of fractures is a factor in achieving positive results in the treatment of patients. Purpose of the study. In an in vivo experiment, to study the features of the temperature response and blood circulation in the area of fusion of the primary and repeated fractures of the tibia during the growth period. Material and methods. Rats (n = 36) model a fracture of the tibia, recorded by the outer structure. In series 1, fixation continued until union. In series 2, 21 days after the operation, refracture was modeled and re-fixed until union. We studied blood circulation and tissue temperature in the projection of the fracture: in the norm; 21 and 35 days after fracture or refractory; 28 days after termination of fixation. Results. The temperature and blood circulation were of the same type, but of different severity. Three types of reaction were identified: 1) reduced blood flow velocity and tissue temperature, increased venous outflow; 2) increased blood flow velocity, unchanged venous outflow, reduced tissue temperature; 3) a slight decrease in blood flow velocity, increased venous outflow, a slight increase in tissue temperature. By the end of fixation in series 1, the parameters returned to normal. In series 2, 28 days after the termination of fixation in animals with the first and second types of hemodynamics, the temperature of tissues and venous outflow returned to normal, and the blood flow rate decreased. In the third type, the temperature of the tissues returned to normal, the venous outflow increased, and the rate of blood flow increased. Conclusion. When the primary fracture is fought, the blood circulation and tissue temperature normalized to the end of the fixation, and with refracturas a month after the termination of the fixation, the changes were preserved.

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