Abstract
Percutaneous vertebroplasty procedure is of major importance, given the significantly increasing aging population and the higher number of orthopedic procedures related to vertebral compression fractures. Vertebroplasty is a complex technique involving the injection of polymethylmethacrylate (PMMA) into the compressed vertebral body for mechanical stabilization of the fracture. Our understanding and ability to modify these mechanisms through alterations in cement material is rapidly evolving. However, the rate of cardiac complications secondary to PMMA injection and subsequent cement leakage has increased with time. The following review considers the main effects of PMMA bone cement on the heart, and the extent of influence of the materials on cardiac embolism. Clinically, cement leakage results in life-threatening cardiac injury. The convolution of this outcome through an appropriate balance of complex material properties is highlighted via clinical case reports.
Highlights
700,000 people suffer from vertebral compression fractures in the United States, costing over $1 billion for treatment and management [1]
Nieuwenhuijse et al performed a detailed analysis of potential risk factors for the occurrence of cement leakage, and fracture severity and PMMA bone cement viscosity were identified as two strong independent predictors in general [17]
The calculations were based on two rheological laws: the law of Hagen-Poiseuille describing the flow in a cylindrical tube and the law of Darcy describing the fluid flow through a porous media by assuming that the path of least resistance is cylindrical and that the cement can only extravasate if it pushes the marrow out of the way when the cement is injected into an osteoporotic vertebral body
Summary
Puneeth Shridhar 1 , Yanfei Chen 2 , Ramzi Khalil 3 , Anton Plakseychuk 4 , Sung Kwon Cho 5 , Bryan Tillman 6 , Prashant N. Kumta 1,5,7,8 and YoungJae Chun 1,2,7, *. Received: 3 September 2016; Accepted: 22 September 2016; Published: 6 October 2016
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