Higgins Catherine L, Marvel Seth A, Morrisett Joel D
Department of Medicine, Baylor College of Medicine, Houston, TX, USA.
Arterioscler Thromb Vasc Biol. 2005 Aug;25(8):1567-76. doi: 10.1161/01.ATV.0000172017.79441.73. Epub 2005 May 26.
Calcification can be deposited throughout the vasculature in several forms of calcium phosphate, including calcium hydroxyapatite (CHA). Calcium accumulation in arteries by mineralization and calcium loss from bone by osteoporosis often coexist, and vascular calcification may share common mechanisms with bone remodeling. Deposition of calcification in valves and arteries diminishes the valvular or arterial wall elasticity, a major cause of aneurysm and stenosis. Obstruction of arteries by calcification and other components can lead to heart attack and stroke. Mineralization in the femoral arteries can cause intermittent claudication in the legs, causing decreased mobility. Accurate measurement of calcification is essential for identifying other factors associated with this process and ultimately for elucidating the mechanism(s) of calcification. A wide range of methods for visualizing and measuring calcification for diagnosis and treatment in vivo and for studying the calcification process ex vivo are available. This review provides a critical comparison of older established methods and newer evolving technologies for quantifying calcification.
钙化可以以几种磷酸钙形式沉积在整个脉管系统中,包括羟基磷灰石(CHA)。动脉中通过矿化的钙积累和骨质疏松导致的骨钙流失常常同时存在,并且血管钙化可能与骨重塑具有共同机制。瓣膜和动脉中的钙化沉积会降低瓣膜或动脉壁弹性,这是动脉瘤和狭窄的主要原因。钙化和其他成分对动脉的阻塞可导致心脏病发作和中风。股动脉中的矿化可导致腿部间歇性跛行,从而导致活动能力下降。准确测量钙化对于识别与此过程相关的其他因素以及最终阐明钙化机制至关重要。有多种用于在体内可视化和测量钙化以进行诊断和治疗以及在体外研究钙化过程的方法。本综述对用于量化钙化的传统方法和新兴技术进行了批判性比较。