AIMS: Among various hypotheses proposed for pathological tissue calcification, recent evidence supports the possibility that self-replicating calcifying nanoparticles (CNPs) can contribute to such calcification. These CNPs have been detected and isolated from calcified human tissues, including blood vessels and kidney stones, and are referred to as nanobacteria. We evaluated calcific aortic valves for the presence of CNP. METHODS AND RESULTS: Calcific aortic valves were obtained from 75 patients undergoing surgical valve replacement. The control group was formed by eight aortic valves corresponding to patients with heart transplants. In the microbiology laboratory, valves were screened for CNP using a 4-6 weeks specific culture method. The culture for CNP was positive in 48 of the 75 valves with aortic stenosis (64.0%) in comparison with zero of eight (0%) for the control group (P = 0.0005). The observation of cultures by way of scanning electron microscopy highlighted the resemblance in size and morphology of CNP. CONCLUSION: Self-replicating calcific nanometer-scale particles, similar to those described as CNP from other calcific human tissues, can be cultured and visualized from calcific human aortic valves. This finding raises the question as to whether CNP contribute to the pathogenesis of the disease or whether they are only innocent bystanders.
AIMS: Among various hypotheses proposed for pathological tissue calcification, recent evidence supports the possibility that self-replicating calcifying nanoparticles (CNPs) can contribute to such calcification. These CNPs have been detected and isolated from calcified human tissues, including blood vessels and kidney stones, and are referred to as nanobacteria. We evaluated calcific aortic valves for the presence of CNP. METHODS AND RESULTS: Calcific aortic valves were obtained from 75 patients undergoing surgical valve replacement. The control group was formed by eight aortic valves corresponding to patients with heart transplants. In the microbiology laboratory, valves were screened for CNP using a 4-6 weeks specific culture method. The culture for CNP was positive in 48 of the 75 valves with aortic stenosis (64.0%) in comparison with zero of eight (0%) for the control group (P = 0.0005). The observation of cultures by way of scanning electron microscopy highlighted the resemblance in size and morphology of CNP. CONCLUSION: Self-replicating calcific nanometer-scale particles, similar to those described as CNP from other calcific human tissues, can be cultured and visualized from calcific human aortic valves. This finding raises the question as to whether CNP contribute to the pathogenesis of the disease or whether they are only innocent bystanders.
Authors: Maria K Schwartz; Larry W Hunter; Marianne Huebner; John C Lieske; Virginia M Miller Journal: Nanomedicine (Lond) Date: 2009-12 Impact factor: 5.307
Authors: Maria K Schwartz; John C Lieske; Larry W Hunter; Virginia M Miller Journal: Am J Physiol Heart Circ Physiol Date: 2009-03-13 Impact factor: 4.733
Authors: John D Young; Jan Martel; David Young; Andrew Young; Chin-Ming Hung; Lena Young; Ying-Jie Chao; James Young; Cheng-Yeu Wu Journal: PLoS One Date: 2009-05-01 Impact factor: 3.240
Authors: Tomislav M Jelic; Rod Roque; Uzay Yasar; Shayna B Tomchin; Jose M Serrato; Samuel G Deem; James P Tierney; Ho-Huang Chang Journal: Int J Nanomedicine Date: 2008