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Quantitative dual contrast CT technique for evaluation of articular cartilage properties

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dc.contributor.author Bhattarai, Abhisek
dc.contributor.author Honkanen, Juuso TJ
dc.contributor.author Myller, Katariina AH
dc.contributor.author Prakash, Mithilesh
dc.contributor.author Korhonen, Miitu
dc.contributor.author Saukko, Annina EA
dc.contributor.author Virén, Tuomas
dc.contributor.author Joukainen, Antti
dc.contributor.author Patwa, Amit N
dc.contributor.author Kröger, Heikki
dc.contributor.author Grinstaff, Mark W
dc.contributor.author Jurvelin, Jukka S
dc.contributor.author Töyräs, Juha
dc.date.accessioned 2019-06-13T05:15:52Z
dc.date.available 2019-06-13T05:15:52Z
dc.date.issued 2018-04-13
dc.identifier.issn 0090-6964 (P-ISSN)
dc.identifier.issn 1573-9686 (E-ISSN)
dc.identifier.uri http://27.109.7.66:8080/xmlui/handle/123456789/573
dc.description Biomedical Engineering Society, Vol-46, Issue-7, 2018 p. 1038-1046 en_US
dc.description.abstract Impact injuries of cartilage may initiate posttraumatic degeneration, making early detection of injury imperative for timely surgical or pharmaceutical interventions. Cationic (positively-charged) CT contrast agents detect loss of cartilage proteoglycans (PGs) more sensitively than anionic (negatively-charged) or non-ionic (non-charged, i.e., electrically neutral) agents. However, degeneration related loss of PGs and increase in water content have opposite effects on the diffusion of the cationic agent, lowering its sensitivity. In contrast to cationic agents, diffusion of nonionic agents is governed only by steric hindrance and water content of cartilage. We hypothesize that sensitivity of an iodine(I)-based cationic agent may be enhanced by simultaneous use of a non-ionic gadolinium(Gd)-based agent. We introduce a quantitative dual energy CT technique (QDECT) for simultaneous quantification of two contrast agents in cartilage. We employ this technique to improve the sensitivity of cationic CA4+ (q =+4) by normalizing its partition in cartilage with that of non-ionic gadoteridol. The technique was evaluated with measurements of contrast agent mixtures of known composition and human osteochondral samples (n = 57) after immersion (72 h) in mixture of CA4+ and gadoteridol. Samples were arthroscopically graded and biomechanically tested prior to QDECT (50/100 kV). QDECT determined contrast agent mixture compositions correlated with the true compositions (R2= 0.99, average error = 2.27%). Normalizing CA4+ partition in cartilage with that of gadoteridol improved correlation with equilibrium modulus (from q = 0.701 to 0.795). To conclude, QDECT enables simultaneous quantification of I and Gd contrast agents improving diagnosis of cartilage integrity and biomechanical status. en_US
dc.language.iso en_US en_US
dc.publisher Annals of Biomedical Engineering en_US
dc.subject Biomechanics en_US
dc.subject Cartilage en_US
dc.subject Cationic contrast en_US
dc.subject Agent en_US
dc.subject Contrast enhanced computed tomography en_US
dc.subject Dual energy CT en_US
dc.title Quantitative dual contrast CT technique for evaluation of articular cartilage properties en_US
dc.type Article en_US


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