另外,单晶氧化铁纳米颗粒导致了所有组织t(1)加权信号强度的加强。
In addition, MION increased the t (1) -weighted signal intensity in all tissues.
使用单晶氧化铁纳米颗粒的对眼部进行磁共振机能成像是一种无创技术,能被用于测量血量及细胞对造影剂的摄取。
Functional MRI with MION is a noninvasive technique with regard to the eye, permitting measurement of blood volume and cellular uptake of the contrast agent.
在个别肿瘤组织中,注射单晶氧化铁纳米颗粒0.5小时内和24小时的T(2)加权信号强度分别下降了46-78%和24-48%。
In individual tumors, MION reduced the T(2)-weighted signal intensity by 46-78% within 0.5 h and by 24-48% at 24 h.
在个别肿瘤组织中,注射单晶氧化铁纳米颗粒0.5小时内和24小时的T(2)加权信号强度分别下降了46-78%和24-48%。
In individual tumors, MION reduced the T(2)-weighted signal intensity by 46-78% within 0.5 h and by 24-48% at 24 h.
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