Yamada Kentaro, Jahangiri Younes, Li Jianjun, Gabr Ahmed, Anoushiravani Arianna, Kumagai Kosuke, Uchida Barry, Farsad Khashayar, Horikawa Masahiro
Dotter Department of Interventional Radiology, Oregon Health & Science University, 3181 Sam Jackson Park Road, L-605, Portland, OR 97239.
Dotter Department of Interventional Radiology, Oregon Health & Science University, 3181 Sam Jackson Park Road, L-605, Portland, OR 97239.
J Vasc Interv Radiol. 2021 Jul;32(7):1031-1039.e2. doi: 10.1016/j.jvir.2021.02.006. Epub 2021 Feb 16.
To elucidate in vitro and in vivo characteristics and embolic properties of imipenem-cilastatin (IPM-CS) compared with hydrogel microspheres.
Particle size distribution was microscopically evaluated with 3 samples of 50 mg IPM-CS suspensions in each of 6 conditions by a mixture of contrast volume: 500 or 1000 μL and vortex mixing time: 5, 10, or 30 s. Time-dependent changes up to 3 h post-mixing were also evaluated. Fifteen male Sprague-Dawley rats (460.2 ± 5.0 g) underwent unilateral renal artery embolization using IPM-CS (n = 11) or hydrogel microspheres (n = 4). Follow-up angiography 48 h after embolization and histological evaluation, including acute tubular necrosis (ATN) and inflammation, were scored using a 5-point scale (from 0 = normal to 4 = severe).
Over 91% of IPM-CS particles were <40 μm under all in vitro conditions. With the increased contrast volume, the average particle size also increased (mean ± standard deviation: 11.6 ± 13.9 vs 16.7 ± 18.2 μm for 500 and 1000 μL iodinated contrast, P < .001); however, the impact of the mixing/elapsed time were limited. At 48 h after embolization, all cases in the IPM-CS groups (11/11) showed major to complete recanalization versus no recanalization with hydrogel microspheres (0/4) (P < .001). The following are the median ATN and inflammation grades in the cortex (ventral/dorsal) and medulla (ventral/dorsal) in both groups: IPM-CS, ATN in cortex (2/4) and medulla (1/1), inflammation in cortex (0/0) and medulla (0/0); hydrogel microspheres, ATN in cortex (4/4) and medulla (3/2), inflammation in cortex (1/1) and medulla (1/1).
IPM-CS suspension generated particles that were predominantly smaller than 40 μm and with unique short-term embolic effects, leaving predominantly peripheral ischemic changes.
阐明亚胺培南-西司他丁(IPM-CS)与水凝胶微球相比的体外和体内特性及栓塞特性。
通过对比剂体积(500或1000μL)和涡旋混合时间(5、10或30秒)的组合,对6种条件下的3个50mg IPM-CS悬浮液样本进行显微镜下粒度分布评估。还评估了混合后3小时内的时间依赖性变化。15只雄性Sprague-Dawley大鼠(460.2±5.0g)接受了使用IPM-CS(n = 11)或水凝胶微球(n = 4)的单侧肾动脉栓塞。栓塞后48小时进行随访血管造影,并使用5分制(从0 =正常到4 =严重)对包括急性肾小管坏死(ATN)和炎症在内的组织学评估进行评分。
在所有体外条件下,超过91%的IPM-CS颗粒<40μm。随着对比剂体积的增加,平均粒径也增加(500和1000μL碘化对比剂的平均值±标准差:11.6±13.9与16.7±18.2μm,P <.001);然而,混合/经过时间的影响有限。栓塞后48小时,IPM-CS组的所有病例(11/11)显示主要至完全再通,而水凝胶微球组无再通(0/4)(P <.001)。以下是两组皮质(腹侧/背侧)和髓质(腹侧/背侧)的ATN和炎症分级中位数:IPM-CS,皮质ATN(2/4)和髓质(1/1),皮质炎症(0/0)和髓质(0/0);水凝胶微球,皮质ATN(4/
