Angiographic Characterization of the External Carotid Artery: Special Attention to Variations in Branching Patterns

Yamamoto, Daisuke; Koizumi, Hiroyuki; Ishima, Daisuke; Kuroda, Hiroki; Shibahara, Ichiyo; Niki, Jun; Miyasaka, Kazuhiro; Watanabe, Takashi; Kondo, Ryushi; Kumabe, Toshihiro

doi:10.1620/tjem.249.185

Cited by 7 publications

(8 citation statements)

References 10 publications

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“…The occlusion of R ECA was successfully visualized, as contrast distribution was no longer observed past the location of the clot (dotted line, Figure S7). In the control tissue, the left external, internal, and common carotid arteries (L ECA, L ICA, and L CCA, respectively) were all clearly visible, due to the presence of dark contrast which highlighted the characteristic branching of ECA. ,, …”

Section: Resultsmentioning

confidence: 99%

“…In the control tissue, the left external, internal, and common carotid arteries (L ECA, L ICA, and L CCA, respectively) were all clearly visible, due to the presence of dark contrast which highlighted the characteristic branching of ECA. 5,52,53 Again, it is important to consider the characteristics of the clots being used in these experiments. All clots were made using whole blood with regular circulating concentrations of fibrinogen (2−5 mg/mL), which formed red blood cell (RBC)-rich blood clots.…”

Section: ■ Results and Discussionmentioning

confidence: 99%

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Assessment of Aptamer-Targeted Contrast Agents for Monitoring of Blood Clots in Computed Tomography and Fluoroscopy Imaging

et al. 2020

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Objective: Random formation of thrombi is classified as a pathological process that may result in partial or complete obstruction of blood flow and limited perfusion. Further complications include pulmonary embolism, thrombosis-induced myocardial infraction, ischemic stroke, and others. Location and full delineation of the blood clot are considered to be two clinically relevant aspects that could streamline proper diagnosis and treatment follow-up. In this work, we prepared two types of Xray attenuating contrast formulations, using fibrinogen aptamer as the clot-seeking moiety. Methods: Two novel aptamer-targeted formulations were designed. Iodine-modified bases were directly incorporated into a fibrinogen aptamer (iodo-FA). Isothermal titration calorimetry was used to confirm that these modifications did not negatively impact target binding. Iodo-FA was tested for its ability to produce concentration-dependent contrast enhancement in a phantom CT. It was subsequently tested in vitro with clotted human and swine blood. This allowed for translation into ex vivo testing, using fluoroscopy. FA was also used to functionalize gold nanoparticles (FA-AuNPs), and contrast capabilities were confirmed. This formulation was tested in vitro using clotted human blood in a CT scan. Results: Unmodified FA and iodo-FA demonstrated a nearly identical affinity toward fibrin, confirming that base modifications did not impact target binding. Iodo-FA and FA-AuNPs both demonstrated excellent concentration-dependent contrast enhancement capabilities (40.5 HU mM −1 and 563.6 HU μM −1 , respectively), which were superior to the clinically available agent, iopamidol. In vitro CT testing revealed that iodo-FA is able to penetrate into the blood clots, producing contrast enhancement throughout, while FA-AuNPs only accumulated on the surface of the clot. Iodo-FA was thereby translated to ex vivo testing, confirming target-binding associated accumulation of the contrast material at the location of the clot within the dilation of the external carotid artery. This resulted in a 34% enhancement of the clot. Conclusions: Both iodo-FA and FA-AuNPs were confirmed to be effective contrast formulations in CT. Targeting of fibrin, a major structural constituent of thrombi, with these novel contrast agents would allow for higher contrast enhancement and better clot delineation in CT and fluoroscopy.

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Section: Resultsmentioning

confidence: 99%

Section: ■ Results and Discussionmentioning

confidence: 99%

Assessment of Aptamer-Targeted Contrast Agents for Monitoring of Blood Clots in Computed Tomography and Fluoroscopy Imaging

et al. 2020

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“…In a study of 302 patients, Yamamoto et al determined the incidences of ECA branching patterns by analyzing 532 ECAs using digital subtraction angiography. They classified these arteries into three categories (A, B, C) based on the number of branches (two, three, four or more) emerging from the proximal ECA at a common point, the distal ECA counting as one branch [14]. Using this criterion, Type A (two branches) is defined as all individual branches arising separately from the proximal ECA.…”

Section: Other Anatomical Variations Of the Branches Of The Ecamentioning

confidence: 99%

“…They also found that 96.3% of Type C ECAs had a CCA bifurcation at the level of the junction of the thirdfourth cervical vertebrae or higher, which was significantly higher than the bifurcation in Type A or B. Because there are several anatomical variations, it is imperative that surgeons be aware of the Type C variation to avoid unexpected complications [14] An anatomical variation of the ascending palatine artery, branching from the lingual artery instead of the facial artery, has been noted in previous literature. Unfortunately, we could find no more details of this variation [11].…”

Section: Other Anatomical Variations Of the Branches Of The Ecamentioning

confidence: 99%

Ascending palatine branch from the lingual artery with multiple other variations of the external carotid artery

et al. 2023

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“…As above, the incubations were left to equilibrate for 45-minutes with FB139-AuNPs, iopamidol, and all clearly visible, due to the presence of dark contrast which highlighted the characteristic branching of ECA. 152,231,232 Again, it is important to consider the characteristics of the clots being used in these experiments. All clots were made using whole blood with regular circulating concentrations of fibrinogen (2-5 mg/mL), which formed red blood cell (RBC)-rich blood clots.…”

Section: Fa-aunp Computed Tomography (Human Blood)mentioning

confidence: 99%

Development and characterization of aptamer-conjugated imaging tools for diagnostic applications

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Angiographic Characterization of the External Carotid Artery: Special Attention to Variations in Branching Patterns

Cited by 7 publications

References 10 publications

Assessment of Aptamer-Targeted Contrast Agents for Monitoring of Blood Clots in Computed Tomography and Fluoroscopy Imaging

Assessment of Aptamer-Targeted Contrast Agents for Monitoring of Blood Clots in Computed Tomography and Fluoroscopy Imaging

Ascending palatine branch from the lingual artery with multiple other variations of the external carotid artery

Development and characterization of aptamer-conjugated imaging tools for diagnostic applications

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