TY - JOUR
AR - COR-2021-1-109
TI - Correlative Analysis of Massive Epistaxis and Pseudoaneurysms in Nasopharyngeal Carcinoma after Radiotherapy and a 10-Year Review
AU - Liang , Zeng
AU - Wei , Wan
AU - Qing , Luo
AU - Hongqun , Jiang
AU - Jing , Ye
JO - Clinical Oncology and Research
PY - 2021
DA - Tue 16, Feb 2021
SN - 2613-4942
DO - http://dx.doi.org/10.31487/j.COR.2021.01.09
UR - https://www.sciencerepository.org/correlative-analysis-of-massive-epistaxis-and-pseudoaneurysms-in-nasopharyngeal-carcinoma_COR-2021-1-109 
KW -  Pseudoaneurysm, nasopharyngeal carcinoma, epistaxis
AB - Objective: Massive epistaxis after radiotherapy for nasopharyngeal carcinoma (NPC) is a common clinical
critical illness, which often leads to death of patients. This article focuses on the relationship between
massive epistaxis and pseudoaneurysm after radiotherapy in patients with NPC and discusses clinically
relevant treatment strategies.
Methods: A review was performed in 21 patients with massive epistaxis after radiotherapy for NPC from
January 2011 to December 2019, and all of the patients were examined by computed tomography
angiography (CTA). We also reviewed the English literature over the past 10 years to analyse the
characteristics and related causes of pseudoaneurysms in terms of the clinical stage of NPC, course of
radiotherapy, and affected artery. An analysis was performed on the methods of endovascular interventional
treatment of such pseudoaneurysms.
Results: Among the 21 patients with massive epistaxis after radiotherapy for NPC, 19 (90%) cases had
accompanying bone destruction of the skull base; 13 cases (62%) showed tumor recurrence; 15 cases (71%)
were in stage III or IV of NPC; 14 cases (67%) had combined pseudoaneurysms, including 9 cases occurring
in the internal carotid artery (ICA) and 5 cases occurring in the external carotid artery (ECA). These data
were consistent with the results of literature review. On analysis with imaging, we found that such
pseudoaneurysms are associated with necrosis and infection of the local bone and soft tissue, and that the
petrous part of the ICA was the most common predilection site. We also found that 11 of 14
pseudoaneurysms caused sentinel hemorrhage in the initial phase. In addition to anterior and posterior nasal
packing, endovascular interventional therapy was the most important management option. All 14 patients
with pseudoaneurysms underwent endovascular interventional therapy, but 1 patient died due to
hemorrhagic shock during the procedure. Among the others, 9 patients underwent occlusion of the ICA or
ECA with a stainless-steel coil, and rebleeding did not occur again. One patient underwent selected vascular
embolization with a covered stent. Direct occlusion of the pseudoaneurysm was performed in 3 patients.
Conclusion: Pseudoaneurysm, which was a serious complication after radiotherapy in patients with NPC,
could cause massive epistaxis with high mortality. The formation of a pseudoaneurysm was closely
associated with a high carcinoma stage, re-radiotherapy, and local bone destruction and infection. Most
cases had sentinel epistaxis, which was considered the bleeding characteristic. The imaging material
prompted that pseudoaneurysm had a predisposition to the petrous part of the ICA, while the preferred
therapy was endovascular embolization treatment.