key: cord-0768335-uwehnjsv
authors: López-Martínez, Lorena; Molina-Nuevo, Juan D.; Pedrosa-Jiménez, María J.; Juliá-Mollá, Enrique
title: Spontaneous Haematomas in Anticoagulated Covid-19 Patients: Diagnosis and Treatment by Embolization
date: 2022-01-28
journal: Cardiovasc Intervent Radiol
DOI: 10.1007/s00270-021-03049-z
sha: 44c490adf78bf4ad07c6f370c11f5cbf4062ba09
doc_id: 768335
cord_uid: uwehnjsv

PURPOSE: To assess the safety and efficacy of embolization for spontaneous bleeding in anticoagulated patients with COVID-19. MATERIAL AND METHODS: Single center retrospective study in 9 patients with COVID-19 who experienced bleeding complications following anticoagulation. The study included 8 men and 1 woman aged from 48 to 80 years (mean 69.7 years), who had a total of 10 soft tissue haematomas: 1 in the thigh, 1 in the anterior abdominal wall, 6 retroperitoneal and 2 thoracic haematomas. All patients were referenced for vascular embolization, mostly with Onyx-18. RESULTS: A total of 10 haematomas were embolized in 9 patients. Technical success was achieved in all patients. No complications or adverse events were noted. One patient required percutaneous drainage of an infected haematoma 88 days after embolization. The mean hemoglobin level before embolization was 8,64 mg/dL and increased to 9,08 mg/dL after embolization (p = 0,3). After embolization all patients recovered haemodynamic stability and blood pressure levels improved. Seven patients resumed anticoagulation therapy after embolization. There were no recurrences or new bleedings in all treated patients. No patients required any additional invasive therapies or surgery. Mean intensive unit care and hospital stay was 6.7 and 35.2 days, respectively. All patients were discharged and were well at follow-up clinic visits 2–7 months after embolization. Seven patients performed a control CT scan 1–6 months after embolization, showing complete resolution of the haematoma. CONCLUSION: Embolization is safe and effective to treat spontaneous haematomas in anticoagulated patients with COVID-19, allowing to resume anticoagulation therapy. Level of evidence IV Level 4, case-series.

Bleeding complications in elderly patients on anticoagulant therapy are estimated at about 5%, [1] with an incidence of spontaneous haematomas of about 0.6%. [1] In large haematomas with hemodynamic instability, the prognosis is poor with multiple organ failure, [2] reaching a mortality of 30-50%. [3, 4] COVID-19 infection causes a disorder of haemostasis, [5] with a procoagulant state. This has led to the inclusion of thromboprophylactic (anticoagulant) therapy in most treatment protocols. [2] [3] [4] [5] [6] [7] [8] [9] [10] Recent studies refer to heparin-induced thrombocytopenia, [6, 10] and a percentage of patients develop renal failure in the coronavirus infection. This results in an increased half-life of heparin, which circulates in the plasma longer, [8] leading to ''pseudo-overdosing'', increasing the risk of bleeding. In COVID-19 patients, the incidence of haematomas appears to be higher due to coagulation disorders caused by infection, coupled with thrombocytopenia due to heparin and overdose in patients with renal failure.

Computed tomography (CT) angiography is essential to the diagnosis of haematomas as it allows the size, location and artery responsible for the bleeding to be establised, [11] identifying the location of the vascular origin of the bleeding in 95,2% of cases. [1] The purpose of the study was assess the safety and efficacy of embolization for spontaneous bleeding in anticoagulated patients with COVID-19.

Single center retrospective study in 9 patients with COVID-19 who experienced bleeding complications following anticoagulation.

The study included 9 patients, 8 men and 1 woman, aged from 48 to 80 years (mean 69.7 years), who had a total of 10 soft tissue haematomas: 1 in the thigh, 1 in the anterior abdominal wall, 6 retroperitoneal and 2 thoracic haematomas, with signs of active bleeding on CT angiography (Figs. 1 and 2). All patients included were receiving anticoagulant therapy. Other clinical variables were also collected and included in Table 1 .

All patients were referenced for vascular embolization.

Patients with clinically suspected active bleeding underwent CT angiography of the chest or abdomen, following a three-phase or two-phase protocol of the radiologists choice. All studies were performed on a General Electrics Revolution EVO (General Electrics Healthcare, Chicago, Illinois) or Philips Brillance (Philips Healthcare, Cleveland, Ohio) 64-row multidetector computed tomography (MDCT). Iodinated contrast medium Omnipaque 300 (General Electrics Healthcare, Chicago, Illinois) was used, with 60 ml for thoracic studies and 80-100 ml for abdominal studies. In patients with kidney failure, Visipaque 320 (General Electrics Healthcare, Chicago, Illinois) was used.

CT angiography confirmed haematoma with active bleeding in 9 patients, one of them with 2 concomitant haematomas. The location, size of the haematoma and the artery responsible for the bleeding are detailed in Table 2 .

The embolization procedure was performed with a General Electrics Innova 4100 angiographic system (General Electrics Healthcare, Chicago, Illinois). A right or left femoral vascular access was preferentially performed. In Table 2 .

In the study, CT angiography detected active bleeding in all cases, assessed haematoma volume and severity of clinical status.

The study, in line with current literature, shows a predominance of spontaneous haematomas, with a total of 10 soft tissue haematomas, which were embolised in 9 patients. In the context of coagulation disorders, it was decided in most cases to treat with a liquid embolic agents, predominantly Onyx-18.

Technical success was achieved in all cases, without complications during or after the embolization procedure.

The mean hemoglobin level before embolization was 8,64 mg/dL and increased to 9,08 mg/dL after embolization with standard deviation of 1.3 (p = 0.3).

There were no recurrences or new bleedings in all treated patients. None of them required surgery. Seven patients resumed anticoagulation therapy after embolization (Table 1) .

Mean intensive unit care (ICU) and hospital stay was 6.7 and 35.2 days, respectively. All patients experienced a progressive improvement until they were discharged.

Seven patients performed a control CT one month and 6 months after embolization, showing resolution of all treated haematomas. One patient required percutaneous drainage of an infected haematoma 88 days after embolization (Fig. 2) .

Eight patients were reviewed in consultation at 2 and 7 months and were asymptomatic. Fig. 2 (case 6) a MDCT, haematoma in the right iliopsoas with active bleeding (short arrow). b Iliolumbar artery arteriography with contrast extravasation (circle). c Control after embolization of the iliolumbar artery and superior gluteal terminal branch, with no contrast extravasation, with Onyx-18 cast (long arrow). D Follow-up CT 88 days after embolization, decreased haematoma size, ring-shaped enhancement indicative of infection (asterisk) and Onyx-18 in embolised arteries (long arrow) 

Endovascular treatment with embolization of the arterial contributions of the haematoma is a minimally invasive, safe and effective technique, less invasive and more selective than surgery, [2, 3] with a technical success of 90%. [1] It is currently the technique of choice for the treatment of active arterial bleeding, as it does not carry the disadvantages associated with surgery. Patients have an early recovery, with a shortened hospital and ICU stay.

[10] Recurrence after embolization is rare and usually occurs in patients with severe consumptive coagulopathy. [1] There are different materials and devices to perform embolization, and the selection of one over another depends on multiple factors, such as characteristics of bleeding (morphology and caliber of the responsible artery), the ability to access the bleeding site (''local'' or ''distant'' embolization), the operators experience with the different materials and others inherent to patient's condition (existence of coagulopathy, etc.). There are now retrospective studies suggesting the advantages of liquid embolic agents as they provide rapid complete occlusion compared to others such as coils. [12] In the study, most of the embolization were performed with Onyx-18 ( Table 2 ). The selection of this material was mainly based on two factors, on the one hand the morphology of the responsible artery, in all cases small calibre arteries, and on the other hand the presence of a coagulation disorder. Onyx-18 is a non-adhesive permanent liquid emboliser that allows complete, rapid and safe vascular occlusion of the vascular lumen by polymerization, especially in patients with coagulation disorders (unlike other materials that require coagulation activation to achieve effective vascular closure). It allows complete control, with no microcatheter adherence or migration of embolization material. No special preparation is required for COVID-19 patients.

Bleeding complications in COVID-19 patients are a major cause of increased morbidity and mortality in these patients. Utmost care should be taken in COVID-19 patients treated with heparin at therapeutic doses, avoiding the risk of overdosing.

In cases of suspected active bleeding, early diagnosis and treatment are essential to ensure patient survival. CT angiography is the diagnostic tool of choice.

Embolization is safe and effective to treat spontaneous haematomas in anticoagulated patients with COVID-19, allowing to resume anticoagulation therapy and should be considered as first choice treatment. Onyx-18 is a rapid and safe vascular occluder, particularly in patients with coagulation disorders.

Funding This study was not supported by any funding.

Conflict of interest The authors declare that they have no conflict of interest.

Consent for Publication For this type of study consent for publication is not required.

Ethical Approval For this type of study formal consent is not required.

Informed Consent For this type of study informed consent is not required.

Spontaneous soft tissue hematomas

Spontaneous bleedings in COVID-19 patients: an emerging complication

Spontaneous major haemorrhage in covid-19 patients: another brick in the wall of SARS-Cov-2-associated coagulation disorders? JVIR sep

Spontaneous ilio-psoas haematomas (IPHs): a warning for COVID-19 inpatients

Spontaneous retroperitoneal bleed coincided with massive acute deep vein thrombosis as initial presentation of Covid-19

Bleeding and bleeding risk in COVID-19. Seminars in Trombosis and Hemostasis

Spontaneous muscle hematoma in older patients with COVID-19: two case report and literature review

Atypical spontaneuos haematomas in a patient with severe coronavirus disease 2019 (COVID-19)

Frecuency of major hemorrhage in patients treated with unfractionated intravenous heparin for deep venous thrombosis or pulmonary embolism: a study in routine clinical practice

Heparin-related major bleeding in Covid-19-positive patient: perspective from the outbreak. Cardiovasc Intervent Radiol

Case Report: iliopsoas hematoma during the clinical course of severe COVID-19 in two male patients

Efficacy of transarterial embolisation in patients with life-threatening spontaneous retroperitoneal haematoma