Splanchnic venous thrombosis in a nephrotic patient following COVID-19 infection: a case report

Background As the COVID-19 pandemic spread worldwide, case reports and small series identified its association with an increasing number of medical conditions including a propensity for thrombotic complications. And since the nephrotic syndrome is also a thrombophilic state, its co-occurrence with the SARS-CoV-2 infection is likely to be associated with an even higher risk of thrombosis, particularly in the presence of known or unknown additional risk factors. Lower extremity deep vein thrombosis (DVT) and pulmonary embolism (PE) are the most common manifestations of COVID-19-associated hypercoagulable state with other venous or arterial sites being much less frequently involved. Although splanchnic vein thrombosis (SVT) has been reported to be 25 times less common than usual site venous thromboembolism (VTE) and rarely occurs in nephrotic patients, it can have catastrophic consequences. A small number of SVT cases have been reported in COVID-19 infected patients in spite of their number exceeding 180 million worldwide. Case presentation An unvaccinated young adult male with steroid-dependent nephrotic syndrome (SDNS) who was in a complete nephrotic remission relapsed following contracting SARS-CoV-2 infection and developed abdominal pain and diarrhea. Abdominal US revealed portal vein thrombosis. The patient was anticoagulated, yet the SVT rapidly propagated to involve the spleno-mesenteric, intrahepatic and the right hepatic veins. In spite of mechanical thrombectomy, thrombolytics and anticoagulation, he developed mesenteric ischemia which progressed to gangrene leading to bowel resection and a complicated hospital course. Conclusion Our case highlights the potential for a catastrophic outcome when COVID-19 infection occurs in those with a concomitant hypercoagulable state and reminds us of the need for a careful assessment of abdominal symptoms in SARS-CoV-2 infected patients.

Acute Limb Ischemia in the Young: A Rare Case of Essential Thrombocytosis

Acute limb ischemia (ALI) is rarely observed in young populations. The hypercoagulable state is a notable cause of ALI other than artery disease progression and cardiac embolization. A hypercoagulable state occurs in essential thrombocytosis because of the overproduction of hematopoietic cells secondary to the mutation of the JAK2, CALR, or MPL genes. We report a rare case of a 37-year-old woman presenting with Rutherford IIA ALI in the left lower extremity. Laboratory data revealed she had a platelet count reaching up to 1.38 mil/μL, with other blood profiles being normal. A JAK2 mutation examination was later performed and proved positive. After careful management with catheter-directed thrombolysis, surgical thrombectomy, and cytoreductive therapy using hydroxyurea, the symptoms subsided and eventually restored the patient to physical activity in less than one month.

Abstract 11269: Recombinant Soluble Thrombomodulin in Prolonged Porcine Cardiac Arrest

Introduction: Sudden Cardiac Arrest (CA) affects more than 400,000 people per year in the United States. Although a third of these patients survive to hospital admission, another 60-70% go on to die due to failed recovery of vital organ function. Microvascular thrombosis has been suggested as a potential contributor to prolonged organ dysfunction, but no antithrombotic therapies have been shown to be beneficial and coagulofibrinolytic abnormalities in prolonged CA remain poorly understood. Objectives: To establish key biomarkers of porcine coagulation and fibrinolysis in the setting of prolonged CA and cardiopulmonary resuscitation (CPR) and test the ability of ART-123 (recombinant human thrombomodulin alpha) to reverse these abnormalities. Methods: 15 pigs (n=5 per group) underwent 8 minutes of no-flow CA followed by 50 minutes of mechanical CPR. Animals were randomized to receive saline or ART-123 (~1mg/kg) pre-arrest (5 minutes prior to ventricular fibrillation) or post-arrest (2 minutes after initiation of CPR). Results: Robust and ongoing activation of coagulation and fibrinolysis were detected throughout the resuscitation. After 50 minutes of CPR, plasma tests suggested consumptive coagulopathy, while whole blood testing (thromboelastography) indicated a persistent hypercoagulable state. ART-123 had a clear anticoagulant effect irrespective of timing (TAT complexes 381±25 vs. 238±18 vs. 226±12, p<0.01, and d-dimer 4.86±0.54 vs. 2.39±0.2 vs. 2.46±0.21 for vehicle, pre-arrest, post-arrest, p = 0.05). A pro-fibrinolytic effect was also observed, but only when the drug was given before no-flow, with a significant increase in levels of free endogenous tPA (1.2±0.12 vs. 3.29±0.29 vs. 1.72±0.3, p < 0.001) and corresponding suppression of free PAI-1 (0.59±0.15 vs. 0.14±0.01 vs. 0.41±0.09, p < 0.001). Conclusion: Our porcine CA model provides an excellent platform for evaluating antithrombotic interventions. Plasma testing after prolonged CA/CPR suggests consumptive coagulopathy, although TEG indicates a persistent hypercoagulable state. ART-123 given before no-flow or just after CPR demonstrates antithrombotic effects, although the specific modes of action depending on the timing of administration.

Assessment of Hypercoagulable State in Whole Blood in Sepsis Patients Using a Novel Microfluidic Dielectric Sensor

Background: There is an intimate link between inflammation and thrombosis, and patients with pro-inflammatory/infectious disorders develop a hypercoagulable state. Extant coagulation assays are unable to distinguish the pro-coagulant state of a patient's blood, require 2-3 mL of blood, and take 2-3 hours for processing. These assays are also typically examined in plasma and do not represent the contribution of blood cellular elements that participate in thrombosis in vivo. Thus, a point-of-care device for rapid, comprehensive assessment of whole blood coagulation is crucial to ensure appropriate and timely evaluation in critically ill patients. We have introduced a microfluidic sensor (ClotChip) that uses dielectric spectroscopy to provide such an assessment in a handheld platform. We have shown in clinical studies in patients with a hypocoagulable state that ClotChip is sensitive to both coagulation factor and platelet defects, allowing for a global assessment of blood coagulation status using &lt;10 µL of whole blood and in &lt;30 min. In this study, we optimized ClotChip to assess the blood coagulation status in patients with a hypercoagulable state. Methods: Citrated blood samples from 12 patients with a diagnosis of sepsis and 11 healthy donors as controls were obtained under an IRB-approved protocol and tested with ClotChip within 2 hours of collection. ClotChip readout curve was calculated as the temporal variation of blood dielectric permittivity at 1 MHz, and the time to reach a permittivity peak (T peak) was taken as an indicator of coagulation time based on our prior studies. To increase the sensitivity of the ClotChip T peak parameter to a hypercoagulable state, we used two different anticoagulants, recombinant thrombomodulin (rTM) and activated protein C (APC). To optimize the anticoagulant concentration, whole blood samples from healthy donors were treated in vitro with lipopolysaccharide to mimic a pro-coagulant state of blood and tested with ClotChip after adding various concentrations of rTM and APC. We concluded that a concentration of 5 µg/mL for rTM and 10 µg/mL for APC would result in an optimal change in T peak for detecting the pro-coagulant state. Since heparin (or lovenox) is routinely used in hospitalized patients, sepsis and control samples were pretreated with hepzyme at a final concentration of 2 IU/mL to reverse the heparin effect. The T peak parameter was measured and compared in (i) hepzyme only-, (ii) rTM-, and (iii) APC-treated samples. Data are reported as mean ± standard deviation. Two-tailed t test is used to test for statistical significance between groups, and P &lt; 0.05 is considered statistically significant. In box-and-whiskers plots, the box represents the range from the first to the third quartile, the horizontal line represents the median, plus sign (+) represents mean of the data; whiskers extend to the maximum and minimum data values, and dots represent individual subject data. Results: In hepzyme only-treated samples, T peak was significantly prolonged at 478±137 sec in sepsis samples, as compared to 357±58 sec in controls (Figs. 1A, 1B). rTM treatment resulted in T peak of 503±128 sec for sepsis samples and 443±81 sec for controls, whereas APC treatment resulted in T peak of 1,095±850 sec for sepsis samples and 477±71 sec for controls (Figs. 1A, 1B). Although T peak was prolonged at baseline in hepzyme only-treated sepsis samples, no further prolongation was noted with rTM treatment (difference in T peak of 24±94 sec; Fig. 1C), as compared to rTM-treated controls (difference in T peak of 85±40 sec; Fig. 1C). However, with a difference in T peak of 616±804 sec, the APC-treated sepsis samples exhibited T peak prolongation when compared to hepzyme only-treated sepsis samples, whereas the APC-treated controls did not (difference in T peak of 119±64 sec; Fig. 1D). A comparison between the APC- and rTM-treated samples revealed a significant prolongation of T peak in sepsis samples (difference in T peak of 591±815 sec) when compared to controls (difference in T peak of 30±66 sec; Fig. 1E). Conclusions: Our studies identify a unique coagulation profile in sepsis patient blood using a microfluidic dielectric sensor. These data suggest that the addition of rTM or APC can enhance the sensitivity of the ClotChip T peak parameter for detecting the pro-coagulant state in whole blood. Ongoing studies are examining the coagulation profile in other pro-inflammatory and infectious states. Figure 1 Figure 1. Disclosures Suster: XaTek Inc.: Consultancy, Current holder of stock options in a privately-held company, Patents & Royalties, Research Funding. Mohseni: XaTek Inc.: Consultancy, Current holder of stock options in a privately-held company, Patents & Royalties, Research Funding. Nayak: BioChip Labs: Current Employment.

Case Report: Acute Splenic Artery Thrombosis in a COVID 19, Postpartum Patient

The incidence of thromboembolic disease is reported to be high in SARS-CoV2 disease. Pregnancy, an already physiologically hypercoagulable state, associated to COVID 19, generates even more concern regarding the potentially increased risk of thrombotic events. The exact incidence of such complications is yet unknown, but there is data suggesting that coagulopathy and thromboembolism are both increased in pregnancies affected by COVID-19. Since the outbreak of the COVID 19 pandemics, the most common described thrombotic events associated with SARS-COV2 infection have been venous thromboembolism and disseminated intravascular coagulation, while arterial thrombotic events are less commonly described. Splenic infarction is a rare disorder that can be secondary to a hypercoagulable state. There are only few cases of splenic infraction described, but none with splenic artery thrombosis, in a post-partum patient, on therapeutic anticoagulation regimen. We present the case of a 31-year-old Caucasian, 26 weeks pregnant woman, with no prior medical history, admitted to the hospital with a severe form of COVID 19 pneumonia and who, during the course of the disease, developed a massive splenic infarction with splenic artery thrombosis.

Pregnancy-related pelvic vein thrombosis

Pregnancy is a hypercoagulable state due to pro-hemostatic changes in the activity of coagulation factors and fibrinolysis and due to progressively increasing pressure on the iliac veins from the growing uterus. Thus, it is not surprising that there is an increased risk for thrombotic events and especially in the pelvic veins. With the trauma of delivery, and particularly caesarian section, the risk is accentuated in the early days postpartum. Multiparity seems to be another risk factor, which may be due to the older age of the patient. The epidemiology, risk factors, diagnosis, management and prognosis of iliac, ovarian and uterine vein thrombosis will be reviewed here, with emphasis on the relation to pregnancy.

346. Head to Toe Imaging of Complications and Sequelae of COVID- 19 and COVID-19 Vaccination

Background COVID 19 is associated with a hypercoagulable state with cytokine storm syndrome and thrombocytopenia leading to complications across various systems. COVID-19 infection, its treatment, resultant immunosuppression, and pre-existing comorbidities have made patients vulnerable to secondary infections Methods We systematically reviewed COVID-19 cases between Jan to May 2021 for pulmonary and extrapulmonary complications. Patients with recent COVID-19 vaccination and neurological symptoms were also included. Figure 1. “Black turbinate” sign of mucormycosis Contrast enhanced coronal T1 FS images of paranasal sinuses shows necrotic non-enhancing right superior and middle turbinates (*) with extension into the right orbital fat. FIGURE 2 - A composite image of Coronal CT of upper abdomen in arterial phase and lung bases in lung window showing wedge showing right renal infarcts (line arrow) due to inferior polar artery thrombosis and ground glass opacities (solid arrow) in lung bases. Results Neurological complications: Neurological complications include ischemic and haemorrhagic strokes. Other complications are encephalopathy, encephalitis, Guillain-Barré syndrome, acute hemorrhagic necrotizing encephalopathy. Demyelination and radiculopathies are seen as post vaccination complications. Mucormycosis: Unprecedented high rate of invasive fungal sinusitis in association with COVID -19 is reported from the Indian subcontinent. This has a propensity for intra orbital and intracranial extension. COVID -19 associated coagulopathy: COVID -19 is a pro-inflammatory hypercoagulable state. Pulmonary thromboembolism, deep venous thrombosis and catheter related thrombosis are well documented. Cardiac complications: Cardiac manifestations include Myocardial Injury with non-obstructed coronary arteries (MINOCA), myocarditis, myocardial ischemia, cardiomyopathy. Pulmonary complications and sequelae of COVID -19: Progression of lung injury to ARDS during the initial phase and fibrosis of parenchyma in the recovery phase. Spontaneous pneumomediastinum, pneumatoceles and pneumothorax and secondary infections are identified in our study. COVID- 19 associated gastrointestinal complications: Patients evaluated for renal colic, pancreatitis, cholecystitis showed, ground glass opacities or subpleural bands in typical Covid-19 distribution. COVID-19 may lead of acute kidney and bowel injury due to arterial thrombosis. COVID - 19 associated myonecrosis: Ischemia of the small caliber vessels may result in myonecrosis. FIGURE 3 - Coronal STIR image shows thickened and hyperintense trunks and divisions of the right brachial plexus suggestive of plexopathy in a COVID -19 patient with H/O recent COVID-19 vaccination. Figure 4. Axial CT chest section in lung window showing pneumothorax (white arrow) and pneumatocele ( grey arrow) with peripheral ground glass opacities and consolidations in both lungs. Conclusion Awareness of these unusual manifestations will facilitate an early diagnosis, improve management and help reduce morbidity and mortality Disclosures All Authors: No reported disclosures

Relationship between Hypercoagulable State and Circulating Tumor Cells in Peripheral Blood, Pathological Characteristics, and Prognosis of Lung Cancer Patients

Objective. To analyze the relationship between hypercoagulable state and circulating tumor cells (CTCs) in peripheral blood, pathological characteristics, and prognosis of lung cancer patients. Method. A total of 148 patients with primary lung cancer diagnosed and treated in our hospital from January 2017 to January 2019 were selected as the research objects. According to the CTC test results, the patients were divided into CTC-positive group and CTC-negative group. Also, the coagulation index of patients was tested. According to the blood coagulation index test results, patients were divided into hypercoagulable group and non-hypercoagulable group. The relationship between hypercoagulable state and pathological characteristics of lung cancer patients was analyzed by single factor analysis and multiple logistic regression model. Kaplan–Meier survival curve was applied to analyze the relationship between hypercoagulable state and the prognosis of lung cancer patients. Results. The platelets (PLTs), fibrinogen (FIB), D-dimer (D-D), and prothrombin time (PT) in CTC-positive group were significantly higher than those in CTC-negative group. There was no significant relationship between the patient’s gender, smoking history, pathological type, and the hypercoagulable state of the patients. The proportion of patients aged 60 years or older, with TMN stage III or IV and lymph node metastasis, in the hypercoagulable group was significantly higher than that in the non-hypercoagulable group. Logistic regression analysis showed that there was an independent relationship between the patient’s age, lymph node metastasis, and hypercoagulable state. As of January 2020, among the 148 patients with lung cancer follow-up, 5 patients were lost and 52 died. The median survival time of patients in the hypercoagulable group was 82 weeks, which was significantly lower than the 104 weeks in the nonhypercoagulable group. Conclusion. There is a certain relationship between hypercoagulable state and CTC positive in lung cancer patients. There is an independent relationship between the patient’s age, lymph node metastasis, and the hypercoagulable state. The median survival time of patients in the hypercoagulable group was significantly lower than that in the non-hypercoagulable group.