Hepatocellular Carcinoma Presenting as a Clival Mass

Introduction: Hepatocellular carcinoma (HCC) comprises the majority of primary liver cancer and has a poor prognosis. Clivus metastasis is rare with only a few reported cases in the medical literature. We report a case of a patient who presented with clival mass found to have metastatic HCC. Case Description/Methods: A 63-year-old woman presented for neurosurgical evaluation after she was found to have a skull base mass on computerized tomography (CT) of the head at an outside hospital. She endorsed dysphagia for three months, however denied headaches or visual disturbances. A magnetic resonance imaging (MRI) revealed a 5.4 cm by 2.9 cm by 3.6 cm mass in the clivus, which was deemed as the cause of dysphagia (Figure 1a). The patient subsequently underwent an endoscopic transsphenoidal resection of the clival mass. Histopathology from the tissue revealed a hepatoid carcinoma, concerning for metastatic HCC (Figure 1b and 2c). Immunohistochemical strains were positive for hepatocytic marker arginase-1 (Figure 1d). Laboratory studies revealed alpha fetoprotein (AFP) of 56,344 ng/mL, CA-125 of 376 ng/mL, normal B-HCG and carcinoembryonic antigen (CEA). Thereafter, a triple phase CT of the liver revealed two LI-RADS 5 lesions suggestive of HCC as the primary malignancy. Patient's case was discussed at multidisciplinary tumor board with recommendations for systemic immunotherapy with atezolimumab plus bevacizumab and radiation therapy to the clivus. Discussion(s): The incidence of HCC has almost tripled since the 1980s making it the fastest rising cause of cancer related deaths. Metastasis to the brain comprises 0.26% to 2.2% of cases and the skull base is the most rarely affected anatomical site. Although CNS presentation is rare, we may see more neurological manifestations of metastatic HCC with the persistence of chronic hepatitis infections, the rise of metabolic diseases such as NASH, and an increase in alcohol-related liver disease during the COVID-19 pandemic. Although exceedingly rare, metastasis to the clivus should be considered in the differential diagnosis of skull base masses. Despite detection and treatment, prognosis remains poor and emphasis should be placed on consistent HCC surveillance. This case emphasizes that skull masses must be evaluated diligently as they can be the first sign of underlying liver malignancy. Given the morbidity and mortality associated with HCC, recognition of atypical manifestations of HCC can lead to a prompt diagnosis and initiation of life-saving treatment. (Figure Presented).

Genetic regulation of iron homeostasis in sideropenic patients with mild COVID-19 disease under a new oral iron formulation: Lessons from a different perspective.

BACKGROUND: Severe Acute Respiratory Syndrome Coronavirus-2 (SARS-CoV-2) needs iron to replicate itself. Coronaviruses are able to upregulate Chop/Gadd153 and Arg1 genes, consequently leading to CD8 lymphocytes decrease, degradation of asparagine and decreased nitric oxide (NO), thus impairing immune response and antithrombotic functions. Little is known about regulation of genes involved in iron metabolism in paucisymptomatic patients with COVID-19 disease or in patients with iron deficiency treated with sucrosomial iron. METHODS: Whole blood was taken from the COVID-19 patients and from patients with sideropenic anemia, treated or not (control group) with iron supplementations. Enrolled patients were: affected by COVID19 under sucrosomal iron support (group A), affected by COVID-19 not under oral iron support (group B), iron deficiency not under treatment, not affected by COVID19 (control group). After RNA extraction and complementary DNA (cDNA) synthesis of Arg1, Hepcidin and Chop/Gadd153, gene expression from the 3 groups was measured by qRT-PCR. M2 macrophages were detected by cytofluorimetry using CD163 and CD14 markers. RESULTS: Forty patients with COVID-19 (group A), 20 patients with iron deficiency treated with sucrosomial iron (group B) and 20 patients with iron deficiency not under treatment (control group) were enrolled. In all the patients supported with oral sucrosomial iron, the gene expression of Chop, Arg1 and Hepcidin genes was lower than in sideropenic patients not supported with iron, M1 macrophages polarization and functional iron deficiency was also lower in group A and B, than observed in the control group. CONCLUSIONS: New oral iron formulations, as sucrosomial iron, are able to influence the expression of genes like Chop and Arg1 and to influence M2 macrophage polarization mainly in the early phase of COVID-19 disease.

Erythrocytes induce vascular dysfunction in COVID-19

Background: Vascular injury has been implicated as a major cause of clinical complications in patients with coronavirus disease 2019 (COVID-19). Autopsy studies have revealed destruction of the endothelial cell lining, which might explain cardiovascular alterations arising from the infection. However, data demonstrating endothelial dysfunction during ongoing infection are sparse, and the underlying mechanisms are still largely unknown. Red blood cells (RBCs) are affected by COVID-19 with alterations in their structure and function, possibly contributing to vascular injury via increased oxidative stress. Purpose: To determine the presence of endothelial dysfunction in patients with COVID-19 and to explore the RBC as a possible mediator of such dysfunction. Methods: The study was performed on 17 patients hospitalized for moderate COVID-19 infection and age-and sex-matched healthy subjects. Inclusion criteria of the COVID-19 patients were PCR-verified SARS-CoV2 infection, pulmonary infiltrates on x-ray, oxygen demand during hospital stay and ≤ one cardiovascular co-morbidity. Microvascular endothelial function in vivo was assessed with a pulse amplitude tonometry device on each index finger at baseline and during reactive hyperemia and expressed as reactive hyperemia index (RHI). RBCs from COVID-19 patients (C19-RBCs) and healthy subjects (H-RBCs) were incubated with isolated rat aortic segments for evaluation of endothelium-dependent and -independent relaxation. Results: COVID-19 patients displayed profound impairment in endothelial function in vivo with RHI 1.56 (1.30-1.81, median and interquartile range) compared to healthy subjects 2.36 (1.97-2.79, p<0.001). C19-RBCs induced severe impairment in both endothelium-dependent (27% maximal relaxation) and -independent relaxations (54%) compared to H-RBCs (67% and 95% relaxation, respectively). Further, C19-RBCs induced upregulation of vascular arginase 1 (∼2 fold increase compared to H-RBCs) and markers of oxidative stress (∼6 fold). Consequently, inhibition of vascular arginase or superoxide attenuated the impairment in endothelial function induced by C19-RBCs. C19-RBCs were characterized by increased production of reactive oxygen species (∼1.4 fold) and reduced export of the nitric oxide metabolite nitrate. Following pre-incubation with interferon-γ, but not interleukin-6 or tumor necrosis factor-α, H-RBCs induced impairment in endothelial function. Conclusions: This study demonstrates the presence of marked endothelial dysfunction in an otherwise mainly healthy patient group hospitalized for COVID-19, and clearly implicates a central role of the RBC as a mediator of endothelial injury through enhancement of reactive oxygen species and arginase. These data shed light on a new pathological mechanism underlying vascular dysfunction in COVID-19 patients and may lay the foundation for future therapeutic developments.