Impact of cerebrospinal fluid flow study in patients undergoing intrathecal chemotherapy via ventricular catheter reservoir.

PURPOSE: Leptomeningeal carcinomatosis (LMC) is a form of CNS cancer metastasis with severe morbidity. Intrathecal chemotherapy (ITC) administration through an implanted ventricular catheter reservoir (IVCR) is often utilized. Additionally, a nuclear imaging flow study can be performed prior to ITC administration to assess cerebrospinal fluid (CSF) flow. The clinical impact of a CSF flow study is unclear. METHODS: A retrospective chart review identified 31 patients with LMC that underwent IVCR placement between 2011 and 2019. Data extracted included patient demographics, nuclear imaging flow study, surgical complications, ITC toxicities and outcomes. RESULTS: Potential drug-induced neurologic toxicities (headache, nausea/vomiting, altered mental status, etc.) were noted in (n = 4/16) 25% of patients who underwent a flow study prior to initiation of ITC, compared to (n = 1/15) 6.6% of patients who did not undergo a flow study. Median overall survival (OS) was 4.0 and 32.8 months for the patients that underwent a flow study versus patients who did not, respectively (p < 0.01). The mean interval from IVCR implantation to initiation of ITC was 15.2 ± 8.5 days and 3.3 ± 3.0 days in patients who underwent CSF flow study and patients that did not, respectively (p < 0.0001). CONCLUSIONS: A flow study can provide information regarding CSF flow dynamics prior to initiation of ITC; however this might delay initiation of ITC which may negatively impact OS. Additionally, in our study patients that underwent a flow study had more ITC induced drug toxicity events compared to those that did not. Further studies are needed to clarify the role of CSF flow study in these patients.

Iron depletion attenuates steatosis in a mouse model of non-alcoholic fatty liver disease: Role of iron-dependent pathways.

BACKGROUND & AIMS: Iron has been proposed as influencing the progression of liver disease in subjects with non-alcoholic fatty liver disease (NAFLD). We have previously shown that, in the Hfe-/- mouse model of hemochromatosis, feeding of a high-calorie diet (HCD) leads to increased liver injury. In this study we investigated whether the feeding of an iron deficient/HCD to Hfe-/- mice influenced the development of NAFLD. METHODS: Liver histology was assessed in Hfe-/- mice fed a standard iron-containing or iron-deficient diet plus or minus a HCD. Hepatic iron concentration, serum transferrin saturation and free fatty acid were measured. Expression of genes implicated in iron regulation and fatty liver disease was determined by quantitative real-time PCR (qRT-PCR). RESULTS: Standard iron/HCD-fed mice developed severe steatosis whereas NAS score was reduced in mice fed iron-deficient HCD. Mice fed iron-deficient HCD had lower liver weights, lower transferrin saturation and decreased ferroportin and hepcidin gene expression than HCD-fed mice. Serum non-esterified fatty acids were increased in iron-deficient HCD-fed mice compared with standard iron HCD. Expression analysis indicated that genes involved in fatty-acid binding and mTOR pathways were regulated by iron depletion. CONCLUSIONS: Our results indicate that decreasing iron intake attenuates the development of steatosis resulting from a high calorie diet. These results also suggest that human studies of agents that modify iron balance in patients with NAFLD should be revisited.

Heterozygous Hfe gene deletion leads to impaired glucose homeostasis, but not liver injury in mice fed a high-calorie diet.

Heterozygous mutations of the Hfe gene have been proposed as cofactors in the development and progression of nonalcoholic fatty liver disease (NAFLD). Homozygous Hfe deletion previously has been shown to lead to dysregulated hepatic lipid metabolism and accentuated liver injury in a dietary mouse model of NAFLD We sought to establish whether heterozygous deletion of Hfe is sufficient to promote liver injury when mice are exposed to a high-calorie diet (HCD). Eight-week-old wild-type and Hfe(+/-) mice received 8 weeks of a control diet or HCD Liver histology and pathways of lipid and iron metabolism were analyzed. Liver histology demonstrated that mice fed a HCD had increased NAFLD activity score (NAS), steatosis, and hepatocyte ballooning. However, liver injury was unaffected by Hfe genotype. Hepatic iron concentration (HIC) was increased in Hfe(+/-) mice of both dietary groups. HCD resulted in a hepcidin-independent reduction in HIC Hfe(+/-) mice demonstrated raised fasting serum glucose concentrations and HOMA-IR score, despite unaltered serum adiponectin concentrations. Downstream regulators of hepatic de novo lipogenesis (pAKT, SREBP-1, Fas, Scd1) and fatty acid oxidation (AdipoR2, Pparα, Cpt1) were largely unaffected by genotype. In summary, heterozygous Hfe gene deletion is associated with impaired iron and glucose metabolism. However, unlike homozygous Hfe deletion, heterozygous gene deletion did not affect lipid metabolism pathways or liver injury in this model.