Porous silicon microparticles as an embolic agent for the treatment of hepatocellular carcinoma

Fakhoury, Jean Raymond Garcia

15 February 2012

Hepatocellular carcinoma (HCC) is the third most common cause of cancer-related deaths worldwide, accounting for over 600,000 deaths per year. The most common treatment strategy for intermediate and advanced stage unresectable HCC is transarterial chemoembolization (TACE), which involves the local administration of a chemotherapeutic drug combined with arterial occlusion resulting in ischemic tumor necrosis. However, TACE suffers from inadvertent exposure of noncancerous liver parenchyma to embolic agents resulting in liver injury. In some cases, over-embolization has lead to infection, necrosis of unaffected liver tissue, and even liver failure which suggests the need for a biocompatible, multifunctional embolic material which can deliver anticancer drugs with high target specificity. Our laboratory has recently developed a method to fabricate porous silicon (pSi) microparticles with defined physicochemical properties based on photolithography and anodic etching. These microparticles function as multistage drug delivery systems that can circumvent the biobarriers present in the systemic circulation enabling site-specific localization and release of chemotherapy and imaging agents. The versatility of the fabrication process enables the realization of microparticles ranging in size from 600nm to 116[mu]m in diameter with varying shapes, including discoidal, cylindrical and hemispherical, and varying porosity with pore sizes ranging from 6nm to greater than 50nm in diameter. Nanoparticles, such as quantum dots, siRNA-loaded nanoliposomes, gadolinium-based contrast agents, gold and iron oxide nanoparticles, are loaded in pSi microparticles by tailoring their pore sizes and surface chemistries. This thesis presents preliminary results on the applicability of biocompatible, engineered pSi microparticles as an embolic agent for HCC chemoembolization therapy. Hemispherical microparticles with 116[mu]m diameter were successfully fabricated and suspended in phosphate buffered saline (PBS). A microvascular construct was rapid prototyped in polydimethylsiloxane (PDMS) as an in vitro experimental platform to study the embolization behavior of pSi microparticles. Oxidized pSi microparticles were introduced into the microfluidic device at an appropriate flow rate and time-lapse images were taken showing the formation of occlusions at the bifurcation within minutes of administration. Furthermore, penetration through the bifurcation was completely hindered suggesting that pSi microparticles can potentially be used as a biocompatible, multifunctional chemoembolization agent. Although these results are promising, further investigations are warranted.

Hepatocellular carcinoma

Porous silicon

Multistage drug delivery system

Transarterial chemoembolization

Embolização de malformações arteriovenosas periféricas com uso de cateter-balão de duplo lúmen / Peripheral arteriovenous malformations embolization with dual-lumen balloon catheter

Stamoulis, Dimitrius Nikolaos Jaconi

11 June 2018

Introdução: As malformações arteriovenosas são lesões congênitas caracterizadas por uma rede capilar malformada (nidus) que comunica o sistema arterial e venoso em um mecanismo de shunt arteriovenoso não irrigando tecido normal. Devido ao shunt arteriovenoso as MAVs apresentam alto fluxo sanguíneo, podem ser assintomáticas ou sintomáticas dependendo de sua localização. O tratamento das MAV busca a exclusão circulatória completa do nidus o que pode ser alcançado por meio de ressecção cirúrgica, radiocirurgia ou embolização endovascular. Objetivo: descrição técnica de uma série de dois casos de MAVs de localização periférica (fora do sistema nervoso central), que foram tratadas através da embolização com uso de cateter-balão de duplo lúmen. Materiais e métodos: Trata-se de estudo retrospectivo que avaliou os pacientes submetidos a embolização com cateter-balão de duplo lúmen para o tratamento das MAVs periféricas pelo Setor de Radiologia Intervencionista do HCFMRP-USP. Resultados: Os achados encontrados foram consistentes com a literatura atual demonstrando altas taxas de sucesso técnico e clínico, sem complicações inerentes ao procedimento. Conclusão: O uso destes dispositivos se mostrou mais eficaz em obliterar completamente o nidus deste tipo de lesão, além de reduzir o tempo de procedimento, a exposição à fluoroscopia. Neste estudo foi obtida a exclusão angiográfica completa das MAV em uma única sessão de embolização e não foram descritas complicações relacionadas ao tratamento. / Introduction: Arteriovenous malformations are congenital lesions characterized by a malformed capillary network (nidus) that communicates the arterial and venous system in an arteriovenous shunt mechanism and does not irrigate normal tissue. Due to the arteriovenous shunt AVMs present high blood flow, they may be asymptomatic or symptomatic depending on their location. The AVM treatment seeks the complete circulatory exclusion of the nidus which can be achieved by means of surgical resection, radiosurgery or endovascular embolization. Objectives: A technical description of a series of two cases of peripheral AVMs that were treated through embolization using a dual-lumen balloon catheter. Materials and methods: This is a retrospective study that evaluated patients undergoing embolization with a double-lumen balloon catheter for the treatment of peripheral AVMs by the Interventional Radiology Sector of HCFMRP-USP. Results: The findings were consistent with the current literature demonstrating high rates of technical and clinical success, without complications inherent to the procedure. Conclusion: The use of these devices has been shown to be more effective in completely obliterating the nidus of this type of lesion, in addition to reducing the procedure time, exposure to fluoroscopy. In this study complete angiographic exclusion of AVM was obtained in a single embolization session and no complications related to treatment were described.

Biopharmaceutical Evaluation of Intra-arterial Drug-Delivery Systems for Liver Cancer : Investigations in healthy pigs and liver cancer patients

Lilienberg, Elsa

January 2015

There are currently two types of intra-arterial drug-delivery system (DDS) in clinical use in the palliative treatment of primary liver cancer. The chemotherapeutic drug doxorubicin (DOX) can be formulated into a drug-in-lipiodol emulsion (LIPDOX) or a microparticulate drug-eluting bead system (DEBDOX). To facilitate development of future DDSs, we need to understand the release and local distribution of drug from these DDSs into the complex, in vivo, pathological environment. The overall aim of this project was to assess and improve understanding of the in vivo release of DOX from LIPDOX and DEBDOX and its local disposition in the liver. These processes were investigated in detail in a multisampling-site, healthy pig model and in human patients with liver cancer. The mechanisms involved in DOX disposition were studied by examining potential interactions between DOX and lipiodol and/or cyclosporine A (CsA) in pigs.   In this project, the main elimination pathway for DOX and its primary metabolite doxorubicinol (DOXol) was via bile; their extensive canalicular carrier-mediated transport (e.g. ATP-binding cassette transporters ABCB1, ABCC1, ABCC2 and ABCG2) was inhibited by CsA. CsA had no effect on the carbonyl and aldo-keto reductases responsible for the metabolism of DOX into DOXol. LIPDOX released DOX more rapidly and to a greater extent into the circulation than DEBDOX, which had only released 15% of the dose in patients after 24 hrs. The systemic exposure to DOX was lower for DEBDOX than for LIPDOX. Greater fractions of DOXol were formed in blood and bile with LIPDOX than with DEBDOX. This may have been because DOX was more widely distributed into regions with increased metabolic capacity or because of increased intracellular uptake when DOX was delivered in LIPDOX. The excipient lipiodol in the LIPDOX formulation did not interact with transporters, enzymes or membranes that would explain the increased cellular uptake of DOX. In conclusion, the release of DOX from DEBDOX is more controlled in vivo than that from LIPDOX, indicating that DEBDOX is a more robust pharmaceutical product. The formulations for future optimized DDSs should therefore be more similar to DEBDOX than to LIPDOX.

in vivo release

drug delivery systems

local delivery

drug disposition

doxorubicin

hepatocellular carcinoma

transarterial chemoembolization

transarterial chemotherapy infusion

Biopharmaceutical investigations of doxorubicin formulations used in liver cancer treatment : Studies in healthy pigs and liver cancer patients, combined with pharmacokinetic and biopharmaceutical modelling

Dubbelboer, Ilse R

January 2017

There are currently two types of drug formulation in clinical use in the locoregional treatment of intermediate hepatocellular carcinoma (HCC). In the emulsion LIPDOX, the cytostatic agent doxorubicin (DOX) is dissolved in the aqueous phase, which is emulsified with the oily contrast agent Lipiodol® (LIP). In the microparticular system DEBDOX, DOX is loaded into the drug-eluting entity DC Bead™. The overall aim of the thesis was to improve pharmaceutical understanding of the LIPDOX and DEBDOX formulations, in order to facilitate the future development of novel drug delivery systems. In vivo release of DOX from the formulations and the disposition of DOX and its active metabolite doxorubicinol (DOXol) were assessed in an advanced multisampling-site acute healthy pig model and in patients with HCC. The release of DOX and disposition of DOX and DOXol where further analysed using physiologically based pharmacokinetic (PBPK) and biopharmaceutical (PBBP) modelling. The combination of in vivo investigations and in silico modelling could provide unique insight into the mechanisms behind drug release and disposition. The in vivo release of DOX from LIPDOX is not extended and controlled, as it is from DEBDOX. With both formulations, DOX is released as a burst during the early phase of administration. The in vivo release of DOX from LIPDOX was faster than from DEBDOX in both pigs and patients. The release from DEBDOX was slow and possibly incomplete. The in vivo release of DOX from LIPDOX and DEBDOX could be described by using the PBBP model in combination with in vitro release profiles. The disposition of DOX and DOXol was modelled using a semi-PBPK model containing intracellular binding sites. The contrast agent Lipiodol® did not affect the hepatobiliary disposition of DOX in the pig model. The control substance used in this study, cyclosporine A, inhibited the biliary excretion of DOX and DOXol but did not alter metabolism in healthy pigs. The disposition of DOX is similar in healthy pigs and humans, which was shown by the ease of translation of the semi-PBPK pig model to the human PBBP model.

drug delivery system

in vivo release

PBPK modelling

hepatocellular carcinoma

doxorubicin

transarterial chemoembolization

drug disposition

Pharmaceutical Sciences

Farmaceutisk vetenskap

Patient Selection for Downstaging of Hepatocellular Carcinoma Prior to Liver Transplantation Adjusting the Odds?: Adjusting the Odds?

Seehofer, Daniel, Petrowsky, Henrik, Schneeberger, Stefan, Vibert, Eric, Ricke, Jens, Sapisochin, Gonzalo, Nault, Jean-Charles, Berg, Thomas

07 June 2023

Background and Aims: Morphometric features such as the Milan criteria serve as standard criteria for liver transplantation (LT) in patients with hepatocellular carcinoma (HCC). Since it has been recognized that these criteria are too restrictive and do not adequately display the tumor biology, additional selection parameters are emerging. Methods: Concise review of the current literature on patient selection for downstaging and LT for HCC outside the Milan criteria. Results: The major task in patients outside the Milan criteria is the need for higher granularity with patient selection, since the benefit through LT is not uniform. The recent literature clearly shows that beneath tumor size and number, additional selection parameters are useful in the process of patient selection for and during downstaging. For initial patient selection, the alpha fetoprotein (AFP) level adds additional information to the size and number of HCC nodules concerning the chance of successful downstaging and LT. This effect is quantifiable using newer selection tools like the WE (West-Eastern) downstaging criteria or the Metroticket 2.0 criteria. Also an initial PET-scan and/or tumor biopsy can be helpful, especially in the high risk group of patients outside the University of California San Francisco (UCSF) criteria. After this entry selection, the clinical course during downstaging procedures concerning the tumor and the AFP response is of paramount importance and serves as an additional final selection tool Conclusion: Selection criteria for liver transplantation in HCC patients are becoming more and more sophisticated, but are still imperfect. The implementation of molecular knowledge will hopefully support a more specific risk prediction for HCC patients in the future, but do not provide a profound basis for clinical decision-making at present.

info:eu-repo/classification/ddc/610

ddc:610

Preuve de concept in vitro de la navigation par résonance magnétique en conditions physiologiquement réalistes

Michaud, François

12 1900

No description available.

Carcinome hépatocellulaire

Chimioembolisation transartérielle

Navigation par résonance magnétique

Hepatocellular carcinoma

Transarterial chemoembolization

Magnetic resonance navigation