Next-generation theranostics of brain pathologies with autonomous externally controllable nanonetworks: a trans-disciplinary approach with bio-nanodevice interfaces

Projektinformationen

GLADIATOR

ID Finanzhilfevereinbarung: 828837

Projektwebsite

DOI

10.3030/828837

Projekt abgeschlossen

EK-Unterschriftsdatum 17 Dezember 2018

Startdatum 1 Januar 2019

Enddatum 30 September 2023

Finanziert unter

EXCELLENT SCIENCE - Future and Emerging Technologies (FET)

Gesamtkosten

€ 6 122 255,00

EU-Beitrag

€ 5 982 255,00

5 982 255,00

140 000,00

Koordiniert durch

UNIVERSITY OF CYPRUS
Cyprus

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Leistungen

Project website and logo
Papers; Proceedings; Presentations & Proposals 2

Papers; Proceedings; Presentations & Proposals

Papers; Proceedings; Presentations & Proposals 4

Papers; Proceedings; Presentations & Proposals

Papers; Proceedings; Presentations & Proposals 1

Papers; Proceedings; Presentations & Proposals

Report on the theoretical communication models of EX transmitter

Model the stochastic diffusion of the EXs within the cytoplasm after encountering RF signals and the stochastic secretion of EXs out of the cell membrane. This will feed the design and model for Transmitter iNSC using circuit theory

Quantified analyses of impact of dissemination and communication measures 3

Quantified analyses of impact of dissemination and communication measures

Report on the validation of iR-NSCs and iM-NSC

Verify EX functional integrity with qPCR, proteomics and quantification of fluorescence.

Report on the theoretical communication models of EX receiver binding

Model the stochastic reception process of the EXs onto the GBM and their binding process to GBM enabling modelling of spatial binding process that is dependent on GBM surface shape and area

Project general report & updated plans 1

Project general report & updated plans

Kick-off meeting report & updated plans
Report on the prototype for 3D GBM tumour constructs

Culture GSCs neurospheres on electrospun nano-membranes with desired degradation rate. Assess progression to GBM structure with weekly readouts of histology and stemness vs. invasiveness biomarkers.

Updated Data Management Plan
Report on the theoretical communication models of EX propagation in the brain

Develop temporal and spatial diffusion model for the EX propagation within the brain and the fluidic drifts impact on EX propagation in neuronal tissue and in BBB Analyse the performance of EX propagation under varying parameters and environmental conditions This closedform analytical solution will be developed in coordination with the in vitro models in the first phase of the project under various parameters

Quantified analyses of impact of dissemination and communication measures 2

Quantified analyses of impact of dissemination and communication measures

Report on the autonomous and externally controllable MC system for the management of GBM

Asses and verify viability, stability, sustainability, effectiveness and robustness of the various system components with measurements of T5.1. Use the data to compare the optimal signal power vs the concentration of released EXs, and its impact on treatment and monitoring, serving to validate theoretical models of WP3 and the algorithms of T4.1.

Progress report on the simulator development

Simulator development based on the nanoNS3Sim Develop packages at the physical layer of the simulator including all elements from T31T34 and be optimized continually in conjunction with the in vitro experimental works

Final dissemination & exploitation plan
Quantified analyses of impact of dissemination and communication measures 4

Quantified analyses of impact of dissemination and communication measures

Quantified analyses of impact of dissemination and communication measures 1

Quantified analyses of impact of dissemination and communication measures

Project handbook
Project general report & updated plans 3

Project general report updated plans

Report on the viability of iNSCs and EXs In Vivo

Initially, inject fluorescently labelled EXs isolated from conditioned media of iRNSCs contralaterally in tumour -bearing animals. Assess migration and intracellular trafficking with daily intravital microscopy and weekly ex vivo fluorescent confocal microscopy over 6 weeks. Verify functional integrity with fluorescence quantification in brain and IDH1 miRNA upregulation in tumour cells. Identify Median Effective Dose (ED50) and correlate with iRNSCs numbers to be used in proof-of-concept studies.

Dissemination & exploitation plan
Report on the Central Unit including communication and intelligent algorithms

Enable and test the LRC and create the algorithms (deep learning convolution neural networks) and software to interface with the WBAN and perform tumour localization. Test the algorithm in vitro, using triple co-culture of T2.3 with and without tumour cells.

Report on in vivo efficacy of the reprogramming

Inject Rpf-GSCs stereotactically in RNU rats. Quantify and spatially analyse the fluorescence. Animals bearing vascularised tumours (5-6/group) will receive ipsilaterally: (i) iR-NSCs (treatment group); (ii) PBS (-ve control); (iii) iNSC expressing TRAIL (+ve control). Image in vivo daily until regression or death. Perform histology for regression and target protein readouts ex vivo. Isolate and characterize EXs from iR-NSC organoids cultures, animal models (serum and urine) as in T1.2.

Report on the proof-of-concept animal studies

Insert at least 3 devices to 3 groups of the models of D2.4 (5-6/group) via burred holes. Groups will receive additional implants as follows:(I) a reprogramming organoid; (II, positive control) iNSC expressing TRAIL (pro-apoptotic). (III, negative control), iNSCs without reprogramming miRNA. Daily measurements until regression or death: (i) distance between iR-NSCs and GBM; (ii) power and time required of RF for secretion, (iii) fluorescent signal at receiver. Histology will confirm if positive signal correlates with GBM recurrence.

Report on the deep learning algorithms and performance comparison for localization and prediction

Investigate deep learning algorithms, suitable for localizing the GBM. The selection will be highly dependent on the granularity of the data collected from monitoring EXs, in particular for (i) localizing accurately through triangulation using molecular signalling concentration, and (ii) predicting an accurate estimate of cell population before and after the treatment.

Data Management Plan
Updated &confirmed dissemination & exploitation plan 2

Updated confirmed dissemination exploitation plan

Project general report & updated plans 2

Project general report & updated plans

Public communication channels set-up
Report on in vitro efficacy of the reprogramming

Bring together co-cultures of EX-emitting iR-NSC and iM-NSCs organoids, BBB and GBM constructs in in vitro triple-culture system. Assess EX delivery across BBB with fluorescence readouts, proliferation markers, expression of target genes. Assess reprogramming efficacy of IDH1-miRNA with qPCR and GBM regression. Correlate NIR intensity from iM-NSCs with GBM cell viability and EX number.

Report on the end-to-end communication model

Integrate T31T33 in the endtoend capacity and delay model and analyse the performance of cell populations distances to GBM population and distribution of GBM niches as well as various environmental effects on the reliability of the EXs arriving with the required concentration Simulator development based on the nanoNS3Sim

Updated &confirmed dissemination & exploitation plan 1

Updated &confirmed dissemination & exploitation plan

Project general report & updated plans 4

Project general report updated plans 4

Papers; Proceedings; Presentations & Proposals 3

Papers Proceedings Presentations Proposals

Simulator Framework and list of packages for nanoNS3Sim

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Optimization of Extracellular Vesicle Release for Targeted Drug Delivery

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