International Centre of
BIODYNAMICS Bucharest-ROMANIA www.biodyn.ro
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ICB Annual Report 2013
Content Content ................................................................................................................................................................... 2
About us ................................................................................................................................................................. 3
Our Mission ............................................................................................................................................................ 4
Important Dates in the Institute’s History ................................................................................................... 5
Director’s Message ............................................................................................................................................... 6
The Managing and Advisory Boards ............................................................................................................ 9
… and us ................................................................................................................................................................ 10
Cell Cultures Laboratory .................................................................................................................................. 12
Electrochemistry Laboratory .......................................................................................................................... 14
Applied Electrochemistry Laboratory.......................................................................................................... 16
Microfabrication & Prototyping Laboratory ............................................................................................. 18
Bioanalysis Laboratory ..................................................................................................................................... 19
(including a mobile laboratory) .................................................................................................................... 19
Electrical Measurements Laboratory ..........................................................................................................20
Impedimetric and Plasmonic Bio Sensors .................................................................................................. 22
Optical Microscopy Laboratory .................................................................................................................... 25
Modeling and Data Analysis Laboratory .................................................................................................. 26
Pilot Laboratory on monitoring fish behavior for quality assessment of aquatic environments ................................................................................................................................................................................. 27
Atomic Force Microscopy Laboratory ......................................................................................................... 29
International projects ....................................................................................................................................... 30
National projects ............................................................................................................................................... 32
Visibility actions .................................................................................................................................................. 33
Emergent Applications fostered by ICB ..................................................................................................... 36
Relevant publications ...................................................................................................................................... 38
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About us
According to the Agreement between UNESCO and Romanian Government, the
International Centre of Biodynamics-ICB has been established through the decision No.
1378/2000 of the Romanian Government, under the aegis of UNESCO, as a non-profit
organisation of general interest and public utility to pursue graduate training, research and
development initiatives in the field of Biodynamics.
ICB focuses on noninvasive, real time
assays and (non) linear data analysis for
appraisal of biosystems or/and of their
dynamics. In a multidisciplinary approach,
it integrates precise measurements into
detailed models (of the dynamics) of living
systems, taking into account the
complexity of the interaction between
biological structures and measuring
system.
The potential applications of these
methodologies have far reaching
implications for Ecology, Food industry,
Bio-Medicine and Pharmaceutical
industry. Some examples are: fast
detection of analytes, e.g. contaminants
or/and toxic compounds in liquid media,
biomass monitoring etc.
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Our Mission
The International Centre of Biodynamics (ICB) is a flexible, highly dynamic structure active
on the national and international research areas. It initiates and coordinates research &
graduate training programs in the field of Biodynamics, for development of noninvasive,
sensitive and cost effective methods to analyze and control biosystems. The applicative
domains span BioMedicine, Food Industry and Ecology. ICB aims to maintain a balance
between fundamental and applied research.
ICB conducts and is involved in a number of collaborative national and international
research projects having the following headlines:
Characterization techniques for cellular systems, with emphasis on noninvasive, real-
time monitoring
Detection of contaminants and adulterates in food products and water
(microorganisms, heavy metals, antibiotics & toxins)
Monitoring cell cycle progression & Biomass assessment
Biomedical applications - pre-clinical, in vitro assays to assess the interaction
mechanisms between selected drugs and cellular structures as well as related cytotoxic effects
Monitoring & Nonlinear Analysis of the external stimuli (e.g. drugs, toxins, pathogens,
EM radiation, pollutants) effects on: (1) evolution of cellular systems and (2) fish behavior
ICB aims to provide a competitive research environment supporting the (re)
integration of valuable researchers and formation of new ones through the Graduate
training in collaboration with the University of Bucharest.
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Important Dates in the Institute’s History
November 1996: The proposal to create the International Centre of Biodynamics, ICB, was
discussed at the UNESCO Centre of Membrane Science and Technology, UNSW, Sydney,
Australia
April 1998: The first International Symposium on Biodynamics
October 1999: The Agreement between Romania and UNESCO to establish the ICB
December 2000: Romanian Government issued the Decision No. 1378/2000 to establish ICB
January 2001: The ICB commences its independent activities; starts AFRAMILK, the first
European Research Project (under FP5) in ICB’s portfolio
March 2001: Romanian Parliament passes the law 110/2001 to ratify the Agreement between
Romania and UNESCO to establish the ICB
December 2001: In Agreement with UNESCO the first Management Board of the ICB is
appointed by Romanian Ministers of Education and Research
April 2004: Appointment of the first International Advisory Board of ICB
April 2005: Starts ROBIOS, the first European Project (under FP6) coordinated by ICB
April 2006: ICB activities start in the new lodging
May 2006: The International Conference on Biosensing and Biodynamics: From Basics to
Applications co-financed by UNESCO
April-May 2008: The IInd European Young Investigator Awardees Symposium EURYIAS 2008-
Self-organization and Selection in Evolution of Matter, Molecules and Life
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Director’s Message
This Annual Report highlights the major ICB events and results pertaining
to 2013, emphasizing both the progress of ICB research and the
capabilities of ICB staff and laboratories for continuous development.
I acknowledge with pride the landmarks of 2013:
The appointment of the new Managing Board of ICB
The projects supporting ICB activity:
o BIOSCOPE, Electro-Plasmonics for the analysis of the dynamics of cellular processes and biomolecular interactions, Contract No. 11/2012, ID: PN II-ID-PCCE-2011-2-0075, coordinated by ICB; Project Director: Eugen Gheorghiu;
o EXTRACELL- Monitoring the extracellular space with catalytic self-propelled nanomotors, ERC- like project Contract No. 9/02.07.2012, Project Director: Szilveszter Gaspar;
o ANTIOXWIN-Exploiting the antioxidant capacity of black grapes for producing wines with high authentic quality– Contract No. 101/2012, ID: PN-II-PT-PCCA-2011-3.1-1809; Project Director: Alina Vasilescu
o Sensitive quantitation of target microorganisms using dual electro plasmonic analysis and magnetic actuation, Contract No. 82-30.04.2013 , ID: PN-II-RU-PD-2012-3-0467, Project Director: Mihai Sorin David
o SENSMOTION Sensing using the electrochemically-triggered motion of catalytic nanomotors- Contract No. 16/05.10.2011, ID: PNII-RU-TE-2011-3-0237, Project Director: Szilveszter Gaspar
o Tracing proteins through food processing with biosensors-Contract No. 06/05.10.2012, ID: PN-II-RU-TE-2011-3-0302, Project Director: Alina Vasilescu
o TUMORANALYZER- Response of in vitro hypoxic tumor models to potentially therapeutic compounds as revealed by an advanced analytical platform, Romanian‐Swiss Research Programme IZERZ0_142236, 2012, Promoter from Switzerland, École Polytechnique Fédérale de Lausanne: Hubert Girault and from ICB: Eugen Gheorghiu;
o CAPTALLERGENES- Aptamer based sensors for allergen detection, Cooperation Romania-France, PN-II-CT-RO-FR-2012-1-0012, Project Director: Alina Vasilescu;
o “Dynamic interactive nanosystems” DYNANO, FP7-PEOPLE-2011-ITN Grant agreement n°: PITN-GA-2011-289033 Coordinator: Mihai BARBOIU – IEM France
o PROARGUS - Contract No. PIRG08-GA-2010-277126, Marie Curie Reintegration Grant Protein Aggregation: a quantitative assessment MC Researcher: Alina Vasilescu
o “Non-invasive electro-optical methods to assess the effect of nano/micro substrate topography on living cell dynamics”, Academic Cooperation between Romania and Russian Federation, Project Director: Eugen Gheorghiu
New scientific developments
o Assessment of pathogenic bacteria using periodic actuation, Front Cover, Lab on a Chip
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o Modification with hemeproteins increases the diffusive movement of nanorods in dilute hydrogen peroxide solutions, Chem. Comm. ;
o Quality assessment of SPR sensor chips; case study on L1 chips, Biosensors and Bioelectronics;
o Appraisal of fish behavior based on time series of fish positions issued by a 3D array of ultrasound transducers, Aquacultural Engineering ;
o Label free sensing platform for amyloid fibrils effect on living cells, Biosensors and Bioelectronics
o Functional and molecular characterization of Aβ1-42 effect on barrier properties, Journal of Alzheimer Disease
o Simultaneous electrochemical detection of tryptophan and tyrosine using boron-doped diamond and diamond nanowire electrodes, Electrochem. Comm.
o Development of a label-free aptasensor for monitoring the self-association of lysozyme, Analyst
o Lysozyme detection on aptamer functionalized graphene-coated SPR interfaces, Biosens. Bioelectron.
These results allowed ICB to highly strengthen both the financial and human resources that
should pave the way to further increased scientific yield.
Improved Human Resources: PhD Students Madalina Axinie, Luciana Stanica as well as master students Diana Ciuculete
and Loredana Antonescu joined ICB team during 2013;
Strengthening international cooperation: the chain of seminars hosted by ICB was
complemented by research stages within ICB of our research partners in the bilateral
projects with France, Russian Federation and Switzerland
These accomplishments could not have been possible without the constant support,
motivation and efforts of ICB staff and collaborators as well as of ICB Management and
International Advisory Boards that fostered the continuous increase of Centre’s RTD
capabilities and visibility during 2013.
Thank you!
Eugen Gheorghiu
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Organizational Chart
ICB Functional Structure
Cell Cultures Laboratory Electrochemistry Laboratory Applied Electrochemistry Laboratory Microfabrication & Prototyping Laboratory Bioanalysis Laboratory (including a mobile laboratory) Electrical Measurements Laboratory Impedimetric and Plasmonic Biosensors Optical Microscopy Laboratory Modeling and Data Analysis Laboratory Pilot Laboratory on Monitoring Fish Behavior Atomic Force Microscopy Laboratory
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The Managing and Advisory Boards The International Advisory Board, the Managing Board and the
Director coordinate the activity of the International Centre of
Biodynamics.
According to ICB statute, the current Managing Board was appointed in 2013 by the International Advisory Board.
Managing Board members (in alphabetical order):
Prof. Dr. Mircea Dumitru - Rector, University of Bucharest
Prof. Dr. Alexandru Morega - University Politehnica of Bucharest, Corresponding Member of Romanian Academy
Prof. Dr. Romeo Resiga - Polytechnic University of Timisoara
Prof. Dr. Tatiana Vassu - University of Bucharest
Prof. Dr. Nicolae Zamfir- Institute for Nuclear Physics and Engineering “Horia Hulubei” Corresponding Member of Romanian Academy
The members and observers of the International Advisory Board (in alphabetical order):
Prof. Dr. Koji ASAMI Institute for Chemical Research, Kyoto University, Japan
Prof. Dr. Anton ANTON Representative of Romanian University Research Council
Prof. Dr. Jean-Michel KAUFFMANN Universite Libre de Bruxelles, Belgium
Prof. Dr. Maciej NALECZ Director, Division of Basic and Engineering Sciences UNESCO –Paris, France Director, UNESCO – CEPES
Minister of Education and Research
Representative of the European Commission, to be nominated
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… and us
Eugen Gheorghiu -2001* ICB Director Professor PhD, Physicist, theoretical physics EIS&SPR assays Modeling & Data analysis Madalina Axinie – 2013* PhD student EIS&SPR biosensing
Loredana Antonescu – 2013* MSc student at Faculty of Biology Electrophysiological analysis
Dumitru Bratu-2001* Engineer Electronics Development of Electrochemical devices
Szilveszter Gáspár-2006* Head of Electrochemistry Laboratory PhD, Chemist Novel applications of electrochemical biosensing platforms
Mihaela Gheorghiu -2001* Head of (Bio) Sensors, (Bio) Surface EIS&SPR biosensing Analyses and Cell culturing Department Professor , Physicist Electro - Optical Analysis of Biointerfaces
Mihai Sorin David-2003* PhD, Biophysics/Biodynamics EIS&SPR biosensing Bioimpedance Measurements, Biosensor Development and Nonlinear Analysis
Andreea Gabriela Olaru-2006* PhD, Analytical Chemistry SPR biosensing Biochemist Biosensors development with different colloidal systems
Cristina Polonschii-2006* PhD, Biophysics/Biodynamics EIS&SPR biosensing Development of analytical methods to interrogate bio interfaces
Alina Vasilescu-2011* PhD, Analytical Chemistry EIS&SPR biosensing Practical applications of Biosensors
Ada Ioana Bunea – 2012* MSc student at Faculty of Chemistry, Drugs and Cosmetics Nanomotors development
Ileana Pavel -2012* MSc student at Faculty of Chemistry, Advanced Materials Nanomotors development Veronica Andrei – 2012* MSc student at Faculty of Chemistry, Advanced Materials Electrochemical sensors Georgian Nedelcu-2012* MSc student at Faculty of Chemistry, Advanced Materials Electrochemistry and chemometrics
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Iuliana Mihai-2012* MSc student at Faculty of Chemistry, EIS&SPR biosensing Drugs and Cosmetics Optical sensors
Alis Vezeanu-2012* Chemist EIS&SPR biosensing
Luciana Stanica – 2012* PhD student Biologist Electrophysiological analysis
Mihnea Rosu Hamzescu-2012* PhD student EIS&SPR biosensing Diana Ciuculete-2012* MSc student at the University Politehnica of Bucharest Simulation of electromagnetic fields EIS&SPR biosensing Alin Dobre – 2012* PhD Electrical Engineering Engineer Simulation of electromagnetic fields
Dumitru Letea -2007* Mechanical Technician
Florica Moranescu – 2011* Cell culture technician
Cezar Giubalca-2001* Head of the Administrative Office Economist
Valeria Nane-2001* Chief Accountant Economist
* Date of employment at ICB
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Cell Cultures Laboratory
Team: Mihaela Gheorghiu Luciana Stanica Loredana Antonescu Florica Moranescu
Facilities
- Cell cultures facilities that enable cultivation of different epithelial tissues: cell collection
which contains renal epithelial cells (A6, MDCK-I, MDCK-II, MDCK parental, LLC-PK1),
intestinal epithelial cells (CaCo-2), epithelial cells from a cervical carcinoma (HeLa), cells
derived from an adrenal medulla (PC12); optogenetically engineered HEK 293 cells
containing bacterial channel rhodopsin; HT29 cancer cells expressing Carbonic anhydrase IX
under hypoxic conditions CO2 incubators (from Sanyo Biomedical Division–U.K), cryogenic
storage facilities and deep freezer, Two microelectrodes Voltage Clamp (TEVC) system,
Osmometer (from Gonotec Germany), Transepithelial, impedance and noise system (TINS),
inverted microscope; microinjection setup and support peripherals (pumps, pipette puller,
Faraday cages, dedicated measurement chambers and antivibration table); hypoxic
chamber, computer controlled LED illuminators.
- other lab utilities (purified air, microbiological hood class II, ultra pure water)
Current Research
In the Cell Cultures Laboratory we have developed a battery of methods to study the effects of
external factors (pharmaceutical compounds or bacteria) assessing several useful parameters.
The methods consider:
A. Analysis of transport and cellular permeability;
B. Toxicity studies at cellular level (changes in transport properties and cellular viability);
C. Changes in cell surface attachment and cell- to cell communication upon interaction
with stressors.
This expertise has been advanced with optogenetically engineered HEK 293, hypoxic
conditions and multisensory approaches towards continuous opto-electrical evaluation and
integration of cells in biosensing platforms.
Accomplishments
Gheorghiu M., David S., Polonschii C., Olaru A., Gáspár S., Bajenaru O., Popescu O. B, Gheorghiu E., Label free sensing platform for amyloid fibrils effect on living cells, Biosens. Bioelectr. (2014) 52, 89–97
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M. Gheorghiu, A-M Enciu, B.O. Popescu, E. Gheorghiu Functional and molecular
characterization of Aβ1-42 effect on barrier properties, JAD (2014) 38,787–798
Gheorghiu M., David S.,Polonschii C, Gáspár S., Gheorghiu E, “Optical and Electrical Biosensing Platforms for Cells Monitoring and Detection”, International summer school ”DYNANO – GLYCOPHARM”, September 30 – October 2, 2013 Biological Research Centre, Madrid, Spain
Gheorghiu M, Stănică L., Amuzescu B., „Electrophysiological characterization of light responsive, genetically modified cells as cellular sensors” 12th National Conference on Biophysics "CNB 2013" - Biophysics for Health, with International Participation 13-16 June 2013, IASSY, Romania, First Prize for the best Poster presentation
Gheorghiu M., David S.,Polonschii C, Bratu D, Gheorghiu E., „Cellular Platforms for assessing the risks pertaining to nanotechnology”, The 12th National Seminar on Nanoscience and Nanotechnology, Romanian Academy, 16 May 2013, Bucharest
Gheorghiu M, Bratu D, Olaru A., Polonschii C, , E Gheorghiu, Proceedings XV Int. Conf. on Electrical Bio-Impedance, Journal of Physics: Conference Series 434 (2013) 012087
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Electrochemistry Laboratory
Team: Szilveszter Gáspár Ada Ioana Bunea Ileana Pavel
Facilities
The resources of the laboratory include the following equipment: VSP modular
potentiostat/ galvanostat (from Bio-Logic S.A., France), CellTest multi-channel
potentiostat/ galvanostat (from Solartron Analytical, UK), Nanoband Explorer II anodic
stripping voltammetry-based heavy metal analyzer (from TraceDetect, USA), 797 VA
Computrance PC controlled system for voltammetry (from Metrohm AG, Switzerland),
Scanning Electrochemical Microscopy (SECM, from Sensolytics, Germany), trinocular stereo
microscope (from World Precision Instruments, USA) equipped with a Coolpix 995 digital
camera (from Nikon, Japan), EG-40 micropipette beveller (from Narishige, Japan), and 3D
micropositioner (HS6 from World Precision Instruments, USA).
Current Research and associated projects
The activities within the Electrochemistry Laboratory continued to be focused on
developing enzyme-based catalytic nanomotors and methods to study such nanomotors
(and into a smaller extent on developing classic electrochemical sensors). Regarding the
methods to study nanomotors, we have succeeded to purchase a SECM that we plan to use
to record collisions in between a microelectrode and the enzyme-based nanomotors. The
frequency of these collisions can be expected to depend not only on the number of the
nanomotors but also on the way they move (e.g. enhanced diffusive motion vs. directed
motion).l. Our interest in enzyme-based nanomotors resulted in the publication of a paper
that details the enhanced diffusive movement of hemeprotein-modified nanorod in diluted
hydrogen peroxide solutions (see below) and a poster presentation at the Summer School
on Electrochemistry for Environmental and Biomedical Applications (17-21 June 2013, Cluj
Napoca, Romania). Our interest in classic electrochemical sensors resulted in the publication
of a book chapter (see below) and an oral presentation at 12th National Seminar on
Nanoscience and Nanotechnology (16 May 2013, Bucharest, Romania).
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Accomplishments:
Bunea, A.-I.; Pavel, I.-A.; David, S.; Gáspár, S. Modification with Hemeproteins Increases the Diffusive Movement of Nanorods in Dilute Hydrogen Peroxide Solutions. Chemical Communications 2013, 49, 8803–8805. Vasilescu, A.; Schuhmann, W.; Gáspár, S. Recent Progress in the Electrochemical Detection of Disease‐related Diagnostic Biomarkers. In Detection challenges in clinical diagnostics; Royal Society of Chemistry (2013)
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Applied Electrochemistry Laboratory
Team: Alina Vasilescu Alis Vezeanu Georgian Nedelcu Veronica Andrei, Iuliana Mihai
Facilities
Main resources are represented by an 8-channel potentiostat from Dropsens, Spain and a
portable SPR system (SPREETA, Nomadics). The group shares with the Electrochemistry
group the VSP modular potentiostat/ galvanostat (from Bio-Logic S.A., France).
Current Research and associated projects
Established in 2012, Applied Electrochemistry group strengthened during 2013, when the
results generated by the master students in the group materialized in presentations at
conferences and several publications. In 2013, the focus was on improving the capabilities of
the (bio)sensors developed in the framework of the ongoing projects by using new
compounds and materials (e.g. graphene, boron-doped diamond, monoethylene glicol
thiol, ceria nanoparticles). In PROARGUS, we continued to study lysozyme aggregation by
new electrochemical techniques and by SPR. In ANTIOXWIN, we developed new modified
electrodes for capturing the antioxidant profile of red wines. These activities were
complemented by the research stage of V. Andrei at Clarkson University in USA that
allowed for both MS and electrochemistry assays. In CAPTALLERGENES and the
corresponding Young Teams project we searched to develop optical and electrochemical
methods for the detection of allergenic lysozyme in wines. A sensitive aptasensor was
developed for the detection of lysozyme in spiked wines. The development of an
Electrochemical Impedance Spectroscopy assay was performed by A. Vezeanu at ICB and
during the research stages of V. Andrei and A. Vasilescu in the French partner lab, IMAGES.
A new immobilization method based on click chemistry was implemented at ICB thanks to
this collaboration. We continued to use various complementary analytical techniques
(through collaboration with our colleagues/research partners) for a detailed
characterization of the targeted analytical systems. The financing for one project
(ANTIOXWIN) was reduced by 40% reduction compared to the value provided by the
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contract, which led to a re-assessment of the activities for 2013. From
May 1, 2013, G. Nedelcu left our group and is currently pursuing a PhD
in Switzerland.
Accomplishments:
3 published papers (Prizes for the Research Results for 2 papers, PN-II-RU-PRECISI-2013-7-2187 & PN-II-RU-PRECISI-2013-7-2217) and 1 book chapter
2 manuscripts and a book chapter submitted ; 4 ongoing research projects, 2 national (ANTIOXWIN, PN-II-PT-PCCA-2011-3.1-1809
and PN-II-RU-TE-2011-3-0302) and 2 international (CAPTALLERGENES, PN-II-CT-RO-FR-2012-1-0012 and PROARGUS, FP7 PEOPLE-2010-RG-277126).
Travel grant awarded to I. Mihai at RAFA conference, Prague Czech Republic, November 5-8, 2013
2 student grants (I. Mihai and A. Vezeanu, COST Training School on “Phototech for Biosensors and Energy", Athens, Greece, October 21-26, 2013)
Keynote presentation ( A. Vasilescu) at SMCBS 2013, Poland, November 8-12, 2013
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Microfabrication & Prototyping Laboratory
Team: Mihai Sorin David Alin Dobre Dumitru Bratu Dumitru Letea
Facilites
CNC Shape Cutting Machine-2000 series 8 direction mill (from Sherline Products, USA),
P6700 Spin coater (from Specialty Coating Systems, USA), lathe and rectifier lathe. Physical
Vacuum Deposition PVD 75 (Kurt J Lesker, USA). Modular design configured to suit a
variety of thin film deposition applications, typically for research and development or small
batch production.
Current Applications
The 2000-series 8-direction mill is used for developing user defined parts and accessories
from holders and test fixtures electro-optically compatible measurement cells (static and
flow through), with sizes down to tens of microns.
Physical Vapor Deposition-PVD 75
PVD 75 thermal evaporator from KJ Lesker is currently used for
manufacture of different configuration of electrodes and for different
applications requiring precise deposition of several layers of materials.
For example: SPR – we manufacture SPR chips by depositing 2 nm of
Chromium/Titanium and 50 nm of Gold; Magnetic SPR – we prepare
metallic “sandwiches” comprising of Chromium, Cobalt and Gold;
Electrode passivation – we deposit thin layer of insulating materials (e.g.
SiO).
Additional facilities: Spin coating machine within glove box, laminar flow hood for
specific surface functionalization, ultrasonic processors and UV ozone cleaning system. The
spin coater is used for controlled deposition of thin polymer layers on solid substrates for
specific applications including electrode preparation for impedance measurements,
investigation of cell adhesion to various materials, controlled local electrical insulation for
electrode design, customized PCB boards, optical coupling for SPR measurements.
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Bioanalysis Laboratory (including a mobile laboratory)
Team: Mihaela Gheorghiu Szilveszter Gáspár Andreea Gabriela Olaru Mihai Sorin David Cristina Polonschii
Facilities
Anodic Stripping Voltammeter Nanoband Explorer II (from Tracedetect U.S.A) Dual system
EIS/SPR (ICB patent), Glomax Luminometer 20/20 (from Promega U.S.A), pH-meter and
conductometer (from WTW Germany), portable UV-VIS Spectrophotometer Nova 60A
(from Merck, Germany), Mobile autolaboratory equipped with working areas, separate
access and electrical connections.
Current Status
The Mobile and Fixed Bioanalysis Laboratory was accredited in 2010 by RENAR as a third
party testing laboratory, in compliance to the ISO/IEC 17025:2005 clauses and to the
provisions of European directives and national legislation on water quality.
Following the reduction of the commercial activities within the accredited laboratories
during 2011, the activity of this laboratory was suspended in 2012, at our request.
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Electrical Measurements Laboratory
Team: Eugen Gheorghiu Mihai Sorin David Cristina Polonschii Andreea Gabriela Olaru Alin Dobre Mihnea Rosu Hamzescu Diana Ciuculete
Facilities
Impedance analyzer Agilent 4294A (from Agilent Technologies, USA), Impedance / gain
phase Analyzer Solartron; 1470 E Cell Test System(both from Solatron Analytical, U.K),
Digital Oscilloscope TDS 3052 (from Tektronix SA-France), Signal generators, Phasemeter,
Spectral Analyzer HP 3585; 8 channel low frequency impedance spectrometer (designed
and produced in ICB);
Dedicated working lab and current utilities (purified air, ultra pure water, Faraday and
thermostated chambers, 4 point electrode configurations and wide range of surface
electrodes – circular and/or interdigitated, compatible with complementary optical assays).
Current Research and related accomplished projects
DYNANO (FP7) & CHARPAN - Charged Particle Nanotech (FP6) (Ro)NANOINT -
Controlling the interaction between human and bacterial cells with nanostructured
surfaces. Strategies for achievement "Intelligent" biosurfaces.
- Investigation of lipid film formation in view of lipid sensors development - mimics for actual
biological membranes.
- Investigation of the dynamics of electrical parameters of cellular platforms in relation to
engineered interfaces (with attractive/repulsive chemical and morphological features),
- Investigation of the dynamics of electrical parameters of cellular platforms in relation to
chemical and biological stressors (heavy metals, pathogen cells).
- Monitoring cell cycle progression on non/synchronized cell suspensions – an on line system for
electro-optical evaluation of yeast cell suspensions has been developed.
- Evaluation of functionalization protocols (deposition of thin polymeric layers, biorecognition
compounds or ligand – e.g. thiol layers).
- Development of a multi channel dual SPR impedance set-up.
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Accomplishments:
One manuscript in preparation on “Magneto-Plasmonic Biosensor presenting Enhanced
Analytical Response and Stability”
One patent application:
European Application No. 12733235.1, 2013: “Systems and Methods for Detection and Quantitation of Analytes Using Periodic Actuation” Authors: E. Gheorghiu, S David, C. Polonschii, D. Bratu 2 oral presentations at international conferences:
• Gheorghiu M., “Dynamic assessment of Amyloid oligomers – cell membrane interaction by advanced impedance spectroscopy”, XVth International Conference on Electrical Bio-Impedance (ICEBI), 22-25 April 2013, Heilbad Heiligenstadt, Germany • Gheorghiu E., “Revealing membrane potential by advanced impedance spectroscopy: theoretical and experimental aspects”, XVth International Conference on Electrical Bio-Impedance (ICEBI), 22-25 April 2013, Heilbad Heiligenstadt, Germany 2 invited lectures:
• Gheorghiu M., David S.,Polonschii C, Bratu D, Gheorghiu E., „Cellular Platforms for assessing the risks pertaining to nanotechnology”, The 12th National Seminar on Nanoscience and Nanotechnology, Romanian Academy, 16 May 2013, Bucharest • Gheorghiu M., David S.,Polonschii C, Gáspár S., Gheorghiu E, “Optical and Electrical Biosensing Platforms for Cells Monitoring and Detection”, International summer school ”DYNANO – GLYCOPHARM”, September 30 – October 2, 2013 Biological Research Centre, Madrid, Spain
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Impedimetric and Plasmonic Bio Sensors
Team: Mihaela Gheorghiu Mihai Sorin David Cristina Polonschii Alin Dobre Andreea Gabriela Olaru Dumitru Bratu Madalina Axinie
Facilities
-Biacore 3000 system (from Biacore AG Sweden)
-Dual spectrometer EIS/SPR (ICB patent),
-3 channel Spreeta Modules, Contact Angle Meter CAM 100(from KSV, Finland).
-Dedicated working lab and current utilities (purified air / N2, chemical hood and ultra
pure water, thermostated chambers)
-Advanced set-up for monitoring the dynamics of aquatic species and the quality of growth
environment.
Additional facilities: Evolution 600 UV-VIS Spectrophotometer (Thermo Scientific USA) with
variable angle specular module, AFM module Nano Wizzard II(JPK, Germany) Multimode
readers Promega / Turner.
Current Research and associated projects
The design of novel (bio) sensing interfaces for selectively recognition of the analyte of
interest, from low molecular compounds to cells, and for providing a concentration-
dependent phenomenon that is easy to translate into useful analytical signal) towards a
new generation of analytical tools. These analytical tools will extend our ability of detecting
compounds of interest:
in very low concentrations,
in complex samples without prior separation,
in small sample volumes (microliters) or exotic environments (such as cellular sub
compartments), and
in a timely manner traditional analytical approaches are very often lacking such
abilities.
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The integration of complementary analytical tools (SPR, electrochemistry) with micro-
technologies (fluidics, electronics) for the development of portable, sensitive solutions for
real time detection of target analytes.
Accomplishments
Gheorghiu M., David S., Polonschii C., Olaru A., Gáspár S., Bajenaru O., Popescu O.
B, Gheorghiu E., Label free sensing platform for amyloid fibrils effect on living cells,
Biosens. Bioelectr. (2014) 52, 89–97
Gheorghiu M., Enciu A.M., Popescu O. B, Gheorghiu E., “Functional and molecular
characterization of Aβ42 effect on an in vitro epithelial barrier model”, Journal of
Alzheimer's Disease (2014) 38,787–798
A. Bondarenko, D. Momotenko, F. Cortés Salazar, S. Gáspár, M. Gheorghiu, E.
Gheorghiu, H. H. Girault, 64th Annual Meeting of the ISE, 08 - 13 September 2013,
Santiago de Queretaro, Mexico. Poster by A. Bondarenko: "Microfluidic push-pull
device for surface modification: Numerical simulations and experimental
verification".
C. Polonschii, S. David, S. Gáspár, M. Gheorghiu, M. Rosu-Hamzescu, E. Gheorghiu,
On the complementarity of EIS and SPR to reveal specific and non-specific binding
when interrogating a model bioaffinity sensor, Anal. Chem. under review, 2013.
Oral Presentation at the 2nd Workshop on "New Opportunities for Interdisciplinary Research in BIO-NANO-SCIENCE", Romanian Academy – Institute of Biology Bucharest 3rd of June , Bucharest E. Gheorghiu, ”Electro-Plasmonics for analyzing dynamics of biosystems; theoretical and experimental aspects”,
Supported by:
2 national research projects:
o BIOSCOPE, Electro-Plasmonics for the analysis of the dynamics of cellular processes and biomolecular interactions, Contract No. 11/2012, ID: PN II-ID-
PCCE-2011-2-0075, coordinated by ICB; Project Director: Eugen Gheorghiu; o Sensitive quantitation of target microorganisms using dual electro plasmonic
analysis and magnetic actuation, Contract No. 82-30.04.2013 , ID: PN-II-RU-PD-2012-3-0467, Project Director: Mihai Sorin David
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1 international research project:
o Tumoranalyzer- Response of in vitro hypoxic tumor models to potentially therapeutic compounds as revealed by an advanced analytical platform, Romanian‐Swiss Research Programme IZERZ0_142236, 2012, Promoter from Switzerland, École Polytechnique Fédérale de Lausanne: Hubert Girault and from ICB: Eugen Gheorghiu;
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Optical Microscopy Laboratory
Team: Mihaela Gheorghiu Mihai Sorin David Luciana Stanica Loredana Antonescu
Facilities
Zeiss Total Internal Reflection Microscope (TIRFM), Zeiss AxioObserver Z1, fully motorized
with xyz nm resolution, equipped with EMCCD ANDOR IXon DU-885K camera, with
facilities for epifluorescence, laser (3 line Ar) and white light TIRF, and various contrast
methods (Ph, DIC) and for cell cultivation (OkoLab controlled environmental cage);
Extended image processing facilities (AxioVision, Andor IQ and Andor IQ Tracker);
dedicated chambers for combined (optical and electric) assays.; Additional filter sets 02, 09,
14. NIKON Eclipse 400 microscope with epiflourescence system and CCD camera for data
acquisition.
Additional facilities:
- Spectrophotometer Evolution 600 (Thermo Scientific, USA), with variable angle specular
reflectance accessory and thermostated carrousel.
- GloMax 20/20 Multimode reader (Promega), with 2 injectors and UV and Blue
fluorescence modules.
- Compatible AFM module fully integrable with advanced optical assessment.
Current Research and associated projects
- Dual electro-optical measurements based on dedicated flow cells with optimized
electrode configurations.
- Time lapse assessment of the dynamics of cells (morphology, attachment and metabolism)
and cell organelles (pH, ions, morphology) in response to external stimuli and engineered
bio-interfaces cues; membrane processes in normal and pathologic conditions; manipulation
and characterization of natural and synthetic lipid environments (including cholesterol).
ATP & Cytotoxicity assays; Intracellular Ca2+;
Accomplishments
2 manuscripts on cell actuation and imaging to be submitted
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Modeling and Data Analysis Laboratory
Team: Eugen Gheorghiu Cristina Polonschii Sorin David Alin Dobre
Current research and associated projects
We are currently developing fast, efficient methods to asses target analytes using periodic
actuation.
Dielectric modeling and nonlinear time series analysis
Strong emphasis is placed on both experimental and theoretical aspects regarding:
Development of new Plasmonic-EIS instrumentation;
Development of microscopic models of dielectric behavior with emphasis on:
(1) Membrane Potential (discussion of GHK approach) and the role effect of ionic channels
(2) non-spherical cells (focusing on yeasts, red blood cells, and gap junction connected cells).
A quantitative approach providing shape evolution of budding yeasts during the cell cycle,
consistent with experimental findings, is available.
Time series analysis of dielectric data yielding quantitative measures of the system
dynamics (revealing changes in the tissue structure and function and the invariants of the
cell cycle
Accomplishments
David S., Polonschii C., Gheorghiu M., Bratu D., Dobre A., Gheorghiu E., Assessment of pathogenic bacteria using periodic actuation, Front Cover, Lab on a Chip (2013), 13, 3192–3198
A. Olaru, M. Gheorghiu, S. David, C. Polonschii, E. Gheorghiu "Quality assessment of SPR sensor chips; case study on L1 chips", Biosens.Bioelectron 45 (2013) 77-81
3 manuscripts on modeling and experimental aspects of bio-impedance assays to be submitted
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Pilot Laboratory on monitoring fish behavior for quality assessment of aquatic environments
Team: Eugen Gheorghiu Cristina Polonschii Dumitru Bratu Dumitru Letea
Facilities
- A platform consisting in a 3D array of
ultrasound transducers and of supporting
analytic modules to monitor fish positions and
assess fish dynamics (ICB patent);
- Dedicated water tank with adequate
infrastructure for controlling water
temperature, composition, including dissolved
Oxygen (DO);
- A module for controlled dispensing of
nutrients;
- Facilities for complementary video
observations of fish behavior;
- A set of sensors for continuous monitoring of water parameters: pH, DO, conductivity and
temperature.
Current Research
Extending the capabilities of the platform to remotely monitor and analyze the
behavior/dynamics of various fish species (including sturgeons) both in tanks and cages
immersed in aquatic media (lakes, rivers). The monitoring system fosters detection of
behavioral changes of aquatic species triggered by harmful compounds that might incidentally
occur in water (even in very small concentrations, well below the lethal threshold of those
species).
Accomplishments
Polonschii C., Bratu D., Gheorghiu E., Appraisal of fish behaviour based on time series of fish
positions issued by a 3D array of ultrasound transducers, Aquacultural Eng (2013), 55, 37-45
Polonschii C., Gheorghiu E., Appraisal of Fish Behavior by Analyzing their Dynamics,
Proceedings 19th International Conference on Control Systems and Computer Science, IEEE
Computer Society, Conference Publishing Series, (2013) 386-391
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Involvement in international and national initiatives
o Participation at new proposals:
o “MARISEN” addressing FP7-OCEAN-2013
o “STURVIS” addressing PN-II-PT-PCCA-2013-4
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Atomic Force Microscopy Laboratory
Team: Szilveszter Gáspár Mihaela Gheorghiu Sorin David
Facilities
The major piece of equipment of the laboratory is a NanoWizard® II Atomic Force
Microscope JPK AG (Berlin, Germany). The optical microscope Zeiss AxioObserver D1 fully
equipped with phase contrast, fluorescence and dark field has been added in 2012 to the
system for complementary optical observations.
Current Research and associated projects
Our AFM instrument has the necessary features to work with biological samples (i.e. soft
samples in liquid), and thus is often used to observe small cellular structures (e.g. tight
junctions, microvilli, etc.) or surface immobilized proteins. In addition to the study of
biological samples, it is also used to investigate the quality of thin metal films deposited by
PVD or metal sputtering
AFM image of nanowires
self-assembled in non-
illuminated Triarylamine
solution.
Intermittent contact mode
(left); Contact mode
(right) individual
nanowires can be seen
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International projects
ONGOING
Tumoranalyzer-Response of in vitro hypoxic tumor models to potentially therapeutic compounds as revealed by an advanced analytical platform, Romanian‐Swiss Research Programme IZERZ0_142236, 2012, Promoter from Switzerland, École Polytechnique Fédérale de Lausanne: Hubert Girault and from ICB: Eugen Gheorghiu;
“DYNANO” Dynamic Interactive Nanosystems, FP7-PEOPLE-2011-ITN N°289033 7th FP (2011-2015);
“PROARGUS” Protein Aggregation: a quantitative assessment, PIRG08-GA-2019-277126, Call FP7-PEOPLE-2010-RG (2011-2015) – MC grant researcher- Alina Vasilescu;
CAPTALLERGENES- Aptamer based sensors for allergen detection, Cooperation Romania-France, PN-II-CT-RO-FR-2012-1-0012, Project Director: Alina Vasilescu;
“Non-invasive electro-optical methods to assess the effect of nano/micro substrate topography on living cell dynamics”, Academic Cooperation between Romania and Russian Federation, Project Director: Eugen Gheorghiu
ACCOMPLISHED
“NANOMAGMA” - NANOstructured active MAGnetoplasmonic MAterials”, Funded under 7th FWP (Seventh Framework Programme), Contract no.: 214107 /2008, 2008-2011;
„CHARPAN” – „CHARged PArticle Nanotech” 2005-2009;
„ROBIOS”- Strengthening ROmanian Research and Training Capacities in BIOSensing and Related Areas”, 2005-2008;
„Effective Biosensing Platform for Rapid Detection of Environmental Pollutants”, NATO Reintegration Grant, Grantee: PhD Szilveszter Gaspar, Supervisor PhD. Eugen Gheorghiu, 2006-2008;
Role of membrane organization and dynamics on cell behavior and response to external stimuli; Romania -Flanders Bilateral Agreement, 2005-2006;
Partners: Prof. Dr. Paul Steels, Faculty of Medicine, Limburgs Universitair Centrum; Prof. Dr. Marc de Broe, Faculty of Medical Sciences, University Hospital Antwerpen; Prof. Dr. Maria Luiza Flonta, Faculty of Biology, University of Bucharest;
Novel Impedimetric Affinity Biosensors (IAB) for toxicological applications exploiting E.Coli membrane protein LamB - Romania-Flanders bilateral agreement, 2003-2005 Partners: Prof. Dr. Wim de Coen, Universitaet Antwerpen; Dr. Wim Lauyren, IMEC Belgium; Prof. Dr.Patrik Wagner, Limburg Universitair Cetrum;
Development of an Impedance Assay for Immunocapture - Brancusi Romania -France bilateral agreement, 2003-2005
Partners: Prof. Dr. J.-L. Marty, Universite de Perpignan; Prof. Dr. C. Grommidh, Universite de Montpellier ;
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Towards the development of a rapid portable immunoassay device for the detection of Microorganisms and Toxins in Food industry & Ecology - COBASE Grant Program 2001
Partner: Prof. O. Sadik, Dept. of Chemistry, State University, New York, Binghamton;
Impedance Spectroscopy of biological membranes: modeling the epithelial tissues and the dielectric dispersion of the plasma membrane; Romania-Flanders bilateral agreement 2001-2003;
Partners: Prof. Dr. W. Van Driessche, Catholic University, Leuven; Prof. Dr. P. Steels, LUC; Prof. Dr. G. Borghs, IMEC, Belgium;
Biomonitoring quantitative evaluation of biological systems, Romanian-German Bilateral Agreement reference number RUM 003-98;
Partner: Prof. Dr. E. Gersing, Anaesthesiology Clinic, Georg-August University, Goettingen, Germany;
AFRAMILK -Antifraud impedimetric and ultrasonic control system to detect fraud (adulteration) of milk GRD1-2000-25801, within the 5th Framework Program of the European Commission 2001-2004 ;
Partners: Institute for Bioprocess - and Analysis Methods, Germany; Centre for Molecular Electronics, Durham University, UK; SECAD S.A., France; RIKILT, State Institute for Quality Control of Agricultural Products, Holland; MEVGAL DAIRY PRODUCT INDUSTRY S.A., Greece;
Fluid Rheology – Application to biology and medicine, financed by the World Bank
Coordinator: Bucharest Politehnic University (UPB), Faculty of Energetics;
Partners: Gastroentherology Clinic Fundeni Hospital – Bucharest; Institute of non-newtonian fluid mechanics, Univ. of Wales –U.K; Material Science Department, T.U. Darmstadt – Germany; Chemical Engineering Department, Universidad de Huelva, Spain.
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National projects
ONGOING Financing period Project title and managing/partnership status
2013-2015 Sensitive quantitation of target microorganisms using dual electro plasmonic analysis and magnetic actuation, Contract No. 82-30.04.2013 , ID: PN-II-RU-PD-2012-3-0467, Project Director: S. David
2012-2015 BIOSCOPE - Electro-Plasmonics for the analysis of the dynamics of cellular processes and biomolecular interactions, Contract No. 11/2012, ID: PN II-ID-PCCE-2011-2-0075, coordinated by ICB; Project Director: E. Gheorghiu;
2012-2014 EXTRACELL- Monitoring the extracellular space with catalytic self-propelled nanomotors, ERC- like project Contract No. 9/02.07.2012, Project Director: S. Gáspár;
2012-2015 o ANTIOXWIN-Exploiting the antioxidant capacity of black grapes for
producing wines with high authentic quality – Contract No. 101/2012, ID: PN-II-PT-PCCA-2011-3.1-1809; Project Director: A. Vasilescu;
2011 – 2013 A new strategy for effective assessment of DNA hybridization, based on periodical magnetic actuation, Post Doctoral Grant- director C. Polonschii
2011 – 2014 Tracing proteins through food processing with biosensors (PN II-RU-TE-3-0302), Project suppporting development of Young Teams, Principal Coordinator ICB - director A. Vasilescu
2011 – 2014 SENSMOTION - Sensing using the electrochemically-triggered motion of catalytic nanomotors (PN II-RU-TE-2011-3-0237), Project suppporting development of Young Teams, Principal Coordinator ICB - director S.Gáspár
ACCOMPLISHED*
Financing period Project title and managing/partnership status
2009-2011 RO-Nanostructured active magneto-plasmonics materials, Principal project coordinator ICB
2010-2011 Improvement of Management and Marketing Abilities within the International Centre of Biodynamics (MANMAR) – Structural Funds, Economic Competitveness Improvement, Axis 2.2.4.
2007-2010
Dielectric modeling of biological cells and heterostructures with fast and efficient algorithms for boundary integral method; Principal Project Coordinator ICB
2007-2010
DEMENTJUNCTION - Expression and function of the tight junction proteins – a study in experimental models and dementia diagnosed patients Partnership with “Victor Babes” National R&D Institute
2007-2010 BIOSADN – Development of biosensors based on nucleic acids for the evaluation and monitoring of some toxic agents with applications in bioterrorism; Partnership with Faculty of Chemistry, University of Bucharest
2007-2010
PROPETHAD – Advanced Research towards medical applications of nuclear technologies; Partnership with “Horia Hulubei” National Institute of Physics and Nuclear Engineering
*period 2007-2011. Full list is given on the institution website.
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Visibility actions
Oral presentations of ICB representatives XVth International Conference on Electrical Bio-Impedance (ICEBI), 22-25 April 2013, Heilbad Heiligenstadt, Germany
M. Gheorghiu, “Dynamic assessment of Amyloid oligomers – cell membrane interaction by advanced impedance spectroscopy”,
E. Gheorghiu , “Revealing membrane potential by advanced impedance spectroscopy: theoretical and experimental aspects”,
The 12th National Seminar on Nanoscience and Nanotechnology, Romanian Academy, 16 May 2013, Bucharest
Gáspár S. „Sensors for in vitro evaluation of nanomaterial toxicity” Gheorghiu M., David S.,Polonschii C, Bratu D, Gheorghiu E., „Cellular Platforms for assessing the risks pertaining to nanotechnology” A. Vasilescu, I. Mihai, A. Vezeanu, V. Andrei, G. Nedelcu, S. Szunerits, R. Boukherroub, “A new nanomaterial for assessment of protein interactions”
2nd Workshop on "New Opportunities for Interdisciplinary Research in BIO-NANO-SCIENCE", Romanian Academy – Institute of Biology Bucharest 3 June, Bucharest
Gheorghiu E., ”Electro-Plasmonics for analyzing dynamics of biosystems; theoretical and experimental aspects”,
International Workshop on Interdisciplinary Approaches in Fractal Analysis (IAFA-CSCS 2013), 29-31 May, Bucharest
Gheorghiu E. Polonschii C, Appraisal of Fish Behavior by Analyzing their Dynamics
International summer school ”DYNANO – GLYCOPHARM”, September 30 – October 2, 2013 Biological Research Centre, Madrid, Spain
Gheorghiu M., David S.,Polonschii C, Gáspár S., Gheorghiu E, “Optical and Electrical Biosensing Platforms for Cells Monitoring and Detection”,
COST Training School on “Phototech for Biosensors and Energy", Athens, Greece, October 21-26, 2013
I. Mihai, A. Vezeanu, A. Vasilescu, “A new thiol-coated interface for the development of an aptasensor for lysozyme”, A. Vezeanu, I. Mihai, A. Vasilescu, “Challenges in the development of an
electrochemical (bio)sensor for allergen proteins detection”
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6th International Symposium "Recent Advances in Food Analysis", Prague, Czech Republic, November 5-8, 2013
I. Mihai, V. Andrei, A. Vasilescu, “Lysozyme detection in wines using an aptamer-based Biosensor and SPR detection” (Travel grant)
Conference on Surface Modification for Chemical and Biochemical Sensing, Lochow, Poland, November 8-12, 2013
A Vasilescu, “EIS investigation on modified interfaces for the detection of allergen proteins”
Posters Grant Winner of International Conference on Biomaterials Science -ICBS– March 19-22, 2013, Tsukuba, Japan
Polonschii C, Gáspár S., Gheorghiu E, “A new strategy for effective assessment of DNA hybridization based on periodical magnetic actuation“,
12th National Conference on Biophysics "CNB 2013" - Biophysics for Health, with International Participation 13-16 June 2013, IASI, Romania
Gheorghiu M, Stănică L., Amuzescu B., „Electrophysiological characterization of light responsive, genetically modified cells as cellular sensors”, First Prize for the best poster
In Vino Analytica Scientia, Reims, France, July2-5, 2013
V. Andrei, G. Nedelcu, A. Vasilescu, E. Branduse, A. Tudorache, R. Porumb, C. Albu, S.C Litescu S. Eremia. “Profile of three red Romanian wines by electrochemical, chromatographic and total antioxidant capacity data”
Summer School in Electrochemistry, Cluj-Napoca, 17-21 June, 2013
A. Vezeanu, I. Mihai, A. Vasilescu, “Development of an electrochemical approach for gliadin detection in food”, I. Mihai, A. Vezeanu, C. Polonschii, S. David, A. Vasilescu, “Electrochemical and SPR characterization of some thiol coatings for minimizing non-specific adsorption of proteins on gold” V. Andrei, G. Nedelcu, R. Porumb, A. Tudorache, A. Vasilescu, “Electrochemical sensor based on ceria nanoparticles for the detection of phenolic compounds in red wines from Valea Calugareasca vineyard” G. Nedelcu, V. Andrei, A. Tache, C. Albu, A. Vasilescu, “Characterization of some Romanian red wines by electrochemical and total antioxidant capacity assays”, I.A. Bunea, I.A. Pavel, S. Gáspár, “Challenges in the Fabrication and Handling of Catalytic Nanomotors”
Priorichem, Icechim, Bucharest, 24-25 October, 2013
I. Hosu, S.F. Peteu, A. Vasilescu, “Detection of peroxynitrite with chemically modified electrodes based on reduced graphene oxide”
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Seminars hosted by ICB o Prof. Rabah Boukherroub, Lille, France o Prof. Sabine Szunerits, Lille, France o Dr. Mihaela Delcea, Greifswald, Germany o Dr. Sergey Zaitsev, Chernogolovka, Russian Federation o Prof. Ruxandra Vidu, Davis, USA o Prof. Jean Louis Marty, Perpignan, France
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Emergent Applications fostered by ICB
1. Sensors and biosensors
Developing of rapid, sensitive, cost effective detection platforms to determine low
concentration of target compounds and for kinetic analysis.
In this context, surface plasmon resonance (SPR) based biosensors represent attractive
solutions in environmental monitoring and for quality-control, due to their sensitivity,
miniaturization amenability and wide range of detectable compounds.
Since 2006, the SPR technology is operational within ICB Biosensors Laboratory through
Biacore 3000 equipment (Biacore AB, Sweden).
The analysis methods already implemented allow:
- identification of drugs residues in some food products (e.g. presence of antibiotics in milk);
- detection of drugs and hormones, present even in low concentrations in food products;
- multianalytes detection (mixture of compounds e.g. with toxicogen potential)
SPR-based techniques enable real time, label-free assessment of the interaction between
an analyte (e.g. chemicals, DNA, RNA, proteins) and a covalently immobilized specific
ligand, simultaneously with a high sensitivity in determination of concentrations and kinetic
dates, and also the possible integration with other analysis and fluidic techniques (FIA) or
with approaches like Lab-On-a Chip.
In recent years, biosensors based on cells and tissues have been intensively used for
identification and characterization of toxic compounds in water and determination of their
cytotoxicity. Such cellular sensors could potentially replace/complement traditional methods
of analysis such as mass spectrometry, high performance liquid chromatography or ELISA
rapid tests, and also biological tests – intensively used for cytotoxicity detection or cell
viability after exposure to harmful substances.
In this respect, ICB has developed cellular platforms for assessment of food quality and
cytotoxicity of water samples. Including specific electrochemical instrumentation
(impedance spectrometer, potentiostat) and a detection unit based on electrochemical
sensors, electrical components and fluidic elements to maintain the temperature at 37°C,
and applying a previously validated measurement method, multiple cell parameters can
be potentially determined.
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The ICB proprietary technology based on periodic actuation supports major sensing
advantages of ICB platform versus the current state of the art, as revealed by our paper in
Lab on a Chip (2013), 13, 3192–3198:
1.) Portability in a lab on a chip format;
2.) High sensitivity & specificity
3) Reduced analysis time;
4.) Ability to assess the effect of contaminant mixtures, and from economic point of
view, the necessity to use small volumes of reagents, reducing consumption of cells and
amount of valuable reagents, decreasing significantly the costs of operation.
The analytical platform is versatile, so it can provide relevant information not only for
water monitoring activities, but also in chemical or pharmaceutical industry, efficiently
responding to the Romanian and European socio-economic needs regarding the
environmental quality control and / or biosensing applications in other specified domains.
2. Measurement and control systems for optimization of aquaculture activities
An issue of real interest facing both our country and other European countries is
represented by the strong demand for automated systems that will lead to optimization of
aquaculture activity through increasing productivity and reducing costs. Systems already on
the market do not optimize feeding process as a function of fish behavior, which is one of
the causes that generate many losses both in terms of quantity and quality of food (about
30% of the costs of aquaculture operations).
Taking into consideration these trends and the promising results obtained by ICB in research
and experimental studies undertaken in this direction, some of the most important
applications developed in this field are as follows:
- support system of automation and optimization of feeding
- pilot system for non-invasive , multichannel assessment of behavior (dynamics) of aquatic
species
- integrated, remote monitoring system for water (aquatic environment) quality control
able to activate a specific system based on biosensors whenever the behavior of aquatic
species deviates from a normal pattern;
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- (non) linear - analysis method which provides a set of quantitative
measures, characteristic of the behavior of species with high economic
value (e.g., sturgeons, carps) in relation to actual environmental
conditions (including feeding conditions).
Relevant publications David S., Polonschii C., Gheorghiu M., Bratu D., Dobre A., Gheorghiu E., Assessment of
pathogenic bacteria using periodic actuation, Front Cover, Lab on a Chip (2013), 13, 3192–3198
Bunea A.I., Pavel I.A., David S., Gáspár S., Modification with hemeproteins increases the diffusive movement of nanorods in dilute hydrogen peroxide solutions, Chem. Comm. (2013) 49, 8803-05
Subramanian P, Alesniewski A, Kaminska I, Vlandas A, Vasilescu A., Niedziolka-Jonsson J., Pichonat E, Happy H, Boukherroub R, Szunerits S., Lysozyme detection on aptamer functionalized graphene-coated SPR interfaces, Biosens. Bioelectron. (2013) 50, 239-24,3
Gheorghiu M., David S., Polonschii C., Olaru A., Gáspár S., Bajenaru O., Popescu O. B, Gheorghiu E., Label free sensing platform for amyloid fibrils effect on living cells, Biosens. Bioelectr. (2014) 52, 89–97
Gheorghiu M., Enciu A.M., Popescu O. B, Gheorghiu E., Functional and molecular characterization of Aβ42 effect on an in vitro epithelial barrier model, Journal of Alzheimer's Disease (2014) 38,787–798
Olaru A., Gheorghiu M., Polonschii C., David S. and Gheorghiu E., ”Quality assessment of SPR sensors chips; case study on L1 chips” Biosens. Bioelectr. (2013) 45C, 77-81
M. Gheorghiu, S. David, C. Polonschii, D. Bratu, E. Gheorghiu “Dynamic assessment of Amyloid oligomers – cell membrane interaction by advanced impedance spectroscopy” J. Phys.: Conf. Ser. 434 (2013) 012090
M. Gheorghiu, D. Bratu, A. Olaru, C. Polonschii, E. Gheorghiu “Revealing membrane potential by advanced impedance spectroscopy: theoretical and experimental aspects” J. Phys.: Conf. Ser. 434 (2013) 012087
Gáspár S., Marty J. L., Gheorghiu E., Cytochrome c-Based Amperometric Sensors for Superoxide Detection: Where Their Signal Comes From?, Electroanalysis (2013) 25, No. 2, 448 – 452;
Polonschii C., Bratu D., Gheorghiu E., Appraisal of fish behaviour based on time series of fish positions issued by a 3D array of ultrasound transducers, Aquacultural Eng (2013), 55, 37– 45
Vasilescu A., Gáspár S., Mihai I., Tache A. and Litescu S.C., Development of a label-free aptasensor for monitoring the self-association of lysozyme, Analyst, (2013), 138 (12), 3530 – 3537
Wang. Q, Vasilescu A, Subramanian P, Vezeanu A., Andrei V., Coffinier Y, Li M, Boukherroub R., Szunerits S., Simultaneous electrochemical detection of tryptophan and tyrosine using boron-doped diamond and diamond nanowire electrodes, Electrochem Comm, 35 (2013) 84–87
Vasilescu A., Gáspár S., Schuhmann W, Recent progress in the electrochemical detection of disease-related diagnostic biomarkers in " Detection challenges in clinical diagnostics", editors Vadgama P& Peteu S, publisher: RSC, 2013
A. Vasilescu., E. Sharpe, S. Andreescu “Nanoparticle-Based Technologies for the Detection of Food Antioxidants”, Current Analytical Chemistry, (2012), 8 , 495-5058
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S. Gáspár, S. David, C. Polonschii, I. Marcu, M. Gheorghiu, E. Gheorghiu “Simultaneous impedimetric and amperometric interrogation of renal cells exposed to a calculus-forming salt”, Anal Chim Acta. (2012) 713: 115-20
M. Gheorghiu, C. Polonschii, S. David, A. Olaru, E. Gheorghiu “SPR Bioanalytical platform to appraise the interaction between antimicrobial peptides and lipid membranes”, In Optical Nano- and Microsystems for Bioanalytics, Series Chemo- and Biosensors 10 (Series Editor Gerald Urban), Springer (2012) pp 183-210
S. Andreescu, M. Gheorghiu, R. E. Ozel, K. Wallace Methodologies for Toxicity Monitoring and Nanotechnology Risk Assessment, chapter 7 in ACS books series "Biotechnology and
Nanotechnology Risk Assessment: Minding and Managing the Potential Threats around Us" Editor(s) Steven Ripp and Theodore B. Henry, Vol. 1079 Publication Date (Web) October 18, (2011)
S. Gáspár, "Detection of Superoxide and Hydrogen Peroxide from Living Cells Using Electrochemical Sensors" in "Oxidative Stress: Diagnostics, Prevention, and Therapy", vol. 1083, American Chemical Society, 2011, pp. 289–309
S. Peteu, S. Szuneritz, A. Vasilescu, W. Knoll "Nanoscale Architectures for Smart Bio-Interfaces: Advances and Challenges" in "Nanofabrication", editor: Yoshitake Masuda, INTECH, ISBN 978-953-307-912-7, 2011
E. Gheorghiu “Relating membrane potential to impedance spectroscopy”, Journal of Electrical Bioimpedance, (2011) 2, 93–97
T. Sandu, D. Vrinceanu, E. Gheorghiu “Surface Plasmon Resonances of Clustered Nanoparticles”, Plasmonics, (2011) 6, 2, 407–412
S. Gaspar, C. Niculite, D. Cucu, I. Marcu "Effect of calcium oxalate on renal cells as revealed by real-time measurement of extracellular oxidative burst", Biosensors and Bioelectronics (2010) 25, 1729-1734
T. Sandu, D. Vrinceanu, E. Gheorghiu “Linear dielectric response of clustered living cells” PHYS. REV. E (2010) 81, 021913 1-11
C. Polonschii, S. David, S. Tombelli, M. Mascini, M. Gheorghiu "A novel low-cost and easy to develop functionalization platform. Case study: Aptamer-based detection of thrombin by surface plasmon resonance" Talanta 80 (2010) 2157–2164
A. Olaru, M. Gheorghiu, S. David, T. Wohland , E. Gheorghiu "Assessment of the multiphase interaction between a membrane disrupting peptide and a lipid membrane", J. Phys Chem B (2009), 113, 14369
M. Gheorghiu, A. Olaru, A. Tar, C. Polonschii, E. Gheorghiu "Sensing based on assessment of non-monotonous effect determined by target analyte: Case study on pore-forming compounds", Biosens. Bioelectron. 24 (2009) 3517
E. Gheorghiu, M. Gheorghiu, S. David, C. Polonschii "Biodynsensing: sensing through dynamics of hybrid affinity / cellular platforms; towards appraisal of Environmental and Biological Risks of Nanobiotechnology" in NATO Science for Peace and Security Series B: Physics and Biophysics , Magarshak, Yuri; Kozyrev, Sergey; Vaseashta, Ashok K. (Eds.) 2009, ISBN: 978-90-481-2522-7
T. Sandu "Dynamics of a quantum oscillator strongly and off-resonantly coupled with a two-level system", Physics Letters A (2009)
The International Centre of Biodynamics
40 ICB Annual Report 2013
L. Muresan, M. Nistor, S. Gaspar, I.C. Popescu, E. Csoregi “Multianalyte monitoring using enzyme microstructures and Scanning Electrochemical Microscopy”, Bioelectrochemistry 2009, 76, 81-86
C. Balan, D. Broboana, E. Gheorghiu, L. Vekas “Rheological characterization of complex fluids in electro-magnetic fields” Journal of Non-Newtonian Fluid Mechanics 154 (2008) 22–30
A.N. Chantis, T. Sandu, J. L. Xu "Ab-initio calculations of spin tunneling through an indirect barrier", PhysMath Central-Physics B, 1, 13 (2008)
E. Gheorghiu “Appraisal of cellular systems using impedance spectroscopy – theoretical and experimental aspects”, IFMBE Proceedings, Springer, vol 17, 2007, part 4, 81-85
M. Gheorghiu, S. David, C. Polonschii, D. Bratu, E. Gheorghiu “Biosensing and controlled interaction with cellular systems via structured interfaces”, Eur. Cel. Mater. Vol14 , S3, 2007, p 63
M. Gheorghiu, S. David and E. Gheorghiu “Sensing the cell- substrate interaction towards development of “smart” surfaces, IFMBE Proceedings, Springer, vol 17, 2007, part 4, 86-89
C. Balut , M. Vandeven, S. Despa, I. Lambrichts, M. Ameloot, P. Steels, I. Smets “Measurement of cytosolic and mitochondrial pH in living cells during reversible metabolic inhibition”, Kidney Int. 2007, 17978815
S. David, M. Gheorghiu, C. Polonschii and E. Gheorghiu “Dual SPR-Impedance Measurement System for detection of bioaffinity interactions”, IFMBE Proceedings, Springer, vol 17, 2007, part 4, 106-109
C. Polonschii, D. Bratu and E. Gheorghiu “Multi Frequency, Multi Channel, Differential Impedance Analyzer for Rapid Assays”, IFMBE Proceedings, Springer, vol 17, 2007, part 4, 229-231
F. Jans , C. Balut, M. Ameloot , P. Wouters, P. Steels “Investigation of the Ba-Sensitive NH(4)(+) Transport Pathways in the Apical Cell Membrane of Primary Cultured Rabbit MTAL Cells”, Nephron Physiol. 2007 Jun 15;106 (3):p45-p53 17570948
K. Zor, S. Gaspar, M. Hashimoto, H. Suzuki, E. Csoregi “High temporal resolution monitoring of fermentations using an on-line amperometric flow-through microdetector”, Electroanalysis, 2007, 19(1), 43-48.
M. Hedstrom, C.E. Grey, S. Gaspar, B. Mattiasson “Miniaturized on-line digestion system for the sequential identification and characterization of protein analytes” J. Chromatography A, 2007, 1146(1), 17-22.
T. Sandu, Comments on Spin-dependent tunneling through a symmetric semiconductor barrier: The Dresselhaus effect, Phys Rev. B.(2007)
M. Schuvailo, S. Gaspar, A.P. Soldatkin, E. Csoregi “Ultramicrobiosensor for the selective detection of glutamate”, Electroanalysis, 2007, 19(1), 71-78
M. Gheorghiu, S. David, C. Polonschii, E. Gheorghiu “Sensing at nanoscale via structured interfaces” Eur Biophys J. (2007) 36 S157
C.M. Balut, P. Steels, M. Radu, M. Ameloot, W. Van Driessche, D. Jans "Membrane Cholesterol Extraction decreases Na+ Reabsorption in A6 Renal Epithelia", AJP - Cell, 290 (1), C87-94, 2006
The International Centre of Biodynamics
41 ICB Annual Report 2013
D. Cucu D, J. Simaels, J. Eggermont, W. Van Driessche, W. Zeiske “Opposite effects of Ni2+ on Xenopus and rat ENaC expressed in Xenopus oocytes”, Am J Physiol Cell 289(4) 2005 C946-58
C.M. Balut, D. Jans, W. Van Driessche, P. Steels "How membrane cholesterol depletion regulates Na+ transport in A6 renal epithelial cells ", J Am Soc Nephrol 16, 2005
D. Andreescu, A.K. Wanekaya, A. O. Sadik, J. Wang “Nanostructured polyamic acid membranes as novel electrode materials”, Langmuir, Vol 21. No 15. p. 6891-9 (2005)
D. Cucu, J. Simaels, D. Jans, W. Van Driessche “The transoocyte voltage clamp: a non-invasive technique for electrophysiological experiments with Xenopus laevis oocytes”, Pflügers Arch 44, 2005, 934-942.
C.M. Balut, A. Segal, D. Cucu, W. van Driessche, P. Steels "Effects of membrane cholesterol on epithelial sodium channels (ENaC) present in A6 cells and expressed in Xenopus laevis oocytes", Pfluegers Archives, 447, 2004
M. Gheorghiu, W. Van Driessche “Modeling of basolateral ATP release induced by hypotonic treatment in A6 cells” 2004. Eur Biophys J.vol 33 No 5, 412-420
P. Steels, D. Jans, W. van Driessche, C.M. Balut “Membrane Cholesterol Depletion in A6 cells depresses activated sodium transport and elicits a transient chloride secretion during a hypotonic shock", J Am Soc Nephrol 15, 2004
C. Balan, C.M. Balut, L. Gheorghe, C. Gheorghe, E. Gheorghiu, G. Ursu “Experimental determination of blood permittivity and conductivity in simple shear flow”, Clinical Hemorheology and Microcirculation, Vol. 30, Nr. 3-4, 359 – 364, 2004
E. Gheorghiu, E., D. Andreescu, M. Oporanu, M. Gheorghiu, S. Cazacu, C. Balut, A. Ursu “Impedance spectroscopy in biodynamics: Detection of specific cells (pathogens) using immune coated electrodes”, Songklanakarin J. Sci. Technol., 2002, 24(Suppl.) : 791-797
O.A. Sadik, E. Gheorghiu, H. Xu, D. Andreescu, C. Balut, M. Gheorghiu, D. Bratu, "Differential Impedance Spectroscopy for Monitoring Protein Immobilization and Antibody-Antigen Reactions", Analytical Chemistry, 74 (2002), 3142-3150
E. Gheorghiu, C. Balut, M. Gheorghiu, "Dielectric behaviour of Gap Junction Connected cells: a Microscopic Approach", Physics in Medicine and Biology, 47 No 2 (2002) 341-348.