Download Contents: Steering, organizing and program committee

Contents:
1. Steering, organizing and program committee…………………………………….....4
2. Preface…………………………………………………………………….....................5
3. Abstracts................................................................................................................6
4. Business project proposals...................................................................................
STEERING COMMITTEE:
Prof. Wiesław Bielawski (Rektor SGGW Warszawa)
Prof. Tadeusz Bohdal (Rektor Politechniki Koszalińskiej) – przewodniczący
Prof. Mirosław Karbowniczek (Prorektor AGH w Krakowie)
Prof. Jan Kazior (Rektor Politechniki Krakowskiej)
Prof. Adam Jacek Krętowski (Rektor Uniwersytetu Medycznego w Białymstoku)
Prof. Marek Krawczyk (Rektor Uniwersytetu Medycznego w Warszawie)
Prof. Stanisław F. Mitura (Politechnika Koszalińska) – wiceprzewodniczący
Prof. dr hab. inż. Anna Piotrowska (Dyrektor Instytutu Technologii Elektronowej)
Prof. Magdalena Pisarska – Krawczyk (Państwowa Wyższa Szkoła Zawodowa im. Prezydenta
Stanisława Wojciechowskiego w Kaliszu) – wiceprzewodnicząca
 Prof. Jan Szmidt (Rektor Politechniki Warszawskiej)
 Prof. dr hab. inż. Sławomir Wiak (Rektor Politechniki Łódzkiej)
 Prof. Lucyna Woźniak (Prorektor Uniwersytetu Medycznego w Łodzi)
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ORGANIZING AND PROGRAM COMMITTEE:
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Dr Nasar Ali (NANO Society, Manchester, UK)
Dr Totka Bakalova (Uniwersytet Techniczny w Libercu)
Prof. Stanisław Bielecki (Politechnika Łódzka)
Prof. Bogusław Buszewski (Uniwersytet Mikołaja Kopernika w Toruniu)
Prof. Andre Chwalibog (Uniwersytet Kopenhaski)
Dr Piotr Dumania (Instytut Technologii Elektronowej)
Prof. Jan Chłopek (Akademia Górniczo Hutnicza im. Stanisława Staszica w Krakowie)
Dr hab. Jacek Grabarczyk (Politechnika Łódzka)
Prof. Jacek Gronwald (Pomorski Uniwersytet Medyczny w Szczecinie)
Prof. Sławomir Hausman (Politechnika Łódzka)
Prof. Ireneusz Kotela (Szpital MSW w Warszawie)
Prof. Igor Khudetskyy (Instytut Spawania Elektrycznego im. E. O. Patona)
Prof. Petr Louda (Uniwersytet Techniczny w Libercu)
Prof. Zbigniew Nawrat (Fundacja Rozwoju Kardiochirurgii w Zabrzu)
Prof. Piotr Niedzielski (Politechnika Łódzka)
Prof. Tadeusz Pietrucha (Uniwersytet Medyczny w Łodzi)
Prof. Magdalena Pisarska–Krawczyk (Państwowa Wyższa Szkoła Zawodowa im. Prezydenta
Stanisława Wojciechowskiego w Kaliszu) - przewodnicząca
Prof. Andrzej Radek (Uniwersytecki Szpital Kliniczny im. Wojskowej Akademii Medycznej –
Centralny Szpital Weteranów w Łodzi)
Prof. Jerzy Ratajski (Politechnika Koszalińska)
Dr hab. Eugeniusz Sajewicz (Politechnika Białostocka)
Prof. Ewa Sawosz Chwalibóg – (Szkoła Głowna Gospodarstwa Wiejskiego) wiceprzewodnicząca
Prof. Paweł Strumiłło (Politechnika Łódzka)
Prof. Krzysztof Zaremba (Politechnika Warszawska)
ORGANIZING COMMITTEE:
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Prof. Ewa Chwalibog Sawosz (SGGW Warszawa)
Dr Piotr Dumania (Instytut Technologii Elektronowej) – wiceprzewodniczący
Dr Elżbieta Dzimida-Chmielewska (Uniwersytet w Białymstoku)
Adam Głuszuk (Krajowy Punkt Kontaktowy Programów Badawczych UE)
Dr Katarzyna Mitura (Politechnika Koszalińska)
Prof. Stanisław F. Mitura (Politechnika Koszalińska) – przewodniczący
Prof. Wiesław T. Popławski ( Politechnika Białostocka)
Mariusz Warszycki (Innowacyjna Polska Wschodnia)
Dr Bogdan Wasilewski (Technopark Łódź)
Dr Wieslaw Zinka (MEDEN INMED Koszalin) – wiceprzewodniczący
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Welcome to the
10 International Forum on
Innovative Technologies for Medicine ITMED 2016
th
Dear Sir/Madam,
On behalf of the organizers I have the honour to welcome all participants of the 10th
International Forum on Innovative Technologies for Medicine ITMED 2016, taking place in
Warsaw, Poland, on 7-9 November 2016.
The previous ITMED FORUMS (Białystok May 29–31,2007, Białystok & Białowieża October
15–17, 2008, Białystok December 1–3, 2009, Białystok December 1–3, 2010, Warsaw
November 28–30, 2011, Bialystok, 21-23 November 2012, Bialystok, 5-7 December 2013,
Suprasl, Suprasl 4-6 December 2014, Suprasl 3-5 December 2015) gathered over 1000
participants representing Polish and foreign universities, institutions of scientific research,
companies, medical circles, business environment institutions and also government and
economic agencies – from Poland, Ukraine, Belarus, Lithuania, Latvia and Sweden. During the
plenary sessions and during the workshops nearly 500 presentations and concrete proposals
of cooperation in new projects or common economic has been presented.
The main goal of the Forum is dissemination of scientific achievements importance for
economic development and establish contacts between Polish and foreign institutions
representing medical industry and to define fields of possible cooperation. The most important
element of the meeting will be the possibility to establish cooperation with those institutions
from Eastern Europe (Belarus, Ukraine).
A significant part of the Forum shall be dedicated to sessions during which one shall present
selected issues concerning the opportunities, perspectives of development and cooperation in
the area of biomedical engineering as well as sessions devoted to the everyday reality of
operation of clusters and technological.
I hope that the ITMED 2016 Forum will be a fruitful, enjoyable and memorable experience for all
participants.
Thank you for coming!!!
Prof. Tadeusz Bohdal
Organizing and Program Committee Chairman
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Abstract number and title
ID No 01
Bio-based medical dressings for healing and protection
against pathogenic bacteria
ID No 02
Cardio-implants in bio-medical engineering formulation
ID No 03
The VLSI Chip for Measurement of Blood Oxygen
Saturation
ID No 04
High intensity focused ultrasound - makes new
possibility of therapy and drug delivery system
ID No 05
High frequency bipolar endoscopic sonde for minimally
invasive surgery
ID No 06
High frequency bipolar endoscopic sonde for minimally
invasive surgery
ID No 07
Surgical robots - new challenges, new standards &
market analysis.
ID No 08
The Robin Heart PortVisionAble before first clinical
application – report.
ID No 09
Robin Heart and other surgical robots - new standards
in medicine
ID No 10
Assessing the Suitabilitz of carbon nanostructures for
the coloniyation of bacterial populations
ID No 11
Multifunctional information system for evaluation and
stabilization of mental health
ID No 12
Mobile information feedback system for m-health
ID No 13
Impact of media-technologies on medical education
and attitudes to video-games bz medical students
ID No 14
The 3D printing of titanium prosthetic foundations
ID No 15
Prezentacja efektów prac Politechniki Warszawskiej w
zakresie innowacyjnych technologii medycznych.
ID No 16
Multiparametric capillary sensing system for
examination of complex solutions behavior under fast
thermal, and ultraviolet shocks
ID No 17
Data security in monitoring of chronic patients
ID No 18
General health
statud
tracker
concept for
outpatient monitoring
ID No 19
Computer medication passports of patients with
epilepsy in specialized pharmacy
6
Contact person
Page
number
Danuta Ciechańska
7
Michał Pośpiech
8
Adam Jarosz
9
Sławomir Wolski
10
Igor Khudetskyy
11
Igor Khudetskyy
12
Zbigniew Nawrat
13
Zbigniew Nawrat
14
Zbigniew Nawrat
15
Petr Louda
16
Nataliya Dorosh
17
Nataliya Dorosh
18
Lesya Lototska
19
Andrzej Zieliński
20
Tomasz Turzyński
21
Michal Borecki
22
Ihor Blavatskyj
23
Ihor Blavatskyj
24
Oksana Blavatska
25
Abstract
ID No 01
AUTHOR
First name, surname
Danuta Ciechańska, Magdalena Kucharska, Maria
Wiśniewska-Wrona, Kinga Brzoza-Malczewska
COMPANY/ORGANIZATION
Name and address
NAME OF PROJECT
Institute of Biopolymers and Chemical Fibres,
ul. M.Skłodowskiej-Curie 19/27, 90-570 Łódź,
Bio-based medical dressings for healing and protection
against pathogenic bacteria
ABSTRACT
During recent years there has been shown growing demand for modern, innovative materials
and biomaterials which are a direct product of nanotechnology and for products containing
nanoparticles giving them special properties. Nowadays modern dressing materials are based
primarily on natural polymers exhibiting advantageous biostimulating properties such as: ability
to accelerate wound healing, facilitating reconstruction and vascularization of tissues, reducing
scars and antibacterial protection against bacterial infection. For many years Institute of
Biopolymers and Chemical Fibres has been conducting research and development on the use
of natural and synthetic biopolymers in medicine. The research include among others:
multifunctional dressings, implants (hernia meshes, vascular prosthesis, peripheral nerve graft/
conduits), cell culture medium. Polysaccharides such as chitosan and alginate in the form of
nanoparticles, nanofibers, and micro- and nanofibrids are primarily used in the development of
multifunctional dressing materials. The unique biological properties of biocompatibility and
biodegradability, hemostatic properties, high antimicrobial activity, the ability to accelerate the
wound healing process and the possibility of creating a variety of utility forms specifically
predispose these polymers to design multifunctional modern materials dressings.
The part of investigations presented was carried out within the research projects: No3 T08
01228, NCBiR/ERA-NET-MATERA/01/2011, PBS1/B7/5/2012 funded by the National Centre
for Research and Development.
KEY WORDS
Bio -based medical products
CONTACT WITH AUTHOR
Bioactive polysaccharides
Phone: 602236905
E-mail: [email protected]
Abstract
Nano-bio-materials
ID No 02
7
AUTHOR
First name, surname
Magdalena Pisarska-Krawczyk
Michał Pośpiech
COMPANY/ORGANIZATION
Name and address
The President Stanisław Wojciechowski State University
of Applied Sciences in Kalisz
ul. Nowy Świat 4, 62-800 Kalisz
Kardio-implanty w ujęciu inżynierii biomedycznej
NAME OF PROJECT
Cardio-implants in bio-medical engineering formulation
ABSTRACT
In the paper there is presented efect of implants’ bio-degradation process analyse in human’
cardiovascular system. There is used biocic systems’ mechanical modelling.
Bio-degradation occurs in a process, where is create electro-magnetic field by erythrocytes
having mass. Cardiovascular system absorbe products of implants’ bio-degradation.
Subsystems: implant and cardiovascular system exchange mass between themselves.
In mechanical modeling this process should be taken into account the characteristics
of electromagnetic field. There is an environmental impact on material medium. It means that
examined medium changes its mass as a result of act forces and force moments. In this thesis
cardiovascular system is defined as a closed dynamic system, where mass, momentum,
angular momentum and energy are exchange between subsystems. Electro-magnetic field and
material continuum are integrated component systems which occupy the same finite volume.
According to mechanics principles it is known that when forces act, then momentum changes.
Next, when forces moments act, angular momentum changes as well as the energy of loaded
system changes. In the paper there is proposal of a foundations to recognize and modelling
of implants bio-degradation process. Evaluation of different bio-degradate implants using
cardio-vascular system in establish processes and time will depends on bio-electromagnetics
processes modelling.
KEY WORDS
Cardio-implants
CONTACT WITH AUTHOR
Bio-electromagnetics
Biodegradation modelling
processes
Phone: +48 608-117-116
E-mail: [email protected]
8
Abstract
ID No 03
AUTHOR
First name, surname
A.Jarosz1, C.Kolacinski1, J.Wasowski1, A.Szymanski1,
E.Kurjata-Pfitzner1, T.Borejko2, K.Siwiec2, W.A.Pleskacz2
COMPANY/ORGANIZATION
1
Name and address
NAME OF PROJECT
Instytut Technologii Elektronowej, Al.Lotników 32/46, 02-668
Warszawa
2
Politechnika Warszawska, Instytut Mikroelektroniki i
Optoelektroniki PW, ul. Koszykowa 75, 00-662 Warszawa
Układ scalony do pomiaru stopnia nasycenia krwi tlenem
The VLSI Chip for Measurement of Blood Oxygen
Saturation
ABSTRACT
Blood oxygen saturation (fraction of oxygen-saturated hemoglobin relative to total hemoglobin
in the blood) is a very important parameter of human body in the context of medical diagnosis.
Pulse oximetry is a noninvasive method, which allows to monitor this parameter basing on the
phenomena of different light absorption ratio for oxygenated and deoxygenated blood. To
measure the oxygen saturation, light with two different wavelengths is transmitted through the
human tissue and the saturation factor may be calculated by taking into account mentioned
absorption coefficients.
In our work the specialized VLSI chip for pulse oximetry measurement is presented. It’s main
parameters are programmable, so it may be used with different types of LEDs and
photodetectors. Our circuit consists of three main components:
-transmitter module, providing current flow for two different transmitting LEDs,
-receiver module, where the signal from photodetector is amplified, filtered and converted into
digital signal,
-controller module, controlling operation of the whole chip and supervising external
communication, possible through the implemented SPI interface.
The chip was designed and fabricated in UMC 130nm process.
Presented work was partially supported by the Polish National Centre of Research and
Development (NCBR) under project "HeC" (DOBR/0053/R/ID1/2013/03).
KEY WORDS
pulse oximetry
CONTACT WITH AUTHOR
SpO2
Phone: +48-22-5487-851
E-mail: [email protected]
9
medical chip
Abstract
ID No 04
AUTHOR
First name, surname
Mariusz Trybus, Sławomir Wolski, Magdalena Przybyło,
Justyna Filipowska
COMPANY/ORGANIZATION
Name and address
Department of Physics and Medical Engineering
Rzeszów University of Technology
Al. Powstańców Warszawy 6, 35-959 Rzeszów
Lipid Systems, Wrocław, Poland
PRO-FAMILIA Hospital, ul. Witolda 6B, 35-302 Rzeszów
Faculty of Medicine, University of Rzeszów
A. Rejtana 16c, 35-959 Rzeszów, Poland
Ultradźwięki o wysokim natężeniu – nowe możliwości
nieinwazyjnych terapii
NAME OF PROJECT
High intensity focused ultrasound - makes new possibility
of therapy and drug delivery system
ABSTRACT
Nuclear magnetic resonance spectroscopy and imaging (NMR and MRI) play an essential role
in modern science and healthcare. Ultrasound (US) is one of the most widely used imaging
technologies in medicine. The use of condensed ultrasound beam for thermal ablation is a
relatively old idea. There were many attempts to develop ultrasound surgery into an effective
therapy. Such a noninvasive surgery was very attractive aim but still out reach because of lack
of reliable and effective temperature monitoring method. Remarkable progress in magnetic
resonance imaging made possible advanced monitoring and control of ultrasound surgery.
Nowadays there are market ready solutions practicing ultrasound surgery under control of MRi.
Such commercial equipment makes also possible conduction of research works related to
alternative usage of MRI in conjunction with high energy ultrasound. One of such alternative
therapies, being on the research stage, is drug delivery.
The aim of the project is to developed liposomal drug nano-carriers, which have high contrast
for high frequency ultrasounds. This contrast will be a result of specific composition of the
membrane as well as mechanical properties of the intra-vesicle aqueous phase. Such design of
the liposome allows for the controlled release of the liposome content locally in the body where
the ultrasound beam is focused
KEY WORDS
CONTACT WITH AUTHOR
Phone: +48 17 865 1988
E-mail: [email protected]
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Abstract
ID No 05
AUTHOR
First name, surname
Prof. Igor Khudetskyy(speaker)1,2, PhD, docent
Yuliia Antonova-Rafi1, MD Sergei Oparin3
COMPANY/ORGANIZATION
1
Name and address
NAME OF PROJECT
Biomedical Engineering Faculty National Technical
University of Ukraine “KPI” Kyiv, Ukraine
2
E. O. Paton Electric Welding Institute of the NAS of Ukraine
Frantsevich Institute for Problems in Materials Science of NAS
of Ukraine
3
Regional Clinical Hospital Kyiv
High frequency bipolar endoscopic sonde for minimally
invasive surgery
ABSTRACT
Employees of the E. O. Paton Electric Welding Institute of the NAS of Ukraine together with
specialists from the Faculty of Biomedical Engineering NTUU "KPI" them. I.Sikorskoho,
Regional Clinical Hospital Kyiv developed a high-frequency sonde fibrogastroscopy. This sonde
can work with all devices for high frequency welding of living tissues, which are produced and
produces E. O. Paton Electric Welding Institute of the NAS. Predicted size for sonde main
types gastroscope starting from 2.2 mm.
The sonde is designed to stop bleeding in the duodenum, stomach and esophagus with
different pathologies. Comparative research have confirmed its high efficiency compared to
monopolar sonde and argon plasma technology coagulation.
Design and patented surgical pathology
KEY WORDS
High frequency
CONTACT WITH AUTHOR
bipolar endoscopic sond
minimally invasive surgery
Phone: (38067) 2830011
E-mail: [email protected]; [email protected]
11
Abstract
ID No 06
AUTHOR
First name, surname
Zbigniew Nawrat1, Łukasz Mucha1*, Krzysztof Lis2, Krzysztof
Lehrich2, Kamil Rohr1, Dariusz Krawczyk1, Piotr Kroczek1,
Péter Fürjesb3, János Radó3 Csaba Dücső3
COMPANY/ORGANIZATION
1
Name and address
NAME OF PROJECT
Fundacja Rozwoju Kardiochirurgii, Foundation of Cardiac
Surgery Development, Pracownia Biocybernetyki, 41-800
Zabrze, ul. Wolności 345a
2
Politechnika Śląska, Silesian University of Technology,
Mechaniczny Technologiczny, Katedra Budowy Maszyn, 44100 Gliwice, ul. Konarskiego 18a
3
Inst. of Technical Physics and Materials Science, Centre for
Energy Research, HAS, 29-33 Konkoly-Thege str, Budapest,
1121, Hungary
Advances in the development of a Force - Feedback
Control System Dedicated for Robin Heart Surgical Robot
ABSTRACT
The aim of this work is to investigate the robot's control systems with applicability of special 3D
MEMS force micro-sensors (designed and prepared, by Hungarian MTA EK MFA) to Robin
Heart PVA (Port – Vision - Able) medical robot. Three different functions are targeted: 1)
micro-joystick actuator to be integrated in the hilt of the laparoscope to easy robotic movement
control during operation. 2) Force sensor inside the laparoscopic jaw to provide feedback to the
surgeon by measuring the grasping strength and 3) 3D force/tactile sensor which facilitates
palpation for tissue diagnostics during operation. A model of the robot controller using a
prototype 3D sensor force has been successfully tested during the study of functional robot.
Studies of prototype sensors have demonstrated their usefulness in robot force feedback
system to assess the state of tissue and to assess the clamping force of the grasper surgical
system. Acknowledgements. This work was done in the frame of the ENIAC “INCITE” project
No.621278 and partially financed by the ENIAC JU and the National Research, Development
and Innovation Fund (NKFIA) via NEMZ_12-1-2014-0005 grant
KEY WORDS
MEMS, 3D force sensor,
piezoresistive sensor
CONTACT WITH AUTHOR
minimal invasive surgery
Phone: +48 32 3735664
E-mail: [email protected]
12
Robin Heart, medical robots
Abstract
ID No 07
AUTHOR
First name, surname
Karolina Kroczek, Zbigniew Nawrat
COMPANY/ORGANIZATION
Name and address
NAME OF PROJECT
Katedra i Oddział Kliniczny Kardiochirurgii, Transplantologii,
Chirurgii Naczyniowej i Endowaskularnej Śląskiego
Uniwersytetu Medycznego w Katowicach
Surgical robots - new challenges, new standards &
market analysis.
ABSTRACT
Medical robots have paved the way by offering new standards and diagnostics, rehabilitation
and therapy opportunities. Today the surgical robot’s market is dominated by Intuitive Surgical
company. Lack of competition has caused an unjustified increase in the cost of the offered
apparatus and its maintenance. The successes achieved, including more than 500 thousand
operations a year, convinced of the effectiveness of the use of robots in surgery. Da Vinci
robots are already offered in more than 50 countries around the world. The main source of
profits come from the sale of tools for robotics operations, now. Surgical telemanipulators are
sometimes simply the only chance for many patients to carry out the operation in an extremely
precise and safe methods. To make robotically-assisted surgery wider acceptable the operation
have to be more easier and more attractive for the end user - surgeon and less expensive for
hospital owner. It seems attainable in near future - if only monopolistic and conservative
tendencies commercial firms will not take above spirit of inventiveness and spontaneous
interest which we can observe in many scientific and academical centres in Europe.
KEY WORDS
Surgical robots
CONTACT WITH AUTHOR
minimal invasive surgery
Phone: +48 32 3735664
E-mail: [email protected]
13
Robin Heart, medical robots
Abstract
ID No 08
AUTHOR
First name, surname
Zbigniew Nawrat1, Łukasz Mucha1*, Krzysztof Lis2, Krzysztof
Lehrich2, Kamil Rohr1, Dariusz Krawczyk1, Piotr Kroczek1,
Grzegorz Religa 1,3,Wiesław Zinka 4
COMPANY/ORGANIZATION
1
Name and address
NAME OF PROJECT
Fundacja Rozwoju Kardiochirurgii, Foundation of Cardiac
Surgery Development, Pracownia Biocybernetyki, 41-800
Zabrze, ul. Wolności 345a
2
Politechnika Śląska, Silesian University of Technology,
Mechaniczny Technologiczny, Katedra Budowy Maszyn, 44100 Gliwice, ul. Konarskiego 18a
3
Oddział Kardiochirurgiczny, Wojewódzki Szpital
Specjalistyczny, ul. Kniaziewicza1/5, 91-347 Łódź
4
Meden-Inmed, 75-847 Koszalin, ul.Wenedów 2
The Robin Heart PortVisionAble before first clinical
application – report.
ABSTRACT
The aim of this work is presentation report, current state of works (conducted by FRK team)
under the Robin Heart PortVisionAble (PVA) clinical robot project. The Robin Heart PVA has
been designed for robotic control of endoscope position and orientation. The new functional
robot’s properties (lightweight, portable robot) has been achieved. Robin Heart PortVisionAble
met the customers’, patients and doctors, expectation. Mass production technology is
developed by Meden Inmed Company. The first clinical applications is prepared by Grzegorz
Religa and will be conducted in few months. Currently ongoing training of the clinical team in
FRK facilities using physical models and planning systems by virtual operating room. We
expect that the development of these kind of robot for minimal – invasive surgery could be an
opportunity to implement a new, Polish and European robot, which will be widespread accepted
in the medical world. Acknowledgements. This work was supported in part by the Grant The
National Centre for Research and Development “Robin Heart PortVisionAble …” (ID 178576)
PBS1/A3/1/2012
KEY WORDS
Video-surgery robot
CONTACT WITH AUTHOR
minimal invasive surgery
Phone: +48 32 3735664
E-mail: [email protected]
14
Robin Heart, medical robots
Abstract
ID No 09
AUTHOR
First name, surname
Zbigniew Nawrat
COMPANY/ORGANIZATION
Name and address
NAME OF PROJECT
Fundacja Rozwoju Kardiochirurgii, Foundation of Cardiac
Surgery Development, Pracownia Biocybernetyki, 41-800
Zabrze, ul. Wolności 345a
Robin Heart and other surgical robots - new standards in
medicine
ABSTRACT
The aim of this work is presentation of the achievements and perspectives, current state of
medical robots for surgical application and also works, conducted by Robin Heart Team leaded
by author, under the polish surgical robot. The Robin Heart system includes the planning
system, training system, experts’ program, as well as tele-manipulators and automatic surgical
tools. In the Polish Robin Heart surgical robot many of the original solutions were introduced:
telescopic sliding motion to move the tool (2002), mechatronic tool “for the hand (2006) and the
robot”, and Robin Heart mc2 (2010) is the first surgical robot that can work for three persons.
The Robin Heart project, after series of animal and teleoperation experiments entered the
phase of preparation the first clinical robot model - Robin Heart PortVisionAble – lightweight,
portable video-surgery robot. Acknowledgments Robin Heart Project was supported by KBN 8
T11E 001 18 and projects: PW-004/ITE/02/2004, R1303301 and R13 0058 06/2009, and
NCBR - the national Centre for Research and Development - grants: R1303301 and R13 0058
06/2009, Robin PVA – no 178576,TeleRobin – no 181019 and many sponsors.
KEY WORDS
surgical robots
CONTACT WITH AUTHOR
minimal invasive surgery
Phone: +48 32 3735664
E-mail: [email protected]
15
Robin Heart, medical robots
Abstract
ID No 10
AUTHOR
First name, surname
Petr Louda, Totka Bakalova, Lucie Svobodova, Adela
Coufalova, Petra Rosicka, Nikolay Petkov
COMPANY/ORGANIZATION
Name and address
NAME OF PROJECT
Technical University of Liberec
Studentská 1402/2, 461 17 Liberec 1, Czech Republic
Assessing the Suitabilitz of carbon nanostructures for the
coloniyation of bacterial populations
ABSTRACT
This work presents the evaluation of physico-chemical properties of individual TiCN thin layers,
which affect the adhesion of a biological material to the surface of observed samples (chemical
composition, surface roughness and hydrophilicity).
Body implants are common a part of the present medicine. We could encounter their usage in
orthopedics, traumatology, stomatology and other medical disciplines. Basic parameters for
material used for crafting an implant are its biocompatibility and durability.
TiCN thin films with a differing composition were deposited on the samples of surgical steel
AISI 316 by cathodic arc evaporation of pure Ti with various different gas ratios of N2 and
C2H2. During the deposition processes the pressure in the vacuum chamber was 1.5 Pa, the
deposition temperature was 400 °C, and the deposition time of the TiCN was 30 min.
Another studied subjects were chemical stability, thickness of the layer and the layer adhesion
to the substrate, due to the possible use of those samples in the medical applications. Next part
of the work is dedicated to the evaluation of the biological interaction between bacterial strain of
Escherichia coli and studied surface layers. The importance was given to the observation of the
willingness of the microorganisms to colonize individual samples.
Tůmová, Š. et al. (2007). Carbon layers and their application in medicine, Fine Mechanics and
Optics, 3, ISBN 0447-6441.
Bakalova, T., et al, (2016). Biocompatibility of Surfaces of TiCN Thin Films, LMP
2015.Churerstrasse 20, CH-8808 Pfaffikon, Switzerland: Trans Tech Publications Inc., 2016. p.
64 – 68. ISBN 978-303835720-9, ISSN 10120386.
KEY WORDS
CONTACT WITH AUTHOR
Phone: +420 485353116
E-mail: [email protected]
16
Abstract
ID No 11
AUTHOR
First name, surname
Boyko Oksana1, Dorosh Nataliya1, Yemakova Irena 2, Dorosh
Oleh 2, Boyko Ivan3
COMPANY/ORGANIZATION
1
Name and address
NAME OF PROJECT
Lviv National Medical University, 79010, Lviv, Pekarska Str.
69, Ukraine
2
International Scientific - Training Centre for Information
Technologies and Systems, National Academy of Sciences,
Kiev, Glushkova Str., 40,Ukraine
3
National University “Lvivska Politechnica”, Ukraine,79013,
Lviv, S. Bandery Str. 12, Ukraine
Multifunctional information system for evaluation and
stabilization of mental health
ABSTRACT
Mental well-being is integral to population health and well-being and contributes to the
functioning of individuals, families, communities and the social and economic prosperity of
society.
The psychics of today's youth is exposed to a large information overloading, which significantly
limits its ability to qualitatively assimilate the necessary knowledge. It leads to deterioration in
memory and other cognitive functions. It increases the level of anxiety and stress tolerance;
disruption of circadian rhythms of sleep and significantly limits the ability of real verbal
communication and socialization, often leading to depression and negative thoughts
The deterioration in cognitive functioning of mental activities such as memory and attention is
closely linked with succeeding in training, total working capacity, ability to deal effectively with
the problems of life, stress tolerance, which can significantly affect the functioning of society in
the future.
Our Service platform is multifunctional. It provides personalized approach for working with
individual users and groups of users (ethnic, gender, social, migrational etc.), qualifying
selection of common features specific to each group with the aim to optimize corrective
programs which take into account mental differences between the representatives of each
group, systemized data analysis by risk groups, gender, ethnic and other specialized groups,
various professional organizations and countries. The service can provide automatic translation
of texts, resulting data and corrective programs for use in different language groups. This
approach allows for large-scale studies using modern means of communication and taking into
account peculiarities of mental health of different groups in Europe and beyond.
KEY WORDS
Information system
CONTACT WITH AUTHOR
Service platform
Phone: +380969104223
E-mail: [email protected]
17
Mental health
Abstract
ID No 12
AUTHOR
First name, surname
Dorosh Nataliya1, Zayachkivska Oksana1, Yermakova Irena2,
Dorosh Oleh3
COMPANY/ORGANIZATION
1
Name and address
Lviv National Medical University, 79010, Lviv, Pekarska Str.
69, Ukraine
2
International Scientific - Training Centre for Information
Technologies and Systems, National Academy of Sciences,
Kiev, Glushkova Str., 40,Ukraine
NAME OF PROJECT
Mobile information feedback system for m-health
ABSTRACT
Today mobile technology developers offer a wide variety of gadgets (smart fitness bracelets,
watches, sunglasses, clothing, etc.) and mobile applications for the control of certain
physiological characteristics and mental functions that characterize the health state: pulse (for
example, Instant Heart Rate, Runtastic Heart Rate Monitor), blood pressure (Blood Pressure
Monitor), stress level (Stress Check), sleep phase (Sleep Time), emotional state (Moodivator
(Pfizer) application, Ginger.io ), etc.
For data collection, express-analysis and visualization of verbal and physiological data
collected from users with the help of medical gadgets and smartphones, service platforms
which also provide the organization of the interface and feedback are being developed.
Disadvantages of the S Health Android-platforms, Google Fit, Research Kit, Win Phone are
that they do not analyze the data received from the user and cannot give recommendations
based on the medical practice using the methods of EBM.
On the basis of the analysis of functional and analytical possibilities of modern means of
measurement and evaluation of psycho-physiological functions with the help of medical
sensors, gadgets and mobile applications for smartphones, the concept of creation of an
innovative mobile information feedback system based on an intelligent mobile browser with the
service platform for long-term monitoring, analysis and correction of integrated indicators of
mental and physical health is created, as well as practical methods for the concept technical
implementation for systems with operating systems Android, IOS are developed.
KEY WORDS
Information system
CONTACT WITH AUTHOR
feedback
Phone: +380969104223
E-mail: [email protected]
18
m-health
Abstract
ID No 13
AUTHOR
First name, surname
Lesya Lototska1, Oksana Blavatska1, Ihor Blavatskyj2
COMPANY/ORGANIZATION
1
Name and address
NAME OF PROJECT
Danylo Galytskyj Lviv National Medical University
National University Lviv Polytechnic
Impact of media-technologies on medical education
and attitudes to video-games bz medical students
2
ABSTRACT
New media-technologies include computer video-games, virtual reality environments, social
networks, web-sites, blogs. We conducted an anonymous survey of 217 medical students
(women 53%) on experience of video-games and possibility of introducing new mediatechnologies in medical education. 98% of respondents liked the idea of using technologies to
improve medical education; 96% believed that education should intermingle with new mediatechnologies and 80% believed that video-games can have educational value.
The most popular were mentioned puzzles, strategies and role-playing games. Men are better
able to cope with rotation of 3D-objects, navigation routes or labyrinths and target directed
motor skills (e.g. wiretaps). Women cope better with observation (remembering details of
objects along route), manipulation (detecting no object and its displacement) and
responsiveness (rapid identification of relevant items based on visual cues).
Majority of students (95%) believe that medical education should make better use of new
media-technologies. 30% may be involved in the development of online multiplayer simulation
in health care. Female-students (39%) more likely than male-students (23%) believe in
potential educational value of video-games (95%); women (31%) are more likely than men
(27%) to be part of team in development of educational video-games.
Most students (77%) indicated that if online simulation in health care will help in achieving
personal goals, they are ready to devote much time to it. Students tend to use simulation in
medicine, if it is in game (96%) and if it helps to develop skills in interaction with patients (88%).
Role-playing games can support special educational program for modeling various types of
professional activity. Blended learning, which includes new media-technologies with traditional
approaches can help to overcome limitations of traditional learning environments. Stimulating
this tendency through a combination of institutional and financial support wouldn’t only help
teach today's students, but also cultivate the future of medical education.
KEY WORDS
new media-technologies
CONTACT WITH AUTHOR
online multiplayer simulation
Phone: +380509523488
E-mail: [email protected]
19
medical education
Abstract
ID No 14
AUTHOR
First name, surname
Zieliński A., Seramak T., Zasińska K.
COMPANY/ORGANIZATION
Name and address
NAME OF PROJECT
Biomaterials Team, Department of Materials Engineering and
Bonding, Gdansk University of Technology
The 3D printing of titanium prosthetic foundations
ABSTRACT
The 3D printing is a novel technique to prepare custom – made various implants. Here the
additive technique based on selective laser melting (SLM) is applied to fabricate the prosthetic
foundations for dental crowns or implants of titanium alloy. So far such foundations are
produced by precise milling of Co-Cr alloy or 3D printing with corundum ceramics. The first
solution is time-consuming and leaves a lot of metallic wastes of milling, the second brings out
the foundations of nice quality, but very expensive and brittle. In this research the foundations
made of relatively cheap and safe Ti13Zr13Nb alloy are produced by using the intraoral
scanning, preparation of files permitting to use the SLM equipment, fabrication of numerous
foundations at once, polishing and anodic oxidation to obtain the appropriate color.
The project is financed by the National Center for Research and Development
(TANGO1/266396/NCBR/2015).
KEY WORDS
titanium alloys
CONTACT WITH AUTHOR
prosthetic foundations
E-mail: [email protected]
20
selective laser melting
Abstract
ID No 15
AUTHOR
First name, surname
Centrum Zarządzania Innowacjami i Transferem Technologii
Politechniki Warszawskiej
COMPANY/ORGANIZATION
Name and address
NAME OF PROJECT
Politechnika Warszawska pl. Politechniki 1, 00-661 Warszawa
Prezentacja efektów prac Politechniki Warszawskiej w
zakresie innowacyjnych technologii medycznych.
ABSTRACT
Politechnika Warszawska prowadzi szeroko zakrojone prace naukowobadawcze w zakresie
opracowywania technologii wpływających istotnie na rozwój innowacji w zakresie technologii
medycznych.
Uczelnia m.in. współtworzy ośrodki naukowe składające się ze ściśle współpracujących ze
sobą środowiskowych centrów badawczych, w których prowadzone są badania dotyczące
najczęściej występujących chorób cywilizacyjnych.
Odwiedzający stanowisko Politechniki Warszawskiej będą mogli zapoznać się z licznymi i
spektakularnymi wynikami badań prowadzonych na poszczególnych Wydziałach, oraz efektami
prac kół naukowych zajmujących się np. biotechnologią.
KEY WORDS
technologie
CONTACT WITH AUTHOR
Phone: 022 234 59 88
E-mail: [email protected]
21
AUTHOR
First name, surname
Michal Borecki1
Pawel Pszczolkowski1
Maciej Szmidt2
Jan Szmidt1
COMPANY/ORGANIZATION
1
Name and address
NAME OF PROJECT
Warsaw University of Technology,
Warsaw University of Life Science
Multiparametric capillary sensing system for examination
of complex solutions behavior under fast thermal, and
ultraviolet shocks
2
ABSTRACT
Developed multiparametric capillary sensing platform enables analysis of light scattering, light
reflection and excited light emission in nano-volumes in dynamic conditions of thermal or
ultraviolet shocks. Due to examined dimensions developed capillary set-up enables sensing of
liquid solutions and colloids of nano-materials. Technology of sensor construction is under
constant improvement. Despite this, experiment data proves usability of capillary platform in
many diagnostic cases. The capillary sensing system may be useful tool in development of new
drug delivery platform, parameters of food processing examination and correlation with
biological food value or microbiological investigation of life forms parameters.
Experiment show that, a fast temperature increase may act as a reaction catalyst for the
disintegration of some organic particles as amino acids, particularly lysine. Therefore, food
preparation processes with fast ramp ups of temperature, are not ideal when the food is to be a
source of amino acids. Consequently, we examine amino acids stability in oil environment, as
some oriental kitchen methods base on putting shredded food into boiling oil or heated clarified
butter. The results show that such food processing may lead to proven lysine deficit of India
people.
Experiment confirmed that different amino acids reacts with GO in different way, and use at
least few possibility of particles binding. The phenomena of lysine disintegration may be used
in new medical nanotechnology where graphene oxide is a drug carrier and lysine is bridge for
diagnostic and therapeutic particles. The use of controlled ultra violet excitation of sample in
capillary system enables extended range of examinations of stability of solutions
KEY WORDS
Capillary sensor
CONTACT WITH AUTHOR
Diagnostic tool
Phone: 22 234 77 49
E-mail: [email protected]
22
Multiparametric sensor
AUTHOR
First name, surname
Ihor Blavatskyj 1, Oksana Blavatska2, Mikhailo
Kropyvnytskyi1, Martyn-Zenovii Lesnyak2, Bohdan
Salamakha2
COMPANY/ORGANIZATION
1
Name and address
NAME OF PROJECT
National University Lviv Polytechnic
Danylo Galytskyj Lviv National Medical University
Data security in monitoring of chronic patients
2
ABSTRACT
Special program of e-prescribing, e-transfer prescriptions and medicinal passport for chronic
patients, actually through lifetime taking certain medicines, was created. Patient can get his
drugs monthly without visit to a doctor: at any time and in any place referring to pharmacies by
opening data file with patient prescriptions, obtain needed medications, and if necessary – to
contact a doctor and get e-prescription. It provides the frequency of visits for patient and drug
action periodical monitoring, within the period - only if patient needs. Confirmation prescription
after a certain period (3-6-12 months), critical delay revalidation prescription 72 hours.
The main question is access to data, possibility of data modifications or adjustments and
allocation of rights between physician, pharmacist and patient. We consider three access levels
to patient files are necessary and our program provides each individual profile: Doctor: input
and change information on the disease and prescribing (patient confirm); Pharmacist: checking
appointment and confirmation of issuance drugs (patient confirm); Patient: verification and
validation of information.
For getting access to database after comparative analysis we recommend to use one of AAA
network security protocols with encryption, we need to add authorization and auditing. The best
in this situation is TACASC+. Terminal Access Controller Access-Control System refers to a
family of related protocols handling remote authentication and related services for networked
access control through a centralized server. System testing was conducted within 2 years for
patients with hypertension.
TACACS + is better because it is capable to work and serve multiple users at a same time.
TACACS+ encrypts all other information such as the username, authorization, and accounting.
Besides chronic patient monitoring system allows to avoid incompatibility and contraindications
in the presence of comorbidities.
KEY WORDS
patient data security
CONTACT WITH AUTHOR
optimization of e-health care
Phone: +380503839807
E-mail: [email protected]
23
security protocols
AUTHOR
First name, surname
Ihor Blavatskyj 1, Oksana Blavatska2, Martyn-Zenovii
Lesnyak2, Bohdan Salamakha2, Mikhailo Kropyvnytskyi1
COMPANY/ORGANIZATION
1
Name and address
NAME OF PROJECT
National University Lviv Polytechnic
Danylo Galytskyj Lviv National Medical University
General health statud tracker concept for
outpatient
monitoring
2
ABSTRACT
According to the WHO statistics, in 2012: 1 140 304 patients have died from hypertensive heart
disease, 6 669 383 patients − from strokes, 7 352 705 – from ischaemic heart disease, 1 496
806 – from diabetes mellitus. These diseases are the leading causes of mortality around the
world, and are estimated to cause higher mortality rates every year. They are encountered by
general practitioners on a daily basis and usually require stable daily monitoring, which cannot
always be fully accomplished in outpatients. However, gathering data on the daily varieties of
certain parameters (blood pressure, blood glucose level, ECG findings, etc.) could be a very
powerful tool in the work of a general practitioner. Such 24-hour monitoring would help
physycians to develop a higher-quality diagnostic and therapeutic tactic for each individual
patient.
The general concept is to create a device that would monitor and certain health parameters of
a patient, and send that data to the general practitioner’s tablet device, using wireless networks
(Wi-Fi, 3G, 4G, etc.). Such parameters should include: pulse rate, blood pressure, blood
saturation, blood glucose level (transcutaneously) and an ECG in the standart leads. It should
also include an alarm feature: in case of detecting an abnormal level of any parameter, the
physician would recieve a notification on his tablet device. This way, the doctors stays fully
informed on the health status of his patients and is able to immediately react in case of any
health-related emergency.
KEY WORDS
health status
CONTACT WITH AUTHOR
outpatient monitoring
Phone: +380503839807
E-mail: [email protected]
24
tracker concept
AUTHOR
First name, surname
Yaryna Grynkiv, Oksana Blavatska, Maryana Matviychuk
COMPANY/ORGANIZATION
Name and address
NAME OF PROJECT
Danylo Galytskyj Lviv National Medical University
Computer medication passports of patients with
epilepsy in specialized pharmacy
ABSTRACT
The aim of our study was to simulate the system implementation of medication passports (MP)
in the case of specialized pharmacy with extempore drug manufacturing services for patients
with epilepsy and their families, to prove that a specialized pharmacy with a sufficiently stable
patient population is the best model object performing the MP including computer.
The effectiveness of MP implementation is to enable the study of consumption (including
personalized) products by specialized pharmacy patients to determine the need for drugs,
primarily specific action, providing the ability to monitor the volume of funding when it deals
with reimbursed services.
Submitted in MP information about patients, drugs and doctors who prescribe medicines allows
to analyze prescriptions, appointments of individual doctors or healthcare departments
(appropriate from a financial point of view, as it enables to correctly handle inventory
pharmacies and promptly order the necessary drugs for individual patients).
This monitoring can be carried out at any time during the conduct of the MP computer. With the
MP we received information about 187 patients with epilepsy who used antiepileptic drugs of 8
INN and 40 brand names.
This program enables personalized monitoring of antiepileptic drugs, optimize their supplies at
pharmacy and individualize pharmacotherapy for definite patients, allows appropriate dosage
and to avoid incompatibility while presence of comorbidities (especially depression and
migraine).
KEY WORDS
medication passport
CONTACT WITH AUTHOR
personalized monitoring
Phone: +380503152701
E-mail: [email protected]
25
Individualized
pharmacotherapy
Notes
26