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Prof. Wojciech Wolański
Department of Biomechatronics, Faculty of Biomedical Engineering, Silesian University of Technol ogy (SUT), Akademicka 2A, 44-100 Gliwice, Poland

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0 Biomechanics
0 Biomedical Engineering
0 Mechanics
0 biomechatronics
0 Automation and Robotics

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Journal article
Published: 24 August 2021 in Materials
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This work aimed to assess the impact of acellularization and sterilization methods on the mechanical properties of biocomposites used as a skin substitute. On the basis of the statistical analysis, it was ascertained that the values of the Young modulus for the samples before the sterilization process—only in the cases of substances such as: trypsin, 15% glycerol and dispase—changed in a statistically significant way. In the case of dispase, the Young modulus value before the sterilization process amounted to 66.6 MPa, for trypsin this value equalled 33.9 MPa, whereas for 15% glycerol it was 11 MPa. In the case of samples after the completion of the sterilization process, the analysis did not show any statistically significant differences between the obtained results of Young’s modulus depending on the respective reagents applied. It was confirmed that different methods of acellularization and the process of sterilization effect the alteration of mechanical properties of allogeneic skins. In the case of the decellularization method using SDS (Sodium Dodecyl Sulfate), liquid nitrogen and 85% glycerol the highest values of strain were observed. In the authors’ opinion, it is the above-mentioned methods that should be recommended in the process of preparation of skin substitutes.

ACS Style

Bożena Gzik-Zroska; Kamil Joszko; Wojciech Wolański; Sławomir Suchoń; Michał Burkacki; Marek Ples; Jerzy Malachowski; Michał Tomaszewski; Arkadiusz Szarek; Grzegorz Stradomski; Diana Kitala; Mohsen Akbari; Marek Gzik. Assessment of the Impact of Decellularization Methods on Mechanical Properties of Biocomposites Used as Skin Substitute. Materials 2021, 14, 4785 .

AMA Style

Bożena Gzik-Zroska, Kamil Joszko, Wojciech Wolański, Sławomir Suchoń, Michał Burkacki, Marek Ples, Jerzy Malachowski, Michał Tomaszewski, Arkadiusz Szarek, Grzegorz Stradomski, Diana Kitala, Mohsen Akbari, Marek Gzik. Assessment of the Impact of Decellularization Methods on Mechanical Properties of Biocomposites Used as Skin Substitute. Materials. 2021; 14 (17):4785.

Chicago/Turabian Style

Bożena Gzik-Zroska; Kamil Joszko; Wojciech Wolański; Sławomir Suchoń; Michał Burkacki; Marek Ples; Jerzy Malachowski; Michał Tomaszewski; Arkadiusz Szarek; Grzegorz Stradomski; Diana Kitala; Mohsen Akbari; Marek Gzik. 2021. "Assessment of the Impact of Decellularization Methods on Mechanical Properties of Biocomposites Used as Skin Substitute." Materials 14, no. 17: 4785.

Journal article
Published: 21 May 2021 in Materials
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As part of the experiments herein, the mechanical properties of specimens made of poly-ether-ether-ketone (PEEK) material using 3D printing technology were determined. Two populations of specimens were investigated, the first of which contained an amorphous structure, while the other held a crystal structure. The studies also investigated the influence of the print directionality on the mechanical properties obtained. Static tensile, three-point bending, and impact tests were carried out. The results for the effect of the structure type on the tensile properties showed that the modulus of elasticity was approximately 20% higher for the crystal than for the amorphous PEEK form. The Poisson’s ratios were similar, but the ratio was slightly higher for the amorphous samples than the crystalline ones. Furthermore, the studies included a chemical PEEK modification to increase the hydrophilicity. For this purpose, nitrite and hydroxyl groups were introduced into the chain by chemical reactions. The results demonstrate that the modified PEEK specimens had worse thermoplastic properties than the unmodified specimens.

ACS Style

Maciej Mrówka; Tomasz Machoczek; Paweł Jureczko; Kamil Joszko; Marek Gzik; Wojciech Wolański; Krzysztof Wilk. Mechanical, Chemical, and Processing Properties of Specimens Manufactured from Poly-Ether-Ether-Ketone (PEEK) Using 3D Printing. Materials 2021, 14, 2717 .

AMA Style

Maciej Mrówka, Tomasz Machoczek, Paweł Jureczko, Kamil Joszko, Marek Gzik, Wojciech Wolański, Krzysztof Wilk. Mechanical, Chemical, and Processing Properties of Specimens Manufactured from Poly-Ether-Ether-Ketone (PEEK) Using 3D Printing. Materials. 2021; 14 (11):2717.

Chicago/Turabian Style

Maciej Mrówka; Tomasz Machoczek; Paweł Jureczko; Kamil Joszko; Marek Gzik; Wojciech Wolański; Krzysztof Wilk. 2021. "Mechanical, Chemical, and Processing Properties of Specimens Manufactured from Poly-Ether-Ether-Ketone (PEEK) Using 3D Printing." Materials 14, no. 11: 2717.

Original article
Published: 08 August 2020 in Archives of Civil and Mechanical Engineering
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Road traffic accidents involving coaches do not happen very often, but they are very dangerous because they affect a large number of passengers. Coaches (or intercity buses) are not equipped with safety belt harnesses. Valid regulations do not impose any obligation on coach manufacturers to provide intercity buses with either two- or three-point safety belts. This fact may result from the unawareness of risks and injuries that might befall the passengers with no safety belts during accidents. That is the reason why this work aims to compare the aftermath of coach accidents with no safety belts and the ones with safety belts. A detailed aim of this research is to analyse the results of dynamic loads during a frontal impact exerted on coach passengers travelling with and without (two- and three-point) safety belts. This objective was achieved by performing experimental studies and modelling which focused on the process of dynamic load transfer on the human body during a traffic accident. The research was conducted parallel on an adult and a child. The equivalent of a 50th percentile male was a hybrid III dummy (M50), whereas a child at the age of about 10 was represented by a P10 dummy. A numerical model was generated and verified in experimental testing in the scope of kinematics. Also, the comparison of the recorded courses of forces, acceleration, and moments was conducted. The results obtained from the tests were analyzed regarding the injury criteria for head, neck, and thorax. It was observed that both for the two-point safety system and the lack of safety belts, there were high values of acceleration recorded in the centre of gravity of the head. On the basis of the investigations conducted, it was ascertained that only a three-point safety belt system ensures the satisfaction of all injury criteria within admissible standards both in the case of criteria defined in the rules no. 80 and the rules no. 94 determined by the United Nations Economic Commission for Europe. It is the three-point safety belt system which should be obligatory in all intercity buses.

ACS Style

Krzysztof Jamroziak; Kamil Joszko; Wojciech Wolanski; Marek Gzik; Michal Burkacki; Slawomir Suchon; Arkadiusz Szarek; Karol Zielonka. Experimental and modelling research on coach passengers’ safety in frontal impacts. Archives of Civil and Mechanical Engineering 2020, 20, 1 -13.

AMA Style

Krzysztof Jamroziak, Kamil Joszko, Wojciech Wolanski, Marek Gzik, Michal Burkacki, Slawomir Suchon, Arkadiusz Szarek, Karol Zielonka. Experimental and modelling research on coach passengers’ safety in frontal impacts. Archives of Civil and Mechanical Engineering. 2020; 20 (3):1-13.

Chicago/Turabian Style

Krzysztof Jamroziak; Kamil Joszko; Wojciech Wolanski; Marek Gzik; Michal Burkacki; Slawomir Suchon; Arkadiusz Szarek; Karol Zielonka. 2020. "Experimental and modelling research on coach passengers’ safety in frontal impacts." Archives of Civil and Mechanical Engineering 20, no. 3: 1-13.

Journal article
Published: 12 June 2020 in Materials
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The article assesses the strength and structural parameters of load-bearing layers of metal biobearings made of CoCrMo alloy. The research material consisted of unicompartmental knee joint endoprostheses used in the human body, removed due to excessive wear. No patient participated in the examinations. The endoprostheses used as research material underwent the liquidation procedures in the hospital, which has all necessary permissions and certifications to perform endoprosthetic procedures. Endoprostheses selected for the examinations had been used for 6 to 12 years at similar load conditions as declared by the patients, i.e., body weight of F = 835 N, declared activity expressed as the number of load cycles up to 100 thousand/year, and no artificial joint infections. To assess the homogeneity of the research material, the analysis of chemical composition using a Joel scanning electron microscope with EDS (Energy-dispersive X-ray spectroscopy) was made to exclude endoprostheses with various alloying additives. Microscopic examinations were performed using the Phenom XL microscope, while the wear surface was examined using a Keyence VHX-900F microscope. Several experimental tests were also carried out on load-bearing surfaces to assess changes in strength parameters of the base material after a known life cycle and load conditions. Material hardness using the Vickers method, yield point, critical value of stress intensity coefficient, and the coefficient of friction µ were evaluated. The examinations allowed for the systematization of wear in the knee and femoral components of unicompartmental hip endoprostheses. The statistical evaluation of the number and costs of hip joint replacement surgeries in Poland was also made.

ACS Style

Arkadiusz Szarek; Grzegorz Stradomski; Justyna Łukomska-Szarek; Dariusz Rydz; Wojciech Wolański; Kamil Joszko. Wear Morphology on the Surfaces of CoCrMo Unicompartmental Knee Joint Endoprostheses as Elements of Metal–Metal Friction Nodes. Materials 2020, 13, 1 .

AMA Style

Arkadiusz Szarek, Grzegorz Stradomski, Justyna Łukomska-Szarek, Dariusz Rydz, Wojciech Wolański, Kamil Joszko. Wear Morphology on the Surfaces of CoCrMo Unicompartmental Knee Joint Endoprostheses as Elements of Metal–Metal Friction Nodes. Materials. 2020; 13 (12):1.

Chicago/Turabian Style

Arkadiusz Szarek; Grzegorz Stradomski; Justyna Łukomska-Szarek; Dariusz Rydz; Wojciech Wolański; Kamil Joszko. 2020. "Wear Morphology on the Surfaces of CoCrMo Unicompartmental Knee Joint Endoprostheses as Elements of Metal–Metal Friction Nodes." Materials 13, no. 12: 1.

Conference paper
Published: 28 September 2019 in Deformation Models
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ACS Style

Wojciech Wolański; Edyta Kawlewska; Dawid Larysz; Marek Gzik; Joanna Gorwa; Robert Michnik. Prediction of the Child’s Head Growth in the First Year of Life. Deformation Models 2019, 267 -275.

AMA Style

Wojciech Wolański, Edyta Kawlewska, Dawid Larysz, Marek Gzik, Joanna Gorwa, Robert Michnik. Prediction of the Child’s Head Growth in the First Year of Life. Deformation Models. 2019; ():267-275.

Chicago/Turabian Style

Wojciech Wolański; Edyta Kawlewska; Dawid Larysz; Marek Gzik; Joanna Gorwa; Robert Michnik. 2019. "Prediction of the Child’s Head Growth in the First Year of Life." Deformation Models , no. : 267-275.

Conference paper
Published: 15 August 2019 in Embedded Systems and Artificial Intelligence
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ACS Style

Marta Sobkowiak; Wojciech Wolański; Mikołaj Zimny; Marek Gzik; Wojciech Kaspera. Analysis of an Impact of Hemodynamic Parameters in Relation to Variable Morphometric Features of the Middle Cerebral Artery (MCA). Embedded Systems and Artificial Intelligence 2019, 200 -209.

AMA Style

Marta Sobkowiak, Wojciech Wolański, Mikołaj Zimny, Marek Gzik, Wojciech Kaspera. Analysis of an Impact of Hemodynamic Parameters in Relation to Variable Morphometric Features of the Middle Cerebral Artery (MCA). Embedded Systems and Artificial Intelligence. 2019; ():200-209.

Chicago/Turabian Style

Marta Sobkowiak; Wojciech Wolański; Mikołaj Zimny; Marek Gzik; Wojciech Kaspera. 2019. "Analysis of an Impact of Hemodynamic Parameters in Relation to Variable Morphometric Features of the Middle Cerebral Artery (MCA)." Embedded Systems and Artificial Intelligence , no. : 200-209.

Conference paper
Published: 04 March 2019 in AIP Conference Proceedings
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The aim of studies presented in this paper is numerical analysis IED explosion impact on injuries of soldier’s head in a wheeled armored personnel carrier. The most dangerous scenarios for head injury have been selected for detailed analysis using FEM. The author’s model of the human head allowed the analysis of dynamic effects on individual head structures. The results of the simulations made it possible to assess the parameters determining head injury of the soldier during the IED explosion which will enable the development of guidelines to improve their safety. The developed model allows to determine the parameter of stress, strain and pressure acting on the human head. The results of these studies can be used to improve the construction of military helmets to minimize the possibility of head injury. The presented research was carried out as part of the NCBiR grant DOBR-BIO4/022/13149/2013 of 20/12/2013.

ACS Style

Michał Burkacki; Wojciech Wolański; Sławomir Suchoń; Bożena Gzik-Zroska; Kamil Joszko; Marek Gzik. Modeling of human head injuries in an armored vehicle. AIP Conference Proceedings 2019, 2078, 020038 .

AMA Style

Michał Burkacki, Wojciech Wolański, Sławomir Suchoń, Bożena Gzik-Zroska, Kamil Joszko, Marek Gzik. Modeling of human head injuries in an armored vehicle. AIP Conference Proceedings. 2019; 2078 (1):020038.

Chicago/Turabian Style

Michał Burkacki; Wojciech Wolański; Sławomir Suchoń; Bożena Gzik-Zroska; Kamil Joszko; Marek Gzik. 2019. "Modeling of human head injuries in an armored vehicle." AIP Conference Proceedings 2078, no. 1: 020038.

Journal article
Published: 01 March 2019 in Medical Problems of Performing Artists
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AIMS: To compare the differences in bone mineral density (BMD) at loaded and non-loaded skeletal sites in professional ballet dancers. We hypothesized that in both male and female elite ballet dancers, a significant difference in BMD will be observed between impact and non-impact sites. METHODS: 44 elite ballet dancers, 22 men (age 26.4±5.9 yrs) and 22 women (age 24.9±5.3 yrs), were examined. BMD measurements were performed using dual-energy x-ray absorptiometry at three skeletal sites—forearm (FA), lumbar spine (LS), and femoral neck (FN)—and analyzed using t-tests, ANOVA, and linear regression models. Information about career duration, training volume, health habits, and menstrual disorders (women) was collected. RESULTS: Z-scores for LS and FN were significantly higher in men than in women. However, Z-scores for FA were similar in men and women and fell below the expected range for age (<–2.0), and they were significantly lower than those for LS and FN. With longer career duration, a trend was observed towards lower Z-scores for FN in men and towards higher Z-scores for FA in women. CONCLUSION: In ballet dancers, FA mineralization is extremely low compared to loaded skeletal sites. Male dancers may have lowered forearm BMD despite the absence of risk factors present in female dancers (menstrual disorders). Professional ballet dancers may be at risk of local osteopenia due to the “local non-impact” characteristics of ballet dance, and use of the 33% distal radius region for the accurate assessment of bone mineral status should be investigated further in this population.

ACS Style

Joanna Gorwa; Jacek Zieliński; Wojciech Wolański; Robert Michnik; Dawid Larysz; Lechosław B Dworak; Krzysztof Kusy. Decreased Bone Mineral Density in Forearm vs Loaded Skeletal Sites in Professional Ballet Dancers. Medical Problems of Performing Artists 2019, 34, 25 -32.

AMA Style

Joanna Gorwa, Jacek Zieliński, Wojciech Wolański, Robert Michnik, Dawid Larysz, Lechosław B Dworak, Krzysztof Kusy. Decreased Bone Mineral Density in Forearm vs Loaded Skeletal Sites in Professional Ballet Dancers. Medical Problems of Performing Artists. 2019; 34 (1):25-32.

Chicago/Turabian Style

Joanna Gorwa; Jacek Zieliński; Wojciech Wolański; Robert Michnik; Dawid Larysz; Lechosław B Dworak; Krzysztof Kusy. 2019. "Decreased Bone Mineral Density in Forearm vs Loaded Skeletal Sites in Professional Ballet Dancers." Medical Problems of Performing Artists 34, no. 1: 25-32.

Evaluation study
Published: 01 January 2019
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ACS Style

Kamil Joszko; Bożena Gzik-Zroska; Edyta Kawlewska; Agnieszka Klama-Baryła; Sławomir Suchoń; Michał Burkacki; Wojciech Wolański. Evaluation of the impact of decellularization and sterilization on tensile strength transgenic porcinedermal dressings. 2019, 21, 87 -97.

AMA Style

Kamil Joszko, Bożena Gzik-Zroska, Edyta Kawlewska, Agnieszka Klama-Baryła, Sławomir Suchoń, Michał Burkacki, Wojciech Wolański. Evaluation of the impact of decellularization and sterilization on tensile strength transgenic porcinedermal dressings. . 2019; 21 (3):87-97.

Chicago/Turabian Style

Kamil Joszko; Bożena Gzik-Zroska; Edyta Kawlewska; Agnieszka Klama-Baryła; Sławomir Suchoń; Michał Burkacki; Wojciech Wolański. 2019. "Evaluation of the impact of decellularization and sterilization on tensile strength transgenic porcinedermal dressings." 21, no. 3: 87-97.

Conference paper
Published: 26 July 2018 in Advances in Intelligent Systems and Computing
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Nordic Walking has become a very popular physical activity. The technique is relatively simple and Nordic Walking poles are cheap and accessible. However, it should be noted that Nordic Walking generates additional loads for upper limb joints in the form of mechanical vibrations, which may not be without effect on exercisers’ health. The aim of this paper is to address the following questions: Does Nordic Walking cause harmful mechanical vibrations? Does the use of poles with amortization reduce the level of vibration? May the mechanical vibration during this exercise be a contraindication to practise Nordic Walking? To answer these questions, the authors used a vibration measurement device, which allowed the researchers to measure vibration according to norm EN ISO 5349 during gait with Nordic Walking poles. Data collected for different types of poles were compared to the regulation of the Polish Minister of Labour and Social Policy 2002.

ACS Style

Wojciech Wolański; Michał Burkacki; Sławomir Suchoń; Julia Gruszka; Marek Gzik; Krzysztof Gieremek; Joanna Gorwa. Does Vibration Affect Upper Limb During Nordic Walking? Advances in Intelligent Systems and Computing 2018, 276 -284.

AMA Style

Wojciech Wolański, Michał Burkacki, Sławomir Suchoń, Julia Gruszka, Marek Gzik, Krzysztof Gieremek, Joanna Gorwa. Does Vibration Affect Upper Limb During Nordic Walking? Advances in Intelligent Systems and Computing. 2018; ():276-284.

Chicago/Turabian Style

Wojciech Wolański; Michał Burkacki; Sławomir Suchoń; Julia Gruszka; Marek Gzik; Krzysztof Gieremek; Joanna Gorwa. 2018. "Does Vibration Affect Upper Limb During Nordic Walking?" Advances in Intelligent Systems and Computing , no. : 276-284.

Journal article
Published: 01 February 2018 in Journal of Applied Biomedicine
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ACS Style

Kamil Joszko; Marek Gzik; Wojciech Wolański; Bożena Gzik-Zroska; Edyta Kawlewska. Biomechanical evaluation of human lumbar spine in spondylolisthesis. Journal of Applied Biomedicine 2018, 16, 51 -58.

AMA Style

Kamil Joszko, Marek Gzik, Wojciech Wolański, Bożena Gzik-Zroska, Edyta Kawlewska. Biomechanical evaluation of human lumbar spine in spondylolisthesis. Journal of Applied Biomedicine. 2018; 16 (1):51-58.

Chicago/Turabian Style

Kamil Joszko; Marek Gzik; Wojciech Wolański; Bożena Gzik-Zroska; Edyta Kawlewska. 2018. "Biomechanical evaluation of human lumbar spine in spondylolisthesis." Journal of Applied Biomedicine 16, no. 1: 51-58.

Conference paper
Published: 24 October 2017 in Advances in Intelligent Systems and Computing
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The main purpose of this work was the analysis of the impact of mechanical properties of blood vessels on the alteration of hemodynamic parameters of blood. Within the framework of this research strength tests of blood vessels were conducted, which aimed to determine mechanical properties by means of a static tensile test and a system of Digital Image Correlation (mDIC). The tests were performed using static strength testing machine MTS Insight 2. Subsequently, on the basis of computer tomography (CT) images, two numerical models of blood vessels were formulated in the Ansys CFX software programme. The first model does not take into consideration the changes of the artery geometry, while in the second model the vessel walls were modelled as deformable elements having preset mechanical properties. The developed numerical models enabled the assessment of the hemodynamic parameters as well as the state of stress and deformation of the walls during the blood flow through the vessel.

ACS Style

Wojciech Wolański; Bożena Gzik-Zroska; Kamil Joszko; Edyta Kawlewska; Marta Sobkowiak-Pilorz; Marek Gzik; Wojciech Kaspera. Impact of Vessel Mechanical Properties on Hemodynamic Parameters of Blood Flow. Advances in Intelligent Systems and Computing 2017, 271 -278.

AMA Style

Wojciech Wolański, Bożena Gzik-Zroska, Kamil Joszko, Edyta Kawlewska, Marta Sobkowiak-Pilorz, Marek Gzik, Wojciech Kaspera. Impact of Vessel Mechanical Properties on Hemodynamic Parameters of Blood Flow. Advances in Intelligent Systems and Computing. 2017; ():271-278.

Chicago/Turabian Style

Wojciech Wolański; Bożena Gzik-Zroska; Kamil Joszko; Edyta Kawlewska; Marta Sobkowiak-Pilorz; Marek Gzik; Wojciech Kaspera. 2017. "Impact of Vessel Mechanical Properties on Hemodynamic Parameters of Blood Flow." Advances in Intelligent Systems and Computing , no. : 271-278.

Conference paper
Published: 20 August 2017 in Advances in Intelligent Systems and Computing
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Numerical modeling of an IED explosion under an armored vehicle is one of the primary methods of the evaluation of the vehicle crew safety. In the presented paper the authors use numerical models to assess the influence of acceleration pulse on the soldier’s body. This work focuses on the ergonomic aspects of the crew compartment. Simulations show the differences in injury levels depending on various factors e.g. the location of an explosion which changes the direction of load. The simulations results include the injury criteria and kinematics of the soldier’s body. The outcomes enabled the determination of factors and elements of the compartment which can be dangerous for soldiers.

ACS Style

Marek Gzik; Wojciech Wolański; Bożena Gzik-Zroska; Kamil Joszko; Michał Burkacki; Sławomir Suchoń. Analysis of Various Factors Impact on Safety of Armored Vehicle Crew During an IED Explosion. Advances in Intelligent Systems and Computing 2017, 647, 294 -303.

AMA Style

Marek Gzik, Wojciech Wolański, Bożena Gzik-Zroska, Kamil Joszko, Michał Burkacki, Sławomir Suchoń. Analysis of Various Factors Impact on Safety of Armored Vehicle Crew During an IED Explosion. Advances in Intelligent Systems and Computing. 2017; 647 ():294-303.

Chicago/Turabian Style

Marek Gzik; Wojciech Wolański; Bożena Gzik-Zroska; Kamil Joszko; Michał Burkacki; Sławomir Suchoń. 2017. "Analysis of Various Factors Impact on Safety of Armored Vehicle Crew During an IED Explosion." Advances in Intelligent Systems and Computing 647, no. : 294-303.

Book chapter
Published: 04 October 2016 in Advances in Intelligent Systems and Computing
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The main objective of the work was to prepare the analysis of blood flow through the arteries taking into account the mechanical properties of the vessel wall. The mechanical properties of the specimens were determined using a testing machine MTS Insight 2, and digital image correlation (DIC). The developed numerical model allowed the assessment of the state of stress and deformation of the walls while the blood flow through the physiologically correct aorta.

ACS Style

Wojciech Wolański; Bożena Gzik-Zroska; Kamil Joszko; Marek Gzik; Damian Sołtan. Numerical Analysis of Blood Flow Through Artery with Elastic Wall of a Vessel. Advances in Intelligent Systems and Computing 2016, 193 -200.

AMA Style

Wojciech Wolański, Bożena Gzik-Zroska, Kamil Joszko, Marek Gzik, Damian Sołtan. Numerical Analysis of Blood Flow Through Artery with Elastic Wall of a Vessel. Advances in Intelligent Systems and Computing. 2016; ():193-200.

Chicago/Turabian Style

Wojciech Wolański; Bożena Gzik-Zroska; Kamil Joszko; Marek Gzik; Damian Sołtan. 2016. "Numerical Analysis of Blood Flow Through Artery with Elastic Wall of a Vessel." Advances in Intelligent Systems and Computing , no. : 193-200.

Book chapter
Published: 04 October 2016 in Advances in Intelligent Systems and Computing
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This paper presents a morphological analysis of the skull shape in infants under one year of age. Three-dimensional measurements were performed on models generated from images in Mimics software. Subsequently, a multivariate statistical analysis of the measured dimensions was performed to determine key indicators of the skull shape. Eventually it was developed the norms of skull indices for children up to one year of age. Regular values of these indices were compared with abnormal values measured in patients with isolated craniosynostosis. With the use of these indices it is possible to perform a quantitative evaluation of head deformity.

ACS Style

Edyta Kawlewska; Wojciech Wolański; Dawid Larysz; Bożena Gzik-Zroska; Kamil Joszko; Marek Gzik; Katarzyna Gruszczynska. Statistical Analysis of Cranial Measurements - Determination of Indices for Assessing Skull Shape in Patients with Isolated Craniosynostosis. Advances in Intelligent Systems and Computing 2016, 132 -144.

AMA Style

Edyta Kawlewska, Wojciech Wolański, Dawid Larysz, Bożena Gzik-Zroska, Kamil Joszko, Marek Gzik, Katarzyna Gruszczynska. Statistical Analysis of Cranial Measurements - Determination of Indices for Assessing Skull Shape in Patients with Isolated Craniosynostosis. Advances in Intelligent Systems and Computing. 2016; ():132-144.

Chicago/Turabian Style

Edyta Kawlewska; Wojciech Wolański; Dawid Larysz; Bożena Gzik-Zroska; Kamil Joszko; Marek Gzik; Katarzyna Gruszczynska. 2016. "Statistical Analysis of Cranial Measurements - Determination of Indices for Assessing Skull Shape in Patients with Isolated Craniosynostosis." Advances in Intelligent Systems and Computing , no. : 132-144.

Book chapter
Published: 04 October 2016 in Advances in Intelligent Systems and Computing
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Safety systems in rally car are quite different than systems in passenger car. Differences arise from various factors including usage specifics and vehicles construction. In this paper authors presents comparison of conventional and rally safety systems. The basis parameters for evaluation were injury criteria determined for driver during frontal crash. For research authors used models developed in Madymo software. Results allowed to identify differences between common car and rally safety systems.

ACS Style

Kamil Joszko; Wojciech Wolański; Michał Burkacki; Sławomir Suchoń; Marek Gzik. Comparison of Rally Car and Passenger Car Safety Systems. Advances in Intelligent Systems and Computing 2016, 185 -192.

AMA Style

Kamil Joszko, Wojciech Wolański, Michał Burkacki, Sławomir Suchoń, Marek Gzik. Comparison of Rally Car and Passenger Car Safety Systems. Advances in Intelligent Systems and Computing. 2016; ():185-192.

Chicago/Turabian Style

Kamil Joszko; Wojciech Wolański; Michał Burkacki; Sławomir Suchoń; Marek Gzik. 2016. "Comparison of Rally Car and Passenger Car Safety Systems." Advances in Intelligent Systems and Computing , no. : 185-192.

Conference paper
Published: 26 May 2016 in Advances in Intelligent Systems and Computing
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ACS Style

Marek Gzik; Wojciech Wolański; Bożena Gzik-Zroska; Kamil Joszko; Michał Burkacki; Sławomir Suchoń. Risk Factors Influencing Lower Limbs Injuries During IED Blast. Advances in Intelligent Systems and Computing 2016, 299 -305.

AMA Style

Marek Gzik, Wojciech Wolański, Bożena Gzik-Zroska, Kamil Joszko, Michał Burkacki, Sławomir Suchoń. Risk Factors Influencing Lower Limbs Injuries During IED Blast. Advances in Intelligent Systems and Computing. 2016; ():299-305.

Chicago/Turabian Style

Marek Gzik; Wojciech Wolański; Bożena Gzik-Zroska; Kamil Joszko; Michał Burkacki; Sławomir Suchoń. 2016. "Risk Factors Influencing Lower Limbs Injuries During IED Blast." Advances in Intelligent Systems and Computing , no. : 299-305.

Conference paper
Published: 26 May 2016 in Advances in Intelligent Systems and Computing
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ACS Style

Bożena Gzik-Zroska; Kamil Joszko; Wojciech Wolański; Marek Gzik. Development of New Testing Method of Mechanical Properties of Porcine Coronary Arteries. Advances in Intelligent Systems and Computing 2016, 289 -297.

AMA Style

Bożena Gzik-Zroska, Kamil Joszko, Wojciech Wolański, Marek Gzik. Development of New Testing Method of Mechanical Properties of Porcine Coronary Arteries. Advances in Intelligent Systems and Computing. 2016; ():289-297.

Chicago/Turabian Style

Bożena Gzik-Zroska; Kamil Joszko; Wojciech Wolański; Marek Gzik. 2016. "Development of New Testing Method of Mechanical Properties of Porcine Coronary Arteries." Advances in Intelligent Systems and Computing , no. : 289-297.

Journal article
Published: 01 January 2016 in Acta of Bioengineering and Biomechanics
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ACS Style

Kamil Joszko; Wojciech Wolański; Michał Burkacki; Sławomir Suchoń; Karol Zielonka; Andrzej Muszyński; Marek Gzik. Biomechanical analysis of injuries of rally driver with head supporting device. Acta of Bioengineering and Biomechanics 2016, 18, 159 -169.

AMA Style

Kamil Joszko, Wojciech Wolański, Michał Burkacki, Sławomir Suchoń, Karol Zielonka, Andrzej Muszyński, Marek Gzik. Biomechanical analysis of injuries of rally driver with head supporting device. Acta of Bioengineering and Biomechanics. 2016; 18 (4):159-169.

Chicago/Turabian Style

Kamil Joszko; Wojciech Wolański; Michał Burkacki; Sławomir Suchoń; Karol Zielonka; Andrzej Muszyński; Marek Gzik. 2016. "Biomechanical analysis of injuries of rally driver with head supporting device." Acta of Bioengineering and Biomechanics 18, no. 4: 159-169.

Book chapter
Published: 08 April 2015 in Deformation Models
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This chapter describes a method of engineering support of preoperative planning of surgical procedures with the use of engineering tools, such as state-of-the-art software for medical image processing, or a finite element method. The procedure of pre-operative planning consists in matching individual cases of incision sites and directions, visualization and selection of areas for resection as well as planning the technique of implant positioning and fixation. Also, the final visualization of the result of the planned medical procedure can be performed. This paper presents procedural propositions in surgery planning in the cases of corrections of the head shape in patients with craniosynostosis, corrections of the chest deformity such as pigeon chest and stabilization of the lumbar spine. 3D models created on the basis of computer tomography (CT) or magnetic resonance imaging (MRI) enabled it to conduct a biomechanical analysis as well as an objective quantitative and qualitative virtual evaluation of the surgical procedure. Preoperative planning support gives the physician an opportunity to prepare for the operation in a better way, which results in the selection of the best possible variant of an operative technique, reduction of time of the surgical procedure and minimization of the risk of intraoperative complications.

ACS Style

Wojciech Wolański; Bożena Gzik-Zroska; Edyta Kawlewska; Marek Gzik; Dawid Larysz; Józef Dzielicki; Adam Rudnik. Preoperative Planning of Surgical Treatment with the Use of 3D Visualization and Finite Element Method. Deformation Models 2015, 139 -163.

AMA Style

Wojciech Wolański, Bożena Gzik-Zroska, Edyta Kawlewska, Marek Gzik, Dawid Larysz, Józef Dzielicki, Adam Rudnik. Preoperative Planning of Surgical Treatment with the Use of 3D Visualization and Finite Element Method. Deformation Models. 2015; ():139-163.

Chicago/Turabian Style

Wojciech Wolański; Bożena Gzik-Zroska; Edyta Kawlewska; Marek Gzik; Dawid Larysz; Józef Dzielicki; Adam Rudnik. 2015. "Preoperative Planning of Surgical Treatment with the Use of 3D Visualization and Finite Element Method." Deformation Models , no. : 139-163.