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People

Prof. Svatava Konvičková

Profile:
Laboratories: The Laboratory for Development of Custom-Made Implantas; The Laboratory for Development of Custom-Made Implantas; Laboratory of Biotribology;
Phone: +420 224 352 511
Fax:
E-mail: svatava.konvickova@fs.cvut.cz
Personal web:
Projects: Research of technical and biological composite materials

Ing. Pavel Růžička, Ph.D.

Profile:

Biomechanics of the human musculoskeletal system and its replacements, computer modelling, application of finite element method, application of Rapid Prototyping technology in the field of biomedical engineering

Laboratories: The Laboratory for Development of Custom-Made Implantas; Rapid Prototyping Laboratory;
Phone: +420 224 352 655
Fax:
E-mail: pavel.ruzicka@fs.cvut.cz
Personal web:
Projects: Research of technical and biological composite materials
Indentor instrument for cartilage stiffness measurement
Mathematical model of a lower extremity focused on a knee joint
Simulation of cyclic loading of total knee replacement where an evaluation of cyclic stress state in tibial plateau is ephasized
Endurance Test of Stemmed Femoral Component of Total Hip Replacement
Long Bone Reconstruction and Periprosthetic Fractures Using the Osteosynthesis Materials and the Operation Procedures - Trauma I
Inovation of French Crutches
Mechanical properties of osteoporotic bones
Optical 3D coordinate measuring machine
Mathematical model of a lower limb featuring an oncology hinge type knee endoprosthesis
Apllication of ceramics and β-Ti alloy for shoulder endoprostheses
Revision Endoprosthesis of Acetabulum - FEM Analyses of the augmented replacement.
The development of intelligent endoprosthesis with automatic early detection of potential failure

doc. Ing. Radek Sedláček, Ph.D.

Profile:

Experimental biomechanics of human musculoskeletal system and its replacements - mechanical testing and research of biomaterials and composites. Development and evaluation of implants. Determination of mechanical properties along the combination of loading tests. Metrology and technical heading of accredited Mechanical Testing Laboratory.

Laboratories: Mechanical Testing Laboratory;
Phone: +420 224 352 653
Fax:
E-mail: radek.sedlacek@fs.cvut.cz
Personal web:
Projects: Indentor instrument for cartilage stiffness measurement
Numerical Analyses and Experimental Testing of Dental Implants
Experimental measurement of the lumbar spine kinematics
Pull out tests of the spinal screws
Influence of mechanical loading on the onset and development of hip joint osteoarthritis
Endurance Test of Stemmed Femoral Component of Total Hip Replacement
Structural computational and experimental analysis of spinal fixators
High Performance Radiolucent Composite Materials Providing High Resistance against Sterilization Decomposition, for use in Medicine
Porous Composite Materiáls with Polyamide Reinforcement and Siloxane Matrix with Nano-Hydroxyapatite as Biomaterials
Long Bone Reconstruction and Periprosthetic Fractures Using the Osteosynthesis Materials and the Operation Procedures - Trauma I
Inovation of French Crutches
Mechanical properties of osteoporotic bones

Hynek Chlup

Profile:

Biomechanics of the cardiovascular system. Preparation and realization experiments

Laboratories: Laboratory of Cardiovascular Biomechanics;
Phone: +420224352690
Fax:
E-mail: hynek.chlup@fs.cvut.cz
Personal web:
Projects: Research of technical and biological composite materials
Mullins effect within cyclic loading of blood vessel walls
Relationship between blood vessel wall architecture and constitutive behavior
Influence of inhomogeneities on the mechanical behavior of blood vessels - bifurcations
Axial dispersion in the cardiovascular system
Simulation of self-excited oscillation and forced oscillation of elastic thin-walled pipes and blood vessels
Stent-artery wall interaction
Biaxial testing machine for soft tissue and elastomer mechanical testing
Laser position sensors micro-epsilon 2200-50/100
Pressure transducers
Constitutive modeling of blood vessels
The use of nonatigen fish collagen in construction of implants and as drug carriers

Prof. Matej Daniel, Ph.D.

Profile:
Laboratories: Laboratory of Applied Computing; Laboratory of Applied Computing;
Phone: +420 224 352 518
Fax:
E-mail: matej.daniel@fs.cvut.cz
Personal web:
Projects: Finite element analysis of an extensible femur prosthesis
Quantitative anatomy of musculoskeletal system - patient-specific musculoskeletal model
Development od new dental implants
Apllication of ceramics and β-Ti alloy for shoulder endoprostheses
Development of innovative biotribological medium for boundary lubrication restoration

Tomáš Goldmann PhD

Profile:

The biomechanics of the human musculoskeletal system and its replacements including dental implants, the structural FEM analysis, the experimental research of hard tissues, the dental biomechanics.

 

Laboratories: Laboratory of Forensics Biomechanics; Laboratory of Applied Computing;
Phone:
Fax:
E-mail: tomas.goldmann@fs.cvut.cz
Personal web:
Projects: Numerical Analyses and Experimental Testing of Dental Implants
Movement Analysis of Human Body During Hippotherapy

doc. Ing. Lukáš Horný Ph.D.

Profile:

Homepage http://users.fs.cvut.cz/~hornyluk/home

Lukáš Horný deals with biomechanics of blood vessels; especially methods of nonlinear continuum mechanics describing a response of heterogeneous, (in)elastic material. He pays special attention to internal structure of blood vessels because the structure and the arrangement crucially affect mechanical response.

Lukáš Horný is Principal co-investigator in the project of applied research TA04010330 "Development of resorbable collagen-calcium phosphate nanolayer with controlled elution of antibiotics for implants survival enhancement" supported by Technology Agency of the Czech Republic.

ResearchGate http://www.researchgate.net/profile/Lukas_Horny/
Google scholar
http://scholar.google.com/citations?user=ZlkwbQ4AAAAJ&hl=cs

Laboratories: Laboratory of Cardiovascular Biomechanics;
Phone: +420 224 359 741
Fax:
E-mail: lukas.horny@fs.cvut.cz
Personal web: Homepage
Projects: Research of technical and biological composite materials
Mullins effect within cyclic loading of blood vessel walls
Relationship between blood vessel wall architecture and constitutive behavior
Influence of inhomogeneities on the mechanical behavior of blood vessels - bifurcations
Simulation of self-excited oscillation and forced oscillation of elastic thin-walled pipes and blood vessels
Stent-artery wall interaction
Biaxial testing machine for soft tissue and elastomer mechanical testing
Biomechanics of aging of elstic arteries
Constitutive modeling of blood vessels
TA04010330 NANOCOLLAGEN

Tomáš Suchý , Ph.D.

Profile:

Education:

2003–2010: CTU in Prague, PhD study (Biomechanics), Optimizing and Evaluating the Biocompatibility of Fiber Composites with CaP Additives
1997–2003: CTU in Prague, Master study (Biomedical and Rehabilitative Engineering), Mechanical Properties of Carbon-Carbon Composite

Scientific Interests:

A study of advanced particulate, fiber reinforced and hybrid composites and composite structures for applications in human bone surgery. Optimization of preparation processes, structure - biocompatibility relations (osseointegration, bio-tolerance, mechanical properties) of the materials studied.

Membership:

  • Czech Society for Biomechanics
  • Czech Composite and Carbon Materials
Laboratories:
Phone: +420 224 352 542
Fax:
E-mail: tomas.suchy@fs.cvut.cz
Personal web:
Projects: Bioinspired Nanocomposite Structures for Bone Tissue Regeneration
High Performance Radiolucent Composite Materials Providing High Resistance against Sterilization Decomposition, for use in Medicine
Porous Composite Materiáls with Polyamide Reinforcement and Siloxane Matrix with Nano-Hydroxyapatite as Biomaterials

Petr Tichý Ph.D.

Profile:

Biomechanics of human musculoskeletal system and its replacements, structural analysis FEM, experimental research of both hard and soft tissues. 

Laboratories: Laboratory of Forensics Biomechanics; Laboratory of Applied Computing;
Phone: +420224352527
Fax:
E-mail: petr.tichy@fs.cvut.cz
Personal web:
Projects: Experimental measurement of the lumbar spine kinematics
Development of artificial disc replacement
Development and Structural Analysis of a Vertebral Body Replacement
High Performance Radiolucent Composite Materials Providing High Resistance against Sterilization Decomposition, for use in Medicine
Porous Composite Materiáls with Polyamide Reinforcement and Siloxane Matrix with Nano-Hydroxyapatite as Biomaterials
An Experimental Assessment of Human Lumbar Vertebras Mobility

Miloslav Vilímek,

Profile:
  • Human skeletal replacements; Implants and instruments for traumatology; Patient specific implants; Its development according to the real bone loading 
  • Experimental biomechanics: EMG, external force and 3D data collection, stress – strain relation of biological materials,
  • Musculotendon dynamics, muscle force calculation
  • Validation of muscle forces calculation, in vivo measurement of tendon force
  • Simulation of motion activities in human musculoskeletal system
  • Motor control of motion activities
  • Soft tissue biomechanics
  • Forensic biomechanics
Laboratories: Laboratory of Applied Computing; Laboratory of Forensics Biomechanics;
Phone: +420 224 352 750
Fax:
E-mail: miloslav.vilimek@fs.cvut.cz
Personal web:
Projects: Long Bone Reconstruction and Periprosthetic Fractures Using the Osteosynthesis Materials and the Operation Procedures - Trauma I
An Experimental Assessment of Human Lumbar Vertebras Mobility
The characteristic of lumbocrural prothesis in cycling
Movement Analysis of Human Body During Hippotherapy
Mathematical model of a lower limb featuring an oncology hinge type knee endoprosthesis

Ing. Lukáš Zach Ph.D.

Profile:

Branches of scientific interest:

Biomechanics of human joints and their total, tumourous endoprostheses, static and dynamic stress analyses by finite element method.

Membership:

  • Czech Society for Biomechanics
Laboratories: Laboratory of Applied Computing;
Phone: +420 224 352 542
Fax:
E-mail: lukas.zach@fs.cvut.cz
Personal web: http://fsh.fsid.cvut.cz/~zachluka/cv/cven.htm
Projects: Mathematical model of a lower extremity focused on a knee joint
Finite element analysis of an extensible femur prosthesis
Development od new dental implants
Mathematical model of a lower limb featuring an oncology hinge type knee endoprosthesis
Apllication of ceramics and β-Ti alloy for shoulder endoprostheses
Revision Endoprosthesis of Acetabulum - FEM Analyses of the augmented replacement.

Josef Šepitka Ph.D.

Profile:

Investigation of micromechanical properties of biomterials using instrumented nanoindentation.

Laboratories: Laboratory of nanoindentation;
Phone: +420 224 352 649
Fax:
E-mail: josef.sepitka@fs.cvut.cz
Personal web:
Projects: Research of technical and biological composite materials
Mechanical properties of osteoporotic bones
Algal cell biophysical properties as markers for environmental stress in aquatic systems
The development of intelligent endoprosthesis with automatic early detection of potential failure
The use of nonatigen fish collagen in construction of implants and as drug carriers
Influence of surface nanotopography on bioactive properties of low modulus titanium alloy
Nitrogen doped titanium materials: A study of temperature-dependent doping in radiation-damaged matrix
Development of innovative biotribological medium for boundary lubrication restoration

Ing. Jakub Kronek Ph.D.

Profile:

1) Biomechanics of the vascular system - The influence of geometrical and material inhomogeneities on the mechanical behavior of blood vessel wall = what is the effect that the vascular system is not a homogeneous, isotropic linearly elastic, straight tube. How does the stress concentration in arterial branching and bifurcations affect atherogenesis.

2) Biotribology of artificial joints. Realization and evaluation of wear tests with both large and small joints.

Laboratories: Laboratory of Cardiovascular Biomechanics; Laboratory of Biotribology; Mechanical Testing Laboratory;
Phone: +420224352690
Fax:
E-mail: jakub.kronek@fs.cvut.cz
Personal web:
Projects: Research of technical and biological composite materials
Relationship between blood vessel wall architecture and constitutive behavior
Influence of inhomogeneities on the mechanical behavior of blood vessels - bifurcations
The corrosive potential as a marker of endoprosthesis failure
Biotribology of joint replacements
Wear of thumb joint replacement
Constitutive modeling of blood vessels

Jana Hornová

Profile:

Hip joint biomechanics, hip joint contact pressure, CT and MR image segmentation.

Laboratories:
Phone: +420224352542
Fax:
E-mail: jana.hornova@fs.cvut.cz
Personal web:
Projects:

Ing. Jitka Řezníčková

Profile:
Laboratories:
Phone: 224352542
Fax:
E-mail: jitka.reznickova@fs.cvut.cz
Personal web:
Projects:

Ing. Vlastimil Králík Ph.D.

Profile:

1)  Biotribology of artificial joints. Analysis of material loss in order to improve the lifetime of the replacements. Reconstruction of the contact surfaces of human joint replacements (knee and hip replacement).


2) Investigation of micromechanical properties of biocompatible materials using nanoindentation


Membership in scientific societies:

  •    Czech Society for Biomechanics

 

Laboratories:
Phone: +420 22435 2533
Fax:
E-mail: vlastimil.kralik@fs.cvut.cz
Personal web:
Projects:

Ing. Adam Kratochvíl

Profile:
Laboratories: Mechanical Testing Laboratory;
Phone:
Fax:
E-mail: adam.kratochvil@fs.cvut.cz
Personal web:
Projects:

Kristýna Kubášová

Profile:
Laboratories: Mechanical Testing Laboratory;
Phone:
Fax:
E-mail: kristyna.kubasova@fs.cvut.cz
Personal web:
Projects: