|
Title
|
Ecology of Water Animals
|
||
|
Code
|
ÚBEV/EVZ1/03
|
Teacher
|
Hudec Igor
|
|
ECTS credits
|
6
|
Hrs/week
|
2/2
|
|
Assessment
|
Examination
|
Semester
|
2
|
|
T/L method
|
Lecture, Practical
|
||
|
Objective
|
To provide
students with knowledge of the ecological characteristics of freshwater
groups and prevalent species of invertebrates.
|
||
|
Content
|
Biology of
the most common representatives and groups of freshwater animals of the Central
Europe temperate region. Mohological adaptations, taxanomical characters,
water communities.
|
||
|
Alternate courses
|
ÚBEV/EVZ1/99
|
||
|
Recommended reading
|
Fryer, G., Murphy, S.: A natural history of the
lakes, tarns and streams of the English Lake District. Freshw. Biol.
Association Cumbria, 1991
Bronsmark, Ch., Hannsson, L. A.: The biology of Lakes
and ponds. Biol. Of Habitats Ser, 1998
|
||
|
Title
|
Selected Topics in Experimental Immunology
|
||
|
Code
|
ÚBEV/VIM1/99
|
Teacher
|
Paulíková Edita
|
|
ECTS credits
|
5
|
Hrs/week
|
2/1
|
|
Assessment
|
Examination
|
Semester
|
2
|
|
T/L method
|
Lecture, Practical
|
||
|
Objective
|
To provide
students with knowledge on control and manipulation of the immune processes.
|
||
|
Content
|
Flow
cytometry. Immunofenotyping of leucocytes in diagnostics. Cryopreservation of
isolated cells and cell lines. Methods of isolation of immunocompetent cells.
Enzymatic immunology.
|
||
|
Prerequisite courses
|
ÚBEV/IMU1/03
|
||
|
Recommended reading
|
Abbas, A., Abul, K.: Cellular and molecular
immunology. Saunders W. B. Comp., 1991
Masseyeff, R. F., Albert, W. H., Staines, N. A.:
Methods of immnological analysis I - III., 1993
|
||
|
Title
|
Experimental Methods in Physiology
|
||
|
Code
|
ÚBEV/EF1/03
|
Teacher
|
Gálik Ján
|
|
ECTS credits
|
5
|
Hrs/week
|
1/2
|
|
Assessment
|
Examination
|
Semester
|
2
|
|
T/L method
|
Lecture, Practical
|
||
|
Objective
|
To present
the basic rules of breeding of laboratoty animals and of the criteria for
correct handling of animals during housing and in the course of the
experiment.
|
||
|
Content
|
The
experimental animal; the laboratory animal; biomodels. Basics of animal
breeding. Biological traits of commonly used laboratory animals. Genetics of
laboratory animals. Microbiological criteria of animal breeding. The
influence of internal and external factors on the health state and reactivity
of animals: genetic determinants, sex, social and behavioral factors. The
influence of physical factors of housing (temperature, humidity, light,
noise, transport). Design of experiments.
|
||
|
Alternate courses
|
ÚBEV/EF1/99
|
||
Recommended elective courses
|
Title
|
Basic Bioinformatics
|
||
|
Code
|
ÚBEV/BI1/03
|
Teacher
|
Saxová Patrícia, Čellárová Eva
|
|
ECTS credits
|
6
|
Hrs/week
|
2/2
|
|
Assessment
|
Examination
|
Semester
|
1
|
|
T/L method
|
Lecture, Practical
|
||
|
Objective
|
To allow
students to use interdisciplinary methods and approaches involving
mathematics and computer science in solving selected problems in molecular
biology, as, for example, the analysis of nucleotide and protein sequences,
genome study, etc.
|
||
|
Content
|
The
introductory lectures in Bioinformatics involve the comparison of nucleotide
and protein sequences, molecular evolution, evolutionary trees, work with
biological databases, use of neuron networks and HMM in Bioinformatics.
Practical experience is provided by student use of concrete bioinformatic
programs accessible on the Internet.
|
||
|
Alternate courses
|
ÚBEV/BI1/01
|
||
|
Recommended reading
|
Grau D. & Li W.-H.: Fundamentals of Molecular
Evolutions, Sinuar Associates, 2000.
Durbin, R., Eddy, S., Krogh, A. & Mitchison, G.:
Biological SequenceAnalysis: Probabilistic Models of Proteins and Nucleic
Acids, CUP, 1999
|
||
CHEMISTRY
Study programme Analytical Chemistry
(Full-time
master)
Code Title
ECTS Credit Hours/week
Assessment Recommended
Year/Semester
Compulsory
courses
|
ÚCHV/DPCO1a/00
|
Diploma Work
|
2
|
-/-
|
Recognition
|
1/1
|
|
ÚCHV/DPCO1b/00
|
Diploma Work
|
6
|
-/-
|
Recognition
|
1/2
|
|
ÚCHV/EMDP/03
|
Experimental Methods
for Master’s Thesis
|
6
|
-/6
|
Assessment
|
2/3
|
|
ÚCHV/DPCO1c/03
|
Diploma Work
|
8
|
-/-
|
Recognition
|
2/3
|
|
ÚCHV/SDP/03
|
Seminar on Diploma Work
|
2
|
-/2
|
Assessment
|
2/3
|
|
ÚCHV/DPCO1d/03
|
Diploma Work
|
30
|
-/-
|
Recognition
|
2/4
|
Compulsory
elective courses
|
ÚCHV/AAS1/03
|
Atomic Spectrochemistry
|
6
|
2/2
|
Examination
|
1/1
|
|
ÚCHV/BACH1/03
|
Bioanalytical Chemistry
|
5
|
2/1
|
Examination
|
1/1
|
|
CHV/KCHR/06
|
Liquid Chromatography
|
5
|
2/1
|
Examination
|
1/1
|
|
ÚCHV/BACH1/03
|
Bioanalytical Chemistry
|
5
|
2/1
|
Examination
|
1/1
|
|
ÚCHV/IAHS/06
|
Identification of Analytes by Mass Spectrometry
|
4
|
2/-
|
Examination
|
1/1
|
|
ÚCHV/ACPE1/03
|
Industrial Ecology
|
5
|
2/1
|
Examination
|
1/1
|
|
ÚCHV/AVZ1/02
|
Analytical Sampling
|
5
|
2/1
|
Examination
|
1/2
|
|
ÚCHV/PC1/06
|
Gas Chromatography
|
5
|
2/1
|
Examination
|
1/2
|
|
ÚCHV/ACM1/06
|
Chemometrics
|
6
|
2/2
|
Examination
|
1/2
|
|
ÚCHV/AOL1/06
|
Analysis of Organic Substances
|
6
|
2/2
|
Examination
|
1/2
|
|
ÚCHV/ANS/05
|
Analytical Sensors
|
5
|
2/1
|
Examination
|
1/2
|
|
ÚCHV/GLP1a/06
|
Quality Management and Good Laboratory Practices
|
5
|
2/1
|
Examination
|
1/2
|
|
ÚCHV/APO1/02
|
Analysis of Psychotropic and Narcotic Substances
|
4
|
2/-
|
Examination
|
2/3
|
|
ÚCHV/AZP1/04
|
Environmental Analytical Chemistry
|
6
|
2/2
|
Examination
|
1/1, 2/3
|
|
ÚCHV/FEM/03
|
Electroanalytical Methods
|
6
|
2/2
|
Examination
|
2/3
|
|
ÚCHV/SVK1/00
|
Student scientific conference
|
4
|
-/-
|
Assessment
|
1/2, 2/4
|
Recommended
elective courses
|
ÚCHV/MMU/03
|
Macromolecular Chemistry
|
4
|
3/-
|
Examination
|
1/1
|
|
ÚCHV/EMST/05
|
Electrophoretic Methods
|
5
|
2/1
|
Examination
|
1/1
|
|
ÚCHV/KOC1/01
|
Quantum Chemistry
|
5
|
3/1
|
Examination
|
1/1
|
|
ÚCHV/VSE1a/04
|
Special Seminar
|
2
|
-/2
|
Assessment
|
1/1
|
|
ÚCHV/JCH1/04
|
Nuclear Chemistry
|
4
|
2/1
|
Examination
|
1/2
|
|
ÚCHV/TA1/03
|
Thermal Analysis
|
5
|
2/1
|
Examination
|
1/2
|
|
ÚCHV/ATV1/04
|
Water Pretreatment
|
6
|
2/2
|
Examination
|
1/2
|
|
ÚCHV/FKC1/03
|
Colloid Chemistry
|
4
|
2/1
|
Examination
|
1/2
|
|
ÚCHV/NMR1/00
|
1D & 2D NMR Spectroscopy
|
6
|
2/3
|
Examination
|
1/2
|
|
ÚCHV/VSE1b/04
|
Special Seminar
|
2
|
-/2
|
Assessment
|
1/2
|
|
ÚCHV/PBACH1/03
|
Practical in Bioanalytical Chemistry
|
3
|
-/3
|
Assessment
|
1/2, 2/4
|
|
ÚCHV/SKACH1/06
|
Forensic and Clinical Analytical Chemistry
|
5
|
2/1
|
Examination
|
1/2, 2/4
|
Course units
Compulsory courses
|
Title
|
Diploma Work
|
||
|
Code
|
ÚCHV/DPCO1a/00
|
Teacher
|
|
|
ECTS credits
|
2
|
Hrs/week
|
-/-
|
|
Assessment
|
Recognition
|
Semester
|
1
|
|
T/L method
|
|
||
|
Objective
|
To allow a
student, under the guidance of supervisor, to learn the problems to be solved
within diploma work, elaborates the plan of his/her experiments and starts
the experimental work.
|
||
|
Content
|
Study of
the recommended literature; literature search in the problems of diploma
work; preparation and starting of experiments.
|
||
|
Recommended reading
|
According to the approved setting of diploma work.
|
||
|
Title
|
Analytical Chemistry III
|
||
|
Code
|
ÚCHV/ANCH2/06
|
Teacher
|
Andruch Vasiľ, Bazeľ Yaroslav
|
|
ECTS credits
|
6
|
Hrs/week
|
2/2
|
|
Assessment
|
Examination
|
Semester
|
1
|
|
T/L method
|
Lecture, Practical
|
||
|
Content
|
Flow
injection analysis. Kinetic analytical methods. Radiochemical analytical
methods. Ultra-Violet, Visible, Infrared, Microwave spectrometry for chemical
analysis. Fourier Transform infrared. Raman spectrometry. Electron
Paramagnetic Resonance. Nuclear Magnetic Resonance. Mass spectrometry.
Secondary Ion Mass Spectrometry. X-ray photoelectron spectrometry.
|
||
|
Recommended reading
|
1. H.H. Willard, L.L. Merritt, Jr., J.A. Dean, F.A.
Settle, Jr.: Instrumental Methods of Analysis, Wadsworth Publ. Co., Belmont
(CA) 1988, ISBN 0-534-08142-8
|
||
|
Title
|
Diploma Work
|
||
|
Code
|
ÚCHV/DPCO1b/00
|
Teacher
|
|
|
ECTS credits
|
6
|
Hrs/week
|
-/-
|
|
Assessment
|
Recognition
|
Semester
|
2
|
|
Objective
|
To have
students perform the experiments required for diploma work.
|
||
|
Content
|
Individual
experimental work of student and study of required literature.
|
||
|
Prerequisite courses
|
ÚCHV/DPCO1a/00
|
||
|
Recommended reading
|
According to the approved setting of diploma work and
literature search.
|
||
|
Title
|
Diploma Work
|
||
|
Code
|
ÚCHV/DPCO1c/03
|
Teacher
|
|
|
ECTS credits
|
8
|
Hrs/week
|
-/-
|
|
Assessment
|
Recognition
|
Semester
|
3
|
|
Objective
|
To have
students perform the experiments required for diploma work and to process
their results.
|
||
|
Content
|
Individual
experimental work of student and continuous processing of the obtained
results.
|
||
|
Prerequisite courses
|
ÚCHV/DPCO1b/00
|
||
|
Recommended reading
|
According to the approved setting of diploma work and
student’s own literature search.
|
||
|
Title
|
Diploma Work
|
||
|
Code
|
ÚCHV/DPCO1d/03
|
Teacher
|
|
|
ECTS credits
|
30
|
Hrs/week
|
-/-
|
|
Assessment
|
Recognition
|
Semester
|
4
|
|
Objective
|
To have
students finish their experiments, process their results, and learn how to
write a thesis.
|
||
|
Content
|
Finishing
the student’s experimental work, processing of the obtained results and
writing the diploma work.
|
||
|
Prerequisite courses
|
ÚCHV/DPCO1c/03
|
||
|
Recommended reading
|
According to the approved setting of diploma work and
student’s own literature search.
|
||
|
Title
|
Seminar on Diploma Work
|
||
|
Code
|
ÚCHV/SDP/03
|
Teacher
|
|
|
ECTS credits
|
2
|
Hrs/week
|
-/2
|
|
Assessment
|
Assessment
|
Semester
|
3
|
|
T/L method
|
Practical
|
||
|
Objective
|
To teach
the student to prepare a presentation of his/her own results, to respond to
criticism, to participate in scientific discussion, and to fulfil formal
requirements of written diploma work.
|
||
|
Content
|
Presentation
of researched information and own experimental results; scientific
discussions and writing of scientific text.
|
||
|
Recommended reading
|
According to the field of diploma work.
|
||
Compulsory elective courses
|
Title
|
Atomic Spectrochemistry
|
||
|
Code
|
ÚCHV/AAS1/03
|
Teacher
|
Bazeľ Yaroslav, Vojteková Viera
|
|
ECTS credits
|
6
|
Hrs/week
|
2/2
|
|
Assessment
|
Examination
|
Semester
|
1
|
|
T/L method
|
Lecture, Practical
|
||
|
Objective
|
To provide
students with theoretical information and practical experience with atomic
absorption and emission methods used in analytical practice (environmental
analysis, material research, clinical and food analysis).
|
||
|
Content
|
Basic and
enhanced information about spectral (optical) methods; history of their
development; practical applications: optical analytical methods, principles,
classification; atomic spectra, creation, analytical use. Modern equipment
for scanning for radiation. Detection of radiation in spectrochemistry.
Historical development; actual trends. Photographical detection and its
particularities. Methodologies for
solution analysis; special methods for the direct transport of the
solid samples in the DCA source. Atomic absorption spectrometry, flame and
electrothermal atomisation. Methods based on the interaction of the RTG
radiation and the sample: advantages, disadvantages and applications of
WDXRF, EDXRF, TXRF.
|
||
|
Alternate courses
|
ÚCHV/AAS1/01
|
||
|
Recommended reading
|
D. A. Skoog, J. J. Leary: Instrumental Analytics. Springer,
Berlin - Heidelberg 1996
B. Welz, M. Sperling: Atomic Absorption
Spectrometry,Wiley-VCH Verlagsgesellschaft mbH, Germany 1998
Douglas A. Skoog, Donald M. West, F. James Holler,
Timothy A. Nieman: Principles of Instrumental Analysis. Wandsworth, 1997
|
||
|
Title
|
Bioanalytical Chemistry
|
||
|
Code
|
ÚCHV/BACH1/03
|
Teacher
|
Reiffová Katarína, Bazeľ Yaroslav
|
|
ECTS credits
|
5
|
Hrs/week
|
2/1
|
|
Assessment
|
Examination
|
Semester
|
1
|
|
T/L method
|
Lecture, Practical
|
||
|
Objective
|
To provide
students theoretical knowledge and practical experience regarding the
application of analytical chemistry and analytical methods to laboratory
medicine.
|
||
|
Content
|
Introduction
to bioanalytical chemistry. Biological sample, classification. Sampling
techniques, transport, sample storing and conservation. Selected methods of
sample pre-treatment for bioanalysis. Conditions for analytical method
selection. Presentation of analytical data evaluation. Optimisation of
analytical procedure. Control and management of quality in a clinical
laboratory. Molecules colouring and their analytical applications. Enzymes in
bioanalysis. Mechanism of enzyme catalysis. Enzyme-like analytes and
analytical reagents. Moderators of enzyme activity. Basic principles of
enzyme analytics. Introduction to immunochemical methods: Precipitation,
nephelometric, turbidimetric and agglutination methods. Immunodiffusional
methods. Radioimmunoanalytic methods (RIA). Nonisotopic methods (EIA, ELISA,
LIA, FIA). Microbiological methods. Analysis of biomolecules: separation
methods selection. Analytical technique of miniaturisation: principle,
microchips, biosensors.
|
||
|
Recommended reading
|
Mikkelsen, S. R., Cortón, E.: Bioanalytical
Chemistry, Wiley, 2004
Wilson, I.: Bioanalytical Separations 4, (Handbook of
Analytical Separations), Elsevier, 2003
Suelter, C. H., Kricka, L. J.: Methods of Biochemical
Analysis, Vol.37, Bioanalytical Instrumentation, Wiley, 1994
Rodriguez-Diaz, R., Wehr, T., Tuck, S.: Analytical
Techniques for Biopharmaceutical Development, Marcell Dekker, 2005
|
||
|
Title
|
Analytical Sampling
|
||
|
Code
|
ÚCHV/AVZ1/02
|
Teacher
|
Oriňák Andrej
|
|
ECTS credits
|
5
|
Hrs/week
|
2/1
|
|
Assessment
|
Examination
|
Semester
|
2
|
|
T/L method
|
Lecture, Practical
|
||
|
Content
|
Analytical
sample; characterisation. Sampling and norms affecting sampling process.
Quantity, number of samples. Sampling techniques. Sampling laboratory
equipment. Sample pre-concentration. Sample storing and conservation. Matrix
simplifying; specific analysis. Chromatographic sample pre-treatment.
|
||
|
Alternate courses
|
ÚCHV/AVZ1/00
|
||
|
Recommended reading
|
O. Stoeppler: Sampling and Sample Preparation
Practical Guide for Analytical Chemists. Academic Press, London, 2002
E. P. Popek: Sampling and Analysis of Environmental
Chemical Pollutants. Elsevier Science, San Diego, 2003
|
||
|
Title
|
Industrial Ecology
|
||
|
Code
|
ÚCHV/ACPE1/03
|
Teacher
|
Bazeľ Yaroslav, Vojteková Viera
|
|
ECTS credits
|
5
|
Hrs/week
|
2/1
|
|
Assessment
|
Examination
|
Semester
|
1
|
|
T/L method
|
Lecture, Practical
|
||
|
Objective
|
To give
chemistry, environmental ecology and teaching students the opportunity to
approach problems of environmental pollution, to appraise problems of the
creation and protection of the environment, and to develop ecologically enlightened
thinking in their working and personal lives.
|
||
|
Content
|
Introduction
to problems of the creation and protection of the environment. Selected
chapters on industrial toxicology and evaluation of environmental stress.
Toxic and potentially toxic matters in the living and working environment.
Hydrologic, geologic and anthropogenic cycles from the environmental point of
view. Environmental behaviour, education and culture in working and personal
lives.
|
||
|
Recommended reading
|
Stanley E. Manahan: Environmental Chemistry. , New
York, Boca Raton, 2007
Stanley E. Manahan: Industrial Ecology (Hardcover),
Boca Raton, New York ,1999
|
||
|
Title
|
Liquid Chromatography
|
||
|
Code
|
ÚCHV/KCHR/06
|
Teacher
|
Gondová Taťána
|
|
ECTS credits
|
5
|
Hrs/week
|
2/1
|
|
Assessment
|
Examination
|
Semester
|
1
|
|
T/L method
|
Lecture, Practical
|
||
|
Objective
|
To provide
students with advanced knowledge about liquid chromatography applications.
|
||
|
Content
|
Theoretical
principles of liquid chromatography. Selection and optimisation of separation
process. Sample pretreatment. New trends in HPLC techniques: uLC, chiral
analysis, multidimensional chromato- graphy, combined systems with LC
applications.
|
||
|
Recommended reading
|
Skoog D.A.: Principles of Instrumental Analysis.
Saunders, New York 1985
Mondello L., Lewis A.C., Bartle K.D.:
Multidimensional Chromatography, Wiley, 2002
|
||
|
Title
|
Identification of Analytes by Mass Spectrometry
|
||
|
Code
|
ÚCHV/IAHS/06
|
Teacher
|
Oriňák Andrej
|
|
ECTS credits
|
4
|
Hrs/week
|
2/-
|
|
Assessment
|
Examination
|
Semester
|
1
|
|
T/L method
|
Lecture
|
||
|
Content
|
Isotopic
composition and its application, identification of molecular ion, general
identification steps; hydrocarbons, halogenated hydrocarbons, alcohols,
ethers and phenols, aldehydes and ketones, other derivatives and their mass
spectra; mass spectrometric analysers and their application, resolution and
sensitivity. MS combined chromatographic methods; evaluation of MS spectra.
|
||
|
Recommended reading
|
Douglas A.Skoog, James J.Leary : Principles of
Instrumental Analysis, 1971, Saunders Publish.
Terence A.Lee: A Beginner´s Guide to Mass Spectral
Interpretation, Wiley, 1998.
|
||
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