Bachelor's degree in Physiotherapy (to qualify as a physiotherapist) (Vicenza)

Propaedeutic physical and biological sciences (2018/2019)

Course code
4S01837
Credits
7
Coordinator
Cristina Bombieri

Teaching is organised as follows:
Unit Credits Academic sector Period Academic staff
BIOCHIMICA 2 BIO/10-BIOCHEMISTRY FISIO VI 1^ ANNO - 1^ SEMESTRE Giovanni Gotte
FISICA APPLICATA 2 FIS/07-APPLIED PHYSICS FISIO VI 1^ ANNO - 1^ SEMESTRE Davide Conte
STATISTICA DESCRITTIVA 1 MED/01-MEDICAL STATISTICS FISIO VI 1^ ANNO - 1^ SEMESTRE Francesca Locatelli
BIOLOGIA APPLICATA 2 BIO/13-EXPERIMENTAL BIOLOGY FISIO VI 1^ ANNO - 1^ SEMESTRE Cristina Bombieri

Learning outcomes

L’insegnamento si propone di fornire le conoscenze di base di biologia, biochimica, fisica e statistica, tenendo in particolare considerazione quelle maggiormente utili alla comprensione ed all’approfondimento di problematiche biomediche associate alla fisioterapia e di fornire i fondamenti del metodo sperimentale alla base delle moderne discipline scientifiche e tecnologiche, per educare lo studente al rigore scientifico e alla valutazione critica dei dati sperimentali. A completamento del corso lo studente avrà acquisito le competenze necessarie per comprendere, descrivere e analizzare i fenomeni naturali, biologici e fisici, con particolare riguardo alle problematiche biomediche e sarà in grado di spiegare i meccanismi molecolari e cellulari alla base del funzionamento dell’intero organismo e cogliere il significato patogenetico di eventuali alterazioni di essi, dimostrando inoltre la capacità di esporre le argomentazioni relative alle conoscenze acquisite in modo preciso, con valutazione critica e con linguaggio scientifico appropriato. Avrà infine sviluppato la capacità di affrontare con buona autonomia ulteriori approfondimenti specialistici che saranno oggetto degli insegnamenti dei successivi anni di corso.

MODULO: FISICA APPLICATA Fornire conoscenze di base sulle grandezze e sulle leggi fondamentali della Fisica, in particolare della meccanica e sulla loro applicazione in fenomeni e situazioni concrete di interesse biomedico e far acquisire capacità di risolvere semplici problemi di Fisica, soprattutto di Biomeccanica, anche applicati a situazioni concrete.

MODULO: BIOCHIMICA Fornire conoscenze di base di chimica organica e biochimica sulle relazioni struttura-funzione delle principali classi di macromolecole biologiche, sulla regolazione metabolica a livello molecolare e sulle interconnessioni esistenti tra i diversi processi biochimici e sulle trasformazioni energetiche ad essi connesse.

MODULO: BIOLOGIA APPLICATA Fornire competenze di biologia e genetica umana, in una visione evoluzionistica, relative alle caratteristiche strutturali, funzionali e molecolari dei processi cellulari comuni agli organismi viventi e in particolare dei meccanismi di base che regolano attività, riproduzione, interazioni cellulari e la trasmissione dei caratteri ereditari normali e patologici nell’uomo. MODULO: STATISTICA DESCRITTIVA Fornire competenze nell'ambito della bio-statistica con particolare riguardo ai metodi statistici di base per l'analisi di dati biomedici come la modalità di raccolta e sintesi dei dati di ricerca clinica o epidemiologica, calcolo delle probabilità, generalizzare le informazioni raccolte su un campione alla popolazione di origine, la rappresentazione grafica di sintesi e l’interpretazione dei principali risultati statistici.

Syllabus

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MM: BIOCHIMICA
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PREPARATORY CHEMISTRY (several notions are included in the basic knowledge required). 1. Atomic structure and periodic properties of the elements: matter composition, atom, atomic particles; atomic theory; quantum numbers, and orbitals; electronic configuration, periodic table and chemical reactivity of the elements; electronic affinity, electronegativity. 2. The chemical bond: molecules and ions; ionic and covalent bond; intermolecular forces; hydrogen bond. 3. Solutions and acid-base reactions: concentration of the solutions, acid-base theories of Arrhenius and Brőnsted-Lowry; hydracids, hydroxides, oxyacids; acid-base reactions; pH and buffer solutions. 4. Organic chemistry notions: carbon atom properties; hybrid orbitals; organic compounds classification: functional groups; hydrocarbons; alcohols, ethers, thiols, amines, aldehydes and ketones; carboxylic acids, esters, anhydrides. BIOCHEMISTRY 1. Constitutive elements of the living matter: polymeric structure of the biological macromolecules. 2. Protein structure and function: aminoacid classification, buffering power, peptide bond, levels of protein structure; fibrous and globular proteins; hemoglobin and myoglobin: structure, function, factors influencing the oxygen bond; hemoglobin variants; enzymes: classification, role in the chemical reactions, regulation of the enzymatic activity. 3. Vitamins: hydro- and lypo-soluble vitamins; co-enzymes. 4. Bio-energetics: metabolism; chemical transformations in the cell; spontaneous and non-spontaneous reactions of the metabolic reactions; ATP as “energy exchange coin”; biologically relevant redox reactions. 5. Carbohydrates structure and metabolism: mono- and disaccharides; polysaccharides; glycoconjugates; glycolysis and its regulation; gluconeogenesis; hints of the penthose phosphate pathway; synthesis of the glycogen. 6. Citric acid cycle and oxidative phosphorylation: mitochondria; acetyl-CoA synthesis; citric acid cycle control; respiratory chain and electron transport; ATP synthesis. 7. Lipids structure and metabolism: structural lipids and biological membranes; cholesterol; stock-reserve lipids; lipids digestion and fatty acid β-oxydation; keton bodies formation; hints of fatty acids biosynthesis. 8. Aminoacid metabolism: hints of gluco- and keto-forming aminoacids; transamination and oxidative deamination; the urea cycle. Frontal teaching is the exclusive method adopted in this Course.
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MM: FISICA APPLICATA
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INTRODUCTION examples, measurement units POINT KINEMATICS position, displacement, velocity, acceleration linear motion, circular motion vectors POINT KINETICS Forces, Newton's laws Power, work, kinetic energy, potential energy, mechanical energy Conservative and not-conservative forces examples ROTATIONAL DYNAMICS AND EQUILIBRIUM rigid body definition, translation and rotation Moment of Inertia Torques Static equilibrium of a rigid body examples
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MM: STATISTICA DESCRITTIVA
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Use of statistics in health data Collection and presentation: Measurement procedure and Variable types Precision and accuracy of a measurement procedure Tables 1 and 2 entries Absolute and relative frequencies Cumulative frequencies Graphical representation of the data Position and dispersion measures: Mode Quantiles and median Simple and weighted mean Range and standard deviation Coefficient of variation Introduction to probability • Definition of probability • Rule of addition and multiplication • Independent and conditional probability
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MM: BIOLOGIA APPLICATA
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Characteristics of the living beings. Major themes and fundamental concepts of biology. Origin of life. Cell Theory. Biological kingdoms and domains. Evolution and Natural Selection. Water: characteristics and biological importance. Eukaryotic and prokaryotic cell and viruses: common features and differences. Endosymbiotic theory and evolution from prokaryotes to eukaryotes to multicellular organisms. Structure, function and organization of the cell: main characteristics and functions of organelles and cytoskeleton. Role of internal compartmentalization. Biological membrane: structure, properties and function. Movement of molecules across cell membranes: passive (osmosis, simple diffusion, facilitated diffusion) and active transport (primary and secondary; exocytosis and endocytosis). Cell junctions. Cell communication and signaling pathways: Signal Reception: ligands and receptors. Signal Transduction: second messengers, signaling cascade and message amplification. Cellular responses. The human genome: Organisation of DNA in chromosomes. Structure and organisation of chromosomes. Nucleosomes and packed chromosome. Euchromatin and Heterochromatin. Cell cycle: definition, significance of the phases and regulation. Hints about cell death and staminal cells. Cell division. Asexual reproduction and Mitosis. Sexual reproduction and meiosis. Crossing-over. Human gametogenesis. Chromosomal bases of inheritance: Autosome and sexual chromosomes. Dosage compensation and X inactivation in Mammals. Normal and pathological human karyotype. Structural and numerical chromosomal abnormalities. Molecular bases of inheritance. DNA: structure, function, replication and its role in heredity. Definition of gene. Informational pathway: transcription, RNA processing (splicing), genetic code, RNA translation and protein synthesis. Hints about regulation of gene expression in eukaryotes. DNA mutation. Different classes of mutations. Spontanous mutations. Mutations induced by chemicals or physical agents. DNA repair mechanisms. Somatic mutations and cancer. Mendelian genetics and Heredity. Definition of phenotype, genotype, locus, gene, allele, domin ant, rtecessive, homozygote and heterozygote. Mendel’s laws. Allele segregation and independent assortment of genes. Gene – chromosome relationship: independence and association; genetic recombiantion. Genetics of AB0 and Rh blood groups. Modes of transmission of genetic information. Inheritance patterns: autosomal (dominant and recessive) and sex-linked (dominant and recessive) inheritance. Introduction to transmission of complex characters. Hereditary and genetic diseases. Examples. Exceptions to Mendelian inheritance: penetrance, expressivity, incomplete dominance and codominance, multiple alleles, epistasis, polygenic characters, mitochondrial inheritance, environmental influence.

Assessment methods and criteria

The exam consists of 4 written tests, one for each module, based on all the issues covered throughout the course. Tests can be passed separately as long as they are taken within the same academic year. For each academic year, 6 periods are available to take the exams: 2 in the Winter Session at the end of the course, 2 in the Summer Session and 2 in the Autumn Session. In order to gain access to the biology test, students must have first discharged any training debts relating to the minimum biology, chemistry and physics knowledge.
To pass the exam, students must get a score of not less than 18/30 in each test. The final mark (/out of 30) willl derive from the weighted average over credits of each single test score. Students can retire or refuse the proposed score: in such case, any partial credit will be canceled and the students shall enroll again for the whole examination (all the 4 tests).

Reference books
Author Title Publisher Year ISBN Note
Stefani M, Taddei N Chimica Biochimica e Biologia Applicata. Zanichelli ed., Bologna  
M. Samaja, R. Paroni Chimica e Biochimica Piccin 2016
Bertoldi, Colombo, Magni, Marin, Palestini Chimica e Biochimica EdiSES 2015 978-88-7959-878-1
A. Fiecchi, M. Galli Kienle, A. Scala Chimica e propedeutica biochimica Edi-Ermes  
Luciano BINAGLIA, Bruno GIARDINA CHIMICA e PROPEDEUTICA BIOCHIMICA (con CD-ROM) Ediz. Mc Graw-Hill  
D. Voet, J. G. Voet, C.W. Pratt Fondamenti di Biochimica (Edizione 4) Zanichelli 2017 9788808420961
David L Nelson, Michael M Cox I principi di biochimica di Lehninger (Edizione 7) Zanichelli 2018 9788808920690
Walker James S FISICA - MECCANICA (Edizione 1) Zanichelli 2004 8808076814
Halliday D., Resnick R., Walker J. Fondamenti di FISICA (Edizione 4) Casa Editrice Ambrosiana 2001 8840809651
Lantieri PB, Risso D, Ravera G Elementi di Statistica Medica McGraw-Hill 2007
Verlato G, Zanolin ME Esercizi di Statistica Medica, Informatica ed Epidemiologia Libreria Cortina Editrice, Verona 2000
Glantz SA Statistica per Discipline Biomediche (Edizione 6) McGraw-Hill 2007 9788838639258
Solomon, Martin, Martin, Berg Elementi di Biologia (Edizione 7) EdiSES 2017 978-88-7959-938-2
Sadava, Hillis, Craig Heller, Hacker Elementi di Biologia e Genetica (Edizione 5) Zanichelli 2019 9788808820655




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