Unit LABORATORY MEDICINE

CLINICAL BIOCHEMISTRY

Code	A001682
Location	PERUGIA
CFU	2
Teacher	Antonella Mencacci
Learning activities	Caratterizzante
Area	Medicina di laboratorio e diagnostica integrata
Academic discipline	BIO/12
Type of study-unit	Obbligatorio (Required)

Cognomi A-L

CFU

2

Teacher

Danika Di Giacomo

Teachers

• Danika Di Giacomo

Hours

• 25 ore - Danika Di Giacomo

Language of instruction

ITALIAN

Contents

- Generation of laboratory data and its critical interpretation.
- Reliability of test results: precision, accuracy, sensitivity, specificity.
- Quality management, predictive value and decision-making levels.
- Units of measurement in Clinical Biochemistry, sources of preanalytical variability, reference values, Biological variability.
- Principles and techniques for collecting, processing and storage of biological samples.
- Methods used in Clinical Biochemistry:Centrifugation techniques, UV-Visible spectrophotometry and Spectrofluorimetry
- Point-of-Care testing, Chemical dry state.
- Clinical Enzymology.
- Biochemical parameters. Markers of function and injury of tissue or organ with particular reference to markers of myocardial damage and markers of liver function.
- Description of the most used techniques in Clinical Biochemistry: Nucleic acids electrophoresis, Protein electrophoresis, Western-blotting , ELISA assay, RIA assay, Fluorescence Microscopy.
- Basic elements of Molecular Biology (genome, gene, mutations, polymorphisms) and utilization of databases (eg. NCBI, Ensemble Genome Browser, Globin Gene Server).
- Integration between Clinical Biochemistry methods and Molecular Biology methods: Study of Hemoglobinopathies
- Description of the most used techniques in Molecular Diagnostics:end-point PCR , Real-Time PCR, dHPLC, DNA sequencing (Sanger method)
-NGS (Next Generation Sequencing).

Reference texts

Slides and notes provided by teacher

Educational objectives

The main aim of this teaching is to provide students with the theoretical principles useful to identify and analyze the sources of variability of laboratory data and to provide students with the theoretical principles needed to understand the applications and issues that underlie the methods most used in Clinical Biochemistry and Molecular Biology.
The program includes the presentation of some investigation methods of laboratory, their application in the diagnosis of diseases. The main knowledge acquired will be:- Basic knowledge about the collection, processing and storage of biological samples.- Knowledge related to units of measurement in Clinical Biochemistry, sources of preanalytical variability, reference values, biological variability.- Basic concepts of reliability analytical precision, accuracy, sensitivity, specificity.- Basic elements about quality management , predictive value and decision-making levels.- Basic knowledge of Methods used in Clinical Biochemistry:Centrifugation techniques, UV-Visible spectrophotometry and spectrofluorimetry.- Basic knowledge of Clinical Enzymology: enzyme assay, markers of tissue and organ.
- Basic knowledge of Methods used in Clinical Biochemistry:
Nucleic acids and protein electrophoresis, Western-blotting, ELISA, RIA and TestFluorescence microscopy.
- Basic knowledge of Methods used in Clinical Molecular Biology:
End-point PCR, Real-Time PCR, dHPLC, DNA sequencing using Sanger method,NGS (Next Generation Sequencing).
- Basic elements of Molecular Biology (genome, gene, mutations, polymorphisms) and utilization of databases (eg. NCBI, Enseble Genome Browser, Globin Gene Server).

Prerequisites

The course requires basic knowledge of Biochemistry, Cell Biology and Genetics.

Teaching methods

Lectures on all subjects of the couse.

Other information

Learning verification modality

Written Test.

Extended program

- Generation of laboratory data and its critical interpretation.- Reliability of test results: precision, accuracy, sensitivity, specificity.- Quality management, predictive value and decision-making levels.- Units of measurement in Clinical Biochemistry, sources of preanalytical variability, reference values, Biological variability.- Principles and techniques for collecting, processing and storage of biological samples.- Methods used in Clinical Biochemistry:Centrifugation techniques, UV-Visible spectrophotometry and Spectrofluorimetry- Point-of-Care testing, Chemical dry state.- Clinical Enzymology.- Biochemical parameters. Markers of function and injury of tissue or organ with particular reference to markers of myocardial damage and markers of liver function.
- Description of the most used techniques in Clinical Biochemistry: Nucleic acids electrophoresis, Protein electrophoresis, Western-blotting , ELISA assay, RIA assay, Fluorescence Microscopy.- Basic elements of Molecular Biology (genome, gene, mutations, polymorphisms) and utilization of databases (eg. NCBI, Enseble Genome Browser, Globin Gene Server).- Integration between Clinical Biochemistry methods and Molecular Biology methods : Study of Hemoglobinopathies- Description of the most used techniques in Molecular Diagnostics:end-point PCR , Real-Time PCR, dHPLC, DNA sequencing (Sanger method) , NGS (Next Generation Sequencing).

Cognomi M-Z

CFU

2

Teacher

Paolo Gorello

Teachers

• Paolo Gorello

Hours

• 25 ore - Paolo Gorello

Language of instruction

Italian

Contents

- Generation of laboratory data and its critical interpretation.- Reliability of test results: precision, accuracy, sensitivity, specificity.- Quality management, predictive value and decision-making levels.- Units of measurement in Clinical Biochemistry, sources of preanalytical variability, reference values, Biological variability.- Principles and techniques for collecting, processing and storage of biological samples.- Methods used in Clinical Biochemistry:Centrifugation techniques, UV-Visible spectrophotometry and Spectrofluorimetry- Point-of-Care testing, Chemical dry state.- Clinical Enzymology.- Biochemical parameters. Markers of function and injury of tissue or organ with particular reference to markers of myocardial damage and markers of liver function.
- Description of the most used techniques in Clinical Biochemistry: Nucleic acids electrophoresis, Protein electrophoresis, Western-blotting , ELISA assay, RIA assay, Fluorescence Microscopy.- Basic elements of Molecular Biology (genome, gene, mutations, polymorphisms) and utilization of databases (eg. NCBI, Enseble Genome Browser, Globin Gene Server).- Integration between Clinical Biochemistry methods and Molecular Biology methods : Study of Hemoglobinopathies- Description of the most used techniques in Molecular Diagnostics:end-point PCR , Real-Time PCR, dHPLC, DNA sequencing (Sanger method) , NGS (Next Generation Sequencing).

Reference texts

Slides and notes provided by teacher

Educational objectives

The main aim of this teaching is to provide students with the theoretical principles useful to identify and analyze the sources of variability of laboratory data and to provide students with the theoretical principles needed to understand the applications and issues that underlie the methods most used in Clinical Biochemistry and Molecular Biology.
The program includes the presentation of some investigation methods of laboratory, their application in the diagnosis of diseases. The main knowledge acquired will be:- Basic knowledge about the collection, processing and storage of biological samples.- Knowledge related to units of measurement in Clinical Biochemistry, sources of preanalytical variability, reference values, biological variability.- Basic concepts of reliability analytical precision, accuracy, sensitivity, specificity.- Basic elements about quality management , predictive value and decision-making levels.- Basic knowledge of Methods used in Clinical Biochemistry:Centrifugation techniques, UV-Visible spectrophotometry and spectrofluorimetry.- Basic knowledge of Clinical Enzymology: enzyme assay, markers of tissue and organ.
- Basic knowledge of Methods used in Clinical Biochemistry:
Nucleic acids and protein electrophoresis, Western-blotting, ELISA, RIA and TestFluorescence microscopy.
- Basic knowledge of Methods used in Clinical Molecular Biology:
End-point PCR, Real-Time PCR, dHPLC, DNA sequencing using Sanger method,NGS (Next Generation Sequencing).
- Basic elements of Molecular Biology (genome, gene, mutations, polymorphisms) and utilization of databases (eg. NCBI, Enseble Genome Browser, Globin Gene Server).

Prerequisites

The course requires basic knowledge of Biochemistry, Cell Biology and Genetics.

Teaching methods

Lectures on all subjects of the couse.

Learning verification modality

Written Test.

Extended program

- Generation of laboratory data and its critical interpretation.- Reliability of test results: precision, accuracy, sensitivity, specificity.- Quality management, predictive value and decision-making levels.- Units of measurement in Clinical Biochemistry, sources of preanalytical variability, reference values, Biological variability.- Principles and techniques for collecting, processing and storage of biological samples.- Methods used in Clinical Biochemistry:Centrifugation techniques, UV-Visible spectrophotometry and Spectrofluorimetry- Point-of-Care testing, Chemical dry state.- Clinical Enzymology.- Biochemical parameters. Markers of function and injury of tissue or organ with particular reference to markers of myocardial damage and markers of liver function.
- Description of the most used techniques in Clinical Biochemistry: Nucleic acids electrophoresis, Protein electrophoresis, Western-blotting , ELISA assay, RIA assay, Fluorescence Microscopy.- Basic elements of Molecular Biology (genome, gene, mutations, polymorphisms) and utilization of databases (eg. NCBI, Enseble Genome Browser, Globin Gene Server).- Integration between Clinical Biochemistry methods and Molecular Biology methods : Study of Hemoglobinopathies- Description of the most used techniques in Molecular Diagnostics:end-point PCR , Real-Time PCR, dHPLC, DNA sequencing (Sanger method) , NGS (Next Generation Sequencing).

CLINICAL MICROBIOLOGY

Code	A001681
Location	PERUGIA
CFU	2
Teacher	Antonella Mencacci
Learning activities	Caratterizzante
Area	Patologia generale e molecolare, immunopatologia, fisiopatologia generale, microbiologia e parassitologia
Academic discipline	MED/07
Type of study-unit	Obbligatorio (Required)

Cognomi A-L

CFU

2

Teacher

Antonella Mencacci

Teachers

• Antonella Mencacci

Hours

• 25 ore - Antonella Mencacci

Cognomi M-Z

CFU

2

Teacher

Antonella Mencacci

Teachers

• Antonella Mencacci

Hours

• 25 ore - Antonella Mencacci

CLINICAL PATHOLOGY

Code	GP005709
Location	PERUGIA
CFU	2
Teacher	Stefano Brancorsini
Learning activities	Caratterizzante
Area	Medicina di laboratorio e diagnostica integrata
Academic discipline	MED/05
Type of study-unit	Obbligatorio (Required)

Cognomi A-L

CFU

2

Teacher

Stefano Brancorsini

Teachers

• Stefano Brancorsini

Hours

• 25 ore - Stefano Brancorsini

Cognomi M-Z

CFU

2

Teacher

Stefano Brancorsini

Teachers

• Stefano Brancorsini

Hours

• 25 ore - Stefano Brancorsini

PROFESSIONALISING TRAINING IN CLINICAL MICROBIOLOGY

Code	GP005715
Location	PERUGIA
CFU	1
Teacher	Antonella Mencacci
Learning activities	Altro
Area	Tirocini formativi e di orientamento
Academic discipline	MED/07
Type of study-unit	Obbligatorio (Required)

Cognomi A-L

CFU

1

Teacher

Antonella Mencacci

Teachers

• Antonella Mencacci

Hours

• 25 ore - Antonella Mencacci

Cognomi M-Z

CFU

1

Teacher

Antonella Mencacci

Teachers

• Antonella Mencacci

Hours

• 25 ore - Antonella Mencacci

PROFESSIONALISING TRAINING IN CLINICAL PATHOLOGY

Code	GP005714
Location	PERUGIA
CFU	1
Teacher	Stefano Brancorsini
Learning activities	Altro
Area	Tirocini formativi e di orientamento
Academic discipline	MED/05
Type of study-unit	Obbligatorio (Required)

Cognomi A-L

CFU

1

Teacher

Stefano Brancorsini

Teachers

• Stefano Brancorsini

Hours

• 25 ore - Stefano Brancorsini

Cognomi M-Z

CFU

1

Teacher

Stefano Brancorsini

Teachers

• Stefano Brancorsini

Hours

• 25 ore - Stefano Brancorsini