A XIX-a Conferinta Nationala de Fizica Medicala 2021

In perioada 6-7 Noiembrie 2021 se va desfasura exclusiv online (virtual) a "XIX-a CONFERINTA NATIONALA DE FIZICA MEDICALA" organizata de catre Colegiul Fizicienilor Medicali din Romania.

Convocator Adunarea Generala anuala a membrilor Colegiului Fizicienilor Medicali din Romania in data de 07.11.2021 (ora 10:00-12:00) - ORDINEA DE ZI

Cu ocazia evenimentului sarbatorim pentru al 9-lea an consecutiv "Ziua Internationala a Fizicii Medicale" (IDMP) cu tematica ”informarea publicului privind rolul fizicieniilor medicali” asa cum a fost denumita de catre Organizatia Internationala pentru Fizica Medicala (IOMP).

CFMR se alatura celor 80 de organizatii nationale de fizica medicala si celor 6 organizatii regionale membre IOMP din intreaga lume ce vor marca impreuna IDMP2021 ca fiind o data importanta in istoria fizicii medicale.

Comitet Organizare Locala:

Marin BODALE, Expert în Fizică Medicală EACMPE

Vasile CHIŞ, prof. univ. dr.

Loredana-Gabriela MARCU, prof. univ. dr.

Locatie desfasurare conferinta: exclusiv online (virtual)

Invitatie conferinta in limba Romana (download PDF. format) si in limba Engleza (download PDF. format)

Nr. de puncte credit de Dezvoltarea Profesionala Continua/Educatie Medicala Continua acordate: 32 credite CPD

Taxa participare:

1) membri CFMR: GRATUIT

2) non-membri: 250 lei

Taxa de participare la conferinta pentru non-membri CFMR se va achita in contul bancar deschis la Banca Comercială Română (BCR) pe numele Colegiului Fizicienilor Medicali din Romania (se va specifica pe ordinul de plata numele participantului reprezentand taxa conferinta CNFM2021).

Termen limita trimitere lucrarii stiintifice rezumate/abstract: 20 Octombrie 2021

Termen limita inscriere participanti: 3 Noiembrie 2021

Formular de participare (online).

Nu se accepta participarea la eveniment fara inscrierea in prealabil.

PROGRAM CONFERINTA (download PDF. format)

Teme conferinta:

Education and Training in Medical Physics:

  1. Development of Medical Physics

  2. Medical Physics Education for Healthcare Professions

  3. EFOMP & IOMP: Student Projects in Developing Countries

  4. Training in Medical Physics

  5. Research in Medical Physics

  6. Accreditation and Certification

  7. European Union qualification and curriculum framework in Medical Physics Expert Project

  8. European ongoing projects for the Research, Training and Education in Medical Physics (EUTEMPE-RX, MEDRAPET, EMERALD, EMIT, EMITEL, MPE, LEONARDO, ACCIRAD, ENETRAP, EURATOM, BSS, etc.)

  9. IAEA, WHO, IFMBE, IOMP and EFOMP Symposium on Medical Physics

Radiation Oncology:

  1. Technology: Beam Delivery Techniques

  2. Planning: Imaging (Contouring, Segmentation, Fusion, Registration, Deformation)

  3. Planning: Strategies (Optimization, Motion Management, Remote Dose Planning)

  4. Planning: Dose Calculation (Analytical, Monte Carlo)

  5. Biological/Functional Imaging and Treatment Planning in Radiotherapy

  6. Treatment: Immobilization, Positioning and Motion Management (On-Line Imaging, Image-Guidance)

  7. Intensity-modulated radiation therapy (IMRT)

  8. Volumetric Modulated Arc Therapy (VMAT)

  9. Stereotactic Body Radiation Therapy (SBRT)

  10. Stereotactic Radiosurgery (SRS)

  11. TomoTherapy

  12. Real-Time Image-Guided Radiation Therapy (IGRT)

  13. Adaptive Radiation Therapy (ART)

  14. Brachytherapy and Radionuclide Therapy

  15. Hadron Therapy

  16. Nanotechnology in Radiation Therapy and Imaging

  17. Special Treatment Strategies (Intraoperative, Stereotactic Treatments, Hypofractionation)

  18. Assessment of Radiotherapy Responses (Imaging, Outcome Modeling)

  19. Quality Assurance of Treatment Delivery (IMRT and VMAT Treatment Verification, IGRT)

  20. Quality Management and Patient Safety

Diagnostic Radiology and Medical Imaging:

  1. X-ray Imaging

  2. Mammography

  3. Computed Tomography

  4. Dental Radiology

  5. Dose, Risk and Dose Optimization

  6. Quality Assurance in Diagnostic Radiology

  7. Magnetic Resonance Imaging

  8. Ultrasound Imaging

  9. Osteodensitometry

  10. Multi-Modality Imaging

  11. Imaging Bioimpedance and Bioelectric Sources

  12. Optical Imaging

  13. Medical Termography

  14. Phase Contrast Imaging

  15. Image Processing

  16. Imaging Detector Technology

  17. Simulation Methods: Digital Phantoms and Monte Carlo Methods

  18. Magnetoencephalography (MEG)

Nuclear Medicine:

  1. Biomolecular Imaging

  2. Single Photon Emission Computed Tomography (SPECT)

  3. Positron Emission Tomography (PET)

  4. Hybrid Nuclear Medicine Imaging Systems (SPECT-CT, PET-CT and PET-MRI)

  5. Radiopharmaceutical Therapy

Dosimetry:

  1. Dosimetry in Radiotherapy

  2. Dosimetry in X-ray Imaging

  3. Dosimetry in Nuclear Medicine

  4. Dosimetry in dual modality imaging systems (SPECT-CT and PET-CT)

  5. Dosimetric Techniques and Phantoms

  6. Micro and Nano Dosimetry

  7. Calibration of diagnostic and therapy radiation measurement instrumentation

  8. Remote Dose Monitoring

Non-Ionizing Radiation Treatment:

  1. Hyperthemia Therapy

  2. High Intensity Focused Ultrasound (HIFU) Therapy

  3. Terahertz Radiation Therapy

  4. Target Ablation by using Microwave, Radiofrequence, Cryotherapy, etc.

  5. LASIK (laser-assisted in situ keratomileusis)

  6. Photodynamic therapy (PDT)

  7. Laser Therapy

Biological Effects of Radiation:

  1. Biological Effects of Ionizing Radiation

  2. Biological Effects of Non-Ionizing Radiation

  3. Biological Dosimetry

  4. Health effects of 5G wireless telecommunications networks

Health Physics:

  1. Radiation Protection Reference Levels for Patients and Personnel

  2. Radiation Shielding for Medical Installation

  3. Non-Ionising Radiation Protection Reference Levels

  4. Population protection against physical agents or phenomena (construction materials, biomaterials, bioelectricities, biomagnetism, biomechanics)

  5. Environmental protection (gas emission, harmful substances)

  6. Safety of Electromagnetic Energy from 5G telecommunications

Physiological Measurement Techniques:

  1. Electromedicine (Electrocardiography, Electromyography, Electroencephalography, Electronystagmography)

  2. Medical analysis (Radiation Immunology, Spectroscopy, Toxicology, blood gas monitored and blood pressure measurement, etc.)

  3. Spirometry

  4. Pulse oximetry

  5. Non-ionising radiation (lasers, ultraviolet, infrared, etc.)

Biomaterials and Artificial Organs:

  1. Biomaterials for Cell and Organ Therapies

  2. Cardiovascular Biomaterials, Artificial Heart and Cardiac Assist Devices

  3. Artificial Skin, Bones, Joints, Teeth and Related Biomaterials

  4. Histopathology

  5. Drug Delivery and Control Release

Biosensor and Bionanotechnology:

  1. BioSensors and Nanobiosensors

  2. Nanoparticles/Nanotheranostics

  3. Lab-on-chip/Biochips

  4. Biomagnetism

  5. Nanotoxicology Characterization, Dosing and Health Effects

Biosignal Processing:

  1. Biosignal Processing and Physiological Modeling

  2. Nonlinear Dynamic Analysis of Biomedical Signals

  3. Signal Pattern Classification

  4. Adaptive and Parametric Filtering

  5. Time-frequency Analysis

  6. Connectivity and Causality

  7. Blind Source Separation

  8. Machine Learning

Neuroscience:

  1. Neurophysics

  2. Neural Interfaces and Regeneration

  3. Brain Computer/Machine Interfaces

  4. NeuroProstheses

  5. Deep Brain Stimulation

  6. Motor Learning and Neural Control

  7. Brain Physiology and Modeling

  8. Neural Signal Processing

  9. Functional Neuroimaging

  10. Neurological Disorders

  11. Transcranial Magnetic and Electric Stimulation

Healthcare and Medical Devices:

  1. Diagnostic and Therapy Devices

  2. Bioinstrumentation

  3. Image-guided Devices and Therapies

  4. Medical Device and System Design and Manufacturing

  5. Medical Device Evaluation and Standards

Information and Communication in Medicine, Telemedicine and e-Health, Health Informatics:

  1. Medical Informatics

  2. Image Processing, Display and Visualization

  3. Computer Aided Diagnosis

  4. PACS (Picture Archiving and Communication Systems)

  5. Standards: DICOM**, ISO, IHE***

  6. Hospital Information Systems

  7. Telemedicine

  8. Digital Operating Room

  9. Workflow, Patient Specific Modeling

  10. Medicine on the Internet of Things

  11. Distant monitoring and telehome care

  12. Biostatistics

  13. Artificial Intelligence in Medical Physics

Computer Aided Healthcare, Image Guided Therapy, Modeling and Simulation:

  1. Robots and Manipulators in Therapy

  2. Image Guided Interventions

  3. Endoscopy

  4. Soft Tissue and Vessel Based Navigation

  5. Audiology

  6. Ophthalmology

  7. Electrotherapy and Defibrillation

  8. Dialysis

  9. Modeling and Simulation

Limba oficiala a conferintei este Romana si Engleza. Toate documentele vor fi pregatite in limba Romana sau Engleza.

Prezentare orala: proiectare virtuala asistata de computer (PowerPoint).

Rezumate/Abstract:

Pentru editarea programului final al conferintei va fi trimis titlul rezumatului in limba Romana sau Engleza pana pe data de 20 Octombrie 2021.

Comitetul Stiintific isi rezerva dreptul de a accepta sau respinge lucrarile propuse si de a stabili forma de prezentare a acestora.

Rezumatele acceptate vor fi publicate in "Revista de Fizica Medicala" ce apare sub egida CFMR.

Rezumatele primite pana la data de 20 Octombrie 2021 vor fi confirmate autorilor de catre comitetul stiintific prin e-mail pana in 1 Noiembrie 2021.

Instructiuni pentru redactarea rezumatelor:

  • Titlu: maximum 20 de cuvinte, scris cu majuscule

  • Textul rezumatului: maximum 300 de cuvinte

  • Textul lucrarilor originale trebuie sa respecte urmatoarea structura: introducere, materiale si metoda, rezultate, concluzii.

  • Nu se accepta rezumate cu formularile de genul: ”rezultatele vor fi prezentate”.

  • Toate abrevierile vor fi explicate la prima utilizare in text.

  • Se utilizeaza numele generic al medicamentelor.

  • Nu se accepta grafice si tabele in rezumat.

Informatii suplimentare la adresa de e-mail: office@cfmr.ro