Call for Abstract

Scientific Program

2nd International Conference on Medical Physics and Biophysics, will be organized around the theme “Analysing the contemporary approaches in the arena of Medical and Biophysics”

Medical Physics 2016 is comprised of 15 tracks and 84 sessions designed to offer comprehensive sessions that address current issues in Medical Physics 2016.

Submit your abstract to any of the mentioned tracks. All related abstracts are accepted.

Register now for the conference by choosing an appropriate package suitable to you.

Track 1:Radiology

  • Track 1-1Fluoroscopy
  • Track 1-2Computed tomography
  • Track 1-3Ultrasound
  • Track 1-4Magnetic resonance imaging
  • Track 1-5Mammography
  • Track 1-6Interventional radiology
  • Track 1-7Teleradiology

Track 2:Nuclear medicine

  • Track 2-1PET scans or PET/CT scans
  • Track 2-2Gallium scans
  • Track 2-3Indium white blood cell scans
  • Track 2-4MIBG and octreotide scans.

Track 3:Oncology

  • Track 3-1Ultrasound
  • Track 3-2Biopsy or Resection
  • Track 3-3Endoscopy
  • Track 3-4CT scanning
  • Track 3-5MRI scanning
  • Track 3-6Scintigraphy
  • Track 3-7Single Photon Emission Computed Tomography
  • Track 3-8Positron emission tomography

Track 4:Biophysics

  • Track 4-1Biochemistry
  • Track 4-2Nanotechnology
  • Track 4-3Bioengineering
  • Track 4-4Computational biology
  • Track 4-5Systems biology

Track 5:Radiation Oncology

  • Track 5-1Clinical radiation oncology
  • Track 5-2Radiation biology and molecular radiation oncology
  • Track 5-3Radiation therapy (radiotherapy)
  • Track 5-4Impacts of treatment of cancer by using radiation
  • Track 5-5Treatment approaches by using cancer biology

Track 6:Biomedical Physics

  • Track 6-1Medical Imaging Physics
  • Track 6-2Radiation Therapeutic Physics
  • Track 6-3Nuclear Medicine Physics
  • Track 6-4Health Physics
  • Track 6-5Clinical Audiology Physics
  • Track 6-6Laser Medicine

Track 7:Biomedical Engineering

  • Track 7-1Tissue engineering
  • Track 7-2Genetic engineering
  • Track 7-3Neural engineering
  • Track 7-4Pharmaceutical engineering
  • Track 7-5Clinical engineering

Track 8:Medical Devices

  • Track 8-1Bionics
  • Track 8-2Implants
  • Track 8-3Medical imaging Equipment
  • Track 8-4Pacemakers
  • Track 8-5Insulin pumps
  • Track 8-6Operating room monitors
  • Track 8-7Defibrillators
  • Track 8-8Surgical instruments
  • Track 8-9Deep-brain stimulators

Track 9:Tomography

  • Track 9-1Electron tomography
  • Track 9-2Muon tomography
  • Track 9-3Hydraulic tomography
  • Track 9-4Magnetic particle imaging

Track 10:Laser & photonics

  • Track 10-1Carbon Dioxide Lasers
  • Track 10-2Fiber Lasers
  • Track 10-3Diode Lasers
  • Track 10-4Argon-Ion Lasers
  • Track 10-5YAG Lasers
  • Track 10-6Excimer Lasers Systems
  • Track 10-7Integration in Photonics

Track 11:Biosensor

  • Track 11-1Biosensors and Nano biosensors
  • Track 11-2Biochips-advantages and applications
  • Track 11-3Hydrogels for BioMEMS and NEMS
  • Track 11-4Body sensor networks

Track 12:Latest Imaging Techniques

  • Track 12-1X-ray imaging
  • Track 12-2Medical imaging
  • Track 12-3Magnetic resonance imaging
  • Track 12-4Optical imaging
  • Track 12-5Ultrasound imaging

Track 13:New Technologies in Cancer Treatment

  • Track 13-1Chemotherapy
  • Track 13-2Immunotherapy
  • Track 13-3Tomotherapy
  • Track 13-4Intensity Modulated Radiotherapy Treatment (IMRT)
  • Track 13-53-D conformal computer planning

Track 14:Clinical Physics and Patient Safety

  • Track 14-1Usability and human factors engineering for medical device and system design
  • Track 14-2Patient safety, medical errors and adverse events prevention related to health technologies
  • Track 14-3Telemedicine in developing countries
  • Track 14-4Clinical engineering certification and education
  • Track 14-5Clinical process analysis and optimization

Track 15:Dosimetry

  • Track 15-1External dose
  • Track 15-2Internal Dose
  • Track 15-3Environmental dosimetry
  • Track 15-4Equivalent Dose
  • Track 15-5Effective dose