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An Overview of Molecular Imaging by Dr Lohith T G MMST 2 nd year Indian Institute of Technology Kharagpur.

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Presentation on theme: "An Overview of Molecular Imaging by Dr Lohith T G MMST 2 nd year Indian Institute of Technology Kharagpur."— Presentation transcript:

1 An Overview of Molecular Imaging by Dr Lohith T G MMST 2 nd year Indian Institute of Technology Kharagpur

2 Central Dogma of life Transcription Translation

3 1953: Watson- Crick DNA model 1976: Genentech 1997: Dolly 2000: Book of Life 1972: Computerized Tomography 1975: Clinical PET 1978: Clinical MRI 2000: Fusion Imaging Genetic RevolutionImaging Revolution

4 Dr Harvey HerschmanDr Sanjiv Sam Gambhir “There’s always something unsatisfactory about studying genes in vitro” Molecular Imaging Pioneers

5 Molecular Imaging Remote sensing of Cellular processes at molecular level in-vivo without affecting system. APPLICATIONS:  Early detection of functional abnormalities at Cellular level.  In-vivo imaging of Gene delivery and expression.  Study of pathogenesis of diseases in intact microenvironments of living systems.  Oncology- Angiogenesis, Apoptosis, Cell tracking etc.  Monitor effectiveness of Gene therapy.

6 We are curious how we, other people, animals, etc, look inside…... … but we don’t like to (be) hurt !

7 We are also curious how organs... …..are functioning in vivo

8 Major Approaches:  PET, Gamma scintigraphy  Magnetic Resonance Imaging  Magnetic Resonance Spectroscopy  Optical Imaging Key Elements:  Use of special Imaging Probes with high specificity  Signal Amplification strategies  Sensitive Imaging modalities with high resolution

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10 Mechanisms for molecular imaging at the organ, tissue, cellular, and genetic levels.

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13  Use of PET  Emission Tomography  High sensitivity (nano to picomolar range)  10,000 targets per cell  F-18, O-15, C-11, N-13, Cu-64, I-124  Poor spatial and Temporal resolution  Low Dosage

14 What area in the brain is responsible for a task? PET and SPECT imaging enables mapping of of radio-labeled molecule distributions

15 Molecular imaging of MDR1 Pgp transport activity in vivo. MDR1Pgp – Multi drug Resistant membrane receptor P-glycoprotien PSC 833 – Pgp blocking agent (MDR modulator)

16  Use of MRI  Magnetic field and radiofrequency pulses  Low sensitivity (milli to micromolar range)  Requires amplification mechanisms  Good spatial and Temporal resolution  Standard Imaging (1.5T) gives 1 mm resolution

17 Three-dimensional T1-weighted gradient-echo MR imaging reconstruction (repetition time, 150 msec; echo time, 3.6 msec; flip angle, 34°; voxel size, 39 3 39 3 78 µm) shows tracking of immune cells with magnetically labeled lymphocytes homed to a human glioblastoma tumor (9L tumor model) xenograft in a mouse. Cell were labeled ex vivo by using a magnetic particle with membrane translocation signals. Approximately 10,000 cells are distributed throughout the elongated tumor

18  Optical Techniques  Optical coherence tomography  Fluorescence or Luminescence imaging  Infrared Imaging  Reporter probes Luciferase tagged cells Green fluorescent protein (GFP) encoding cDNA Protease-activatable probes

19 Optical imaging with proteolytically (cathepsin B and H) activatable near-infrared fluorescent (NIRF) probe.

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