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2013
139 Exhibits
3D Reconstruction of Tibia Bone
A Bandage for a Heart, Version 1
A Bandage for a Heart, Version 2
A Bandage for a Heart, Version 3
A Cancer Cell Responds to Treatment
A Dangerous Meeting, Version 2
A Golden Opportunity for Drug Delivery
A Motor Neuron Synapses Onto a Muscle, Version #1
A Motor Neuron Synapses Onto a Muscle, Version #2
An Expression of Proteins in Prostate Tissue
Art and Science in a Chemical Reaction, Image A
Art and Science in a Chemical Reaction, Image B
Art and Science in a Chemical Reaction, Image C
Bacteria Respond to Fungal Growth, Version 1
Bacteria Respond to Fungal Growth, Version 2
Bacterial Supernova: Programming E. coli to Release Drugs into a Tumor
Barcodes For Immune Cells
Behind the Scenes at MIT
Blood Vessels in a Glioblastoma
Bone Repair Using Biocompatible Plastic, Image #1
Bone Repair Using Biocompatible Plastic, Image #2
Breaking Through: Cancer Cells at the Basement Membrane
Breast Cancer Cells Invade the Lung
Breast Cancer Cells Spread Over a Textured Surface, Image #1
Breast Cancer Cells Spread Over a Textured Surface, Image #2
Breast Cancer Cells Spread Over a Textured Surface, Image #3
Cancer Cells Assemble a Network
Cancer Culture: Tumor Modeling
Cancer Deconstructed, Image #2
Cancer Deconstructed, Image #3
Cancer Deconstructed, Image #4
Cancer Deconstructed, Image #5
Cancer Deconstructed: Investigating the Role of Non-Cancerous Cells in a Lung Tumor
Cell Cycle Montage
Cell Function in the Hippocampus
Cell Patterns in An Engineered Tissue, Image #1
Cell Patterns in An Engineered Tissue, Image #2
Cell Patterns in An Engineered Tissue, Image #3
Cells Begin to Fuse
Cells Transverse Microbead Chambers
Cellular Injections: Using Nanowires to Investigate the Causes of Leukemia
Chromosomes Align: Mitosis in Action
Clustering Cells on a Patterned Surface
Crystals Under the Microscope, Image #1
Crystals Under the Microscope, Image #2
Crystals Under the Microscope, Image #3
Crystals Under the Microscope, Image #4
Cytoskeletal Architecture of Cancer Cells
A Dangerous Meeting: Blood Vessels and a Tumor Come Together
Deposition of Fibronectin Around a Tumor
Detecting Receptor Complexes on the Surface of Breast Cancer Cells
Dispersion of Microparticles
Engineered Vessels Deliver Blood to Hepacytes
Feel the Pulse: Smooth Muscle Cells Respond to Stretching Forces
Five Neurons: A Rendering
Flower Power: Searching for New Engineering Tools Inside a Plant
Gold Nanoparticles Penetrate Membrane, Image #1
Gold Nanoparticles Penetrate Membrane, Image #2
Gold Nanoparticles Penetrate Membrane, Image #3
Gold Nanoparticles Penetrate Membrane, Image #4
Gold Nanorods Heat Up an Ovarian Tumor
High And Mighty: E. coli Biofilm
Histological Response to a New Tissue Adhesive, Version 1
Histological Response to a New Tissue Adhesive, Version 2
Host Derived Cells Contribute to the Tumor Microenvironment, Image #1
Host Derived Cells Contribute to the Tumor Microenvironment, Image #2
Hydrogel Implant To Treat Diabetes
Immobilized Nanoparticles in an Array
Immune Cells "Eat" Vaccine-Carrying Particles
Implantation Scars the Brain, Version #1
Implantation Scars the Brain, Version #2
In Robotico Model of Nanoparticle Tissue Penetration, Image A
In Robotico Model of Nanoparticle Tissue Penetration, Image B
In Robotico Model of Nanoparticle Tissue Penetration, Image C
Interphase Blues: Stained Nucleoli
Mena Means Metastasis
Metastatic Breast Cancer Bursts a Blood Vessel
Metastatic Breast Cancer Invades a Liver, Version #1
Metastatic Breast Cancer Invades a Liver, Version #2
Metastatic Breast Cancer Invades a Liver, Version #3
Metastatic Breast Cancer Invades a Liver, Version #4
Metastatic Breast Cancer Invades a Spleen
Mimicry in Search of A Vaccine for HIV
Molecular Watercolor: Mixing Fluorescent Proteins to Label Families of Cells
Nanofibers Protrude from a Polymer Surface, Image #1
Nanofibers Protrude from a Polymer Surface, Image #2
Nanoparticle Delivery to Cancer Cells
Nanoparticle Liver Delivery
Nanoparticles Mimic Viruses, Image #1
Nanoparticles Mimic Viruses, Image #2
Nanoparticles Mimic Viruses, Image #3
Nanosponges Deliver RNAi, Image A
Nanosponges Deliver RNAi, Image B
Nanotechnologies for Bone Tissue Repair, Image #1
Nanotechnologies for Bone Tissue Repair, Image #2
Nanotechnologies for Bone Tissue Repair, Image #3
Natural Killer Cells Interrogate Tumor Cells
Nerve Cell Axons Avoid the Slit
Neurons Divide and Mature, Image #1
Neurons Divide and Mature, Image #2
On the Scent: Investigating an Anti-Aging Gene Inside the Nose
Pancreatic Packets, Version 1
Pancreatic Packets, Version 2
Patch of Light: Trying to Understand a Newly Discovered Autism-Linked Gene
Pillars and Polymers
Pillars and Polymers, Image #2
Protein Localization in a Cancer Cell, Image 1
Protein Localization in a Cancer Cell, Image 2
Reconstructed Neurons: A Rendering
Searching for Gold on Silken Nanofibers, Image #1
Searching for Gold on Silken Nanofibers, Image #2
Searching for Gold on Silken Nanofibers, Image #4
Searching for Gold on Silken Nanofibers, Image #5
Signaling for Cell-Matrix Adhesion
Smooth Muscle Cells Interact With Fibronectin
Spiny Dendrites Lead to the Surface of the Brain
Spiny Dendrites Receive Input From Axons
Spray-On Nanoparticles: The Recovery, Version 1
Spray-On Nanoparticles: The Recovery, Version 2
Spray-On Nanoparticles: The Recovery, Version 3
Subcutaneous Hydrogel Spheres
Sushi Implant: Seaweed-Encapsulated Cells for Treating Diabetes
Testing the Function of Induced Cells
The Case of the Missing Gene, Exhibit A
The Case of the Missing Gene, Exhibit B
The Case of the Missing Gene, Exhibit C
Tissue Remodeing After a Transplant
Trying to Understand a Newly Discovered Autism-Linked Gene, Image #1
Trying to Understand a Newly Discovered Autism-Linked Gene, Image #2
Trying to Understand a Newly Discovered Autism-Linked Gene, Image #4
Trying to Understand a Newly Discovered Autism-Linked Gene, Image #5
Tumor-Responsive Nanoparticles Dive Deep
Up Close: Investigating an Anti-Aging Gene Inside the Nose
Visualization of Neural Circuits, Image #1
Visualization of Neural Circuits, Image #2
Visualization of Neural Circuits, Image #3
Visualization of Neural Circuits, Image #4
Visualization of Neural Circuits, Image #5
Vital Proteins: Mitosis in Action