Medical Device Pipeline2016

IMAGE-GUIDED SURGERY | SURGICAL ROBOTICS | NON-ROBOTICSURGICAL TOOLS | REHABILITATION TECHNOLOGIES | CATHETERS |

BIOMEDICAL PHOTONICS | NEUROSURGERY DEVICES | CARDIOVASCULAR DEVICES | HEALTH CARE ACCESSORY DEVICES | GI/ENDOSCOPY

DEVICES | BIOMEDICAL RESEARCH/DIAGNOSTIC DEVICES

Who we areThe Center for Technology Transfer and Commercialization (CTTC) provides professional technology commercialization services to the Vanderbilt community, so that we may optimize the flow of innovation to the marketplace and generate revenue that supports future research activities.

CTTC accomplishes this by serving as an efficient and effective conduit for the transfer of promising Vanderbilt intellectual property to industry; contributing to regional economic development by licensing locally and supporting new venture creation; and encouraging collaboration between academia and industry.

Industry CollaborationKey to carrying out the mission of CTTC is the ability to form collaborative and professional relationships with companies in a variety of industries including space exploration, education, pharmaceuticals, healthcare/patient care, robotics, energy, environmental preservation, engineering, and many more. CTTC does this through:• Strategic Negotiation - Timely transactions are as critical for us as they are for our industry

partners. We pay careful attention to negotiation timelines and work to ensure high levels of responsiveness and rapid closing of negotiations

• Reasonable Diligence - Licenses must include reasonable diligence provisions to ensure that products based on Vanderbilt technology are developed and commercialized in a timely fashion for our benefit and the benefit of the public.

• Societal Benefit - Our motivations for commercializations are deeply rooted in benefiting individuals and patients on a global scale.

• Protection leads to Commercialization - CTTC views IP protection as a means to an end. The real focus is on commercialization of technologies.

• Focused on Transactions - CTTC’s experienced team of licensing professionals are highly transactionally focused.

Table of Contents

Vanderbilt Medical Device Core Research Capabilites..........................................3 Center for Intelligent Mechatronics Department of Biomedical Informatics Vanderbilt Initiative in Surgery & Engineering Vanderbilt University Institute of Imaging Science Vanderbilt Institute for Integrative Biosystems Research and Education (VIIBRE) Vanderbilt Institute of Nanoscale Science and Engineering (VINSE) Vanderbilt Clinical Translational Science Award (CTSA) Medical Device Regulatory Affairs Program (MDRAP)Image Guided Surgery Pipeline.............................................................................4Surgical Robotics Pipeline......................................................................................5Non-Robotic Surgical Tools....................................................................................6Rehabilitation Technologies, Catheters..................................................................7Biomedical Photonics.............................................................................................8Neurosurgery Devices...........................................................................................9Cardiovascular Devices.......................................................................................10Health Care Accessory Devices...........................................................................11GI/Endoscopy Devices........................................................................................12Biomedical Research/Diagnostic Devices...........................................................13

Medical Device Pipeline2016

2Compiled by Masood Machingal, Ph.D., CTTC licensing officer

Contact Dr. Machingal at 615.353.3348 or masood.machingal@vanderbilt.edu

Institute of Imaging Science (VUIIS)VUIIS operates state-of-the-art facilities for imaging research at all scales including imaging animals and human subjects. Areas of focus include: cancer, neurological disorders, metabolic disorders, cardiovascular disease, and others.

Initiative in Surgery and Engineering (ViSE)ViSE is an interdisciplinary, trans-institutional center focused on the creation, development, implementation, clinical evaluation and commercialization of methods, devices, algorithms, and systems designed to facilitate interventional processes and their outcome. Areas of focus include: image-guided surgery; intelligent, flexible robotic manipulation; ultrasound guidance for surgical interventions; steerable needles; wireless capsule robotics, etc.

Institute of Nanoscale Science and Engineering (VINSE)VINSE is focused on new science and technology based on nanoscale materials. Researchers team locally and globally, providing an environment where physicists, chemists, biologists, and engineers may collaboratively solve forefront problems and create new scientific understanding. Areas of focus include: nanobio, nanoscale electronics and optics, nanoscience theory, nanotechnology and new materials.

Department of Biomedical Informatics (DBMI)Vanderbilt’s DBMI is the largest academic department of biomedical informatics in the country, with more than 65 faculty members. Areas of focus include: computer science, information science, cognitive science, social science, engineering, and clinical and basic biological sciences.

Institute for Integrative Biosystems Research and Education (VIIBRE)VIIBRE invents the tools and develops the skills that are required to conduct research in systems biology. Areas of focus include: cellular biosensors, bioprocess controllers, mathematical models for wound healing and cancer, infectious disease detection, biomedical imaging, and cellular/tissue engineering.

Medical Device Regulatory Affairs Program (MDRAP)Vanderbilt’s Medical Device Regulatory Affairs Program (MDRAP), supports investigators who are involved with Food and Drug Administration (FDA) regulated device research. It provides a list of services including early device development guidance, regulatory guidance, Investigation Device Exemptions support, and more.

Clinical Translational Science Award (CTSA)In 2007 Vanderbilt University received a $40 million Clinical and Translational Science Award (CTSA) grant, the largest single government research grant in Vanderbilt’s history, to expedite the translation of laboratory discoveries to patients in the community. This NIH grant helps fund the Vanderbilt Institute for Clinical and Translational Research (VICTR), which supports the translation of fundamental scientific discoveries into clinical practice and brings basic and clinical researchers together. VICTR provides access to resources, training and collaboration, and informatics and biostatistical systems.

In 2011 Vanderbilt was awarded a renewal of $46 million as well as a $20 million grant to be the Coordinating Center for the CTSA consortium, which now includes 60 institutions in 30 states and the District of Columbia.

Center for Intelligent Mechatronics (CIM)Under the direction of Michael Goldfarb, Ph.D., Vanderbilt University’s Center for Intelligent Mechatronics (CIM) has created a portfolio of rehabilitation robotics. Current projects include a powered, multi-degree-of-freedom prosthetic arm, a powered exoskeleton for gait restoration in spinal-cord injured victims and stroke rehabilitations, and a powered transfemoral prosthesis that enhances mobility and reduces falls for lower-limb amputees.

Core Research Capabilities

In the spring of 2014, Vanderbilt University’s Board of Trust approved construction of a 230,000-square-foot Engineering and Science Building that will foster project teamwork and offer programs, instrumentation areas and core research space that will promote interdisciplinary work, particularly in engineering and related fields. Rendering courtesty of: Wilson Architects/Vanderbilt University

The 2016 Medical Device Pipeline highlights Vanderbilt’s current pipeline of technologies that are the product of the university’s commitment to collaborative, applied research in the fields of engineering and medicine. Vanderbilt has a number of Centers, Departments and Institutions that are paving the way for engineers and clinicians to work together to find innovative solutions to the world’s health problems.

Vanderbilt University 2016 Medical Device Pipeline

Vanderbilt University 2016 Medical Device Pipeline

Basic

ResearchFeasibility IP Status

Lead

Inventor TechnologyDiscovery

and

ideation

Invention

and

prototyping

Lab

prototype

validation

Animal

model

validation

Clinical

trials

Regulatory

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C

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Galloway

Miga

DawantImage Guided Surgical Navigation (Portfolio)

Portfolio of

Multiple Patents

Konrad

Dawant

Surgical Planning and Navigation Software for

Deep Brain Stimulation (Portfolio)Portfolio of

Multiple Patents

Labadie

Fitzpatrick

System and Methods of Using Image-guidance

for Placement of Cochlear Stimulator DevicesIssued US

8380288

GallowayImage-Guided Navigation System for

Endoscopic Eye SurgeryIssued US

8403828

MigaLaser Range Scanning for Cortical Surface

Registration & Deformation Tracking

Issued US

7103399 and

7647087

Miga

Method to model elasticity parameters (i.e.

elastography) of tissue as a complement to

imaging

Issued US

7257244

MigaBrain Shift Compensation Using Computer

ModelsIssued US

7072705

MigaModel-Based Compression Correction

Framework for UltrasoundPatent Pending

MigaImage Guidance System for Breast Cancer

SurgeriesPatent Pending

Miga

A Novel Trackerless Image Guided Soft Tissue

Surgical Design for Use with Surgical

Microscopes or Similar Technologies

Patent Pending

Click the technology title for viewing a detailed

Technology Summary on CTTC website

Image Guided SurgeryTechnology

Development

Technology

Demonstration

Seeking Partners Partnered

4

Vanderbilt University 2016 Medical Device Pipeline

Basic

ResearchFeasibility IP Status

Lead

Inventor TechnologyDiscovery

and

ideation

Invention

and

prototyping

Lab

prototype

validation

Animal

model

validation

Clinical

trials

Regulatory

process

C

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Simaan Insertable Robotic Effector Platform PortfolioPortfolio of

Multiple Patents

& Copyrights

Webster

Barth

Precision Pneumatic Robot for MRI-Guided

NeurosurgeryPublished US

20130123802 A1

SimaanMinimallly Invasive Robotic Platform for

Transurethral Exploration and InterventionPublished US

20140316434 A1

SimaanLow Cost Dexterous Wrists for Surgical

Intervention

Published US

20150073434A1,

Published PCT

WO2013158974

SimaanMethods for Quick and Safe Deep Access into

Mammalian AnatomyPublished PCT

WO2013158983

SimaanAlgorithms for Compliant Insertion and Motion

Control of Continuum Robots

Published US

20140330432A1,

Published PCT

WO2013158978

SimaanAlgorithms for Contact Detection and Contact

Localization in Continuum RobotsPublished US

20130300537 A1

ValdastriWireless Tissue Palpation for Minimally Invasive

Robotic Surgery TechniquesPublished US

20140081120 A1

WebsterSteerable Needles: A Better Turning Radius with

Less Tissue DamagePublished US

20140276586 A1

SimaanAlgorithms and Methods for Motion and Force

Control of Continuum RobotsCopyrights

Webster Flexible Instrument with Precurved ElementsPublished US

20160016319 A1

WebsterA Robotic System for Treating Intracranial

Hemorrhage (ICH)Published US

20150223832 A1

Click the technology title for viewing a detailed

Technology Summary on CTTC website Seeking Partners Partnered

Surgical RoboticsTechnology

Development

Technology

Demonstration

5

Vanderbilt University 2016 Medical Device Pipeline

Basic

ResearchFeasibility IP Status

Lead

Inventor TechnologyDiscovery

and

ideation

Invention

and

prototyping

Lab

prototype

validation

Animal

model

validation

Clinical

trials

Regulatory

process

C

o

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Serial #

WebsterA Tip for Surgical Devices with Arc Length

Varying CurvaturePatent Pending

WebsterHand-Held Concentric Tube Manipulator

Actuation Unit and Mechanism for SurgeryPatent Pending

Webster Steerable Biopsy Devices Patent Pending

WebsterModular, Sterilizable Robotic System for

Endonasal SurgeryPatent Pending

WebsterA System for Transoral Targeting of Suspicious

Nodules in the BodyPatent Pending

Basic

ResearchFeasibility IP Status

Lead

Inventor TechnologyDiscovery

and

ideation

Invention

and

prototyping

Lab

prototype

validation

Animal

model

validation

Clinical

trials

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process

C

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Serial #

Webster

MAESTRO: Non-Robotic Dexterous Laproscopic

Instrument with a Wrist providing Seven

Degrees of Freedom (Portfolio)

Published Apps

US20120277762

WO2015168441

US20150080908

WebsterGRASP: Grasping Applicator for Surgical

PositioningPublished US

20140277105 A1

Geiger SureTight: GI Anastamosis Leak Detection Patent Pending

WebsterCombined Powered Core Needle and FNA

Biopsy DevicePatent Pending

Click the technology title for viewing a detailed

Technology Summary on CTTC website

Non Robotic Surgical ToolsTechnology

Development

Technology

Demonstration

Seeking Partners Partnered

Surgical Robotics (continued)Technology

Development

Technology

Demonstration

6

Vanderbilt University 2016 Medical Device Pipeline

Basic

ResearchFeasibility IP Status

Lead

Inventor TechnologyDiscovery

and

ideation

Invention

and

prototyping

Lab

prototype

validation

Animal

model

validation

Clinical

trials

Regulatory

process

C

o

l

u

m

Type/

Status/

Serial #

GoldfarbVanderbilt Exoskeleton: Powered Lower-Limb

Exoskeleton for ParaplegiaPortfolio of

Multiple Patents

GoldfarbPowered Robotic Knee and Ankle Prosthesis for

Transfemoral AmputeesPortfolio of

Multiple Patents

GoldfarbVanderbilt Multigrasp Myoelectric Prosthetic

HandPortfolio of

Multiple Patents

Sarkar

IntelliCane: Instrumented cane for diagnosis

and evaluation of gait behavior in individuals

with mobility issues

Pending US

Schoenecker3DMD Smartcasting System for Predictive

Clubfoot CorrectionPending US

Basic

ResearchFeasibility IP Status

Lead

Inventor TechnologyDiscovery

and

ideation

Invention

and

prototyping

Lab

prototype

validation

Animal

model

validation

Clinical

trials

Regulatory

process

C

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Serial #

Eagle

Point of Care Device for Confirmation of IV

Catheter Placement & Measurement of Venous

Pressures

Portfolio of

Patents

MerrymanCatheter Having Temperature Controlled

Anchor and Related MethodsPublished US

20130296851 A1

Sawyer Transductive Access CatheterPublished US

20120172750 A1

Nicholson Track-Star Angiographic Catheter Patent Pending

Click the technology title for viewing a detailed

Technology Summary on CTTC website

CathetersTechnology

Demonstration

Technology

Development

Rehabilitation TechnologiesTechnology

Development

Technology

Demonstration

Seeking Partners Partnered

7

Vanderbilt University 2016 Medical Device Pipeline

Basic

ResearchFeasibility IP Status

Lead

Inventor TechnologyDiscovery

and

ideation

Invention

and

prototyping

Lab

prototype

validation

Animal

model

validation

Clinical

trials

Regulatory

process

C

o

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Type/

Status/

Serial #

Mahadevan-

Jansen

Near Infrared Fluorescence for Parathyroid

Identification (Portfolio)Portfolio of

Multiple Patents

Jansen

Mahadevan-

Jansen

Systems and Methods for Optical Stimulation of

Neural Tissues (Portfolio)Portfolio of

Multiple Patents

Mahadevan-

Jansen

Breast Tumor Margin Detection System Using

Spatially Offset Raman Spectroscopy

Issued US

9020581 and

Pending US

14/085732

Mahadevan-

Jansen

Non-Invasive Skin Cancer Detection using

Raman Spectroscopy-OCT System

Issued US

7508524

8,00220 and

8553219

Mahadevan-

Jansen

Trimodal Handheld Probe Based on Raman

Spectroscopy and Confocal Imaging for Cancer

Detection

Issued US

8300220

JoosMiniature Optical Coherence Tomography

Probe for Real-time Monitoring of Surgery

Issued US

8655431 and

9014788;

Pending PCT

US, EU, and CA

Weiss

Porous Silicon Membrane Waveguide

Biosensors for high sensitivity detection of low

molecular weight biological or chemical targets

Issued US

8506887

WeissFunctionalized optical sensors comprising

diffraction gratings on porous silicon structuresIssued US

8349617

WeissPorous Silicon Waveguide Integrated Optical

Microring Resonator For Label-Free BiosensingPatent Pending

Mahadevan-

Jansen

Noninvasive Monitoring of Infection in

Neonates Using Optical MeansPatent Pending

Click the technology title for viewing a detailed

Technology Summary on CTTC website

Biomedical Photonics Technology

Development

Technology

Demonstration

Seeking Partners Partnered

8

Vanderbilt University 2016 Medical Device Pipeline

Basic

ResearchFeasibility IP Status

Lead

Inventor TechnologyDiscovery

and

ideation

Invention

and

prototyping

Lab

prototype

validation

Animal

model

validation

Clinical

trials

Regulatory

process

C

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Type/

Status/

Serial #

Fitzpatrick

System and Methods for Determining

Orientation of Bone Implanted Post for

Cochlear and Deep Brain Stimulation

Portfolio of

Patents

FitzpatrickPosiSeat™: Assured Seating of Threaded

Surgical ComponentsIssued US

8231636

Kao Flat-Cut Bit for Cranial PerforatorIssued US

8152809

Webster

Barth

Precision Pneumatic Robot for MRI-Guided

NeurosurgeryPublished US

20130123802 A1

Labadie

Fitzpatrick

System and Methods of Using Image-guidance

for Placement of Cochlear Stimulator Devices

and Drug Carrier Devices

Issued US

8380288

Kao

Konrad

Fitzptrick

Labadie

Adjustable Universal Platform for Surgical

Navigation, Approach, and Implantation

Issued US

8414597 and

7794469

Click the technology title for viewing a detailed

Technology Summary on CTTC website

Technology

Development

Technology

Demonstration

PartneredSeeking Partners

Neurosurgery Devices

9

Vanderbilt University 2016 Medical Device Pipeline

Basic

ResearchFeasibility IP Status

Lead

Inventor TechnologyDiscovery

and

ideation

Invention

and

prototyping

Lab

prototype

validation

Animal

model

validation

Clinical

trials

Regulatory

process

C

o

l

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m

Type/

Status/

Serial #

Eagle

Point of Care Device for Confirmation of IV

Catheter Placement & Measurement of Venous

Pressures

Portfolio of

Patents

Brophy Autologous Vein Harvest Kit Portfolio of

Patents

Eagle

Baudenbach

er12 Lead Smart ECG Monitor

Portfolio of

Patents

MerrymanCatheter Having Temperature Controlled

Anchor and Related MethodsPublished US

20130296851 A1

Sawyer Transductive Access CatheterPublished US

20120172750 A1

ByramAn Adaptive Clutter Demodulation Scheme for

Measuring Low Velocity Blood using UltrasoundPatent Pending

Hak-Joon

Sung

Shape Memory External Stents for Vascular

ApplicationsPatent Pending

Froehler Closed-End Stent for Aneurysm Embolization Patent Pending

Nicholson Track-Star Angiographic Catheter Patent Pending

Click the technology title for viewing a detailed

Technology Summary on CTTC website Seeking Partners Partnered

Technology

Development

Technology

Demonstration Cardiovascular Devices

10

Vanderbilt University 2016 Medical Device Pipeline

Basic

ResearchFeasibility IP Status

Lead

Inventor TechnologyDiscovery

and

ideation

Invention

and

prototyping

Lab

prototype

validation

Animal

model

validation

Clinical

trials

Regulatory

process

C

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Type/

Status/

Serial #

BreamMaximum Barrier Sterile Drape for Neck and

Upper ChestPortolio of

Patents

Gupta

Collapsible Lightweight Portable Leg Holder for

Ultrasound Guided Lateral Popliteal Block

Procedures

Patent Pending

GuptaRapidly Adjustable Flexible Positioning Arm for

Ultrasound Probe -Clinician's Third HandPatent Pending

Self

Sterile blood culture collection kit for reducing

blood culture contamination at healthcare

institutions

Pending US

Baudenbach

er

Automated Abdominal Binder for Treatment of

Orthostatic Hypotension

Published US

201503136008

A1

LathropStable Mount for Head Attached Optical

Tracking MarkerPatent Pending

Lathrop Medical Respirator Breathing Tube Support Patent Pending

Shinar Ventilation Vest for Surgical Spacesuites Patent Pending

Schlesinger DynoAlarm: Smart Patient Monitoring Alarm Patent Pending

Alvis Universal Smart Phone Video Laryngoscope Patent Pending

ByramA Hand Held Device for Quantitative

Assessment of Tissue StiffnessPatent Pending

Doyle Self Expanding Ductal Occluder Patent Pending

GricePortable Flow Phantom for Doppler Ultrasound

Quality MeasurementsPatent Pending

NicholsSingle-handed Side-loading Guidewire Torque

Device for Interventional Medical Procedures Patent Pending

Guy Central Line Burn Dressing Patent Pending

Click the technology title for viewing a detailed

Technology Summary on CTTC website

Technology

Development

Technology

Demonstration

Seeking Partners Partnered

Health Care Accessory Devices

11

Vanderbilt University 2016 Medical Device Pipeline

Basic

ResearchFeasibility IP Status

Lead

Inventor TechnologyDiscovery

and

ideation

Invention

and

prototyping

Lab

prototype

validation

Animal

model

validation

Clinical

trials

Regulatory

process

C

o

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Type/

Status/

Serial #

VaeziDevice for Detecting and Measuring Conditions

of Esophageal MucosaPortfolio of

Patents

ValdastriLocal Magnetic Actuation for Minimally Invasive

Surgery Published US

20130298715 A1

ValdastriWireless Tissue Palpation for Minimally Invasive

Robotic Surgery TechniquesPublished US

20140081120 A1

ValdastriReal-time Pose and Magnetic Force Detection

for a Wireless Magnetic CapsulePublished PCT

WO 2014113697

Valdastri Robotic Platform for Mini-Invasive Surgery Pending US

ValdastriHydro-Jet Endoscopic Capsule for Gastric Cancer

Screening in Low Resource SettingsPending PCT

Geiger SureTight: GI Anastamosis Leak Detection Patent Pending

Valdastri

Image Partitioning and Illumination in Image-

Based Pose Detection for Teleoperated Flexible

Endoscopes

Copyrights

ObsteinWireless Tablet App for Remote Collaboration

and Training in ColonoscopyCopyrights

Click the technology title for viewing a detailed

Technology Summary on CTTC website Partnered

Technology

Demonstration GI/Endoscopy Devices Technology

Development

Seeking Partners

12

Vanderbilt University 2016 Medical Device Pipeline

Basic

ResearchFeasibility IP Status

Lead

Inventor TechnologyDiscovery

and

ideation

Invention

and

prototyping

Lab

prototype

validation

Animal

model

validation

Clinical

trials

Regulatory

process

C

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Serial #

Wikswo

Rotary planar peristaltic micropump (RPPM)

and Rotary Planar Valve (RPV) for microfluidic

systems

Published EPO

2625425,

Published US

20130287613 A1

Baudenbach

erThermal ELISA

Published US

20150160205 A1

Weiss

Easy-to-Fabricate, Cost-Effective, and Stable

Surface Enhanced Raman Scattering (SERS)

substrates

Published EPO

2619532,

Pending Canada,

Pending US

Weiss Porous Silicon Membrane Waveguide BiosensorIssued US

8506887

Haselton

Extractionator: Low Resource Extraction and

Processing of Biological Samples Using Surface

Tension Valves

Published PCT

WO2012009627

A1, Pending US

Mahadevan-

Jansen

Non-Invasive, Early Monitoring of Neonatal

infection Using Optical MeansPatent Pending

CyrPoint of Care Rheological Flow Assay for

Diagnosis and Monitoring of DiseasePatent Pending

Click the technology title for viewing a detailed

Technology Summary on CTTC website

Technology

Demonstration

Seeking Partners Partnered

Biomedical Research/Diagnostic DevicesTechnology

Development

13

Vanderbilt technologies available for licensing and collaboration:

visit www.vanderbilt.edu/cttc/technologies

View the 2016 Medical Device Pipeline or one of Vanderbilt’s other Technology Pipelines:

www.vanderbilt.edu/cttc/industry/technology-portfolios

Find us online:

For more information about CTTC: www.vanderbilt.edu/cttc

615.343.2430CTTC@Vanderbilt.edu

For more information about these technologies: www.vanderbilt.edu/cttc/technologies

Find us /VanderbiltCTTC

Vanderbilt’s geographically unified campus is integral in the university’s pursuit of excellence in clinical and translational research.

Vanderbilt University is ranked 15th among the best national universities.

Vanderbilt sponsored research and project awards total $681.7 million.

Vanderbilt University School of Medicine Ranks 10th in NIH Funding with $294 million.

The School of Engineering ranks 35th for graduate engineering programs.

Vanderbilt is home to one of the oldest Biomedical Engineering Departments in the country, dating back to 1968.

Vanderbilt is a Clinical Translational Science Award Coordinating Center, leading 60 CTSA institutions in 30 states and the District of Columbia.

Vanderbilt Research Quick FactsCTTC Highlights FY15

Invention Disclosures 179U.S. Patent Applications Filed 187U.S. Patents Issued 54

Revenues from Licensing $9M

Licenses/Options Executed 98