Northeastern University and the Centre for Business Innovation present:
MF10 Microfluidics Consortium East Coast Open Day
Location: Raytheon Amphitheatre; Egan Research Center, Northeastern University
June 25th
9:00 Registration Networking Demos
Table-top demos will be on show in the networking area from the following MF10 member organisations:
9:30 Welcome, Scene Setting and Introductions
Introduction from NorthEastern Commercialization team to:-
Joel Bresler, Technology Portfolio Director, Center for Research Innovation, Northeastern University
Mr. Bresler is an accomplished executive and entrepreneur with exceptional experience leading corporations and new ventures in business development and general management. As the Technology Portfolio Director at Northeastern University, he manages inventor relations and spin-out business development activities for the CRI. Mr. Bresler works with start-ups and corporations to license the University’s inventions – and sponsor research – in nanotechnology, medical devices, cleantech, robotics, catalysts, Homeland Security, advanced
materials and the life sciences.
Akram Alshawabkeh, Dean of Research for the College of Engineering,
Northeastern University
Akram Alshawabkeh is the George A. Snell Professor of Engineering, Director of
the PROTECT Center, Director of the CRECE Center, Director of the ROUTES
Scholars Program, and Associate Dean for Research for the College of Engineering
at Northeastern University.
Peter Hewkin, CEO of Centre for Business Innovation
Peter facilitates the MF10 consortium. He will introduce the delegates and set the
scene for today’s meeting.
10:00 Session 1: Microfluidics Research Expert Witness presentations:
“New Approach to Pathogen Detection” Tania Konry : Assistant Professor Department of
Pharmaceuticals Sciences – Northeastern University.
Dr. Konry is focused on developing novel Bio-MEMS approaches to advance point of care diagnostics, cell culture, and drug screening and delivery methods. She develops Lab-on-a-Chip devices that integrate several laboratory functions such as real time monitoring of target clinically relevant analyte, proteomics, genomics, cell-cell interactions as well as cell secretion and surface monitoring of single cells on a microchip.
“ NRC Technology platforms for Lab-on-chip applications.” Teodor Veres National Research Council of Canada
Dr. Veres is the Head of the Bioanalytical Micro-Nano Devices Section in the
Life Sciences Division of the National Research Council of Canada. He holds
adjunct professor positions in McGill Biomedical Engineering and
Bioengineering departments and Laval University Medical School. He
graduated in 1999 from the Université de Montréal with a Ph.D. in Physics. Dr.
Veres has expertise in the design and fabrication of nanomaterials and their
integration in microfluidic systems for applications in clinical and environmental
rapid diagnostics as well as for cell and tissue engineering. Dr. Veres is leading
NRC initiative aimed to the development of polymer-based fabrication of
biomicrosystems and in particular lab-on-chip technologies for micro-analytical
applications. He is also co-founder and co-director of the joint Health
CanadaNRC Reference Centre for Rapid Diagnostic, Regulatory Sciences and
Food Safety. He coauthored more than 150 papers and 25 patent applications
in the field of design, fabrication and testing of polymer-based micro-systems
and magnetic nano-carriers and their applications for diagnostics.
Carol Livermore, Professor, Mechanical and Industrial Engineering, Northeastern
University
Dr. Livermore creates and leverages micro technologies to address key challenges in energy, assistive technology, tissue engineering, and microscale vacuum systems. In particular, her research focuses on icroelectromechanical systems (including MEMS-enabled tactile displays, MEMS energy harvesters, and electrically-actuated, ultra low leak micro valves), energy harvesting architectures that passively adapt to their environment, energy storage in carbon nanotube springs, and the application of MEMS technology and directed assembly to meet the challenges of tissue engineering.
11:30 Coffee Break – Networking and Table Top Demos
11:45 Session 2: Microfluidics Technologies - Expert Witness presentations:
Adam Meziane – Fluigent “Advantages of Pressure Based Flow Control in Microfluidics and New
Applications”
Adam joined the Fluigent team in 2016 as a Field Application Specialist. He
graduated from the Telecom Physique Strasbourg Engineering School with an
MSc in micro and nano electronics. His multi-disciplinary skills are applied to the
development of new microfluidic instrumentation, software, and application
development.
Raghu Mokkapati EV Group “Leading Edge Semi-Conductor Process solutions for
Microfluidics”
Dr. Raghu Mokkapati is Business Development Manager from EV Group based at
the HQ in Austria. EV Group is a recognized technology and market leader for wafer
processing equipment. The company offers system configurations for R&D and
volume production as well as implementation, process and materials know-how
according to the customer’s needs. Key products include wafer bonding,
lithography and metrology equipment in addition to photoresist coaters, cleaners
and inspection systems. Furthermore, EVG is among the leading companies in the
world providing micro- and nanoimprint equipment capable of hot embossing, UV-
NIL and micro-contact printing. EVG’s technology can thus provide customers with
a total solution for microfluidic device fabrication.
Remi Wache IPGG Paris “Microfluidics enables manipulation of small volume of fluids
using new technologies for application in industry”
. IPGG Carnot sets six challenges: analysis of molecules, single cells, multicellular
organisms, materials and nanofluidics. IPGG aim is to leverage the industry's
competitiveness.
.13:00 Lunch / Networking
14:00 Session 3: Microfluidics Start-up Pitch Session
Pitches from early stage microfluidics enabled companies seeking to engage with the MF10
Consortium
1CellBio Inc. is a leading single-cell analysis company serving the biomedical research community.
The company’s flagship inDrop™ System, a high-resolution, single-cell transcriptomics platform,
delivers greater experimental control, rare actionable information and lower overall cost per result
compared to all other existing platforms. Research laboratories around the world are now adopting
the platform for a wide range of single-cell applications from tumor profiling to stem cells to embryo
development to the identification and validation of new drug targets. Founded by a group of prominent
scientists at Harvard University, 1CellBio is based in Watertown, Mass., and the company supports
its growing number of customers through a team of international sales and field application scientists.
For more information, please visit www.1cell-bio.com.
Kytaro Biosciences has developed a microchip-based method to evaluate cells and cellular
interactions in an in vivo setting. The company’s initial focus is on drug and immunotherapy discovery
and validation.
14:40 Session 4: Research
Edgar Goluch Associate Professor, Chemical Engineering Northeasern University
The vast majority of bacterial species in the environment as well as inside of our
bodies have never been isolated and studied in a laboratory. In this talk, Dr. Goluch
will present several iterations of microfluidic devices for isolating and culturing
bacteria that his group has developed using micro- and nano-fabrication. These
devices are being used to create libraries of cultivars that can be screened for
production of novel compounds and metabolic processes, as well as for providing a
better fundamental understanding of the role that bacteria play in human health and
the environment.
Abby Koppes Assistant Professor, Chemical Engineering, Northeastern University
The focus of Dr. Koppes’ research is tissue engineering and regenerative medicine. Her past and current research has focused on the repair of nervous tissue, intestine, and use of primary/stem cells and nanotechnology applications in medicine. She has a special interest in bioelectric medicine, body-chip fabrication, biomaterial characterization, and biophysical control.
15:30 Session 5: Panel Discussion: “Vision for Microfluidics” with lead
thinkers from industry
- BD Bioscience – Philip Spuhler
Responsible for leading the genomics engineering team and defining the product and
commercialroadmap for the design and development of consumables, hardware, and
fluidics in BD Genomics single-cell RNA-sequencing platforms.
Sartorius Stedim – David Pollard
David is the Head of New Materials & Components in Corporate Research of Sartorius
Stedim, reporting to the CTO. This initiative drives to identify dynamic innovations for
next generation technologies, and application fields for life sciences and biopharma.
New technologies and approaches are evaluated and developed for transition into the
biopharma domain. A key focus of this initiative is the partnering with external
collaborators including academic institutions, pharma companies, startups and
technology providers.
Chaired by Don Arnold of Veristad
Don is a long term supporter and champion of the MF10 consortium and our West Coast Cadet Community. Bay Area Microfluidics Network. He is exceptionally well connected in the microfluidics landscape
Circa 16:30 Close and transfer * to..
(* We are organizing a shuttle bus which will leave at 17:00 If you miss this we recommend the T –
Green Line to Park then Red Line to Kendall/MIT and then a 15 minute walk)
June 25th Evening ..Joint Reception with FluidicMEMS
Note this event is also open to Day Delegates who have registered for the Open Day on June 25th. Open
Day delegates will be automatically registered and receive their entry tickets by email.
6:00 pm Doors Open -Networking, Drinks and Buffet address from 7:00pm
Location: 700 Main Street (See Logistics Section below for Map)
Jointly Sponsored by:
FluidicMEMS
This will be a joint event with the Microfluidic Consortium organized by The Centre for Business Innovation (CfBI). CfBI creates globally connected communities of individuals in the worlds leading clusters. These include consortia of blue chip companies, government departments and universities working together on fast
moving areas of business process or technology.
Traditional cell isolation methods such as density gradient centrifugation are time-consuming and do not deliver the consistency and performance needed. Micromedicine focuses on delivering innovative, easy-to-use, automated microfluidic cell-isolation technologies to deliver results with greater consistency, higher yield, and improved efficiency Ravi Kapur, PhD Co-founder, CEO Micromedicine
Ravi Kapur, PhD, is a scientist, engineer, and entrepreneur with 20 years of experience in developing and commercializing nascent technologies from premier academic laboratories. He has co-founded and built successful, innovative companies in partnership with leading academics from Massachusetts General Hospital (MGH), Massachusetts Institute of Technology (MIT), and Carnegie Mellon. Ravi co-founded the non-invasive prenatal screening company Verinata Health (acquired by Illumina) and shaped the drug discovery platform at Cellomics (acquired by Thermo Fisher). He co-directs the Innovation Ecosystem at MGH for development of microfluidic platform technologies for clinical medicine. He earned his master’s degree and doctorate in bioengineering at Clemson University and has an undergraduate degree in electrical
engineering. Ravi has 23 issued and 50 pending U.S. and international patents. Close circa 8:30 pm
Location: Raytheon Amphitheatre; Egan Research Center, Northeastern University
June 26th
9:00 Registration / Networking / Tabletop demos
9:30 Welcome / about today
– Joel Bresler Technology Portfolio Director Northeastern University
- Jeff Seo Assistant Vice Provost for Reseach Compliance Northeastern University
- Peter Hewkin CfBI
9:45 Session 5 Microfluidics Materials
Sebastain Soeckeler z-microsystems
z-microsystems is specialist for microfluidic consumables and Lab-on-a-chip
applications, from development to high volume production of micro-structured
plastic parts. Micro-tooling and micro injection moulding is our passion. 60 years of
experience and a fresh and dynamic team is awaiting you. We would like to be your
inspiring partner from the idea to highvolume production.
Samuele Tosatti Susos
At SuSoS we offer various solutions for surface technology, such as coating products—coated devices or coating chemicals—and services such as coating, surface analysis and contract research.
Since 2004, we have focused on researching the chemical interactions between substrates and coatings, in order to broaden our understanding and optimize and
fine-tune these interactions for many different applications.
Mariam Assidian IMT/Heidenhain “Droplet Generation: How microfluidic architecture and surface chemistry both play key roles”
Double emulsion droplets have a wide variety of uses from the biotech industry to
the food industry to the cosmetics industry. It is important to control the size and
composition of your double emulsion droplet in order to yield your desired results.
By combining elegant architecture and surface chemistry, one can create
consistent droplets for an assortment of downstream applications. Furthermore
we have demonstrated that all techniques employed are bio-compatible and do
not cause any evidence of cytotoxicity.
11:00 Coffee Break / Networking / Table-Top Demos
11:30 Session 6 Research
Ryan Koppes, Assistant Professor, Chemical Engineering,
Northeastern University
Dr. Koppes is developing technologies to break the barrier between synthetic electronics and biological tissue for future onboard diagnostics and repair for cardiovascular disease. In parallel to this aim, he is broadening the understanding of the autonomic nervous system and the bi-directional flow of information between the brain and the cardiovascular system. His work includes polymeric neural interface technologies, with special interest in exploring neuromodulation of
the autonomic nervous system for cardiac health and repair.
Carlos Hidrovo, Assistant Professor, Mechanical Industrial
Engineering, Northeastern University
Dr. Hidrovo’s work in microfluidics centers around two main topics. The first is gas-
liquid droplet microflows for the development of next generation droplet microfluidic
systems, with applications in biochemical sensing and healthcare (drug delivery). The
second key focus is the use of surface microtexturing in microfluidics for friction
reduction. This reduces power consumption and consequently the required ancillary
components needed for operation. This also allows for enhanced convective transport
for better heat dissipation in microchannel cooling applications, such as electronics.
12:15 Session 7 – looking ahead. Microfluidics for Therapeutics
“Particle engineering – integrating microfluidics with novel reagents for higher throughput and performance” Richard Gray.
Richard will talk about the ParticleGEN co-development consortium with lead users
to deliver a new generation of industrial scale particle encapsulation.
. Richard founded Syrris Ltd with Mark Gilligan in 2001, moving to the USA in 2004
to manage the Group’s US subsidiaries. Richard’s background includes fast-track
product and process development in consumer, medical device and industrial
sectors. Before Syrris, Richard was a General Manager in Mettler
Toledo’s Automated Chemistry Group, starting up and leading a 50-strong team in design and manufacturing
of automated drug synthesis equipment.
13:00 Closing Remarks
- Summarizing – what have we learned and where are we going next. Peter
Hewkin
- Jennifer Boyle-Lynch – Co-director Centre for Research Innovation -
Northeastern University
Mrs. Boyle-Lynch is responsible for formulating the vision and executing the mission of the Center for Research Innovation. By merging her extensive experience in business and academia with a passion for generating real-world solutions, she facilitates the movement of Northeastern’s user inspired research from lab to living room.
13:20: Lunch / Networking / Table top demos
14:00 Close
Following this there will be a closed meeting of the ParticleGEN co-development
consortium in an adjacent room in the Snell Building from 14:00 – 16:00 Expressions
of interest to [emailprotected]
Profiles of Table Top Demonstrations
Since 2006, Fluigent develops, manufactures and commercializes innovative microfluidic flow control and
fluid handling solutions for laboratories, research units and industrials around the world
Enabling full control of your microfluidic systems through pressure, flow and
electrical monitoring, Fluigent technologies provide innovating solutions for all
your microfluidic and lab-on-a-chip applications (droplet-based drug testing,
chromatography, cell perfusion, flow chemistry, cells and parasites separation,
dielectophoresis, highly viscous fluids and liquid air manipulations, gene
expression analysis in microdroplet, etc).
Indeed, Fluigent has created the market of pressure-driven flow controllers for microfluidic applications and
low volume fluid handling. The products are based on the patented FASTAB technology optimizing stability
and responsiveness of the flow inside your microfluidic systems (chip, microarray, etc).
In addition to the FASTAB technology, Fluigent owns or licences a portfolio of patents worldwide covering its
core technologies in microfluidic flow control, Lab-on-a-chip devices, diagnosis and life science analysis (cell
capture, etc).
Speaking of the Industry world and Research, Pierre-Gilles de Gennes used to say that « both have everything to gain by working together ». Regarding the frontiers between scientific domains, he stressed that we should be able to overcome them in order to make each scientific domain more successful and fully exploit their potentials. Pierre-Gilles de Gennes Institute – IPGG – has been created along these lines of thought: its goal is to bring together, in a cross-disciplinary domain (microfluidics), experts from various disciplines (physics, biology, chemistry, technology), and develop both fundamental
and applied research. Industrial domains interested by microfluidics are numerous (food industry, medicinal field, cosmetics, oil industry, instrumentation, ...).
Two-time future investments (PSL Equipex & Labex), IPGG brings together all of microfluidics research activities on the Montagne Sainte Geneviève. – Paris. IPGG was inaugurated on 14 March 2016 in the presence of the President of the French Republic François Hollande and the Mayor of Paris Anne Hidalgo. IPGG come from 4 top-flight research institution : ESPCI Paris, Curie Institut, ENS et Chimie ParisTech.
Established in 2005 as the world’s first microfluidic application centre, Dolomite focused
on working with customers to turn their concepts for microfluidic applications into reality.
Today, Dolomite is the world leader in solving microfluidic problems. With offices in the
UK, US and Japan, and distributors throughout the rest of the world, our clients range from
universities developing leading-edge analytical equipment, to manufacturers of chemical,
life sciences and clinical diagnostics systems.
Dolomite’s key strength lies in offering a complete service to customers from problem conceptualisation and
feasibility testing through to full instrument design and development. By Productizing Science™, we have
enabled customers around the world to develop more compact, cost-effective and powerful instruments.
Dolomite also offers a Microfluidic Consultancy to develop a variety of versatile, complex and cutting edge
custom devices, available in exceptionally short lead times.
Whatever your microfluidic requirements and application, Dolomite is the right partner with the right
expertise!
For more information please contact us on +44 (0)1763 242491, [emailprotected] or visit our website www.dolomite-microfluidics.com.
EV Group is a recognized technology and market leader for wafer processing
equipment. The company offers system configurations for R&D and volume
production as well as implementation, process and materials know-how
according to the customer’s needs. Key products include wafer bonding,
lithography and metrology equipment in addition to photoresist coaters,
cleaners and inspection systems. Furthermore, EVG is among the leading
companies in the world providing micro- and nanoimprint equipment capable of hot embossing, UV-NIL and
micro-contact printing. EVG’s technology can thus provide customers with a total solution for microfluidic
device fabrication.
IDEX Health & Science is the global authority in fluidics and optics, bringing to life advanced optofluidic technologies with our products, people, and engineering expertise. Intelligent solutions for life.
Susos knowledge can be divided into four different areas:
Polymer-based, thin-film coatings: Using thin films that are only a few nm thick, you can completely change the surface properties of your product. Various functionalities, such as high lubricity under dry and wet conditions, non-fouling properties, or the selective binding of proteins or antibodies on sensor surfaces, can be seamlessly achieved. We also specialize in adhesion promoters and primers. Coating service: We can coat small series (up to 100 000 parts per annum) right in our own facilities in Dübendorf. With our automated robotic coating system, we are developing industrial coating processes, and supporting our
partners with on-site industrial implementation. Surface-analysis service: With our state-of-the-art analytical technologies, we are able to support
you with the characterization of your product and also with product troubleshooting. Chemical and elemental composition, surface topography, coefficient of friction, film thickness or wetting behavior are just some of the many properties we can analyze for you.
Contract Research: We research and implement new technologies; our work is fast, flexible and transparent. Novel applications can be transferred swiftly and easily for your benefit.
What makes us different from our competitors? From our initial contact through to the final implementation, we accompany our clients every step of the way. We attach enormous importance to the all-round service we offer to our customers, from our evaluation of the problem, through advice that is precisely tailor-made to the needs of each customer, to joint project implementation
z-microsystems is specialist for microfluidic consumables and Lab-
on-a-chip applications, from development to high volume production
of micro-structured plastic parts. Micro-tooling and micro injection
moulding is our passion. 60 years of experience and a fresh and dynamic team is awaiting you. We would
like to be your inspiring partner from the idea to highvolume production
mailto:[emailprotected]
Delegates
Forename Surname Organisation Country
Chris Arico-Muendel GSK US
Don Arnold Veristad US
Mark Aruda Fluigent US
Mariam Assadian IMT/Heidenhain CH/US
Maurice Barakat Cryopak CAN
Osman Bilsel UMass Medical School US
Joel Bresler NorthEastern US
Kris Buchanan Phase Three Product Development US
Olivier Cantada US
Joe Charest Draper Labs US
Tsai Ching-Hsuan GSK US
Miranda Conary Web Industries US
Jonathan Coppeta Draper Labs US
Salil Desai Phenomyx US
David Ellis IDEX US
Jiu-Lian Fong J n J US
Ed Goluch NorthEastern US
Richard Gray Dolomite US/UK
Peter Hewkin CfBI UK
Carlos Hidrovo NorthEastern US
Suneil Hosmane Genfit SA US
Mark Kavonian SigmaMillipore US
Jeffy Kelly Cryopak US
Tania Konry NorthEastern US
Abby Koppes NorthEastern US
Ryan Koppes NorthEastern US
Martin Kramer Sanofi US
Tae Lee GSK US
Carol Livermore NorthEastern US
Tom McCrory Cryopak CAN
Melissa Mendez GSK US
Adam Meziane Fluigent F
Ryan McGuiness Triple Ring Technologies US
Raghu Mokkapati EV Group A
Despina Moschou University of Bath UK
Michael Nolan Cryopak CAN
Claude Larose National Research Council of Canada CAN
Robert Pelletier Fluigent US/F
Gael Peron Cryopak CAN
David Pollard Sartorius Stedim US
Maedeh Roushan Isoplexis US
Mark Saulich NorthEastern US
Jeff Seo NorthEastern US
Arvind Schresta Halma/Diba US/UK
Sonja Smith z-microsystems A
Philip Spuhler BD Bioscience US
Sebastian Stoeckeler z-microsystems A
Roger Tang Triple Ring Technologies US
Brice Tennant NorthEastern US
Samuele Tossetti Susos CH/US
Francois Tremblay Exacad CAN
Stefano Ugolini NorthEastern US
Baris Unal Triton Systems Inc US
Teodor Veres National Research Council of Canada CAN
Remi Wache IPGG F
Ming Wang NorthEastern US
Peidong Wang Thermofisher US
Branston Williams IDEX US
About the Microfluidics Consortium
Tenth Microfluidics Consortium
The Tenth Microfluidics Consortium brings together current and future stakeholders from across a wide range of backgrounds with a shared interest in facilitating the growth of the microfluidics industry through better understanding of the challenges, opportunities and choices which it faces.
We only act in the interests of our members. Our current membership includes: BD (US); EV Group (A) Philips (NL); Micronit (NL); Danaher (USA); Dolomite (UK) ; Fluigent (F); HP (USA); Fraunhofer (D) and Dublin City University (IRL), Idex (USA / D); Labcyte (USA) ; Launchworks (US) ; Philips (NL); IMT (CH), Alveole Labs (F), Susos (CH), Fluidic Analytics (UK); Sartorius Stedim Bioscience (USA) ; National Research Council (Canada) University of Cambridge (UK) and z-microsystems (A)
We organize closed meetings for our members on both sides of the Atlantic where we seek to promote our mission “to grow the market for microfluidics enabled products and services” by
- Finding shared interest across the landscape of applications - Championing modularity and standards where appropriate - Engaging with key industry influencers
While helping our members to do deals along the way.
Twice a year we organize open meetings where non-members are invited to engage with us, learn about our vision and get to meet our members
We also have a high profile on the www, running the Lab-on-a-Chip group on Linked in as well as www.microfluidicsdirectory.com and www.microfluidicsinfo.com
We also support ‘Cadet’ communities of young researchers and start-ups on both the East Coast and the West Coast of the USA.
After Boston our next stops are: Basel (ahead of MicroTAS; UC Berkeley; IPGG Paris)
Members of MF10 get free access to www.cambridgeinnovationsummit.com where all of CfBIs consortia come together.
Visit www.cfbi.com/microfluidics.html or speak to Peter Hewkin to find out more!
MF10 Meeting Location:
Raytheon Amphitheater – Egan Research Center 120 Forsyth Street Boston, Massachusetts 02115 United States
http://www.northeastern.edu/egan/directions.html
(Harvard / Cambridge ^)
Egan Research Center Snell Building
From the north
(via Route I-93 or Route 1)
Take the Storrow Drive exit, and proceed to the Fenway exit. Follow signs for Boylston Street inbound,
(Downtown
Boston/
Logan
Airport)
and bear right onto Westland Avenue. Turn right onto Massachusetts Avenue, proceed to the third
traffic light, and turn right onto Columbus Avenue. The Renaissance Parking Garage is at 835
Columbus Ave.
From the west
(via Route 90, Massachusetts Turnpike)
Take Exit 22 (Copley Square), and bear right. Proceed to the first traffic light, and turn right onto
Dartmouth Street. Take the next right onto Columbus Avenue. The Renaissance Parking Garage is at
835 Columbus Ave.
From the west
(via Route 9)
Proceed east on Route 9; it will become Huntington Avenue. Turn right onto Ruggles Street. At the
fourth traffic light, turn left onto Tremont Street. At the second set of lights, turn left onto Melnea Cass
Boulevard, and then turn left onto Columbus Avenue. The Renaissance Parking Garage is at 835
Columbus Ave.
From the south
(via Route 3, Southeast Expressway)
Take Exit 18 (Massachusetts Avenue), and proceed onto Melnea Cass Boulevard. Continue for
approximately two miles, and turn left onto Columbus Avenue. The Renaissance Parking Garage is at
835 Columbus Ave.
From Logan Airport
Take the Sumner Tunnel to Route 93 north. Proceed to the Storrow Drive exit. Follow the directions
indicated above for "From the north."
Via public transportation
Northeastern is accessible by subway via the Green Line of the MBTA. From downtown Boston, take an
"E" train outbound to the Northeastern stop, the first stop above ground. The campus can also be
reached from downtown via the Orange Line by taking any train going outbound to Forest Hills and
getting off at Ruggles Station. Commuter rail lines connect with the Orange Line at Back Bay Station
and North Station. Visit www.mbta.com for more information on subway, bus and commuter rail
schedules.
Parking
Visitors may park at the Northeastern University Renaissance Parking Garage at 835 Columbus Ave.
Campus Map
NU's campus map can help you locate the parking garage and academic and administrative building.
June 25 reception location
LabCentral
700 Main Street, North
Cambridge, MA 02139
Get Directions
Recommended Hotels:
First Choice: Boston Park Plaza Hotel
http://www.bostonparkplaza.com/
The Boston Park Plaza Hotel & Towers is located in the heart of Boston's historic Back Bay and is just steps
from Boston's most popular attractions. See “A” on map below. This Boston Hotel is located just 2 blocks
from Newbury Street, known for its Designer Boutiques and 5 blocks from the upscale Prudential Center and
Copley Place Mall, featuring more than 200 Shops and Boston Restaurants.
Kendall/MIT
Red Line
Also..
http://www.marriott.com/hotels/travel/bosco-boston-marriott-copley-place/
http://www.colonnadehotel.com/
Boston hotels are VERY EXPENSIVE. If you want to save money pick a hotel out of town and
travel in on the T
More info:
[emailprotected]
++44 1223850173
mailto:[emailprotected]