Press Releases

4
Mar

SEEDR Presents at Health & Humanitarian Logistics Conference

SEEDR presented “Bridging the Relevancy Gap: An innovation-design methodology for value engineering the redesign of vaccine cold chain transport containers” at the 2010 Conference on Health & Humanitarian Logistics.

SEEDR developed the work under its “Reengineering (Reverse) Cold Chain” initiative in partnership with the Global Immunization Division, US Centers for Disease Control & Prevention. Early in SEEDR’s research it became apparent that how the users packed, carried, and interacted with the product was an especially significant factor in determining the success or failure of the cold chain in immunization programs in developing countries.

Yet despite the importance of proper usage, these products lack of relevancy with end users. They can be difficult or ambiguous to use properly and seem not to resonate with the global set of users.

If new technology and product design were to be an effective way to reduce the chances and consequence of user error and overcome this gap, SEEDR would have to maximize the way in which it informed its design process. Overcoming the distance, cultural, and perceptual barriers to connect the design process to the end-user will help form the engineering and design parameters, ultimately driving the containers’ thermomechanical structure, materials composition, physical geometries, visual communications and user instructions, ergonomics and carrying methods.

The resulting design-strategy methodology has produced promising results thus far, “reveal[ing] previously uncontextualized behavioral patterns and failure points, connected the designers to a global sample of users, and facilitated user input and simulation and survey data to drive decision making.”

The relevancy gap between designers/manufacturers and the end users pervades many of the products upon which those in developing countries rely. SEEDR believes the methods developed could have potential in addressing the relevancy gap for other products important to health, development, and humanitarian logistics.

The work’s authors included Michael Moreland, SEEDR strategist and managing director, Victoria Gammino, epidemiologist with the Global Immunization Division, US Centers for Disease Control & Prevention, Sue Gerber, public health advisor with the Global Immunization Division, US Centers for Disease Control & Prevention, and Scott Wellman, SEEDR’s lead cold-chain engineer.

SEEDR’s partners at the Tennenbaum Institute also presented the work they have been doing under the SEEDR cold-chain initiative. Trustin Clear and William Rouse presented the methodology of the discrete event simulation (DES) model they have built to quantify the effects of transport equipment in the immunization cold chain.

The model simulates the relationships between specific cold chain equipment, the vaccine and ice they container carry, and the climatic conditions and duration of given nodes in the chain. With the ability to simulate the conditions and durations for any link in any chain, the model allows SEEDR to simulate any given combination of conditions the containers might encounter, including transport delays and unexpected temperature extremes. These simulations, run hundreds of thousands of times at every possible permutation, show the wherewithal and systemic consequences of different types of equipment under different conditions.

SEEDR can model the impact of various design decisions and, by placing the primary and higher-order benefits of improved cold chain containers in the context of these simulated environments and real-world scenarios, begin to assess the value created by equipment innovation in immunization programs.

The Georgia Tech’s Health & Humanitarian Logistics Center, a unit of the Supply Chain & Logistics Institute hosts the annual conference, now in its second year, at the Georgia Tech hotel in Tech Square in Atlanta, Georgia. This year’s conference featured speakers from US Department of Homeland Security, UN World Food Programme, Doctors Without Borders/Medecins Sans Frontieres (MSF), US Centers for Disease Control & Prevention (CDC), American Red Cross, US Africa Command (AFRICOM), Disaster Resilience Leadership Academy at Tulane University, United Parcel Service (UPS), CARE International, Clinton Foundation, and more.

—————–

DOWNLOAD the “Bridging the Relevancy Gap” abstract.

DOWNLOAD the “Bridging the Relevancy Gap” poster.

SEEDR’s poster on display at the 2010 Conference on Health & Humanitarian Logistics.

24
Feb

SEEDR Helping Shape Future of Global Cold Chain

Posted by admin (0) Comment

At the November 2009 the GAVI Alliance Partners Forum in Hanoi, a group of 43 participants met to discuss their vision for future supply-chain systems for health. The resulting 2025 Vision is intended to be the common platform upon which all key partners at the country, regional, and global levels can unite to align short-term actions to achieve long-term goals.

Brent Burkholder, Director of the Global Immunization Division of the US Centers for Disease Control & Prevention and Ibrahim El-Ziq of the United Nations Children’s Fund (UNICEF) Supply Division reported the results of the GAVI Alliance Forum and explained the vision for the future of global immunization systems in the Project Opimize newsletter, which reached global audiences via TechNet21, the “Technical Network for Strengthening Immunization Services.”

Their report includes the following summary of the vision and objectives for the global immunization community:

Vision: By 2025, state-of-the-art supply systems meet the changing needs of a changing world.

Objective: To enable the right vaccines to be in the right place, at the right time, in the right quantities, in the right condition, at the right cost. Specific steps to achieve this objective are listed below:

Vaccine products and their packaging are designed with characteristics that best suit the operational needs of countries while ensuring that the highest standards of safety are maintained.

Vaccine distribution systems are streamlined for maximum efficiency and are built around mechanisms that support continuous learning to improve system performance.

Vaccine supply systems are integrated with the supply systems of other health programs to maximize synergies and make the best strategic links with the private sector.

The environmental impact of energy, materials, and processes used in vaccine distribution systems at the national and international levels is monitored and minimized.

The report highlights the efforts of major collaborators, including Project Opimize’s work to “encourage innovation and support policy changes that enable the right products and systems to be adopted and scaled up.”

The report goes on to describe SEEDR’s role in helping the global immunization community achieve these objectives.

Another collaborator, the Social, Environmental, and Economic Design Research (SEEDR) group, in a Bill & Melinda Gates Foundation-funded collaboration with the Global Immunization Division at the US Centers for Disease Control and Prevention, is prototyping passive cold chain equipment with next-generation manufacturing and materials technologies. SEEDR is reengineering a vaccine carrier, long-range cold box, and specimen transport container using recycled materials to increase cold life, decrease container weight, and improve affordability.”

SEEDR is excited and inspired by the potential its work holds for the global immunization community and looks forward to growing its contribution and commitment to the vision for a healthier, safer, more equitable planet through the proper application of technology, design, collaboration, and social enterprise.

SEEDR L3C is a design and commercialization incubator located in Atlanta. Much of SEEDR’s work involves emerging technologies, proprietary design and engineering, public-private partnerships, and blended for-profit and philanthropic commercialization structures for new products and policies that all fall in areas where public and private interests converge, such as public health, infrastructure, and renewable energy.

This social-enterprise approach to innovation requires that SEEDR work between and amongst private, governmental, academic, and philanthropic sectors. SEEDR has built a team of strategists, grant and proposal writers, financial engineers, designers, IP and finance attorneys, and an advisory board with members from different countries, disciplines, and sectors all in order to bring resources, expertise, and funding to the projects, technologies, and partners included in its initiatives.

This new strategic frontier requires a progressive law firm to council on matters of structure, risk, and opportunity. The size, resources and talents found at the Benesch Law Firm complement SEEDR’s experience in identifying, structuring, and packaging future projects while managing existing projects. SEEDR looks forward to a long relationship with Benesch Law Firm exploring and innovating in the space where technology, design, policy, law, and mission meet.

Benesch is a business law firm with offices in Cleveland, Columbus, Philadelphia, Shanghai, White Plains and Wilmington. The firm services national and international clients that include public and private, middle market and emerging companies as well as private equity funds, entrepreneurs, non-profit organizations, trusts and estates. Practice areas include Business Reorganization, Commercial Finance & Banking, Corporate & Securities, Economic Growth & Development, Employee Benefits & Compensation, Estate Planning & Probate, Intellectual Property, Labor & Employment, Litigation, Public Finance, Public Law, Real Estate & Environmental and Tax. Some of the industries the firm concentrates in include Private Equity, Banking, China, Health Care, Polymers, Transportation & Logistics, Energy & Natural Resources and Construction.

For more information, visit www.beneschlaw.com.

SEEDR has been invited to advise a senior capstone design studio course this Spring 2010 at Georgia Tech. Thirty-three students (18 mechanical engineering, 11 industrial design, and 4 architecture) will participate in multidisciplinary teams to work on projects addressing humanitarian causes such as clean water, shelter, and immunization.

The projects, sourced from NGOs and multilateral aid agencies, include a water acquisition and distribution for Nicaragua, a net-zero energy health care clinic for Tunisia, a net zero energy stand alone vaccine cold room for Tunisia, a vaccine cool box, a birthing kit for Papua New Guinea, and an immunization and well-being health care post kit for Papua New Guinea.

SEEDR is excited to participate in what SEEDR director, Michael Moreland, described as the “important, meaningful, and promising application of the Institute’s world-class engineering and design resources.” He added, “SEEDR is pleased to see Georgia Tech interested in integrating and transcending disciplines. This multidisciplinary approach is necessary if we are to succeed in answering the pressing engineering, design, and social science questions that development and humanitarian response present our generation.”

SEEDR will advise the graduating seniors on matters of research and design methods, multidisciplinary collaboration techniques and concepts, and designing for manufacturability, scale, and accessible and sustainable commercialization.

The course’s instructors are Sabir Khan, Associate Professor and Associate Dean of the College of Architecture, and Dr. Jonathan Colton, Professor of Mechanical Engineering and Director of the Center for Polymer Processing.

ATLANTA – SEEDR L3C, an Atlanta-based solution and innovation design firm, has received a grant from the Bill & Melinda Gates Foundation to redesign and reengineer cold-chain containers used in global and domestic vaccine and disease-monitoring programs. SEEDR will partner with the U.S. Centers for Disease Control and Prevention (CDC) and the Georgia Tech Tennenbaum Institute (TI) on this project.

Countries and multinational aid agencies rely on these containers to maintain vaccines at required temperatures as they are shipped and delivered to children around the world. They also use the containers to transport specimens or other biological products such as blood back from the field to laboratories for diagnosis and epidemiological surveillance.

“From polio to measles to the H1N1 virus, this technology has the potential to enhance efforts to locate and eradicate the world’s most-threatening diseases,” said SEEDR Managing Director Michael Moreland.

The redesigned containers will use applied science developed by SEEDR technology partner Global Tech International (GTI). GTI is the inventor of Powder Impression Molding (PIM) and Molecular Modification Technology (MMT), both of which have found success in automotive and aerospace industries and have applications for the cold-chain containers.

The new containers have the potential to strengthen immunization and disease surveillance programs by reducing vaccine and specimen loss. In addition, these lighter and less-expensive containers offer substantial cost-savings potential. With approximately 135 million children born in 2009, global immunization efforts cost billions of dollars. The CDC Global Immunization Division alone will spend $170 million on such efforts this year.

Dr. Brent Burkholder, Director of the CDC Global Immunization Division, said he hopes the project can “protect the significant investment in costly vaccines, and, more importantly, to ensure the safety of those receiving immunizations.”

The SEEDR-led project is a unique combination of expertise from government, private enterprise, academia and philanthropy. “This type of public-private partnership facilitates the application of the most cutting-edge technologies to difficult and sometimes intractable public health problems,” said Dr. Victoria Gammino, project co-investigator and CDC epidemiologist.

GTI’s containers are built with recycled materials. This is attractive to the CDC, which is focused on delivering vaccines – an energy and resource-intensive effort — with a smaller environmental impact. Sue Gerber, CDC co-investigator for the project, noted that, “we have the opportunity to improve vaccine delivery capacity while reducing the environmental impact of the cold chain.”

Tennenbaum, the global enterprise and innovation think tank at Georgia Tech, is building a simulation model to measure the potential impact the containers will have on the costs and effectiveness of the vaccines.

Press Releases

SEEDR Presents at Health & Humanitarian Logistics Conference

SEEDR Helping Shape Future of Global Cold Chain

New Strategic Partnership with Benesch Law

SEEDR to Advise Multidisciplinary Design Studio at GT

SEEDR Receives Grant to Develop Cold Chain Containers