Nav: Home

Wyss Institute and Lumos Labs launch research collaboration on memory of high performing individuals

March 09, 2017

Researchers at the Wyss Institute for Biologically Inspired Engineering and Harvard Medical School (HMS)'s Personal Genome Project (PGP) announced today a new collaboration with Lumos Labs, makers of brain training program Lumosity. The PGP-Lumosity memory project aims to leverage the PGP's and Lumos Labs' unique resources and expertise to investigate the relationship between genetics and memory, attention and reaction speed.

Wyss scientists plan to recruit 10,000 members from the PGP which started in 2005 in the laboratory of George Church, Ph.D., a founding Core Faculty member of the Wyss Institute and also Professor of Genetics at Harvard Medical School. Participants in the PGP publicly share their genome sequences, biospecimens and healthcare data for unrestricted research on genetic and environmental relationships to disease and wellness. Wyss Institute researchers will use a select set of cognitive tests from Lumos Labs' NeuroCognitive Performance Test (NCPT), a brief, repeatable, accessible web-based alternative to traditional pencil-paper cognitive assessments to evaluate participant's memory functions, including their ability to recall objects, memorize object patterns, and response times.

Church's research team at the Wyss Institute and HMS, spearheaded by Postdoctoral Fellows Elaine Lim, Ph.D., and Rigel Chan, Ph.D., will correlate extremely high performance scores with naturally-occurring variations in the participants' genomes. "Our goal is to get people who have remarkable memory traits and engage them in the PGP. If you are exceptional in any way, you should share it not hoard it," said Church.

To validate their findings, the team will take advantage of the Wyss Institute's exceptional abilities to sequence, edit and visualize DNA, model neuronal development in 3D brain organoids ex vivo, and, ultimately, to test emerging hypotheses in experimental models of neurodegeneration.

"The Wyss Institute's extraordinary scientific program and the Personal Genome Project's commitment to research that is both pioneering and responsible make them ideal collaborators," said Bob Schafer, Ph.D., Director of Research at Lumos Labs. "Combining Lumosity's potential as a research tool could help us learn more about how our online assessment can help power innovative, large-scale studies."

Drs. Church, Lim and Chan plan to begin recruitment for this study in early March.

The PGP-Lumosity memory project is the latest in a long line of exciting research collaborations supported by each platform. Through their Human Cognition Project, Lumos Labs is currently working with independent researchers at over 60 different institutions and investigating a range of topics, including normal aging, certain clinical conditions and the relationship between exercise and Lumosity training. Existing collaborative projects available to PGP participants include stem cell banking with the New York Stem Cell Foundation, "Go Viral" real-time Cold & Flu surveillance, the biology of Circles with Harvard Medical School, Genetics of Perfect pitch with the Feinstein Institute for Medical Research, characterizing the human microbiome in collaboration with American Gut, and discounted whole genome sequencing strategies.

With the PGP's aim to serve as a portal that empowers the public to drive scientific discovery through their participation, this collaboration is a synergistic convergence of two uniquely positioned organizations that combine science with broad outreach.

"What excites us about this project is opening up groundbreaking technologies developed at the Wyss Institute to explore the relationship between genetics and memory with possible implications for Alzheimer's and other diseases," said Wyss Institute Founding Director Donald Ingber, M.D., Ph.D., who is also the Judah Folkman Professor of Vascular Biology at Harvard Medical School and Boston Children's Hospital, and Professor of Bioengineering at Harvard SEAS.

For more information or to register for the study, please visit: https://wyss.harvard.edu/pgp-lumosity.
-end-
The Wyss Institute for Biologically Inspired Engineering at Harvard University

The Wyss Institute uses Nature's design principles to develop bioinspired materials and devices that will transform medicine and create a more sustainable world. Wyss researchers are developing innovative new engineering solutions for healthcare, energy, architecture, robotics, and manufacturing that are translated into commercial products and therapies through collaborations with clinical investigators, corporate alliances, and formation of new startups. The Wyss Institute creates transformative technological breakthroughs by engaging in high risk research, and crosses disciplinary and institutional barriers, working as an alliance that includes Harvard's Schools of Medicine, Engineering, Arts & Sciences and Design, and in partnership with Beth Israel Deaconess Medical Center, Brigham and Women's Hospital, Boston Children's Hospital, Dana-Farber Cancer Institute, Massachusetts General Hospital, the University of Massachusetts Medical School, Spaulding Rehabilitation Hospital, Boston University, Tufts University, Charité - Universitätsmedizin Berlin, University of Zurich and Massachusetts Institute of Technology.

Personal Genome Project

The Personal Genome Project (PGP) started in 2005 in the laboratory of George Church. The PGP pioneered the concept of open and accessible research projects in the post-genomics era. Participants in the PGP publicly share their genome sequences, biospecimens and healthcare data for unrestricted research on genetic and environmental relationships to disease and wellness. PGP participants are also welcome to upload their own DNA and healthcare data obtained from healthcare providers and third parties offering direct-to-consumer genetic testing.

Lumos Labs

Lumos Labs is the maker of brain training program Lumosity and online cognitive assessment, the NeuroCognitive Performance Test (NCPT). The NCPT is designed to measure functioning across working memory, visuospatial memory, psychomotor speed, fluid and logical reasoning, response inhibition, numerical calculations, and selective and divided attention. In 2015, Lumos Labs' science team published results from a comparison of NCPT to traditional pencil-paper neuropsychological assessments in Frontiers in Psychology. The analysis found that the NCPT is reliable, is sensitive to expected age-related cognitive effects, and exhibited concurrent validity to standard neuropsychological tests. Lumos Labs' research initiative, the Human Cognition Project, currently partners with over 90 independent researchers with the aim of accelerating the pace of cognitive research. By providing access to Lumosity's cognitive training program, assessments, and longitudinal data, the Human Cognitive Project allows researchers to run larger, faster, and more accessible studies.

Lumosity

Related Memory Articles:

Memory boost with just one look
HRL Laboratories, LLC, researchers have published results showing that targeted transcranial electrical stimulation during slow-wave sleep can improve metamemories of specific episodes by 20% after only one viewing of the episode, compared to controls.
VR is not suited to visual memory?!
Toyohashi university of technology researcher and a research team at Tokyo Denki University have found that virtual reality (VR) may interfere with visual memory.
The genetic signature of memory
Despite their importance in memory, the human cortex and subcortex display a distinct collection of 'gene signatures.' The work recently published in eNeuro increases our understanding of how the brain creates memories and identifies potential genes for further investigation.
How long does memory last? For shape memory alloys, the longer the better
Scientists captured live action details of the phase transitions of shape memory alloys, giving them a better idea how to improve their properties for applications.
A NEAT discovery about memory
UAB researchers say over expression of NEAT1, an noncoding RNA, appears to diminish the ability of older brains to form memories.
Molecular memory can be used to increase the memory capacity of hard disks
Researchers at the University of Jyväskylä have taken part in an international British-Finnish-Chinese collaboration where the first molecule capable of remembering the direction of a magnetic above liquid nitrogen temperatures has been prepared and characterized.
Memory transferred between snails
Memories can be transferred between organisms by extracting ribonucleic acid (RNA) from a trained animal and injecting it into an untrained animal, as demonstrated in a study of sea snails published in eNeuro.
An immunological memory in the brain
Inflammatory reactions can change the brain's immune cells in the long term -- meaning that these cells have an 'immunological memory.' This memory may influence the progression of neurological disorders that occur later in life, and is therefore a previously unknown factor that could influence the severity of these diseases.
Anxiety can help your memory
Anxiety can help people to remember things, a study from the University of Waterloo has found.
Pores with a memory
Whether for separation processes, photovoltaics, catalysis, or electronics, porous polymer membranes are needed in many fields.
More Memory News and Memory Current Events

Trending Science News

Current Coronavirus (COVID-19) News

Top Science Podcasts

We have hand picked the top science podcasts of 2020.
Now Playing: TED Radio Hour

Teaching For Better Humans 2.0
More than test scores or good grades–what do kids need for the future? This hour, TED speakers explore how to help children grow into better humans, both during and after this time of crisis. Guests include educators Richard Culatta and Liz Kleinrock, psychologist Thomas Curran, and writer Jacqueline Woodson.
Now Playing: Science for the People

#556 The Power of Friendship
It's 2020 and times are tough. Maybe some of us are learning about social distancing the hard way. Maybe we just are all a little anxious. No matter what, we could probably use a friend. But what is a friend, exactly? And why do we need them so much? This week host Bethany Brookshire speaks with Lydia Denworth, author of the new book "Friendship: The Evolution, Biology, and Extraordinary Power of Life's Fundamental Bond". This episode is hosted by Bethany Brookshire, science writer from Science News.
Now Playing: Radiolab

Dispatch 3: Shared Immunity
More than a million people have caught Covid-19, and tens of thousands have died. But thousands more have survived and recovered. A week or so ago (aka, what feels like ten years in corona time) producer Molly Webster learned that many of those survivors possess a kind of superpower: antibodies trained to fight the virus. Not only that, they might be able to pass this power on to the people who are sick with corona, and still in the fight. Today we have the story of an experimental treatment that's popping up all over the country: convalescent plasma transfusion, a century-old procedure that some say may become one of our best weapons against this devastating, new disease.   If you have recovered from Covid-19 and want to donate plasma, national and local donation registries are gearing up to collect blood.  To sign up with the American Red Cross, a national organization that works in local communities, head here.  To find out more about the The National COVID-19 Convalescent Plasma Project, which we spoke about in our episode, including information on clinical trials or plasma donation projects in your community, go here.  And if you are in the greater New York City area, and want to donate convalescent plasma, head over to the New York Blood Center to sign up. Or, register with specific NYC hospitals here.   If you are sick with Covid-19, and are interested in participating in a clinical trial, or are looking for a plasma donor match, check in with your local hospital, university, or blood center for more; you can also find more information on trials at The National COVID-19 Convalescent Plasma Project. And lastly, Tatiana Prowell's tweet that tipped us off is here. This episode was reported by Molly Webster and produced by Pat Walters. Special thanks to Drs. Evan Bloch and Tim Byun, as well as the Albert Einstein College of Medicine.  Support Radiolab today at Radiolab.org/donate.