Fresh Pond, Cambridge
Credit: Anita M. Harris

I often run at Fresh Pond. True,  I have a “running” debate with my exercise app, which sometimes  calls what I do “walking”  but be that as it may… I have struck up a number of very cordial relationships, there, with the dogs and their humans.

Ordinarily,  everyone is quite friendly (though I can get a bit ferocious when a human attached to three dogs on leashes blocks the entire width of running path).

But a  few weeks ago,  I ran into a spate of ungracious humans who yelled at me that I was running on the wrong side of the road, gave me the finger (to be honest, I responded in kind)  and one who even tried to force me off the dirt path. I asked Ranger Jean Rodgers if there are right-of-way rules for the Pond. 

Here’s her response.

Dear Anita,

Thank you for taking the time to write and share your experiences here at Fresh Pond Reservation.  I’m sorry to hear you are having some less than civil interactions with other users.  Soft running surfaces are in short supply here at Fresh Pond.  No one has a right to them to the exclusion of others. As with all public spaces, sharing and civility are required however frustrating.   If most people keep to the right as they are able, travel on the Perimeter Road would have a level of predictability.  

The behavior of others as you have reported it is unacceptable for any reason.  I will post some signs in our information boards, the ranger station and at entrances excerpted from the street code booklet that help visitors know that sharing and civil interactions are  expected.

The City has just issued “Street Code, Rules and Etiquette for Getting There Together” to address the need for safe and civil behavior when people are moving about the City’s Public Spaces.  Shared Path Etiquette is addressed on page 16. I plan to post it around the Reservation.  http://bit.ly/CambridgeStreetCode  

Here’s a summary and some links to our Shared Use Plan that was developed a while ago with the public to encourage civil interactions and use of Fresh Pond Reservation:

https://www.cambridgema.gov/Water/freshpondreservation/aboutfreshpond/shareduse

Shared Use Plan 

As the terminal reservoir in the water system that provides drinking water to the City of Cambridge, Fresh Pond Reservation serves as in important buffer to protect the health and water quality of Fresh Pond.  The Reservation is also an important open space for Cambridge residents and visitors. Due to limited space on paths, trails, and open areas, as well as increasing popularity due to restoration efforts, occasional conflicts among users can arise. To address these conflicts, the City sought to engage the public in order to develop a shared vision for future use and a clear implementable plan between the Summer 2010 and Spring 2011. The result of this process was the Shared Use Plan with the intent to accomplish the following objectives (in no particular order):
*Protect the flora, fauna, and overall ecosystem and water supply, 
*Promote a welcoming and safe place, 
*Provide for a multitude of recreational activities, 
*Promote mutual respect and civility among users, 
*Improve communication among users and with those managing the Reservation, 
*Provide for additional education and opportunities to participate in stewardship, 
*Enhance user safety and enforcement through rules that are easy to understand, posted, and enforceable, 
*Provide for enjoyment by current and future generations. 

Please feel free to put the ranger phone number (617 349-xxxx) in your phone contact list and call me to come out and assist if you if people don’t settle down and share the space with you.   I do my best to answer the phone whether I’m on or off duty.   If someone threatens you or puts a hand on you, call the police for immediate assistance (911 or at their business number 617 349-3300).

We all matter and we all make a difference.

Jean Rogers
Chief Ranger
Fresh Pond Reservation

Anita Harris is a writer and communications consultant based in Cambridge, MA.
New Cambridge Observer is a publication of the Harris Communications Group, also in Cambridge.

Much enjoyed last week’s opening of the Koch Institute’s 2017 Image Awards Exhibition. The exhibit, dubbed “with/in/sight”  includes 10 scientific images chosen as best-in-class from among some 120 entries from MIT life scientists and their collaborators across the country–and one from Ireland.

The display, in the public galleries at the Koch Institute for Integrative Cancer Research, is the Koch’s seventh in as many years. Its goal is to celebrate “the diversity of biomedical research at MIT and offers insight into the important role that science and engineering play in our complex and ever-changing world,” according to a Koch brochure.

The images are printed on t-shirt material stretched across frames back lit with LEDs. They are striking artwork in themselves– and showcase some of the most exciting work under way in the cancer research arena.

“Making Waves: Delivery for Ageless Skin.” Koch Institute, Harvard University, Mass General Hospital.

“Making Waves” conveys research on non-invasive sound waves that carry genetic material through protective layers of skin, transferring genes to cells whose genetic clocks have been turned back by the nucleic acids they have received– in order to reverse skin-aging. Credits go to Carl Schoellhammer, Denitsa Milanova, Hamberto Trevino, Cody Cleveland, Jeffrey Wyckoff, Anna Mandinova, Giovanni Traverso, Robert Langer, and George Church.

Whithead Institute: Snap Chat: A Flatworm Creates a New Profile

At the Whitehead Institute, Samuel LoCascio, Kutay Deniz Atabay and Peter Reddien are studying planarian flatworms to learn more about how they regerate. Each color in their image represents a different layer of neurons in the flatworm’s head.

Downstream Dreams: Investigating Melanoma in a Zebrafish: Koch Institute, MIT

Dahlia Perez and Jacqueline A. Lees are studying zebrafish to provide insight into melanoma. This image shows the organization of zebrafish cells in their normal state. Next, biologists will mutate a single gene known to initiate a certain melanoma in order to determine its “downstream” effects.

Center: “Minding the Gap: Studying the Tumor Extracellular Matrix,” Koch Institute

Tumor Penetrating Nanoparticles Infiltrate Cancer Cells, Koch Institute

Steffen RIckelt and Richard Hynes of the Koch Institute are studying not the clusters of brownish colon cancer metasteses shown in the image, screen, but, rather, the “seeming neutral” tissue matrix around them. The goal is determine how the matrix impacts the progression of tumor cells navigating a complex network of cells and proteins.

Langliang Hao, Srivatsan Raghavan, Emilia Pulver, Jeffrey Wyckoff and Sangeeta Bhatia of the Koch Institute are using  biocompatible nanoparticles (yellow) to target and penetrate clusters of cancer cells (pink) with the goal of delivering treatment.

Body of Knowledge: Self-Organized Brain Cells, MIT Department of Biological Engineering and Koch Institute at MIT.

Colin Edington, Iris Lee and Linda Griffith of MIT are involved in the Griffith lab’s “Human on a Chip,” project, in which many different”mini organs”, developed from stem cells in matrix, are linked together in a bioreactor platform. The researchers are studying interactions of multiple organs and the cross between them in order to develop new disease treatments. Shown here are neurons (green) and astrocytes (red).

Microfluidics for the Masses, Measuring Cell Growth Rates, Koch Institute

Selim Olcum, Nathan Cermak and Scott Manalis are using microfluidics to measure the response of cell masses to drugs. Their image shows fluid filled channels (bottom) connected to tiny mass sensors shaped like hollow diving boards (top); the sensors’ whose  vibrations precisely reveal the mass of individual cells passing through them. As treated cells flow across the array of sensors, each cell is weighed multiple times, thereby revealing how quickly the mass of individual cells is changing. Researchers are beginning to use this method to predict optimal treatment strategies for individual patients.

Hashtag No Filter,: Visualizing Breast Cancer Conversations. Royal COllege of Surgeons in Ireland and Wellcome Images.

My favorite image does not show cells, nor was it submitted by an MIT lab. Rather, it visualizes twitter conversations about breast cancer carried out by a network of connected cancer patients and their loved ones, patient advocates, health care professionals, and researchers. The image, by Erie Clarke, Richard Arnett and Jane Burns of the Royal College of Surgeons in Ireland,  represents 92, 915 tweets posted over an eight-week period. It is from the Wellcome Images collection.

Other images not included here display pathways taken by metatastic lung cancer cells over time and  ovarian cancer cells as they break through the abdominal wall.

I’m the first to admit that these photos do not do justice to the real images–nor do they adequately convey the amazing convergent technologies –including imaging–used to carry out the research.

The gallery,  at street level in the Koch Institute, 500 Main Street, in Cambridge, is open to the public at no charge from 8-6 Monday-Thursday, and until 4 pm on Friday. The images are also visible from the sidewalk, outside.

Through March 2018.

Anita Harris is a writer, photographer and communications consultant based in Cambridge, MA.
New Cambridge Observer is a publication of the Harris Communications Group, an award-winning PR and market development firm located in Kendall Square, Cambridge.

With all of the sturm, drang, disruption and depression in Cambridge last week after Donald Trump was elected President, I thought I’d retreat to upstate New York to commune with nature and art.

The nature went well,  but as it turned out, there was a shooting, probably gang-related, at Crossgates Mall, not far from my family home. There was news of hate crimes in New York  and elsewhere. And  I arrived at the Tang Museum at Skidmore College a few minutes too late for a community discussion of the election and its aftermath.

The discussion had been held beneath an installation called “Flag Exchange,”  comprised mainly of torn American flags. The flags collected as part of a multi-year project in which artist Mel Ziegler traveled across the US— offering new replacement flags for tattered ones flying at homes, post offices, businesses, and other public locations. The exhibit also included picnic tables painted red, white, and blue–all aimed at provocation and one would hope thoughtful dialogue on the current state of democracy.

After  accepting the gift of  a safety pin (the post-Trump election symbol of solidarity with those who have experienced racism, homophobia, xenophobia and such),  I did manage to escape somewhat into art in a wonderfully expansive  exhibit called “Six-fold Symmetry: Pattern in Art and Science,” curated by Skidmore faculty from a variety of disciplines.*

Among my favorite pieces were:

Drawing Memory, 2016, a wall-sized installation in which Nigerian artist Victor Ekpuk (b. 1964) uses white chalk on black-painted background to evoke and build on his understanding of Nsibidi, an African art form used by the secret Ekpe, or (Leopard Society). Art history Professor Emeritus Lisa Aronson writes that while he remains an outsider to the society, Ekpuk’s work resembles the dense and crowded aesthetic of Nsibidi (which is  often played out on cloth) giving his viewers a complex display of imagery to decode. Ekpuk’s wall drawings mirror Nsibidi’s impermanent and performative nature, both in his preferred use of an erasable chalk medium and his practice of removing the murals from the wall at the end of exhibition.

First Family–Hexagon, 2010

Iranian born Monir Farmanfarmaian (b.1924) synthesizes Persian history and artistic traditions and western geometrical abstraction in her mirrored sculpture “Hexagon.” According to  Computer Science Professor Michael Eckman, the calculation and geometry of 14th century mosaics are closely tied to Sufism, the mystical aspect of Islam, and its sacred numerology. As Farmanfarmaian explains, “The six sides of the hexagon are the directions, forward, backward, right, left, up, down. The hexagon also reflects the six virtues: generosity, self-discipline, patience, determination, insight and compassion. All the mosques in Iran, with all the flowers and the leaves and the curves and so on are based on hexagons. For me, everything connects with the hexagon.”

 Arachna’s Arcade, 2008, by Providence, RI, sculptor Dean Snyder (b. 1955) is a “drawing in space,” of a spider web. Its  “silk” is composed of highly-polished steel–which makes the web appear almost photographic in that it transposes the outside garden into the Tang gallery, curator Rachel Seligman, associate professor of mathematics, points out.

Energy Scaffolds and Information Architecture (Return to Formlessness), 2015  With use of color pencil, graphite and architectural stencils on antique ledger book pages, the intricate drawings of American artist Louise Despond (b. 1983) emerge  “organically”,  beginning with a few marks on paper but with no formal plan.  “Each drawing is a process of discovery, with a larger, universal force guiding the emerging patterns. This intuitive process generates imagery that is symmetrical, highly geometric and possessed of an expressive energy that she feels is connected both the spiritual realm and to nature,” Seligman writes.

Hours 1-8, 2016. In this series of oil paintings on linen, Grace DeGennera (b. 1956 ) “explores the ways we experience the passage of time.”  As  Roe-Dale points out, DeGennera uses “iteration”  to depict this movement, not unlike  the way in which mathematicians iterate a model (as Gravner and Griffeath did to generate their “snowfake”, described below). “Time that progresses discretely is visualized in her beads of pigment, suggesting a clock ticking …hour by hour,” Roe-Dale writes. “From afar, however, the series evokes the continuous unbroken flow of time from past to future, through the loosely brushed washes of color in the backgrounds, which reflect the shifting light as day turns into night.”

Bentley “photo” of real snowflake

Wilson Bentley’s “Snowflakes” are captured through novel
photomicrosopy techniques he developed  starting in 1885. Bentley (1865-1931) a farmer and amateur meteorologist, was the first to photograph a single snow crystal. According to Roe-Dale, Bentley’s work responds to the 1611 inquiry of  German mathematician and astronomer Johannes Kepler’s  into the genesis of forms and to his theories about he origin of the intricate hexagonal pattern of the delicate snowflake structure.

Snowfake

Snowfakes
In 2016, Janka Gravner (b. Slovenia, 1960)  and David Griffeath (b. US, 1948)  used a mathematical model to computationally generate what they call “snowfakes.”. A goal was to investigate the formation of snow crystals and perhaps to advocate for the human ability to replicate natural, ordered beauty with deliberate, algorithmic design. According to Roe-Dale, Gravner and Griffeath used the methods of cellular automation to account for physical variables such as temperature, pressure and water vapor density in modelling the diffusive, freezing, attachment and melting actions of individual water molecules in a matrix of three dimensional space. They came up with more than 80 types of snowflake crystals generated by nature, thus providing insight into the form and design of ice and other crystalline solids.

*
Thomas Bansted’s “Last of the Dreadnaughts,” 2011-2012, (below) is  based on “Dazzle,” a pattern of disruption conceived by British artist Norman Wilkinson in 1917.  During World War I, Wilkinson commanded a unit in the Royal Academy, in which artists and students created bold patterns used on ships to make it difficult for submarines to predict boats’ paths or aim weapons.

In “Dreadnaughts,” Bangsted, (b. Denmark, 1976) created a series of large-scale digitally-assembled photographs of World War I ships.  Associate Art Professor Sarah  Sweeney writes that in his manipulations, Bangsted applies a Dazzle pattern that “highlights the incongruity of the ship with its background”–breaking up the form of the ship and concealing its identity.

As explained on the Tang Website, Patterns, systems, and networks are all around us, and in this digital age we are increasingly aware of their influence on our lived experience. This exhibition explores some of the ways in which human beings create and manipulate patterns, and why we are intrinsically driven to do so. Patterns allow us to understand and predict complex natural and cultural phenomena, and to create artworks and other structures of surprising complexity and unity.

Yet the exhibit also shows that in nature–as in snowflakes and spider webs–while amazing and beautiful patterns exist, no two creations  are exactly alike, and patterns are enhanced and enlivened by variation.

Given the current political situation, it strikes me that that much as we may crave the comfort and safety of ongoing patterns, we can also be bored by them. And that as inhabitants of the natural world we must expect–and find beauty despite– disruption in our lives.

I highly recommend the exhibit, which will be at the Francis Young Tang Teaching Museum and Art Gallery at Skidmore College in Saratoga, New York, until March 12, 2017.

*The exhibition was co-curated by Rachel Roe-Dale, Associate Professor of Mathematics, and Rachel Seligman, Assistant Director for Curatorial Affairs, Tang Museum, in collaboration with: Lisa Aronson, Professor Emeritus of Art History; Grace Burton, Associate Professor of Spanish; Michael Eckmann, Associate Professor of Computer Science; Rebecca Johnson, Associate Professor of Psychology; Elizabeth Macy, Visiting Professor of Music; Josh Ness, Associate Professor of Biology; Gregory Spinner, Teaching Professor in Religious Studies; and Sarah Sweeney, Associate Professor of Art. The exhibition is supported by The Andrew W. Mellon Foundation and Friends of the Tang.

–Anita M. Harris
Anita Harris is an author, photographer and communications consultant based in Cambridge, MA. 

New Cambridge Observer is publication of the Harris Communications Group, an award-winning PR and digital marketing firm located in Kendall Square, Cambridge.

MIT, Convergence Idea Challenge

For the  last few months, I’ve had the opportunity to work on an amazing national report about the Convergence of technologies in the life sciences. The goal of the report–which will be launched this coming Friday at the National Academy of Sciences, in Washington, DC– is to encourage  increased  funding for engineers, mathematicians, physicists, chemists, and information technologists for work in health and life science fields.  More on the report and Convergence later this week.

For now, I want to let you know that Nobel Prize winning scientist Phil Sharp of the MIT Koch Institute  has offered a $3000 award for the best Convergence idea submitted by students across the US–and that the public is invited to help choose  a second, $1000 “community” winner—-by “liking”  ideas submitted via on Facebook.  The goal is to challenge  emerging researchers to combine the life/physical sciences, information technology, social sciences, and engineering to improve human health.The voting deadline is 6 pm on Thursday, June 23, 2016.

Here’s a list of the submissions–which come from researchers across the US.  More info on each idea–and “like” options– are available at https://www.facebook.com/ConvergenceIdeas/

• Hex House; a rapidly deployable, dignified home
• A Multi-disciplinary Approach to Tackling Childhood Poverty
• Biomarkers and Neural Circuits Underlying Resilience to Stress
• Neuroprosthetics in Nerve Reanimation: Implantation of Intraneural Building
• Beyond Biology Breast milk – mine of potential therapies
• Getting VacSeen-ated Mobile Screening and Diagnostics
• Engineering Pro-Regenerative Immunotherapies
• Empowering HIV-positive Youth in Swaziland, Africa: A Novel Digital Mentorship Experience
• Development of minimally invasive assessment of placenta across gestation
• An Epidemiological Cellular Automata Model of Gun Violence
• Transforming Clinical Data Into Field-Deployable Medical Apps
• Engineering a Flexible Organic Photovoltaic Cell as an Artificial Retina to Restore Sight: A Promising Vision in Bio-nanoelectronics
• Accelerating translation from bio-discovery to engineered applications by single cell niche sequencing
• Using Nature’s Fundamental Choice Against it
• Drinking Water Health – Intermittent Water Supply in Developing Countries
• “Brain train” – optogenetic cognitive-conditioning for neuropsychiatric disorders
• Sparsh- Sleeping Bag
• Quantified ethology decreases time to diagnosis of infection
• Interlocking culture system for resolvable three-dimensional cell arrangements
• A New Treatment for Depression through Modification of Semantic Networks in the Brain Using a Computer Game

–Anita M. Harris
New Cambridge Observer is a publication of the Harris Communications Group, a marketing and communications firm based in Kendall Square, Cambridge, MA.

Butterly-from Ariana Pharma Website

Our Cambridge Innovation Center colleague Ariana Pharma reports that it has joined the WIN consortium as an official technology partner. Congrats! Here’s the release. 

Paris, France, and Cambridge, Massachusetts USA, 29 October 2014 – Ariana Pharma, developer of innovative clinical data analysis and diagnostic solutions for the healthcare sector, today announced it has joined the WIN Consortium as an official technology partner. The Consortium (Worldwide Innovative Networking in personalized cancer medicine) is a global collaboration of 40 leading organizations whose aim is to develop more effective cancer diagnostics and therapeutics, shorten clinical trial timelines and reduce the overall cost of cancer care.

The new WIN/Ariana partnership is expected to accelerate the translation of personalized medicine discoveries into widely available new standards of care for all cancer patients, leading to significantly improved clinical outcomes and a higher quality of life for cancer patients.

As a technology partner of the WIN Consortium, Ariana will have early access to the latest research, key opinion leaders, leading academic groups and personalized medicine clinical trials. Ariana uses OncoKEM^®, a proprietary clinical decision support platform for personalized medicine, to transform big data into better therapeutic decisions for cancer patients.

Ariana Pharma Founder and Chief Executive Officer Dr. Mohammad Afshar said: “We are delighted to be an official technology partner of the WIN Consortium where we can continue to leverage our expertise in patient stratification, multi-marker diagnostic optimization and data mining to transform complex clinical data into actionable information. Our expanded access to the leading global stakeholders in personalized medicine will allow us to test new hypotheses, to enhance interaction to yield valuable feedback and thus accelerate the development process and commercialisation of these critical new services for the global cancer community.”

“We are delighted to welcome Ariana Pharma in our consortium. Ariana Pharma provides outstanding computational skills enabling the translation of academic projects into commercial tools to support the therapeutic decision for cancer patients,” said Dr. John Mendelsohn, Chairman of the WIN Consortium.

WIN is recognized for pioneering the evolution of next-generation clinical trials, which test personalized treatment selection strategies rather than single drugs. These strategies are driven by algorithms that match targeted therapies or combination therapies to individual tumor biological profiles based on diagnostic analysis of genomic data and other information.

In 2013 the WIN Consortium chose Ariana Pharma to develop and globally commercialize ground-breaking decision support software in WIN’s WINTHER trial, the first state of the art clinical trial in personalized cancer medicine to help clinicians choose the best therapies for cancer patients. Ariana retains exclusive global rights to commercialize software and algorithms validated by the WINTHER clinical trial through Ariana’s OncoKEM^® platform.

About Ariana Pharma

Ariana Pharma develops innovative clinical data analysis and diagnostic testing solutions to help the healthcare sector better adapt patient treatments to individual biological characteristics. Ariana Pharma’s KEM^® technology enables personalization of therapies, improves the efficacy and safety of patient treatment, reduces risks and drug development costs, and accelerates time to market. KEM^® is the only FDA tested technology that systematically explores combinations of biomarkers, producing more effective biomarker signatures for personalized medicine. Founded in 2003 as a spin-off of the Institut Pasteur, Paris, France, the company opened a subsidiary in the United States in 2012.For more information, please visit www.arianapharma.com

About the WIN Consortium

Founded in 2010, WIN is an initiative from the Institut Gustave Roussy (France) and University of Texas MD Anderson cancer center (USA). WIN is unique structurally in that it brings together organizations from academia, business and not-for-profits to focus on translating the latest advances in personalized cancer medicine into the standard of care. WIN is built on the recognition that all stakeholders in personalized cancer therapy must collaborate and share information, in order to effectively bring the latest innovations in personalized cancer care to the patient. WIN is a non-profit organization formed by 40 renowned members: Academic cancer centres (25 centres in 16 countries), companies (Blue Cross Blue Shield, Agilent Technologies, GE Healthcare, Oracle Health Services, Foundation Medicine, Millennium Takeda, AstraZeneca and Pfizer), non-profit organizations such as EORTC, Fondation ARC and Sage Bionetworks. WIN organizes an annual symposium in Paris dedicated to personalized medicine. For further information, please visit www.winconsortium.org  and www.winsymposium.org.

–Anita M Harris
New Cambridge Observer is a publication of the Harris Communications Group, an award-winning pr and marketing firm based in Cambridge, MA. {Ariana is not our client]. AMH.