Four Massachusetts-Israeli business collaborations have received a total of $1.3M in grant funding under the  Massachusetts-Israel Innovation Partnership (MIIP)–a  formal collaboration between the State of Israel and the Commonwealth of Massachusetts to encourage and support innovation and entrepreneurship between Massachusetts’ and Israel’s life sciences, clean energy and technology sectors.

The grants were announced yesterday at the  2012 BIO International Convention in Boston by Massachusetts  Governor Deval Patrick and  Israeli Chief Scientist Avi Hasson, of  MATIMOP, the  Israel Ministry of Industry, Trade and Labor.

The four winning projects are:

• SBH Sciences (Natick) and Improdia (Israel) will work together toward the development and manufacture of a chronic inflammation-dependent immunosuppression prognostic kit. SBH will receive $184,000 from the Center and Improdia will receive $202,000 from Israel’s OCS.SBH Sciences is a discovery and preclinical contract research organization with expertise in production and analysis of cytokines and biomarkers. Improdia is a life science start-up focused on implementing novel biomarkers for immune system modulating therapies– using  simple blood tests for patients with chronic disease.

•  Automated Medical Instruments (AMI – Needham) and STI Lasers (Israel) will develop new technology involving radio frequency energy to perform circumferential ablation of the pulmonary veins. AMI will receive $116,000 from the Center and STI Lasers will receive $110,000 from OCS. AMI is a start-up medical device company developing novel technology to perform atrial fibrillation treatment. STI Lasers is a medical device company specializing in laser cutting, micromachining and finishing of miniature metal components.“AMI is developing the CircumBlator™,  to offer a reliable and curative, minimally invasive treatment for millions of patients with atrial fibrillation, a disease that causes over 20 percent of strokes and untold misery,” said Martin Sklar, President and CEO of Automated Medical Instruments.

• Lantheus Medical Imaging, Inc. (North Billerica) and Check-Cap (Israel) will  develop a novel 3-D imaging capsule that can be used to screen for polyps and lesions associated with colorectal cancer. Lantheus will receive $300,000 from MTC and Check-Cap has been selected to receive at least an equal amount from OCS. Lantheus  develops, manufactures and distributes innovative diagnostic imaging agents. Check Cap is a medical device company located in Mount Carmel, Israel with a “breakthrough” solution for Colorectal Cancer Screening.  “As a global leader in diagnostic imaging, Lantheus is dedicated to providing physicians with breakthrough new tools to enhance patient care. Teaming up with Check-Cap to develop and manufacture a cutting-edge imaging capsule further advances this ongoing commitment,” said Don Kiepert, President and CEO, Lantheus Medical Imaging.

• FloDesign Sonics (Wilbraham) and Transbiodiesel (Israel)  will use FloDesign’s acoustic molecule separation technology to separate oil that can be used to create fuel from Transbiodiesel’s oil-generating algae. FloDesign Sonics will receive $55,000 from MassCEC and Transbiodiesel will receive $20,958 from OCS. FloDesign Sonics uses a novel ultrasonic acoustophoretic separation technology developed at Western New England University for a more efficient approach to wastewater treatment and micro-algae harvesting for biofuels. Transbiodiesel is a start- up company with a novel technology for producing biodiesel fuels from a variety of oils

The MIIP program was first announced in June 2011 at the BIO International Convention in Washington, D.C. and the first joint solicitation for proposals was launched in September 2011 by MATIMOP on the Israeli side and by the three participating Massachusetts agencies: the Massachusetts Life Sciences Center, the Massachusetts Technology Collaborative (MTC) and the Massachusetts Clean Energy Center (MassCEC). Total funding for the current projects is approximately $3m.

The partnership came as a result of a 2011 trade mission in which  Governor Patrick and a coalition of Massachusetts business executives and senior government officials explored growth opportunities of common interest for Massachusetts’ and Israel’s innovation industries. During that mission Governor Patrick and Shalom Simhon, Israeli Minister of Industry, Trade and Labor, signing on behalf of their respective states, signed a Memorandum of Understanding (MOU) in Jerusalem. MIIP was established to implement the MOU’s framework.

Massachusetts is the first U.S. state to establish a significant industrial R&D program with the State of Israel, according to a press release issued yesterday by Patrick’s office.

Today there are nearly 100 companies with Israeli founders or Israeli-licensed technologies in Massachusetts, according to the release.  In 2009, these companies employed nearly 6,000 people and generated $2.4 billion in direct revenue for the state. Local firms exported over $180 million worth of goods to Israel in 2009. Home to 377 hospitals and 37,000 practicing physicians, Israel is an important market for health-related technologies.

The New England-Israel Business Council, the US-Israel Science and Technology Foundation, the Government of Israel Economic Mission to North America, the Consulate General of Israel to New England and MOITI have all played an important role in promoting the program, according to the release.

–Anita M. Harris

New Cambridge Observer is a publication of the Harris Communications Group, an award-winning strategic public relations,  marketing communications and thought leadership firm in Cambridge, MA.

Earlier this week,  I had the privilege of attending the tenth annual “BIO-IT World Conference and Expo,” at which some 2500  information technology professionals participated in a 12-track program featuring more than 200 presentations on scientific and technologic developments.

From  keynote speakers Jill Mesirov, PhD, and Martin Leach, PhD,  respectively the Associate Director and Chief Information Officer  of the Harvard-MIT Broad Institute,  I learned that exponential increases  in computing power promise to bring personalized medicine –allowing highly individualized diagnosis and treatment –to doctors offices within ten years. I also learned how hard it is to keep track of the petabytes  ( a PBs is a unit of information equal to one quadrillion  bytes, or 1024 terabytes )  used to keep it all going.

Mesirov announced the upcoming launch of “Genome Space“–a new Web-based technology to help scientists make sense of and collaborate in using such data.

And in a talk entitled “BIG,”  Leach described the difficulty of defining “big data,” because the amount of available information is growing so rapidly.   He described an event held recently at the Broad to celebrate the Institute’s ability to store and analyze ten pedabytes of data –his glee soon tempered by  his recollection that in 1993, NIH’s Institute of Medicine was thrilled with its ability store 16 gigabytes–which anyone can now do on a cell phone.

Today,  Leach said, we are  seeing “increasing big data with a decreasing footprint.” [that is, smaller systems needed for gathering and retrieval].

Mentioning that he has an autistic son and would like to be able to figure out what causes the disorder, Leach  asked, “Why is there no Google search for data, no way to access thousands of data repositories?

“We need a new application ecosystem and a breed of data scientist who knows how and where to push this data, ” he said.  He predicted that there will soon be 50 thousand jobs in the  “big data” arena.

In the exhibit hall,  I was pleased to see that  see that Wingu, headquartered in the Cambridge Innovation Center, where I work, had been nominated for a best of show award for its pharmaceutical, contract research and academic collaboration software.

The winners, announced last night, were Recentris, Opscode, Clear Trial, and Cambridge Semantics. [More info at http://www.bio-itworld.com/2012/04/26/2012-best-of-show-winners.html]. Best Practice Grand Prizes went to big Pharma: Merck, Pfizer, and Merck KGaA (Germany)  went to and two genomics organizations, BGI Shenzhen and the University of Utah/Omicia. http://www.bio-itworld.com/2012/04/25/bio-it-world-announces-winners-2012-best-practices-awards.html.

BIO-IT World is sponsored by  Insight Pharma Reports, Samsung, and the Portland Group. It runs through April 27, 2012.

—Anita M. Harris

You don’t need to be a geek to get into some of the newest technology for keeping track of your health. I was blown away when I heard about pill bottle caps that will tell  you (or your doctor or your caretakers)  if you’ve forgotten to take your meds…a kazoo that measures the chemistry of the air from your lungs…and a telephone that can assess whether you’re depressed–from the tones of your voice.

These gizmos are the brainchildren of David Rose, an entrepreneur who is now the CEO of Vitality, Inc., in Cambridge.  Rose has also invented bathroom scales that can show whether you’ve lost or gained weight, an umbrella that can sense whether it’s going to rain, and objects that assess air quality.

Rose was one of four panelists who spoke last week at a program sponsored by the Medical Development Group about some astounding new health gadgets, most of which are actually on the market. (MDG is a Boston area organization for individuals involved in the medical device and technology industries). 

Rose focused on the above-mentioned pill bottle “Glo-Caps”, which “sense”  when a patient takes a medication, and, via a wireless Internet connection, show health care professionals, patients or caregivers whether reminders are needed.  

The caps light up, play a melody, and even ring a home phone to remind patients to take their pills.  The caps can send weekly emails to remote caregivers, create accountability with doctors through an adherence report, and automatically refill prescriptions. 

Glo-Caps are not currently available for purchase by individuals, but they are being used by patients enrolled in programs sponsored by certain health insurers and pharmacies.

Panelist Ben Rubin, Co-Founder and Chief Technology officer of Zeo, in Newton, MA, described Zeo’s novel  headset and device that monitor an individual’s REM sleep and factors influencing sleep patterns.  Knowing how well you sleep is important because sleep is closely tied to health conditions like obesity, depression, diabetes and the like, Rubin said. “If you measure it, you can manage it.” 

Zeo’s sleep devices, which cost $250,  connect to  an Internet site. For an additional $100, Zeo provides email advice coaching to help individuals improve their “sleep hygiene.” 

There’s also a  Smart Phone application designed to promote better sleep:  using the Ap, you put your phone under your pillow to measure your movement (and restlessness) during sleep.

Panelists also described glucose monitors that send data to doctors via patients’ Smart Phones and Nike running shoes that measure your steps. At one point, Rose pulled out a keychain that tells him whether he’s met his daily walking goals and whether he’s on track (ha ha) to meet his monthly goals.

Also mentioned  were Internet tools such as a Google Ap to measure flu trends; Healthmedia, through which Johnson & Johnson provides digital coaching for managing stress and chronic disease, Philips Direct, which provides live coaching over email, and various “calorie and other body monitors through which individuals can receive online coaching through gyms.

All of these devices fall under a category moderator David Barash, MD, CEO of Concord [MA] Health Strategies calls “local health monitoring” –meaning that the devices can be used by patients or consumers almost anywhere–rather than just at home or in a hospital,  doctor’s office or lab.

 According to a recent review by my client, Scientia Advisors, “remote health monitoring” devices are the fastest growing category in a booming home health care market. 

The devices are growing in popularity in sync with an aging population, increasing chronic disease, and new Internet technologies, Barash said.

Panelist Frank McGillin, Vice President of Global Marketing for Philips Healthcare, which markets a variety of home monitoring devices, said  remote monitoring  will become increasing important in light of growing health care costs.

Gillin cited government statistics showing that  health care current accounts for 17.6 percent of the  gross domestic product in the US, and that by 2050, half of the population in the developed world will be chronically ill—making traditional medical care  fiscally overwhelming. 

Devorah Klein, PhD, a principal at Continuum, in Newton, MA, who designs devices and evaluates patient adherence to therapy regimes for diabetes, asthma, arthritis, multiple sclerosis and erectile dysfunction, emphasized that  simple designs are key because “many patients are not all that interested” in learning to use devices.

And Barash pointed out that while many consumers may be intrigued by these gizmos, doctors have been slow to embrace them.

 For one thing, with a dearth of clinical trials to assess devices’ effectiveness, insurers are reluctant to reimburse doctors for evaluating the data thus compiled.

For another,  it’s not clear how doctors can manage or assess  potentially large amounts of additional data, or  how data collected for individual conditions can be assessed in relation to data collected elsewhere for other, possibly related, conditions.

–Anita M. Harris

New Cambridge Observer is published by the Harris Communications Group, a  writing  and public relations firm in Cambridge, MA.  All rights reserved.

Cambridge managing consulting firm Scientia Advisors (my client!) has released a fascinating study about growth in the neurostimulation technology markets. 

Scientia has found that these technologies–electrical devices implanted to stimulate portions of the brain, spinal cord and sacral nerve– are growing at a rate of 16 percent –and are beginning to supplant drugs as the treatment of choice for certain conditions.

The study, described in the August 21 Medical Device Daily and in a press release issued yesterday, suggests that these new technologies have fewer side effects and could help cut health care costs by doing away with the need for lifelong drug regimens. Scientia   recommends that device companies become involved in this growth area.

More at www.Scientiaadv.com or http://blog.harriscom.com.

Anita Harris

New Cambridge Observer is a publication of the Harris Communications Group of Cambridge, MA.

Over lunch at the Cambridge Innovation Center on Wednesday,   Mass Life Sciences Center (MLSC) President and CEO Susan Bannister told a gathering of some 100 life science afficionados that the first year of Gov. Deval Patrick’s Life Science Initiatiative has been a success. 

“There’s still capital out there and life science is a good place to put your money,” Bannister said.  “By putting state money into the pot, we have ‘de-risked’ investment that the state would have had to find elsewhere”.

 The funded projects–in biotechnology, pharmaceuticals, medical devices, diagnostics and bioinformatics–could create some 950 jobs in the near term, Bannister said.

By adding employment opportunities,  Massachusetts’  investments and incentives could help to absorb some of the job losses expected in other sectors, according to Bannister.

Frank Reynolds, CEO of InVivo Therapeutics, which is developing stem cell/ polymer technology aimed at halting the effects of traumatic spinal cord injury, said that receiving a $500 thousand loan just as  venture capital possibilities tanked this fall made a tremendous difference in his company’s ability to proceed. ”  It’s a great program,” Reynolds said. (Disclosure:   I work with InVivo).

Bannister cautioned  that in the current economic downturn, tax revenues are “iffy” and it’s not yet clear how much money will be available for the Initiative in 2010.

For more details, please visit  Harriscomblog.wordpress.com.

—Anita Harris

New Cambridge Observer is a publication of the Harris Communications Group of Cambridge, MA.

As a graduating  PhD, Robert Langer, now Institute Professor at MIT, was having trouble finding work.

As he told the Health Innovators Group of Combined Jewish Philanthropies on Friday, most of his classmates took jobs with oil companies but  he knew that wasn’t for him.  Having helped found an alternative high school in Cambridge, he  applied for 50 or 60 jobs in curriculum development, but no one wrote him back. Then he tried medical schools and hospitals, but “they didn’t write back, either.”  Finally, someone  in his lab told him that someone at Children’s Hospital sometimes hired “unusual people.”

That “someone” was Judah Folkman, who, in 1974,  was beginning to work on angiogenesis, which involved the idea that cutting the blood flow to tumors could halt  their growth.  The possibility  intrigued Langer, who  was hired–but made a rather inauspicious start.

As a post doc, he spent half of his time scraping meat off of cow bones delivered from a South Boston slaughterhouse. He   discovered 200 methods that didn’t work;. He  faced  hostile scientists who told him they didn’t believe anything he said, and,  as time went on,  was denied many patents by officers who were were unwilling to accept his proof.

It took until 2002 for  the first angiogenisis drug to gain FDA approved.  By then, Bob, who wouldn’t take “no” for an answer, was MIT’s most prolific inventor and a University Professor who had helped found many companies and   inspired countless students–who now run departments, labs, and companies of their own.

I’ve known Bob since the 7th grade…and was in the 8th-grade English class  in which, he tells people , he was so shy that he froze during a public speaking exercise, and got an F.  We both went to Cornell, where, he’s told me, he found that he learned more studying on his own (and playing bridge) than going to class.  And I remember sitting in a pizza parlor with him in  1982, watching as he diagrammed  his ideas on a mechanism for “slow release” for pharmaceuticals–on a napkin.

Despite his success, a recent writeup in Nature,  and much  excitement about possible “pharmacies on a chip,”,  a stem cell device to help individuals with spinal cord injuries,  and an adhesive for heart surgery based on the sticky-stuff that allows gekkos to climb up walls, Bob  remains the same old Bob, who sometimes gets  ideas for new devices, materials and methods  from television and magazine magazines.    He’s still down-to-earth, supportive, and even funny.   (Did  you know that the most  surgical devices are invented by doctors who use household materials to fit their operating needs…which is why the “stretchiness” material used in artificial heart is the same stuff used in ladies’ girdles? )

So- for job hunters out there the message is simple but profound. Believe in yourself and your ideas, treat people kindly, and  keep on going.

Great talk, Bob. Once again, bravo.

AMH

New Cambridge Observer is a publication of the Harris Communications Group of Cambridge, MA.

I’m pleased to announce that Scientia Advisors has launched ScientiaNET,  a “knowledge network” for  health care and the life sciences. ( True,  they are my client, but I AM pleased).

The network now has 10 thousand member/experts and is seeking additional ones.  Members are leading scientists, physicians, practitioners, academics and industry professionals who are  paid their hourly rates to provide Scientia and its clients with analyses, opinions, surveys and consultation on life science tools and technologies, medical devices, diagnostics, biotechnology, pharmaceuticals, functional foods, and regulatory issues.

The member/experts typically consult with business leaders and decision-makers on industry trends and developments, operational problems/solutions, or specific products/services.

If you’d like to become a ScientiaNET member or engage one (or many)   please visit www.scientiaadv.com. 

AMH

Scientia Advisors, based in Cambridge, MA and Palo Alto, CA, is a global management consulting firm specializing in strategic growth and operational strategies  for major and emerging companies in health care and the life sciences.

New Cambridge Observer is a publication of the Harris Communications Group of Cambridge, MA.