News regarding Oslo Cancer Cluster

Debate from Arendalsuka

Together for precision medicine

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During Arendalsuka 2019, we arranged a breakfast meeting on the development of cancer treatments of the future, together with LMI and Kreftforeningen.

Arendalsuka has become an important arena for those who want to improve aspects of Norwegian society. We were there this year to meet key players to accelerate the development of cancer treatments.

Our main event of the week was a collaboration with Legemiddelindustrien (LMI) and The Norwegian Cancer Society (Kreftforeningen). We wanted to highlight the cancer treatments of the future and whether Norway is equipped to keep up with the rapid developments in precision medicine. (Read a summary of the event in Norwegian on LMI’s website)

First speaker, Line Walen (LMI), presented the problems with the traditional system for approving new treatments in face of precision medicine.

The second presenter, Kjetil Taskén (Oslo University Hospital), introduced their new plan at Oslo University Hospital to implement precision medicine.

Then, Steinar Aamdal (University of Oslo) talked about what we can learn from Denmark when implementing precision medicine.

Lastly, Ole Aleksander Opdalshei (Norwegian Cancer Society) highlighted a new proposal for legislation from the government.

The exciting program was followed by a lively discussion between both politicians and cancer experts.

There was general agreement in the panel that developments are not happening fast enough and that the Norwegian health infrastructure and system for approving new treatments is not prepared to handle precision medicine, even though cancer patients need it immediately.

The panelists proposed some possible solutions:

  • Better collaboration and public-private partnerships between the health industry and the public health sector.
  • More resources to improve the infrastructure for clinical trials, with both staff, equipment and financial incentives.
  • Better use of the Norwegian health data registries.

After the debate, we interviewed a few of the participants and attendees. We asked: which concrete measures are needed for Norway to get going with precision medicine?

Watch the six-minute video below (in Norwegian) to find out what they said. (Turn up the sound)

 

Did you miss the meeting? View the whole video below on YouTube (in Norwegian).

 

Full list of participants:

  • Wenche Gerhardsen, Head of Communications, Oslo Cancer Cluster (Moderator)
  • Line Walen, Senior Adviser, LMI
  • Kjetil Taskén, director Institute for Cancer Research, Oslo University Hospital
  • Steinar Aamdal, professor emeritus, University of Oslo
  • Ole Aleksander Opdalshei, assisting general secretary, The Norwegian Cancer Society
  • Marianne Synnes (H), politician
  • Geir Jørgen Bekkevold (KrF), politician
  • Tuva Moflag (Ap), politician
  • Per Morten Sandset, vice principal for Innovation, University of Oslo
  • Audun Hågå, Director Norwegian Medicines Agency

 

Thank you to all participants and attendees!

The next event in this meeting series will take place in Oslo in the beginning of next year. More information will be posted closer to the event.

We hope to see you again!

 

Organisers:

 

 

 

 

 

Sponsors:

 

 

 

 

 

Meet our new members

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Oslo Cancer Cluster proudly presents the new members that have joined our organisation during the second quarter of 2019.

The new members represent a valuable addition to our non-profit member organisation, which encompasses the whole oncology value chain. By being a part of Oslo Cancer Cluster, our members are connected to a global network with many relevant key players in the cancer research field. Our members contribute to this unique ecosystem and ensure the development of innovative cancer treatments to improve patients’ lives.

 

theradex logo

 

Theradex Oncology

Theradex Oncology provides global clinical development services exclusively to companies developing new cancer treatments. The company has a strong emphasis on early drug development. It provides regulatory and medical support for companies taking cancer treatments into clinical development in the US and Europe.

Theradex Oncology staff has participated in educational events at Oslo Cancer Cluster for a number of years. This is how they became familiar with the cluster.

“Oslo Cancer Cluster provides a unique opportunity to share knowledge with other professionals dedicated to developing new cancer treatments.” Meg Valnoski, President Theradex Oncology

Meg Valnoski explains how the company has been supporting the development of cancer treatments for over 30 years and experienced the advancements in cancer treatments over that time.

 “We are always working to expand our knowledge and experience in cancer drug development to support our partnerships with companies developing new therapies for cancer treatment.”

Catapult life science logo

Catapult Life Science

Catapult Life Science is a centre established to bridge the gap between the lab and the industry, providing infrastructure, equipment and expertise for product development and industrialisation in Norway. It has been formed as a result of joint efforts from a range of different players with a common goal of enabling more industrialisation of life science research in Norway, truly what the Norwegians call a dugnad.

“We see Oslo Cancer Cluster as a key partner for realising our purpose, which is to create new opportunities for product development and industrialisation in Norway.” Astrid Hilde Myrset, CEO Catapult Life Science

Myrset adds:

“Our vision is ‘Bringing science to life’, which implies enabling new ideas to a be developed in Norway for new employment in the pharma industry, new growth in the Norwegian economy, and last but not least, new products to the market, enabling a longer and healthier life for patients.”

 

This post is part of a series of articles, which will introduce the new members of our organisation every three months.

  • To find out who else is involved in Oslo Cancer Cluster, view the full list of members
  • Follow us on Facebook or subscribe to our newsletter to always stay up to date!

 

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Three new board members of Oslo Cancer Cluster: Per Morten Sandset, Gunhild M. Maelandsmo and Cathrine Lofthus

New board members

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We are happy to welcome three new members to the board of Oslo Cancer Cluster. Find out what they had to say about entering their new positions.

Per Morten Sandset

Per Morten Sandset

Per Morten Sandset is a Senior Consultant in hematology at the Oslo University Hospital and a professor in thrombosis research at the University of Oslo. He has previously been head of the Department of Hematology and Deputy Director of the Medical Division at Ullevål University Hospital and Director of Research, Innovation and Education of the southeastern Norway Health Region. He is currently Vice-Rector at the University of Oslo with responsibilities for research and innovation including the life sciences activities of the university. Sandset has published more than 315 original publications and supervised 30 PhD students.

Why did you join the board of Oslo Cancer Cluster?

“There are currently strong political expectations that the many scientific achievements in the life sciences can be utilized, commercialized and eventually form the basis for new industry.”

“Oslo Cancer Cluster has matured to become a major player of the research  and innovation ecosystem within the life science area in Oslo and also on a national level. This is why being on the board is so interesting and important.”

What do you hope to achieve in your new role?

“As a OCC board member, I want to strengthen and develop the collaboration across the sectors, i.e., between the hospitals and the university – and between academia and industry. On a larger scale, it is about establishing a regional ecosystem that take achievements of the basic sciences into the development of enterprises. Oslo Cancer Cluster should maintain its role as the major player in the cancer area.”

Gunhild M. Mælandsmo

Gunhild Mari Mælandsmo

Gunhild M. Mælandsmo is the head of Department of Tumor Biology, Institute for Cancer Research, Oslo University Hospital where she also is heading the “Metastasis Biology and Experimental Therapeutics” research group. She is a Professor at Faculty of Health Sciences, University of Tromsø.

Why did you join the board of Oslo Cancer Cluster?

“I think the concept of Oslo Cancer Cluster is very interesting, fostering a close collaboration between academia, health care providers and the health industry. 

“Focusing on translational research for many years, I think I can contribute in the board with valuable experience in several parts of the value chain; from basic science, from translational aspects and from my close collaboration with clinical partners as well as administrative experience.”

What do you hope to achieve in your new role?

“I hope I can contribute with valuable knowledge – both from cancer research and from my administrative experience from Oslo University Hospital. I also hope to see more products from small Norwegian companies reaching clinical testing and expanding the biotech industry. Finally, I hope to see the Norwegian health care system more active in providing precision cancer medicine (and to utilise the advantages we have when it comes to registries etc).”

Cathrine M. Lofthus

Cathrine M. Lofthus

Cathrine M. Lofthus is the CEO at the Norwegian South East Regional Health Authority (Helse Sør-Øst RHF). She has previously held several leading positions at Aker University Hospital and at Oslo University Hospital. Lofthus is a qualified doctor from the University of Oslo, where she also completed a PhD in endocrinology. She also holds qualifications in economy, administration and leadership, and has experience from the health sector as a clinician, researcher and leader. Lofthus also holds directorships in Norsk helsenett and KLP, in addition to being a member of the board of National e-Health.

 

We also wish to extend a special thank you to our previous board members:

  • Kirsten Haugland, Head of the Research and Prevention Department at the Norwegian Cancer Society.
  • Inger Sandlie, professor at the Department of Biosciences, University of Oslo and research group leader at the Department of Immunology, Oslo University Hospital.
  • Øyvind Bruland, professor of clinical oncology at the University of Oslo and consultant oncologist at The Norwegian Radium Hospital, Oslo University Hospital.
Tor takes a mouthswab before in order to profile his DNA.

DNA profiling on the syllabus

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Students learned about a Norwegian invention behind CAR T-cell therapy and DNA profiling on their latest work placement.

This article is also available in Norwegian here.

Thermo Fisher Scientific is a global company that develops the Norwegian technology, which is based on “Ugelstad-kulene” (The Ugelstad Beads). In June 2019, Einar, Tor, Olav and Philip from Ullern Upper Secondary School completed a work placement with Thermo Fisher Scientific in Oslo. They used the beads to profile their own DNA and learned how the beads can be used to find murderers, diagnose heart attacks and save children from cancer.

“What do you plan to study when you finish upper secondary school?” Marie asks.

“The natural sciences,” Einar and Tor replies.

“The natural sciences at NTNU,” Olav says.

“First, the natural sciences and then, join the Air Force,” Philip answers.

Marie Bosnes is supervising the students who are attending the work placement and has worked more than 24 years in the Norwegian section of Thermo Fisher Scientific. She conducts research and development in the former monastery located on Montebello, next to Oslo Cancer Cluster Innovation Park and Ullern Upper Secondary School.

Today, Marie and several of her co-workers have taken time out of their busy schedules to tutor the four students from Ullern: Einar Johannes Rye, Tor Haugen, Olav Bekken and Philip Horn Børge-Ask. The students have nearly finished their second year and have so far focused their studies on mathematics, physics, chemistry and biology. But next year, they will also study programming, instead of biology.

“It is a good mix of subjects, especially programming is useful to learn. You should consider studying bioinformatics, because, in the future, it will be a very desirable qualification,” Marie says.

Marie has studied biology and her co-workers call her Reodor Felgen (a character from a famous Norwegian children’s comic book), since she loves to constantly explore research on new topics.

Treating cancer

An ullern student is looking at the dynabeads in a test tube.

Philip Horn Børge-Ask looks at the test tubes that contain the famous “Ugelstad-kulene”. Photo: Elisabeth Kirkeng Andersen

While Einar, Tor, Olav and Philip are on a work placement with Marie, four other Ullern students are on another work placement with Thermo Fisher Scientific in Lillestrøm. This is where they develop and produce Dynabeads for the global market.

“Dynabeads are also kalled ‘Ugelstad-kulene’, because they are a Norwegian invention. During the ‘1970s, one of NASA’s goals was to make perfectly round and identical, tiny, plastic microbeads in outer space. No one thought it was possible to make them on Earth. John Ugelstad, a Norwegian chemical engineer, did not accept that fact. He completed several difficult calculations, which enabled him to produce these tiny beads on Earth,” Marie explains.

Thanks to the tiny beads, Thermo Fisher Scientific has experienced huge global success. Even though there are only 200 employees situated in Norway (out of 70 000 employees globally), the research and development conducted in Norway is extremely important for the whole company.

“We are proud to announce that every year Dynabeads are used in almost 5 billion diagnostic tests in the world,” Marie says.

Thermo Fisher Scientific has developed the beads further, so they can be used in CAR T-cell therapy to treat cancer. The first approved CAR T-cell therapy in the world that treats child leukaemia was approved in Norway in December 2018. The advanced technology is based on the Norwegian invention “Ugelstad-kulene”.

  • Watch the video from the Norwegian TV channel TV2 about Emily Whitehead, the first child in the world that received this CAR T-cell therapy. She visited Thermo Fisher Scientific in Oslo in March 2019.

Catching killers

Elisabeth and Mary are supervising the students in the lab

Elisabeth Breivold and Marie Bosness from Thermo Fisher Scientific supervised the students in the lab. Photo: Elisabeth Kirkeng Andersen

“The beads are used for many different purposes and you will learn about a few of them today. Simply put, the beads are like a fishing rod. Depending on which bait you fix to it, the rod can be used in different ways,” Marie says. “Before lunch, we will use Dynabeads for DNA profiling. This technology is commonly used by police to identify suspects after a crime, just like in the TV series CSI.”

During the presentation, Marie shows the students the front page of an American newspaper with a mugshot of Gary Ridgway, an American serial killer, also known as “The Green River Killer”. Ridgway has now confessed to killing 71 women. For many years, the police hunted the murderer without any luck. Finally, new technology enabled the police to retrieve damning evidence from the tiny amounts of DNA that Ridgway had left on his victims. The DNA evidence led to a successful conviction of the killer.

“The DNA evidence was established with DNA profiling, using Thermo Fisher Scientific’s products. They did not use Dynabeads back then, but today, they would have used the beads. You will learn how to do it yourselves in the lab,” Marie says.

Learning to profile DNA

Olav takes the mouth swab

Olav performs a mouth swab on himself, the first step to retrieve the DNA. Photo: Elisabeth Kirkeng Andersen

Before the students enter the laboratory, they need to put on protective glasses, lab coats and plastic shoe covers. The students will profile their own DNA, the same way the police profile the DNA from suspects or criminals.

First, the Ullern students collect the cells with a mouth swab. Then, they add the different enzymes and chemicals that will open the cell membranes into the test tube, so that the DNA is released.

Afterwards, the Ullern students add “Ugelstad-kulene”, which bind to the DNA like magnets. Then, they retrieve their DNA from the solution.

They put the DNA in a kind of “photocopier”, in order to study it with something called “gel electrophoresis”. This is a method for analysing individual parts of DNA that make up the human genome. It shows a bar code pattern, which is completely unique for every person in the world.

Tor is using the pipette in the lab.

Tor adds new chemicals to the solution with his DNA. Photo: Elisabeth Kirkeng Andersen

“DNA is incredibly stable, which means that we can retrieve it from people and animals that died a long time ago and copy their DNA so that it can be analysed,” Marie explains.

“The most fun was to retrieve our own DNA. We tried it ourselves and it was fun to learn how to do it,” Philip says.

The Ullern students were very happy with their work placement at Thermo Fisher Scientific.

“I think the placement was educational and interesting. It was very well arranged and we got to try many different things. What surprised me the most was probably the close collaboration between scientists at Thermo Fisher Scientific – it seemed like everyone knew each other!” Philips says at the end of the day.

After the students had completed the DNA profiling, they ate lunch and then they learned more about the use of “Ugelstad-kulene” in diagnostics, and CAR T-cell therapy.

Elisabeth Breivold supervised the students while they performed the DNA profiling in the laboratory at Thermo Fisher Scientific.

Elisabeth Breivold supervised the students while they performed the DNA profiling in the laboratory at Thermo Fisher Scientific. Photo: Elisabeth Kirkeng Andersen

 

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