Archivi tag: spinal cord injury

Cure Girl Lolly visit the new Central London location of Spinal Research

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Lolly a SROn September 15th, I was delighted to visit the new Central London location of Spinal Research to see the team and fab new office. They moved just recently all the way from Guilford, Surrey to Moorgate, London and are still in the process of setting in their new location with new members of staff too. I had a chat with Mark and the team about clinical trials, Cure Girls new campaign, fundraising and some ideas on how we can raise the profile of the charity. There are lots of events on the calendar and the Cure Girls will continue to support Spinal Research any way we possibly can. Italian Cure Girl Barbara Bucci is about to start a fundraising challenge for Spinal Research- a virtual cycle! It’s imperative that we support Spinal Research’s vital work that funds the research we so desperately need for a cure for paralysis as it is not government funded. A very big thank you to Mark and the team for taking their valuable time to see me and look forward to the rest of this years Spinal Research & Cure Girls events! Watch this space! #LETSMAKECHRONICSPINALCORDINJURYCURABLE

Cure Girl Lolly.

My visit to Project Walk Orlando

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3This year my family and I chose to go to the rehabilitation center “Project Walk “.  I wanted to see what they do and how they are helping get people on their feet again. I have been following Project Walk in the news and on facebook for some time. I was always interested in how they do things. Being a paraplegic I’m eager to learn anything that can help you back to your old self again. I found Project Walk very encouraging. I was stunned watching some of their clients do exercises I believed that we would never be able to do again and from someone who talks a lot(understatement my husband would say) I was absolutely gobsmacked at the results they were showing, just fantastic!!
Project walk give every SCI person the hope of recover1 Project Walk Orlandoy. Using external stimulation for the nervous system to promote reorganization they are reminding the nerves and muscles how to work again. Muscle spasms are used to build muscle mass and control, using the spasms rather than having to fight against them. They do a lot of weight bearing activities; this in itself promotes healthy bones and fitness. They do not say people will be hopping and skipping out of the door. They do say the best case is a client can regain function and continue to improve as the exercises help a client’s body to remember how to move. Worst case is the client will just leave more independent and healthy. The health benefits are great and this is something that is very much needed for a SCI person. Taken from Project walks site the below are results.

Results in:

  • Increased central nervous system activity
  • Increased muscle mass
  • Increased circulation
  • Increased sensation in some clients
  • Increased hot and cold in some clients
  • Increased control of life
  • Decreased pressure sores
  • Decreased use of medications
  • Decreased health problems associated with a spinal cord injury
  • Hope

ThereforRebecca - Project Walk Orlandoe this kind of therapy benefits all of us. It’s not a cure for paralysis but is a great way to get our bodies fit, possibly improving movement and sensation and all of the above.As a Cure Girl I believe this is something that should be set up around the world, we all could use a Project Walk. I would like to thank Liza, Amanda and Brock for showing my family and I around and I will definitely be back.

For more details on Project walk go to http://www.projectwalkorlando.org/

Cure Girl Rebecca

Le Cure Girls spingono per la Cura

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the cure girls team

Nelle ultime settimane le Cure Girls hanno partecipato ad alcuni importanti eventi sportivi per poter condividere con un pubblico sempre più ampio il nostro messaggio a supporto della ricerca di una cura per la lesione spinale cronica.

Lo scorso 3 maggio abbiamo partecipato alla Wings for Life World Run 2015. Il nostro motto è stato: “Io spingo per la cura – I push for a Cure”.

Le Cure Girls Arcangela, Barbara e Loredana hanno spinto per la Cura in Italia, a Verona, mentre Sabrina faceva la stessa cosa, nello stesso momento in Brasile. Al nostro fianco un vero e proprio Cure Girls Team; un nutrito gruppo di amici e sostenitori che hanno corso con noi e ci hanno supportato.

Clicca per vedere tutte le Foto e i video: “Perché Valeria ha corso la WFL World Run” e “Sabrina e il cure girls team Brasiliano”.

Chi non poteva essere presente a causa delle conseguenze della lesione spinale o perché impegnato in altri eventi di raccolta fondi, come ad esempio la nostra Cure Girl Marina, ha comunque fatto sentire la propria presenza mandandoci un video (Marina con Stefano Pirazzi dalla Granfondofiuggi Valerio Agnoli) o contribuendo a diffondere il messaggio della World Run tramite i social network.

Alla World Run hanno partecipato più di 100000 persone e sono stati raccolti circa 4,2 milioni di euro da destinare alla ricerca.

loredana e marina al giro d_italia_Fotor_Collage

Per continuare la nostra opera di sensibilizzazione e di raccolta fondi per la ricerca di una cura che possa finalmente rendere la paralisi reversibile, le Cure Girls Marina e Loredana sono state inoltre al Giro d’Italia (clicca per vedere tutte le foto) e prossimamente saranno presenti ad altri importanti eventi sportivi come ad esempio la Cycling Marathon che si terrà a Monza il prossimo 27 giugno.

Per supportarci ed essere informati sulle nostre attività, rimanete in contatto con noi tramite il nostro blog e le nostre pagine Facebook, Twitter e Instagram.

Cure Girls

The Cure Girls Push for a Cure

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the cure girls team

In the past weeks, the Cure Girls have partecipated to many sport events to share our message in support of research to find a cure for chronic spinal cord injury.

On May 3th, the Cure Girls took part to the Wings for Life World Run 2015.

Our “motto” was : “I push for a cure”.

Arcangela, Barbara and Loredana pushed for a cure in Italy, while Sabrina at the same time was partecipating at the World Run in Brazil. The other Cure Girls supported the World Run promothing the event through friends and social media.

In our support we had a Cure Girls Team; a large group of friends and supporters who have raced with us.

Click to see photos and Videos: “Why Valeria ran WFL World Run”  and “Sabrina and the Brazilian cure girls team”.

More than 100 000 people have partecipated to the World Run and € 4.2 million for spinal cord research were raised.

loredana e marina al giro d_italia_Fotor_Collage

The Cure Girls Marina and Loredana also took part in the Giro d’Italia, the most important italian cycling event known around the world. (Click to see photos)

They will be also present at the Cycling Marathon and in other sporting events during the whole summer to continue raising awareness and funds for research to make chronic spinal cord injury curable.

If you want to support us, follow our blog and our  pages on facebook, Twitter and Instagram.

Cure Girls

Le Cure Girls supportano la NSIF  

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Dopo l’incontro avvenuto a Londra lo scorso gennaio con i vertici della Nsif e il Prof. Raisman, le Cure Girls Lolly, Marina e Loredana hanno deciso di supportare la NSIF.   (vedi blog)

Cure Girl Lolly

Lolly Mack ha compiuto una pedalata virtuale di 282 miglia per attirare l’attenzione sul nostro problema e raccogliere fondi tramite l’apertura di una pagina justgiving che andrà a finanziare direttamente la NSIF. Lolly ha dichiarato entusiasta: “Ho pedalato per 282 miglia, la distanza equivalente da Londra a Newcastle! Non è ancora troppo tardi per darmi il vostro supporto, chi volesse contribuire potrà fare una donazione a questo link.”

Marina e Loredana dopo l’incontro avvenuto a Londra hanno condiviso le informazioni con gli altri membri del consiglio dell’ Ass. Marina Romoli Onlus (MRO) e con il Presidente dell’associazione RIIM Daniele Castellaneta e hanno deciso di effettuare una donazione alla  Nsif di 70.000€.”

Board Marina Romoli Onlus

Loredana Longo, Giulia De Maio e Marina Romoli

Marina dichiara: “Negli ultimi anni ho seguito la ricerca sulle lesioni spinali e mi sono resa conto che la maggior parte degli studi in questo campo si concentra sulla ricerca di terapie che potrebbero funzionare solo in una lesione spinale acuta (ovvero entro pochi giorni dopo l’infortunio). Purtroppo nella maggior parte delle persone mielolese la lesione è ormai diventata “cronica”, e questo richiede un approccio diverso per  giungere ad un recupero funzionale. Voglio sottolineare, inoltre, che l’obiettivo della Marina Romoli Onlus è una cura biologica, non finanziare ricerche che riguardano dispositivi di compensazione come gambe robotizzate. Affinché ciò accada è indispensabile che nella lesione spinale cronica avvenga la rigenerazione delle fibre nervose. La linea di ricerca del prof. Raisman e dr. Tabakow, supportata da Nsif, si focalizza sulla rigenerazione delle fibre nervose ed è applicabile nella lesione spinale cronica, come mostrato per la prima volta dal recupero funzionale, scientificamente documentato, raggiunto da Darek Fridyka. I ricercatori pare abbiano identificato una procedura che potrebbe portare a un trattamento per lesioni del midollo spinale, ma senza i finanziamenti necessari a confermare questi dati in più pazienti, questa ricerca non potrà progredire per questo abbiamo deciso di effettuare questa donazione alla Nsif.”

The Cure Girls meet with Prof Raisman and Nicholls Spinal Injury Foundation

Mike Milner, dirigente della Nsif ha dichiarato: “Siamo incredibilmente grati per questa donazione. Attualmente ci troviamo in un momento cruciale per la ricerca che stiamo finanziando. Ogni donazione infatti è di vitale importanza per aiutare i ricercatori a trasformare il loro lavoro innovativo in un trattamento per le lesioni del midollo spinale “.

(Leggi anche il comunicato stampa integrale in inglese sul sito della NSIF)

Cure Girls

Help the Cure Girls & Sign this Petition!

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bbcWe have nothing against robotics and compensatory devices as they can be a useful complementary approaches. However, the attention and funding they get seems to be exaggerated when considering their potential results, particularly in comparison to the potential results of regenerative therapies. Yes, robots are exiting; when you see them you immediately understand what they do. Regenerative research is more complex, more obscure and maybe longer term. But it is the kind of serious and total investment we need if we really want to solve the problem. Regenerative medicine has the potential to create a future without paralysis. Robotics can only compensate for a fraction of the problems experienced by people with spinal cord injury and as many paralysed people know, paralysis involves a lot more than just not walking.

The BBC has reported on compensatory devices like wearable robotic suits, but has not reported on the real cure.

We’re asking for fair coverage of regenerative medicine. Click on the link below and then click to send your email.

Super simple & super fast! THANKS!

 Cure Girls

May 4th 2014 The Cure Girls took part in the Wings for Life World Run

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May 4th 2014 the Cure Girls took part in the Wings for Life World Run. Arcangela and Loredana in Italy, Maaike in the Netherlands and Sabrina in Brazil. The other Cure Girls that couldn’t be present supported this event spread all over the world Capitalise Wings for Life World Run.LORY

The Wings for Life World Run was very well supported. And for those of us that couldn’t be present. We maintain the push forward for a Cure. This was an event which showed a very positive show of support. We need to continue to build on this and ensure we carry on showing the world how important a Cure means to us all.

The World run is a truly global adventure, encompassing 34 locations, in which everyone runs at the very same time all over the world! 100% of the proceeds from the event will go to the Wings for Life Foundation, which funds research into curing spinal cord injury. The run unite athletes around the world, in one race, running for those who can’t! We’ve been blown away by the spirit of everyone who partecipated and who followed wings for life world run 2014. The results are in: wings for life world run global male winner: Lemawork Ketema (ETH) ran 78,57 kilometers and outperformed 35.396 athletes from 164 nationalities around the world. Global female winner: Elise Selvikvag Molvik (NOR) with a distance of 54,79 km.

And over 3,000,000 euros raised for wings for life, spinal cord research foundation. Thank you for your support of wings for life world run 2014! The journey continues next year: 3rd may 2015. See you next year!

Cure Girl Loredana and Rebecca

 

DRENTHE – IN THE NETHERLANDS

Last sunday I went to the run in my own country, the Netherlands. The start was at the TT- circuit in Assen. The weather was good, so it was a great day for the runners and the people who were watching them. It was amazing to see so many people, famous and not famous, run for a great cause: a cure for spinal cord injury.

MAAIKEFor the first time since my injury i heard people talk about a cure for sci, not only when i was there, but also in the weeks before the run. I was getting used to the fact that doctors want to send me to a good psychologist when i tell them that i believe a cure for spinal cord injury is on the horizon. Of course, i know it’s gonna be difficult for people with an old injury like me, but it’s not impossible. Researchers say thats it’s a guestion of when, not if. So there is definitely hope for everyone living with a spinal cord injury. And i hope that an event like the wings for life world run will speed up the process. It would be great to live in a world where spinal cord injury is something of the past.

I want to thank the people who were running for me. Next year i hope i will have many more familymembers and friends involved in this run. They have a year to train, so i don’t see any problems!

Cure Girl Maaike

VERONA, ITALY

On May 4th the Cure Girls were present at the race in Italy which took place in the magnificent Verona, a Unesco World Heritage Site.
A beautiful day in all respects. It  was a typical spring day and many participants enthusiastically responded to this unique competition. It was for a great cause; a one that has unfortunately been ignored. SPINAL CORD INJURY MUST BECOME CURABLE and finally this message was given in a loud voice.
la partenza a VeronaIt was an exciting start and funny to follow the developments of the race both in Italy and around the world thanks to continuous updates provided by the organizers.
Many celebrities from the world of sport and other professions participated. These influential people wanted to contribution by participating in this important event.
Awesome time and miles made ​​by professional racers who competed until completely worm out. Our Giorgio Calcaterra won In Italy as male runner and was 4th in the world ranking.
Also a great number of  “ordinary” people participated,  contributing  and allowing  Wings for Life to raise a global total 3,000,000 Euro. This amount will be completely used to support research projects that we, Cure Girls, continue to ask to be primarily for chronic injuries .
In short, it was great to see so much participation and to finally hear about how important a cure is!
Keep it up and …see you the May 3rd, 2015 for the second edition!

Cure Girl Arcangela

The first edition of Wings for Life World Run was a success, over 3 million euros were raised which will go to fund research projects of the Wings for Life.

I am one of the many people who contributed to this and I am also one of the many people with a spinal cord injury who have had someone to run for her/him. Il papà di LoredanaThe great dad of Loredana ran for me too… but there were two other people who were not physically present in Verona, but they did that race with their heart and spirit… my sister and her husband Giovanni; I will always thankful for their support. And I was there too! I wanted to participate in my own way to this extraordinary event, pedaling with my special bike when all the runners around the world were at the starting line. I wanted to do that because it was the only thing I could do, since just the consequences of my spinal cord injury did not allow me to go to Verona and attend the race.

BarbaraFor this reason, although I was symbolically the first to be reached by the catcher car, with my ride of 30 g/min, it was as if I ran all the miles made ​​by all participants, to proclaim to the world that the spinal injury must become curable.

Cure Girl Barbara

 

 

 

FLORIANOPOLIS – BRAZIL

SABRINAIt was still dark and I was eager to join that which would be the most important race I’ve ever participated. The WFLWR has the noble mission to reverse 100% of their entries in grants to research for the cure of spinal cord injury, but also brings to the whole world, and that is more than 35 cities in different countries which took part in this first edition, the commitment to generate funds for researchers.

Exactly at 7 am it was the start in Florianopolis, and the equivalent time across the world, even where it was still dawn. This brilliant strategy was to create the spirit of sharing on the same day, at the same time, for one cause. It was an immeasurable honor to participate to this event and to be able to mobilize 20 friends who came to Florianopolis to run with me. I am so grateful to them and to those who contributed even if they could not run.

The human beings stand out from animals when they use their intelligence to help the others. That was the feeling I had when I was running with my sister and my friends: bringing hope to many who are in a situation like mine, being able to talk about it in the most popular tv show of the country, to make understand the urgency for a cure to those who are not in a wheelchair.

And this was a great success because of the many messages I received afterwards.

After I ran for 11 km, the certainty is that in May 3, 2015 I will be there again, and so until the day when the thrill of crossing the finish line will be replaced by the happiness of seeing the first steps of people coming back to walk.

Cure Girl Sabrina

Ainda era noite e eu estava ansiosa para me juntar àquela que seria a corrida mais importante que eu participaria. A WFLWR tem a nobre missão de reverter 100% das suas inscrições em verbas para pesquisar a cura da lesão medular, mas também leva ao mundo inteiro, e isso representa muito mais do que as 35 cidades em diversos países que fizeram parte desta primeira edição, o compromisso de gerar fundos para pesquisadores.
Exatamente as 7h foi dada a largada em Florianópolis e no resto do mundo, mesmo aonde ainda era madrugada. Essa estratégia foi genial ao criar o espírito de juntos no mesmo dia, na mesma hora, por uma causa. Foi uma honra imensurável fazer parte do evento e conseguir mobilizar 20 amigos que se deslocaram até Florianópolis para correr comigo. Gratidão eterna a eles e aos que contribuíram, mesmo sem poder ir.
O Ser Humano consegue se destacar dos outros animais quando usa a sua inteligência para fazer bem ao próximo. Foi essa sensação que tive ao correr com minha irmã e amigos: Levar esperança a tantos que se encontram numa situação semelhante a minha, poder falar a respeito disso na maior emissora de televisão do País, acreditar que a urgência por uma cura pode ser enxergada até por quem não esta em uma cadeira de rodas. Sucesso total ao conseguir ver o retorno de tudo isso em belas mensagens, formando uma grande corrente do bem.
Ao fim foram 11km percorridos e a certeza de que em 3 de maio de 2015 estarei lá novamente, e assim até o dia em que a emoção de cruzar a linha de chegada seja substituída pela felicidade de ver os primeiros passos de quem que reaprende a andar.

Cure Girl Sabrina

Our visit to the laboratories of Pharmacology, Department of Science Health, University of Milan

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On January 20th 2014 the Cure Girls went to visit the labs of pharmacology of the university of Milan and met with Dr. Daniele Bottai. He showed us the new labs and gave us an interview to explain what his team is working on with regards to a cure for SCI.

1. Can you briefly describe the research that you are doing in relation to spinal cord injury?

When in 2006, I moved at the University of Milan, I have begun to get interested in Spinal Cord Injury (SCI) using a new (at the time) “drug”: neural stem cells. Between 2002 and 2006, I worked in the Laboratory of Professor Angelo Vescovi where I learned to manipulate neural stem cells (from different regions of the brain) both human and mouse.

In these 8 years spent to the University of Milan we have been studying the role of different types of stem cell in transplantation in animal model of SCI, in particular, we have studied the effects of murine embryonic and neural stem cells and human amniotic fluid (AFCS ) with the purpose to find the sources of stem cells that were an available source and with the appropriate characteristics for the treatment of neurological diseases .

In general, we can say that these cellular processes (performed in acute spinal cord lesion) have positive effects and are significant from a functional and morphological point of view. After treatment with the cells listed above, the mice returned to walk (albeit not the same as they did before the lesion); while lesioned not treated animals are able to move their hind limbs, but not to walk. (These results have been summarized in three scientific papers:

D. Bottai, D. Cigognini, L. Madaschi, R. Adami, E. Nicora, M. Menarini, A.M. Di Giulio, A. Gorio (2010).Embryonic Stem Cells Promote Motor Recovery and Affect Inflammatory Cell Infiltration in the Spinal Cord Injured Mice Experimental Neurology 223, 452-463 ;

D.  Bottai , L. Madaschi, A.M. Di Giulio and A. Gorio. (2008) Viability -Dependent Promoting Action of Adult Neural Precursors in Spinal Cord Injury . Molecular Medicine , 14 (9-10), 634-644.

 On the bases of these results, we asked what was the mechanism that caused this improvement.

The answer was that in this model the role of animal cells is purely trophic and they are not going to replace, if not in small portion, damaged or dead cells.

Various are the trophic molecules (cytokines) that are involved in this phenomenon. Recently, we have focused our attention on amniotic fluid cells. We chose this cell type because their availability since the at term cesarean delivery could represent an unlimited source of stem cells with no ethical issues and few risks for the child and the mother.

In a work that a few days ago has been accepted for publication (D. Bottai , G. Scesa , D. Cigognini, R. Adami , E.. Nicora, S. Abrignani, A.M. Di Giulio, and A. Gorio Third trimester amniotic fluid NG2 -positive cells are effective in improving on repair in spinal cord injury. Experimental Neurology.) we have shown that a trophic factor, produced by the AFCS, which is important for the induction of the morphofunctional recovery, was the hepatocyte growth factor (HGF) and that this cytokine was produced only by particular sub- populations of our cells or those expressing on their surface the NG2 protein (a membrane proteoglycan). Such a membrane protein can be hopefully used in the future to select from the amniotic fluid liquid the cells that express NG2 and so have a therapeutic action.

We are currently investigating what is the correlation between NG2 and HGF.

2. Acute injury or chronic injury present any difference for a research approach? Could you explains the differences and the advantages and disadvantages.

I do not think we can talk about differences between acute and chronic lesion in terms of advantages and disadvantages. These are two different pathological conditions, the acute progress into the chronic with the passage of time mostly because there is a de- myelination process.

In this context, we are dealing with two different types of patients the acute ones, namely that a few days or weeks have suffered damage to the spinal cord which have a very extensive inflammatory condition that exacerbates the primary mechanical injury further damaging the tissue and those, who instead, underwent chronic spinal cord injury for more time (months and years) in which degeneration induced by primary damage and the secondary SCI causes the formation of a cavity surrounded by the glial scar that separates the lesion from the undamaged tissue and prevent nerve regeneration.

Currently the researcher and clinician are faced with these types of patients because in the first instance they have not been able to prepare effective therapies to treat acute patients.

The therapeutic approach to the patient who recently underwent spinal damage is intended to reduce the compression state and to control the secondary damage due to inflammation through the drug methylprednisolone, inter alia, that approach does not seem to have a sufficient efficacy, as evidenced by the fact that the number of chronically para or quadriplegics is unfortunately increasing.

In the chronic patient instead we find ourselves facing a very different situation with the blood-brain barrier that is closed, and a glial scar consisting mainly of fibroblasts from the meninges and reactive astrocytes that produce proteoglycans (extracellular matrix molecules) that are responsible for the inhibition growth of axons.

In this situation, the therapeutic approach is vastly different from that prepared in the state of acute spinal cord injury.

In fact, removal (either mechanical – surgical or enzymatic) is a sine qua non con-diction in order to prepare any kind of intervention to restore or replace dead or damaged cells and rebuild the axons making them grow in the appropriate direction.

In this context, the treatment of chronic patients need multiple concurrent interventions:

  1.   Treatment with drugs that induce axonal regeneration;
  2.   Treatment with drugs that reduce the inhibitory effects of glial scar both mechanical and enzymatic chondroitinase that due to factors such as chemical inhibitors, blockers of Nogo and other myelin components;
  3.   Treatment with cells or systems consisting of nanomaterials and cells.

Some of these approaches were ineffective few years ago but in the light of developments in nanomaterials and new types of stem cells I think it might be appropriate to re-examine these pathways.

3. How do you think we can solve the problem of scar?

As I mentioned in the previous answer, in order to find an approach that leads to the recovery of sensory and motor pathways, it is necessary to make the scar area permissive for the survival of cells that are transplanted and that would allow axonal growth in the manner to ensure the recovery of the routes of transmission.

With this in mind, scar removal is definitely needed and should be prepared to minimize the risk of inducing further damage.

In this context, the experimental work in the preclinical phase or with animal models is essential but at the same time very complex given that small animals have practical difficulties of intervention and larger animals have problems is housing costs that are beyond the economical capability of most the laboratories that I know.

Finally, the translation of the results obtained in the preclinical stage is very difficult for a variety of patients such as those with spinal cord injury whose disease is highly variable due to the fact that the damage is very random and therefore leads to differences between the patient and the other.

4. Can you apply your research to Chronic Spinal Cord Injury?

The applicability of the cells in the amniotic fluid in models of chronic spinal cord injury must be verified experimentally, so I can say a priori that such an intervention can be prepared but obviously need the appropriate adjustments of the experimental protocol. In fact, while in the acute model we have a purely trophic action in the case of chronic treatment the intervention should be at the level of local scar in order to determine whether these cells could contribute to modify the scar itself and reconstitute the ways by means of the differentiation in cells central nervous system (neurons, oligodendrocytes and astrocytes) or by inducing endogenous stem cells to differentiate into mature cells. In this context, previous treatment with chondroitinase could improve the success of the experiment.

5. Do you have collaborations with other research institutions ? Which ones?

As I mentioned in our discussion in the institute , I believe that partnerships are the lifeblood of research. In recent years I have had collaborations with various research groups and consortia. Firstly put the FUNGENES: Functional Genomics of Human Embryonic Stem Cells; funded by the European Economic Community, Sixth Framework Programme. (€ 500,000 for 3 years) (in collaboration with Prof. A.L. Vescovi of which I was the deputy). This project was set out to investigate the characteristics proliferative and differentiative of stem cells (especially embryonic). This project involved and brought together about a dozen institutions across Europe and basically was the first step that allowed me to improve my knowledge on stem cells.

– Study of functional recovery induced by transplantation of neural stem cells in animal models of acute spinal cord contusion, funded by Fondazione Cariplo.(€ 300,000 for 2 years) (Coordinator Prof. A.L. Vescovi).

It was a project that introduced me in the world of spinal cord injury, and thanks to Prof. Vescovi, the project that make me chose to continue the research in neurodegenerative diseases

– Neural stem cells: a new approach to mobile spinal muscular atrophy; Asamsi non-profit organization funded by foundations and Families of SMA Italy . (Head with Prof. A. L. Vescovi) .

I am also currently working on the project “Role of stem cells in the treatment of glaucoma” (glaucoma is a neurodegenerative disease) with Professor Mario Luca Rossetti, which conducts clinical and research in my department and with Dr. Valentina Massa (which also works in my department) for a study of neurological disorders.

6. What are the steps needed to translate your result in human?

To start a clinical trial phase 1-2, that provide the safety analysis (which most likely this type of cells have since they belong to the class of mesenchymal which have already been extensively tested in several clinical trials) and effectiveness, our results must be first validated in other laboratories. Subsequently, it will be necessary to derive the cells so that they are compatible with the transplant in humans that means that the cells must satisfy conditions of Good Manufacturing Practice (GMP ) that involves the use of materials “human grade” in order to reduce the risk to the patient (for pathologies as the well- known prion disease such as mad cow disease. This procedure is currently out of our economical availability as it requires economical conditions of sterility and purity that we cannot get unless you build the appropriate laboratories.

7. Is there any particular obstacle that slows down your work?

The current financial situation of our country, where the cuts have affected many strategic sectors of the economy and cultural is experienced by us researchers, with much apprehension. While it is true that funding should be allocated to those who do the research and then excellence must be a prerequisite for this contingency (Italian and international), cuts in recent time unfortunately affected groups or researchers that produce high quality work. So there is now the hope that this trend may change and that organizations and associations (onlus) can help the researcher by funding specific projects.

We thank Dr. Bottai for his precious work and for giving us the opportunity to visit the center and for answering our questions.

Cure Girls Arcangela, Marina and Loredana

 

Visita ai laboratori di farmacologia dell’ospedale San Paolo di Milano – Intervista al Dr. Bottai

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Lunedì 20 gennaio le Cure Girls sono state in visita ai laboratori di farmacologia dell’ospedale San Paolo di Milano.

Di seguito potrete leggere l’intervista che ci ha gentilmente rilasciato il Dr. Daniele Bottai.

  1. Dr. Bottai ci descrive brevemente la ricerca che state portando avanti in merito alle lesioni spinali?

“Da quando, nel 2006, mi sono trasferito all’Università degli Studi di Milano ho iniziato ad interessarmi di Lesione Spinale utilizzando un nuovo (a quei tempi) strumento “farmacologico”: le cellule staminali neurali. Avevo lavorato per 3 anni nel Laboratorio del Professor  Angelo L. Vescovi e avevo imparato a manipolare le cellule staminali neurali (cioè provenienti da alcune regioni del cervello) sia umane che di topo.

In questi 8 anni passati all’Università degli Studi di Milano siamo riusciti a studiare il ruolo di diversi tipi di cellule staminali nel trapianto in animali cha avevano subito una lesione spinale, in particolare abbiamo studiato gli effetti di cellule staminali neurali e embrionali murine e umane del liquido amniotico (AFCs) con il proposito di trovare delle fonti di cellule staminali che fossero facilmente reperibili e con le appropriate caratteristiche per il trattamento di patologie neurologiche.

In generale possiamo dire che questi trattamenti cellulari (effettuati in acuto) hanno effetti decisamente positivi e statisticamente significativi da un punto di vista funzionale (motorio) e morfologico. Dopo trattamento con le cellule sopra elencate, i topi tornano a camminare (anche se in maniera non uguale a come facevano prima della lesione); mentre gli animali lesionati e non trattati sono in grado di muovere gli arti posteriori ma non di camminare. Questi risultati sono stati riassunti in 3 lavori scientifici:

Bottai D., Cigognini D., Madaschi L., Adami R., Nicora E., Menarini M., Di Giulio A. M., Gorio A. (2010). Embryonic Stem Cells Promote Motor Recovery and Affect Inflammatory Cell Infiltration in Spinal Cord Injured Mice. Experimental Neurology 223; 452–463;

Bottai D., Madaschi L., Di Giulio A. M. and Gorio A.. (2008) Viability-Dependent Promoting Action of Adult Neural Precursors in Spinal Cord Injury. Molecular Medicine, 14(9-10); 634-644.

In base a questi risultati ci siamo quindi chiesti quale fosse il meccanismo che induceva questo miglioramento nell’animale.

La risposta è stata che in questo modello animale il ruolo delle cellule è prettamente trofico e esse non vanno a sostituire, se non in minima parte, le cellule danneggiate o morte.

Varie sono le molecole trofiche (citochine) che sono coinvolte in questo fenomeno. Recentemente ci siamo concentrati sulle cellule del liquido amniotico. Abbiamo scelto questo tipo di cellule poiché la disponibilità di liquido amniotico da parti cesarei a termine è pressoché illimitata e non presenta problematiche di natura etica ed esigui rischi per il nascituro al momento del prelievo.

In un lavoro che pochi giorni fa ci è stato accettato per pubblicazione (Bottai D., Scesa G., Cigognini D., Adami R., Nicora N., Abrignani S., Di Giulio A.M., and Gorio A. Third trimester NG2-positive amniotic fluid cells are effective in improving repair in spinal cord injury. Experimental Neurology ) abbiamo dimostrato che un fattore trofico, prodotto dalle AFCs, importante per l’induzione del recupero morfofunzionale era il fattore di crescita degli epatociti (HGF) e che questa citochina veniva prodotta solo da particolari sub popolazioni delle nostre cellule ovvero quelle che esprimevano sulla loro superficie la proteina NG2 (un proteoglicano di membrana). Tale proteina di membrana potrà essere, si spera, utilizzata in futuro per selezionare tra le cellule del liquido amniotico quelle che hanno una azione terapeutica. Attualmente stiamo studiando quale sia la correlazione tra NG2 e HGF.”

2.      Ricerca su lesione acuta o su lesione cronica: ci spiega la differenza? Vantaggi e svantaggi.

“Non credo che possiamo parlare di differenze tra lesione acuta e cronica in termini di vantaggi e svantaggi, sono due condizioni patologiche diverse, ovviamente l’acuta progredisce nella cronica con il passare del tempo con un danno che è prevalentemente di de-mielinizzazione.

In questo contesto ci troviamo di fronte a due differenti tipologie di pazienti ovvero quelli acuti e cioè che da pochi giorni o settimane hanno subito il danno al midollo spinale i quali sono in uno stato infiammatorio molto pronunciato che esacerba il danno meccanico primario danneggiando ulteriormente il tessuto e quelli cronici che invece hanno subito il danno spinale da più tempo (mesi ed anni), in cui la degenerazione indotta dal danno primario e quello secondario della SCI causa la formazione di una cavità circondata dalla cicatrice gliale che separa la lesione dal tessuto non danneggiato ed impedisce la rigenerazione nervosa.

Attualmente il ricercatore ed il clinico si trovano davanti a queste due tipologie di pazienti poiché in prima istanza non sono stati capaci di approntare terapie efficaci per trattare i malati acuti.

L’approccio terapeutico per il paziente che da poco ha subito il danno spinale è indirizzato alla riduzione dello stato di compressione e al controllo del danno secondario dovuto all’infiammazione tramite il farmaco metil-prednisolone, approccio fra l’altro che non pare essere di una sufficiente efficacia, come si capisce dal fatto che il numero di para o tetraplegici cronici sta, purtroppo aumentando.

Nel paziente cronico invece ci troviamo di fronte ad una situazione ben differente con la barriera ematoencefalica che si è richiusa ed una cicatrice gliale costituita principalmente da fibroblasti provenienti dalle meningi e astrociti reattivi che producono proteoglicani (molecole della matrice extracellulare) che sono responsabili dell’inibizione della crescita di assoni.

In questa situazione l’approccio terapeutico è enormemente differente da quello approntato nello stato acuto della lesione spinale.

Infatti la rimozione (sia essa meccanico-chirurgica che enzimatica) è condizione sine qua non per poter approntare un qualsiasi tipo di intervento volto a ricostituire o rimpiazzare le cellule morte o danneggiate e a ricostruire gli assoni facendoli crescere nell’appropriata direzione.

In questo contesto il trattamento del paziente cronico necessita di più interventi concomitanti:

1)  Trattamento con farmaci che inducano la rigenerazione assonale;

2)  Trattamento con farmaci che riducano gli effetti inibitori della cicatrice gliale sia meccanici che enzimatici con condroitinasi che dovuti a fattori chimici inibitori come bloccanti di Nogo e altri componenti della mielina;

3)  Trattamento con cellule o sistemi costituiti da nanomateriali e cellule.

Alcuni di questi approcci qualche anno fa sono risultati inefficaci ma alla luce degli sviluppi dei nanomateriali e di nuove tipologie di cellule staminali credo che potrebbe essere appropriato ridiscutere queste vie.”

3.      Come pensate si possa risolvere il problema della cicatrice?

“Come ho già accennato nella precedente risposta, affinché si possa pensare ad un approccio che porti alla ricostituzione delle vie sensitive e motorie, occorre rendere la zona della cicatrice permissiva alla sopravvivenza di cellule che vi vengano trapiantate e che possa permettere la crescita assonale con le modalità atte a garantire la ricostituzione delle vie di trasmissione.

Con tale intento la rimozione della cicatrice è sicuramente necessaria e va approntata riducendo al minimo il rischio di indurre nuovi danni.

In questo contesto il lavoro sperimentale in fase preclinica ovvero con modelli animali è essenziale ma al contempo molto complesso dato che animali di piccole dimensioni presentano difficoltà pratiche di intervento e animali più grandi presentano delle problematiche sia di stabulazione e costi che sono fuori dalla portata della gran parte dei laboratori che conosco.

Infine la traduzione dei risultati ottenuti in fase preclinica è molto difficile per una tipologia di pazienti come quelli che hanno la lesione spinale la cui patologia è molto variabile a causa del fatto che il danno è molto casuale e quindi porta a differenze tra un paziente e l’altro”.

4.      Si può applicare la vostra ricerca alle Lesioni Spinali Croniche?

“L’applicabilità delle cellule nel liquido amniotico in modelli di lesione spinale cronica deve essere verificata sperimentalmente quindi a priori posso dire che tale intervento può essere approntato ma ovviamente con gli appropriati aggiustamenti di protocollo sperimentale. Infatti, mentre nel modello acuto noi abbiamo una azione prettamente trofica, nel caso del cronico si potrebbe eventualmente ipotizzare un trattamento locale a livello della cicatrice allo scopo di verificare se queste cellule possano contribuire a modificare la cicatrice stessa e a riformare le vie danneggiate sia differenziandosi in cellule del sistema nervoso centrale (neuroni, oligodendrociti e astrociti) oppure inducendo le cellule staminali endogene a differenziarsi in cellule mature. In questo contesto il precedente trattamento con condroitinasi potrebbe migliorare la riuscita dell’esperimento.”

5.      Avete collaborazioni con altri istituti di ricerca? Quali?

“Come ho accennato nella nostra discussione in istituto, ritengo che le collaborazioni siano la linfa vitale della ricerca, in questi anni ho avuto collaborazioni con vari gruppi di ricerca e consorzi. In primis metterei il progetto Fungenes: Functional Genomic of non Human Embryonic Stem Cells; finanziato dalla Comunita Economica Europea, VI Programma Quadro. (500000 € per 3 anni) (in collaborazione con il Prof. A. L. Vescovi di cui ero il deputy (viceresponsabile)). Tale progetto si prefiggeva di studiare caratteristiche proliferative e differenziative delle cellule staminali. Tale progetto coinvolgeva e raggruppava circa una ventina di istituti in tutta Europa e fondamentalmente è quello che mi ha permesso di meglio affinare le mie conoscenze sulle cellule staminali.

-Studio del recupero funzionale indotto dal trapianto di cellule staminali neurali in modelli animali acuti di contusioni del midollo spinale; finanziato dalla Fondazione Cariplo. (300000 € per 2 anni) (Coordinatore il Prof. A. L. Vescovi).

E’ stato un progetto che mi ha poi introdotto nel mondo della lesione spinale, e al quale devo, grazie all’aiuto del Prof. Vescovi, la scelta nel proseguire la ricerca nelle patologie neurodegenerative

-Cellule staminali neurali: un nuovo approccio cellulare per l’atrofia muscolare spinale; finanziato dalle Fondazioni Onlus Asamsi e Famiglie SMA Italia. (Responsabile con il Prof. A. L. Vescovi).

Inoltre sto attualmente collaborando per il progetto “Ruolo delle cellule staminali nella terapia del glaucoma” (il glaucoma è una patologia neurodegenerativa) con il Professor Luca Mario Rossetti, che svolge attività clinica e di ricerca nel mio Dipartimento e con la dottoressa Valentina Massa (che lavora sempre nel mio dipartimento) per uno studio su patologie neurologiche.”

6.      Quali sono i passi necessari per arrivare a sperimentare sull’uomo le vostre scoperte scientifiche?

“Per poter iniziare una fase clinica 1-2 e che cioè preveda lo studio della sicurezza (che molto probabilmente questo tipo di cellule hanno appartenendo alla classe delle mesenchimali che sono già ampiamente state testate in vari trial clinici) e di efficacia occorrerà prima la validazione da parte di altri laboratori dei risultati che abbiamo ottenuto. Successivamente occorrerà derivare le cellule in modo che siano compatibili con il trapianto nell’uomo ovvero trattarle in condizioni di Good manifacturing practice (GMP) che prevede l’utilizzo di materiali “human grade” allo scopo di ridurre il rischio per il paziente (per patologie prioniche come il ben noto Morbo della mucca pazza ad esempio). Questa procedura è attualmente fuori dalla nostra portata economica dato che necessita di condizioni di sterilità e di purezza che non possiamo ottenere a meno di non costruire dei laboratori appositi.”

7.      Esiste qualche ostacolo particolare che rallenta il vostro lavoro?

“L’attuale situazione finanziaria del nostro paese in cui i tagli hanno colpito molti settori economici e culturali strategici è vissuta, da noi ricercatori, con molta apprensione. Se è pur vero che i finanziamenti debbano essere assegnati a coloro che la ricerca la fanno e quindi la premialità all’eccellenza è una condizione essenziale in questa contingenza (italiana e mondiale), i tagli purtroppo negli ultimi anni hanno toccato anche i gruppi o i ricercatori che producono lavori di qualità. Non c’è quindi che da sperare che questo trend cambi e che eventualmente organizzazioni e associazioni (onlus) possano aiutare finanziando progetti mirati”.

Ringraziamo il dr. Daniele Bottai per la disponibilità e il tempo che ci ha dedicato.

 Cure Girls Arcangela, Marina e Loredana

Our Visit to the Center for Nanomedicine and Tissue Engineering in Milan

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We were recently invited by Dr. Fabrizio Gelain  to visit the new ‘Center for Nanomedicine and Tissue Engineering’ (CNTE) located at the Niguarda Hospital in Milan, Italy.

dr. Fabrizio GelainDr. Gelain is co-director of the center and has been working on Spinal Cord Injury (SCI) research for several years. He showed us the new labs and gave us an interview to explain what his team is working on with regards to a cure for SCI.

1) Could you tell us about this new research center and the nanotechnologies that your team is working on?

“Nanotechnology is the production and/or manipulation of materials that have a dimension between 1 and 100 nano-meters; in other words 1 nano-meter = 1 millionth of a millimeter.

At the Center for Nanomedicine and Tissue Engineering (CNTE) we design, synthesize, characterize nanostructured bio-prosthesis that can be naturally absorbed by the body. Here we utilize principles of nanomedicine, physics, materials science, cellular biology and medicine to develop prosthesis implantable in living organisms to repair damaged tissues. Often nanotechnologies are only considered for creating nanoparticles for a controlled release of drugs, for some tumor therapies or for imaging techniques. Our work is dedicated to other important sections of nanomedicine. We synthesize scaffolds that may also contain cells to repair important lesions of biological tissues. We also conduct three-dimensional cell culture experiments in vitro: a more complex paradigm than 2D but much more reliable to predict results in living organisms. That allows us to reduce animal studies which is very important from an ethical point of view and it also significantly reduces time and costs of research.”

2)  How nanotechnology can be used to cure spinal cord injury (SCI)?

“In the case of severe injuries, a portion of biological tissue is lost and it becomes useful to use a scaffold rather than just a cell therapy approach as it is necessary to provide physical and biochemical guidance for endogenous tissue to make regeneration happen. At the same time a scaffold keeps in the right place transplanted cells and guides them to a proper engraftment with the host tissue. In case of SCI very often there is a formation of scar tissue and also of a cyst. In this damaged area it becomes very useful to use a scaffold. Furthermore we have the possibility to design our scaffolds at a molecular level. That allows us to control the integration of the scaffold with the biological tissue, to control the release of drugs contained in the scaffold and to transplant more accurately cells which are useful for regeneration.”

3)  What is the difference between acute SCI and chronic SCI?

“In humans SCI is considered acute in the first few days (up to few weeks) after the lesion. Then it becomes “sub-acute” and finally chronic and stable. When exactly SCI can be considered chronic is still controversial, but there is a growing consensus that SCI can be considered chronic after one year. From a pathophysiological perspective acute and chronic lesions are extremely different. Acute SCI has hematoma, damaged but still present tissue, a strong immune response etc.. Usually (except in very severe lesions such as a gunshot wound) there is still the presence of tissue structure that will be lost gradually moving toward the chronic stage. In this phase interventions have the goal to prevent the secondary damage using mechanisms of neuroprotection. After the cascade of events that starts with SCI (also known as “secondary damage”) we have the chronic lesion that has a greater loss of nerve fibres, a glial scar all around the lesion and often in humans there are also internal cavities. The cysts and the gliotic scar are a physical and chemical barrier to regeneration.  Moreover at this stage the lesion is much bigger in comparison to the acute lesion and that makes regeneration even more difficult.”

in laboratorio4)  Research on acute or chronic SCI, advantages and disadvantages: what have you chosen to focus on?

“Doing research on acute SCI is very different than doing chronic SCI research. Chronic has more hurdles; scientific, logistical and also in terms of resources. In case of acute SCI the goal is to find a cure for future patients, while in chronic SCI we try to find a cure for people that already suffer the consequences of SCI. Often both basic and clinical research focus on acute SCI as experimental paradigms are shorter (a few months instead of up to a year), costs are lower and usually lesions are less severe since the secondary damage has not yet occurred. This can lead to positive results but in very specific conditions of patients to come. We have done and published research on acute lesions to get a rapid screening of new solutions in case of multiple variables (= possible solutions) that we can change thanks to the nanotechnologies. Preliminary results in short term are essential, but for 12 years our main focus has been chronic SCI even given all the difficulties we have mentioned including longer timeframes for each experiment and much higher costs). Nonetheless we keep our mind on the real significance and translationality of results we have obtained and on the ones we hope to achieve.”

5)  What is your approach to solve the scar problem?

“The answer to this question is very complex and above all isn’t clear yet to us and to the scientific community in general. In many studies enzymes have been used to degrade essential components of the scar. This is a good approach to make the scar matrix weaker. In our case we have the necessity to have a space to insert the components of our scaffold (currently made of micro-tubes of about 200 micron in diameter) and at the moment we do a pre- treatment to weaken the scar which then needs to be partially removed surgically. Clearly this procedure is critical: the lesion has to be first studied in details using the most modern imaging techniques and then the previously weakened scar can be partially removed but leaving a safety layer of tissue to avoid damaging intact nervous tissue. Then one more treatment to weaken the scar (still using enzymes) can be done to facilitate axons to enter the implant. To be able to undertake this intervention it is essential to first do an accurate three-dimensional study of the lesion site.”

6)  In 2011 you published in ACS Nano the results of a study in which rats with chronic SCI have  shown a significant recovery. What progress has been made since then?

“We have continued to improve the approach that we used in the above mentioned study,  which was also just a starting point for the international scientific community. Indeed our results have been listed among the 5 more important recent discoveries in nanomedicine.  (Scientific American  ).

We have gone forward by improving chemical components and biological functionalities of the biomaterials and we have developed additional interventions (before and after surgery) that are essential to obtain stronger results. We have had better preliminary results, but because of the time and costs of this research we don’t have trustable results to share yet. Our general strategy consists of synergically merging the promising strategies already published by others with our discoveries (multidisciplinary approach) to develop a more complex but more promising therapy. We will keep presenting at symposia and publishing in international scientific journals our results so that they can be analyzed impartially by the scientific community and patients.”

7)  Do you collaborate with other groups of research?

“We have several national and international collaborations. In Italy the most important ones are with the Casa Sollievo della Sofferenza Hospital from S. Giovanni Rotondo with which we share many important parts of our projects and the Cell Factory of Terni. Additionally, we collaborate with the University of Milan-Bicocca, the University of Trieste and others. Internationally we have important collaborations with scientific teams at the Massachusetts Institute of Technology, the Lawrence Berkeley National Lab, the University of Alberta and the University of Florida. We remain very open to new collaborations since it is when different disciplines merge that the best results occur.  I also believe that regeneration of the spinal cord is a very complex target, well beyond a single approach.”

8)  What are the necessary steps to bring your discoveries to clinical trials?

“Before we can start clinical trials our results needs to be replicated by independent labs. Meanwhile, as I have said at the moment we are improving our approach with the goal to improve the results and make it applicable on people. Then we will need to produce our bioprostheses to standard GMP (Good Manufacture Practice) to meet the quality criteria necessary for clinical application. Lastly we will have to apply to ethical and medical authorities and do all the necessary paper work to get the authorization to conduct clinical trials.”

9)  Is there any particular obstacle?

“Unfortunately the main obstacle is the lack of funding and that is slowing down our progress. We have a tremendous potential but we proceed at a much slower speed than we could.”

10)   What economic resources are necessary to get ready for clinical trials?

“That is a very critical question; I can say that in terms of infrastructures we have made good progress in the last few years. The critical aspect at the moment is to hire more people to do the necessary research work. We will then need funding to produce GMP bioprostheses and finally to do all the paper work to get the authorization to do a phase I clinical trial. All this will require a few million Euros.”

We thank Dr. Gelain for his precious work and for giving us the opportunity to visit the center and for answering our questions.

Cure Girls Loredana and Arcangela