Miquel Bosch

Institute for Bioengineering of Catalonia (IBEC) - www.ibecbarcelona.eu, Nanoprobes and nanoswitches, Researcher

Massachusetts Institute of Technology (MIT), BCS, Research Scientist

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I am interested in the molecular basis of learning and memory.
My research is focused on the experience-dependent plasticity that occur in the nervous system during memory storage at the most fundamental level: the individual synapse.
I use optical imaging technologies (such as two-photon microscopy), together with photopharmacology (i.e., light-regulated drugs) to visualize and manipulate the changes that take place in the structure and the molecular composition of hippocampal and cortical dendritic spines during events of synaptic plasticity, like LTP and LTD.
I also want to understand how synaptic plasticity is impaired in diseases like the Fragile X Syndrome and how can we restore these alterations using photopharmacology.
Supervisors: Yasunori Hayashi, Mark F. Bear, and Pau Gorostiza
Phone: 1-617-324-7008
Address: The Picower Institute for Learning and Memory
Department of Brain and Cognitive Sciences
Massachusetts Institute of Technology (46-3301)
43 Vassar St, Cambridge, 02139, MA, US

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Long-Term Expression of Erythropoietin from Myoblasts Immobilized in Biocompatible and Neovascularized Microcapsules

by Maria Jose Araujo Castro and Miquel Bosch

The present paper investigates the long-term functionality of an ex vivo gene therapy approach ba... more The present paper investigates the long-term functionality of an ex vivo gene therapy approach based on cell microencapsulation for the continuous delivery of erythropoietin (EPO) without implementation of immunosuppressive protocols. Polymer icrocapsules (0.5 ml) loaded with EPOsecreting C2C12 myoblasts and releasing 15,490 F 600 IU EPO/24 h were implanted in the peritoneum and subcutaneous tissue of syngeneic and allogeneic mice. High and constant hematocrit levels were maintained for more than 100 days in all implanted mice. Capsules retrieved from the peritoneum were free-floating or forming small capsule clusters, and we detected only a weak fibroblast outgrowth in capsules adhered to organs, whereas capsules explanted from the subcutaneous region appeared altogether as a richly vascularized structure with no signs of major host reaction. Interestingly, the functionality of capsules implanted in the allogeneic mice persisted until day 210 after implantation. These results highl...

A distinct area of rat visual cortex mediates behavioral enhancement by audiovisual integration

Multisensory information facilitates reaction speed by enlarging activity difference between superior colliculus hemispheres in rats

by Tetsuo Yamamori and Miquel Bosch

PloS one, 2011

Miquel Bosch

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