João Mano

Vice-Diretor

Short CV

João F. Mano, PhD in Chemistry (1996, Technical Univ. Lisbon), D.Sc. in Tissue Engineering Regenerative Medicine and Stem Cells (2012, Univ. Minho), is a full professor at the Department of Chemistry of the University of Aveiro (Portugal). During his career he has been teaching courses related to biomaterials/polymer science and technology, and tissue engineering, in both undergraduate and graduate levels. He is the director of the Doctoral Program on Biotechnology at the Univ. of Aveiro. He has also an appointment as Invited Professor (classe exceptionelle, since 2014) at University of Lorraine (France), and Visiting Professor in KAIST (South Korea) - 2019 and Adjunct Professor at Ajou University (South Korea) since 2020.  

Since 2022 he is a vice-director at CICECO – Aveiro Institute of Materials, where he is directing the COMPASS Research Group, founded in April 2016. His research focuses on the application of advanced biomaterials and cells to advance multidisciplinary concepts in the field of regenerative and personalized medicine. Specifically, he utilizes biomimetic and nano/micro-technology approaches to develop polymer-based biomaterials and surfaces for the creation of biomedical devices with enhanced structural and multi-functional properties. He also engineers microenvironments to regulate cell behavior and organization, with the goal of clinically applying these technologies in advanced therapies and drug screening, or in the bioengineering of disease models.

João F. Mano is author of 750+ original research or review papers in international journals (36000+ citations, h=96 – Web of Science) and 40+ book chapters. João F. Mano co-edited 9 special issues in international journals and 5 books. João F. Mano has been invited to review manuscripts from 340+ different international journals and to routinely evaluate projects from numerous private and state funding agencies from 19 different countries. He was the LS9 panel chair for the peer review ERC Advanced Grants (2020-2023). João F. Mano supervised or co-supervised 74+ MSc, 26 PhD students, and 40+ post-doctoral fellows. He filed 12 patents (8 as senior inventor). João F. Mano is the co-founder and chairman of: METATISSUE (2018), a company developing human-derived hydrogels for 3D cells culture (5 prizes and owner of two patents); and CELLULARIS Biomodels (2021), a company offering services for cell-based disease models (1 prize and 1 patent).

He is the Editor-in-Chief of Materials Today Bio (Elsevier). He has been also part of a series of scientific societies and editorial boards of 12 international journals. He has been coordinating or involved in many national and European research projects and participated in the organization of scientific events in the area of polymer/materials science and biomaterials/tissue engineering.

Professor João F. Mano has been member of scientific committees, organizing committees, referee and chairman in different international meetings. He was invited to present more than 120 invited/keynote/plenary talks in international conferences including EUROMAT, ESTAC, TERMIS (EU and AP chapters and World conferences), BIOMED, FBPS, NANOMED, COLAOB, ESB, SFB, World Biomaterials Conference, E-MRS, ESAO, EPF, ACS, CBECIMAT, NICE, Inter. HYMA, APME, APCChE, PPM, EPNOE, SELECTBIO, EFB, CRS, ECMNP, PAT, BioIberoamerica, RRB, ScSB, EuChemS, BPP.

João F. Mano has received different honours and awards: (i) fellow of the IUPAC (International Union of Pure

and Applied Chemistry) since 2004; (ii) the Stimulus to Excellence Award by the Portuguese Minister for Science and Technology in 2005; (iii) the Materials Science and Technology Prize, attributed by the Federation of European Materials Societies (FEMS) in 2007 (iv) UNESCO Chair on Biomaterials attributed in 2008 from the University of Havana (Cuba); (v) the major BES innovation award in 2010 (at that time, one of the most recognised innovation prize in Portugal); (vi) recipient an Advanced Grant from the European Research Council (ERC-AdG), in 2015; (vii) received the title of Professor@Lorraine from the University of Lorraine, France, in 2018; (viii) recipient a Proof of Concept Grant from the European Research Council (ERC-PoC), in 2018; (ix) received the title of Doctor Honoris Causa, given by University of Lorraine, in 2019; (x) awarded with a Gutenberg Chair, supported  by the Great East Region of France, in 2020; (xi) recipient a second ERC-AdG, in 2020; (xii) recipient a second ERC-PoC, in 2020; (xiii) elected fellow of the European Academy of Sciences (FEurASc); (xiv) Bluepharma | University of Coimbra Innovation Award 2019; (xv) Inducted Fellow Biomaterials Science and Engineering (FBSE) in 2020; (xvi) Researcher Award University of Aveiro 2020 (first edition); (xvii) George Winter Award 2020: European Society for Biomaterials. (xviii) Madinaveitia-Lourenço Prize, from the Spanish Royal Society of Chemistry, 2021. (xix) elected fellow of the American Institute of Medical and Biological Engineering (FAIMBE), 2022; (xx) received the title of Doctor Honoris Causa, given by University of Utrecht, in 2022.

Background

◊ Habilitation in Tissue Engineering, Regenerative Medicine and Stem Cells (Univ. of Minho) - 2012

◊ PhD in Chemistry (Technical University of Lisbon) - 1996

◊ Chemical Engineering degree (I.S.T.) - 1992.

Research Area

Bio-inspired materials: We take nature as a source of endless inspiration for the development of novel classes of polymer-based materials and processes, combining chemistry, materials science, and engineering tools.
Cell and Tissue Engineering: Tissue engineering addresses the scarcity of tissues/organs available for repair and transplantation, by adopting multidisciplinary strategies permitting the ex-vivo creation of implantable hybrid constructs through the integration of biomaterials, therapeutic cells and physicochemical signals.
Nano/micro platforms for biomedicine: Our group focuses on the use of an interplay and cutting-edge nano- and micro-technologies for addressing a multitude of biomedical applications, including those in diagnostics and therapy.

Representative Publications (last 5 years)

1- S.C. Santos, C.A. Custódio, J.F. Mano - Photopolymerizable platelet lysate hydrogels for customizable 3D cell culture platforms. Advanced Healthcare Materials, 7, 1800849 (2018).

2- L.F. Santos, A.S. Silva, C.R. Correia, J.F. Mano - Physical immobilization of particles inspired by pollination. Proceedings of the National Academy of Sciences (USA), 116(12), 5405 (2019).

3- A.R. Sousa, C.M. Cruz, M.B. Oliveira, J.F. Mano - One‐step rapid fabrication of cell‐only living fibers. Advanced Materials, 32(2), 1906305 (2020).

4- A.S. Silva, L.F. Santos, M.C. Mendes, J.F. Mano - Multi-layer pre-vascularized magnetic cell sheets for bone regeneration. Biomaterials 231, 1196648 (2020).

5- C.F. Monteiro, S.C. Santos, C.A. Custódio, J.F. Mano – Human platelet lysates-based hydrogels: a novel personalized 3D platform for spheroid invasion assessment. Advanced Science 7 (7), 1902398 (2020).

6- I.M. Bjørge, M. Salmeron-Sanchez, C.R. Correia, J.F. Mano - Cell behavior within nanogrooved sandwich culture systems. Small, 16 (31), 2001975 (2020).

7- M.D. Neto, A. Stoppa, M.A. Neto, F.J. Oliveira, M.C. Gomes, A.R. Boccaccini, P.A. Levkin, M.B. Oliveira, J.F. Mano - Fabrication of quasi-2D shape-tailored microparticles using wettability contrast-based platforms. Advanced Materials, 33(14), 2007695 (2021).

8- M.M. Maciel, T.R. Correia, V.M. Gaspar, J.M.M. Rodrigues, I.S. Choi, J.F. Mano - Partial coated stem cells with bioinspired silica as new generation of cellular hybrid materials. Advanced Functional Materials, 31(29), 2009619 (2021).

9- M. Zargarzadeh, A.S. Silva, C. Nunes, M.A. Coimbra, C.A. Custódio, J.F. Mano - Self-glucose feeding hydrogels by enzyme empowered degradation for 3D cell culture. Materials Horizons, 9(2), 694-707 (2022).

10- R.C. Gonçalves, S. Vilabril, C.M.S.S. Neves, M.G. Freire, J.A.P. Coutinho, M.B. Oliveira, J.F. Mano - All-aqueous freeform fabrication of perfusable self-standing soft compartments. Advanced Materials, 34(31), 2200352 (2022).

 

[see complete list of publications in http://www.researcherid.com/rid/A-4418-2009]

Supervisões em Curso

Projectos

Ativação metabólica da diferenciação 3D de células estaminais em tecido ósseo (BetterBone)

ParticipanteFundação para a Ciência e a Tecnologia
Estratégias que envolvam a diferenciação osteogénica de células estaminais mesenquimais (MSCs) representam ferramentas promissoras na medicina regenerativa, tanto através da promoção da regeneração in situ, como da implanta&...

Development of a multifunctional biomaterial patch for buccal delivery of peptide-analogue treatments (BUCCAL-PEP)

Coordenador LocalEuropean Comission
Oral delivery of peptide macromolecules represents significant challenges for pharmaceutical research, including low bioavailability, dosage control and undesirable food interactions. The intention of the EU-funded BUCCAL-PEP project is to develop a technological platform for oromucosal delivery suitable for a broad range of peptide-analogue the...

Exploração do Potencial Regenerativo e Translacional de Fibras Celulares (CellFi)

ParticipanteFundação para a Ciência e a Tecnologia
Células mesenquimais estaminais Estruturas sem scaffold Fibras Celulares Regeneração

Human Platelet Lysates-based Scaffolds for Interfacial Multi-tissue Repair (INTERLYNK)

CoordenadorEuropean Comission
Desenvolver scaffolds personalizados com multimateriais altamente bioativos, utilizando tintas com base em lisado de plaquetas e novas técnicas de fabrico aditivo de resolução óptima de impressão Projetar com eficiência compostos biomiméticos altamen...

Hybrid living bioengineered hierachical constructs with self-oxygenating capability for bone engineering (O2CELLS)

CoordenadorEuropean Comission

Laboratório Associado CICECO-Instituto de Materiais de Aveiro (LA/P/0006/2020)

ParticipanteFundação para a Ciência e a Tecnologia

PRInted Symbiotic Materials as a dynamic platform for Living Tissues production (PRISM-LT)

Coordenador LocalEuropean Comission
The EU-funded PRISM-LT project will use a hybrid living materials concept to create a flexible platform for living tissue manufacturing. The innovative bio-ink will contain stem cells integrated into a supporting matrix with engineered helper bacteria or yeast cells. The bioprinting process will produce a 3D patterned structure where st...

A bioactivated nano-layered hydrogel for dermal regeneration in hard-to-heal ulcers (BioNaNor)

Coordenador LocalOther International
Several strategies have been developed to restore dermal function. These include collagen membranes, decellularized dermis from donors or synthetic graft alternatives. So far, these approaches have been unreliable at best and auto-grafts and transplants (that both create their own problems with donor site morbidity, risk for disease transfer and...

Bioengineered autonomous cell-biomaterials devices for generating humanised micro- tissues for regenerative medicine (ATLAS)

CoordenadorEuropean Comission
New generations of devices for tissue engineering (TE) should rationalize better the physical and biochemical cues operating in tandem during native regeneration, in particular at the scale/organizational-level of the stem cell niche. The understanding and the deconstruction of these factors (e.g. multiple cell types exchanging both paracrine an...

Biopolímeros de origem marinha como blocos de construção inovadores do mar para o desenvolvimento de membranas bioreabsorvíveis multicamada para regeneração guiada de osso (BLUETEETH)

CoordenadorFundação para a Ciência e a Tecnologia
Natural origin polymers from algae and arthropods can be obtained in large scale, and a great effort has been paid to find applications for such high-added value materials. Periodontal disease is frequent in humans and constitutes, together with dental caries, the principal cause of tooth loss in adults. Currently, one of the available treatment...

Biorrefinaria de microalgas Coccolithophore: uma abordagem para biomateriais sustentaveis (Coccolitho4BioMat)

ParticipanteFundação para a Ciência e a Tecnologia

Cápsulas esféricas multicompartimentalizadas de alto rendimento para a transplantação de co-culturas multimodais de células estaminais derivadas do tecido adiposo e ilhotas pancreáticas. (TranSphera)

ParticipanteFundação para a Ciência e a Tecnologia

Colonizacao 3D de celulas em hidrogeis de origem marinha atraves de padronizacao por microcanais para regeneracao ossea (PROMENADE)

ParticipanteFundação para a Ciência e a Tecnologia
magnetic; 3D cell colonization; hydrogel

Desenvolvimento de termometria sem fios a 4D tendo como alvo a ablação de tumores (PTDC/NAN-MAT/3901/2020)

ParticipanteFundação para a Ciência e a Tecnologia
Thermografia Nanopartículas Magnéticas Hipertermia induzida Bioimpressão

Desenvolvimento de uma membrana periodontal multicamada composta por blocos inovativos a base de polimeros de origem marinha e enzima para regeneracao guiada de osso que possui mineralizacao enzimatica controlada. (MIMETIc)

ParticipanteFundação para a Ciência e a Tecnologia

Dispositivos Supramoleculares Auto-Regulados baseados na Complementaridade dos Pares de Base do ADN: Uma Tecnologia Biomimética e com Reconheciemnto Molecular para Isolar Células Específicas para Aplicações Biomédicas (SUPRASORT)

ParticipanteFundação para a Ciência e a Tecnologia

Enabling precision chemical methodologies applied to natural -based systems for the development of multifunctional biomedical devices (CHEM2NATURE)

Coordenador LocalEuropean Comission
CHEM2NATURE addresses current limitations of UMINHO in the Chemistry field regarding its scientific know-how and partnerships with world-leading institutions. UMINHO seeks to improve the multifunctionality of natural-origin polymers, often with limited bioactivity and stimuli-responsiveness, and increase the performance of cell-based therapies. ...

European Network of Bioadhesion Expertise: Fundamental Knowledge to Inspire Advanced Bonding Technologies (COST Action CA15216)

Coordenador LocalEuropean Comission
Many organisms, ranging from bacteria and fungi to those much larger animals and plants use chemical and mechanical means to attach permanently or temporarily to surfaces. Some bioadhesives have advantages over synthetic counterparts in terms of their ability to function over a wide temperature range, in wet or dry environments, and to form stab...

Extracellular matrix derived products from human placenta to engineer bone microtissues for in vitro disease models (AMNIOGEL)

CoordenadorEuropean Comission

Hidralazina - uma nova abordagem terapêutica no Carcinoma da próstata resistente à castração (HyTherCaP)

Coordenador LocalFundação para a Ciência e a Tecnologia
O carcinoma da próstata (CaP) é uma das neoplasias malignas mais prevalentes no mundo e uma das principais causas de morbilidade e mortalidade oncológica. Em Portugal é o cancro mais incidente e a 3ª causa de morte por cancro no homem (1, 2). Apesar da maioria dos CaPs diagnosticados serem cli...

Hidrogéis de Lisados de Plaquetas para Regeneração do Miocárdio (BEAT)

ParticipanteFundação para a Ciência e a Tecnologia

Human based bioinks to engineer physiologically relevant tissues (HumanINK)

CoordenadorEuropean Comission
Bioprinting techniques, which integrate 3D printing with tissue engineering by using living cells encapsulated in natural or synthetic biomaterials as bioinks, are paving the way toward devising many innovating solutions for key biomedical and healthcare challenges and heralds' new frontiers in medicine, pharmaceutical, and food industries.Human...

Metodologias eficientes para a conjugação de polissacarídeos naturais com péptidos para obtenção de membranas multifuncionais para regeneração periodontal. (COP2P)

ParticipanteFundação para a Ciência e a Tecnologia

Mosaicos bioinspirados para o desenvolvimento de microtecidos ósseos ultra-estruturados; (TETRISSUE)

ParticipanteFundação para a Ciência e a Tecnologia
ossificação endocondral engenharia de tecidos modular mecanobiologia co-culturas 3D

Novel 3D platforms to engineer bone microtissues for in vitro disease models; (Microbone)

CoordenadorEuropean Comission
Osteosarcoma is a rare but devastating bone tumour that mainly affects children, adolescents and elderly. This type of tumour is very resistant to therapy, being thus urgent to find new effective treatments. In vitro tumour models can recapitulate many aspects of the natural tumour environment, and could be used to improve the predictive value o...

Produção de Plataformas Microcapsulares 3D+ para Avaliação Laboratorial em Larga Escala de Novas Terapias Combinatórias para o Cancro do Pâncreas (PANGEIA)

ParticipanteFundação para a Ciência e a Tecnologia

Sondas neuronais fotónicas integradas para computação neuromórfica (PHEASANT)

ParticipanteFundação para a Ciência e a Tecnologia

Tailored Elastin-like Recombinamers as Advanced Systems for Cell Therapies in Diabetes Mellitus:a Synthetic Biology Approach towards a Bioeffective and Immunoisolated Biosimilar Islet/Cell Niche (ELASTISLET)

Coordenador LocalEuropean Comission
ELASTISLET aims to create a breakthrough development in encapsulation technology and its use in cell and tissue therapies for the treatment of type 1 and 2 diabetes. ELASTISLET will combine leading technologies in biomaterial design, production and processing, cross-linking/grafting technology and cell therapy, to synergistically integrate them ...

Publicações

Natural Polymer-Polyphenol Bioadhesive Coacervate with Stable Wet Adhesion, Antibacterial Activity, and On-Demand Detachment

Margarida M. A. Sacramento, Mariana B. Oliveira, José R.B. Gomes, João Borges, Benjamin R. Freedman, David J. Mooney, João M.M. Rodrigues, João F. Mano
2024, Advanced Healthcare Materials.

In-Bath 3D Printing of Anisotropic Shape-Memory Cryogels Functionalized with Bone-Bioactive Nanoparticles

Edgar J. Castanheira, Luís P. G. Monteiro, Vítor M. Gaspar, Tiago R. Correia, João M. M. Rodrigues, João F. Mano
2024, ACS Applied Materials and Interfaces, 16, 15.

Human Chorionic Membrane-derived Tunable Hydrogels for Vascular Tissue Engineering Strategies

Elisa A.G. Martins, Inês A. Deus, Maria C. Gomes, Ana S. Silva, João F. Mano, and Catarina A. Custódio
2024, Advanced Healthcare Materials, 2401510.

A Supramolecular Injectable Methacryloyl Chitosan-tricine-based Hydrogel with 3D printing potential for tissue engineering applications

Pedro M.S. Ouro, Dora C.S. Costa, Adérito J.R. Amaral, João F. Mano
2023, Macromolecular Bioscience.

Bioactive Self-Regulated Liquified Microcompartments to Bioengineer Bone-Like Microtissues

Ana R. Pinho; Gomes, Maria C. Gomes; Dora C. S. Costa; Mano, João F. Mano
2023, Small.

In situ generated hemostatic adhesives: From mechanisms of action to recent advances and applications

Luís P.G. Monteiro, João M.M. Rodrigues, João F. Mano
2023, Biomaterials Advances, 155.

Bioinspired Oxidation-Resistant Catechol-like Sliding Ring Polyrotaxane Hydrogels

Rial-Hermida, MI; Costa, DCS; Jiang, L; Rodrigues, JMM; Ito, K; Mano, JF
2023, GELS, 9, 2.

Organoids of the male reproductive system: Challenges, opportunities, and their potential use in fertility research

Patricio, D; Santiago, J; Mano, JF; Fardilha, M
2023, WIRES MECHANISMS OF DISEASE, 15, 2.

Mechanical Characterization of 3D-Printed Patterned Membranes for Cardiac Tissue Engineering: An Experimental and Numerical Study

Poerio, A; Guibert, B; Leroux, MM; Mano, JF; Cleymand, F; Jehl, JP
2023, BIOMEDICINES, 11, 3.

Mammary Glands of Women, Female Dogs and Female Rats: Similarities and Differences to Be Considered in Breast Cancer Research

Ferreira, T; Gama, A; Seixas, F; Faustino-Rocha, AI; Lopes, C; Gaspar, VM; Mano, JF; Medeiros, R; Oliveira, PA
2023, VETERINARY SCIENCES, 10, 6.

Nanofertilizers—synthesis, advantages, and the current status

In Peng Zhang, Iseult Lynch, Jason C. White, Richard D. Handy (Eds.), Nano-Enabled Sustainable and Precision Agriculture
Rodrigues S.M.; Avellan A.; Salvador D.; Rodrigues S.; Miranda M.; Morais B.; Oliveira M.; Mano J.; Lowry G.V.
2023, Nano-enabled Sustainable and Precision Agriculture, 43-77, Elsevier.
ISBN: 978-032391233-4; 978-032399823-9

Animal Protein-based Soft Materials for Tissue Engineering Applications

In Helena S. Azevedo, João F. Mano, João Borges (Eds.), Soft Matter for Biomedical Applications
C. A. Custódio, S. C. Santos, C. F. Monteiro, I. A. Deus, M. C. Gomes, J. F. Mano
2021, Royal Society of Chemistry.
ISBN: 978-1-78801-757-2

Extending the Functionality of Marine-origin Polysaccharides Through Chemical Modification for Biomedical Applications

In Helena S. Azevedo, João F. Mano, João Borges (Eds.), Soft Matter for Biomedical Applications
João M. M. Rodrigues, Edgar J. Castanheira, Dora C. S. Costa, Djenisa H. A. Rocha, João Borges and João F. Mano
2021, 180-204, Royal Society of Chemistry (RSC).
ISBN: 978-1-78801-757-2

Cell-based soft biomaterials

Soft Matter for Biomaterial Applications
A. Sofia Silva, Lúcia F. Santos, Mariana B. Oliveira and João F. Mano
2021.
ISBN: 978-1-78801-757-2

Smart Instructive Polymer Substrates for Tissue Engineering

In Maria Rosa Aguilar, Julio San Román (Eds.), Smart Polymers and Their Applications
Catarina A.Custódio, Aránzazudel Campo, Rui L.Reis, João F.Mano
2019, 411-438, Woodhead Publishing .
ISBN: 978-0-08-102416-4

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