Your search keyword '"perinatal derivatives"' showing total 27 results

1. Perspectives on the use of decellularized/devitalized and lyophilized human perinatal tissues for bone repair: Advantages and remaining challenges

Author

Solecki, Lauriana, Fenelon, Mathilde, Kerdjoudj, Halima, Di Pietro, Roberta, Stati, Gianmarco, Gaudet, Camille, Bertin, Eugenie, Nallet, Jeremie, Louvrier, Aurélien, Gualdi, Thomas, Schiavi-Tritz, Jessica, and Gindraux, Florelle

Published

2025

2. Recommendations from the COST action CA17116 (SPRINT) for the standardization of perinatal derivative preparation and in vitro testing

Author

Aleksandar Janev, Asmita Banerjee, Adelheid Weidinger, Jure Dimec, Brane Leskošek, Antonietta Rosa Silini, Tina Cirman, Susanne Wolbank, Taja Železnik Ramuta, Urška Dragin Jerman, Assunta Pandolfi, Roberta Di Pietro, Michela Pozzobon, Bernd Giebel, Günther Eissner, Polonca Ferk, Ingrid Lang-Olip, Francesco Alviano, Olga Soritau, Ornella Parolini, and Mateja Erdani Kreft

Subjects

standardization, perinatal derivatives, recommendations, CA17116 (SPRINT), PnD e-questionnaire, Biotechnology, TP248.13-248.65

Abstract

Many preclinical studies have shown that birth-associated tissues, cells and their secreted factors, otherwise known as perinatal derivatives (PnD), possess various biological properties that make them suitable therapeutic candidates for the treatment of numerous pathological conditions. Nevertheless, in the field of PnD research, there is a lack of critical evaluation of the PnD standardization process: from preparation to in vitro testing, an issue that may ultimately delay clinical translation. In this paper, we present the PnD e-questionnaire developed to assess the current state of the art of methods used in the published literature for the procurement, isolation, culturing preservation and characterization of PnD in vitro. Furthermore, we also propose a consensus for the scientific community on the minimal criteria that should be reported to facilitate standardization, reproducibility and transparency of data in PnD research. Lastly, based on the data from the PnD e-questionnaire, we recommend to provide adequate information on the characterization of the PnD. The PnD e-questionnaire is now freely available to the scientific community in order to guide researchers on the minimal criteria that should be clearly reported in their manuscripts. This review is a collaborative effort from the COST SPRINT action (CA17116), which aims to guide future research to facilitate the translation of basic research findings on PnD into clinical practice.

Published

2023

3. Guidelines to Analyze Preclinical Studies Using Perinatal Derivatives.

Author

Pires, Ana Salomé, Bollini, Sveva, Botelho, Maria Filomena, Lang-Olip, Ingrid, Ponsaerts, Peter, Balbi, Carolina, Lange-Consiglio, Anna, Fénelon, Mathilde, Mojsilović, Slavko, Berishvili, Ekaterine, Cremonesi, Fausto, Gazouli, Maria, Bugarski, Diana, Gellhaus, Alexandra, Kerdjoudj, Halima, and Schoeberlein, Andreina

Subjects

THERAPEUTICS, DATA mining, ANIMAL experimentation, TREATMENT effectiveness, ANIMAL models in research, REDUNDANCY in engineering, SAFETY standards

Abstract

The last 18 years have brought an increasing interest in the therapeutic use of perinatal derivatives (PnD). Preclinical studies used to assess the potential of PnD therapy include a broad range of study designs. The COST SPRINT Action (CA17116) aims to provide systematic and comprehensive reviews of preclinical studies for the understanding of the therapeutic potential and mechanisms of PnD in diseases and injuries that benefit from PnD therapy. Here we describe the publication search and data mining, extraction, and synthesis strategies employed to collect and prepare the published data selected for meta-analyses and reviews of the efficacy of PnD therapies for different diseases and injuries. A coordinated effort was made to prepare the data suitable to make statements for the treatment efficacy of the different types of PnD, routes, time points, and frequencies of administration, and the dosage based on clinically relevant effects resulting in clear increase, recovery or amelioration of the specific tissue or organ function. According to recently proposed guidelines, the harmonization of the nomenclature of PnD types will allow for the assessment of the most efficient treatments in various disease models. Experts within the COST SPRINT Action (CA17116), together with external collaborators, are doing the meta-analyses and reviews using the data prepared with the strategies presented here in the relevant disease or research fields. Our final aim is to provide standards to assess the safety and clinical benefit of PnD and to minimize redundancy in the use of animal models following the 3R principles for animal experimentation. [ABSTRACT FROM AUTHOR]

Published

2023

4. General consensus on multimodal functions and validation analysis of perinatal derivatives for regenerative medicine applications

Author

Michela Pozzobon, Stefania D’Agostino, Maria G. Roubelakis, Anna Cargnoni, Roberto Gramignoli, Susanne Wolbank, Florelle Gindraux, Sveva Bollini, Halima Kerdjoudj, Mathilde Fenelon, Roberta Di Pietro, Mariangela Basile, Veronika Borutinskaitė, Roberta Piva, Andreina Schoeberlein, Guenther Eissner, Bernd Giebel, and Peter Ponsaerts

Subjects

perinatal derivatives, amniotic membrane and fluid stem cells, extracellular vesicles, tissue regeneration, regenerative medicine, Biotechnology, TP248.13-248.65

Abstract

Perinatal tissues, such as placenta and umbilical cord contain a variety of somatic stem cell types, spanning from the largely used hematopoietic stem and progenitor cells to the most recently described broadly multipotent epithelial and stromal cells. As perinatal derivatives (PnD), several of these cell types and related products provide an interesting regenerative potential for a variety of diseases. Within COST SPRINT Action, we continue our review series, revising and summarizing the modalities of action and proposed medical approaches using PnD products: cells, secretome, extracellular vesicles, and decellularized tissues. Focusing on the brain, bone, skeletal muscle, heart, intestinal, liver, and lung pathologies, we discuss the importance of potency testing in validating PnD therapeutics, and critically evaluate the concept of PnD application in the field of tissue regeneration. Hereby we aim to shed light on the actual therapeutic properties of PnD, with an open eye for future clinical application. This review is part of a quadrinomial series on functional/potency assays for validation of PnD, spanning biological functions, such as immunomodulation, anti-microbial/anti-cancer, anti-inflammation, wound healing, angiogenesis, and regeneration.

Published

2022

5. Perinatal derivatives application: Identifying possibilities for clinical use

Author

Florelle Gindraux, Nicola Hofmann, Marta Agudo-Barriuso, Mariastefania Antica, Pedro Silva Couto, Marie Dubus, Serhiy Forostyak, Lenart Girandon, Roberto Gramignoli, Marcin Jurga, Sergio Liarte, Ruta Navakauskiene, Volodymyr Shablii, Xavier Lafarge, and Francisco J. Nicolás

Subjects

clinical trials, perinatal derivatives, ICD-10 = international classification of diseases, questionnaire for PnD use in human conditions, amniotic membrane, Biotechnology, TP248.13-248.65

Abstract

Perinatal derivatives are drawing growing interest among the scientific community as an unrestricted source of multipotent stromal cells, stem cells, cellular soluble mediators, and biological matrices. They are useful for the treatment of diseases that currently have limited or no effective therapeutic options by means of developing regenerative approaches. In this paper, to generate a complete view of the state of the art, a comprehensive 10-years compilation of clinical-trial data with the common denominator of PnD usage has been discussed, including commercialized products. A set of criteria was delineated to challenge the 10-years compilation of clinical trials data. We focused our attention on several aspects including, but not limited to, treated disorders, minimal or substantial manipulation, route of administration, dosage, and frequency of application. Interestingly, a clear correlation of PnD products was observed within conditions, way of administration or dosage, suggesting there is a consolidated clinical practice approach for the use of PnD in medicine. No regulatory aspects could be read from the database since this information is not mandatory for registration. The database will be publicly available for consultation. In summary, the main aims of this position paper are to show possibilities for clinical application of PnD and propose an approach for clinical trial preparation and registration in a uniform and standardized way. For this purpose, a questionnaire was created compiling different sections that are relevant when starting a new clinical trial using PnD. More importantly, we want to bring the attention of the medical community to the perinatal products as a consolidated and efficient alternative for their use as a new standard of care in the clinical practice.

Published

2022

6. Methods and criteria for validating the multimodal functions of perinatal derivatives when used in oncological and antimicrobial applications

Author

Antonietta R. Silini, Taja Železnik Ramuta, Ana Salomé Pires, Asmita Banerjee, Marie Dubus, Florelle Gindraux, Halima Kerdjoudj, Justinas Maciulatis, Adelheid Weidinger, Susanne Wolbank, Günther Eissner, Bernd Giebel, Michela Pozzobon, Ornella Parolini, and Mateja Erdani Kreft

Subjects

perinatal derivatives, biological assays, functional assays, potency assays, mechanisms of action, pharmacologic actions, Biotechnology, TP248.13-248.65

Abstract

Perinatal derivatives or PnDs refer to tissues, cells and secretomes from perinatal, or birth-associated tissues. In the past 2 decades PnDs have been highly investigated for their multimodal mechanisms of action that have been exploited in various disease settings, including in different cancers and infections. Indeed, there is growing evidence that PnDs possess anticancer and antimicrobial activities, but an urgent issue that needs to be addressed is the reproducible evaluation of efficacy, both in vitro and in vivo. Herein we present the most commonly used functional assays for the assessment of antitumor and antimicrobial properties of PnDs, and we discuss their advantages and disadvantages in assessing the functionality. This review is part of a quadrinomial series on functional assays for the validation of PnDs spanning biological functions such as immunomodulation, anticancer and antimicrobial, wound healing, and regeneration.

Published

2022

7. Perinatal derivatives: How to best validate their immunomodulatory functions

Author

Andrea Papait, Antonietta Rosa Silini, Maria Gazouli, Ricardo Malvicini, Maurizio Muraca, Lorraine O’Driscoll, Natalia Pacienza, Wei Seong Toh, Gustavo Yannarelli, Peter Ponsaerts, Ornella Parolini, Günther Eissner, Michela Pozzobon, Sai Kiang Lim, and Bernd Giebel

Subjects

perinatal derivatives, mesenchymal stromal cells, functional assays, mechanisms of action, extracellular vesicles, exosomes, Biotechnology, TP248.13-248.65

Abstract

Perinatal tissues, mainly the placenta and umbilical cord, contain a variety of different somatic stem and progenitor cell types, including those of the hematopoietic system, multipotent mesenchymal stromal cells (MSCs), epithelial cells and amnion epithelial cells. Several of these perinatal derivatives (PnDs), as well as their secreted products, have been reported to exert immunomodulatory therapeutic and regenerative functions in a variety of pre-clinical disease models. Following experience with MSCs and their extracellular vesicle (EV) products, successful clinical translation of PnDs will require robust functional assays that are predictive for the relevant therapeutic potency. Using the examples of T cell and monocyte/macrophage assays, we here discuss several assay relevant parameters for assessing the immunomodulatory activities of PnDs. Furthermore, we highlight the need to correlate the in vitro assay results with preclinical or clinical outcomes in order to ensure valid predictions about the in vivo potency of therapeutic PnD cells/products in individual disease settings.

Published

2022

8. Perinatal derivatives: How to best characterize their multimodal functions in vitro. Part C: Inflammation, angiogenesis, and wound healing

Author

Ana I. Flores, Caterina Pipino, Urška Dragin Jerman, Sergio Liarte, Florelle Gindraux, Mateja Erdani Kreft, Francisco J. Nicolas, Assunta Pandolfi, Larisa Tratnjek, Bernd Giebel, Michela Pozzobon, Antonietta R. Silini, Ornella Parolini, Günther Eissner, and Ingrid Lang-Olip

Subjects

perinatal derivatives, mesenchymal stromal cells, amniotic epithelial cells, amniotic membrane, functional assays, inflammation, Biotechnology, TP248.13-248.65

Abstract

Perinatal derivatives (PnD) are birth-associated tissues, such as placenta, umbilical cord, amniotic and chorionic membrane, and thereof-derived cells as well as secretomes. PnD play an increasing therapeutic role with beneficial effects on the treatment of various diseases. The aim of this review is to elucidate the modes of action of non-hematopoietic PnD on inflammation, angiogenesis and wound healing. We describe the source and type of PnD with a special focus on their effects on inflammation and immune response, on vascular function as well as on cutaneous and oral wound healing, which is a complex process that comprises hemostasis, inflammation, proliferation (including epithelialization, angiogenesis), and remodeling. We further evaluate the different in vitro assays currently used for assessing selected functional and therapeutic PnD properties. This review is a joint effort from the COST SPRINT Action (CA17116) with the intention to promote PnD into the clinics. It is part of a quadrinomial series on functional assays for validation of PnD, spanning biological functions, such as immunomodulation, anti-microbial/anti-cancer activities, anti-inflammation, wound healing, angiogenesis, and regeneration.

Published

2022

9. Investigating the Paracrine Role of Perinatal Derivatives: Human Amniotic Fluid Stem Cell-Extracellular Vesicles Show Promising Transient Potential for Cardiomyocyte Renewal

Author

Ambra Costa, Carolina Balbi, Patrizia Garbati, Maria Elisabetta Federica Palamà, Daniele Reverberi, Antonella De Palma, Rossana Rossi, Dario Paladini, Domenico Coviello, Pierangela De Biasio, Davide Ceresa, Paolo Malatesta, Pierluigi Mauri, Rodolfo Quarto, Chiara Gentili, Lucio Barile, and Sveva Bollini

Subjects

perinatal derivatives, human amniotic fluid stem cells, extracellular vesicles, secretome, paracrine effects, myocardial renewal, Biotechnology, TP248.13-248.65

Abstract

Cardiomyocyte renewal represents an unmet clinical need for cardiac regeneration. Stem cell paracrine therapy has attracted increasing attention to resurge rescue mechanisms within the heart. We previously characterized the paracrine effects that human amniotic fluid–derived stem cells (hAFSC) can exert to provide cardioprotection and enhance cardiac repair in preclinical models of myocardial ischemia and cardiotoxicity. Here, we analyze whether hAFSC secretome formulations, namely, hAFSC conditioned medium (hAFSC-CM) over extracellular vesicles (hAFSC-EVs) separated from it, can induce cardiomyocyte renewal. c-KIT+ hAFSC were obtained by leftover samples of II trimester prenatal amniocentesis (fetal hAFSC) and from clinical waste III trimester amniotic fluid during scheduled C-section procedures (perinatal hAFSC). hAFSC were primed under 1% O2 to enrich hAFSC-CM and EVs with cardioactive factors. Neonatal mouse ventricular cardiomyocytes (mNVCM) were isolated from cardiac tissue of R26pFUCCI2 mice with cell cycle fluorescent tagging by mutually exclusive nuclear signal. mNVCM were stimulated by fetal versus perinatal hAFSC-CM and hAFSC-EVs to identify the most promising formulation for in vivo assessment in a R26pFUCCI2 neonatal mouse model of myocardial infarction (MI) via intraperitoneal delivery. While the perinatal hAFSC secretome did not provide any significant cardiogenic effect, fetal hAFSC-EVs significantly sustained mNVCM transition from S to M phase by 2-fold, while triggering cytokinesis by 4.5-fold over vehicle-treated cells. Treated mNVCM showed disorganized expression of cardiac alpha-actinin, suggesting cytoskeletal re-arrangements prior to cell renewal, with a 40% significant downregulation of Cofilin-2 and a positive trend of polymerized F-Actin. Fetal hAFSC-EVs increased cardiomyocyte cell cycle progression by 1.8-fold in the 4-day-old neonatal left ventricle myocardium short term after MI; however, such effect was lost at the later stage. Fetal hAFSC-EVs were enriched with a short isoform of Agrin, a mediator of neonatal heart regeneration acting by YAP-related signaling; yet in vitro application of YAP inhibitor verteporfin partially affected EV paracrine stimulation on mNVCM. EVs secreted by developmentally juvenile fetal hAFSC can support cardiomyocyte renewal to some extension, via intercellular conveyance of candidates possibly involving Agrin in combination with other factors. These perinatal derivative promising cardiogenic effects need further investigation to define their specific mechanism of action and enhance their potential translation into therapeutic opportunity.

Published

2022

10. Guidelines to Analyze Preclinical Studies Using Perinatal Derivatives

Author

Ana Salomé Pires, Sveva Bollini, Maria Filomena Botelho, Ingrid Lang-Olip, Peter Ponsaerts, Carolina Balbi, Anna Lange-Consiglio, Mathilde Fénelon, Slavko Mojsilović, Ekaterine Berishvili, Fausto Cremonesi, Maria Gazouli, Diana Bugarski, Alexandra Gellhaus, Halima Kerdjoudj, and Andreina Schoeberlein

Subjects

perinatal derivatives, preclinical studies, animal models, database search, consensus, protocol, Biology (General), QH301-705.5

Abstract

The last 18 years have brought an increasing interest in the therapeutic use of perinatal derivatives (PnD). Preclinical studies used to assess the potential of PnD therapy include a broad range of study designs. The COST SPRINT Action (CA17116) aims to provide systematic and comprehensive reviews of preclinical studies for the understanding of the therapeutic potential and mechanisms of PnD in diseases and injuries that benefit from PnD therapy. Here we describe the publication search and data mining, extraction, and synthesis strategies employed to collect and prepare the published data selected for meta-analyses and reviews of the efficacy of PnD therapies for different diseases and injuries. A coordinated effort was made to prepare the data suitable to make statements for the treatment efficacy of the different types of PnD, routes, time points, and frequencies of administration, and the dosage based on clinically relevant effects resulting in clear increase, recovery or amelioration of the specific tissue or organ function. According to recently proposed guidelines, the harmonization of the nomenclature of PnD types will allow for the assessment of the most efficient treatments in various disease models. Experts within the COST SPRINT Action (CA17116), together with external collaborators, are doing the meta-analyses and reviews using the data prepared with the strategies presented here in the relevant disease or research fields. Our final aim is to provide standards to assess the safety and clinical benefit of PnD and to minimize redundancy in the use of animal models following the 3R principles for animal experimentation.

Published

2023

11. Application of Perinatal Derivatives in Ovarian Diseases

Author

Anna Lange-Consiglio, Emanuele Capra, Valentina Herrera, Ingrid Lang-Olip, Peter Ponsaerts, and Fausto Cremonesi

Subjects

perinatal derivatives, ovarian diseases, secretome, extracellular vesicles, animal models, Biotechnology, TP248.13-248.65

Abstract

Reproductive diseases could lead to infertility and have implications for overall health, most importantly due to psychological, medical and socio-economic consequences for individuals and society. Furthermore, economical losses also occur in animal husbandry. In both human and veterinary medicine, hormonal and surgical treatments, as well as assisted reproductive technologies are used to cure reproductive disorders, however they do not improve fertility. With ovarian disorders being the main reproductive pathology in human and bovine, over the past 2 decades research has approached regenerative medicine in animal model to restore normal function. Ovarian pathologies are characterized by granulosa cell and oocyte apoptosis, follicular atresia, decrease in oocyte quality and embryonic development potential, oxidative stress and mitochondrial abnormalities, ultimately leading to a decrease in fertility. At current, application of mesenchymal stromal cells or derivatives thereof represents a valid strategy for regenerative purposes. Considering their paracrine/autocrine mode of actions that are able to regenerate injured tissues, trophic support, preventing apoptosis and fibrosis, promoting angiogenesis, stimulating the function and differentiation of endogenous stem cells and even reducing the immune response, are all important players in their future therapeutic success. Nevertheless, obtaining mesenchymal stromal cells (MSC) from adult tissues requires invasive procedures and implicates decreased cell proliferation and a reduced differentiation capacity with age. Alternatively, the use of embryonic stem cells as source of cellular therapeutic encountered several ethical concerns, as well as the risk of teratoma formation. Therefore, several studies have recently focussed on perinatal derivatives (PnD) that can be collected non-invasively and, most importantly, display similar characteristics in terms of regenerating-inducing properties, immune-modulating properties and hypo-immunogenicity. This review will provide an overview of the current knowledge and future perspectives of PnD application in the treatment of ovarian hypofunction.

Published

2022

12. Systematic Review of the Application of Perinatal Derivatives in Animal Models on Cutaneous Wound Healing

Author

Melanie Pichlsberger, Urška Dragin Jerman, Hristina Obradović, Larisa Tratnjek, Ana Sofia Macedo, Francisca Mendes, Pedro Fonte, Anja Hoegler, Monika Sundl, Julia Fuchs, Andreina Schoeberlein, Mateja Erdani Kreft, Slavko Mojsilović, and Ingrid Lang-Olip

Subjects

perinatal derivatives, placenta, cells, preclinical studies, animal models, wound healing, Biotechnology, TP248.13-248.65

Abstract

Knowledge of the beneficial effects of perinatal derivatives (PnD) in wound healing goes back to the early 1900s when the human fetal amniotic membrane served as a biological dressing to treat burns and skin ulcerations. Since the twenty-first century, isolated cells from perinatal tissues and their secretomes have gained increasing scientific interest, as they can be obtained non-invasively, have anti-inflammatory, anti-cancer, and anti-fibrotic characteristics, and are immunologically tolerated in vivo. Many studies that apply PnD in pre-clinical cutaneous wound healing models show large variations in the choice of the animal species (e.g., large animals, rodents), the choice of diabetic or non-diabetic animals, the type of injury (full-thickness wounds, burns, radiation-induced wounds, skin flaps), the source and type of PnD (placenta, umbilical cord, fetal membranes, cells, secretomes, tissue extracts), the method of administration (topical application, intradermal/subcutaneous injection, intravenous or intraperitoneal injection, subcutaneous implantation), and the type of delivery systems (e.g., hydrogels, synthetic or natural biomaterials as carriers for transplanted cells, extracts or secretomes). This review provides a comprehensive and integrative overview of the application of PnD in wound healing to assess its efficacy in preclinical animal models. We highlight the advantages and limitations of the most commonly used animal models and evaluate the impact of the type of PnD, the route of administration, and the dose of cells/secretome application in correlation with the wound healing outcome. This review is a collaborative effort from the COST SPRINT Action (CA17116), which broadly aims at approaching consensus for different aspects of PnD research, such as providing inputs for future standards for the preclinical application of PnD in wound healing.

Published

2021

13. Antimicrobial Activity of Human Fetal Membranes: From Biological Function to Clinical Use

Author

Taja Železnik Ramuta, Tina Šket, Marjanca Starčič Erjavec, and Mateja Erdani Kreft

Subjects

fetal membrane, perinatal derivatives, amniotic membrane, amnio-chorionic membrane, placenta, antimicrobial peptides, Biotechnology, TP248.13-248.65

Abstract

The fetal membranes provide a supportive environment for the growing embryo and later fetus. Due to their versatile properties, the use of fetal membranes in tissue engineering and regenerative medicine is increasing in recent years. Moreover, as microbial infections present a crucial complication in various treatments, their antimicrobial properties are gaining more attention. The antimicrobial peptides (AMPs) are secreted by cells from various perinatal derivatives, including human amnio-chorionic membrane (hACM), human amniotic membrane (hAM), and human chorionic membrane (hCM). By exhibiting antibacterial, antifungal, antiviral, and antiprotozoal activities and immunomodulatory activities, they contribute to ensuring a healthy pregnancy and preventing complications. Several research groups investigated the antimicrobial properties of hACM, hAM, and hCM and their derivatives. These studies advanced basic knowledge of antimicrobial properties of perinatal derivatives and also provided an important insight into the potential of utilizing their antimicrobial properties in a clinical setting. After surveying the studies presenting assays on antimicrobial activity of hACM, hAM, and hCM, we identified several considerations to be taken into account when planning future studies and eventual translation of fetal membranes and their derivatives as antimicrobial agents from bench to bedside. Namely, (1) the standardization of hACM, hAM, and hCM preparation to guarantee rigorous antimicrobial activity, (2) standardization of the antimicrobial susceptibility testing methods to enable comparison of results between various studies, (3) investigation of the antimicrobial properties of fetal membranes and their derivatives in the in vivo setting, and (4) designation of donor criteria that enable the optimal donor selection. By taking these considerations into account, future studies will provide crucial information that will enable reaching the optimal treatment outcomes using the fetal membranes and their derivatives as antimicrobial agents.

Published

2021

14. Extracellular Vesicles From Perinatal Cells for Anti-inflammatory Therapy

Author

Anna Cargnoni, Andrea Papait, Alice Masserdotti, Anna Pasotti, Francesca Romana Stefani, Antonietta Rosa Silini, and Ornella Parolini

Subjects

perinatal derivatives, secretome, extracellular vesicles, immunomodulation, tissue regeneration, Biotechnology, TP248.13-248.65

Abstract

Perinatal cells, including cells from placenta, fetal annexes (amniotic and chorionic membranes), umbilical cord, and amniotic fluid display intrinsic immunological properties which very likely contribute to the development and growth of a semiallogeneic fetus during pregnancy. Many studies have shown that perinatal cells can inhibit the activation and modulate the functions of various inflammatory cells of the innate and adaptive immune systems, including macrophages, neutrophils, natural killer cells, dendritic cells, and T and B lymphocytes. These immunological properties, along with their easy availability and lack of ethical concerns, make perinatal cells very useful/promising in regenerative medicine. In recent years, extracellular vesicles (EVs) have gained great interest as a new therapeutic tool in regenerative medicine being a cell-free product potentially capable, thanks to the growth factors, miRNA and other bioactive molecules they convey, of modulating the inflammatory microenvironment thus favoring tissue regeneration. The immunomodulatory actions of perinatal cells have been suggested to be mediated by still not fully identified factors (secretoma) secreted either as soluble proteins/cytokines or entrapped in EVs. In this review, we will discuss how perinatal derived EVs may contribute toward the modulation of the immune response in various inflammatory pathologies (acute and chronic) by directly targeting different elements of the inflammatory microenvironment, ultimately leading to the repair and regeneration of damaged tissues.

Published

2021

15. Recommendations from the COST action CA17116 (SPRINT) for the standardization of perinatal derivative preparation and in vitro testing

Author

Janev, A., Banerjee, A., Weidinger, A., Dimec, J., Leskosek, B., Silini, A. R., Cirman, T., Wolbank, S., Ramuta, T. Z., Jerman, U. D., Pandolfi, A., Di Pietro, R., Pozzobon, M., Giebel, B., Eissner, G., Ferk, P., Lang-Olip, I., Alviano, F., Soritau, O., Parolini, Ornella, Kreft, M. E., Parolini O. (ORCID:0000-0002-5211-6430), Janev, A., Banerjee, A., Weidinger, A., Dimec, J., Leskosek, B., Silini, A. R., Cirman, T., Wolbank, S., Ramuta, T. Z., Jerman, U. D., Pandolfi, A., Di Pietro, R., Pozzobon, M., Giebel, B., Eissner, G., Ferk, P., Lang-Olip, I., Alviano, F., Soritau, O., Parolini, Ornella, Kreft, M. E., and Parolini O. (ORCID:0000-0002-5211-6430)

Abstract

Many preclinical studies have shown that birth-associated tissues, cells and their secreted factors, otherwise known as perinatal derivatives (PnD), possess various biological properties that make them suitable therapeutic candidates for the treatment of numerous pathological conditions. Nevertheless, in the field of PnD research, there is a lack of critical evaluation of the PnD standardization process: from preparation to in vitro testing, an issue that may ultimately delay clinical translation. In this paper, we present the PnD e-questionnaire developed to assess the current state of the art of methods used in the published literature for the procurement, isolation, culturing preservation and characterization of PnD in vitro. Furthermore, we also propose a consensus for the scientific community on the minimal criteria that should be reported to facilitate standardization, reproducibility and transparency of data in PnD research. Lastly, based on the data from the PnD e-questionnaire, we recommend to provide adequate information on the characterization of the PnD. The PnD e-questionnaire is now freely available to the scientific community in order to guide researchers on the minimal criteria that should be clearly reported in their manuscripts. This review is a collaborative effort from the COST SPRINT action (CA17116), which aims to guide future research to facilitate the translation of basic research findings on PnD into clinical practice.

Published

2023

16. Perinatal derivatives

Author

Flores, Ana I., Dragin Jerman, Urška, Liarte, Sergio, Erdani-Kreft, Mateja, Tratnjek, Larisa, and Eissner, Günther

Subjects

imunomodulacija, udc:615.82/.84, amniotic membrane, functional assays, perinatalni derivati​​, wound healing, amniotic epithelial cells, immunomodulation, angiogenesis, perinatal derivatives, terapevtska vloga, inflammation, therapeutic role, mesenchymal stromal cells

Abstract

Perinatal derivatives (PnD) are birth-associated tissues, such as placenta, umbilical cord, amniotic and chorionic membrane, and thereof-derived cells as well as secretomes. PnD play an increasing therapeutic role with beneficial effects on the treatment of various diseases. The aim of this review is to elucidate the modes of action of non-hematopoietic PnD on inflammation, angiogenesis and wound healing. We describe the source and type of PnD with a special focus on their effects on inflammation and immune response, on vascular function as well as on cutaneous and oral wound healing, which is a complex process that comprises hemostasis, inflammation, proliferation (including epithelialization, angiogenesis), and remodeling. We further evaluate the different in vitro assays currently used for assessing selected functional and therapeutic PnD properties. This review is a joint effort from the COST SPRINT Action (CA17116) with the intention to promote PnD into the clinics. It is part of a quadrinomial series on functional assays for validation of PnD, spanning biological functions, such as immunomodulation, anti-microbial/anti-cancer activities, anti-inflammation, wound healing, angiogenesis, and regeneration.

Published

2023

17. Antimicrobial activity of human fetal membranes

Author

Železnik Ramuta, Taja, Šket, Tina, Starčič Erjavec, Marjanca, and Erdani-Kreft, Mateja

Subjects

antimicrobial peptides, udc:618.2/.7, perinatal derivatives, amniotic membrane, placenta, antibacterial activity, perinatalni derivati, plodna membrana, amnio-chorionic membrane, bacteria, amnijska membrana, fetal membrane

Abstract

The fetal membranes provide a supportive environment for the growing embryo and later fetus. Due to their versatile properties, the use of fetal membranes in tissue engineering and regenerative medicine is increasing in recent years. Moreover, as microbial infections present a crucial complication in various treatments, their antimicrobial properties are gaining more attention. The antimicrobial peptides (AMPs) are secreted by cells from various perinatal derivatives, including human amnio-chorionic membrane (hACM), human amniotic membrane (hAM), and human chorionic membrane (hCM). By exhibiting antibacterial, antifungal, antiviral, and antiprotozoal activities and immunomodulatory activities, they contribute to ensuring a healthy pregnancy and preventing complications. Several research groups investigated the antimicrobial properties of hACM, hAM, and hCM and their derivatives. These studies advanced basic knowledge of antimicrobial properties of perinatal derivatives and also provided an important insight into the potential of utilizing their antimicrobial properties in a clinical setting. After surveying the studies presenting assays on antimicrobial activity of hACM, hAM, and hCM, we identified several considerations to be taken into account when planning future studies and eventual translation of fetal membranes and their derivatives as antimicrobial agents from bench to bedside. Namely, (1) the standardization of hACM, hAM, and hCM preparation to guarantee rigorous antimicrobial activity, (2) standardization of the antimicrobial susceptibility testing methods to enable comparison of results between various studies, (3) investigation of the antimicrobial properties of fetal membranes and their derivatives in the in vivo setting, and (4) designation of donor criteria that enable the optimal donor selection. By taking these considerations into account, future studies will provide crucial information that will enable reaching the optimal treatment outcomes using the fetal membranes and their derivatives as antimicrobial agents.

Published

2023

18. Expert Revision of Key Elements for Clinical-Grade Production and Qualification of Perinatal Derivatives.

Author

Gramignoli R, Hofmann N, Agudo-Barriuso M, Antica M, Flores AI, Girandon L, Kerdjoudj H, Navakauskiene R, Schiavi J, Scholz H, Shablii V, Lafarge X, Nicolás FJ, and Gindraux F

Subjects

Pregnancy, Female, Humans, Tissue Engineering, Medicine

Abstract

Perinatal derivatives have been proposed as adjunct therapeutic strategies or innovative treatments. Undoubtedly, perinatal derivatives can offer the opportunity and source material to isolate multipotent stem cells, but both maternal- and fetal-derived tissues can be processed and transformed into engineered tissues or advanced biomedical devices, whose potential remains to be fully elucidated. Promising preclinical and clinical results collected so far clearly foresee an escalation of such novel treatments. Market forecasts predict exponential growth in such advanced medicinal products during the next decade, with a pragmatic innovation for medicine into a more advanced biomedical version, enlarging the portfolio for treating a wide range of congenital and acute conditions. However, all these promising and fascinating therapeutic possibilities cannot gain a solid and recognized role in established medical practice without rigid and harmonized manufacturing strategies. The implementation of strategies according to guidelines and directives compiled by Regulatory Agencies, in conformity to (European) Pharmacopoeia and for Good Manufacturing Practice -conforming production of such products, represent critical steps required to translate perinatal technologies into effective therapeutic approaches. During the past 5 years, a panel of European experts and developers, gathered under the umbrella of the COST Sprint Action, supported by the European Cooperation in Science and Technology action, had the opportunity to revise and summarize experience and recommendations for a fruitful and proficient generation of perinatal biomedical products. In order to facilitate the creation and potential commercialization of perinatal bioengineered and advanced pharmaceutical products and technologies, such a collection of data and recommendations is described and discussed here., (© The Author(s) 2023. Published by Oxford University Press.)

Published

2024

19. Application of Perinatal Derivatives on Oncological Preclinical Models: A Review of Animal Studies

Author

Teixo, Ricardo, Teixo, Ricardo, Pires, Ana Salomé, Pereira, Eurico, Serambeque, Beatriz, Marques, Inês Alexandra, Laranjo, Mafalda, Mojsilović, Slavko, Gramignoli, Roberto, Ponsaerts, Peter, Schoeberlein, Andreina, Botelho, Maria Filomena, Teixo, Ricardo, Teixo, Ricardo, Pires, Ana Salomé, Pereira, Eurico, Serambeque, Beatriz, Marques, Inês Alexandra, Laranjo, Mafalda, Mojsilović, Slavko, Gramignoli, Roberto, Ponsaerts, Peter, Schoeberlein, Andreina, and Botelho, Maria Filomena

Abstract

The increasing cancer incidence has certified oncological management as one of the most critical challenges for the coming decades. New anticancer strategies are still needed, despite the significant advances brought to the forefront in the last decades. The most recent, promising therapeutic approaches have benefitted from the application of human perinatal derivatives (PnD), biological mediators with proven benefits in several fields beyond oncology. To elucidate preclinical results and clinic outcomes achieved in the oncological field, we present a narrative review of the studies resorting to animal models to assess specific outcomes of PnD products. Recent preclinical evidence points to promising anticancer effects offered by PnD mediators isolated from the placenta, amniotic membrane, amniotic fluid, and umbilical cord. Described effects include tumorigenesis prevention, uncontrolled growth or regrowth inhibition, tumor homing ability, and adequate cell-based delivery capacity. Furthermore, PnD treatments have been described as supportive of chemotherapy and radiological therapies, particularly when resistance has been reported. However, opposite effects of PnD products have also been observed, offering support and trophic effect to malignant cells. Such paradoxical and dichotomous roles need to be intensively investigated. Current hypotheses identify as explanatory some critical factors, such as the type of the PnD biological products used or the manufacturing procedure to prepare the tissue/cellular treatment, the experimental design (including human-relevant animal models), and intrinsic pathophysiological characteristics. The effective and safe translation of PnD treatments to clinical practice relies on the collaborative efforts of all researchers working with human-relevant oncological preclinical models. However, it requires proper guidelines and consensus compiled by experts and health workers who accurately describe the methodology of tissue collection

Published

2022

20. Perinatal derivatives: How to best validate their immunomodulatory functions

Author

Papait, Andrea, Silini, Antonietta Rosa, Gazouli, Maria, Malvicini, Ricardo, Muraca, Maurizio, O'Driscoll, Lorraine, Pacienza, Natalia, Toh, Wei Seong, Yannarelli, Gustavo, Ponsaerts, Peter, Parolini, Ornella, Eissner, Günther, Pozzobon, Michela, Lim, Sai Kiang, Giebel, Bernd, Papait, Andrea (ORCID:0000-0003-1229-9671), Parolini, Ornella (ORCID:0000-0002-5211-6430), Papait, Andrea, Silini, Antonietta Rosa, Gazouli, Maria, Malvicini, Ricardo, Muraca, Maurizio, O'Driscoll, Lorraine, Pacienza, Natalia, Toh, Wei Seong, Yannarelli, Gustavo, Ponsaerts, Peter, Parolini, Ornella, Eissner, Günther, Pozzobon, Michela, Lim, Sai Kiang, Giebel, Bernd, Papait, Andrea (ORCID:0000-0003-1229-9671), and Parolini, Ornella (ORCID:0000-0002-5211-6430)

Abstract

Perinatal tissues, mainly the placenta and umbilical cord, contain a variety of different somatic stem and progenitor cell types, including those of the hematopoietic system, multipotent mesenchymal stromal cells (MSCs), epithelial cells and amnion epithelial cells. Several of these perinatal derivatives (PnDs), as well as their secreted products, have been reported to exert immunomodulatory therapeutic and regenerative functions in a variety of pre-clinical disease models. Following experience with MSCs and their extracellular vesicle (EV) products, successful clinical translation of PnDs will require robust functional assays that are predictive for the relevant therapeutic potency. Using the examples of T cell and monocyte/macrophage assays, we here discuss several assay relevant parameters for assessing the immunomodulatory activities of PnDs. Furthermore, we highlight the need to correlate the in vitro assay results with preclinical or clinical outcomes in order to ensure valid predictions about the in vivo potency of therapeutic PnD cells/products in individual disease settings.

Published

2022

21. Methods and criteria for validating the multimodal functions of perinatal derivatives when used in oncological and antimicrobial applications

Author

Silini, Antonietta R, Ramuta, Taja Železnik, Pires, Ana Salomé, Banerjee, Asmita, Dubus, Marie, Gindraux, Florelle, Kerdjoudj, Halima, Maciulatis, Justina, Weidinger, Adelheid, Wolbank, Susanne, Eissner, Günther, Giebel, Bernd, Pozzobon, Michela, Parolini, Ornella, Kreft, Mateja Erdani, Parolini, Ornella (ORCID:0000-0002-5211-6430), Silini, Antonietta R, Ramuta, Taja Železnik, Pires, Ana Salomé, Banerjee, Asmita, Dubus, Marie, Gindraux, Florelle, Kerdjoudj, Halima, Maciulatis, Justina, Weidinger, Adelheid, Wolbank, Susanne, Eissner, Günther, Giebel, Bernd, Pozzobon, Michela, Parolini, Ornella, Kreft, Mateja Erdani, and Parolini, Ornella (ORCID:0000-0002-5211-6430)

Abstract

Perinatal derivatives or PnDs refer to tissues, cells and secretomes from perinatal, or birth-associated tissues. In the past 2 decades PnDs have been highly investigated for their multimodal mechanisms of action that have been exploited in various disease settings, including in different cancers and infections. Indeed, there is growing evidence that PnDs possess anticancer and antimicrobial activities, but an urgent issue that needs to be addressed is the reproducible evaluation of efficacy, both in vitro and in vivo. Herein we present the most commonly used functional assays for the assessment of antitumor and antimicrobial properties of PnDs, and we discuss their advantages and disadvantages in assessing the functionality. This review is part of a quadrinomial series on functional assays for the validation of PnDs spanning biological functions such as immunomodulation, anticancer and antimicrobial, wound healing, and regeneration.

Published

2022

22. Perinatal derivatives: How to best characterize their multimodal functions in vitro. Part C: Inflammation, angiogenesis, and wound healing

Author

Flores, Ana I, Pipino, Caterina, Jerman, Urška Dragin, Liarte, Sergio, Gindraux, Florelle, Kreft, Mateja Erdani, Nicolas, Francisco J, Pandolfi, Assunta, Tratnjek, Larisa, Giebel, Bernd, Pozzobon, Michela, Silini, Antonietta R, Parolini, Ornella, Eissner, Günther, Lang-Olip, Ingrid, Parolini, Ornella (ORCID:0000-0002-5211-6430), Flores, Ana I, Pipino, Caterina, Jerman, Urška Dragin, Liarte, Sergio, Gindraux, Florelle, Kreft, Mateja Erdani, Nicolas, Francisco J, Pandolfi, Assunta, Tratnjek, Larisa, Giebel, Bernd, Pozzobon, Michela, Silini, Antonietta R, Parolini, Ornella, Eissner, Günther, Lang-Olip, Ingrid, and Parolini, Ornella (ORCID:0000-0002-5211-6430)

Abstract

Perinatal derivatives (PnD) are birth-associated tissues, such as placenta, umbilical cord, amniotic and chorionic membrane, and thereof-derived cells as well as secretomes. PnD play an increasing therapeutic role with beneficial effects on the treatment of various diseases. The aim of this review is to elucidate the modes of action of non-hematopoietic PnD on inflammation, angiogenesis and wound healing. We describe the source and type of PnD with a special focus on their effects on inflammation and immune response, on vascular function as well as on cutaneous and oral wound healing, which is a complex process that comprises hemostasis, inflammation, proliferation (including epithelialization, angiogenesis), and remodeling. We further evaluate the different in vitro assays currently used for assessing selected functional and therapeutic PnD properties. This review is a joint effort from the COST SPRINT Action (CA17116) with the intention to promote PnD into the clinics. It is part of a quadrinomial series on functional assays for validation of PnD, spanning biological functions, such as immunomodulation, anti-microbial/anti-cancer activities, anti-inflammation, wound healing, angiogenesis, and regeneration.

Published

2022

23. Guidelines to analyse preclinical studies using perinatal derivatives

Author

Pires, Salomé, Bollini, Sveva, Botelho, Maria Filomena, Lang-Olip, Ingrid, Ponsaerts, Peter, Balbi, Carolina, Lange-Consiglio, Anna, Fénelon, Mathilde, Mojsilović, Slavko, Cremonesi, Fausto, Bugarski, Diana, Berishvili, Ekaterine, Gazouli, Maria, Gellhaus, Alexandra, Kerdjoudj, Halima, and Schoeberlein, Andreina

Subjects

meta-analysis, database search, perinatal derivatives, consensus, protocol, preclinical studies, reproductive and urinary physiology, animal models

Abstract

The last 18 years have brought an increasing interest in the therapeutic use of perinatal derivatives (PnD). Preclinical studies used to assess the potential of PnD therapy include a broad range of study designs. The COST SPRINT Action (CA17116) aims to provide systematic and comprehensive reviews of preclinical studies for the understanding of the therapeutic potential and mechanisms of PnD in diseases and injuries that benefit from PnD therapy. Here we describe the publication search and data mining, extraction, and synthesis strategies employed to collect and prepare the published data selected for meta-analyses and reviews of the efficacy of PnD therapies for different diseases and injuries. A coordinated effort was made to prepare the data suitable to make statements for the treatment efficacy of the different types of PnD, routes, time points and frequencies of administration, and the dosage based on clinically relevant effects resulting in clear increase, recovery or amelioration of the specific tissue or organ function. According to recently proposed guidelines, the harmonization of the nomenclature of PnD types will allow for the assessment of the most efficient treatments in various disease models. Experts within the COST SPRINT Action (CA17116), together with external collaborators, will do the meta-analyses and reviews using the data prepared with the strategies presented here in the relevant disease or research fields. Our final aim is to provide standards to assess the safety and clinical benefit of PnD and to minimize redundancy in the use of animal models following the 3R principles for animal experimentation., {"references":["Aziz J, Liao G, Adams Z, Rizk M, Shorr R, Allan DS (2019). Systematic review of controlled clinical studies using umbilical cord blood for regenerative therapy: Identifying barriers to assessing efficacy. Cytotherapy. 21:1112-1121. doi: 10.1016/j.jcyt.2019.08.004","Dimensions. Digital Science & Research Solutions Inc., London, United Kingdom (2020). https://app.dimensions.ai/discover/publication [Accessed December 11, 2020]","InCites Journal Citation Report. Clarivate, Boston, MA, United States of America (2020). https://jcr.clarivate.com/ [Accessed December 11, 2020]","Hooijmans CR, Rovers MM, de Vries RB, Leenaars M, Ritskes-Hoitinga M, Langendam MW (2014). SYRCLE's risk of bias tool for animal studies. BMC Med. Res. Methodol. 14:43. doi: 10.1186/1471-2288-14-43","Hook DW, Porter SJ, Herzog C. (2018). Dimensions: Building Context for Search and Evaluation. Front. Res. Metr. Anal. 3:23. doi: 10.3389/frma.2018.00023","Hutchins BI, Baker KL, Davis MT, Diwersy MA, Haque E, Harriman RM, Hoppe TA, Leicht SA, Meyer P, Santangelo GM (2019a). The NIH Open Citation Collection: A public access, broad coverage resource. PLoS Biol. 17:e3000385. doi: 10.1371/journal.pbio.3000385","Hutchins BI, Davis MT, Meseroll RA, Santangelo GM (2019b). Predicting translational progress in biomedical research. PLoS Biol. 17:e3000416. doi: 10.1371/journal.pbio.3000416","Hutchins BI, Hoppe TA, Meseroll RA, Anderson JM, Santangelo GM (2017). Additional support for RCR: A validated article-level measure of scientific influence. PLoS Biol. 15:e2003552. doi: 10.1371/journal.pbio.2003552","Hutchins BI, Yuan X, Anderson JM, and Santangelo GM. (2016). Relative Citation Ratio (RCR): A new metric that uses citation rates to measure influence at the article level. PLoS Biol. 14:e1002541. doi: 10.1371/journal.pbio.1002541","Kassem DH, Kamal MM (2020). Therapeutic efficacy of umbilical cord-derived stem cells for diabetes mellitus: a meta-analysis study. Stem Cell Res. Ther. 11:484. doi: 10.1186/s13287-020-01996-x","Maltais-Bilodeau C, Henckel E, Cobey KD, Ahmadzai N, Skidmore B, Ferretti E, Thébaud B (2021). Efficacy of Mesenchymal Stromal Cells in Preclinical Models of Necrotizing Enterocolitis: a Systematic Review Protocol. Research Square [Preprint]. doi: 10.21203/rs.3.rs-239448/v1","McKenzie JE, Brennan SE, Ryan RE, Thomson HJ, Johnston RV, Thomas J (2021). \"Chapter 3: Defining the criteria for including studies and how they will be grouped for the synthesis\". In: Higgins JPT, Thomas J, Chandler J, Cumpston M, Li T, Page MJ, Welch VA (editors). Cochrane Handbook for Systematic Reviews of Interventions version 6.3 (updated February 2022), Cochrane (2022). https://training.cochrane.org/handbook/current/chapter-03 [Accessed February 22, 2021]","Page MJ, McKenzie JE, Bossuyt PM, Boutron I, Hoffmann TC, Mulrow CD, Shamseer L, Tetzlaff JM, Akl EA, Brennan SE, Chou R, Glanville J, Grimshaw JM, Hróbjartsson A, Lalu MM, Li T, Loder EW, Mayo-Wilson E, McDonald S, McGuinness LA, Stewart LA, Thomas J, Tricco AC, Welch VA, Whiting P, Moher D (2021a). The PRISMA 2020 statement: an updated guideline for reporting systematic reviews. BMJ 372:n71. doi: 10.1136/bmj.n71","Page MJ, Moher D, Bossuyt PM, Boutron I, Hoffmann TC, Mulrow CD, Shamseer L, Tetzlaff JM, Akl EA, Brennan SE, Chou R, Glanville J, Grimshaw JM, Hróbjartsson A, Lalu MM, Li T, Loder EW, Mayo-Wilson E, McDonald S, McGuinness LA, Stewart LA, Thomas J, Tricco AC, Welch VA, Whiting P, McKenzie JE. (2021b). PRISMA 2020 explanation and elaboration: updated guidance and exemplars for reporting systematic reviews. BMJ 372:n160. doi: 10.1136/bmj.n160","Percie du Sert N, Hurst V, Ahluwalia A, Alam S, Avey MT, Baker M, Browne WJ, Clark A, Cuthill IC, Dirnagl U, Emerson M, Garner P, Holgate ST, Howells DW, Karp NA, Lazic SE, Lidster K, MacCallum CJ, Macleod M, Pearl EJ, Petersen OH, Rawle F, Reynolds P, Rooney K, Sena ES, Silberberg SD, Steckler T, Würbel H. (2020). The ARRIVE guidelines 2.0: Updated guidelines for reporting animal research. PLoS Biol. 18:e3000410. doi: 10.1371/journal.pbio.3000410","PubMed. US National Library of Medicine, National Institutes of Health, Bethesda MD, United States of America (2020b). http://www.ncbi.nlm.nih.gov/pubmed [Accessed February 22, 2022].","Rohatgi, A. (2020). WebPlotDigitizer, version 4.4. (Pacifica, CA, United States of America). https://automeris.io/WebPlotDigitizer [Accessed December 11, 2020]","Russell WMS, Burch RL (1959). The Principles of Humane Experimental Technique. London, UK: Methuen & Co. Limited","Silini AR, Di Pietro R, Lang-Olip I, Alviano F, Banerjee A, Basile M, Borutinskaite V, Eissner G, Gellhaus A, Giebel B, Huang Y-C, Janev A, Erdani Kreft M, Kupper N, Abadía-Molina AC, Olivares EG, Pandolfi A, Papait A, Pozzobon M, Ruiz-Ruiz C, Soritau O, Susman S, Szukiewicz D, Weidinger A, Wolbank S, Huppertz B, Parolini O (2020). Perinatal Derivatives: Where Do We Stand? A Roadmap of the Human Placenta and Consensus for Tissue and Cell Nomenclature. Front. Bioeng. Biotechnol. 8:1438. doi: 10.3389/fbioe.2020.610544","Sterne JA, Hernán MA, Reeves BC, Savović J, Berkman ND, Viswanathan M, Henry D, Altman DG, Ansari MT, Boutron I, Carpenter JR, Chan A-W, Churchill R, Deeks JJ, Hróbjartsson A, Kirkham J, Jüni P, Loke YK, Pigott TD, Ramsay CR, Regidor D, Rothstein HR, Sandhu L, Santaguida PL, Schünemann HJ, Shea B, Shrier I, Tugwell P, Turner L, Valentine JC, Waddington H, Waters E, Wells GA, Whiting PF, Julian Pt Higgins JP (2016). ROBINS-I: a tool for assessing risk of bias in non-randomised studies of interventions. BMJ 355:i4919. doi: 10.1136/bmj.i4919","Sterne JA, Savović J, Page MJ, Elbers RG, Blencowe NS, Boutron I, Cates CJ, Cheng H-Y, Corbett MS, Eldridge SM, Emberson JR, Hernán MA, Hopewell S, Hróbjartsson A, Junqueira DR, Jüni P, Kirkham JJ, Lasserson T, Li T, McAleenan A, Reeves BC, Shepperd S, Shrier I, Stewart LA, Tilling K, White IR, Whiting PF, Higgins JPT (2019). RoB 2: a revised tool for assessing risk of bias in randomised trials. BMJ 366:l4898. doi: 10.1136/bmj.l4898"]}

Published

2022

24. Application of Perinatal Derivatives on Oncological Preclinical Models: A Review of Animal Studies

Author

Ricardo Teixo, Ana Salomé Pires, Eurico Pereira, Beatriz Serambeque, Inês Alexandra Marques, Mafalda Laranjo, Slavko Mojsilović, Roberto Gramignoli, Peter Ponsaerts, Andreina Schoeberlein, and Maria Filomena Botelho

Subjects

Organic Chemistry, 610 Medicine & health, General Medicine, animal models, Catalysis, Computer Science Applications, Inorganic Chemistry, Chemistry, perinatal derivatives, Pregnancy, Neoplasms, Animals, Humans, cancer, Female, Physical and Theoretical Chemistry, preclinical studies, Molecular Biology, Biology, Spectroscopy

Abstract

The increasing cancer incidence has certified oncological management as one of the most critical challenges for the coming decades. New anticancer strategies are still needed, despite the significant advances brought to the forefront in the last decades. The most recent, promising therapeutic approaches have benefitted from the application of human perinatal derivatives (PnD), biological mediators with proven benefits in several fields beyond oncology. To elucidate preclinical results and clinic outcomes achieved in the oncological field, we present a narrative review of the studies resorting to animal models to assess specific outcomes of PnD products. Recent preclinical evidence points to promising anticancer effects offered by PnD mediators isolated from the placenta, amniotic membrane, amniotic fluid, and umbilical cord. Described effects include tumorigenesis prevention, uncontrolled growth or regrowth inhibition, tumor homing ability, and adequate cell-based delivery capacity. Furthermore, PnD treatments have been described as supportive of chemotherapy and radiological therapies, particularly when resistance has been reported. However, opposite effects of PnD products have also been observed, offering support and trophic effect to malignant cells. Such paradoxical and dichotomous roles need to be intensively investigated. Current hypotheses identify as explanatory some critical factors, such as the type of the PnD biological products used or the manufacturing procedure to prepare the tissue/cellular treatment, the experimental design (including human-relevant animal models), and intrinsic pathophysiological characteristics. The effective and safe translation of PnD treatments to clinical practice relies on the collaborative efforts of all researchers working with human-relevant oncological preclinical models. However, it requires proper guidelines and consensus compiled by experts and health workers who accurately describe the methodology of tissue collection, PnD isolation, manufacturing, preservation, and delivery to the final user.

Published

2022

25. Application of perinatal derivatives in ovarian diseases

Author

Lange-Consiglio, Anna, Capra, Emanuele, Herrera, Valentina, Lang-Olip, Ingrid, Ponsaerts, Peter, and Cremonesi, Fausto

Subjects

secretome, perinatal derivatives, Bioengineering and Biotechnology, Review, ovarian diseases, extracellular vesicles, Biology, Engineering sciences. Technology, animal models

Abstract

Reproductive diseases could lead to infertility and have implications for overall health, most importantly due to psychological, medical and socio-economic consequences for individuals and society. Furthermore, economical losses also occur in animal husbandry. In both human and veterinary medicine, hormonal and surgical treatments, as well as assisted reproductive technologies are used to cure reproductive disorders, however they do not improve fertility. With ovarian disorders being the main reproductive pathology in human and bovine, over the past 2 decades research has approached regenerative medicine in animal model to restore normal function. Ovarian pathologies are characterized by granulosa cell and oocyte apoptosis, follicular atresia, decrease in oocyte quality and embryonic development potential, oxidative stress and mitochondrial abnormalities, ultimately leading to a decrease in fertility. At current, application of mesenchymal stromal cells or derivatives thereof represents a valid strategy for regenerative purposes. Considering their paracrine/autocrine mode of actions that are able to regenerate injured tissues, trophic support, preventing apoptosis and fibrosis, promoting angiogenesis, stimulating the function and differentiation of endogenous stem cells and even reducing the immune response, are all important players in their future therapeutic success. Nevertheless, obtaining mesenchymal stromal cells (MSC) from adult tissues requires invasive procedures and implicates decreased cell proliferation and a reduced differentiation capacity with age. Alternatively, the use of embryonic stem cells as source of cellular therapeutic encountered several ethical concerns, as well as the risk of teratoma formation. Therefore, several studies have recently focussed on perinatal derivatives (PnD) that can be collected non-invasively and, most importantly, display similar characteristics in terms of regenerating-inducing properties, immune-modulating properties and hypo-immunogenicity. This review will provide an overview of the current knowledge and future perspectives of PnD application in the treatment of ovarian hypofunction.

Published

2022

26. Extracellular Vesicles From Perinatal Cells for Anti-inflammatory Therapy

Author

Cargnoni, Anna, Papait, Andrea, Masserdotti, Alice, Pasotti, Anna, Stefani, Francesca Romana, Silini, Antonietta Rosa, Parolini, Ornella, Papait, Andrea (ORCID:0000-0003-1229-9671), Parolini, Ornella (ORCID:0000-0002-5211-6430), Cargnoni, Anna, Papait, Andrea, Masserdotti, Alice, Pasotti, Anna, Stefani, Francesca Romana, Silini, Antonietta Rosa, Parolini, Ornella, Papait, Andrea (ORCID:0000-0003-1229-9671), and Parolini, Ornella (ORCID:0000-0002-5211-6430)

Abstract

Perinatal cells, including cells from placenta, fetal annexes (amniotic and chorionic membranes), umbilical cord, and amniotic fluid display intrinsic immunological properties which very likely contribute to the development and growth of a semiallogeneic fetus during pregnancy. Many studies have shown that perinatal cells can inhibit the activation and modulate the functions of various inflammatory cells of the innate and adaptive immune systems, including macrophages, neutrophils, natural killer cells, dendritic cells, and T and B lymphocytes. These immunological properties, along with their easy availability and lack of ethical concerns, make perinatal cells very useful/promising in regenerative medicine. In recent years, extracellular vesicles (EVs) have gained great interest as a new therapeutic tool in regenerative medicine being a cell-free product potentially capable, thanks to the growth factors, miRNA and other bioactive molecules they convey, of modulating the inflammatory microenvironment thus favoring tissue regeneration. The immunomodulatory actions of perinatal cells have been suggested to be mediated by still not fully identified factors (secretoma) secreted either as soluble proteins/cytokines or entrapped in EVs. In this review, we will discuss how perinatal derived EVs may contribute toward the modulation of the immune response in various inflammatory pathologies (acute and chronic) by directly targeting different elements of the inflammatory microenvironment, ultimately leading to the repair and regeneration of damaged tissues.

Published

2021

27. Revisão sistemática da aplicação de derivados perinatais em modelos animais em cicatriz cutânea

Author

Melanie Pichlsberger, Urška Dragin Jerman, Hristina Obradović, Larisa Tratnjek, Ana Sofia Macedo, Francisca Mendes, Pedro Fonte, Anja Hoegler, Monika Sundl, Julia Fuchs, Andreina Schoeberlein, Mateja Erdani Kreft, Slavko Mojsilović, and Ingrid Lang-Olip

Subjects

skin, Histology, placenta, medicine.medical_treatment, Placenta, Cells, Intraperitoneal injection, Biomedical Engineering, Preclinical studies, Wound healing, wound healing, Bioengineering, 610 Medicine & health, Bioinformatics, Umbilical cord, 03 medical and health sciences, Route of administration, Subcutaneous injection, Perinatal derivatives, 0302 clinical medicine, perinatal derivatives, In vivo, Medicine, preclinical studies, 030304 developmental biology, Skin, 0303 health sciences, Fetus, business.industry, cutaneous, Bioengineering and Biotechnology, animal models, 3. Good health, Animal models, medicine.anatomical_structure, Cutaneous, 030220 oncology & carcinogenesis, cells, Systematic Review, business, TP248.13-248.65, Biotechnology

Abstract

Knowledge of the beneficial effects of perinatal derivatives (PnD) in wound healing goes back to the early 1900s when the human fetal amniotic membrane served as a biological dressing to treat burns and skin ulcerations. Since the twenty-first century, isolated cells from perinatal tissues and their secretomes have gained increasing scientific interest, as they can be obtained non-invasively, have anti-inflammatory, anti-cancer, and anti-fibrotic characteristics, and are immunologically tolerated in vivo. Many studies that apply PnD in pre-clinical cutaneous wound healing models show large variations in the choice of the animal species (e.g., large animals, rodents), the choice of diabetic or non-diabetic animals, the type of injury (full-thickness wounds, burns, radiation-induced wounds, skin flaps), the source and type of PnD (placenta, umbilical cord, fetal membranes, cells, secretomes, tissue extracts), the method of administration (topical application, intradermal/subcutaneous injection, intravenous or intraperitoneal injection, subcutaneous implantation), and the type of delivery systems (e.g., hydrogels, synthetic or natural biomaterials as carriers for transplanted cells, extracts or secretomes). This review provides a comprehensive and integrative overview of the application of PnD in wound healing to assess its efficacy in preclinical animal models. We highlight the advantages and limitations of the most commonly used animal models and evaluate the impact of the type of PnD, the route of administration, and the dose of cells/secretome application in correlation with the wound healing outcome. This review is a collaborative effort from the COST SPRINT Action (CA17116), which broadly aims at approaching consensus for different aspects of PnD research, such as providing inputs for future standards for the preclinical application of PnD in wound healing.

Published

2021