Search results for "Regenerative process"

showing 5 items of 5 documents

Mesoglea Extracellular Matrix Reorganization during Regenerative Process in Anemonia viridis (Forskål, 1775)

2021

Given the anatomical simplicity and the extraordinary ability to regenerate missing parts of the body, Cnidaria represent an excellent model for the study of the mechanisms regulating regenerative processes. They possess the mesoglea, an amorphous and practically acellular extracellular matrix (ECM) located between the epidermis and the gastrodermis of the body and tentacles and consists of the same molecules present in the ECM of vertebrates, such as collagen, laminin, fibronectin and proteoglycans. This feature makes cnidarians anthozoans valid models for understanding the ECM role during regenerative processes. Indeed, it is now clear that its role in animal tissues is not just tissue su…

0301 basic medicinecollagenAnemonia viridis Collagen Enzymatic activity Histology Morphology Regeneration Animals Collagen Type I Extracellular Matrix Sea Anemones Regeneration Wound HealingTentacleQH301-705.5enzymatic activityContext (language use)Anemonia viridisMesogleaArticleCollagen Type ICatalysisInorganic ChemistryExtracellular matrixhistology03 medical and health sciences0302 clinical medicinemorphologyAnimalsPhysical and Theoretical ChemistryBiology (General)Molecular BiologyQD1-999SpectroscopyWound HealingbiologyRegeneration (biology)Organic ChemistryGeneral MedicineRegenerative processExtracellular MatrixComputer Science ApplicationsCell biologyFibronectinChemistrySea Anemones030104 developmental biologyregenerationbiology.proteinAnemonia viridis; collagen; enzymatic activity; histology; morphology; regenerationWound healing<i>Anemonia viridis</i>030217 neurology & neurosurgeryInternational Journal of Molecular Sciences
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Injectable Bone Substitute Based on β-TCP Combined With a Hyaluronan-Containing Hydrogel Contributes to Regeneration of a Critical Bone Size Defect T…

2015

In the present in vivo study, the regenerative potential of a new injectable bone substitute (IBS) composed of beta-tricalcium phosphate (β-TCP) and hyaluronan was tested in a rabbit distal femoral condyle model. To achieve this, 2 defects of 6 mm in diameter and 10 mm in length were drilled into each femur condyle in a total of 12 animals. For each animal, 1 hole was filled with the substitute material, and the other was left empty to serve as the control. After 1, 3, and 6 months, the regenerative process was analyzed by radiography as well as by histological and histomorphometrical analysis. The results revealed that bone tissue formation took place through osteoconductive processes over…

0301 basic medicineCalcium PhosphatesBone RegenerationDentistry02 engineering and technologyBone tissue03 medical and health sciencesIn vivoInjectable bonemedicineAnimalsBone formationHyaluronic AcidBone regenerationChemistrybusiness.industryRegeneration (biology)HydrogelsFemur condyle021001 nanoscience & nanotechnologyRegenerative process030104 developmental biologymedicine.anatomical_structureBone SubstitutesRabbitsOral Surgery0210 nano-technologybusinessThe Journal of oral implantology
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Stem Cells and Other Emerging Agents as Innovative "Drugs" in Neurodegenerative Diseases: Benefits and Limitations.

2018

The brain has a limited process of repair/regeneration linked to the restricted and localized activity of neuronal stem cells. Consequently, it shows a reduced capacity to counteract the age-related loss of neural and glial cells and to repair the consequent injuries/lesions of nervous system. This progressively determines nervous dysfunction and onset/progression of neurodegenerative diseases, which represent a serious social (and economic) problem of our populations. Thus, the research of efficient treatments is encouraged. Stem cell therapy might represent a solution. Today, it, indeed, represents the object of intensive research with the hope of using it, in a near future, as effective …

0301 basic medicineNervous systemAgingPathologymedicine.medical_specialtyself‐repair/regenerative processmedicine.medical_treatmentbrainneurodegenerative pathologiestem cell therapyinnovative intervention measures03 medical and health sciences0302 clinical medicineIntervention (counseling)medicineSettore MED/05 - Patologia ClinicaAnimalsHumansbrain self‐repair/regenerative process innovative intervention measuresbusiness.industryRegeneration (biology)Stem CellsNeurodegenerative DiseasesStem-cell therapyneuronal stem cell030104 developmental biologymedicine.anatomical_structureTreatment Outcomeself-repair/regenerative proceGeriatrics and GerontologyStem cellbusinessNeuroscience030217 neurology & neurosurgeryinnovative intervention measureStem Cell TransplantationRejuvenation research
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Co-culture systems for vascularization — Learning from nature

2011

The endothelial cell (EC) is practically ubiquitous in the human body and forms the inner cellular lining of the entire cardiovascular system. Following tissue injury, the microcirculation becomes the stage for both the inflammatory response and the subsequent healing reaction to restore physiological function to the damaged tissue. The advent of the multidisciplinary field of Regenerative Medicine (RegMed), of which Tissue Engineering (TE) and drug delivery using modern stimuli-responsive or interactive biomaterials are important components, has opened up new approaches to the acceleration of the healing response. A central and rate-limiting role in the latter is played by the process of v…

medicine.medical_specialtyTissue EngineeringMicrocirculationRegeneration (biology)Growth factormedicine.medical_treatmentEndothelial CellsPharmaceutical ScienceBiologyRegenerative MedicineRegenerative processRegenerative medicineCoculture TechniquesSurgeryEndothelial stem cellDrug Delivery SystemsTissue engineeringIn vivoDrug deliverymedicineAnimalsHumansNeuroscienceAdvanced Drug Delivery Reviews
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Organogenesis and encapsulation of in vitro-derived propagules of Carrizo citrange [Citrus sinensis (L.) Osb. × Poncirius trifoliata (L.) Raf]

2011

Due to widespread polyembryony, Citrus rootstocks are usually propagated by open-pollinated seed germination, although micropropagation offers many advantages. Encapsulation technology has recently attracted the interest of researchers in the field of plant propagation because it combines the advantages of zygotic or gamic seeds with those of micropropagation. In this study, we examined the encapsulation of Carrizo citrange uninodal microcuttings (3–4 mm long) and evaluated the influence of the calcium alginate coating, a short time storage at cold temperature, and different sowing substrates on the viability and regrowth of the explants. A secondary aim was to develop an efficient protocol…

Adventitious shoot Cytokinins Explant type Micropropagation Germplasm storage Synthetic seedmicropropagationPlant propagationregenerative processesregenerative processes; tissue culture; micropropagation; microcutting; alginate matrixOrganogenesisHorticultureBiologyBasal shootMicropropagationShootBotanyalginate matrixEpicotyltissue culturemicrocuttingRootstockExplant culturePlant Cell, Tissue and Organ Culture (PCTOC)
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