Webinar on

Tissue Engineering

July 25, 2021

TISSUE ENGINEERING-2021

Theme: Scientific Challenge and Brilliance in Tissue Engineering

Tissue Engineering Webinar welcomes every one of the participants, professors, associates, delegates and speakers from across the globe throughout the world to attend this webinar on July 25, 2021.  During this time of crisis webinar gives you the opportunity to connect and share knowledge and experience about a given topic. Webinar helps to connect different people and gives you the right amount of exposure required during this time of crisis. Tissue Engineering is a booming field and one of the important fields in biomedical engineering.  It combines engineering, biochemical methods and living cells to restore, improve or repair different biological tissues. Tissue Engineering is a cutting-edge research field and its application to repair or regenerate tissue is applied in the whole world. This Webinar hopes that the Professor, Researchers, Students and Business Beasts that are joining would give their ideas and thoughts on this topic which would help in the practical improvement and would discover some advances in the field of Tissue Engineering.

Sessions Summary:

  1. Introduction to Tissue Engineering

Tissue Engineering is one of the important fields in biomedical engineering that has an aim at developing or regenerating artificial tissue and organs . The idea of replacing a damaged body part using materials from natural origin was proposed even applied over many years ago . However , during recent times living tissue were engineered to make artificial organs which later gave rise to the field of tissue engineering . Tissue Engineering is an emerging field that provides technique to replace or repair damaged tissues by techniques that includes cells , scaffolds and biomechanical or biochemical signals .

  1. Stem Cells Engineering (SCE)

When cells are removed from the body and kept in culture, they usually maintain their original character . Every Type of specialized cell has a unique memory of its developmental history. As in stem cells, they might differentiate into one or more cell types based on their developmental history. Each Type of stem cell serves for the renewal of one particular type of tissue. For some tissues , such as for brain tissue it is impossible to regenerate .  Stem Cells engineering plays an important part of the Tissue Engineering . Stems Cells have the ability to self-renew and commit to specific cell lineages in response to appropriate stimuli , providing excellent regenerative potential that will most likely lead to functionally of the engineered tissue .

  1. Tissue Repair and Rejuvenation

Tissue regeneration is the renewal and growth to repair or replace tissue that is damaged or suffer from a disease . Repair by connective tissue involves the influx of debris – removing inflammatory cells , formation of granular tissue ( a substance consisting of fibroblasts and delicate capillaries in a loose extracellular matrix ) and conversion of some granular tissue to fibrous tissue .

  1. Skin Tissue And Wound Healing –

There are three stages of wound healing – 1. Inflammatory phase – This pahse begins at the time of injury and lasts up to 1 hour days . 2. Proliferative phase – this phase begins about three days after injury amd overlaps with the inflammatory phase . 3.Remodeling phase – this phase can continue for six months to one year after injury .                     

  1. Nanotechnology in Tissue Regeneration –

Nanotechmology can empower the plan and manufacture of biocompatible platforms at the nanoscale and control the spatiotemporal arrival of natural elements – taking after local extracellular grid – to coordinate cell practices , and in the end lead to the formation of implantable tissue . Advances in nanoparticle (NP) creation and interest for authority over nanoscale frameworks fundamentally affect tissue designing and regenerative medication (TERM). NPs with low poisonousness, differentiating specialist properties, tailorable qualities, directed/upgrades reaction conveyance potential, and exact command over conduct (by means of outer improvements like attractive fields) have made it conceivable their utilization for improving designed tissues and conquering obstructions in TERM. Utilitarian tissue and organ substitutions require a serious level of spatial and fleeting command over the natural occasions and furthermore their continuous observing. Introduction and neighborhood conveyance of bioactive (development factors, chemokines, inhibitors, cytokines, qualities and so forth) and difference specialists in a controlled way are significant actualizes to apply authority over and screen the designed tissues. This need brought about use of NP based frameworks in tissue designing platforms for conveyance of various development factors, for giving differentiation to imaging and furthermore for controlling properties of the frameworks. Contingent upon the application, materials, as polymers, metals, ceramics and their various composites can be used for creation of NPs. In this survey, we will cover the utilization of NP frameworks in TERM and furthermore give a standpoint to future likely utilization of such frameworks.

  1. Biomedical Engineering

Biomedical Engineering, additionally alluded to as Bioengineering, BioMed or BME, is a multidisciplinary STEM field that consolidates science and designing, applying designing standards and materials to medication and medical services.

The expanding interest for Biomedical Engineers is connected to society's overall move towards ordinary use of apparatus and innovation altogether parts of life. The mix of designing standards with organic information to address clinical necessities has added to the advancement of progressive and life-saving ideas, for example,

• Artificial organs

• Surgical robots

• Advanced prosthetics

• New drug drugs

• Kidney dialysis

Biomedical Engineering is a wide field with various zones of center, and the specific idea of the work you can end up doing will change contingent upon the particulars of your job. A couple of instances of a portion of the developments of Biomedical Engineering include:

• Biomedical Electronics

• Biomaterial

• Computational Biology

• Cellular, Tissue and Genetic Engineering

• Medical Imaging

• Orthopedic Bioengineering

• Bionanotechnology

7. Integrated cancer Tissue Engineering -

Tumors have for some time been seen as the collection of a mass of distorted disease cells. In any case, research has consistently shown the reliance of malignancy movement on an assortment of natural components, including non-dangerous cells, mechanical improvements, and the encompassing extracellular framework (ECM), suitably naming it as a 'disease organ'. Albeit numerous in vitro and computational models presently exist, the unpredictable and related microenvironmental guideline of the 'malignant growth organ' framework at the unique tissue and sub-atomic scale have not been completely tended to.

 

  • Introduction to Tissue Engineering
  • Stem Cells Engineering (SCE)
  • Tissue Repair and Rejuvenation
  • Skin Tissue And Wound Healing
  • Nanotechnology in Tissue Regeneration
  • Biomedical Engineering