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3D Bio-Printing and Organ Printing

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3D Bio-Printing and Organ Printing : 3D Bio printing may be a sort of additive manufacturing that uses cells and other biocompatible materials as “inks”, also referred to as bio inks, to print living structures layer-by-layer which mimic the behaviour of natural living systems.  Bio printed  structures, like an organ-on-a-chip, are often wont to study functions of a person's body outside the body (in vitro), in 3D. The geometry of a 3D bio printed structure is more almost like that of a present biological system than an in vitro study performed in 2D, and may be more biologically relevant. It’s used most ordinarily within the fields of tissue engineering and bioengineering , and materials science.  3D bio printing  is additionally increasingly used for pharmaceutical development and drug validation, and within the future are going to be used for medical applications in clinical settings – 3D printed skin grafts, bone grafts, implants, biomedical devices, and even full  3d printed o

Regenerative Therapy in Osteoarthritis

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  Regenerative Therapy in Osteoarthritis Osteoarthritis( OA) is the most common common disorder in the world. It generally affects the knee & elbow and current treatment options are limited and substantially focusing on symptom relief. It's now known that  Osteoarthritis is the result of both biological and mechanical events that disrupt catabolic and anabolic processes in the joints. lately, exploration in regenerative therapeutics has been gaining further interest of its eventuality to restore the normal structure and functions of the following towel injury. The use of Mesenchymal Stem cells in knee  Osteoarthritis seems promising as it's suitable to separate into a wide variety of cells, similar as myocytes, tendocytes and ligament cells. The thing is to use the body’s own form mechanisms in order to heal the tissues that were preliminarily irrecoverable. The available exploration on similar therapies, similar as mesenchymal stem cells , platelet rich tube,  hyaluronic

Regenerative Medicine research and development

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Regenerative Medicine research and development : Regenerative medicine is an interdisciplinary field that explore to develop the science and tools that can help to repair or replace damaged or diseased human cells or tissues to restore normal function, and holds the ensure of revolutioning treatment within the 21st century. It may involve the transplantation of stem cells, pro-genitor cells or tissue, stimulation of the body's own repair processes, or the use of cells as transmission-vehicles for therapeutic agents such as genes and cytokines. All the regenerative medicine strategies depend upon exploit, stimulating or guiding endogenous development or repair processes. According to some research, somatic cell research plays a central role in regenerative medicine , which also extends the disciplines of tissue engineering, developmental cell biology, cellular therapeutics, gene therapy, biomaterials (scaffolds and matrices), chemical biology and nanotechnology . Promoting the

Tissue Engineering

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Tissue Engineering : Many more mortality occurred thanks to less availability of organs and donors. Tissue engineering/ Regenerative medicine opens the trail to make and generate desired tissue, cells and also as Organs  In- Vitro to fight against the limitation and to make a replacement hope within the field of transplantation to fill the damaged and missing body parts while rehabilitation engineering helps to revive normal function. Spanning use of cell, pharmacological and bioengineering technologies, alongside physical modalities and exercise •             Whole organ engineering •             Extracellular matrix analog •            Auricular cartilage reconstruction •            Biomaterials and biopolymers for tissue engineering •            Hydrogels for tissue engineering •            Dermal tissue and Stem cell engineering

Stem Cells Congress

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Stem Cells: Stem cells are multipotent cells are capable of both self-renewal and multi-lineage differentiation, including muscle cells. The term stem cell originated in the context of two main embryological questions of that time first one is the continuity of the germ-plasm and the origin of the hematopoietic system. Bone-marrow is derived stem cells, endothelial progenitor cells and unique stem cells from fat are the foremost widely used for implantation into the injured myocardium. It has originally hypothetical that stem cells implanted into the myocardial milieu would differentiate into cardio myocytes to exchange those lost during the myocardial infarct. The encouraging results of the preclinical studies triggered that variety of clinical trials. The first clinical trials established the utility of somatic cell therapy to repair the injured myocardium. Animal studies confirmed that somatic cell transplantation was safe and potentially efficacious.