Call for Abstract

13th International Conference on Stem Cell and Regenerative Medicine, will be organized around the theme “Stem Cells: Innovations and Applications”

Stemgen 2020 is comprised of 16 tracks and 66 sessions designed to offer comprehensive sessions that address current issues in Stemgen 2020.

Submit your abstract to any of the mentioned tracks. All related abstracts are accepted.

Register now for the conference by choosing an appropriate package suitable to you.

A cell having ability to develop into specialized cell types in body which replace the damaged or lost cells or tissues. Generally, natural stem cells are classified into embryonic stem cells and adult stem cells and the type of stem cells are reprogrammed in the laboratory are Induced Pluripotent Stem Cell. Basing on the efficiency or potency stem cells are classified into Totipotent, Multipotent, Pluripotent, Oligopotent, Unipotent. Stem cell therapy or regenerative medicine is the treatment method which develops methods to regrow repair or replace damaged or diseased cells, organs or tissues.

  • Track 1-1Therapy or transplantation
  • Track 1-2Stem cell and diseases
  • Track 1-3Stem cell niches
  • Track 1-4Stem cell collection and preservation
  • Track 1-5Endometrial stem cells in regenerative medicine

The procedure in which the cells are grown in an artificial environment separate from the body is called tissue engineering. It is an improvisation of growing cells than methods of 2D cell culture. The cells growing in 3D artificial environment are more relevant and effective than the cells growing in the 2D surface. The basic method of the 3D cell culture leads to the use of scaffolds which are the engineered materials which leads to cellular interaction in new tissues to be functional.

 

  • Track 2-13D cell culture techniques and tools
  • Track 2-2Commercialization and 3D cell culture
  • Track 2-3Cell culture platforms
  • Track 2-4Tissue engineering translation
  • Track 2-5Advancements in tissue engineering

Gene therapy is a way to treat the genetic disorders. The variation in gene therapy is focused on somatic gene therapy and germ line gene therapy relating with viral and non-viral vectors. T-cells are the type of lymphocyte cells which are developed in the laboratory to attack the cancer cells. T-cell therapy is nothing but an immune therapy to treat certain kinds of cancer. The nano therapy is a new trend in the field of medicine which uses nanoparticles to delivery drugs to the targeted body part.

  • Track 3-1Diseases treated using Gene therapy
  • Track 3-2Risks in gene therapy
  • Track 3-3T-cell therapy
  • Track 3-4Nano therapy and nano materials in treating diseases
  • Track 3-5Application of Nano-materials
  • Track 3-6Ethical Issues of Stem Cell based Gene Therapy

Ageing is the complex process of deterioration of body functions through involvement of body cells and organs. Basically the ageing theory can be divided into two types – hematopoietic stem cell ageing and hair follicle stem cell ageing. Besides these two theories, the other theories of ageing are evolutionary theory, cellular theory, system theory and molecular theory. With ageing the bone marrow cellularity decreases.

 

  • Track 4-1Stem cell and ageing
  • Track 4-2Signalling pathway with ageing
  • Track 4-3Ageing in genetics
  • Track 4-4Ageing related diseases
  • Track 4-5Anti-ageing genes

The study of heritable phenotypic change which does not involve any change or alteration in DNA sequencing is known as Epigenetics.  These changes make modification in certain gene activities like histone modification, adding a methyl group to a part of a DNA molecule. The DNA alterations are not termed as genetic, rather they are called epigenetic.

 

  • Track 5-1Epigenetic regulation in reprogramming
  • Track 5-2Epigenetic carcinogens
  • Track 5-3Epigenetic and disease prevention

Apoptosis is the cell death which leads to a programming sequence of the elimination of old, unnecessary, unhealthy cells. This process is also known as cell suicide. When a cell commits suicide then the caspases become active. The signal transduction is a process in which the signals are transferred in an organism across the cells. In this process the proteins are termed as the receptors. The protein receptor gets signal through a primary messenger and then, undergoes conformational changes which changes its shape and interacts with molecules surrounding it.

 

  • Track 6-1Apoptotic pathway
  • Track 6-2Apoptotic regulation
  • Track 6-3Apoptotic induced proliferation in regeneration models
  • Track 6-4Signal transduction pathways
  • Track 6-5Types of cell signaling
  • Track 6-6Phases of signal transduction
  • Track 6-7Targeted therapy for signal transduction

The technology which makes specific changes in the DNA of a cell. Genome editing depends on the double strand DNA break which has two major pathway mechanisms – non-homologous end joining (NHEJ) and homologous directed repair (HDR).  The genome editing technology heads with the processes like CRISPR, TALEN, ZNF and MAGE.

 

  • Track 7-1Genome editing techniques
  • Track 7-2Stem cells in relation to functioning of gene
  • Track 7-3Genome editing in eradicating disease
  • Track 7-4Trends in genome editing

Tissue remodeling is a technique of tissue engineering which involves restoration or reprogramming of tissues. It results in the maintenance and growth of the tissues. The cells which undergo pathological processes in observing the diseases of humans or animals is termed as organ models. Tissue engineering makes the improved format of modeling the phenotypes and screening the therapeutic solutions to the particular disease.

 

  • Track 8-1Tissue engineering in – vitro
  • Track 8-2Myocardium engineering for heart
  • Track 8-3Metastasis modeling
  • Track 8-4Organ-on-a-chip system
  • Track 8-5Neo-organ

Clinical tissue analysis correlates with histopathology which involves the examination of tissues in order to manifest the diseases. The method requires the hematoxylin and eosin (H and E stain) to identify tissues. Tissue analysis includes the method called Automated Tissue Image Analysis which is a computer controlled method in clinical or medical science, pharmaceuticals, etc.

 

  • Track 9-1Biomarker
  • Track 9-2Biomaterials
  • Track 9-3Data analysis

The material or device or equipment required for treatment or for diagnosis is termed as a biomaterial. The biomaterials have broad application in the clinical or medical science. Hence, to study on biomaterials it is termed as biomaterial science and biomaterial engineering which is profoundly related with biomedical as well as research sector. The application of principles of biology and tools of engineering to create usable, tangible, economically viable products is termed as biomedical application of biomaterials.

 

  • Track 10-1Natural and synthetic biomaterials
  • Track 10-2Biomaterials in medical science
  • Track 10-3Biomedical applications of biomaterials
  • Track 10-4Advantages of biomaterials

The 3D technique is a tissue imitating technology which combines cells and their growth factors along with biomaterials. It is used in printing tissues, cells, organs, etc. it requires bio-ink to print the tissues, cells and organs structurally layer-layer. The methods of 3D bioprinting include Prebioprinting, Bioprinting and Post bioprinting. Organ printing is categorized as Drop-based Bioprinting and Extrusion bioprinting.

 

  • Track 11-13D bioprinting for engineering complex tissues
  • Track 11-2Bioprinting in medicine
  • Track 11-3Printing and prototypes of tissues and scaffolds
  • Track 11-4Applications of organ printing in stem cell therapy and tissue engineering

Muscle stem cells facilitate the long-term regenerative capacity of skeletal muscle trouble. Neither moderate administration nor careful intercession gives sufficient treatment to a few pathologies. As a part of regenerative medicine, undeveloped cell treatments may beat the poor natural recuperating limit of a few musculoskeletal tissues. Muscle stem cells have significant implications towards the development of pharmacological or cell-based therapies for muscle disorders.

 

  • Track 12-1Mesenchyme stem cell
  • Track 12-2Osteochondral
  • Track 12-3Skeletal muscle

The restricted regenerative limit of the heart is the main consideration in cardiovascular breakdown and demise. When cardiovascular cells are unhealthy, it's difficult for them to mend like your body would with a cut. Considering how the heart shapes in babies and afterward develops is a characteristic advance for scientists keen on producing and recovering heart cells. They're additionally examining the impact of an undifferentiated organism determined cardiovascular cells on fixing harmed hearts and their capability to treat heart muscle infections.

  • Track 13-1Cardiovascular cells
  • Track 13-2Embryonic stem cells
  • Track 13-3Endometrial stem cells in regenerative medicine

Nanotechnology in foundational microorganism treatment has developed as an exciting field. Connection contemplates among nanomaterial and Stem cell has made critical advances. The significance of nanotechnology in the major advancements of immature microorganism based treatment for different degenerative sicknesses is clear. Apart from tracking the limitation of foundational microorganisms, nanotechnology has improved targetability, half-life, and solidness of undifferentiated organisms by giving an appropriate microenvironment.

 

  • Track 14-1Drug delivery
  • Track 14-2Nano particles
  • Track 14-3Artificial intelligence

Embryonic Stem cell is a broad type of Stem cell, which is also known as pluripotent stem cells derived from the inner cell mass of blastocyst, an early stage of pre-implantation embryo. Human embryos consist of 50-150 cells when they reach the blastocyst stage in 4-5 days of post fertilization. The destruction of the blastocyst mainly results in the isolation of the embryo blast or inner cell mass, which ethically raises issues in the post-implantation stage of development whether embryos at the pre-implantation stage should be considered to have the same moral or legal status or not.

  • Track 15-1Pluripotent stem cells
  • Track 15-2Blastocyte
  • Track 15-3Embryo blast

Cancer stem cells (CSCs) are the cancer cells found within tumors or haematological regions that possess characteristics related to the normal stem cell. Cancer stem cells specifically have an ability to give rise to all cell types found in a particular cancer sample. CSCs are tumorigenic which form tumors cells; they generate tumors by self-renewal or rapid division of the cells differentiating into multiple cell type. These cells give rise to new tumors by metastasis and relapse caused by hypothesizing the stem cells to persist in tumors as a distinct population.

 

  • Track 16-1Tumors cells
  • Track 16-2Hypothesizing
  • Track 16-3Tumorigenic