Conference Series LLC LTD extends warm invitation to all the participants across the globe to attend “12thWorld Congress on Cell and Tissue Science”(CellTissue Science 2019) which is going to be held during March 11-12, 2019 at Singapore which includes prompt Keynote Presentations, Workshops, Oral talks, Poster presentations and Exhibitions working under the fields Cell Therapy, Gene Therapy, Anti-Aging, Cell Biology, Stem Cells, Organ Regeneration, Tissue Engineering and Regenerative Medicine to discuss materials-related strategies and new innovation for disease remediation and prevention.
Why to attend?
With members from around the world focused on learning about Cell Biology and Stem Cells; this is your best opportunity to reach the largest assemblage of participants from the Cell Biology, Tissue Science, Stem Cells, Cancer Biology and Regenerative Medicine community. Conduct presentations, distribute information, meet with current and potential scientists, make a splash with advancement and innovation drug developments and technologies, and receive name recognition at this 2-day event. World-renowned speakers, the most recent techniques, developments, and the newest updates from the field of Cell Biology, Tissue Science, Stem Cells, Cancer Biology and Regenerative Medicine are hallmarks of this conference.
- Cell Biology
- Tissue Engineering
- Cancer Cell Biology
- Stem Cells and its Applications
- Biobanking
- Artificial Organs
- Regenerative Medicine
- Precision Medicine
- Cellular and Gene Therapy
- Tissue Repair and Regeneration
- Advancement in Cancer Treatments
- Biomaterial and Bioengineering
- Epigenetics and Epigenome Analysis
- Tissue Culture and Preservation
- Anti-Aging Medicine
- Ethical Issues & Market Status Around the Globe
Track 1: Cell Biology
Cell Biology is the discipline that studies the molecular structure, function and behavior of cells in the complexity of tissues and organs in the human body in order to understand mechanisms of disease. Differences in the Cellular structure and the approach of internal mechanisms form the basis of the first major divisions of life. This is done both on a microscopic and molecular level as it encompasses eukaryotic cells and prokaryotic cells. Knowing the components of cells and their functionalist is the fundamental to all biological sciences. It is also very important for the researchers in bio-medical fields such as cancer, and other diseases. Research in cell biology is closely related to genetics, biochemistry, molecular biology, immunology, and developmental biology.
Track 2: Cellular and Gene Therapy
Cell therapy is therapy during which cellular material is injected into a patient. Nowadays 2 distinct classes of cell therapy are: the first class is cell therapy in mainstream drugs. This is often the topic of intense research and the basis of potential therapeutic benefit. The second class is in alternative medicine and perpetuates the practice of injecting animal materials to cure disease. The target of cell therapy is to revive the lost function instead of manufacturing a brand-new organ that may cause duplicity and undesirable effects. Gene therapy is that the therapeutic delivery of nucleic acid polymers into a patient's cells as a drug to treat disease. Gene therapy may be a way to fix a genetic drawback at its supply. The polymers are either translated into proteins, interfere with target gene expression, or presumably correct genetic mutations. The foremost common kind uses a deoxyribonucleic acid that encodes a useful, therapeutic gene to exchange a mutated gene. The compound molecule is packaged along with a "vector” that carries the molecule within cells. The vector incorporates genes into chromosomes. The expressed nucleases then knock out and replace genes within the body. These therapies have had good results, though the deficiency of the beginning material could represent a significant limitation.
Track 3: Tissue Engineering
Tissue Engineering is a mainly focused on the developing the tissues and organ substitutes under controlled biological, biomechanical and biophysical parameters within the laboratory. It also addresses to develop three-dimensional functionality of tissues in combining the scaffolds, cells and bioactive molecules. This field has evolved in the scientific areas such as cell biology, material science, chemistry, molecular biology, engineering and medicine. Tissue engineering has taken an attempt, technique, or technology made or at some point applied towards the preternatural regeneration, or restoration of native tissue structure and function using biological components.
Track 4: Tissue Regeneration and Repair
Regeneration is that the progression of renewal, regeneration, and growth that makes it cells, organ regeneration to natural changes or events that cause damage or disturbance. This study is carried out as craniofacial tissue engineering, in-situ tissue regeneration, adipose-derived stem cells for tissue science which is also a breakthrough in cell culture technology. The study isn't stopped with the regeneration of tissue wherever it is further carried out in relation with cell signaling, morphogenetic proteins. Most of the neurological disorders occurred accidentally having a scope of recovery by replacement or repair of intervertebral discs repair, spinal fusion and plenty of more advancement.
Track 5: Cancer Cell Biology
Cancer is the uncontrolled growth of abnormal cells in the body. Cancer develops when the old cells do not die and instead grow out of control, forming new, abnormal cells. These extra cells may form a mass of tissue, called a tumor. Cancer may occur anywhere in the body. In women, breast cancer is one of the most common. In men, it’s prostate cancer. Lung cancer and colorectal cancer affect both men and women in high numbers. Oncology is the study of cancer. A branch of medicine that specializes in the diagnosis and treatment of cancer which includes the use of chemotherapy, hormone therapy, radiation therapy, surgery and other procedures.
Track 6:Advancement in Cancer Treatments
Cancer diagnosis must be early and accurate. Several cancer types can't be detected early enough at the moment, whereas others are detected in time, but treated too severely. This notion requires not only great healthcare facilities and new diagnosis technologies along with proactivity of patients. A branch of medicine that specializes in the diagnosis and treatment of cancer which includes the use of chemotherapy, hormone therapy, radiation therapy, surgery and along with some other procedure like Next-generation targeted therapies, Molecular cancer diagnostics, Artificial intelligence-based therapy design, Multi-functional radiology, In silico trials, DNA cages, Precision surgery and many more.
Track 7:Stem Cells and its Applications
Stem Cells have the exceptional potential to develop into many different cell types within the body throughout early life and growth. Commonly, stem cells come from two main sources Embryonic Stem Cells and Adult or Somatic Stem Cells. Embryonic Stem Cells are developed when embryos formed during the blastocyst phase of embryological development whereas Adult or Somatic Stem Cells exist throughout the body after embryonic development and are found inside of different types of tissue. Once a stem cell divides itself, and then each new cell has the potential either to stay as a stem cell or become another type of cell with an improved specialized function, such as a muscle cell, a red blood cell, or a nerve cell. Stem Cells Therapies carry immense potential for treating a number of human diseases such as to repair or regenerate blood vessels, treatment of eyesight, Diabetes, Neurodegenerative Disorders and Wound Healing etc.
Track 8: Biomaterial and Bioengineering
Biomaterials are being employed for the health care applications from ancient times. However subsequent evolution has made them a lot of versatile and has multiplied their utility. Biomaterials have revolutionized the areas like bioengineering and tissue engineering for the development of novel methods to combat life-threatening diseases. Alongside biomaterials, stem cell technology is additionally getting used to enhance the present aid facilities. Bioengineering is a discipline that applies engineering principles of design and analysis to biological systems and biomedical technologies.
Track 9: Biobanking
The wide array of biospecimens including blood, saliva, plasma, and pure DNA maintained in biobanks is delineating as libraries of the human organism. They’re rigorously characterized to see the final and distinctive options of the continual cell line and therefore the absence or presence of contaminants, thus establishing a basic understanding regarding the staple from that the biological product is being derived and maintained. Biobanks catalog specimen’s victimization genetic and alternative traits, like age, gender, blood type, and quality. Some samples are classified in line with environmental factors, like whether or not the donor had been exposed to radiation or another substance that may have an effect on human genes. Researchers access bio-banks once they are in need of specimen with similar traits for their research studies.
Track 10: Epigenetics and Epigenome Analysis
The Epigenome is a multitude of chemical compounds that tells the genome what to do whereas Epigenetics is the study of these chemical reactions and the factors that influence them. As an organism grows and develops, carefully orchestrated chemical reactions activate and deactivate parts of the genome at strategic times and in specific locations. The complete assembly of human genome is about 3 billion base pairs of DNA that makes each of the individual unique. DNA holds the instructions for building the proteins that carry out different functions in a cell. The epigenome is made up of chemical compounds and proteins that can attach to DNA and direct such actions as turning genes on or off, controlling the production of proteins in particular cells. The epigenome dynamically responds to the environment. Stress, diet, behavior, toxins, and other factors regulate gene expression.
Track 11: Artificial Organs
Artificial Organ, any machine, device, or different material that's used to replace or replicate the functions of a faulty or missing organ or other part of the human body. Artificial organs include the artificial heart and pacemaker, the use of dialysis to perform kidney functions, and the use of artificial substitutes for missing limbs etc. In some cases, artificial organs can eliminate the need for transplantation altogether.
Track 12: Tissue Culture and Preservation
Tissue Culture is a technique of scientific research during which fragments of tissue from an animal or plant are collected and transferred to artificial surroundings in which they can survive and function. The cultured tissue may consist of a single cell, a population of cells, or a part of an organ. Cells in culture could multiply, change size, form, or function, exhibit specialized activity or interact with different cells. Cryopreservation is a process where organelles, cells, tissues, extracellular matrix, organs or any other biological constructs vulnerable to damage caused by unregulated chemical kinetics are preserved by cooling to very low temperatures.
Track 13: Regenerative Medicine
Regenerative Medicine is a broad field that includes tissue engineering but also incorporates research on self-healing or self-repair where the body uses its own systems or with the help of foreign biological material to recreate cells and reconstruct into tissues and organs. Though significant progress has been created within the tissue engineering field, several challenges remain and any development in this area would require on-going interactions and collaborations among the scientists from multiple disciplines, and in partnership with the regulatory and therefore the funding agencies. Because of the medical and market potential, there's important academic and corporate interest during this technology.
Track 14: Anti-Aging Medicine
Anti-Aging is the process or method that are intended to prevent or limit the process of becoming old. Our bodies are made of cells, and aging occurs once there is cell death. As an infant, child and young adult, our body’s cells are robust, resilient and can create new cells. As the years pass by, our body’s ability to generate new cells diminishes and finally cell death happens, and therefore the aging process ensues. Enduring youth might be attained if aging could be stopped at a youthful age, but it seems unlikely that the damage to organs, tissues, cells and molecules known as aging can be stopped completely by replacing or repairing those damaged organs, tissues, cells and even molecules seems like a better strategy. These strategies can restore function to old organisms or can even rejuvenate.
Track 15: Precision Medicine
Precision Medicine, also termed Personalized Medicine or Predictive Medicine, is a process used within the medical field that separates patients into completely different groups concerning based on their medical decisions, practices, interventions and products being tailored to the individual patient based on their predicted response or risk of illness. During this process genes play a very important role. The concept of precision medicine, in which health care is individually customized on the basis of a person's genes, lifestyle and environment. The aim of translating precision medicine into direct improvements in health care can be done using diagnostics, bioinformatics, drug discovery, clinical trials and therapies.
Track 16: Ethical Issues and Marketing Status Around the Globe
The field of bioethics has addressed a broad swathe of human inquiry, ranging from debates over the boundaries of life, surrogacy, and the allocation of scarce health care resources to the right to refuse medical care for religious or cultural reasons. StemGen is a research database of international, regional and national normative instruments concerning the socio-ethical and legal aspects of stem cell research and related therapies. The regulation of stem cell research is an issue that has drawn much comment, criticism and even judicial arbitration in recent years along with the marketing status of Stem Cells, Cell therapy, Regenerative Medicine, Tissue Engineering and many more worldwide.