Call for Abstract

15th Global Diabetes Summit and Medicare Expo , will be organized around the theme “Innovative Research in Diabetes Treatment”

Diabetes Congress 2016 is comprised of 10 tracks and 83 sessions designed to offer comprehensive sessions that address current issues in Diabetes Congress 2016.

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.

Diabetes increases the risk of long-term complications. Diabetes doubles the risk of cardiovascular disease and about 75% of deaths in diabetics are due to coronary artery disease. The primary complications of diabetes due to damage in small blood vessels include damage to the eyes, kidneys, and nerves. Damage to the eyes, known as diabetic retinopathy, is caused by damage to the blood vessels in the retina of the eye. Damage to the kidneys, known as diabetic nephropathy, can lead to tissue scarring, urine protein loss, and eventually chronic kidney disease. Diabetes is a leading cause of kidney failure. At least half of all people with diabetes may have signs of early kidney problems. Damage to the nerves of the body, known as diabetic neuropathy, is the most common complication of diabetes. Diabetes related foot problems may occur, and can be difficult to treat, occasionally requiring amputation.

  • Track 1-1Frontiers in diabetic management
  • Track 1-2Herbs, Supplements and Alternative Medicines
  • Track 1-3Dietary management, impact of physical activity & yoga therapy
  • Track 1-4Impact of food & nutrition in diabetes management
  • Track 1-5Major public health: Training, education and capacity building
  • Track 1-6Angioplasty and Coronary Artery Bypass Grafting (CABG)
  • Track 1-7Diabetic Foot Ulcers
  • Track 1-8Cardiac Resynchronization Therapy (CRT) device & Implantable cardioverter defibrillator (ICD)
  • Track 1-9Diabetes and the brain
  • Track 1-10Diabetes and cancer
  • Track 1-11Glucose Sugar Tolerability

Current Research in diabetes is focusing on developing Implantable insulin pumps which introduced Insulin pump therapy, disruption of fat metabolism, invasive and non-invasive glucose sensors, Artificial pancreas, New insulin delivery systems like inhaled, transdermal and implantable devices, Insulin Pens, Bariatric surgery and Conventional therapeutic approaches. Traditional approaches like Acupuncture and herbal medications are playing vital role in treatment of Diabetes and its related risk factors covering majorly obesity and Diabetes.

  • Track 2-1Insulin pumps and insulin infusion systems
  • Track 2-2Insulin secretion in vitro and exocytosis
  • Track 2-3Insulin Pens and novel Insulin delivery techniques
  • Track 2-4Acupuncture for diabetic complications
  • Track 2-5Bariatric surgery versus intensive medical and conventional therapy
  • Track 2-6Artificial pancreas
  • Track 2-7Glucose sensors (invasive and non-invasive)
  • Track 2-8Implantable pumps and sensors
  • Track 2-9Closed-loop system and algorithm
  • Track 2-10Informatics in the service of medicine; telemedicine, software and other technologies
  • Track 2-11New insulin delivery systems: Inhaled, transdermal, and implanted devices
  • Track 2-12Blood glucose monitoring: Glucose pumps and sensors
  • Track 2-13IPR and socio issues in diabetes research

Biomarkers can be defined  as “a characteristic that is objectively measured and evaluated as an indicator of normal biologic processes, pathogenic processes, or pharmacologic responses to a therapeutic intervention. Biomarkers play an integral part in conducting clinical trials and treating patients. In most instances, they help medical practitioners, researchers, and regulatory officials make well-informed, scientifically sound decisions. More efficient discovery and use of biomarkers in the development of antidiabetes drugs will depend on advancing our understanding of the pathogenesis of diabetes and especially its macrovascular complications.  Methodological advances from other fields, especially oncology, are beginning to pave the way toward improved models of diabetes pathogenesis and biomarker discovery.

  • Track 3-1Prognostic biomarkers
  • Track 3-2Diabetic nephropathy biomarkers
  • Track 3-3Diabetes: Clinical trials and new biomarkers under development
  • Track 3-4Pharmacotherapy in treatment of diabetes
  • Track 3-5Molecular markers for both metabolic syndrome and hypoglycemia responses
  • Track 3-6Inflammatory markers: Type 2 diabetes
  • Track 3-7New drug treatments and devices for diabetes: current research

The estimated heritability of the metabolic syndrome and related metabolic traits (including obesity, dyslipidemia, abnormal glucose regulation and elevated blood pressure) is relatively high. Genetically modified knockout mice models and human monogenic obese/insulin resistant syndrome provide important molecular insights into the pathogenesis of the metabolic syndrome. Transplantation is the transfer (engraftment) of human cells, tissues or organs from a donor to a recipient with the aim of restoring function in the body. Transplantation can be of various types such as pancreas transplantation, xenotransplantation and islet transplantation. A pancreas transplant is surgery to implant a healthy pancreas from a donor into a patient with diabetes.

  • Track 4-1Genetics of metabolic syndrome: Challenges and relation with diabetes mellitus
  • Track 4-2Recent advances in genetics of diabetes
  • Track 4-3Diabetes in specific ethnic groups
  • Track 4-4Genetic-lifestyle interactions in the development and prevention of diabetes

The research on diabetes leads to focus more on the diagnosis and treatment of diseases with the new approaches yet to be discovered or under developments. Maturity onset diabetes of the young, Diabetic Dyslipidemia is one of the major issues for the concern which is due to mutation. Without the pancreas producing this insulin, the sugar will stay in our blood and begin to create serious health issues. High blood sugar can cause blindness, kidney failure, nerve damage, and other organ function problems. There are various metabolic  syndrome  which are to be treated with recent tools for obesity and weight management  is  Bariatric surgery , stem cell therapy. With the development of software’s, now the computational tools i.e bioinformatics are used for the analysis of data e.g. Sequence alignment, microarray analysis and specific tools mentioned.The researcher are also focusing on the metabolism of people with diabetes as it differs to the metabolism of people without diabetes.  In type 2 diabetes, the effectiveness of insulin is reduced and in type 1 diabetes, insulin levels in the body are very low. There is a strong correlation between BMI and body fat. One of the correlates of insulin resistance is the blood fatty acid (FA) level. FA levels are strong predictors of muscle insulin resistance. In diabetes for dummy's, it is vital to get tested regularly to make sure your normal blood sugar levels are safe. In the meantime, diabetes for dummies says to check your blood sugar levels, and know what they are.  Electron microscopy shows decreased mitochondrial size in muscle from individuals with type 2 diabetes.


  • Track 5-1Obesity and diabetes
  • Track 5-2Anti-diabetic Agents
  • Track 5-3Bariatric Surgery & Obesity
  • Track 5-4Diabesity - Methods to control or prevent diabetes in obese people
  • Track 5-5New technologies for treating obesity
  • Track 5-6Bioinformatics tools and techniques used in diabetes Research
  • Track 5-7Diabetes and parkinson
  • Track 5-8Epidemiology of diabetes in geriatric population
  • Track 5-9Diabetic dyslipidemia
  • Track 5-10Albuminuria

In pancreatic islet transplantation, cells are taken from a donor pancreas and transferred into another person. Once implanted, the new islets begin to make and release insulin. Researchers hope that islet transplantation will help people with type 1 diabetes live without daily injections of insulin. Xenotransplantation is the transplantation of living cells, tissues or organs from one species to another. Such cells, tissues or organs are called xenografts or xenotransplants.

  • Track 6-1Islet Cell Transplantation for Diabetes
  • Track 6-2Xenotransplantation for the Treatment of Type 1 Diabetes
  • Track 6-3Pancreas Transplantation
  • Track 6-4Clinical Trial on Islet Transplants
  • Track 6-5Beta Cell Regeneration

Endocrinology is a specialty of medicine; some would say a sub-specialty of internal medicine, which deals with the diagnosis and treatment of diseases related to hormones. Endocrinology covers such human functions as the coordination of metabolism, respiration, reproduction, sensory perception, and movement. Endocrinology also focuses on the endocrine glands and tissues that secrete hormones. The human endocrine system consists of a number of glands. These glands produce and secrete hormones which control the body's metabolism, growth, sexual development and function. When the hormones leave the glands they enter the bloodstream and are transported to organs and tissues in every part of the body.

  • Track 7-1Diagnosis & Treatment of Endocrine disorders
  • Track 7-2Current Advances in Endocrinology & Metabolism
  • Track 7-3Paediatric Endocrinology Disorders & Treatment
  • Track 7-4General Endocrinology
  • Track 7-5Clinical Trials in Endocrinology

Cell therapy is defined as the administration of live whole cells or maturation of a specific cell population in a patient for the treatment of a disease. Cell therapy is expanding its repertoire of cell types for administration. Cell therapy treatment strategies include isolation and transfer of specific stem cell populations, administration of effector cells, induction of mature cells to become pluripotent cells, and reprogramming of mature cells. The establishment of pluripotent human embryonic stem cells and embryonic germ cells have introduced a new potential source for cell therapy in type 1 diabetic patients, especially in light of recent successes in producing glucose-sensitive insulin-secreting cells from mouse embryonic stem cells.

  • Track 8-1Cure for Type 1 Diabetes Stem Cells
  • Track 8-2Embryonic stem cell therapy for diabetes and its complications
  • Track 8-3Beta Cells in Type 1 Diabetes
  • Track 8-4Mechanisms of Pancreatic β-Cell in Type 1 and Type 2 Diabetes
  • Track 8-5Diabetes stem cell

Diabetes mellitus is a group of metabolic diseases characterized by hyperglycemia resulting from defects in insulin secretion, insulin action, or both. The chronic hyperglycemia of diabetes is associated with long-term damage, dysfunction, and failure of various organs, especially the eyes, kidneys, nerves, heart, and blood vessels.

Diabetic kidney disease is recognized as the leading cause of excess mortality in the population with type 1 diabetes. The prevailing theory is that excess calories are processed via the mitochondria resulting in accumulation of superoxide radicals via the electron transfer chain. Novel Paradigms in Diabetic Complications, Diabetes, Pre-diabetes represents an elevation of plasma glucose above the normal range but below that of clinical diabetes. Prediabetes and Metabolic Syndrome, To better study both the pathogenesis and potential therapeutic agents, appropriate animal models of type 2 diabetes (T2D) mellitus are needed  for Clinical trials on animal models,  sodium glucose co-transport inhibitors act as a novel strategy for the treatment of diabetes mellitus

  • Track 9-1Novel Paradigms in Diabetic Complications
  • Track 9-2Clinical diagnosis and laboratory tests
  • Track 9-3Diabetes, Prediabetes and Metabolic Syndrome
  • Track 9-4Clinical trials on animal models
  • Track 9-5Novel research and treatment strategies on diabetes
  • Track 9-6Clinical presentation and diagnosis of diabetes mellitus in adults
  • Track 9-7Clinical case reports and clinical endocrinology practices

Diabetes is a metabolic disorder  in which the person has high blood glucose (blood sugar), either because insulin production is inadequate. Long-term complications of diabetes like diabetic cholestrol develop gradually. The longer we have diabetes, and the less controlled our blood sugar, the higher the risk of complications to skin & immune sytem , cardiovascular diseases, and nerve damage. Diabetes and alcohol will cause your blood sugar to rise and alcohol has a lot of calories. Patients with diabetes will typically experience various complications like Diabetic Macular Oedema , people with diabetes also facing one of the major complication that is diabetic foot having problems like ulceration, polyuria, infection or neuropathic osteroarthropathy, polydipsia, Alzheimer's disease, polyphagia and even more. Diabetes being the one of the causes of death in world and results into other health complication caused like blindness and kidney failure.


  • Track 10-1Microvascular complications: Retinopathy, neuropathy, and nephropathy
  • Track 10-2Diabetic Myelopathy
  • Track 10-3Diabetic Mastopathy
  • Track 10-4Hypertension
  • Track 10-5Paediatric diabetes and treatment
  • Track 10-6Gestational diabetes and treatment
  • Track 10-7Immune intervention in type 1 diabetes
  • Track 10-8Type 2 diabetes -Complications and treatment
  • Track 10-9Type 1 diabetes -Complications and treatment
  • Track 10-10Diabetic gastroparesis
  • Track 10-11Gender differences in hypoglycemia responses or metabolism
  • Track 10-12Hypoglycemia - treatment and complications
  • Track 10-13Latent autoimmune diabetes of adults (LADA)
  • Track 10-14Macrovascular complications: Coronary artery diseases, cardiomyopathy, and stroke
  • Track 10-15Immunology and Diabetes
  • Track 10-16Euglycemia gestational diabetes