Physiology is a branch of biology that studies the processes and mechanisms that operate within an organism. The physiology of disease is frequently complex, involving interactions between various organs and tissue types. Insulin levels in the body, as well as the body's ability to utilise insulin, are linked to the pathophysiology of diabetes. In type 1 diabetes, there is no insulin at all, whereas in type 2 diabetes, the peripheral tissues resist insulin's effects. Diabetes has a complex pathophysiology that involves multiple hormones (i.e., insulin, glucagon, and growth). Because of the interaction of these hormones with the liver and their role in renal function, the pathological processes of this disease are difficult to nail down and vary greatly between patients.
Title : Exercise: The panacea for overconsumption of carbohydrate.
Charles P Lambert PhD, Lambert Relentless R & D, LLC, United States
Title : Magnesium supplementation as potential means to reduce thrombotic risk in type 1 diabetes
Alan J Stewart, University of St. Andrews, United Kingdom
Title : Incorporation of dietary fibres from selected vegetation for diabesity market
Wan Rosli Wan Ishak, Universiti Sains Malaysia, Malaysia
Title : Navigating obesity, diabetes, and behavior change: A case study of a successful physician-patient partnership
Gretchen Holmes, Memorial Hospital at Gulfport, United States
Title : Diabetic retinopathy and GDM in hispanic pregnant women with toxoplasma gondii
Maureen Groer, University of Tennessee Knoxville, United States
Title : Do the STAP test --- Prevent the diabetes
Madhu S Malo, Diabetic Association of Bangladesh, United States