00:00 / 00:00
of complete
Laboratory value | Result |
Sodium | 132 mEq/L |
Potassium | 4.2 mEq/L |
Bicarbonate | 16 mEq/L |
Glucose | 532 mg/dL |
In the Emergency Department, two individuals came in. One of them is 12 years old Timmy, who is severely dehydrated, presents with rapid and deep breaths, abdominal pain, nausea and vomiting. On the clinical examination, his breath actually smells fruity and sweet. Timmy’s parents said that he had been eating a lot lately, but he actually lost weight. Also, they said that Timmy is also drinking water all the time and going to the bathroom a lot. The other person is 55 year old Oliver, who also came in with severe dehydration, lethargy and his family said he had a seizure about 2 hours ago, and in the past month, he had lost some weight, although he had been eating. Both individuals underwent several investigations, including glucose levels, ketone bodies BMP and an ABG.
Okay, based on both individuals’ symptoms, we can assume that both suffer from diabetes mellitus. Diabetes mellitus is a condition where glucose can’t be properly moved from the blood into the cells. This leads to high levels of glucose in the blood and not enough of it inside cells. Since cells need glucose as a source of energy, not letting glucose enter means that the cells starve for energy despite having glucose right on their doorstep.
In general, the body controls how much glucose is in the blood with two hormones: insulin and glucagon. Both of these hormones are produced in the islets of Langerhans of the pancreas. Insulin is secreted by the beta cells, while glucagon is secreted by the alpha cells. Insulin reduces blood glucose levels. It does that by binding to insulin receptors embedded in the cell membrane of insulin-responsive tissues, like muscle cells and adipose tissue. When activated, the insulin receptors cause vesicles containing glucose transporter that are inside the cell to fuse with the cell membrane, allowing glucose to be transported into the cell.
Okay, now, there are two types of diabetes mellitus, Type 1 and Type 2, and the main difference between them is the underlying mechanism that causes the blood glucose levels to rise.
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