Physiology ~repack~ - Fundamentals Of Medical
The stem cell heeded the call. It divided, differentiated, and extruded its nucleus, transforming into a biconcave disc of pure hemoglobin. Thus was born Erythrocyte E-1173, a cell with no organelles, no ambitions, and only one purpose: to carry oxygen.
Now bright and buoyant, E-1173 returned to the left heart and was launched into the systemic circulation. It traveled at breakneck speed through the aorta, then into arteries, then arterioles. The flow was not silent. It heard the faint, rhythmic thump-thump of each heartbeat—the —and felt the pressure wave that would be measured as 120/80 mmHg on a clinician’s cuff.
But a crisis loomed.
In the lung’s alveolar capillaries, E-1173 experienced a transformation. It rolled to a stop, flattened against a thin endothelial wall. On the other side was a puff of inhaled air (partial pressure of O₂ ~100 mmHg). The air’s oxygen molecules, driven by the simple physics of , passed through the alveolar membrane, through the plasma, and into E-1173. There, oxygen bound cooperatively to the four heme groups of its hemoglobin. E-1173 turned from a dull maroon to a brilliant scarlet. It had been oxygenated . In return, it unloaded the waste product carbon dioxide (as bicarbonate, thanks to the enzyme carbonic anhydrase in its cytoplasm) back into the alveolus to be exhaled. The law of mass action was served.
E-1173, however, was trapped and doomed. A macrophage, the tissue’s resident sentinel, engulfed it in a quiet act of . The heme group was broken down into biliverdin, then bilirubin, which the liver would eventually excrete in bile. The iron atom was carefully saved, bound to transferrin, and shipped back to the bone marrow to build a new red blood cell. fundamentals of medical physiology
In the beginning, there was a void. Not an empty one, but a bustling, hypoxic darkness deep within the spongy red marrow of a human femur. Here, in the hematopoietic niche, a humble hematopoietic stem cell received a signal: a whisper of the cytokine erythropoietin, released by the kidneys because the blood’s oxygen levels had dipped slightly below a set point.
Finally, E-1173 arrived at its destination: a sleepy capillary bed in the gastrocnemius muscle of a jogging human. The environment here was hostile. The local pH was acidic from lactic acid. The temperature was high from muscular work. CO₂ partial pressure was elevated. All of these factors—the —were chemical insults screaming, “Unload your oxygen!” The stem cell heeded the call
E-1173 was now free in the interstitial space. This was a . Immediately, local smooth muscles in the vessel wall constricted ( vasospasm ). Circulating platelets, sensing exposed collagen, began to adhere, activate, and aggregate. They released ADP and thromboxane A₂, recruiting more platelets. A positive feedback loop had begun. Then, a cascade of inactive enzymes in the blood—the coagulation factors—catalyzed one another in a chain reaction, converting fibrinogen into sticky fibrin threads. Within minutes, a stable clot had formed, sealing the leak.