Mechanical hemolytic anemia is a form ofhemolytic anemia due to mechanically induced damage tored blood cells. Red blood cells, while flexible, may in some circumstances succumb to physical shear and compression.^[1] This may result inhemoglobinuria. The damage is induced through repetitive mechanical motions such as prolongedmarching (march hemoglobinuria) and marathon running.^[2][3] Mechanical damage can also be induced through the chronic conditionmicroangiopathic hemolytic anemia or due toprosthetic heart valves.^[1]

Repetitive impacts to the body may cause mechanical trauma and bursting (hemolysis) of red blood cells. This has been documented to have occurred in the feet during running^[4] and hands from Conga orCandombe drumming.^[5] Defects in red blood cell membrane proteins have been identified in some of these patients.^[6] Free haemoglobin is released from lysed red blood cells and filtered into the urine.

Marchhemoglobinuria, occurs whenhemoglobin is seen in the urine after repetitive impacts on the body, particularly affecting the feet. The word "march" is in reference to the condition arising in soldiers who have been marching for long periods; the condition was first documented in 1881.^[7]

Runner's macrocytosis is a phenomenon of increased red blood cell size as a compensatory mechanism for increased red blood cell turnover. The impact forces from running can lead to red blood cell hemolysis and accelerate red blood cell production. This can shift the ratio of red blood cells towards younger, larger cells. This shift may be reflected in higher than normalmean corpuscular volume (MCV) values, an indicator of red blood cell size.^[4]

This is not a pathological condition but may indicate a propensity toward iron deficiency anemia due to high red blood cell turnover.

• Acquired hemolytic anemia

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