Alcoholics, elderly, AND elderly-alcoholics are prone to subdural haemorrhage due to brain atrophy. Alcoholism, regardless of age, causes pre-mature brain atrophy thereby increasing the subdural space. Thus, a 55-year old alcoholic may have brain atrophy that resembles that of a 75 year old. Atrophy is a natural process with aging, which explains the increase of subdural space in the elderly population. Now, if you are elderly AND alcoholic, the atrophic effects are heightened. This increase in subdural space allows more room for the "brain to move around", thus increasing shearing-forces that may result from mild-trauma, a sudden movement, or nothing at all (spontaneous). These shearing-forces cause small bridging-veins (usually subdural bleeds are venous, but may be arterial) to rupture resulting in the aforementioned sub-dural bleed. Chronic alcohol use is very hard on the body and brain...if your patient appears older than stated age, chances are his/her brain does too. It is these atrophic changes in the brain that heighten the chance for chronic/acute/sub-acute sub-dural bleeds in alcoholics, elderly, AND elderly-alcoholics. As for epidural bleeds, I suspect that alcoholics are more prone than the "normal population", as alcoholics are more prone to traumatic falls (down stairs, off curbs, ground level, etc.). Epidural bleeds are almost always arterial, therefore symptoms are fast and sudden...these are your walk-and-drop bleeds...why the text makes it out to sound like epidural bleeds happen more spontaneously in alcoholics is beyond me...is there rationale for this claim?? In a side note, I have noticed that alcoholic patients (usually when they are in their intoxicated state due to the nature of the ER) seem to have "thin blood"...they bleed and bleed despite their INR/PTT being normal...I have never found an answer to this question, but wonder if it is due to alcohol effects on the liver thereby inducing coagulopathies? or does alcohol actually have "blood-thinning" abilities?...has anyone else noticed this? is there a physiological explanation for this? (or maybe I really am losing my mind!!)