Do you think Mr. C.’s memory problems are stroke related? If so, how would the pathophysiology be different for Alzheimer’s dementia? Mr C’s memory loss could very likely be as a result of his stroke. As he has residual left-sided weakness, it is likely that he had a stroke involving the right hemisphere of his cerebrum. Effects of right hemisphere strokes may include: • Weakness or paralysis on the left side of your body • Vision problems. • Problems distinguishing distance, depth, between up and down, or between front and back. This can make it hard to pick up objects, button a shirt, or tie your shoes. • Problems understanding maps. • Problems with short-term memory. You may be able to remember something that happened several years ago, but not something you did a few minutes ago. • Forgetting or ignoring objects or people on your left side (this is called neglect). You may even ignore your own left arm or leg. • Judgement difficulties, such as acting impulsively or not realizing your own limitations (Heart and Stroke Foundation, 2008). Pathophysiology of Strokes: The pathophysiology of a stroke involves the sudden loss of brain function caused by an interruption in blood flow to the brain (termed ischemic stroke) or the rupture of blood vessels in the brain (termed hemorrhagic stroke). This causes the cells (neurons) in the affected area to die. The effects of the stroke are determined by the location of the injury in the brain. Ischemic strokes occur due to an interruption in blood flow to the brain caused by a blood clot. Atherosclerosis of the vessels is often involved, causing narrowing of the arteries that supply blood to the brain. Ischemic strokes can either be thrombotic or embolic: thrombotic meaning that the blood clot formed in an artery directly leading to the brain, embolic meaning that the clot developed elsewhere in the body and then traveled to the brain via the blood stream. This type of stroke accounts for approximately 80% of all strokes. Hemorrhagic strokes are caused by uncontrolled bleeding in the brain, which floods the brain and interrupts normal blood flow, ultimately destroying the brain cells. Two main types of hemorrhagic stroke exist: subarachnoid hemorrhage, in which the bleeding occurs on the surface of the brain (between the skull and the brain); or intracerebral hemorrhage, where the bleeding occurs from an artery deep within the brain. The above information was adapted from the Heart and Stroke Foundation (2008). Pathophysiology of Alzheimer’s Disease: Alzheimer’s disease (AD) is a progressive, degenerative disease of the brain, and is the most common form of dementia (dementia being defined as a syndrome consisting of loss of memory, judgment and reasoning, along with changes in mood, behavior, and communication abilities (Alzheimer Society of Canada, 2008). Researchers do not yet know what causes AD or how to stop it’s progression. They have identified some commonalities. There were two hallmarks originally described by the original identifying physician (Dr. Alois Alzheimer identified the disease in 1906). • The existence of plaques, numerous tiny dense deposits scattered throughout the brain that become toxic to brain cells at excessive levels, and • ‘Tangles’, which interfere with vital processes and eventually choke off living cells (Alzheimer Society of Canada, 2008). Tavee and Sweeney (2003) concur, describing that the classic neuropathological findings in AD include amyloid plaques, neurofibrillary tangles, and synaptic and neuronal cell death Other pathophysiologic changes that have been identified include atrophy of the brain in areas where brain cells have degenerated and died. Mr. C.’s memory loss could indeed also have an element of AD to it. Memory loss, especially of recent events, is a common symptom of AD, and may indicate the presence of AD. Misplacing items is also common. Mr. C. is also exhibiting mood changes, which could be potentially related to AD. Common mood and behavior changes may include confusion, becoming suspicious or withdrawn, or mood swings. There are staging systems in place that many medical professionals use to determine the level of AD. One describes AD in terms of early stage, middle stage, or late stage; a second common staging system is the Global Deterioration Scale (Reisberg Scale), which divides the disease into seven stages. Overall, it would be difficult given the information we have to give a definitive answer as to the exact reason for Mr. C.’s memory problems. Stroke seems as though the easy answer, given his history in the last few weeks, but some of the other behaviors (ie. suspicion) lead one to think more along the lines of AD. References Alzheimer Society of Canada (2008). Retrieved May 26, 2008, from http://www.alzheimer.ca/english/disease/whatisit-intro.htm Heart and Stroke Foundation of BC and Yukon (2008). Retrieved May 26, 2008, from http://www.heartandstroke.bc.ca/site/c.kpIPKXOyFmG/b.3644593/ Tavee, J., & Sweeney, P. J. (2003). Alzheimer’s Disease. Retrieved May 26, 2008, from http://www.clevelandclinicmeded.com/medicalpubs/diseasemanagement/ne urology/alzheimers/alzheimers.htm#pathophysiology