There are various individual risk factors associated with having a silent stroke. Many of these risk factors are the same as those associated with having a major symptomatic stroke. •
Acrolein: elevated levels of acrolein, a toxic
metabolite produced from the
polyamines spermine,
spermidine and by
amine oxidase serve as a marker for silent stroke, when elevated in conjunction with C-reactive protein and interleukin 6 the confidence levels in predicting a silent stroke risk increase. •
Adiponectin: is a type of protein secreted by
adipose cells that improves insulin sensitivity and possesses
antiatherogenic properties. Lower levels of s-adiponectin are associated with ischemic stroke. •
Aging: the prevalence of silent stroke rises with increasing age with a prevalence rate of over twenty percent of the elderly increasing to 30%-40% in those over the age of 70. •
Anemia: children with acute anemia caused by medical conditions other than sickle cell anemia with hemoglobin below 5.5
g/
dL. are at increased risk for having a silent stroke according to a study released at American Stroke Association's International Stroke Conference 2011. The researchers suggested a thorough examination for evidence of silent stroke in all severely anemic children in order to facilitate timely intervention to ameliorate the potential brain damage. •
Sickle cell anemia: is an
autosomal recessive genetic blood disorder caused in the gene (HBB gene) which codes for hemoglobin (Hg) and results in lowered levels. The blood cells in sickle cell disease are abnormally shaped (sickle-shaped) and may form clots or block blood vessels. Estimates of children with sickle cell anemia who suffer strokes (with silent strokes predominating in the younger patients) range from 15%-30%. These children are at significant risk of cognitive impairment and poor educational outcomes. •
Thalassemia major: is an autosomal recessive genetically inherited form of hemolytic anemia, characterized by red blood cell (hemoglobin) production abnormalities. Children with this disorder are at increased risk for silent stroke. •
Atrial fibrillation (AF): atrial fibrillation (irregular heartbeat) is associated with a doubled risk for silent stroke. •
Cigarette smoking: The procoagulant and
atherogenic effects of smoking increase the risk for silent stroke. Smoking also has a deleterious effect on regional
cerebral blood flow (rCBF). The chances of having a stroke increase with the amount of cigarettes smoked and the length of time an individual has smoked (pack years). •
C-reactive protein (CRP) and
Interleukin 6 (IL6): C-reactive protein is one of the plasma proteins known as
acute phase proteins (proteins whose
plasma concentrations increase (or decrease) by 25% or more during inflammatory disorders) which is produced by the liver. The level of CRP rises in response to inflammation in various parts of the body including vascular inflammation. The level of CRP can rise as high as 1000-fold in response to inflammation. Other conditions that can cause marked changes in CRP levels include infection, trauma, surgery, burns, inflammatory conditions, and advanced cancer. Moderate changes can also occur after strenuous exercise, heatstroke, and childbirth. Increased levels of CRP as measured by a CRP test or the more sensitive high serum CRP (hsCRP) test have a close correlation to increased risk of silent stroke. Interleukin-6 is an
interleukin (type of protein) produced by
T-cells (specialized
white blood cells),
macrophages and
endothelial cells. IL6 is also classified as a
cytokine (acts in relaying information between cells). IL6 is involved in the regulation of the
acute phase response to injury and infection may act as both an anti-inflammatory agent and a pro-inflammatory. Increased levels of CRP as measured by a CRP test or the more sensitive high serum CRP (hsCRP) test and elevated levels of I6 as measured by an IL6
ELISA are markers for the increased risk of silent stroke. •
Diabetes mellitus: untreated or improperly managed diabetes mellitus is associated with an increased risk for silent stroke. •
Hypertension: which affects up to 50 million people in the United States alone is the major treatable risk factor associated with silent strokes. •
Homocysteine: elevated levels of total homocysteine (tHcy) an
amino acid are an independent risk factor for silent stroke, even in healthy middle-aged adults. •
Metabolic syndrome (MetS):Metabolic syndrome is a name for a group of risk factors that occur together and increase the risk for coronary artery disease, stroke, and type 2 diabetes. A higher number of these MetS risk factors the greater the chance of having a silent stroke. •
Polycystic ovary syndrome (PCOS): is associated with double the risk for arterial disease including silent stroke independent of the subjects
Body mass index (BMI). •
Sleep apnea: encompasses a heterogeneous group of sleep-related breathing disorders in which there is repeated intermittent episodes of breathing cessation or
hypopnea, when breathing is
shallower or slower than normal. Sleep apnea is a common finding in stroke patients but recent research suggests that it is even more prevalent in silent stroke and chronic microvascular changes in the brain. In the study presented at the American Stroke Association's International Stroke Conference 2012 the higher the
apnea-hypopnea index, the more likely patients had a silent stroke. ==Neuropsychological deficits==