Anxiety

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Anxiety is a physiological state marked by demonstrable changes in cognitive, somatic, emotional, and behavioral components. [1] These changes combine to create the sensations typically recognized as fear, apprehension, or worry. Anxiety is also often accompanied by physical sensations such as heart palpitations, nausea, chest pain, shortness of breath, stomach aches, or headache.

Cognitive changes point to an expectation of both present and diffuse danger. Somatically, the body prepares the organism to deal with a perceived threat; blood pressure and heart rate increase, perspiration and bloodflow to the major muscle groups increases, while immune and digestive functions are inhibited. External somatic indicators may present as pale skin, sweating, trembling, and/or pupillary dilation. Emotionally, anxiety induces a sense of dread or panic, and behavior directed at escaping or avoiding the source of anxiety may arise, as the anxiety reaction is an important survival mechanism.

Neurological considerations

Neurological systems that underlie anxiety include the amygdala and hippocampus. [2]. When confronted with unpleasant and potentially harmful stimuli, such as foul odors or tastes, PET-scans show increased bloodflow through the amygdala, while participants reported moderate, but measurable, anxiety. This indicates that anxiety may be a protective mechanism designed to prevent the organism from engaging in potentially harmful behaviors. [3] [4]

References

  1. Seligman, M.E.P., Walker, E.F. & Rosenhan, D.L. (2001). Abnormal psychology, (4th ed.) New York: W.W. Norton & Company, Inc.
  2. Rosen, J.B. & Schulkin, J. (1998): "From normal fear to pathological anxiety". Psychological Review. 105(2); 325-350.
  3. Zald, D.H. & Pardo, J.V. (1997). "Emotion, olfaction, and the human amygdala: amygdala activation during aversive olfactory stimulation." Proc Nat'l Acad Sci USA. 94(8), 4119-24.
  4. Zald, D.H., Hagen, M.C. & Pardo, J.V. (2002). "Neural correlates of tasting concentrated quinine and sugar solutions". J. Neurophysiol. 87(2), 1068-75.