Mixed transcortical aphasia

Mixed transcortical aphasia is the least common of the three transcortical aphasias (behind transcortical motor aphasia and transcortical sensory aphasia, respectively). This type of aphasia can also be referred to as 'Isolation Aphasia'. This type of aphasia is a result of damage that isolates the language areas (Broca’s, Wernicke’s, and the arcuate fasciculus) from other brain regions. Broca’s, Wernicke’s, and the arcuate fasiculus are left intact; however, they are isolated from other brain regions. Mixed transcortical aphasia is the least common of the three transcortical aphasias (behind transcortical motor aphasia and transcortical sensory aphasia, respectively). This type of aphasia can also be referred to as 'Isolation Aphasia'. This type of aphasia is a result of damage that isolates the language areas (Broca’s, Wernicke’s, and the arcuate fasciculus) from other brain regions. Broca’s, Wernicke’s, and the arcuate fasiculus are left intact; however, they are isolated from other brain regions. A stroke is one of the leading causes of disability in the United States. Following a stroke, 40% of stroke patients are left with moderate functional impairment and 15% to 30% have a severe disability as a result of a stroke. A neurogenic cognitive-communicative disorder is one result of a stroke. Neuro- meaning related to nerves or the nervous system and -genic meaning resulting from or caused by. Aphasia is one type of a neurogenic cognitive-communicative disorder which presents with impaired comprehension and production of speech and language, usually caused by damage in the language-dominant, left hemisphere of the brain. Aphasia is any disorder of language that causes the patient to have the inability to communicate, whether it is through writing, speaking, or sign language. Mixed transcortical aphasia is characterized by severe speaking and comprehension impairment, but with preserved repetition. People who suffer mixed transcortical aphasia struggle greatly to produce propositional language or to understand what is being said to them, yet they can repeat long, complex utterances or finish a song once they hear the first part. Persons with mixed transcortical aphasia are often nonfluent, and in most cases do not speak unless they are spoken to, do not comprehend spoken language, cannot name objects, and cannot read or write. However, they often have the ability to repeat what is said to them. In fact, persons with mixed transcortical aphasia often repeat in a parrot-like fashion. Some patients with this disorder can experience many different types neurological symptoms including, bilateral paralysis, lack of voluntary speech, and difficulty with producing spontaneous speech. A conversation between a clinician and person with transcortical mixed aphasia would have similar characteristics to the conversation below: In this rare type of aphasia, Broca's area, Wernicke's area, and the arcuate fasciculus are intact but the watershed region around them is damaged. This damage isolates these areas from the rest of the brain. The most frequent etiology of mixed transcortical aphasia is stenosis (narrowing) of the internal carotid artery. Mixed transcortical aphasia can also occur after cerebral hypoxia, cerebral swelling, and any stroke that affects the cerebral artery. Often lesions that cause mixed transcortical aphasia affect both the anterior and posterior perisylvian border zones. Some times the type of aphasia can be determined just by knowing the lesion location. In order for a patient to be diagnosed with mixed transcortical aphasia all other forms of transcortical must be ruled out. Using WAB or the BDAE can rule out global aphasia if the ability to repeat is present. If verbal fluency is depressed transcortical aphasia gets ruled out and if auditory processing and comprehension is weak then it cannot be transcortical motor aphasia. After a stroke, many patients feel the devastating impacts of the loss of language. Studies have looked into ways to enhance verbal communication with therapy, and one of the treatment approaches that proved to be successful is 'Drawing Therapy'. Drawing offers an alternative route to access semantic information. Because of this, it provides adults who have lost language with a means to access and express their ideas, emotions, and feelings. Drawing has also been shown to activate right hemisphere regions. This makes drawing a non-linguistic intervention that can access semantic knowledge in the right hemisphere. The study conducted on drawing therapy found that it increased naming abilities in patients with acute and chronic aphasia. It also produced fewer error attempts during naming tasks. The study also found that the act of drawing itself, not the quality, was critical for the activation of the semantic-lexical network required for naming tasks. Other studies have also reported that family members have seen the effects of therapy at home. The gains made from drawing therapy were not ones that could have been made from spontaneous recovery. Drawing therapy was especially found to be useful in individuals with global and anomic aphasia. Both of these individuals were found to have produced more verbalizations post-therapy. This reinforces the idea that drawing provides a mean of recruiting areas or networks that were not otherwise sufficient for producing speech. Across the majority of patients, the quality of drawing improved as well as written output and sentence structure. Drawing therapy has proved to be effective even after a few periods of therapy. Although this therapy is aimed at patients with aphasia, it can be implemented for any patient with expressive deficits.