1. + Recovery in Aphasia Week 6 Feb 17 th, 2011

2. + Spontaneous Recovery Spontaneous recovery in aphasia Mechanisms of recovery Selective variables affecting recovery Parameters of recovery Means of examining recovery

3. + Spontaneous Recovery 1. Related to the natural healing process 2. Improvement of language function which is inevitable in most cases of aphasia regardless of whether patients receive speech/language treatment 3. This recovery appears to stem from substitution of function and brain reorganization

4. Spontaneous Recovery 4. Information regarding spontaneous recovery has mostly been measured by the Western Aphasia Battery (WAB) whereas amount of recovery in treated patients has been measured by the Porch Index of Communicative Ability (PICA), Functional Communication Profile (FCP), or the Neurosensory Center Comprehensive Examination of Aphasia (NCCEA)

5. Two hypotheses have been advanced at the macroscopic level of brain organization Regression of diaschisis a functional impairment is present in structurally unaffected brain regions connected to the damaged area. This phenomenon is often called diaschisis. Regression of intrahemispheric and transhemispheric diaschisis may be associated with the recovery of a function (i.e., language), that is subserved by an extensive network of regions in both hemisphers.

6. Two hypotheses have been advanced at the macroscopic level of brain organization Regression of diaschisis www.fil.ion.ucl.ac.uk/.../aphasia1.html

7. Two hypotheses have been advanced at the macroscopic level of brain organization “Takeover” of function: Takeover of linguistic functions by the contralateral, undamaged hemisphere Reorganization of function takes place in undamaged areas within the same hemisphere www.fil.ion.ucl.ac.uk/.../aphasia1.html

8. There is considerable evidence that both intrahemispheric and interhemispheric reorganization play a role in the recovery process. In the first few months after a stroke, when the recovery proceeds at a fast rate, regression of functional depression in ipsi- and contralateral areas is the main mechanism underlying recovery. This period is usually associated with a prevalent improvement of auditory comprehension

9. The subsequent phase, characterized by a much less steep recovery function, might be related to the process of functional reorganization; the relative contribution of undamaged regions of the left hemisphere and of the healthy right hemisphere remains to be assessed A contribution of the healthy hemisphere is probable for lexical retrieval, while speech programming aspects seem to remain strongly lateralized to the left hemisphere.

10. Recovery of function involves expanded cortical regions in LH E.g., further language decline following second stoke in the LH PET, SPECT results showed increased metabolic activity, or regional cerebral blood flow in the RH as well as undamaged portions of the language network in the LH

11. + Selective variables affecting recovery 1. Patient-related variables Age Gender Education Linguistic Background Handedness Motivational and Social factors

12. + 1. Patient-related variables Age: “Minimal” effect of age on recovery A fast and relatively complete recovery can be expected in children with acquired aphasia Better prognosis being associated with earlier lesion onset

13. + 1. Patient-related variables Gender Better recovery in females Possible due to less lateralized pattern of hemispheric specialization in females

14. + 1. Patient-related variables Education Education does seem to play a role Other factors: socioeconomic status and general intelligence acquisition of reading skills modulates the clinical picture of aphasia

15. + 1. Patient-related variables Linguistic Background Differential recovery patterns have been observed in patients who know more than one language The notion that first acquired language recovers first has been challenged

16. + 1. Patient-related variables Handedness Better or faster recovery: left-handed patients and patients with “atypical” hemispheric language dominance Crossed right-handed aphasics, crossed and uncrossed left-handers These patients often show unusual dissociation of linguistic performance

17. + 1. Patient-related variables Motivational and Social Factors Depression interacts negatively with recovery Depression may be severe in patients with anterior lesions Many of these aspects have been largely neglected

18. + 2. Disease-Related Variables Etiology Lesion Size Lesion Site Clinical Picture Time Post-Onset

19. + 2. Disease-Related Variables Etiology Negative prognostic factors: progressive disease of the nervous system such as a malignant tumor or a degenerative condition Aphasia due to TBI recovers better than aphasia due to cerebrovascular lesion Hemorrhagic strokes tend to be associated with better outcome in comparison with ischemic strokes

20. + 2. Disease-Related Variables Lesion Size Size of vascular lesions with the help of CT scan Strongest negative predictor of recovery It is closely associated with the variable of aphasia severity

21. + 2. Disease-Related Variables Lesion Site Role of lesion site on the recovery of several aspects of language function, such as speech fluency or auditory comprehension Cortico-subcortical lesions of the left precentral gyrus were found in patients who remained nonfluent six months after onset Extension of lesion toward the basal ganglia or mesial frontal white matter is associated with a negative prognosis for fluency.

22. + 2. Disease-Related Variables Lesion Site According to Naeser and colleagues, only the lesion extent in the temporal lobe correlated with severity and recovery of comprehension disorder Kertesz et al 1993: it was lesion extent in the inferior parietal area that predicted comprehension recovery Aphasias associated with subcortical lesions are associated often with a fast and complete recovery, leaving the patients with a mild residual semantic-lexical disorder

23. + 2. Disease-Related Variables Clinical Picture Relationship of aphasic syndromes, according to the traditional taxonomy, with recovery. Initial severity, defined according to global impairment measures, appears to be the strongest predictor of recovery

24. + 2. Disease-Related Variables Time Post-Onset The rate of spontaneous recovery is maximal in the first 6 months after stroke, with a very steep curve in the first six weeks. However, significant improvement can be observed in severely aphasic patients up to 2 years post-onset

25. + In summary There is unequivocal evidence that clinical severity, lesion size, and time post-onset are negative prognostic factors. Lesion site has predictive value for specific aspects of linguistic recovery. The role of other variables such as gender, age, handedness, and linguistic background, deserves further investigation

26. + Recovery of Aphasia: Recovery of Function A. Parameters of Recovery 1. Amount: usually indicated by difference between 2 assessments in a patient 2. Outcome: 1. Prediction determining whether a level of language function can be predicted given certain information; considered the endpoint of recovery 2. point at which patient is dismissed from speech/language therapy 3. end of recovery is confirmed when language measures no longer show an upward trend across time

27. + Recovery of Aphasia: Recovery of Function A. Parameters of Recovery 3. Rate a. time it takes to reach maximum level of recovery b. usually reached before occurrence of peak test score/final test score

28. + Recovery of Aphasia: Recovery of Function A. Parameters of Recovery 4. Pattern a. Reflected in different amounts and rates of improvement which occur among different language functions b. language functions making greatest improvement are usually receptive and imitative functions

29. + Recovery of Aphasia: Means of Examining Recovery A. Dichotic Listening 1. Normal individuals demonstrate what is called a right ear advantage for the LH processing of language 2. Contralateral fibers are stronger than the ipsilateral fibers in the auditory system 3. Petit and Noll (1979) used the dichotic paradigm with aphasic patients 4. aphasic patients usually show a left ear advantage for language processing which is called the lesion effect

30. + Recovery of Aphasia: Means of Examining Recovery A. Dichotic Listening 5. Petit et al. continued to use the dichotic paradigm in the same group of patients as they recovered over time. 6. As recovery occurred the left ear advantage became larger suggesting that the right hemisphere was becoming more involved in the language process with these patients

31. + Recovery of Aphasia: Means of Examining Recovery B. Use of the Wada Technique: 1. Injecting sodium amytol (barbituate) into the carotid (right or left) artery and it anesthesizes that particular hemisphere 2. Kinsbourne (1971, 1984, 1998) used the WADA technique with a group of Broca’s patients who had minimal verbal production

32. + Recovery of Aphasia: Means of Examining Recovery B. Use of the Wada Technique: 3. there was no change in their verbal skills when the LH was anesthesized 4. however, they lost their verbal skills when the RH was anesthesized suggesting that the RH was subserving the language these patients had.

33. + Recovery of Aphasia: Means of Examining Recovery C. Time-sharing paradigm: 1. (Kligman & Sussman, 1983, 1995) used the time-sharing paradigm which is based on the assumption that if one hemisphere has to do two different things at the same time, it won’t do them as well as if they were doing each of these functions in isolation 2. Particularly interested in motor movements of the hand and a speaking task simultaneously

34. + Recovery of Aphasia: Means of Examining Recovery C. Time-sharing paradigm: 3. So, in normals, if they were tapping with the right hand (controlled by the LH) and then started speaking (also controlled by the LH), their tapping behavior would deteriorate 4. However, if they are tapping with the left hand (controlled by the RH) and start speaking, there will be no deterioration in their tapping behavior

35. + Recovery of Aphasia: Means of Examining Recovery C. Time-sharing paradigm: 5. With aphasic patients, it was observed that their tapping behavior deteriorated using either hand when a speech-language task was introduced, suggesting that the RH was participating more now in language functioning.

36. www.bu.edu/naeser/aphasia/project s.html Three overt naming fMRIs in a chronic nonfluent aphasia patient treated with 1 Hz rTMS to suppress R posterior Pars Triangularis: pre-rTMS (9 Yr. poststroke), and at 3 and 16 Mo. post- rTMS (11 Yr. poststroke). Note increased L perilesional and L SMA activation (white arrow) on fMRI at 16 Mo. post-rTMS (best naming score, 58%). New Shift to L SMA Activation with Improved Overt Naming fMRI at 11 Years Poststroke in Nonfluent Aphasia after rTMS to Suppress R BA 45.