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ABSTRACTThis presentation discusses brain plasticity in Schizophrenia. People with Schizophrenia experience disruptions in activating and inhibiting systems in the brain. Specifically, these systems create thoughts and sensations that are generated within the brain.
Brain plasticity is a set of fundamental physiological processes, which are multi-level multi-systems processes in a homeostatic brain. In Schizophrenia, brain plasticity permits the recovery of function.
ABSTRACTMeasurement issues include high variability associated with changes in brain states in people with Schizophrenia. The implications for measurement are that researchers need to analyze and report changes in coefficients of variation, standard deviations and variance as well as averages. Indicators of improved brain function are reduced variability and reduced magnitude of deviation from correct responses.
These studies: 1. use each subject as their own control; 2. examine improved psychophysiological functioning by EEG Brain Biofeedback and 3. examine improved ecologically valid functional behavior as measured by the Orientation Remediation Module (ORM) Reaction Time and Zero Accuracy Conditioner (ZAC) subtests.
ABSTRACTThe results show that people with Schizophrenia can reduce the variability of their reaction time and reduce the size of error on a frontal lobe task. These results are discussed in terms of the need to develop new technologies that help people with schizophrenia keep their brain in a functional state.
Caveat: The data presented are illustrative examples based on small sample sizes using each subject as their own control. The basic hypotheses and results need to be replicated with a larger sample size and a controlled study using random assignment.
There is an evolving world
in each person’s brain.
1982:Right Brain/Left Brain Models lead to a Homeostatic Brain Model
1989: Adapting the NYU Rusk and the Recanati Institute’s Neuropsychological Therapeutic Community Model
(a brain injury treatment)
2000: Grant from NYS Office of Mental Health
2000- present: Treatment sites at- FEGS (Brooklyn), Jaffa Community Mental Health Center (Israel) and Hudson River Psychiatric Center (NY)
2006-present: Collaboration with Residential Treatment Sites
TIMELINE Development of the Miran Therapy
Basic science/Brain function The Homeostatic Brain Model describes
normal and abnormal activating and inhibiting systems.
Psychiatric symptoms occur when there are disruptions in activating and inhibiting Frontal, Temporal, Parietal, and Limbic regions of the brain.
The human brain is plastic, and can recover function and establish new neural-pathways.
MeasuringBrain
Plasticity• Improved psychophysiological
functioning by EEG Brain Biofeedback
• Improved ecologically valid functional behavior by the Orientation Remediation Module subtest Reaction time and Zero
Accuracy Condition
EEG:Brain BioFeedback
The EEG Record is of a subject diagnosed with Schizophrenia. Data was collected as part of a New York State Office of Mental Health Grant.
The EEG Record shows a change in brain function from an abnormal state to a normal state associated with working on a computerized attention task.
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Brain ActivityHallucination (left picture) and Cognitive Training (right picture)
Dysfunctional Brain State Functional Brain State Slow Delta Wave Activity Normal Alpha -associated with -associated with Auditory and Visual Visual Motor -Hallucinations -Activation
ZAC:Zero
AccuracyConditioner
The ZAC is a computerized cognitive training task (developed by Yehuda Ben-Yishay, Ph.D. at the NYU Rusk Institute, Working Approaches to Remediation of Cognitive Deficits in Brain Damaged Persons, 1983)
Includes three subtests:Immediate stopShort coastLong coast
Subtests are progressively more difficult and involve more frontal lobe activity.
ZAC:Zero
AccuracyConditioner
Next slide is a picture of the stimuli as seen by the subject on the computer screen
Top Picture – Subject achieves the correct response. The clock hand stops at the top mark.
Bottom Picture – Subject deviates from the correct response. Deviations are counted.
ZAC:Zero
AccuracyConditioner
ZACSubject Diagnosed with Schizophrenia at Hopewell
Trial 1Trial 2
Trial 3
0
1
2
3
4
5
6
7
8
Immediate Stop Short Coast
Long Coast
Num
ber o
f Cor
rect
resp
onse
s
Number Correct Responses3 Trials (each trial is a summary of 12 responses)
Short Coast
Long Coast
Immediate Stop
ZAC:Correct Response
by Trials
The subject gradually improves ability to achieve a correct response:
The summary of the immediate stop begin at a score in the range of 6-7 and increase to a score in the range close to 8 (The immediate stop is a less demanding task)
The summary of the short coast begin at a score of “0” and increase sharply to a score in the range close to 3.
The summary of the long coast begin at a score of “0” and increase on a straight line to the range close to 3.
Trial 1Trial 2
Trial 3
0
10
20
30
40
50
60
70
80
90
100
Immediate Stop
Short Coast
Long Coast
Magnitude of Deviation from Correct Response 3 Trials (each trial is a summary of 12 responses)
Mag
nitu
de o
f Dev
iatio
n fro
m C
orre
ct R
espo
nses
Immediate Stop
Short Coast
Long Coast
ZACSubject Diagnosed with Schizophrenia at Hopewell
ZAC:Magnitude of
Deviation
The subject gradually improves ability to achieve a smaller magnitude of deviation:
The summary of the immediate stop begin at a score close to “0” and end at the same score (The immediate stop is a less demanding task).
The summary of the short coast begin at a score between 20-30 and decrease to a score close to “0”.
The summary of the long coast begin at a score between 80-90 and decrease to a score close to “0”.
Reaction TimeTask
The Reaction Time Task is a computerized cognitive training task (developed by Yehuda Ben-Yishay, Ph.D. at the NYU Rusk Institute, Working Approaches to Remediation of Cognitive Deficits in Brain Damaged Persons, 1983)
Variable Delay set of trials:A set of 12 Reaction Time TrialsA warning tone soundsThere is a variable delayA light changes color
Subject presses the space bar
-as soon as possibleSubject’s score is recorded
Reaction Time Coefficient of VariabilitySubjects Diagnosed with Schizophrenia OMH Grant
20 40 60 80 100 120 140 160
2040
6080
100
140
VD.CV.Pre
VD
.CV
.Pos
t
Variable Delay: Pre vs. Post CV's (%)(Signed Rank P=0.01)
p < 0.01
Reaction TimeTask
Subjects reduce the variability of their Reaction Times from Pretest to Post Test
The raw data are Reaction Time Scores between 0000 and 9999 msec. recorded in blocks of 12. Expected value is 170 msec.
The Average, Standard Deviation and Variance were computed for each block of Reaction Time responses.
The Coefficient of Variation is calculated by dividing the Standard Deviation by the Mean for each block of scores.
The Coefficient of Variability for the Pretest Measures were larger than the Post Test Measures.
Reaction Time Changes in Standard DeviationSubjects Diagnosed with Schizophrenia OMH Grant
Pre
Post
0
100
200
300
400
500
600
700
800
Sta
ndar
d D
evia
tion
in m
sec.
Reaction TimeTask
Subjects reduce the Standard Deviation of their Reaction Times Pretest vs. Post Test
The Average, Standard Deviation and Variance were computed for each block of Reaction Time responses.
Standard Deviations in Reaction Times on the Variable Delay Task, Pretest vs. Post Test
The result suggest that
individuals can:
Improve psychophysiological functioningEEG Record
As frontal lobe circuits are activated, hallucinations i.e. circular negative thoughts and memories are diminished by the process of reciprocal inhibition.
Improve information processing and functional behavior as measured by the Orientation Remediation Module
ZAC charts from 3 trials of 12 responses on a single day
Reaction Time - Variable Delay
The subjects are focused and are able to engage.
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