g.g. fluet, a.s. merians, q. qiu, s. saleh, v. ruano, a.r. delmonico & s.v. adamovich
Embed Size (px)
TRANSCRIPT
G.G. Fluet , A.S. Merians, Q. Qiu, S. Saleh, V. Ruano, A.R. Delmonico & S.V. Adamovich
Standardized vs. Customized Interventions
Studies examining robotically facilitated and virtually simulated rehabilitation have produced outcomes equivalent to optimized protocols of traditionally presented rehabilitation
These studies utilize standardized protocols applied to large groups.
Kwakkel 2007, Mehrholz 2008, Lo 2009, Laver 2012, Saposnik 2012
Fluet-Merians-Adamovich (Unpublished)
Standardized vs. Customized Interventions
Multiple authors cite the flexibility of robotic systems as one of their major strengths.
Adamovich 2009, Brewer 2009
HypothesisCould studies of robotic rehabilitation that utilize a highly standardized protocol be underestimating the potential effectiveness of this modality?
Customized InterventionsTask Parameter Adaptation
Parameters for successful completion of a task are modified as the intervention is performed in an attempt to maintain the highest training intensity possible
Merians 2011, Cameriao 2011 & 2012
Objectives
Present an intervention utilizing robots integrated with virtual environments designed to address the specific impairments demonstrated by an individual subject.
Discuss modifications of the intervention made based on the subjects responses to the intervention
Subject
Uses a power wheelchair for mobility but is able to walk up to 150 feet with contact guard using a cane.
Performs self care with 25-50% assistance
Performs PT / OT 2-3 hours biweekly x 4 years in his home
PM is an 85 year-old gentleman with left hemiparesis secondary to an intracerebral hemorrhage five years prior to his examination.
Case Timeline
Intervention
Three ninety minute sessions / week
4 weeks
Six simulated activities
Impairment chosen to address
Initial configuration
Modified configuration based on response
Reach TouchSynergistic extension of his trunk during shoulder flexion(Arm elevation AROM)
Stable TrunkWorkspace is increased dailySimulation recalibrated weekly
Cup ReachSynergistic extension of his trunk during shoulder flexion(coordination of trunk flexion and arm elevation)
Encouraged a forward trunk flexion, then reach strategy
Workspace is increased dailySimulation recalibrated weekly
Helped subject challenge himself during final week calibration
Virtual Piano TrainerInability to flex fingers individually
Poor response to first weekAdded CyberGrasp 100% of second week5 Minutes of CybeGrasp third weekNo CyberGrasp final week
Hammer Task Finger Extension (dynamic)Difficulty stabilizing hand while manipulating objects
Increased or decreased target size based on success or failure of preceding rep
-0.11 -0.1 -0.09 -0.08 -0.07 -0.06 -0.05 -0.04 -0.03 -0.02-0.03
-0.02
-0.01
0
-0.14
-0.12
-0.1
-0.08
-0.06
-0.04
-0.02
0
0.02
0.04
-0.1 -0.08 -0.06 -0.04 -0.02 0 0.020
0.05
0.1
0.15
-0.14
-0.12
-0.1
-0.08
-0.06
-0.04
-0.02
0
0.02
0.04
x
1.018 cm/sec 0.626 cm/secx
z
x
y
z
Space PongDifficulty controlling the aperture of his hand
100% Gain
30% Gain
Small response to first week of training
Scaled gain downWeaned back over balance of
intervention
Hammer Task Pronation (fixed)Difficulty performing activities requiring pronation of his hand
Poor initial responseScaled gain up
No consistent response
Clinical OutcomesImpairment Level
Clinical Outcomes Activity Level
Clinical Outcomes Activity Level
Synergistic trunk extension during arm elevation
OutcomesKinematics during untrained activity
start
object
1
2
3
target
OutcomesParticipation Level
24 Hour Activity Monitoring
DiscussionNo adverse responses
Robust improvements
Activity level
Participation level
Despite……..
chronic stroke
advanced age
multiple co- morbidities
extensive rehab history
Customized
Six activities chosen from a suite of 18
Modified
2 original configurations4 modified configurations
Discussion
Correlation between improvements in simulation performance and functional improvements Rohafza 2012
Resulting in improved performance in 5/6 simulations
ConclusionExpansion of the examination of robotically
facilitated / virtually simulated rehabilitation to include:
Customized interventions
Modified based on patient performance
Leverage a larger percentage of the advantages unique to these training modalities ………..
Thank you !!
University of Medicine and Dentistry of New Jersey
New Jersey Institute of TechnologyNJIT
NJIT-RAVR Lab
Rehab Team
CollaboratorsAlma S. Merians PT, PhDGerard G. Fluet DPT, PhD
Soha Saleh PhDQinyin Qiu PhDIan La Fond MS
Sergei Adamovich PhD
Andrea R. Delmonico OTR-LVivianna Ruano PT
Approval by the Institutional Review Boards of UMDNJ and NJIT Supported by NIH Grant RO1 HD58301