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Grooved%20Pegboard%20Test
Grooved%20Pegboard%20Test
| Availability |
Please visit this website for more information about the instrument:Grooved Pegboard Test
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| Classification |
NeuroRehab Supplemental - Highly Recommended
Recommended for general use in disorders affecting the Central Nervous System (CNS). However, its results should be interpreted with care (or in some cases the test should not be used at all) with patients who have significant peripheral injuries affecting hand or finger movement, or long fingernails that affect ability to manipulate small objects, or severe visual disturbance that may invalidate the test for measuring CNS effects. In general, it is indicated for studies requiring a measure for eye-hand motor coordination.
It is not recommended for particular use in specific NINDS CDE Disorder(s), but rather is broadly applicable across many CNS disorders.
Supplemental: Epilepsy, Mitochondrial Disease (Mito), Multiple Sclerosis (MS), Stroke, and Traumatic Brain Injury (TBI)
Exploratory: Sport-Related Concussion (SRC) and Unruptured Cerebral Aneurysms and Subarachnoid Hemorrhage (SAH)
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| Short Description of Instrument |
Construct measured: Finger and manual dexterity, perceptual-motor speed
Generic vs. disease-specific: Generic
Intended respondent: Patients 20-85 years old
# of items: 25 pegs
# of subscales and names of sub-scales: N/A
# of items per sub-scale: N/A
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| Comments/Special Instructions |
Background: The Grooved Pegboard is a manipulative dexterity test. This unit consists of 25 holes with randomly positioned slots. Pegs, which have a key along one side, must be rotated to match the hole before they can be inserted. This test requires more complex visual-motor coordination than most pegboards.
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| Scoring and Psychometric Properties |
Scoring: For the right hand trial, the examiner demonstrates that the pegs are placed from participant's left to right, and from right to left for the left hand trial. The dominant hand trial is administered first, followed by the nondominant hand trial. Only one peg is to be picked up at a time and the participant should immediately be told if more than one is picked up. Also, only one hand is to be used. If necessary, the board should be held steady for the participant. In the case of severe motor impairment, the participant should attempt the task just to see if any of the pegs can be put in. Any factor that may affect the participant's performance should be noted, e.g., sore finger, bandage, etc.
Record, in seconds, the length of time required to perform each trial beginning when the participant starts the task until the last peg is put in, or the test is discontinued. A trial may be discontinued after five minutes. In such cases, the difficulty is described, and the scores are given "A" flags, indicating an incomplete test. The second score is the number of "drops" made during each trial. A "drop" is any unintentional drop of a peg from the time the participant attempts to pick up the peg from the tray until it is placed correctly in the hole. If one peg is turned with the hand not being evaluated, this is noted. If, however, this occurs more than once, the score is given a "D" flag for a nonstandard assessment. The third score is the number of pegs correctly placed in the holes for each trial. The score for each trial is the total time (in seconds) to correctly place the 25 pegs; if the participant is unable to complete the test in the allotted time, the score may be prorated.
The examiner encourages the participant to perform the task as quickly as possible, telling him or her to speed up if necessary. The pegs must be put in the board in the exact order and in the correct direction. The task is performed once with the dominant and then once with the non-dominant hand.
Psychometric Properties: The Grooved Pegboard had good test-retest reliability for both hands (0.91 and 0.85 for right and left hands, respectively). The Grooved Pegboard correlated with BOT at -0.50 to -0.63 and with Purdue Pegboard at -0.73 to -0.78.
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| Rationale/Justification |
Strengths: Quick to administer, good normative standards, appropriate for use across a broad range of CNS disorders.
Weaknesses: Requires the purchase of the pegboard and metal pegs (Lafayette Instrument Company, or Psychological Assessment Resources, Inc.), and may not be valid in patients with peripheral injuries to the upper extremities or significant visual disturbance. The Grooved Pegboard requires longer administration time than some other measures and is challenging for the youngest children and oldest adults.
Administration: Each trial typically takes 60-70 seconds; a trial may be discontinued if it takes more than 5 minutes.
TBI Rationale:
The GPT is a widely used test of fine motor skill that has proven sensitive to the effects of TBI and many other CNS disorders.
Epilepsy Rationale:
Motor speed may be assessed by a variety of procedures, including measures of reaction time (Thompson & Trimble, 1983) or more conventional measures of motor speed used in clinical neuropsychological evaluations (Grooved Pegboard, Finger Tapping). While reaction time measures are perhaps extremely pure motor speed measures and have been used in epilepsy research (Thompson & Trimble, 1983), they are not widely used clinically and have limited normative data. More conventional clinical measures have the advantage of familiarity and strong normative databases and are brief and direct in administration time and directions.
The Grooved Pegboard was selected due to its widespread use and its purported greater sensitivity to lateralized brain impairment than other motor speed measures such as finger tapping. Importantly, one of the reasons that finger tapping was not selected is that it has historically been given with various sets of instructions and the timing of each 10 second trial introduces significant measurement error. The Grooved Pegboard has been effectively used to characterize fine motor speed in multiple epilepsy studies.
Subarachnoid Hemorrhage (SAH) Rationale:
The GPT has been used in various SAH studies, including large scale prospective trials, such as the IHAST, and institutional databases, such as from the Columbia group. It is well-normed and reference values are available for the age range of SAH patients. For these reasons, the Swiss national standard of neuropsychological assessment after SAH includes the GPT.
NeuroRehab Rationale:
Supplemental-Highly Recommended measure because it has perceptual-motor, sustained attention/ effort, and processing speed components.
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| References |
Key Reference:
Matthews CG, Klove H. Instruction manual for the adult neuropsychology test battery. Madison, WI: University of Wisconsin Medical School; 1964.
Additional References:
Heaton A, Gooding A, Cherner M, Umlauf A, Franklin DR, Rivera Mindt M, Suarez P, Artiola I Fortuni L, Heaton RK, Marquine MJ. Demographically-adjusted norms for the Grooved Pegboard and Finger Tapping tests in Spanish-speaking adults: Results from the Neuropsychological Norms for the U.S.-Mexico Border Region in Spanish (NP-NUMBRS) Project. Clin Neuropsychol. 2021 Feb;35(2):396-418.
Heaton RK, Miller SW, Taylor MJ, Grant I. Revised Comprehensive Norms for an Expanded Halstead-Reitan Battery: Demographically Adjusted Neuropsychological Norms for African American and Caucasian Adults Profession Manual. Lutz, FL: Psychological Assessment Resources; 2004
Ruff RM, Parker SB. Gender- and age-specific changes in motor speed and eye-hand coordination in adults: normative values for the Finger Tapping and Grooved Pegboard Tests. Percept Mot Skills. 1993 Jun;76(3 Pt 2):1219-30.
Stienen MN, Zweifel-Zehnder AE, Chicherio M, Studerus-Germann A, Blaesi S, Rossi S, Gutbrod K, Schmid N, Beaud V, Mondadori C, Brugger P, Sacco L, Mueri R, Hildebrandt G, Keller E, Regli L, Fandino J, Mariani L, Raabe A, Daniel RT, Reinert M, Robert R, Schatlo B, Bijlenga P, Schaller K, Monsch AU, on behalf of the Swiss SOS study group. Neuropsychological testing after aneurysmal subarachnoid hemorrhage. Swiss Medical Forum. 2015;15(48):1122-1127.
Thompson PJ, Trimble MR. Anticonvulsant serum levels: relationship to impairments of cognitive functioning. J Neurol Neurosurg Psychiatry. 1983 Mar;46(3):227-33.
Thompson-Butel AG, Lin GG, Shiner CT, McNulty PA. Two common tests of dexterity can stratify upper limb motor function after stroke. Neurorehabil Neural Repair. 2014 Oct;28(8):788-96.
Wang YC, Magasi SR, Bohannon RW, Reuben DB, McCreath HE, Bubela DJ, Gershon RC, Rymer WZ. Assessing dexterity function: a comparison of two alternatives for the NIH Toolbox. J Hand Ther. 2011 Oct-Dec;24(4):313-20; quiz 321.
Zweifel-Zehnder AE, Stienen MN, Chicherio C, Studerus-Germann A, Blaesi S, Rossi S, Gutbrod K, Schmid N, Beaud V, Mondadori C, Brugger P, Sacco L, Mueri R, Hildebrandt G, Fournier JY, Keller E, Regli L, Fandino J, Mariani L, Raabe A, Daniel RT, Reinert M, Robert T, Schatlo B, Bijlenga P, Schaller K, Monsch AU; Swiss SOS study group. Call for uniform neuropsychological assessment after aneurysmal subarachnoid hemorrhage: Swiss recommendations. Acta Neurochir (Wien). 2015 Sep;157(9):1449-58.
Document last updated March 2024
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