G. Hanten et al., Working memory and metacognition in sentence comprehension by severely head-injured children: A preliminary study, DEV NEUROPS, 16(3), 1999, pp. 393-414
We studied the effects of working memory (WM) load on a sentence anomaly ta
sk in 12 children (mean age at study = 10.3 years) who had sustained a seve
re closed-head injury (CHI) at least 10 months previously and 12 healthy ch
ildren (mean age = 8.92 years). Children were asked to judge whether each s
entence (32 anomalous and 32 correct under high and low WM load conditions)
was "good" or "not good," and to identify and repair the anomaly. Group an
d age effects were significant, and both variables interacted with sentence
type, reflecting greater sensitivity of anomalous than sensible sentences
to CHI and age. A Group x WM load interaction was found. WM deficit contrib
utes to impaired language processing after severe CHI and a metacognitive p
roblem is dissociable from generalized cognitive dysfunction.
Traumatic brain injury is one of the leading causes of morbidity in childre
n, with an estimated incidence of 200/100,000 (17,000) children annually (K
raus, 1995). Among the most disabling sequelae of pediatric traumatic brain
injury is cognitive impairment, including disabilities in executive functi
oning (e.g., planning, flexibility in problem solving allocation of resourc
es, inhibitory control), attention, and working memory (WM; Mateer, Kerns,
& Eso, 1996). Children who sustain severe closed-head injuries (CHIs) are l
ikely to display impairments in both verbal and nonverbal WM Levin et al. 1
988) as well as in semantic memory (Levin, Fletcher, Kufera, et al., 1996;
(Levin, Fletcher, Kusnerik, et al., 1996). Recent research has also linked
deficits in executive control functions as a consequence of head injury to
impairment in metacognitive abilities (Dennis, Barnes, Donnelley, Wilkinson
, & Humphreys, 1996).