Questões de Concurso Público Prefeitura de Cuité - PB 2026 para Professor de Inglês
Foram encontradas 15 questões
Perisylvian polymicrogyria (PMG) is a malformation of cortical development in which the cortex around the Sylvian fissures shows excessive small gyri and abnormal cortical lamination. This regional form of PMG is among the commonest patterns seen on MRI and may vary from focal posterior perisylvian involvement to extensive bilateral disease that (Magnetic Resonance Imaging) extends beyond the perisylvian region. Imaging typically demonstrates a thickened, irregular cortical ribbon with shallow sulci and an irregular gray–white matter junction, which is best characterized using high-resolution MRI.
Clinically, perisylvian PMG—especially when bilateral—is frequently associated with oromotor dysfunction (dysarthria, feeding and swallowing difficulties), language impairments, cognitive delay, and epilepsy; severity correlates with the extent and symmetry of cortical involvement. The condition is genetically and etiologically heterogeneous: cases may be sporadic, associated with prenatal injury (for example infectious or vascular insults), or linked to chromosomal and single-gene variants in some familial forms. Management focuses on symptomatic therapies (speech/feeding therapy, epilepsy control) and genetic/neurological evaluation when appropriate.
Source: Barkovich, A. J., Guerrini, R., Kuzniecky, R. I., Jackson, G. D., & Dobyns, W. B. (2010). Current concepts of polymicrogyria. Neuroradiology. Leventer, R. J., Jansen, A., Pilz, D. T., et al. (2010). Clinical and imaging heterogeneity of polymicrogyria. Brain.
Perisylvian polymicrogyria (PMG) is a malformation of cortical development in which the cortex around the Sylvian fissures shows excessive small gyri and abnormal cortical lamination. This regional form of PMG is among the commonest patterns seen on MRI and may vary from focal posterior perisylvian involvement to extensive bilateral disease that (Magnetic Resonance Imaging) extends beyond the perisylvian region. Imaging typically demonstrates a thickened, irregular cortical ribbon with shallow sulci and an irregular gray–white matter junction, which is best characterized using high-resolution MRI.
Clinically, perisylvian PMG—especially when bilateral—is frequently associated with oromotor dysfunction (dysarthria, feeding and swallowing difficulties), language impairments, cognitive delay, and epilepsy; severity correlates with the extent and symmetry of cortical involvement. The condition is genetically and etiologically heterogeneous: cases may be sporadic, associated with prenatal injury (for example infectious or vascular insults), or linked to chromosomal and single-gene variants in some familial forms. Management focuses on symptomatic therapies (speech/feeding therapy, epilepsy control) and genetic/neurological evaluation when appropriate.
Source: Barkovich, A. J., Guerrini, R., Kuzniecky, R. I., Jackson, G. D., & Dobyns, W. B. (2010). Current concepts of polymicrogyria. Neuroradiology. Leventer, R. J., Jansen, A., Pilz, D. T., et al. (2010). Clinical and imaging heterogeneity of polymicrogyria. Brain.
Perisylvian polymicrogyria (PMG) is a malformation of cortical development in which the cortex around the Sylvian fissures shows excessive small gyri and abnormal cortical lamination. This regional form of PMG is among the commonest patterns seen on MRI and may vary from focal posterior perisylvian involvement to extensive bilateral disease that (Magnetic Resonance Imaging) extends beyond the perisylvian region. Imaging typically demonstrates a thickened, irregular cortical ribbon with shallow sulci and an irregular gray–white matter junction, which is best characterized using high-resolution MRI.
Clinically, perisylvian PMG—especially when bilateral—is frequently associated with oromotor dysfunction (dysarthria, feeding and swallowing difficulties), language impairments, cognitive delay, and epilepsy; severity correlates with the extent and symmetry of cortical involvement. The condition is genetically and etiologically heterogeneous: cases may be sporadic, associated with prenatal injury (for example infectious or vascular insults), or linked to chromosomal and single-gene variants in some familial forms. Management focuses on symptomatic therapies (speech/feeding therapy, epilepsy control) and genetic/neurological evaluation when appropriate.
Source: Barkovich, A. J., Guerrini, R., Kuzniecky, R. I., Jackson, G. D., & Dobyns, W. B. (2010). Current concepts of polymicrogyria. Neuroradiology. Leventer, R. J., Jansen, A., Pilz, D. T., et al. (2010). Clinical and imaging heterogeneity of polymicrogyria. Brain.
According to the text, what is one key benefit of integrating digital technologies into English-language teaching?
Based on the information in the text, what can be inferred about the role of technology in English-language teaching?

Source: KIRKMAN, Rick; SCOTT, Jerry. Baby Blues. GoComics, 12 fev. 2024. Disponível em: www.gocomics.com. Acesso em: 10 mar. 2026.
What primarily motivates the man to suddenly run toward the garage at the end of the comic strip?

Source: KIRKMAN, Rick; SCOTT, Jerry. Baby Blues. GoComics, 12 fev. 2024. Disponível em: www.gocomics.com. Acesso em: 10 mar. 2026.

Source: GLASBERGEN, Randy. Education Cartoons. Glasbergen Cartoon Service, [s.d.]. Disponível em: https://www.glasbergen.com/education-cartoons/. Acesso em: 10 mar. 2026.
In the cartoon, the student tells Mr. Smith that she is an “Abstract-Sequential learner.” What is the primary source of humor in this interaction?
“Had I known you were coming,” she exclaimed, “I could have arranged something far more suitable!”
Target meaning: The theory is widely accepted; however, it still fails to explain several anomalies in the data.