MIDTERM- CHAP 3

Question 1

Referral

Answer 1

Advise parents and professionals on whether a child needs a speech assessment.

Question 2

Assessment

Answer 2

Choose appropriate tools based on the child’s age.

Question 3

Analysis

Answer 3

Evaluate the speech sample to determine if the child’s speech is age-appropriate.

Question 4

Diagnosis

Answer 4

Identify if the child has a delay or disorder that requires intervention.

Question 5

Selecting Intervention Targets:

Answer 5

Traditional Approach: Focus on early developing sounds that the child is misproducing.

Complexity Approach: Target later-developing sounds to encourage broader changes in speech.

Question 6

Intervention

Answer 6

Tailor teaching methods and feedback to the child’s age and ensure they meet their goals.

Question 7

Dismissal/Discharge:

Answer 7

Decide if the child’s speech is normal for their age and if therapy should end due to lack of progress or motivation.

Question 8

Traditional models: Behaviorist Models

Answer 8

Consequence can be described either as positive or negative, reinforcement or punishment

Children master speech and language acquisition more quickly than they could if they had to depend on stimulus-response mechanisms to learn each element

Speech is too complex to be described just by reinforcement

Question 9

Linguistic models: Generative phonology

Answer 9

Theory of the sound structure of human languages developed by Noam Chomsky

Phonological rules map underlying representations onto surface pronunciations.

Phonological descriptions depend on information from other linguistic levels.

Generative phonological rules can explain substitutions, distortions, omissions, additions, metathesis, and coalescence

This has not had a broad application to the field of speech language pathology but is thought to have laid the groundwork for phonological-based clinical analysis.

Question 10

Linguistic models: Natural phonology

Answer 10

Phonological model that has had the greatest impact on the field of speech-language pathology

Defined by Stampe: a phonological process is a “mental operation that applies in speech to substitute for a class of sounds or sound sequences presenting a common difficulty to the speech capacity of the individual, an alternative class identical but lacking the difficult property” (1979, p. 1

For example, children have the adult form of a word, such as tree /tri/; However, natural processes such as cluster reduction are applied because the child (at least temporarily) has some limitation to produce a particular sound or group of sounds.

The surface form (child’s production) would most likely be [ti]

Limitations

Whether the process labels being applied actually represent mental operations going on inside the head of the child

Does capture the pattern, hence the term phonological pattern rather than phonological process

Question 11

Linguistic models: Non-linear phonology

Answer 11

Production of speech involves more than just production of a sequence of phonemes; it considers many elements (features, segments, syllables, feet, words, and phrases) both independently and in relation to one another:

Concept of links between the segmental and suprasegmental tiers and prosodic variables that highlight the interaction between speech sounds and other speech-language domains

The view that development is progressive or additive

Nonlinear intervention goals focus on utilizing established sounds in new syllable shapes and new sounds in established syllable shapes

Question 12

Linguistic models: Optimality theory

Answer 12

Markedness constraints—limitations on what sounds and features can be produced

Faithfulness constraints—sounds and features that must be preserve

There are several stages of development within this model, during which the child increases their use of adultlike forms and decreases their use of constraints

Question 13

Linguistic models: Sonority Theory

Answer 13

Quality of relative loudness within a speech sound

Sounds that are produced with more loudness are produced with a more open vocal tract, such as vowels and glides are sonorous

Sounds with more constriction of the vocal tract and less loudness are less sonorous, such as stops and fricatives

Researchers have found that children who reduced word initial consonant clusters left the most sonorous consonant and deleted the least sonorous

Implications for target selection and phonological awareness

Question 14

Psycholinguistic Models

Answer 14

Consider the input of speech that a child hears and the output of speech that a child produces.

There have been debates as to whether the lexicon is best represented by

A single black box or lexicon, which would contain information relating to both the child’s perception and production of speech sounds

A two-lexicon model allows for the child’s perception and or production of the speech sound to differ from the adult form

Question 15

Overall sequence of speech sound acquisition

Answer 15

Laying the foundation for speech (birth-1)

Transitioning the words to speech (1-2)

The growth of the inventory (2-5)

Mastery of speech and literacy (5+)

Question 16

Anatomical structures supporting speech acquisition

Answer 16

Oral structure development begins in the fetus, nearing adult configuration by age 6 and completing by18

Significant growth occurs in the brain, especially in Broca’s and Wernicke’s areas, with a rate of 0.4 to 1.5 mm per year

Rapid myelination in the first year is crucial for motor movements, including speech

Question 17

Anatomical functions supporting speech acquisition

Answer 17

Mastery of lip, jaw, and tongue movements starts in infancy and continues into adolescence

Jaw movements mature before lip movements; young children’s jaw movements are similar to adults, but lip movements vary

Tongue control for speech matures until around age 11, with significant refinement during

The newborn vocal tract is smaller and resembles a single tube for coordinating breathing, sucking, and swallowing; it develops into two tubes in adults

Question 18

Stark’s Typology of Infant Phonations

Level 1: Reflexive (0–2 months)

Answer 18

Includes vegetative sounds, sustained crying, and quasi-resonant nuclei (low-pitched, muffled sounds).

Common vocalizations include fussing and crying.

Crying duration decreases from 90 minutes (1–3 months) to 60-65 minutes (4–9 months), then rises again to 86 minutes (10–12 months).

Question 19

Stark’s Typology of Infant Phonations: Level 2 Control of Phonation (1–4 months)

Answer 19

Introduction of fully resonant nuclei (vowel-like sounds with wide frequency range).

Emergence of closants (consonant-like segments) and vocants (vowel-like segments).

Question 20

Stark’s Typology of Infant Phonations: Level 3: Expansion (3–8 months)

Answer 20

Production of isolated vowels, vowel glide combinations, ingressive sounds, squeals, and marginal babbling.

Marginal babbling includes a mix of closant and vocant segments.

Question 21

Stark’s Typology of Infant Phonations: Level 4: Basic Canonical Syllables (5–10 months)

Answer 21

Production of canonical babbling, single consonant-vowel syllables, whispered sounds, disyllables (CVCV), and CV-C combinations.

This stage is critical for transitioning to more complex vocalizations.

Question 21

Non-Speechlike Vocalizations

Answer 21

Vegetative sounds (burps, hiccups).

Fixed vocal signals (crying, laughing, groaning).

Question 22

Speechlike Vocalizations (Protophones)

Answer 22

Quasi-vowels (0–2 months): Vowel-like sounds without articulator shaping.

Primitive Articulation Stage (2–3 months): Vowel-like sounds shaped by articulators.

Expansion Stage (3–6 months): Marginal babbling, combining consonant-like and vowel-like sounds.

Canonical Babbling (6+ months): Well-formed syllables, e.g., [baba].

Question 22

Stark’s Typology of Infant Phonations: Level 5: Advanced Forms (9–18 months)

Answer 22

Involves complex syllables (e.g., VC, CCV, CCVC), jargon, and diphthongs.

Question 23

Defining True Words:

Answer 23

Have a phonetic relationship to an adult word (i.e., sound somewhat similar).

Be used consistently in the presence of a specific situation or object.

Question 24

Distinction from Babbling and Phonetically Consistent Forms (PCFs):

Answer 24

Babbling (e.g., “mama” without the mother present) does not qualify as a true word.

PCFs (e.g., “taka” for dog) are not considered true words if they lack a phonetic relationship to adult words.

Question 25

Phonological Processes:

Answer 25

Common error patterns made by children while learning speech sounds.

Question 26

Phonemic Awareness

Answer 26

Understanding and manipulating individual phonemes.

Question 27

Onset-Rime Awareness

Answer 27

Recognizing the onset (initial consonant sound) and rime (vowel and following sounds) of syllables.

Question 28

Syllable Awareness:

Answer 28

Awareness of syllable structures within words.

Question 29

Detection

Answer 29

Identifying sounds or syllables within words.

Question 30

Deletion

Answer 30

Removing sounds or syllables from words.

Question 31

Blending

Answer 31

Combining separate phonemes or syllables to form words.

Example: Blending syllables: com-put-er = computer; Blending phonemes: f-i-sh = fish.

Question 32

Factors influencing typical acquisition of speech

Answer 32

Sex assignment at birth (females often acquire speech faster than males)

Socioeconomic status (children from higher SES tend to acquire speech and phonological awareness skills earlier than children with low SES)

Language development (as language ability increases, so do production abilities, thus, children with good language will likely have better speech perception skills than children with poor language)

Individual variability (life experiences; environment where they are raised, where they went on vacation, amount of family exposure)