Skeletal System

Question 1

The 4 portions of the skeletal system:

Answer 1

vertebrae, ribs, skull, and limbs

Question 2

Skeletal system develops from which 2 cell layers?

Answer 2

Ectoderm and mesoderm

Question 3

Overview of bone and cartilage development: induction of neural crest is the interaction between ______ and _____ with signal emanating from the ectoderm and received by the _________, although some bidirectional signaling does occur.

Answer 3

The neural plate; ectoderm; neuroepithelium

Question 4

In the head and neck, mesoderm and neural crest cells contribute to _________ (embryonic connective tissue). This produces many cell types including:

Answer 4

Mesenchym; fibroblasts, osteoblasts, and chondroblasts

Question 5

2 principle ways of producing bone:

Answer 5

Intramembranous and endochondral

Question 6

Type of bone formation that is formed directly in a condensation of mesenchyme:

Answer 6

Intramembranous bone formation (flat bones)

Question 7

Type of bone formation in which a cartilage model condenses from mesenchyme first, then is replaced by bone:

Answer 7

Endochondral bone formation (limbs)

Question 8

Somites form from the ________ in a segmental manner.

Answer 8

Paraxial

Question 9

The _____ portion of the somite forms the sclerotome which surrounds the ______ and ______.

Answer 9

Ventral; neural tube; notochord

Question 10

The sclerotome is induced by the neural tube to produce:

Answer 10

Vertebrae and intervertebral discs.

Question 11

Mesenchyme, which is embryonic connective tissue, is largely _______ with some neural cell contribution.

Answer 11

Mesoderm (fibroblasts, osteoblasts, and chondroblasts)

Question 12

Somites form during the ___ week of gestation and are visible through the ________ ectoderm.

Answer 12

3rd; surface

Question 13

Somites establish segmental organization. The first 4 pairs from in the _______ region and contribute to what?

Answer 13

Occipital - contribute to development of occipital region of the skull, the bones that form around the nose, eyes, and inner ears

Question 14

The next 8 pairs form in the _______ region and contribute to:

Answer 14

Cervical; contribute to occipital bone and others form the cervical vertebrae

Question 15

The next 12 pairs form the _______ region and contribute to:

Answer 15

Thoracic; contribute to the thoracic vertebrae and bones of the thoracic wall

Question 16

The rest of the somites:

Answer 16

5 lumbar, 5 sacral, 3 coccygeal somites. There are 42-44 pairs of somites that form with 3-4 forming/day

Question 17

The sclerotome surrounding the neural tube forms the:

Answer 17

Vertebral arch

Question 18

The sclerotome surrounding the notochord forms the:

Answer 18

Centrum (primordium of the body) of the vertebrae and the intervertebral discs

Question 19

The ventral portion of sclerotome cells surround the:

Answer 19

Notochord (and form vertebral bodies)

Question 20

The dorsal portion of sclerotome cells surround the:

Answer 20

Neural tube (and form vertebral arches)

Question 21

In the body wall, sclerotome cells form:

Answer 21

Costal processes which form ribs in the thoracic region

Question 22

______ is the exclusive material for the vertebral column.

Answer 22

Sclerotome

Question 23

What is the role of the sonic hedgehog gene (shh)?

Answer 23

From the notochord and floor plate of the neural tube, signals sclerotomal differentiation and ventral migration from the somite.

Question 24

What is the role of the bone morphogenetic protein (bmp)?

Answer 24

It is expressed by the roof plate and Wnt signalling from the ectoderm induces dermomyotome differentation

Question 25

Each sclerotome is initially located segmentally but:

Answer 25

It forms intervertebral space for segmental spinal nerve to innervate appropriate myotome

Question 26

Cells in the caudal portion of the sclerotome fuse with rostrally located cells of caudal neighboring sclerotome to form:

Answer 26

Centrum of vertebrae (primordium of body). The notochord in this region degenerates ***

Question 27

What happens with formation of vertebrae from caudal portion of one sclerotome and cranial portion of the neighbor:

Answer 27

1. Causes the vertebrae to be located intersegmentally

2. Places intervertebral space to allow segmental spinal nerve to grow directly to innervate the appropriate myotome

Question 28

Arteries, which are first intersegmental, now lie:

Answer 28

On each sides of vertebral bodies

Question 29

The sclerotome cells in the middle (opposite each myotome) surround the notochord to form the:

Answer 29

Annulus fibrosus of the intervertebral disc. The notochord in this region forms the nucleus pulposis

Question 30

Mesenchyme continues to surround the spinal cord to form:

Answer 30

Vertebral arches

Question 31

Mesenchyme condenses in body wall to form:

Answer 31

Costal processes, which form ribs

Question 32

Cervical region development: the first 8 somites give rise to the 7 cervical vertebrae because:

Answer 32

The upper half of the first sclerotome contributes to the formation of the occipital bone. The caudal portion of the 8th cervical scelrotome contributes to T1 (7 cervical vertebrae, 8 cervical nerves)

Question 33

What is derived from a single somite?

Answer 33

Neural arch

Question 34

What receives contributions from two adjacent somites?

Answer 34

Vertebral body

Question 35

What forms in the mesenchyme in the 6th week?

Answer 35

Cartilage

Question 36

What begins in 7-8 weeks and continues for ~25 years?

Answer 36

Ossification of caritlage

Question 37

At the end of the embryonic period, there are:

Answer 37

3 primary ossification centers

Question 38

What are the 3 primary ossification centers at the end of the embryonic period?

Answer 38

Centrum and each half of the vertebral arch

Question 39

At birth, there are bony pieces connected by cartilaginous “joints” to allow for expansion of the spinal cord during growth between:

Answer 39

The arch and centrum (2) and between halves of the vertebral arch

Question 40

During the postnatal period:

Answer 40

The arches fuse to centrum by 3-6 years

Question 41

In puberty, the secondary ossification centers are present and they form:

Answer 41

Tip of spinous processes and transverse process, and annulus epiphysis of body

Question 42

Spina bifida:

Answer 42

Spina bifida occulta and spina bifida cystica. It is the failure of fusion of vertebral arch around the spinal cord. The involvement of spinal cord ranges from insignificant to severe. ***This can be prevented with folic acid supplementation

Question 43

Spina bifida occulta:

Answer 43

The most common, site is covered by skin and marked by a tuft of hair, may be insignificant but is prone to trauma

Question 44

Spina bifida cystica:

Answer 44

Involves herniation of meninges and/or spinal cord through defect in the vertebral arch. It is covered by skin or a thin membrane and may occur anywhere but is most common in the lumbar region (menigocele, meningomyelocele, rachischisis)

Question 45

SB cystica - meningocele:

Answer 45

Protrusion of meninges and CSF but NOT the spinal cord, repaired surgically

Question 46

SB cystica - meningomyelocele:

Answer 46

Protrusion of spinal cord and meninges into cyst. Symptoms/loss of function depends on location - usually lumbar

Question 47

SB cystica - Rachichisis:

Answer 47

Series of wide open vertebrae often associated with an open neural tube (myeloschisis). Results from the failure of neural folds to close. AKA large meningomyelocoele

Question 48

Hemivertebra:

Answer 48

Failure of one chondrification center to appear in centrum, producing only half a vertebral body - causes scoliosis

Question 49

Which of the following structures is not derived from the sclerotome portion of the somite?
A. vertebral body
B. vertebral arch
C. sacrum
D. notochord

Answer 49

Notochord

Question 50

Failure to fuse by which of the following structures leads to spina bifida occulta?
A. neural folds
B. neural arch processes
C. vertebral bodies
D. neural plates

Answer 50

Neural arch processes

Question 51

Which of the following is true about spina bifida occulta?
A. It leads to immediate death
B. It is usually found in the cervical region of the vertebral column
C. It usually produces no clinical symptoms
D. It involves the vertebral arch, meninges, and nerve tissue

Answer 51

It usually produces no clinical symptoms

Question 52

Ribs form by:

Answer 52

Endochondral ossification, only in the thoracic region (distal tips of the costal processes lengthen to form ribs) It grows laterally and ventrally to form all 12 thoracic ribs

Question 53

Ribs join with:

Answer 53

Vertebrae to form the costovertebral joint

Question 54

The sternum is a midline fusion of a pair of longitudinal mesenchymal condensations, ______, that form in the ventrolateral body wall. Failure of these bars to fuse may result in:

Answer 54

Sternal bars; cleft sternum

Question 55

Accessory ribs:

Answer 55

Inappropriate appearance of costal process in cervical or lumbar region. Usually asymptomatic but at the cervical level, may interfere with brachial plexus or subclavian artery

Question 56

When the sternal end of the rib is cleaved into two:

Answer 56

Bifurcated rib

Question 57

Skull: the brain has an inductive influence on skull formation from the surrounding:

Answer 57

Mesenchyme

Question 58

The components of the skull are:

Answer 58

Neurocranium and viscerocranium. Both have membranous parts formed by intramembranous ossification and cartilaginous parts formed by endochondral ossification

Question 59

The neurocranium:

Answer 59

Is a protective case for the brain

Question 60

The viscerocranium:

Answer 60

Is the skeleton of the face (neural crest cells)

Question 61

The membranous neurocranium forms:

Answer 61

Flat bones of the calvarium (frontal, parietal, and squamous part of temporal and occipital bones) It is bridged by dense CT (sutures) to allow molding of the skull around the growing brain

Question 62

There are six large membranes where sutures meet:

Answer 62

Fontanelles: anterior, posterior, anterolateral (sphenoidal), posterolateral (mastoid)

Question 63

Fontanelles are closed by:

Answer 63

The end of 2nd postnatal year and sutures ossify in adulthood

Question 64

Cartilaginous neurocranium (chondrocranium):

Answer 64

base of skull is formed by the fusion of cartilages

Question 65

Viscerocranium (skeleton of face):

Answer 65

Membranous viscerocranium and cartilaginous vescerocranium - derived from pharyngeal arch cartilage

Question 66

The neural crest cells form:

Answer 66

Majority of the facial and cranial skeleton, 1st 4 somites, paraxial mesodermal cells, and also contribute to facial and cranial skeleton

Question 67

Cranial formation defects:

Answer 67

Meningocele, meningoencephalocele, meningohydroencephalocele

Question 68

Cranial meningocele:

Answer 68

Meninges herniate through an opening in the skull

Question 69

Meningoencephalocele:

Answer 69

Brain tissue and meninges herniate through the defect

Question 70

Meningohydroencephalocele:

Answer 70

Meninges, brain, and portion of ventricle herniate through defect

Question 71

Acrania:

Answer 71

Failure of calvaria and prosencephalon (anencephaly or meroanencephaly) to form. It is the most common anomaly in stillborn infants and is thought to be due to failure of rostral neuropore to close, infants usually die within a few hours, may be diagnosed using ultrasound, fetoscopy, or radiography. Elevated alphafetoprotein in amniotic fluid and polyhydramnios - fetus may lack neural control to swallow amniotic fluid

Question 72

Craniosynostosis:

Answer 72

Premature closure of skull sutures producing unusual shapes of the skull, defect depends on which suture is affected

Question 73

Microcephaly:

Answer 73

Failure of brain to grow may reduce growth of skull via the inductive interaction

Question 74

Limb development: Limb buds appear during:

Answer 74

4th week, upper precedes lower by about 2 days

Question 75

Cells from the somatic layer of lateral plate mesoderm forms the:

Answer 75

Connective tissue and cartilage

Question 76

Cells migrating from the somites form:

Answer 76

Limb muscles

Question 77

Limb buds:

Answer 77

Form by endochondral ossification, cartilage replaces the mesenchyme by end of 6th week, the skeleton of the limbs is formed as a hyaline cartilage precursor ossifies

Question 78

Limb differentiates according to existing embryonic regions:

Answer 78

Apical ectodermal ridge (AER), the Zone of polarizing activity (ZPA), and the progress zone (PZ)

Question 79

AER acts as:

Answer 79

The organizing region for the proximodistal axis of the limb, secretes fibroblast growth factor

Question 80

ZPA organizes the limb along the:

Answer 80

Anterior-posterios axis in part through expression of Sonic hedgehog, influenced by fibroblast growth factor and retinoic acid

Question 81

Apical ectodermal ridge:

Answer 81

Thickened portion of the ectoderm at the tip of limb bud induces growth and differentiation of limb mesenchyme. It is found at the junction of dorsal and ventral halves of the limb bud, found in both upper and lower limbs, the integrity of the apical ectodermal ridge is essential for continued limb growth

Question 82

The mesenchyme becomes specified by _______ to polarize and to produce bone primordia in the appropriate sequence.

Answer 82

HOX genes

Question 83

Events of Signal Transduction and Limb Formation: Fibroblast growth factor is released by ____ and binds to FGF receptor (a receptor tyrosine kinase) and activates it.

Answer 83

AER

Question 84

Receptor tyrosine kinase (RTK) then phosphorylates:

Answer 84

Critical proteins, which causes mesenchymal cells to release retinoic acid

Question 85

Retinoic acid induces ___________ in target cells

Answer 85

HOX gene expression

Question 86

HOX Genes:

Answer 86

• Contain HomeOboX domain (highly conserved)
• 39 HOX genes distributed in 4 linkage groups
• HOX genes are expressed in a topographic pattern thought to underline the patterning of the limb skeleton

Question 87

Endochondral ossification of cartilage model:

Answer 87

Negins at the end of embryonic period, which increases demand on: Maternal calcium and phosphorus. This is the primary center in diaphysis

Question 88

Hematopoietic cells colonize bony spaces to form:

Answer 88

Bone marrow

Question 89

At birth, the center of presumptive limb bone:

Answer 89

Diaphysis - is ossified

Question 90

The ends (epiphysis):

Answer 90

Remains cartilaginous

Question 91

After primary ossification in diaphyses:

Answer 91

Blood vessels invade, deliver heatopoietic cells and colonize bony spaces to form marrow. Only immature osteoblast (OB) precursors invade fetal bone from the perichondrium. A fraction of these cells wrap around blood vessels in pericyte-like fashion

Question 92

Secondary ossification centers appear in:

Answer 92

Epiphysis after birth. A cartilaginous plate remains between the epiphyssi and the diaphysis. This is the epiphyseal plate, length increases via the plate and stops around 20 years onld

Question 93

Digital ray development:

Answer 93

Condense from mesenchyme and are sculpted via apoptosis, as the limb bud grows, indentations become apparent in the hand (or foot) plate. During the 7th-8th weeks, the digits of the hand become apparent. As the hand develops, webs that are present between the outgrowing digits regress by apoptosis

Question 94

Limb rotation during the 6-8th week: Upper limb is ______ rotation and lower limb is ______ rotation.

Answer 94

Upper limb - lateral rotation
Lower limb - medial roation
Innervation of lower limbs twists into a spiral

Question 95

Amelia:

Answer 95

Complete absence of a limb (thalidomide babies), absence of an apical ectodermal ridge

Question 96

Meromelia:

Answer 96

Partial absence of a limb, absence of an apical ectoderm ridge

Question 97

Clubfoot (talipes):

Answer 97

Deformity of foot involving ankle bone characterized by abnormal positioning of foot that prevents weight bearing, child tends to walk on ankle not foot

Question 98

Syndactyly:

Answer 98

Failure of mesenchyme to break down between digital rays resulting in fusion of the digits - it may involve only skin and connective tissue (cutaneous) or may be fusion of bones (osseous)

Question 99

Polydactyly:

Answer 99

Extra digits

Question 100

Which of the following statements is not correct about limb formation?
A. The apical ectodermal ridge induces mesodermal differentiation
B. Paraxial mesoderm forms bone and ligaments of limbs
C. Cell death contributes to digit formation
D. Hindlimb buds arise after forelimb buds

Answer 100

B. Paraxial mesoderm forms bone and ligaments of limbs

Question 101

Which describes the absence of limb development?

Answer 101

Amelia

Question 102

Which of the following cells are precursors to the bone (humerus) in the arm?
A. Neural crest cells
B. Sruface ectoderm
C. Paraxial mesoderm
D. Lateral plate mesoderm

Answer 102

Later plate mesoderm

Question 103

Achondroplasia:

Answer 103

Most common cause of dwarfism - shortness of stature, trunk is normal length but limbs are short because of disturbance in endochondral ossification at the epiphyseal plate. 1/10,000 births

Question 104

Hyperpituitarism:

Answer 104

Excessive secretion of growth hormone causes:
Rapid and excessive growth (giganticism) or enlargement of the visceral organs, soft tissues, bones of face, hands of feet (acromegaly). In this disease, the epiphyseal and diaphyseal centers fuse, preventing further elongation of the long bones

Question 105

Hypothyroidism and cretinism:

Answer 105

Deficiency in fetal thyroid hormone produces cretinism which is characterized by growth retardation, skeletal abnormalities, mental deficiency, auditory and neurological disorders