Final Exam

Question 1

When does the skeletal system of the embryo begin to form?

Answer 1

At the end of the 4th week of development

Question 2

Somites divide into what two parts?

Answer 2

Dermomyotome (dermatome and myotome) and Slcerotome

Question 3

The skeletal system begins development with what part of the somites?

Answer 3

The ventral medial somite.

Question 4

Somites develop specifically from what embryonic layer?

Answer 4

Paraxial mesoderm

Question 5

In general, what embryonic layer gives rise to the skeletal system?

Answer 5

Mesoderm

Question 6

The dividing somite is made up of mesodermal cells, which give rise to what?

Answer 6

Mesenchyme

Question 7

This structure is a meshwork of loosely organized embryonic connective tissue. Bone and cartilage develop from it.

Answer 7

Mesenchyme

Question 8

What are the two types of cartilage bone development?

Answer 8

Intercartilagenous and endochondral ossification

Question 9

The cartilage stage in bones can grow rapidly to match what?

Answer 9

The growth of the fetus

Question 10

When does cartilage begin to form?

Answer 10

The middle of the 5th week

Question 11

These are mesenchymal cells that proliferate, enlarge, and become round. They also produce collagenous fibers and matrix.

Answer 11

Chondroblasts

Question 12

Chondroblasts form what type of centers?

Answer 12

Chondrification centers

Question 13

What does internal growth of cartilage result from?

Answer 13

Division of cartilage cells and from the production of matrix

Question 14

The growth of cartilage follows the growth of what other type of tissue?

Answer 14

Bone tissue

Question 15

During what week of development do mesenchyme cells condense to form chondrification centers?

Answer 15

8th week

Question 16

What type of cells lay down new bone tissue?

Answer 16

Osteoblasts

Question 17

When osteoblasts become trapped within bone tissue what type of cells do they develop into?

Answer 17

Osteocytes

Question 18

Condensation of mesenchyme will give rise to what?

Answer 18

The formation of bone models

Question 19

Describe intramembranous ossification?

Answer 19

• Mesenchyme condenses and vascularizes
• Cells differentiate into-osteoblasts, which deposit osteoid tissue to form ossification centers
• Bone matrix is deposited to form lamellae, which develop around blood vessels to form osteons
• The lamellae then grows and thickens to become trabeculae

Question 20

What are the two types of development for the skull?

Answer 20

Neurocranium and splanchinocranium

Question 21

Where does the neurocranium develop from?

Answer 21

The mesenchyme surrounding the brain

Question 22

What are the two types of neurocranium development?

Answer 22

Neurochondrocranium and neuromembranocranium

Question 23

This type of neurocranium development involves the cartilaginous base of the neurocranium and the skull and is followed by endochondral ossification, which begins around 8 weeks.

Answer 23

Neurochondrocranium

Question 24

This type of neurocranium development involves the sides and the roof of the neurocranium and is formed by intramembranous ossification.

Answer 24

Neuromembranocranium

Question 25

During fetal life, bones are separated by connective tissue membranes known as what?

Answer 25

Sutures

Question 26

At the angle of bones within the skull of the developing fetus, large fibrous areas are formed. The membranes covering these spaces are known as what?

Answer 26

Fontanelles

Question 27

What are the names of the fontanelles of a developing child?

Answer 27

Anterior, posterior, anterolateral, and posterolateral fontanelles

Question 28

When does the anterior fontanelle close?

Answer 28

It closes by the end of the second year.

Question 29

What is the largest fontanelle in a developing child?

Answer 29

Anterior fontanelle

Question 30

When does the anterolateral fontanelle close?

Answer 30

At two to three months

Question 31

When does the posterolateral fontanelle close?

Answer 31

At the end of the first year

Question 32

Due to the softness, fontanelles and sutures of the fetal skull what can undergo changes during the birth process?

Answer 32

Calvaria or skull cap

Question 33

This type of splanchnocranium undergoes endochondral ossification and is composed of replacing bone.

Answer 33

Splanchnochondrocranium

Question 34

The cartilaginous skeleton develops from what?

Answer 34

Visceral, pharyngeal, or branchial arches

Question 35

How many visceral, pharyngeal, or branchial arches do humans have?

Answer 35

We start with 6 but the 5th disappears in 1.5 days.

Question 36

What does the first visceral arch form?

Answer 36

Palate, maxilla, meckel’s cartilage, incus, and malleus. Muscles of mastication

Question 37

What does the second visceral arch form?

Answer 37

Stapes, cranial half of the hyoid, and lesser horn. Facial muscles

Question 38

What does the third visceral arch form?

Answer 38

The caudal half of the hyoid and the greater horn. Stylo-pharyngeal muscle

Question 39

What do the 4th and 6th visceral arches form?

Answer 39

Cartilages of the larynx. No ossification occurs here. Laryngeal muscles, pharyngeal muscles, palate muscles, part of the SCM, and part of the trapezius

Question 40

The vertebral column develops from what?

Answer 40

Somite mesenchyme sclerotome

Question 41

When does chondrification of the vertebrae occur?

Answer 41

7th week in the cranial vertebrae and follows to lower levels

Question 42

Vertebral arches do not unite to form spinous processes until what time?

Answer 42

The 3rd month after birth

Question 43

When does ossification of the vertebrae occur?

Answer 43

Begins at 9 weeks

Question 44

How many ossification centers are there in the vertebrae? Where are they located?

Answer 44

There are three. One in the centrum and one in each half of the vertebral arch

Question 45

How many ossification centers are present on the vertebrae during puberty? Where are they located?

Answer 45

There are 5. One at the tip of the spinous process, one at each tip of the transverse process, and two on the rim of the epiphyseal center

Question 46

Where do the ribs develop from?

Answer 46

The mesenchyme and cartilage of the costal processes

Question 47

How many ossification centers does each rib have? When does ossification occur?

Answer 47

One. Occurs in the 9th week

Question 48

This bone begins as intramembranous bone, develops growth cartilages at both ends, and ossifies before any other bone.

Answer 48

Clavicle

Question 49

This condition is more commonly known as dwarfism, autosomal dominant, and is characterized by slow growth of cartilage and bone ossification resulting in a small stature, megalocephaly (large face, head), and skeletal issues.

Answer 49

Achondroplasia syndrome

Question 50

This is a mild form of achondroplasia characterized by small stature and short bowed limbs/lumbar lordosis.

Answer 50

Hypochondroplasia syndrome

Question 51

This condition is characterized by the storage of lipids in the nervous system and an accumulation of mucopolysaccharides in the mesenchyme.

Answer 51

Mucopolysaccaridosis (Hurlers and Hunters)

Question 52

This condition is characterized by clavicle agenesis, skull disorders, and jaw disorders.

Answer 52

Cleidocranial dysostosis

Question 53

This type of spina bifida is limited to the skeletal components.

Answer 53

Occulta

Question 54

This type of spina bifida occurs in the meninges (meningocoele) and the meninges and spinal cord (meningomyelocoele).

Answer 54

Cystica

Question 55

This condition is characterized by abnormal curvature of the spine (numerical variations, morphological variations, or both)

Answer 55

Congenital scoliosis

Question 56

This condition is characterized by the lack of ossification of the skull at the time of birth.

Answer 56

Cranial dysostosis

Question 57

This is characterized by a premature closure of the sutures of the skull.

Answer 57

Craniostenosis

Question 58

This condition is characterized by all of the sutures closing prematurely and symmetrically.

Answer 58

Oxycephaly

Question 59

This condition is characterized by all of the sutures closing asymmetrically.

Answer 59

Plagiocephaly

Question 60

This condition is characterized by the sagittal sutures closing prematurely.

Answer 60

Scaphocephaly

Question 61

This condition is characterized by the coronal suture closing prematurely.

Answer 61

Acrocephaly (brachycephaly)

Question 62

This condition is characterized by acrocephaly (premature closure of the coronal sutures) and syndactyly (fusion of the digits).

Answer 62

Aperts

Question 63

This condition characterized by scaphocephaly (premature closure of the sagittal sutures) and no syndactyly (fusion of the digits)

Answer 63

Crouson’s

Question 64

This condition is characterized by a complete absence of limbs and is most often caused by environmental factors

Answer 64

Amelia

Question 65

This condition is characterized by an absence or reduction of the proximal part of the limbs and is most often caused by environmental factors.

Answer 65

Phocomelia

Question 66

This condition is characterized by an absence or reduction of the distal part of the limbs and is most often caused by environmental factors.

Answer 66

Meromelia

Question 67

This condition is characterized by hypoplasia and fusion of the lower limbs and occurs spontaneously.

Answer 67

Sympodia (monopodia)

Question 68

This condition is characterized by a duplication of the distal parts of the limbs and is autosomal dominant.

Answer 68

Dichiria

Question 69

This condition is characterized by the presence of extra digits and is autosomal dominant.

Answer 69

Polydactyly

Question 70

This condition is characterized by the fusion of digits and is autosomal dominant.

Answer 70

Syndactyly

Question 71

What embryonic layer does the muscular system develop from?

Answer 71

Mesoderm

Question 72

What are the divisions of skeletal muscle?

Answer 72

Epimere/epiaxial (small dorsal division) and hypomere/hypaxial (large ventral division

Question 73

These form the extensor muscles of the vertebral column and the dorsal primay rami.

Answer 73

Epimers

Question 74

These give rise to the muscles of the limbs and body wall, as well as the ventral primary rami.

Answer 74

Hypomers

Question 75

What is the normal direction that muscles develop in?

Answer 75

Craniocaudal direction

Question 76

What are some examples of changes in muscle direction?

Answer 76

• Migration of a muscle (latissimus dorsi)
• Fusion of successive myotomes (rectus abdominus)
• Longitudinal splitting of the myotome (sternohyoid)
• Tangential splitting of the myotomes (oblique and transverse muscles of the abdomen)
• Degeneration of myotomes- forms ligaments (tensor fascia lata)

Question 77

What is the innervation of the 1st visceral arch?

Answer 77

Trigeminal nerve (V)

Question 78

What is the innervation of the 2nd visceral arch?

Answer 78

Facial nerve (VII)

Question 79

What is the innervation of the 3rd visceral arch?

Answer 79

Glossopharyngeal (IX)

Question 80

What is the innervation of the 4th and 6th visceral arches?

Answer 80

Vagus (X) and hypoglossal (XII)

Question 81

What are limb buds made from?

Answer 81

Muscular mesenchyme

Question 82

Where is cardiac muscle derived from?

Answer 82

Splanchnic mesoderm

Question 83

Do most muscle defects affect one or both sides?

Answer 83

Most muscle defects are unilateral

Question 84

What is the most common muscle defect?

Answer 84

Pectoralis

Question 85

What muscle defect is always bilateral?

Answer 85

Abdominal muscles

Question 86

This condition is characterized by a distended abdomen from aplasia of the abdominal musculature.

Answer 86

Prune belly

Question 87

Below umbilicus what is the abdominal muscle that is most frequently and bilaterally absent?

Answer 87

Transverse abominus is the most frequent followed by rectus abdominus

Question 88

Above umbilicus what is the abdominal muscle that is most frequently and bilaterally absent?

Answer 88

Internal oblique is the most frequent followed by external oblique and rectus abdominus

Question 89

This is a condition resulting from damage to the sternocleidomastoid (SCM) during development (position in the uterus or muscle development). It affects both sides, is autosomal dominant, and in the congenital form the SCM becomes fibrous.

Answer 89

Torticollis

Question 90

What body system does the urinary system develop from?

Answer 90

Reproductive system

Question 91

The urinary and genital system both develop from what specific embryonic layer?

Answer 91

Intermediate mesoderm

Question 92

During development of the urogenital system a longitudinal ridge develops from the intermediate mass along the 7th to 28th somite level and extends along the dorsal body wall of the embryo. The longitudinal elevation of the mesoderm is known as what?

Answer 92

Urogenital ridge

Question 93

During development of the urogenital system, along the 7th to 14th level of somites there are groups of segments sitting beside them. These segments are known as what?

Answer 93

Nephrotomes

Question 94

What are the three distinct types of kidneys?

Answer 94

Pronephroi (1st), mesonephroi (2nd), and metanephroi (3rd)

Question 95

When does development of the kidneys begin?

Answer 95

3rd week

Question 96

Out of the three kidneys, which becomes the permanent set?

Answer 96

The third set or metanephroi

Question 97

This is the first set of kidneys, are rudimentary, and have very little function. It develops from the 7th to 10th somite level and is referred to as the head of the kidney and degenerates around the 4th week.

Answer 97

Pronephroi

Question 98

This is the second set of kidneys, are well developed, and function briefly. They are located at the 10-26th somite level, have 38 pairs of tubules, and have closed tubules.

Answer 98

Mesonephroi

Question 99

Some of the mesonephric tubules and duct remain in the male to form what? What happens in females?

Answer 99

Genital duct system. In females none of these tubules are retained

Question 100

This is the third set of kidneys and eventually become our permanent kidneys. They develop in the 5th week, located lateral to the mesonephric duct (26-28th somite), and has a duct system.

Answer 100

Metanephroi

Question 101

What is the flat end of the bud of the metanephroi called?

Answer 101

Renal pelvis

Question 102

What develops from the renal pelvis?

Answer 102

Major or minor calyces. Branching of the minor calyces produce the collecting duct system of the kidneys

Question 103

Each kidney has approximately how many nephrons?

Answer 103

2 million

Question 104

Are the kidneys in the fetus lobulated or smooth?

Answer 104

Lobulated, but smooth later on in development

Question 105

Where are developing kidneys initially located? Where do they migrate to as a result of growth?

Answer 105

They are initially located in the pelvic area and then migrate to the abdomen as a result of body growth

Question 106

When does the urinary bladder develop?

Answer 106

7th week of development

Question 107

What structure is continuous with the bladder?

Answer 107

Allantosis

Question 108

What is the allantosis known as in the fetus? In an adult?

Answer 108

In the fetus it is known as the urachus, but in the adult it becomes vestigial and is known as the median umbilical ligament.

Question 109

This congenital malformation of the kidneys can be both bilateral or unilateral. It is characterized by the absence of a kidney.

Answer 109

Renal Agenesis. Potter Syndrome is another name for the bilateral condition

Question 110

This congenital malformation of the kidneys is characterized by an incomplete development of the kidneys. Can be both unilateral or bilateral.

Answer 110

Renal hypoplasia

Question 111

This type of condition is characterized by symmetrically enlarged kidneys.

Answer 111

Congenital cystic kidneys

Question 112

How many types of congential cystic kidney are there?

Answer 112

5 types

Question 113

This type of congenital cystic kidney is found in infants.

Answer 113

Type 1

Question 114

This type of congenital cystic kidney is unilateral, the kidneys are variable in size and shape, and the cysts grow larger with age.

Answer 114

Type 2

Question 115

This type of congenital cystic kidney contains normal and abnormal tissue. Both kidneys are involved and it is often found in trisomy individuals.

Answer 115

Type 3

Question 116

This type of congenital cystic kidney can result in urethral obstruction due to the accumulation of cysts in the collecting tubules. Requires mild surgery to repair.

Answer 116

Type 4

Question 117

This type of congenital cystic kidney manifests itself in adults and can cause low back pain and kidney infections. Can result in death in the 50s if not treated.

Answer 117

Type 5

Question 118

Horseshoe and donut kidneys are common in individuals with what conditions?

Answer 118

Trisomies or turner’s

Question 119

This condition is characterized by renal tumors in children that originate from the mesoderm. Symptoms include abnormal facial features and vision/urinary/ambulatory problems.

Answer 119

Wilm’s tumor

Question 120

The reproductive system develops at what time?

Answer 120

5th-6th week (indifferent stage: sex cannot be determined)

Question 121

When can sex identification occur?

Answer 121

8th week

Question 122

What types of tissue do the gonads develop from?

Answer 122

Coelomic epithelium, inner mesenchyme tissue, and primordial germ cells

Question 123

This is the precursor to the gonads.

Answer 123

Genital ridge

Question 124

What is the genital ridge covered by?

Answer 124

Coelom epithelium

Question 125

These structures are created from cells within the genital ridge and grow into the underlying mesenchyme.

Answer 125

Primary sex cords

Question 126

The indifferent gonad has what two components?

Answer 126

Cortex (outer layer) and medulla (inner layer)

Question 127

In the indifferent gonad, what happens to the cortex in males and females?

Answer 127

Males: cortex regresses
Females: cortex develops

Question 128

In the indifferent gonad, what happens to the medulla in males and females?

Answer 128

Males: medulla regresses
Female: medulla develops

Question 129

What develops from the testes cords?

Answer 129

Seminiferous tubules, tubuli recti, and rete testis

Question 130

What does each follicle contain?

Answer 130

Ooblasts (derives from primordial germ cells and follicular cells (derived from the cortical cords)

Question 131

The epididymis, ductus deferens, ejaculatory duct, cranial part-efferent ducts are formed from what?

Answer 131

Genital ducts

Question 132

The genitalia pass through what type of stage?

Answer 132

An indifferent stage

Question 133

What accessory glands are found in the male? Female?

Answer 133

Male: seminal vesicles, prostrate, bulbourethral glands
Female: there are none

Question 134

This congenital malformation is characterized by ovaries that are small in size, poor breast development, and a small uterus. it can be unilateral or bilateral.

Answer 134

Ovarian hypoplasia (turner’s syndrome)

Question 135

This congenital malformation is a result of the germ cells not migrating from the yolk sac.

Answer 135

Pure gonadal dysgenesis

Question 136

This condition is characterized by an individual appearing as a female despite the presence of testes. Genetically they are male, but raised as female.

Answer 136

Androgen Insensitivity or testicular feminization syndrome.

Question 137

A female would test positive in a chromatin test due to the presence of what?

Answer 137

Barr bodies

Question 138

A male would test negative in a chromatin test due to the absence of what?

Answer 138

Barr bodies

Question 139

This is a condition characterized by excessive androgen production from the adrenals. Occurs in genetic females and masculinization results.

Answer 139

Adrenogenital syndrome

Question 140

When does the cardiovascular system develop?

Answer 140

3rd week

Question 141

Angioblasts develop from what?

Answer 141

Splanchnic mesoderm, mesenchyme of the yolk sac, mesenchyme of the umbilical cord, and mesoderm of the chorion

Question 142

What composes the primitive vascular system?

Answer 142

Vitelline veins, umbilical veins, and cardinal veins

Question 143

These veins are part of the primitive vascular system and return blood from the yolk sac.

Answer 143

Vitelline veins

Question 144

These veins are part of the primitive vascular system and bring blood from the chorion (placenta).

Answer 144

Umbilical veins

Question 145

These veins are part of the primitive vascular system and return blood from the body.

Answer 145

Cardinal veins

Question 146

How does the heart develop?

Answer 146

-Two thin walled endothelial tubes (endocardial heart tubes), which are the continuation of the first aortic arches form a single tube

Question 147

This is the sickle shaped crest acting as the roof of the atrium.

Answer 147

Septum Primum (1st wall)

Question 148

This is the opening between the septum primum and endocardial cushion.

Answer 148

Ostium Primum (1st opening)

Question 149

This is the opening in the septum primum

Answer 149

Ostium secundum (2nd opening)

Question 150

This septum is formed when the right atrium incorporates part of the sinus.

Answer 150

Septum secundum (2nd wall)

Question 151

This is the opening in the septum secundum

Answer 151

Oval foramen

Question 152

This is the opening in the wall separating the right and left heart atria. it is necessary for communication between right and left atria.

Answer 152

Foramen ovale

Question 153

Before birth, blood enters the right atrium from inferior vena cava to the left atrium via what?

Answer 153

Interatrial shunt

Question 154

During development, the interatrial shunt allows the blood of the fetus to bypass what organ?

Answer 154

Lungs

Question 155

When does the septum primum, and septum secundum fuse and the oval foramen close?

Answer 155

After birth

Question 156

This developmental defect of the heart is characterized by the septum primum and septum secundum failing to fuse.

Answer 156

Probe patency of the oval foramen

Question 157

Simple ebb and flow type of circulation begins on what day of development?

Answer 157

22nd day

Question 158

By what days does the heart have unidirectional blood flow and contractions of the heart tube.

Answer 158

28-30 days

Question 159

Oxygenated blood enters the fetus from the placenta via what?

Answer 159

Veins

Question 160

Deoxygenated blood leaves the fetal body via what?

Answer 160

Arteries

Question 161

This structure is a shunt in the fetal pulmonary truck that diverts blood back to the aorta.

Answer 161

Ductus Arteriosus

Question 162

This structure is a shunt in the fetal heart that causes oxygenated blood to bypass the fetus’ developing liver to reach the vena cava.

Answer 162

Ductus Venosus

Question 163

During the 5th week ridges form in the walls of the truncus and bulbus. Their course is spiraled and eventually fuse to form the what structure?

Answer 163

Spiral septum or aorticopulmonary septum

Question 164

This congenital malformation is characterized by the absence of a heart.

Answer 164

Acardia

Question 165

This congenital malformation is characterized by a heart that is located outside of the body through the sternal fissure either through the neck or a diaphragmatic heniation.

Answer 165

Ectopic cordis

Question 166

This congenital malformation is characterized by a heart that is located in the right hemithorax. It can occur alone, but is usually associated with other anomalies, such as situs inversus.

Answer 166

Dextra cardia

Question 167

This congenital malformation is characterized by a small patent foramen ovale or a complete absence of the interatrial septum. Individuals have a loud systolic murmur and exhibit cyanosis (bluing)

Answer 167

Atrial septal defect (ASD)

Question 168

This congenital malformation is similar to atrial septal defect. Individuals have a harsh systolic murmur (Erb’s point) and no cyanosis.

Answer 168

Ventricular septal defect (VSD)

Question 169

This congenital malformation is characterized by pulmonary stenosis, ventricular septal defect, overriding aorta, and right ventricular hypertrophy. Symptoms include cyanosis (bluing) and paroxysmal dyspnea with exertion

Answer 169

Tetraology of Fallot

Question 170

What is the life expectancy of an individul with fallot without surgery?

Answer 170

Approximately 12 years

Question 171

What is the trilogy of fallot?

Answer 171

• Pulmonary stenosis
• Atrial septal defect
• Right ventricular hypertrophy

Question 172

This is used to describe an individual whose organs are the mirror image of what they should be.

Answer 172

Situs inversus