A&P Bones
Which of the following statements concerning the periosteum of a bone is NOT true? A. The periosteum provides strong attachment and continuity from tendon to bone. B. Periosteum is important for bone growth in width. C. The periosteum consists of an outer, dense connective tissue layer and an inner osteogenic layer. D. All bone surfaces in the body are covered by periosteum. E. Blood vessels enter bone through periosteum.
All bone surfaces in the body are covered by periosteum.
Mary is 50 years old. During a checkup, a bone scan reveals that portions of her skeleton show signs of osteoporosis. After reviewing the test results, her physician suggests hormone therapy. What hormone is prescribed for Mary? A.Growth hormone B.Thyroid hormone C.Parathyroid hormone D.Estrogen E.Calcitonin
Estrogen
Appositional growth in a skeletal cartilage will increase its overall length.
FALSE
Endochondral ossification begins with the formation of a calcified model.
FALSE
Increasing the percentage of collagen in a bone would make it become more rigid.
FALSE
Mature bone cells are called chondrocytes.
FALSE
Osseous tissue is avascular.
FALSE
Osteomyelitis is a condition that produces a reduction in bone mass sufficient to compromise normal function.
FALSE
Parathyroid hormone stimulates osteoblast activity.
FALSE
Scapulae are formed by intramembranous ossification.
FALSE
Secondary ossification centers occur in the center of the diaphysis.
FALSE
The central canal of an osteon contains osteocytes.
FALSE
The presence of an epiphyseal line indicates that long bone growth is still in process.
FALSE
Vitamin D is necessary for the formation of the organic framework of bone.
FALSE
Spongy bone contains osteons.
False
Before eight weeks, the skeleton of the human embryo is composed of: A.fibrous membrane. B.compact bone. C.lamellar bone. D.spongy bone.
Fibrous membrane.
Fossa are:
Bone Depressions
The final step in fracture repair is:
Bone remodeling
In adolescence, the "growth spurt" that is observed is mainly attributed to an increase in:
Sex Hormones
A metacarpal is an example of a long bone.
TRUE
An increase in parathyroid hormone can cause bones to become porous and brittle.
TRUE
Collagen in the bone matrix provides flexible strength.
TRUE
Excess growth hormone prior to puberty would result in gigantism.
TRUE
Spongy bone in flat bones is called diploe.
TRUE
The hormone calcitonin functions to decrease the calcium ion in the blood.
TRUE
The most abundant mineral in the human body is calcium.
TRUE
The shaft of the long bone is called the diaphysis.
TRUE
Hydroxyapatite in bone matrix that gives bone its hardness is primarily composed of: A.calcium and osteoclasts. B.calcium and vitamin D. C.calcium and osteocytes. D.calcium and phosphates.
calcium and phosphates.
Osteocytes maintain contact with the blood vessels of the central canal through: A.periosteum. B.interstitial lamellae. C.concentric lamellae. D.canaliculi.
canaliculi.
A patient is brought to the emergency room with a broken bone. According to the x-ray, the bone is fragmented into three pieces. This would be considered a:
comminuted fracture.
Bones serve as an important reservoir of:
Calcium
Which of the following statements best describes interstitial growth of cartilage? A.Cells in the perichondrium differentiate into chondroblasts. B.It grows from the outside. C.Chondrocytes divide and secrete new matrix from within the cartilage. D.Cartilage-forming cells divide and secrete new matrix on the external surface of the cartilage.
Chondrocytes divide and secrete new matrix from within the cartilage.
The twisting of a long bone is prevented by which of the following? A.Sharpey's fibers B.Lacunae C.Circumferential lamella D.Volkmann's canals
Circumferential lamella
The two types of osseous tissue are: A.dense bone and compact bone. B.bones and cartilage. C.long bone and short bone. D.spongy bone and cartilage. E.compact bone and spongy bone.
compact bone and spongy bone.
A fracture in the shaft of a bone would occur in the: A.metaphysis. B.epiphyseal line. C.diaphysis. D.epiphysis.
diaphysis.
The process of bone growth at the epiphyseal plate is similar to: A.endochondral ossification. B.the process of calcification. C.the process of osteopenia. D.the process of healing a fracture. E.intramembranous ossification.
endochondral ossification.
The menisci of the knee are made of: A.elastic connective tissue. B.fibrocartilage. C.hyaline cartilage. D.dense connective tissue similar to ligaments and tendons.
fibrocartilage.
During fetal development intramembranous ossification takes place in: A.the medullary cavity. B.lamellae. C.the center of the epiphysis. D.cartilage. E.fibrous connective tissue membranes.
fibrous connective tissue membranes.
A narrow, slit-like opening in a bone is referred to as a: A.crest. B.trochanter. C.spine. D.fissure.
fissure.
Growth of a cartilage in which the chondrocytes within the matrix become active and proliferate is known as: A.endochondral growth. B.hypertrophic growth. C.appositional growth. D.interstitial growth.
interstitial growth.
When the epiphyseal plate is replaced by bone: A.puberty begins. B.the bone becomes more brittle. C.interstitial bone growth begins. D.appositional bone growth begins. E.long bones have reached their adult length.
long bones have reached their adult length.
Appositional growth:
occurs when cartilage-forming cells secrete new matrix against the external face of the existing cartilage tissue.
Bone is broken down by:
osteoclasts.
The cells that maintain mature compact bone are: A.lacunae. B.osteoblasts. C.chondrocytes. D.osteoclasts. E.osteocytes.
osteocytes.
The lacunae of bone contain: A.osteocytes. B.blood cells. C.chondroblasts. D.osteons. E.bone marrow.
osteocytes.
A condition that produces a reduction in bone mass sufficient to compromise normal function is: osteoporosis. osteopenia. osteitis. osteomalacia. osteomyelitis.
osteoporosis.
Bone-forming cells originate from: A.osteocytes. B.osteoclasts. C.osteoprogenitor cells. D.osteoblasts.
osteoprogenitor cells.
When Ca2+ concentration in the blood becomes lower than normal:
parathyroid hormone is released.
Yellow marrow is useful as:
A fat reserve
Which of the following characteristics of skeletal cartilage limits its thickness? A.It is resilient. B.It is avascular and receives most of its nourishment from the perichondrium that surrounds it. C.It is primarily composed of water. D.It has a girdle of perichondrium that resists outward expansion when it is compressed.
It is avascular and receives most of its nourishment from the perichondrium that surrounds it.
Which of the following is a canal-like passageway? A.Meatus B.Tubercle C.Fossa D.Line
Meatus
Which of the following structures anchors the periosteum to the underlying bone? A.Perforating fibers B.A nutrient foramen C.Yellow bone marrow D.Diploe
Perforating fibers
If a breastfeeding mother becomes vitamin D deficient, what disease is most likely to develop in the nursing infant? A.Osteoporosis B.Rickets C.Dwarfism D.Paget's disease
Rickets
___________ bones act to alter the direction of tendon pull. A.Sesamoid B.Flat C.Short D.Long
Sesamoid
Which of the following sites is the site where bone marrow is routinely sampled in an adult? A.The diaphysis of long bones B.The head of the humerus C.The diploe of the skull bones D.The sternum
The sternum
Collagen fibers do not provide for bone hardness.
True
Intervertebral cartilage is not composed of hyaline cartilage? T or F
True
Most bones below the base of the skull form by endochondral ossification.
True
Ribs belong to the axial skeleton, T or F
True
The appendicular skeleton includes the upper and lower limb bones.
True
Wrist bone is classified as a short bone T or F
True
Yellow marrow can revert to red marrow if more red blood cells are needed by the body.
True
Spongy bone contains all of the following, except: A.trabeculae. B.true osteons. C.collagen fibers. D.hydroxyapatite.
True osteons
Rickets can be caused by:
a deficiency of vitamin D.
At the end of secondary ossification, hyaline cartilage can be found:
at epiphyseal plates.
The bones in the long axis of the body make up the: A.axial skeleton. B.appendicular skeleton. C.trabeculae. D.long bones.
axial skeleton.
Intramembranous ossification: A.is responsible for long bone formation. B.begins with a cartilaginous precursor. C.begins within a connective tissue membrane. D.is the most common way bones are formed.
begins within a connective tissue membrane.
The structural unit of compact bone is:
the Haversian system.
All of the following are stored in the matrix of bones, except: A.vitamin D. B.insulin-like growth factor. C.transforming growth factor. D.calcium.
vitamin D.
he bones of the skeleton store energy reserves as lipids in areas of: A.yellow marrow B.red marrow. C.spongy bone. D.the ground substance. E.the matrix of bone tissue.
yellow marrow