AppliedDPathophysiology:DADConceptualDApproac
h
FULL TEST BANK D D
Applied Pathophysiology
D
A Conceptual Approach 4th Edition
D D D D D
by Judi Nath, Carie Braun
D D D D
Complete Test Bank, All Chapters are included
D D D D D D
TestDBank PageD1
, AppliedDPathophysiology:DADConceptualDApproac
h
TestDBank PageD2
, AppliedDPathophysiology:DADConceptualDApproac
h
Applied Pathophysiology A Conceptual Approach to theMechan
D D D D D D D
isms of Disease 4th Edition Braun Test Bank
D D D D D D D
Chapter 1Introduction to Pathophysiology
D D D
1. The nucleusD , which is essential for function and survival of the cell.
D D D D D D D D D D
A) is the site of protein synthesis
D D D D D
B) contains the genetic code D D D
C) transforms cellular energy D D
D) initiates aerobic metabolism D D
2. Although energy is not made in mitochondria, they are known as the powe
D D D D D D D D D D D D
rplants of the cell because they:
D D D D D D
A) contain RNA for protein synthesis.
D D D D
B) utilize glycolysis for oxidative energy.
D D D D
C) extract energy from organic compounds.
D D D D
D) store calcium bonds for muscle contractions.
D D D D D
3. Although the basic structure of the cell plasma membrane is formed by a lipi
D D D D D D D D D D D D D
d bilayer, most of the specific membrane functions are carried out by:
D D D D D D D D D D D
A) bound and transmembrane proteins.
D D D
B) complex, long carbohydrate chains.
D D D
C) surface antigens and hormone receptors.
D D D D
D) a gating system of selective ion channels.
D D D D D D
TestDBank PageD3
, AppliedDPathophysiology:DADConceptualDApproac
h
4. To effectively relay signals, cell-to-
D D D D
cell communication utilizes chemicalmessenger systems that:
D D D D D D
A) displace surface receptor proteins.
D D D
B) accumulate within cell gap junctions.
D D D D
C) bind to contractile microfilaments.
D D D
D) release secretions into extracellular fluid.
D D D D
5. Aerobic metabolism, also known as oxidative metabolism, provides energy by:
D D D D D D D D D
A) removing the phosphate bonds from ATP.
D D D D D
B) combining hydrogen and oxygen to form water.
D D D D D D
C) activating pyruvate stored in the cytoplasm.
D D D D D
D) breaking down glucose to form lactic acid.
D D D D D D
6. Exocytosis, the reverse of endocytosis, is important in
D D D D D D D
into theextracellular fluid.
D D D
A) Engulfing and ingesting fluid and proteins for transport
D D D D D D D
B) Killing, degrading, and dissolving harmful microorganisms
D D D D D
C) Removing cellular debris and releasing synthesized substances
D D D D D D
D) Destruction of particles by lysosomal enzymes for secretion
D D D D D D D
7. The process responsible for generating and conducting membrane potentials is:
D D D D D D D D D
A) diffusion of current-carrying ions.
D D D
B) millivoltage of electrical potential.
D D D
C) polarization of charged particles.
D D D
TestDBank PageD4
h
FULL TEST BANK D D
Applied Pathophysiology
D
A Conceptual Approach 4th Edition
D D D D D
by Judi Nath, Carie Braun
D D D D
Complete Test Bank, All Chapters are included
D D D D D D
TestDBank PageD1
, AppliedDPathophysiology:DADConceptualDApproac
h
TestDBank PageD2
, AppliedDPathophysiology:DADConceptualDApproac
h
Applied Pathophysiology A Conceptual Approach to theMechan
D D D D D D D
isms of Disease 4th Edition Braun Test Bank
D D D D D D D
Chapter 1Introduction to Pathophysiology
D D D
1. The nucleusD , which is essential for function and survival of the cell.
D D D D D D D D D D
A) is the site of protein synthesis
D D D D D
B) contains the genetic code D D D
C) transforms cellular energy D D
D) initiates aerobic metabolism D D
2. Although energy is not made in mitochondria, they are known as the powe
D D D D D D D D D D D D
rplants of the cell because they:
D D D D D D
A) contain RNA for protein synthesis.
D D D D
B) utilize glycolysis for oxidative energy.
D D D D
C) extract energy from organic compounds.
D D D D
D) store calcium bonds for muscle contractions.
D D D D D
3. Although the basic structure of the cell plasma membrane is formed by a lipi
D D D D D D D D D D D D D
d bilayer, most of the specific membrane functions are carried out by:
D D D D D D D D D D D
A) bound and transmembrane proteins.
D D D
B) complex, long carbohydrate chains.
D D D
C) surface antigens and hormone receptors.
D D D D
D) a gating system of selective ion channels.
D D D D D D
TestDBank PageD3
, AppliedDPathophysiology:DADConceptualDApproac
h
4. To effectively relay signals, cell-to-
D D D D
cell communication utilizes chemicalmessenger systems that:
D D D D D D
A) displace surface receptor proteins.
D D D
B) accumulate within cell gap junctions.
D D D D
C) bind to contractile microfilaments.
D D D
D) release secretions into extracellular fluid.
D D D D
5. Aerobic metabolism, also known as oxidative metabolism, provides energy by:
D D D D D D D D D
A) removing the phosphate bonds from ATP.
D D D D D
B) combining hydrogen and oxygen to form water.
D D D D D D
C) activating pyruvate stored in the cytoplasm.
D D D D D
D) breaking down glucose to form lactic acid.
D D D D D D
6. Exocytosis, the reverse of endocytosis, is important in
D D D D D D D
into theextracellular fluid.
D D D
A) Engulfing and ingesting fluid and proteins for transport
D D D D D D D
B) Killing, degrading, and dissolving harmful microorganisms
D D D D D
C) Removing cellular debris and releasing synthesized substances
D D D D D D
D) Destruction of particles by lysosomal enzymes for secretion
D D D D D D D
7. The process responsible for generating and conducting membrane potentials is:
D D D D D D D D D
A) diffusion of current-carrying ions.
D D D
B) millivoltage of electrical potential.
D D D
C) polarization of charged particles.
D D D
TestDBank PageD4
