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c. Starch
Plant storage polysaccharide.
a. Glycogen
b. Cellulose
c. Starch
d. Dextran
c. Starch
Homopolysaccharide composed entirely of glucose.
a. Inulin
b. Chitin
c. Starch
d. Cellulose
c. Amylose
Linear component of starch.
a. Amylopectin
b. Glycogen
c. Amylose
d. Dextran
d. Amylopectin
Branched component of starch.
a. Cellulose
b. Inulin
c. Amylose
d. Amylopectin
c. α(1→4)
Glucose linkage in amylose.
a. β(1→4)
b. α(1→6)
c. α(1→4)
d. β(1→6)
a. α(1→4) and α(1→6)
Glucose linkages in amylopectin.
a. α(1→4) and α(1→6)
b. β(1→4)
c. β(1→4) and β(1→6)
d. α(1→3) and α(1→6)
c. Amylose
Starch component that gives a dark blue color with iodine.
a. Amylopectin
b. Glycogen
c. Amylose
d. Cellulose
b. Amylopectin
Starch component that gives a violet-brown color with iodine.
a. Glycogen
b. Amylopectin
c. Cellulose
d. Inulin
b. 25%
Approximate percentage of amylose in starch.
a. 10%
b. 25%
c. 50%
d. 75%
d. 75%
Approximate percentage of amylopectin in starch.
a. 25%
b. 40%
c. 60%
d. 75%
a. Potato (Solanum tuberosum)
Source of starch.
a. Potato
b. Cotton
c. Chicory
d. Mountain ash
a. Wheat (Triticum aestivum)
Source of starch.
a. Wheat
b. Chicory
c. Cotton
d. Manna
d. Corn (Zea mays)
Source of starch.
a. Mountain ash
b. Chicory
c. Cotton
d. Corn
c. Rice (Oryza sativa)
Source of starch.
a. Cotton
b. Barley
c. Rice
d. Chicory
a. Pregelatinized starch
Processed starch in which all parts of the granules are ruptured.
a. Pregelatinized starch
b. Sodium starch glycolate
c. Hydroxyethyl starch
d. Cellulose acetate phthalate
a. Binder
Pharmaceutical use of pregelatinized starch.
a. Binder
b. Lubricant
c. Glidant
d. Preservative
b. Sodium starch glycolate
Pharmaceutical preparation used as a superdisintegrant.
a. Pregelatinized starch
b. Sodium starch glycolate
c. Hydroxyethyl starch
d. Dextran
b. Hydroxyethyl starch (Hetastarch)
Plasma expander available as a 6% solution.
a. Dextran
b. Hydroxyethyl starch (Hetastarch)
c. Inulin
d. Cellulose
b. Cellulose
Major component of the plant cell wall.
a. Glycogen
b. Cellulose
c. Dextran
d. Starch
c. β(1→4)
Glucose linkage in cellulose.
a. α(1→4)
b. α(1→6)
c. β(1→4)
d. α(1→3)
c. Cotton (Gossypium hirsutum)
Source of cellulose.
a. Mountain ash
b. Chicory
c. Cotton
d. Corn
c. Alpha cellulose content
The quality indicator of powdered cellulose where a higher content of insoluble alpha cellulose in NaOH indicates higher quality
a. Beta cellulose content
b. Gamma cellulose content
c. Alpha cellulose content
d. Delta cellulose content
b. Purified absorbent cotton
Preparation obtained by removing wax and seeds from cotton using delinting.
a. Rayon (Viscose)
b. Purified absorbent cotton
c. Pyroxylin (Nitrocellulose)
d. Methylcellulose
b. Protecting wounds and applying solutions
Use of purified absorbent cotton.
a. Tablet coating
b. Protecting wounds and applying solutions
c. Plasma expander
d. Artificial tears
c. 90%
Approximate cotton content of purified absorbent cotton.
a. 50%
b. 70%
c. 90%
d. 100%
c. Pyroxylin
Nitrocellulose.
a. Cellulose acetate phthalate
b. Rayon
c. Pyroxylin
d. Hypromellose
c. Pyroxylin
Formed from the action of nitric acid and sulfuric acid on cotton.
a. Rayon
b. Methylcellulose
c. Pyroxylin
d. Cellulose acetate phthalate
b. Pyroxylin
Soluble g/un cotton.
a. Purified absorbent cotton
b. Pyroxylin
c. Rayon
d. Hypromellose
b. Plain collodion
Pyroxylin dissolved in a 3:1 mixture of ether and ethanol.
a. Flexible collodion
b. Plain collodion
c. Rayon
d. Methylcellulose
a. Flexible collodion
“3% castor oil = 3 syllables”
“2% camphor= 2 syllables”
Pyroxylin containing 3% castor oil and 2% camphor.
a. Flexible collodion
b. Plain collodion
c. Cellulose acetate phthalate
d. Rayon
d. Cellulose acetate phthalate (CAP)
Preparation used for film coating tablets.
a. Methylcellulose
b. Purified absorbent cotton
c. Rayon
d. Cellulose acetate phthalate (CAP)
b. Hydroxypropyl methylcellulose
Preparation also known as hypromellose.
a. Methylcellulose
b. Hydroxypropyl methylcellulose
c. Cellulose acetate phthalate
d. Pyroxylin
a. Hydroxypropyl methylcellulose (Hypromellose)
Preparation used as artificial tears.
a. Hydroxypropyl methylcellulose/Hypromellose
b. Rayon
c. Soluble gu.n cotton/ Pyroxylin
d. Cellulose acetate phthalate
c. Methylcellulose
Preparation used as a laxative.
a. Hydroxypropyl methylcellulose
b. Cellulose acetate phthalate
c. Methylcellulose
d. Pyroxylin
b. Rayon (Viscose)
Regenerated cellulose fibers.
a. Purified absorbent cotton
b. Rayon (Viscose)
c. Cellulose acetate phthalate
d. Pyroxylin
c. Fabric and gauze
Use of rayon (viscose).
a. Artificial tears
b. Tablet coating
c. Fabric and gauze
d. Plasma expansion
b. Rayon
aka Viscose
a. Purified absorbent cotton
b. Rayon
c. Cellulose acetate phthalate
d. Pyroxylin
a. Higher insoluble alpha cellulose in NaOH
Higher quality powdered cellulose.
a. Higher insoluble alpha cellulose in NaOH
b. Higher soluble beta cellulose in NaOH
c. Higher lignin content
d. Higher hemicellulose content
b. Glycogen
Animal storage polysaccharide.
a. Starch
b. Glycogen
c. Cellulose
d. Dextran
c. Glycogen
Glucan that is more highly branched than starch.
a. Amylose
b. Cellulose
c. Glycogen
d. Inulin
c. Red-violet (wine red)
hindi nag rreact sa I2 kasi highly branched, kayasame lang sa color before treatment
Color produced by glycogen with iodine.
a. Dark blue
b. Violet-brown
c. Red-violet (wine red)
d. Black
b. It is highly branched.
Reason glycogen gives a red-violet (wine red) color with iodine.
a. It contains fructose.
b. It is highly branched.
c. It is composed of β(1→4) linkages.
d. It is insoluble in water.
b. Dextran
Glucan composed of α(1→3) and α(1→6) glucose linkages.
a. Glycogen
b. Dextran
c. Cellulose
d. Amylose
b. Leuconostoc mesenteroides
Microorganism source of dextran.
a. Streptomyces spp.
b. Leuconostoc mesenteroides
c. Lactobacillus acidophilus
d. Escherichia coli
d. Plasma expander
Therapeutic use of dextran.
a. Osmotic diuretic
b. Evaluation of renal function by GFR computation
c. Artificial tears
d. Plasma expander
c. 10%
6% sa other literature
Common concentration of dextran used as a plasma expander.
a. 2%
b. 5%
c. 10%
d. 20%
c. Inulin
Fructan composed entirely of fructose.
a. Dextran
b. Glycogen
c. Inulin
d. Chitin
d. Chicory root (Cichorium intybus)
Source of inulin.
a. Barley
b. Cotton
c. Potato
d. Chicory root
b. Evaluation of renal function by GFR computation
Use of inulin.
a. Plasma expansion
b. Evaluation of renal function by GFR computation
c. Sweetening agent
d. Artificial tears
d. Chitin
Polymer of N-acetylglucosamine (NAG).
a. Cellulose
b. Glycogen
c. Dextran
d. Chitin
c. Chitin
Found in the exoskeleton of animals, insects, mollusks, and arthropods.
a. Inulin
b. Cellulose
c. Chitin
d. Glycogen
c. N-acetylglucosamine (NAG)
Monomer of chitin.
a. Glucose
b. Fructose
c. N-acetylglucosamine (NAG)
d. Galactose
b. Pectin
Composed of various pentoses with galacturonic acid.
a. Cellulose
b. Pectin
c. Inulin
d. Starch
b. Protopectin

Unripe fruits.
a. Pectinic acid
b. Protopectin
c. Pectin
d. Cellulose
c. Pectin

Ripe fruits.
a. Pectinic acid
b. Protopectin
c. Pectin
d. Cellulose
a. Pectinic acid

overripe fruits.
a. Pectinic acid
b. Protopectin
c. Pectin
d. Cellulose
b. Pectin
Component of anti-diarrheal drug.
a. Acacia
b. Pectin
c. Xanthan
d. Karaya
d. Kaolin + Pectin
Kaopectate.
a. Kaolin + Acacia
b. Kaolin + Tragacanth
c. Kaolin + Xanthan
d.Kaolin + Pectin
a. Bismuth subsalicylate
Kaopectate is replaced by
a. Bismuth subsalicylate
b. Kaolin
c. Pectin
d. Kaolin + Pectin
b. Acacia/Gum arabic (Acacia senegal)
Most resistant to alcohol.
a. Tragacanth
b. Acacia/Gum arabic
c. Karaya
d. Xanthan
b. Acacia (Acacia senegal)
Gum arabic aka
a. Tragacanth
b. Acacia
c. Karaya
d. Xanthan
b. Acacia/Gum arabic (Acacia senegal)
Suspending agent.
a. Karaya
b. Acacia/Gum arabic
c. Agar
d. Psyllium
a. Acacia senegal
Acacia/Gum arabic SN
a. Acacia senegal
Sterculia urens
c. Astragalus gummifer
d. Plantago ovata
b. Tragacanth
Most resistant to hydrolysis.
a. Karaya
b. Tragacanth
c. Acacia
d. Guar
b. Bassorin

Tragacanth constituents: Swelling and gelling.
a. Tragacanthin
b. Bassorin
c. Algin
d. Agar
a. Tragacanthin

Tragacanth constituents: non-gelling.
a. Tragacanthin
b. Bassorin
c. Algin
d. Agar
b. Vermiform

Tragacanth form: Worm-like.
a. Ribbon
b. Vermiform
c. Sorts
d. Flakes
c. Sorts

Tragacanth form: Teardrop-like.
a. Ribbon
b. Vermiform
c. Sorts
d. Flakes
a. Ribbon
&
d. Flakes

Tragacanth form: Flat/transversed
a. Ribbon
b. Vermiform
c. Sorts
d. Flakes
a. Ribbon
&
d. Flakes

Most preferred Tragacanth form
a. Ribbon
b. Vermiform
c. Sorts
d. Flakes
c. Astragalus gummifer
Tragacanth SN
a. Sterculia urens
b. Acacia senegal
c. Astragalus gummifer
d. Plantago ovata
a. Karaya
Least soluble gum.
a. Karaya
b. Acacia
c. Tragacanth
d. Guar
c. Karaya
Fetid gum (unpleasant odor gum).
a. Acacia
b. Xanthan
c. Karaya
d. Agar
a. Karaya + Tragacanth
Part of the laxative Movicol.
a. Karaya + Tragacanth
b. Karaya + Acacia
c. Guar + Acacia
d. Xanthan + Karaya
b. Sterculia urens
Karaya SN
a. Astragalus gummifer
b. Sterculia urens
c. Acacia senegal
d. Plantago ovata
b. Indian/Ghatti gum
Alternative to Acacia.
a. Karaya
b. Indian/Ghatti gum
c. Guar
d. Agar
d. Indian
Ghatti gum aka
a. Karaya
b. Agar
c. Guar
d. Indian
b. Anogeissus latifolia
Indian/Ghatti gum SN
a. Sterculia urens
b. Anogeissus latifolia
c. Acacia senegal
d. Ceratonia siliqua
a. Psyllium

Bulk laxative.
a. Psyllium
b. Guar
c. Quince
d. Agar
a. Plantago ovata
Psyllium.
a. Plantago ovata
b. Plantago major
c. Plantago asiatica
d. Plantago lanceolata
b. Quince
Cydonia vulgaris.
a. Guar
b. Quince
c. Psyllium
d. Locust bean
a. Guar
Cyamopsis tetragonolobus.
a. Guar
b. Psyllium
c. Quince
d. Karaya
d. Locust bean
Chocolate substitute.
a. Psyllium
b. Quince
c. Guar
d. Locust bean
d. Locust bean
aka Carob pulp
a. Psyllium
b. Quince
c. Guar
d. Locust bean
d. Locust bean
aka St. John's Bread
a. Psyllium
b. Quince
c. Guar
d. Locust bean
c. St. John's Bread/Carob pulp/Locust bean
Ceratonia siliqua.
a. Quince
b. Guar
c. St. John's Bread/Carob pulp/Locust bean
d. Psyllium
a. Agar
From red algae.
a. Agar
b. Algin
c. Xanthan
d. Karaya
a. Agar
aka Japanese Isinglass
a. Agar
b. Algin
c. Xanthan
d. Karaya
d. Agar
Gelidium cartilagineum
a. Algin
b. Xanthan
c. Carrageenan
d. Agar
d. Agar
Gracilaria confervoides
a. Algin
b. Xanthan
c. Carrageenan
d. Agar
b. Agar
Culture media components.
a. Algin
b. Agar
c. Carrageenan
d. Acacia
c. Algin
From brown algae.
a. Agar
b. Carrageenan
c. Algin
d. Xanthan
b. Algin
Macrocystis pyrifera.
a. Agar
b. Algin
c. Karaya
d. Guar
c. Alginate
Raft-forming antacid.
a. Carrageenan
b. Agar
c. Alginate
d. Xanthan
c. Algin
Cast for measurement of dentures.
a. Xanthan
b. Carrageenan
c. Algin
d. Guar
b. Carrageenan
Irish Moss aka
a. Agar
b. Carrageenan
c. Algin
d. Xanthan
a. Carrageenan
Chondrus crispus.
a. Carrageenan
b. Agar
c. Algin
d. Guar
b. Carrageenan
Gigartina mamillosa.
a. Agar
b. Carrageenan
c. Xanthan
d. Karaya
b. Kappa and Iota

Gelling carrageenan form
a. Lambda
b. Kappa and Iota
c. Lambda only
d. None of the forms
c. Lambda only

Non-gelling carrageenan form
a. Lambda
b. Kappa and Iota
c. Lambda only
d. None of the forms