Term
Why are solid dosage forms a favorite? |
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Definition
Solid materials are stable and easy to make, process, and handle. Most drug molecules are solids at room temperature. Solids are also accepted by patients as a preferred dosage form (tablets and capsules, etc.) which increases patient compliance. |
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Term
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Definition
A crystal is an anisotropic, homogeneous body of a three-dimensional periodic ordering of atoms, ions, or molecules. It is of an orderly, infinite arrangement of molecules or atoms in a solid. It is a specific form of solid states: a crystal should have a melting point, and have sharp regular edges and distinct morphology. A crystal can be ionic (NaCl), metallic (iron), valence (diamond), and molecular (ice) |
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Term
Does the amorphous state belong to crystals? |
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Definition
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Term
Does an amorphous material melt? |
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Definition
There is no distinct melting point or sharp phase transition because the packing of molecules or atoms is random. But it can become a liquid. |
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Term
Is the number of crystal lattices infinite? |
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Definition
No, the combination of crystal system and lattice type results in 14 "Bravais lattices". |
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Term
What are the lattice constants? |
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Definition
a, b, c
α, β, γ
used to define the crystal lattice |
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Term
Are molecules in a crystal symmetrically related? |
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Definition
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Term
What are the typical symmetry operations? |
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Definition
mirror plane, inversion center, n-fold rotation axis, n-fold screw axis, n-fold rotary-inversion axis, n-fold glide plane (translational, mirror, inversion, rotation) |
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Term
The purpose of the Miller Index is to identify different polymorphs. Right or Wrong? |
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Definition
Wrong, the Miller Index marks each face of the crystal and indicates the relationship between the face and the crystal structure. |
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Term
If a crystal face interacts more strongly with the growth solvent, will it become a major or minor face? |
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Definition
It will become a major face. There is slower growth when the crystal face interacts more strongly with the solvent. There is faster growth if it reacts less with a solvent and in that case it would be a minor face. |
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Term
What property does contact angle characterize? |
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Definition
Wettability If you are using water than a smaller angle would mean that the surface is more hydrophilic. |
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Term
What is polymorphism? Examples? |
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Definition
Same molecules but packed differently, different crystal structures ex. graphite vs diamond |
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Term
Why do we care about polymorphism during drug development? |
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Definition
Polymorphism can affect: solubility and dissolution rate absorption and bioavailability chemical and physical stability physical properties (hardness, density, wettability, growth morphology, etc.) |
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Term
Why do different crystals have different solubility values? |
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Definition
They have different intermolecular interactions. |
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Term
Do different polymorphs of the same molecule have the same solubility? |
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Definition
No, because different crystal structures would mean that there are different intermolecular interactions between the molecules. |
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Term
Why is having good solubility of a drug important? |
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Definition
Good solubility can influence/increase the dissolution rate, absorption rate and bioavailability. |
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Term
What is the difference between the ideal and real liquids with respect to affecting solubility? |
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Definition
Ideal liquids only consider the solvent/solute interaction and does not effect solubility. Real liquids would affect the solubility. |
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Term
What are the assumptions made for ideal liquids? |
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Definition
the molecular size in an ideal liquid is zero there is no intermolecular interaction |
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Term
What are controlling factors that decide the solubility? |
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Definition
intermolecular interactions of the solid (heat of fusion, solid-solid interaction) temperature solvent (solid solvent interaction) |
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Term
Can a strong solvent-solid interaction increase the solubility? |
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Definition
yes, a strong solvent-solid interaction could increase the solubility because the solvent would "pull" the solid apart. |
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Term
What is the reason for the diffusion/flux to occur? |
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Definition
concentration gradient--difference in concentration |
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Term
Why does aspirin dissolve faster in ethanol than in water? |
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Definition
Aspirin has a higher solubility in ethanol than in water so it dissolves faster. Solvent-solute interaction. Aspirin interacts more strongly with ethanol than with water. |
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Term
How can the temperature affect the dissolution rate? |
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Definition
the higher the temperature the faster the dissolution rate and vice versa at higher temperatures you would also have an increased diffusion rate and increased solubility |
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Term
According to the Noyes-Whitney model, is the concentration versus time linear? |
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Definition
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Term
Will the concentration of a drug in liquid eventually reach ln(S) where S is its solubility in liquid? |
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Definition
No, because plateau is not ln(S) it is the solubility (S) |
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Term
What are the important properties of drug materials? |
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Definition
solubility and stability (both chemical and physical) |
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Term
What is the purpose of using a salt form? |
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Definition
A salt increases the solubility of a poorly soluble drug if it has an ionized functional group. |
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Term
Can reducing particle size enhance the solubility? |
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Definition
No, but it can enhance the rate of dissolution. The solubility will be the same for a given substance, it just may take longer if it is a larger particle. |
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Term
Why in general are Class I and II drugs expected to have IVIVC (in vitro in vivo correlation)? |
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Definition
Class I and II drugs both show a greater permeability through the membrane so dissolution is the rate-limiting step. The dissolution profile (in vitro) may be able to predict or correlate with the in vivo response. |
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Term
If we have a Class IV drug, what formulation strategy/strategies can we use to deliver the drug? |
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Definition
Class IV drugs have poor permeation and poor dissolution. To increase the rate of dissolution a drug can be placed into a liquid formulation or salt formulation. It can also be changed to a different polymorph, an amorphous solid, or making a reduced particle size. Other strategies for improving the solubility limitation include chemical modification of drug candidates (by forming prodrugs), encapsulation in polymeric materials, and combinations of all these approaches. |
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Term
Why is a drug product typically required to store at a cool and dry place? |
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Definition
Prevent physical and chemical degradation |
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Term
Excipients have little pharmacological effect, but we still need them to make drugs. Why? |
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Definition
Excipients are used to maintain an accurate dosing (diluent), to facilitate the manufacturing process, to achieve an optimal dissolution profile (ex. coating), to improve the patient compliance, to appeal customers. |
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Term
Starch and cellulose are all polysaccharides. Do they behave the same as excipients? |
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Definition
No, starch acts as a binder and disintegrant whereas cellulose acts as a diluent*, binder, or coater. |
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Term
What are possible consequences if more magnesium stearate is used? |
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Definition
Magnesium stearate is a lubricant (hydrophobic) so if a lot of it is used to make the drug then it will show decreased bioavailability. It would slow the dissolution of the drug and less of it would be absorbed. |
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Term
What are pros/cons of using a different polymorph or the amorphous state of a drug? |
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Definition
Using different polymorphs or the amorphous state will affect drug solubility and stability. For example, the amorphous state of a drug may show a faster dissolution rate, but less stability. (cannot measure solubility of amorphous materials) |
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Term
If polymorph I changes to polymorph II spontaneously does polymorph I have... 1. stronger intermolecular interactions 2. a higher energy state 3. a higher solubility 4. dissolve faster |
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Definition
polymorph I would have a higher energy state, higher solubility, and it would dissolve faster than polymorph II |
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Term
One of the instability issues of suspensions is caused by Ostwald Ripening, in which the particle size changes. Do particles grow bigger or smaller? |
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Definition
the particles grow bigger--the smaller particles will all disappear |
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Term
Polymers are normally used in dispersion systems to stabilize the amorphous state of the API. What is the mechanism of stabilization? |
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Definition
The polymer reduces the mobility of the drug molecules which stabilizes it. |
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Term
A drug product is less/more stable at high RH (relative humidity)? Why? |
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Definition
A drug product is less stable at high relative humidity because moisture uptake by the drug may loosen the product and cause potential physical and chemical degradation. |
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Term
How can a phase transition affect the bioavailability? |
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Definition
phase transition changes the dissolution behaviors |
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Term
What are the major reasons to use powders in pharmaceutical industry? |
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Definition
Powders flow well and facilitate the mixing of different types of materials. They can withstand deformation and be compressed. |
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Term
What property does the angle of repose characterize? |
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Definition
flowability smaller angle of repose=more flowability |
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Term
Why should bad flowability be avoided? |
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Definition
poor flowability can cause segregation of power which causes problems of content uniformity; variation in product quality (mainly the dissolution profile), drug recall |
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Term
What is the purpose of granulation? |
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Definition
granulation improves particulate properties: it improves the size and size distribution, in unifies the shape, it increases the flowability and compressibility, and it allows the substance to blend uniformly. |
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Term
Can poor content uniformity result in product recall? Why? |
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Definition
Yes, because there would be variations in the bioavailability. One patient may have too much drug and get a dose that was too high (may be dangerous) or another patient may get too low a dose and the drug would be ineffective. |
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Term
When excipients and the API are blended together, should they have similar particle sizes? |
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Definition
yes, to reduce segregation |
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Term
Particle processing has little influence on the stability of APIs. Correct? |
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Definition
no, a process can lead to physical and chemical stability concerns |
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Term
Tablets are the most preferred dosage form. Why? |
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Definition
Stable, easy and cheap to make, patient compliant |
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Term
Tablets are the most preferred dosage forms, so why do we still need capsules? |
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Definition
Some materials cannot be compressed, or are not chemical compatible, some need to be in a liquid or semi-liquid formulation to increase the bioavailability (increase solubility), some drugs need to be a controlled release |
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