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Section 13.2 Drugs (Book 3B, Chapter 36)

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Title: Section 13.2 Drugs (Book 3B, Chapter 36)

1
Section 13.2 Drugs(Book 3B, Chapter 36)
2
Syllabus for consideration
3
Syllabus for consideration (12.6)
4
overview

Drugs and medicine an introduction
Key stages of drug development
Some common drugs
Dangerous drugs
Chiral drugs

5
overview

Drugs and medicine an introduction
Key stages of drug development
Some common drugs
Dangerous drugs
Chiral drugs

6
Drugs and medicine

Drugs chemical substances producing
physiological effects on human body
Often act by altering a range of biological
processes
Carefully researched, monitored by doctors or
pharmacists or else extremely hazardous
Medicine Drugs prescribed by doctors
Poisons if drugs taken abusively excessive
intake death (e.g. excessive paracetamol (a
painkiller,???????) coma or death)

7
Drugs and medicine

Most drugs are natural products modified by
chemical reactions or are synthetic chemical
substances.
Categorized according to their use
Painkillers (???)
Antacids (???)
Antibiotics (???)
Cancer drugs (???) etc.
Categorized according to their biological
effects
Narcotics (???)
Analgesics (???)
Hallucinogens (???)
Depressants (???)
Stimulants (???)
Tranquillizers (???)etc.

8
Drugs and medicine (3B 194 196)

In ancient times, drugs discovery related to
finding of natural products showing medicinal
effects
From extracts of animals, plants and even
minerals
Nowadays, drug development is a systematic
process including stages of
Lead compound discovery (???????)
Molecular structural modeling (????)
Dosage formulation (????)
Safety tests and trials (?????????)
Approval from government monitoring agency (????)
Two examples aspirin (????) and cisplatin (??)

9
overview

Drugs and medicine an introduction
Key stages of drug development
Some common drugs
Dangerous drugs
Chiral drugs

10
Key stages of drug development

Aspirin
Cis-platin

11
Key stages of drug development

Aspirin (Book 3B, p.191 p.192)
Cis-platin

12
Key stages of aspirin developmentLead compound
discovery

Aspirin development originated from discovery of
medicinal use of the bark of the willow tree (??)
240 years ago
In 1827, a Scottish physician used extracts to
treat acute rheumatism (???)
Active ingredient found to be salicin (???)
(isolated from willow bark and flowers of
meadowsweet (??????) plant)

13
Key stages of aspirin developmentMolecular
modiFication)

1870, Prof von Nencki discovered salicin was
converted to salicylic acid (???) in the body.
Synthesis of salicylic acid and prescribed to
cure fevers
BUT salicylic acid causes serious burns and
irritation to oral cavity, oesophagus and
stomach.
? patients taking salicylic acid ulcers (??)

14
Key stages of aspirin developmentmolecular
modification

Reduce side effect, use sodium hydroxide to
neutralize carboxylic acid group
i.e. use sodium salicylate instead
This salt derivative works as an antipyretic
(???) and the irritation (??) is reduced.

15
Key stages of aspirin developmentmolecular
formulation

BUT sodium salicylate tastes awful and the
patient would vomit badly if a large dose is
taken.
1897 Felix Hofmann from Bayer synthesized a new
compound by acetylation of the phenol group
producing acetyl salicylic acid (or ASA).
ASA a mild irritant, a reasonable taste, good
fever-reducing and pain relieving properties

16
Key stages of drug development dosage
formulation

ASA large scale synthesis
Initially as a powder in packers and later made
into tablets
Today ASA formulations include additives like
buffers.

17
Key stages of aspirin development safety tests
and human trials

Two stages
Preclinical trial
Clinical trial
Preclinical trials
On tissue samples and live animals
Provide useful information on the drugs
absorption, distribution (transportation inside
the body), metabolism and elimination in the
body.
Clinical trial
Involve human testing
Ethical and legal issues
To be conducted under stringent legal approval by
a recognized ethical committee
If pass all the trials certificates

18
Key stages of aspirin development market approval

Aspirin synthesized and marketed by Bayer
Company
Initially as a powder than as a 500 mg tablet
One of the first drugs in the world to be
available in a standardized dosage.

19
Key stages of drug development

Aspirin
Cis-platin (3B, p.193)

20
Key stages of cis-platin developmentLead
compound discovery

Discovered accidentally in 1961 by a biophysicist
(Prof Barnett Rosenberg)
Studying effect of electromagnetic radiation on
the growth of E.coli.
After the experiment, bacteria growth inhibited
by electrolysis product of the Pt electrodes.
Rosenberg Growth of E. coli. Was inhibited by a
square planar complex, cisplatin
(cis-dichlorodiamineplatinum(II)) and light
Further investigated by other chemists

21
Key stages of cis-platin development lead
compound discovery

Rosenberg use of cis-platin in animal tests in
1968
Cis-platin
capable of stopping the rapid cell division in
bacteria at concentrations that are effective yet
without significant toxicity.
Reduce the size of cancerous tumors in mice
Cisplatin use in anti-cancer treatment

22
Key stages of cis-platin developmentmolecular
modification

Rosenberg noticed that the trans isomer is
thermodynamically more stable, it is a much less
active complex for cancer treatment
Other chemical derivatives (change its ligands)
potent anti-tumor variants of cis-platin

23
Key stages of cis-platin development molecular
modification

Common features in cis-platin and its
derivatives
Geometries (all square planar)
All electrically neutral
Two cis-monodentate ligands or a bidentate ligand
Cyclic ligands can enhance the antitumor
activities of the complexes BUT the solubility of
complex would be decreased

24
Key stages of cis-platin development dosage
formulation

Serious difficulties in formulation
Side effects
Nausea (????)
Vomiting (??)
Renal failure (???)

25
Key stage of cis-platin development safety test
and human trials

In vivo studies (????) almost discontinued due
to the toxicity
Clinical trial
Cvitkovic and coworkers aggressive diuresis
(????) in minimizing renal damage
Gralla et al. using antiemetic drugs (???)
resolving nausea and vomiting problems

26
Key stages of cis-platin developmentmarket
approval

Administered in a chloride containing solution
Side effects several drugs taken together
Mannitol (???) increase urine flow (deal with
renal failure)
Injecting anti-emetics (???) minimize nausea and
vomiting
Since 1970s, treat various cancers
Ovarian
Testicular
Lung

27
overview

Drugs and medicine an introduction
Key stages of drug development
Some common drugs
Dangerous drugs
Chiral drugs

28
Over-the-counter drugs and prescription drugs
(3B, p.197)

Over-the-counter drugs
Aspirin
Acetaminophen
Vitamin C
Prescription drugs
Albuterol
Amlodipine
Loratadine
Amoxicillin
Omeprazole

29
Over-the-counter drugs

Aspirin

30
Over-the-counter drugs

Analysis of aspirin
(See handout)

31
Over-the-counter drugs

Acetaminophen (paracetamol, p-acetaminophenol)
An analgesic that relieves pains such as
headaches
Less corrosive to stomach and is an alternative
to aspirin
Present in Panadol, Saridon, Tylenol and Fortolin

32
Over-the-counter drugs

Vitamin C (Ascorbic acid)

33
Common names of prescription drugs (3B, p.198)
34
Common names of drugs use common names for
easier reference (3B, p.198)

Albuterol (???)
Asthma medicine (???)

35
Common names of drugs use common names for
easier reference (3B, p.198)

Amlodipine (????)
Reduces blood pressure
Peripheral arterial vascodilator (??????????)

36
Common names of drugs use common names for
easier reference (3B, p.198)

Prilosec (Omeprazole,????)
Treatment of heartburn, stomach ulcers

37
Common names of drugs use common names for
easier reference (3B, p.198)

Loratadine (????)
Antihistamine (????)

38
Common names of drugs use common names for
easier reference (3B, p.198)

Amoxicillin (???????????)
Antibiotic (???)

39
overview

Drugs and medicine an introduction
Key stages of drug development
Some common drugs
Dangerous drugs
Chiral drugs

40
Dangerous drugs

Narcotic drugs
Morphine and heroin
Stimulant drugs
Ketamine, methamphetamine and phenylethylamine

41
Dangerous drugs

Narcotic drugs
Morphine and heroin
Stimulant drugs
Ketamine, methamphetamine and phenylethylamine

42
Dangerous drugs Narcotic drugs (????)

Chemical substances relieving pain by numbing the
senses, inducing sleep
Highly addictive
Many countries ban their imports manufacture or
possession
Commonly abused narcotic drugs
Morphine (??)
Heroin (???)

43
Dangerous drugs Narcotic drugs(3B, p.199)

Opium (??) and morphine (??)
From opium puppy (??)
A mixture of alkaloids,?????(organic bases)
Most abundant alkaloid morphine (10 opium)

44
Dangerous drugs narcotic drugs

Morphine and its analogues most effective
painkillers BUT strong addiction
Codeine (???) less addictive while less
pain-killing
Replacing the hydroxyl group by methoxy group

45
Dangerous drugs narcotic drugs

Heroin (3B, p.199)
Two hydroxyl groups replaced by two acetoxy
groups
More powerful narcotic BUT more addictive

46
Danerous drugs Heroin

Precursor chemicals
Acetic anhydride (CH3 C O CCH3)
O O
Acetyl bromide (CH3COBr)
Acetyl chloride (CH3COCl)
Acetone ((CH3COCH3)
Ethyl ether (CH3CH2OCH2CH3)

47
Methadone (???)
http//en.wikipedia.org/wiki/Methadone accessed
on 28/12/2007
48
Comparing structures of heroin and methadone
Heroin
49
Cannabis (??)

Contains Cannabinoids Some examples

http//en.wikipedia.org/wiki/Cannabinoids
accessed on 28/12/2007
50
Cannabis
51
Dangerous drugs narcotic drugs(3B, p.200)

Adverse effects (????) of narcotics
Dependence (??)
Respiratory depression (????)
Drowsiness (????)
Death in high dosages
Severe withdrawal symptoms????(cramps??,
sweating??, running nose???and tearing)
Illegal in trafficking and possession in many
countries

52
Dangerous drugs

Narcotic drugs
Morphine and heroin
Stimulant drugs
Ketamine, methamphetamine and phenylethylamine

53
Dangerous drugs stimulant drugs (?????)

Chemicals causing an increase of alertness and
physical awareness (???????????????) in the body
Often addictive
Increase pulse rate and respiratory rate
Addicts of stimulants indulge (??) in the
temporary feeling of a boost of energy (????????)
brought on by the drug
To counter the effect of depressants???(e.g.
sleeping pills???)

54
Dangerous drugs stimulant drugs

Ketamine (???) (3B, p.201)
A stimulant patented (??) in 1963
A general anesthetic (???) if properly prescribed
Dream-like feelings hallucinations(??), deliria
(????)
Also named Ketalar K?

55
Dangerous drugs stimulant drugs

Ketamine (???)

56
Dangerous drugs stimulant drugs

Ecstasy (MDMA, ?? Fing Tau Pills)

http//www.3dchem.com/molecules.asp?ID60
accessed on 28/12/2007
57
Dangerous drus ecstasy

Precursor chemicals
Safrole (???)
Isosafrole
Piperonal
3,4-Methylenedioxy-phenyl-2-propanone

http//www.chemblink.com/products/94-59-7.htm
accessed on 28/12/2007
http//potency.lbl.gov/chempages/ISOSAFROLE.html
accessed on 28/12/2007
http//www.inchem.org/documents/jecfa/jecmono/v44a
je32.htm accessed on 28/12/2007
http//www.isomerdesign.com/Cdsa/scheduleUN.php?sc
hedule3sectionALLstructureC accessed on
28/12/2007
58
Dangerous drugs LSD ???

Lysergic acid diethylamide (LSD)

http//en.wikipedia.org/wiki/LSD accessed on
28/12/2007
59
Dangerous drugs lsd
http//www.isomerdesign.com/Cdsa/scheduleUN.php?sc
hedule3sectionALLstructureC accessed on
28/12/2007

Precursor chemicals
Ergotamine Ergometrine
Lysergic acid

60
Dangerous drugs stimulant drugs

Methamphetamine (??????)
A member of amphetamine ???? family
Causes a release of dopamine ??? and
noradrenaline ?????? from the CNS
Feelings of arousal ????, euphoria ??, strength
????, self-assertion ??, enhanced motivation ????
and focus ???, diminished need for sleeping or
eating
Last for many hours as amphetamine is not readily
broken down by body

61
Dangerous drugs stimulant drugs

Methamphetamine
After-effects (???)
Lows of intense mental depression (????)
Fatigue (??)
due to the depletion of dopamine
An illegal drug
Common names speed ?????, chalk ????
Also known as ice ??? as methamphetamine
hydrochloride in form of clear chunky????crystals

62
Dangerous drugs stimulant drugs

Methamphetamine (3B, p.202)

63
Dangerous drugs Amphetamine-type stimulant
http//www.isomerdesign.com/Cdsa/scheduleUN.php?sc
hedule3sectionALLstructureC accessed on
28/12/2007

Precursor chemicals
Ephedrine Pseudoepherdrine 1-phenyl-2-
propanone
Phenylacetic acid Norephedrine

64
Dangerous drugs stimulant drugs

Phenylethylamine (????) (3B, p.202)
Resembles amphetamines
Increase blood glucose level and blood pressure
to enhance alertness and a sense of well being
and contentment (???????)
Prescribed to treat narcolepsy (???)
Found in chocolates
High dosage a physiological effect similar to
ketamine

65
Dangerous drugs stimulant drugs

Phenylethylamine (????)

66
Dangerous drugs stimulant drugs

Ketamine and methamphetamine illegal stimulants
in HK
Adverse effect (3B, p.203)
Prolonged abuse will cause
Insomnia (??)
Depression (??)
Loss of appetite (????)
Eventually
Heart and kidney failure (???????)

67
Other dangerous drugs Mandrax (Methaqualone ??,
??? )

sedative hypnotic drug

http//www.indopedia.org/Methaqualone.html
accessed on 28/12/2007
http//www.indopedia.org/Methaqualone.html
accessed on 28/12/2007
68
Other dangerous drugs Mandrax (Methaqualone)
http//www.isomerdesign.com/Cdsa/scheduleUN.php?sc
hedule3sectionALLstructureC accessed on
28/12/2007

Precursor chemicals
Anthranilic acid
N-acetylanthranilicacid

69
Other dangerous chemicals angel dust
(Phencyclidine, PCP Tenocyclidine, TCP)

Originally used as anaesthetic (??)
Exhibits a hallucinogenic (??) effect

http//en.wikipedia.org/wiki/Tenocyclidine
accessed on 28/12/2007
http//en.wikipedia.org/wiki/Phencyclidine
accessed on 28/12/2007
70
Other dangerous chemicals angel dust (PCP TCP)
http//www.isomerdesign.com/Cdsa/scheduleUN.php?sc
hedule3sectionALLstructureC accessed on
28/12/2007

Precursor chemical Piperidine

71
Other dangerous drugs cocaine???

A stimulant drug

http//en.wikipedia.org/wiki/Cocaine accesed on
27/12/2007
72
Other dangerous drugs cocaine
http//www.isomerdesign.com/Cdsa/scheduleUN.php?sc
hedule3sectionALLstructureC accessed on
28/12/2007

Precursor chemicals
Potassium permanganate
Methyl ethyl ketone
Toluene
Sulphuric acid
Hydrochloric acid

73
Other dangerous drugs GHB (Gamma
hydroxybutyrate, ??? )

Originally used as a sleep-aid

74
Other dangerous drugs benzodiazepine (BZD,???)

Sedative, hypnotic drug
(???????)
As tranquillizers (???)
Surreptitiously slipped into
the drink of the intended victim

http//en.wikipedia.org/wiki/Benzodiazepine
accessed on 28/12/2007
75
Benzodiazepines
http//en.wikipedia.org/ accessed on 28/12/2007
76
Poster from Customers excise Department
77
Poster from Customers excise Department
(http//www.isomerdesign.com/Cdsa/scheduleUN.php?s
chedule3sectionALLstructureC accessed on
28/12/2007)
78
Viagra (Sildenafil citrate)
79
For treatment of obesity Sibutramine (????)

trade name Meridia in the USA, Reductil in Europe
and other countries)
Structurally related to amphetamines

Amphetamine
Sibutramine http//en.wikipedia.org/wiki/Sibutrami
ne accessed on 28/12/2007
80
For treatment of obesity Dexfenfluramine (??????)
http//en.wikipedia.org/wiki/Dexfenfluramine
accessed on 28/12/2007
81
overview

Drugs and medicine an introduction
Key stages of drug development
Some common drugs
Dangerous drugs
Chiral drugs

82
Syllabus for consideration

11.4 Under relevant activities (3rd column)
Search and present information ion chiral drugs

83
Chiral drugs

What is chirality?
3 types of stereoisomers
Importance of chirality in drug development
Chiral drugs in daily life

84
Chiral drugs

What is chirality?
3 types of stereoisomers
Importance of chirality in drug development
Chiral drugs in daily life

85
What is chirality?

Chirality is the property possessed by a
molecule with such spatial arrangement of atoms
that it cannot superimpose on its mirror image.
The object and mirror image pair of molecules has
the same constituents and structural formula.
Their relationship with each other is similar to
our left and right hands.

86
What is chirality?

The carbon atom of a simple chiral centre has
four different groups arranged tetrahedrally.
Isomers of such nature are called enantiomers.

87
Chiral drugs (????)

What is chirality?
3 types of stereoisomers
Importance of chirality in drug development
Chiral drugs in daily life

88
3 types of stereoisomers (?????)

Enantiomers
Diastereomers
Geometrical isomers.

89
Enantiomers (?????)

Enantiomers are two stereoisomers containing
asymmetric carbon atoms related as
non-superimposable object and mirror images.
If an enantiomer rotates polarized light to the
right or in a clockwise direction, it is said to
be the () or the dextrorotatory isomer.
If the plane polarized light is rotated to the
left or in a counter-clockwise direction, the
isomer is called as the (-) or the levorotatory
isomer.
Enantiomers are identical in chemical and
physical properties except for the direction of
rotation of plane polarized light.

90
Diastereomers (??????)

Diastereomers are stereoisomers that are not
related as object and mirror images.
They contain at least two asymmetric carbon
atoms.
Unlike enantiomers, the physical and chemical
properties of diastereomers can differ and it is
not unusual for them to have different melting
and boiling points, refractive indices,
solubility, etc.

???
????
91
Geometrical isomers (?????)

Geometrical isomers are molecules with a
carbon-carbon double bond and they are not
optically active.
When the groups attached to each end of the
double bond are on the same side, the
stereoisomer is named as cis-isomer when the
groups are on the opposite sides, the
trans-isomer designation is used.

92
Chiral drugs

What is chirality?
3 types of stereoisomers
Importance of chirality in drug development
Chiral drugs in daily life

93
Why is chirality important in drugdevelopment?

Biological systems like that of human beings have
been known to exhibit chirality.
This is reflected by the existence of chirality
of drug receptor areas and the requirement of
chiral specificity on drugs.
In order to understand the biological effect of
drugs, we have to distinguish the three main
phases of their action.

94
Why is chirality important in drugdevelopment?

The first phase is the initial receptor
differentiation phase, where different drugs have
different affinity and tissue specificity due to
receptor (??) differentiation and distribution
for the parent compound formed.
The second phase is the absorption, distribution,
metabolism and excretion phase, where the type of
bioavailability (?????) is determined.
The third phase is the interaction of the drug
with the molecular site of action, leading to the
observed therapeutic effect (??).

95
Why is chirality important in drugdevelopment?

The three phases of action are based on the
receptor theory, similar to the lock-and-key
hypothesis proposed by the famous scientist Emil
Fischer.
Receptor molecules in the body are proteins that
exhibit high affinities for the binding of
molecules with certain structures.
This is completely analogous to enzyme-substrate
binding.
Mismatching of drug molecules with the targeted
receptors may cause undesirable side effects such
as requirement of higher dosage and increased
toxicity.

96
Why is chirality important in drugdevelopment?

All pharmacological activity may reside in one
enantiomer.
The therapeutic inactive isomer is regarded as an
impurity that possesses a different or
undesirable pharmacological entity.
This situation may become even more acute if the
active enantiomer exhibits a low therapeutic
value or there is clinically significant
toxicity.
A well-known example of therapeutic-specific pair
is the R- and S-enantiomers of thalidomide (the R
and S designation, after Cahn, Ingold and Prelog,
is a way of naming enantiomers by their
structures).

97
Why is chirality important in drugdevelopment?
98
Why is chirality important in drugdevelopment?

The R-enantiomer is an effective sedative (???),
which is a medication with calming and soothing
effect that relieves anxiety(????) and promotes
sleep(??).
However, the S-enantiomer may cause teratogen
(??) formation.
A teratogenic foetus is one with deficient,
redundant, misplaced or grossly misshapen
parts.(???????????????????)
S-Thalidomide was shown to be responsible for
over 2,000 cases of serious birth defects in
children born of women who took it during
pregnancy.

99
Chiral drugs