final exam 1 Smester Q

Question 1

15. Types, structure and location of cholinergic receptors. Signal transduction. M-cholinergic
    agonists: pharmacological effects, therapeutic application, side effects.

Answer 1

-parasympathetic ( cholinergic receptors)
- and this receptors divided into 2
1-muscranic receptor (M) : which follows the mechanism of G-protein receptor
2-Nicotinic Receptors (N) : which follows the Ion channel receptor
first of all we need to know that ( Gq ) means: second massinger and thats will :
1- increasing the Calsm
2- decreasing the CMP and we will refer to it by (+)
–signal transduction : when the M1-m3 activated THEY ACTEVAT G protein which will actevate Phospholipse c which will actevate the second massgner ( IP3/DAG ) which will cause Calcium influx and cause hyperpolarztion
-about M2 when its acitvated its decrese the CAMP which will decrace the cardiac work
—1— Muscrinc Receptor location and effects
1-M1+ : CNS , (Gastric mucosa , HCL secretion, gall bladder )
2-M2: (heart , bradycardia) + (smooth muscles )
3-M3+:
3-1: bronchial smooth muscles ( bronchi construction)
3-2 : blood vessels ( vasodilation)
3-3: Eye ( Meiosis and gland secretion )
3-4: GIT and urinary ( contractions of the wall and relax of the sphincter)
4-M4: CNS
-2-nectoinc Receptor location and effects :
— there is 2 type of them
1- Nectoinc Neural (Nn) : which found in
1-1 CNS
1-2: Adrenal medulla
1-3: autonomic Ganglion
—and its effect on the heart is :
1- Chronotropy : heart rate
2- Iontropy : force of the contraction
3-Dromotropy: conduction of electrical impulse through ( Av node )
————
2-Nectonic Muscular ( Nm) which found in the skeletal muscles
-Cholonirgic agonist :
1-1: muscranic agonist: they are two Direct and indirect
–Direct : direct action on the receptor : is mean that the drug changing the vital activity of the drug and bu that changing the effectiveness
-Drug :
1- Pilocarpine 1-5% Eyedrops
2- Cevimeline tablets 30mg for adults
-( direct action on the receptor)
- mechanism for pilocarpine :stamulate M receptor miosis which lead to open the canal of sechlem and tubercle meahwerk and the Equaceumer goes out so the Iop decreases
-pahrmalogical effect :
1- Decrese the COP
2-Decrece bp
3-increace secreatin
4-increace bronchdilator effect
5- increace GIT motality
-Uses to treat : dryness of the body or Suögern syndrome
-side effect : -we can shortcut it in words
» DUMBLES
-D: Diarrhia -U: Urintation -M: miosis
-B: Bradycardia + Broncho construction -L : lacrimation -E: emesses > vomiting + excitation of the CNS -S: salivation
–indirct : its mean its the drug inhibit the AchE enzyme which results in accumulation of ach and stimulation of both M and N receptor
— type of bonds :
1- Reversible : Anticholino Esterase they do Carbomilation of the Enzyme for 2-3 hours
2- Irreversible : anticholino Estrase yheu do phospharlation and they inhibit the AchE for long duration
-Drug : Neostigmine 0,015 T
(indirect act on receptor)

Question 2

16. M,N-cholinomimetics (cholinergic agonists). Direct and indirect action. The pharmacological effects, therapeutic application, side effects and contraindications. Principals of organophosphate poisoning treatment. Example of drug prescription

Answer 2

• direct action on the receptor : is mean that the drug changing the vital activity of the drug and bu that changing the effectiveness
  -indirect action on the receptor: its inhibit Ach Esterase Enzyme which lead to Accumulation of Ach and staminate both M and N receptors
  — Dircet acting drugs :
  -Acetylcholine , carbachol , bethanechol
  -mechansim : dircet acting drugs they are effecting Ach dirctly on cholinorecptor
  -classification :
  1- cholinoester : Acetylcholine , carbachol , bethanchol
  2- natural ester : Pilocarpine
  —Direct acting drugs : Acetylcholine & Bethancholi
  -Pharmacological effect :
  1-Decrees COP and Bp
  2-Increase Bronchial secretion
  3-increase GIT motilty
  4-Contraction of urinary bladder
  -Side effect : Dumbels
  -CI :
  Heart block , peptic ulcer ,bronchial asthma
  ————————
  -Indirect drugs : there is reversabl and irreversible
  1-Reversible: Rivastigmine , Neostigmine Tabs
  2-irreversible: Organophsphat
  -Mechanism: there is reversible which inhibits the action of anticholinoestrase enzyme which lead to accumulation of The Ach in the synaptic gap / irreversible agents such as organophosphate have the ability to bind to ACHE which lead to accumulation of the Ach in the Synaptic gap and lead to toxicity
  —Side effect : Dumbels
  -uses : for myathinoa graves , and alzahimer

Question 3

17. M-cholinergic antagonists. Example of drug prescription. The pharmacological effects,
    therapeutic application, side effects and contraindications. Principals of atropine overdose
    treatment.

Answer 3

— they are 2 types
1- natural compounds alkaloyd : Ex Atropin Amp from the planet Atropepladona
2- sime-synthatic : Ipratropium bromide
—- general features of natural compounds
1- they are tarshally amine
2- non selective ( blocks M1, M2,M3 )
-Dif of muscranic blockers: its substance which will block or inhibit the muscranic receptor
-—Kenatics :
1- absorption : good
2- distribution : all the body include CND
3-metabolism: liver
4-excretion : portion metabolise and another unchanged
— pharmalogical effects :
1-CVS : by blocking the M2 which located in the atrium it will decrease the heart rate and if it high dose > tachycardia
2-blood vessels : which consist of M3 there is nothing will happen because the B.V is non innervated receptor
3-Respiratory system : the bronchi which consist of M3 : inhibit the bronchi construction and it will cause bronchi dilation, passive effect bcs receptor a1 will take lead
4-GIT and urnary : which consist of M3 if get blocked will lead to relax of the wall and close of the sphincter ( could casue a constapation and urin retention )
- and HCL will decrease
5-Exocrine glands : which consist of M3 blocking of the receptor will lead to dryness of all body and hypothermia
6- Eye :1- cycloplegia passive midrosis
2-dryness of the eye
7- CNS : SAD-HC
- side effect :
1- glaucoma
2- tachycardia
3-Constapation + urin retention
4- Dryness
–Uses :
1-bronchil asthma
2-Dahrria
3-myocardial infraction ( to treat the bradycardia)
4-uncontrolled bladder
-CI :
1-Narrow angle glycoma
2-obetrectve diase of GIT
3-hyperplasia
—Atrpoine over dose :
it should be use a cholonirgic agoinst to revers the effect of atropine the most reversable one is physiostigmine

Question 4

18. Drugs affecting the N-cholinergic receptors. Ganglionic blockers. The pharmacological effects, therapeutic application, side effects and contraindications.

Answer 4

18 Drugs affecting the N-cholinergic receptors. Ganglionic blockers. The pharmacological effects,
therapeutic application, side effects and contraindications.
———————–
— there is 2 type of them
1- Nectoinc Neural (Nn) : which found in
1-1 CNS
1-2: Adrenal medulla
1-3: autonomic Ganglion
—and its effect on the heart is :
1- Chronotropy : heart rate
2- Iontropy : force of the contraction
3-Dromotropy: conduction of electrical impulse through ( Av node )
————
2-Nectonic Muscular ( Nm) which found in the skeletal muscles

1- ganglioinc blocker:
-drugs :Trimethaphan A 0.25
-mechanasim: they are compatator blockers for ach at the recptor of both para and sympathatic ganglion
-pharmalogical effect : bcs of the lack of selctivity they are rarly used in clincal agncy
-uses: hypertension
-CI : hypertintion

Question 5

19. Drugs affecting the N-cholinergic receptors. Muscle relaxants. The pharmacological effects, therapeutic application, side effects and contraindications. Example of drug prescription.

Answer 5

• neuromuscular blocker :

2.1: non depolarised
-drugs : Tubocurarine A 1%-1.5ml
its the prototype and there a drevativis
1-mivacurium. A 2%-5ml
2-Atracurium A 1%-5ml
— all these drugs connot given orally bcs they can pass BBB
- metabolism:
_mivacurium : by pesedu Ach enzyme
_Atracurium : by hydrolysis in plasma
— duration :
- mivacurium : 20min
- Atracurium : 30 min
—-
-mechanism of effect :
compatative block of Ach at the Nm receptors so thats will lead to muscles relaxation by Ach inhibit
—
-to undo the bond we give neostigmine
— adverse effect :
1-skeletal muscles relaxant could devolp into paralysis
2- histamine release so could cause hypotension
3-blood vessels: decrease Bp
——
— uses : skeletal muscles relaxation during operation
——————————
2-1 Depolarised neuromuscular blockers
-drugs : Succinylcholine A 2%-5ml
-mechanism of effect : its consist of 2 phases
-phase 1 : when succinylcholine bind with nicotinic receptor open Na+ channel so lead to depolarization so the muscles contract and the succinylcholine keep bind to receptor and Na+ keeps entering till it reach muscles fatigue
- phase 2 : not necessary to happend in all patient doing the depolarization the muscles dont respond to ach which is temporary paralysis
- pharmacological effect :
1-produce muscles contraction followed by the paralysis
2-release histamine
- therapeutic use : relaxation during surgical operation
- side effect:
1- bradycardia’s
2-muscles pain post op
3-increase bronchi secretion
- Contra indication :
1- hyperkLmia
2-bradycardia
3-hypotension

Question 6

20 Types, structure and localization of adrenergic receptors. Signal transduction. α-adrenomimetics
(adrenergic agonists): the pharmacological effects, therapeutic application, side effects and
contraindications.

Answer 6

-Second massager : all the adroginic receptor in the body follow the concept of second massager and they are
> G Protein Linked receptor > IP3 > Ca ++++
————-
1- a1 : follows the Gq second massager
- location :
1-1 Blood vessel’s : V.c
1-2 Uterus : contraction ( but not strong for apportion )
1-3 Eye in the dilator pupil ( radial M.c) : contraction so cause Mydriasis
1-4 GIT & uriniry: in the wall > relaxtion of the wall and contraction of the sphincter
——-
2- a2 : follows the Gq second massager
-Location : they are presynaptic receptor so they located only in the nerves terminal , if they activated they inhibit the Norepinephrine and they called ( selective a2 agonist )
——-
3-B1 : follows the CAMP second massager
-location :
3-1heart > increase all the cardiac properties:
HR,contractility,conductivity,Etc
3-2:Kidney > they are responsible for secretion of Renin
3-3 : Adipocytes
——-
4-B2 : follows the Camp second massager , and its the main roller of fight or flight mode
-location :
4-1:Skeletal muscles :
- facilitate of the nerve muscular transmission
-increase the blood flow by v.d of the blood vessels
-potassium shift : from the blood to the muscles but could cause hypokalmia
4-2:Coronary artery > dilation
4-3: Bronchi > bronchial dilatation
4-4:Liver : gulcogen to glucose
4-5: Eye: regulating the Eye pressure by increase the secretion of Eqousumer
4-6: Uterus > relaxation of the muscles in the Emergency time to prevent apportion
NB! sometime cause Tremors
———————————–.
-Epinephrine = adrenaline A0.1%-1ml
— its natural in the body located in the
1- nerve terminal
2-Supra renal gland
— Chemistry of Epinephrine:
1- its caticol ring
2- its very sensitive so it can be oxidetis by light and air when its oxidation it become darker in colour and its become toxic called : Adrenochrom
— Phramcokinatiks of Epinephrine:
1- absorption: not orally bcs its water sulable and also in the intestines MAO enzyme which break it down so fast > so only though inhalation or subcouenus
2- destrbuation: goes and distributed all over the body but can pass the BBB bcs its caticol ring
3- metabolism: by MAO enzyme
4- excretion : by 2 forms > -Metanephrine , -Vanlail mandalic acid
— ROA: 1-subcountenous
2-IV( only emergency)
3- inhalation
4-intermascular ( best way )
—-Mechanism of Epinephrine:
- it will stimulate > a1 , a2,b1,b2,b3
NB! the mechanism on a2 its not that effective bcs a2 its parasympathetic
- molecular mechanism : through the 2nd massinger Gq and Camp
—Pharmalogical effect :
1- Heart : it will positive all the heart functions like : chronotropy , inotropy
and if the dose is high > Arethmia and ventricular fibration
2- Blood pressure (Bp) : maximum : 140 systole and 90 dystol , but with Epinephrine :
> systole controlled by cardiac out put
> dystol controlled by peripheral resistance
so it will increase the systole and decrease the dystole in the therapeutic dose
- in the high dose it will increase the dystole bcs the a1 will dominate on B2 which is do V.D so the result V.C
3-bronchi (B2): it will cause broncho dilatation and V.c of the blood vessels in the bronchi which will inhibit the gland from secretion of water and stop the sputum which called :
> broncho decongtion
-4 Eye : decrease the inter ocular pressure by effecting on the cillirly blood by cuseing V.C which will results of decreasing the secretion of the Eqousumer
5- liver : increase the glycolysis so increase the blood glucose
6- hypokalima
—uses :
1-Acute Anephlictic shock :
its type of hypersensitive also called immediate hypersensitive its happened duo to : - Pincillen or - bee bites
- for example : Pencillin hypersensitive your penicillin goes to mast cells and destroy it which is reales the Histamine and histamine will do - sever broncho constraction and sever vasodilation
so treatment by injecting Epinephrine intermsacular in the lateral thigh because the Epinephrine will effect by
- bronchi dilatation
and
- vasoconstriction
2-Acute broncho spasm :its more happens to the kids bcs they had a small airway in the larynx so duo to coughing the larynx wall will get inflammation and edema in the wall of larynx so the airway will get closed and the kid will be hard for him to breath so we give epinephrine to do V.c of the blood vessels of the larynx wall it will decrease the secretion and the edema will disappear and bronchi dilation
3-Cardiac arrest: cardiac arerest means no effective Pules
- so we give Epinephrine Amp through IV so it will result of V.C then we do CPR
4-Local anithtics : for Anastasia with epinephrine so we do vasoconstiction of the blood vessles to stop the blood from washing the anastegic drug
—addvers effect:
1-hypertension
2-cerebral haemorrhage
3-Tremors
4-Tachycardia >Arrhythmia > ventricular fibration
5- Acute heart failure
6- Acute pulmonary Edema( by increasing the heart contractility
——Contra indication :
—- Patient with :
1- hypertension
2-C.V.S diseases
3-high dose
4- cardiac out flow obstruction like: Aortic stenosis
5- Hyper trophic obstruction cardiac Mayobothy : its case in the interventrecular Septum the width of it its normally 12 mm but in the case the Septum with ageing getting thick till reach 17 mm and block the aortic valve , so if we give Epinephrine it will increase the contractility of the heart and the blood will stay in the heart bcs the obstruction

Question 7

21 α,β-adrenomimetics (adrenergic agonists): the pharmacological effects, therapeutic application,
side effects and contraindications.

Answer 7

-Drug :Epinephrine A0.1%-1ml
-Drug : Norepinephrine 0.2%-1ml selctive a more then B
-Drug: Isoprenaline 0.5%-1ml slective B more then a
-Drug alpha : phenylephrine a1 ,Clonidine tab , Xylometazoline nasal drops
–they are synthisis and the pathway is : tyrosin is hydrolate into dopa by the effect of tyrosin hydroxlation then dopa is carboxalte into dopamine then to norepinephrine to epinehprine
— its natural in the body located in the
1- nerve terminal
2-Supra renal gland
— Chemistry of Epinephrine:
1- its caticol ring
2- its very sensitive so it can be oxidetis by light and air when its oxidation it become darker in colour and its become toxic called : Adrenochrom
— Phramcokinatiks of Epinephrine:
1- absorption: not orally bcs its water sulable and also in the intestines MAO enzyme which break it down so fast > so only though inhalation or subcouenus
2- destrbuation: goes and distributed all over the body but can pass the BBB bcs its caticol ring
3- metabolism: by MAO enzyme
4- excretion : by 2 forms > -Metanephrine , -Vanlail mandalic acid
— ROA: 1-subcountenous
—-Mechanism of Epinephrine:
- it will stimulate > a1 , a2,b1,b2,b3 By the 2nd massenger of Gq > IP3 / DAG or CAMP
NB! the mechanism on a2 its not that effective bcs a2 its parasympathetic
- molecular mechanism : through the 2nd massinger Gq and Camp
—Pharmalogical effect :
1- Heart : it will positive all the heart functions like : chronotropy , inotropy
and if the dose is high > Arethmia and ventricular fibration
2- Blood pressure (Bp) : maximum : 140 systole and 90 dystol , but with Epinephrine :
> systole controlled by cardiac out put
> dystol controlled by peripheral resistance
so it will increase the systole and decrease the dystole in the therapeutic dose
- in the high dose it will increase the dystole bcs the a1 will dominate on B2 which is do V.D so the result V.C
3-bronchi (B2): it will cause broncho dilatation and V.c of the blood vessels in the bronchi which will inhibit the gland from secretion of water and stop the sputum which called :
> broncho decongtion
-4 Eye : decrease the inter ocular pressure by effecting on the cillirly blood by cuseing V.C which will results of decreasing the secretion of the Eqousumer
5- liver : increase the glycolysis so increase the blood glucose
6- hypokalima
—uses :
1-Acute Anephlictic shock :
its type of hypersensitive also called immediate hypersensitive its happened duo to : - Pincillen or - bee bites
- for example : Pencillin hypersensitive your penicillin goes to mast cells and destroy it which is reales the Histamine and histamine will do - sever broncho constraction and sever vasodilation
so treatment by injecting Epinephrine intermsacular in the lateral thigh because the Epinephrine will effect by
- bronchi dilatation
and
- vasoconstriction
2-Acute broncho spasm :its more happens to the kids bcs they had a small airway in the larynx so duo to coughing the larynx wall will get inflammation and edema in the wall of larynx so the airway will get closed and the kid will be hard for him to breath so we give epinephrine to do V.c of the blood vessels of the larynx wall it will decrease the secretion and the edema will disappear and bronchi dilation
3-Cardiac arrest: cardiac arerest means no effective Pules
- so we give Epinephrine Amp through IV so it will result of V.C then we do CPR
4-Local anithtics : for Anastasia with epinephrine so we do vasoconstiction of the blood vessles to stop the blood from washing the anastegic drug
—addvers effect:
1-hypertension
2-cerebral haemorrhage
3-Tremors
4-Tachycardia >Arrhythmia > ventricular fibration
5- Acute heart failure
6- Acute pulmonary Edema( by increasing the heart contractility
——Contra indication :
—- Patient with :
1- hypertension
2-C.V.S diseases
3-high dose

Question 8

22 β-adrenomimetics (adrenergic agonists): the pharmacological effects, therapeutic application,
side effects and contraindications. Example of drug prescription.

Answer 8

• drug : Dobutamine 1%-1ml
• its synthatic and has caticol ring
  -mechanism of action : stimulate B1 in the cardiac which lead to increase the cardiac out put
• uses or treatment : to treat Cardioginc shock
  -Roa: IVi ( intravenous infusion) in salain or glucose
  —-
• Drug : Salbutamol T 0.0002 , long duration Salmeterol and Formoterol spray 1= 0.00005 , fenoterol T 0.005
• they are synthatic non caticolmine so they could be giving orally and BBB pass
• mechanism of action : stimulate B2
• pharmacological effect :
  1- V.D blood vessels of sklatel muscles
  2- V.D coronary artery
  3- relaxation of uterus
  4- glycolysis so increasing blood glucose
  5- bronchi dilatation
  6- treatment or uses :
  — Salmeterol > spray : for bronchial asthma
  — fenoterol : for utrine relaxation
  —— advers effect : TTT
  1- tachycardia
  2- tremors
  3- tolerance
  —C I :
  Diabetes. Hypokalemia. Seizures. angina

Question 9

23 α-adrenergic blockers: the pharmacological effects, therapeutic application, side effects and contraindications. Example of drug prescription.

Answer 9

• they are 3 classes :
  1- a1 + a2 non selective blockers
  2- a1 selective blocker
  3- a2 selective blocker
  —————
  1- a1 : follows the Gq second massager
• location :
  1-1 Blood vessel’s : V.c
  1-2 Uterus : contraction ( but not strong for apportion )
  1-3 Eye in the dilator pupil ( radial M.c) : contraction so cause Mydriasis
  1-4 GIT & uriniry: in the wall > relaxtion of the wall and contraction of the sphincter
  ——-
  2- a2 : follows the Gq second massager
  -Location : they are presynaptic receptor so they located only in the nerves terminal , if they activated they inhibit the Norepinephrine and they called ( selective a2 agonist )
  ——-
  3-B1 : follows the CAMP second massager
  -location :
  3-1heart > increase all the cardiac properties:
  HR,contractility,conductivity,Etc
  3-2:Kidney > they are responsible for secretion of Renin
  3-3 : Adipocytes
  ——-
  4-B2 : follows the Camp second massager , and its the main roller of fight or flight mode
  -location :
  4-1:Skeletal muscles :
• facilitate of the nerve muscular transmission
  -increase the blood flow by v.d of the blood vessels
  -potassium shift : from the blood to the muscles but could cause hypokalmia
  4-2:Coronary artery > dilation
  4-3: Bronchi > bronchial dilatation
  4-4:Liver : gulcogen to glucose
  4-5: Eye: regulating the Eye pressure by increase the secretion of Eqousumer
  4-6: Uterus > relaxation of the muscles in the Emergency time to prevent apportion
  NB! sometime cause Tremors
  ——
  5-B3:follows the Camp second massager
  -location : in the adipocytes tissue specifically in the upper part of the body so when its activate cause Lipolysis
  ————-
  ( non-selctive)
  —Drug : , Phentolamine tab 0.025
  -mechanism: irreversible antagonist at both a1 & a2 its bind covintally with receptor which lead to long blocked of the receptor
• pharmacological effect:
  1-orthostatic hypotension
  2- reflex tachycardia
  — uses : to treat Pheochromocytoma but it should be described with B blacker ( Propranolol )
• side effect :
  1-orthostatic hypotension
  2- impairment of ejection ( male )
  3- Meiosis > bcs blocked of a1 in the eye ( redial M.)
  ———–
  (Selective a1 blocker)
• Drug : 1- Prazosin 2- Doxazosin longest duration
  3-Tamsulosin all Tabs
• mechanism: blockes a1 receptor mainly in the blood vessels which lead to V.c and relaxation of smooth muscles of artery and vines
• pharmacological effect :
  it cause minimal changes in :
  1- renal blood flow
  2-Glomerular filtration rate
  and improve lipids profile
  — uses or treatment:
  1- mild or moderate hypertension
  2- treatment of congestive heart failure by decreasing the pre load and after load
  3- prostatic hyperplasia ( enlarged prostate ) we use Tamsulosin
  — adverse effect :
  1- first dose hypotension
  2- fluid retention
  3- false positive test of antinuclear factor of rhemtoid arthritis
  4- in female urine incontenance
  ————
  (selective a2 blocker)
  -Drug : Yohimbine T 0.025
• mechanism: selective a2 blocker presynaptic in the nerve ending
• phramalogical effect : leads to increase the norepinephrine release
• uses : Used sometimes as Aphrodisiac without clinical evidence

Question 10

24. β - adrenergic blockers: the pharmacological effects, therapeutic application, side effects and contraindications. Example of drug prescription.

Answer 10

• classes :
  1- B1+B2 blockers
  2- B1 blockers
  3- mixed B+a blocker
  —- Prototype : Propranolol
  ——- chemistry:
  they are 2 types :
  1- lipophilic : B-blocker ex Propranolol can pass to CNS and cleared by haptic metabolism ( first pass metabolism)
  2- hydrophilic: B- blocker ex Atenolol have limited penetration to CNS and execrated primarily by kidney with little of hepatic metabolism
  — Phramcokintks :
  1- absorption: B- blockers are absorbed well after oral administration and many of them have low Bioavailability because of extensive first pass metabolism
  — mechanism: blocked B1 + B2 receptor
  —Pharmacological effect:
  1- C.V.S :
  1.1 - Heart (b1) : decrease the cardiac properties
  1.2 blood vessels (b2) : prevent the V.D from B receptor in the - coronary artery
  -skeletal muscles blood vessels
  1.3 Bp : hypotension by > decrease the Cop , Decrease secretion of renin , resting of the baro reflex
  2- respiratory : by blocking the B2 in the bronchi the dominant will goes to the parasympathetic which lead to 2.1-B.C
  2.2- bronchospasm
  3- eye : decrease the IOP duo to blocking the B2 in the epithelium in the ciliary body
  4- CNS : anxiety , nightmares , sexual dysfunction
  5-skeletal M. : decrease the Essential Tremors
  – side effect :
  1- fatigue
  2- broncho construction
  3- Brady cardia or heart block
  4- Prephral ischemic
  —Uses :
  1- hypertension
  2- ischemic heart disease ( classic angina )
  becs> decrease the myocardial work , increase the systole fling time
  , Redistribution of the blood ,
  metabolic switch from FFA to glucose
  3- Supra ventricular tachy S.V.T :
  its disease that is the SA nodes increase the condectellty so by blocking the B1 we decrease the condactellty and increase the refractory period of SA nodes
  4-hyper trophic myobothy
  5- glaucoma : timolol and betaxolol bcs they are lipophilic
  6- pheochromocytoma
  —– special effect of B blocker drugs :
• Propranolol: has local anesthetic ( inhibit excitability of cardiac muscle)
  -Pindolol : its partial antagonist ( so no excessive bradycardia )
  -Esmolol : it has very short acting ( so it used during surgical operation for acute hypertension)
  -Labetolol : blocks a and B receptor so its good for pheochromocytoma
• Carvedilol : antioxidant action
• ## Nebivolol : its the most selective B1 blocker( B blocker non-selective)
• Drug : 1- Propranolol Tab or Amp 2-Timolol Eyedrops
  -mechanism: block the B1 and B2 receptor
  -pharmacological effect :mentioned in the general description of the B blocker
  -uses : 1- hypertension propranolol
  2-glucoma Timolol
  2- ischemic hear disease ( classic angina )
  3-Cardiac S.V.T
  4-hyperthyroidism
• side effect :
  1- broncho construction
  2-hypotension
  3-bradycardia
  4-heart failure
  ————-
  ( blocker-selective B1)
  -Drug : 1-Metoprolol 2-Bisoprolol
  3-Atenolol 4-Betaxolol 5-Nebivolol all tabs
  -mechanism: inhibit B1 in heart
• uses :
  1- anti hypertension
  2- anti anginal
  — side effect :
  1- brandy cardia
  2- hypotension
  3-heart failure
  ————
  (B+a blocker class mixed antagonist)
  —Drug : 1- Carvedilol Tab
• mechanism: inhibit b and a1 receptor
• uses: in emergency for acute hypertension
  and for pheochromocytoma
• side effect : hypotension

Question 11

41. Sedative-hypnotics. Benzodiazepine derivatives: mechanism of action, pharmacological
    effects. Differences between barbiturates, benzodiazepines, zolpidem and buspirone. Example of drug prescription.

Answer 11

1-Barbiturates
2-Benzodiazepines
3- Z drugs
4- other drugs
———–
—-Barbiturates
-1-Chemistry :
- all are derivatives from barbituric acid so they are acidic drugs
2- Classification:
2-1 ultra short acting : Thiopental IM
2-2 long action : phenobarbital tab
3-pharmacokinetics:
— all pass BBB and placenta and secreted in the breast milk
4- mechanism of action :
- its dose dependent so :
4-1 normal dose : Allostric modulation of GABA action of GABA - receptor > Enhancement of Cl- conduce > hyperpolarzion > pharmacological effect 4-2 in case of large dose the Barbiturates will compete in the same site of The GABA receptor&raquo_space; and will do the same as before but there be CNS depression
5-pharmacological effect :
5-1 Antianixty effect : in small dose (not much used in this purpose )
5-2 hypnotic effect: in large dose ( and its main use of the drug )
5-3 anaesthetic effect : thiopental drug
5-4 AntiConvaltions effect : phenobarbital
5-5 S.K muscles relaxation
5-6 General CNS depression in large dose including medullary centre
6- uses or treatment:
6-1 phenobarbital: for tonic clonic
6-2 thiopental : for short acting anaesthesia
6-3 promodine used for antiConvaltions
7-treatment of toxicity:
7-1 mechanical ventilator
7-2 iv fluids
————-
—Benzodiazepine
-1-Chemistry :
- all membranes containes fusion of benzen ring with diazepine ring
2- Classification:
2-1 short acting : Midazolam
2-2 intermediate acting : Lorazepam - oxazepam
2-3 long acting : Diazepam - clonazepam
3-pharmacokinetics:
— all pass BBB and placenta and secreted in the breast milk
4- mechanism of action :

4-1 normal dose : Allostric modulation of GABA action of GABA - receptor > Enhancement of Cl- conduce > hyperpolarzion > pharmacological effect 5-pharmacological effect :
5-1 Antianixty effect : in small dose (good results and main use for this perpus)
5-2 hypnotic effect: in large dose
5-3 anaesthetic effect : midazolam
5-4 AntiConvaltions effect : Diazepam - clonazepam
5-5 S.K muscles relaxation
5-6 antergred amnesia
6- uses or treatment:
6-1 Antianxiaty
6-2 insomnia : temazepam
6-3 AntiConvlation: clonazepam
6-4 abscinse seizures : Diazepam
6-5 status epileptics : Diazepam IV
6-6 short surgical operation: midazolam
7-treatment of toxicity:
7-1 drug called : Flumazenil Amp
———-
Z drug
-Drug : Zolpidem Tab 10mg
- mechanism of action : they are structurally different from BZD but they act bu the same mechanism but bind to GABA-A receptor at site close to BDZ
–mechanism : BZD receptor agonist
-pharmacological effect:
1- they are specific hypnotics only
-treatment or uses :
1- to treat insomnia
-adverse effect : risk of dependent and tolerance
- treatment of toxicity:
drug : Flumazenil Amp
——–
-Drug : Buspirone Tab
-mechanism: its 5-HT1A agonist in mid brain
NB! Presynaptic autoreceptors on serotonergic cell bodies in the raphe nuclei , Upon stimulation, these receptors inhibit the firing of 5-HT neurons
-pharmacological effect:
1- selective Antianxiety so no hypnotic effect or Mc relaxation effect
2-its suppress anxiety after long delay 10-14 D
-precaution : don’t mix buspirone with SSRIs it will cause a serotonin syndrome

Question 12

42 Benzodiazepines: indications for use, side effects. Specific antagonist of benzodiazepines. Example of drug prescription

Answer 12

—Benzodiazepine
-1-Chemistry :
- all membranes containes fusion of benzen ring with diazepine ring
2- Classification:
2-1 short acting : Midazolam
2-2 intermediate acting : Lorazepam - oxazepam
2-3 long acting : Diazepam - clonazepam
3-pharmacokinetics:
— all pass BBB and placenta and secreted in the breast milk
4- mechanism of action :

4-1 normal dose : Allostric modulation of GABA action of GABA - receptor > Enhancement of Cl- conduce > hyperpolarzion > pharmacological effect 5-pharmacological effect :
5-1 Antianixty effect : in small dose (good results and main use for this perpus)
5-2 hypnotic effect: in large dose
5-3 anaesthetic effect : midazolam
5-4 AntiConvaltions effect : Diazepam - clonazepam
5-5 S.K muscles relaxation
5-6 antergred amnesia
6- uses or treatment:
6-1 Antianxiaty
6-2 insomnia : temazepam
6-3 AntiConvlation: clonazepam
6-4 abscinse seizures : Diazepam
6-5 status epileptics : Diazepam IV
6-6 short surgical operation: midazolam
7-treatment of toxicity:
7-1 (antagoinst ) drug called : Flumazenil Amp
-side effect :
1-drawness
2-ataxia
3-Resp Depression
4-tolarance and physical depndens

Question 13

43 Antiepileptic drugs and mechanisms of action. Drugs for epileptic status. Example of drug prescription.

Answer 13

-classifiction of epilepcy
1- generalized
1-1 Absences seizures
1-2 myoclonic seizures
1-3 tonic clonic
—-
2- focal
2-1 preserved awareness
2-2 impaired awareness
2-3 secondary generalization
—-
NB! if the epilepsy cor more 20 min its called Status epileptics
NB! Fibril seizures occurs in the children when the high fever
—————-
1- first generation :
1-1 phenytoin
1-2 carbamazepine
1-3 Valproate
1-4 ethosuximid
1-5 phenobarbital
1-6 benzodiazepines
——
2- 2nd generation :
2-1 Vigabatrin
2-2 Lamotrigine
—————–
-Drug : Phenytoin tab 0.117
-its first generation drug
-mechanism: inhibit the electrical excitability of neuron by blocking the Na+ channel
( enzyme inducation )
-uses :
1- tonic clonic
—————
-Drug : Carbamazepine tab 0.2
-its first generation drug
-mechanism: inhibit the electrical excitability of neuron by blocking the Na+ channel
( enzyme inducation )
-uses :
1- tonic clonic
2-Focal seizures
———-
-Drug : Valproate tab 0.3
-its first generation drug
-mechanism: mixed mechanism :
1-inhibit the electrical excitability of neuron by blocking the Na+ channel
2-inhibit GABA-t so GABA decrease the neuronal firing
3-block Ca2+ channel
(enzyme inhibt)
-uses :
1- all epileptic seizures but more favorable tonic clonic and myoclonic
———–
-Drug : Ethosuximide tab 0.25
-its first generation drug
-mechanism: block T-type Ca2+ channel in the thalami cortical neurons
-uses : Absence seizures
———-
-Drug :phenobarbital Tab 0.05
-its first generation drug
-mechanism: mixed :
1-Allosteric modulation of Gaba-A receptor
2-Gaba like action ( in large doses)
-uses :
1- tonic clonic
2-Status epileptics
———
-Drug : Diazepam Amp 0.5% -2ml
-its first generation drug
-mechanism: allosteric modulation of GaBa-A receptor
-uses :
1-first line status epileptics
———–
-Drug : Lamotrigine tab 0.5
-its 2nd generation drug
-mechanism: mixed :
1-block Na+ channel
2-decrease the glutamate release
-uses :
1- all type of seizures
-Side effect : steven jhonson syndrome

Question 14

44 Antiparkinsonic drugs: mechanisms of action. Drugs that cause schizophrenia-like symptoms. Example of drug prescription

Answer 14

• ## its movement disorder characterized by M.s rigidity and tremors and postural instability duo to loss of Dopaminergic neurons in the Sub-statntia nigrea and locus ceruleus resulting in imbalance of Dopaminergic ( inhibitory ) and cholinergic ( excitatory ) influence on the Extrapyramdial systems-1-Dopaminergic drugs :
  1-LevoDopa
  2-Selegiline
  3-Dopamine agonist
  4-Amantadine
  ———-
  1-Drug:L-Dopa ( LevoDopa)
  —-pharmacokinetics:
  -absorbed rapidly from small intestine
  -amino acid so drugs like : leucin and isoleucine compete with it
• mechanism of action :
  Dopamine cant cross BBB but the L-Dope can thats why we give L-dopa then after it pass the BBB the L-Dopa get carboxylated to convert to Dopamine
• but to prevent any chance pf carboxylate in the Body tissue we used a drug called Carbidopa which inhibit the carboxylation in peripheral
• and bcs the L-Dopa has short duration of action bcs its metabolise by COMT enzyme so we should give A COMT inhibitor ( Tolcapone or Entacapon )
  —Adverse effect :
  1-neuasa and vomiting
  2-mood changes
  3-Dyskinisa
  4-on/off phenomenon
  ——
  2-Drug: Selegiline
  which is break down the Dopamine
  -adverse effect :
  1- nausea and vomiting
  2- halosanation
  3- insomnia
  ——
  3- Drug : Bromocriptine ( dopamine agonists) (schizophrina like action )
  -mechanism: its dopamine (D2) agonist differ from L-Dopa in faster and longer duration so it will has no On/off phenomenon
  -uses :
  1-Parkinsosm
  2-hyperprolactimia
  3-Acromgly
  4- drug Amantadine
  -mechanism: its antiviral drug for influenza A2 in the Antiprakonsim the mechanism is unclear but maybe duo to increase Dopamine release and decreasing the reuptake
  -adverse effect :
  1-nausea and vomiting
  2-skin pigmentations
  3-hallosantion and mood changes

Question 15

45 Types of opioid receptors. Classification of opioid analgesics. The mechanism of action of tramadol. Prescribe tramadol.

Answer 15

-DF: drug that relieve or decrease the pain sensation
— Classification:
1- Full agonist:
1-1 Morphine amp
1-2 Fentanyl amp
1-3 Trimeperidine
1-4 Codeine tab
—
2-Partial agonist-antagonist
2-1Buprenorphine
2-2 pentazocine
—
3-analgesics mixed mechanism of action :
3-1 Tramadol Amp
—
4-full antagonist:
4-1 naloxone amp
4-2 naltrexone tab
————
-Endogenous ligand : are ligands found naturally in the body and they are 3:
1-Endorphins = muo , delta receptors
2-enkephalins = muo , delta receptors
3-Dynorphins = kaba receptor
——
- receptors and there effect when they are triggered :
1- Muo : analgesic, Rc depression,Euphoria,meiosis,sedation,
suppression of Gi motility , addiction , bradycardia
2-delta : Rc depression, suppression of Gi motility
3- kaba : dysphoria , meiosis,sedation, suppression of Gi motility,addiction
——
1- molecular mechanism:
-opiate receptor stimulation > Gi > inhibit of adenylate cyclase (AC) > decrease the cAMP which inactivation of Ca2 and activate Channel K+ which lead to Hyperpolaraization
2-mechanism of Spinal analgesia
-the receptor m,d,k located in the post horn of the spinal cord so when the drug enter and stimulate these receptors it’s decreasing the SGR ( substnsia of gluntosa of Rolando ) and decrease glutamate which lead to Disinhibition of the descending Anti-nociceptive pathway
3-mechanism of Supraspinal analgesia
the opeite receptor also located in the brain when it’s stimulate they lead to activate the Descending inhibitory pain control which lead to inhibit the of the sensation comes from the spinal
4- NA mechanism :
also these drugs are responsible for decreasing the NA release which lead to decrease the emotional pain
( ex tramadol )

Question 16

46 Pharmacological effects of morphine. The mechanism of its analgesic action. Prescribe morphine

Answer 16

-Drug : Morphine A1%-1ml IV or IM
—Pharmacokinetics:
1- oral absorption: good ( bioavailability 25%) dup to significant first pass
2- T half life :4-5 h
3-metabolism: in the liver by conjugation leading to inactive metabolites
4- Execration : Renal 90% bile ( 10% as conjugated morphine )
- mechanism: its act more on Muo receptor more then D,K :
1- molecular mechanism:
-opiate receptor stimulation > Gi > inhibit of adenylate cyclase (AC) > decrease the cAMP which inactivation of Ca2 and activate Channel K+ which lead to Hyperpolaraization
2-mechanism of Spinal analgesia
-the receptor m,d,k located in the post horn of the spinal cord so when the drug enter and stimulate these receptors it’s decreasing the SGR ( substnsia of gluntosa of Rolando ) and decrease glutamate which lead to Disinhibition of the descending Anti-nociceptive pathway
3-mechanism of Supraspinal analgesia
the opeite receptor also located in the brain when it’s stimulate they lead to activate the Descending inhibitory pain control which lead to inhibit the of the sensation comes from the spinal
4- NA mechanism :
also these drugs are responsible for decreasing the NA release which lead to decrease the emotional pain
—pharmacological effect :
—CNS—
1- analgesic: Dose dependent (morphine can treat all types of pain exempt Itching
2-Euphoria : large dose cause Dysphoria
3-Rc depression: duo to stimulation of M receptor over dose lead to Co2 retention and cerebral VD > increase ICP
4-cough suppression
5-vegal stimulation
6- Vomating and nausea: Duo to CTZ stamulation
—CVS—
1-bradycardia
2-orthostatic hypotension
—Smooth Mc—
1- bronchi construction: duo to vegal stamulation , histamine release
2-Constpation : duo to spasmodic non-propulsive contraction of insistent
3-spasm of sphincter of oddi : sphincter of bile
4-uterus : prolongation of labor by
uclear mechanism
— therapeutic uses :
1-analgesia: for sever pain , Mi acute , post surgery
2- Pulmonary edema : bcs
2-1 decrease stress of patient
2-2 vasodilation ,decreasing the VR preload, decreasing pulmonary congestion
3- sever colic : but not hepatic colic ( billary colic )
—addvers effect :
1- CNS : tolerance and physical dependance
2-CVS : posturla hypotintion
3-RC : Rc depression, bronchi construction
4-GIT : constapation , urin retention
5- Ginto : labor prolongation
6- Eye miosis ( clearn in addiction patient PPP)
—risk of dependence: high
— Contra indication :
1- head truma
2-biallry colic , gallstones
3- hepatic damage: increase the risk of Encephalopathy
4- hyperthyroidism: duo to multiple effect then normal
— treatment of toxicity:
- mansifstion : Coma with Rc depression
- treatment: 1- patient im ventilator and give the patient Opioids blocker (ex Naloxone ) in case the patient not addicted

Question 17

47 Opioid analgesics: indications for use, side effects. Specific antagonists of opioid receptors. Example of drug prescription.

Answer 17

-Drug : Codeine Tab 0,015
-mechanism : Same as morphine act on Muo receptor more then others
- pharmacokinetics: has greater bioavailability (60%) duo to less first pass metabolism
- pharmacological effect :
same as morphine but it has little effect on Euphoria , - as analgesic has 20% potency of morphine
- rusk of depends: middle
-side effect :
1- CNS : tolerance and physical dependance
2-CVS : posturla hypotintion
3-RC : Rc depression, bronchi construction
4-GIT : constapation , urin retention
5- Ginto : labor prolongation
6- Eye miosis ( clearn in addiction patient PPP)
- therapeutic uses :
1- analagisc for modren or milde pain usually mixed with paracetamol
2- As central Antitussive
— therapeutic uses :
1-analgesia: for sever pain , Mi acute , post surgery
2- Pulmonary edema : bcs
2-1 decrease stress of patient
2-2 vasodilation ,decreasing the VR preload, decreasing pulmonary congestion
3- sever colic : but not hepatic colic ( billary colic )
— Contra indication :
1- head truma
2-biallry colic , gallstones
3- hepatic damage: increase the risk of Encephalopathy
4- hyperthyroidism: duo to multiple effect then normal
— treatment of toxicity:
- mansifstion : Coma with Rc depression
- treatment: 1- patient im ventilator and give the patient Opioids blocker (ex Naloxone ) in case the patient not addicted
————————-
Drug :
1- Naloxone A 0,04%-1ml 1h
2-Naltrexone tab 0,05 48h
mechanism: blockes the Opetes receptor M,d,k
-uses : to treat acute opioids toxicity and prevent the Rc depression
contraindications: the addiction patient

Question 18

48 Typical antipsychotic drugs. Pharmacological effects. Example of drug prescription.

Answer 18

-its disorder in pertecular kind of psychological problem charichtrazed by abnormal social behaviour and failure recognise what is the real
- symptoms:
-we have two types of symptoms
1-positive :
1-1 delusions
1-2 unclear thinking
1-3 adutry hallousantion
2-negative:
2-1 reduced social engagement
2-2 Blunted Emotions
—
1- Typical :
1.1 Phenothiazine derivatives :
-Chlorpromazine,Thioridazine
1.2 Butirophenon Derivatives :
-Haloperidol (long acting ), Droperidol
——-
- Drug : Chlorpromazine tab 0,025 ,
A 2,5%-1ml
-mechanism/pharmalogical effect : its block the >
1- Dopamine receptor in :
1.1 Limbic system and misocortical areas > cause SE antipsychotic effect
1.2 CTZ ( vomiting center ) > cause SE Antiemetic effect
1.3 Basal ganglia > cause Extrapyramidal effect
1.4 Pituitary gland > cause increase prolactin release
2- Serotonin receptor ( 5-HT2A) > cause AntiPsychotic effect
3-Adronirgic receptor ( a1) > Postural hypotension , tachycardia
4-Histamine receptor (H1) > Sedation , antiprunic effect
5-Muscranic receptor : Atropine like action > dryness , blurred vision , Constapation
—— Uses :
1- Schizophrenia
2- Intractable hiccough
3- Severe nausea and Vomating

Question 19

Atypical antipsychotics. Their main differences from typical antipsychotics. Example of drug prescription.

Answer 19

-Drug : 1-Clozapine Tab 0,025
2- Olanzapine Tab 0,025
-mechanism: blocks the Dopamine and serotonin receptors in the brain 5-HT2A,D4,M cholinergic,H1,a2
-pharmacological:
1-antipsychotic
2-Sedative and hypotensive ( Clozapine )
- Uses :
1- psychosis that resistant to Typical Drugs
-Side effect :
1- Agranulocytosis ( clozapine )
2- drawnness
3- QT prolongation
——-
-Drug : Riseperidone tab 0,001
-mechanism: blockes 5-HT2A , D2 , a2 , receptor
-pharmacological effect : Antipsychotic
-uses : As antipsychotic in case of Resistance To typical drugs
-side effect : Agitation , anxiety , QT prolongation
——-
-Diffrensis :
1-Typical :
1.1 mainly productive of positive symptoms and little of negative
1.2 cause extrapyramidal manifestation
1.3 cause hyperprolactima
1.4 there mechansim effect mainly D2 receptor
2-Atypical:
2.1 productive of negative symptoms
2.2 practically don’t cause extrapyramidal disorders
2.3 effect mainly 5HT2A recptor

Question 20

50 Antidepressants: classification, mechanisms of action, side effects. Example of drug prescription.

Answer 20

-Reasonse :
1-Genetic : there is 4 genes were approved has relation with depression
2-Biological amines and receptors :
2-1 Amines : Serotonin , norepinephrine, Dopamine
2-2 receptors : D , 5-HT2A , 5-HT2C
—Types of depression:
1- Unipolar : major depression
2-Bipolar : maniac
—-Symptoms:
1-Emotional symptoms:
1-1Anhedonia 1-2 loss of self trust
1-3 loss of motivation
2-Biological symptoms:
2-1 Sleep disorder
2-2 loss of lipido
———-
–Classification :
1- Mono amine oxidase inhibitors
2-tricyclics antidepressant (Tca )
3-selctive serotonin reuptake inhibitor(SSRI)
4-Atypical
5- Selective NA reuptake inhibitors
—-
1- Mono amine oxidase inhibitors
-There is two typs of MAO
1- MAO-A: present in the cytoplasm of the neuron (CNS) and in the peripheral tissue (Liver ) and its act non-specifically on Norepinephrine,5-HT , Dopamine receptors
2- MAO-B : present mainly in the CNS and act mainly on Dopamine receptor
—- Types of MOA inhibitors
1- Selective MAO-A inhibitor : Moclobemide
2- non selective MAO inhibitor : Nialamide
-Drug : nialamide tab 25mg
-mechanism: its non-selective MAO inhibitor so its inhibit Mao A and Mao B irreversibly which lead to accumulation of the Monoamines in The CNS 5-HT, Dopamine in the synaptic cleft
-Pharmacological effect: Analgesic
-Uses : to treat Major depression if the depression is resistant to other drugs
-Side effect :
1-postural hypotension
2-sexual dysfunction
3-CNS stimulation
- Contra indication :
1- Cheese reaction : -Tyramine its indirect sympathomimetics present in some food normally its metabolized by MAO A in the liver
but when the body under A MAO A inhibitor and the patient eat one of the food that consist of tyramine , the tyramine distrusted in the body and cause sever hypotension
- treatment: a blocker + B blocker
( prazosin + propranolol)
-Ex of this food : cheese , beer , fish
2- Serotonin syndrome
–
-Drug : Moclobemide Tab 0.15
-mechanism: its selective MAO A inhibitor in the Neuronal Tissue and peripheral tissue ( liver )
which lead to accumulation of the
NA,5-HT, dopamine in the synaptic cleft
- Pharmacological effect: Psycho stimulating
-Uses : major depression
-Side effect:
1-postural hypotension 2-decrease lipido
3-sleep disorder
- cheese reaction ; high risk
—————–
2-Tricyclic antidepressant drugs
-Drugs : 1- Imipramine tab 0,025
2- amitriptyline tab 0.025
- mechanism : TCA inhibit to the proteins transporter which is responsible for 5-HT and NA reuptake which lead to accumulation in the synaptic cleft >
1- inhibit the NA protein transporter
2- inhibit the 5-HT protein transporter
3-muscranic blocked > atropin like action
4- a-Adrinrgic blocking > postural hypotension
5-H1 blocking > sedation , confusion
6- lower the seizures threshold> and convalescent may occures
—pharmacological effect:
1- antidepressant and sedation
2- antiemetic
3-Psycho stimulation : imipramine
4- analgesic
- side effect :
1-postrual hypotension
2-sexual dysfunction
3- CNS sedation 
- Uses :
1- depression pain ( chronic ) : Amitriptyline
2- cheliden anuria : imipramine
3- major depression
-contra indication :
1- epilepsy patients
1- Serotonin syndrome
——–
3-Serotonin selective reuptake inhibitor drug
-Drugs : Fluoxetine capsules 0,02
-mechanism: its selectively 5-HT reuptake proteins transporter inhibitor
which lead to accumulation of the serotonin in the synaptic cleft
-pharmacological effect:
1- Psycho stimulation
2- analgesic
3-Anorexginic
- side effect:
1-withdrawal symptoms
2- sexual dysfunction
3-CNS sedation or insomnia
-Uses :
1- depression pain
2- Bulimia
3-OCD ( obsessive compulsive disorder)
4- generalized anxiety
5-major depression
——-
4-selective NA reuptake inhibitor
-Drug : Maprotiline tab 0,01
-mechanism: its selectively NA reuptake proteins transporter inhibitor
which lead to accumulation of the Norepinephrine in the synaptic cleft
-pharmacological effect:
1-Balanced of psychotic
2- Analgesic
-uses :
1- depression pain
2- major depression
-side effect:
1- sexual dysfunction
2- withdrawal symptoms
3- postural hypotension
——–
5-Atypical
-Drug : Mirtazapine tab 0,15
-mechanism: blockes the a-adrinigc and 5-HT2C
- pharmacological effect:
1- Antidepressant
-uses : major depression
—NB! its cause less GIT irritation and less sexual dysfunction then SSRIs

Question 21

51 Inhaled general anesthetics. The concept of minimal alveolar concentration (MAC)

Answer 21

• MAC: its the minimum concentration of inhalation agent in the alveoli produce loss of response to a surgical incision in 50% of the subject
  NB!: the lower the mac the more potant the agent
• factor effect the MAC :
  1- age ( decrease mac. )
  2-use of alcohol ( increase mac )
  ——
• drugs :
  1- Volatile liquids : isoflurane,sevoflurane,enflurane,
  Desfulrane ( the most speed of induction of them is sevo )
  2-Gases : Nitrous oxide ( laughing gas) , Xenon
  -pharmacokinetics:
  diffuse of the anaesthetic agent from the lung to alveoli then to blood depends on these factors :
  1- partial pressure: between the alveoli and blood , the higher the partial pressure of the anaesthetic agent in the inhaled air the faster the induction , induction of the anaesthetic agent is proportionally related to the partial pressure
  2- Paritint Coefficient : between the tissue and anaesthetic agent in the blood stream in two forms 1-free form 2-sulable in plasma form , so the more the free form the more effective , the relation betwen them its inversely related with blood / gas , and the partint coefficient Brain/gas the more the sulabe form the more effective
  3- COP: increase the Blood flow slowes dwin the induction but accelarte the onset if the Equlberrium
  —adverse effect :
  1- malignant hyperthermia
  2-increase ICP
  3- Cardiac arrhythmia
  -USes : general anesithsia

Question 22

52 General anesthetics. Features of nitrous oxide, halothane, thiopental, ketamine

Answer 22

-General anethestics is the reversibal state of CNS depression , and lose of peception of stimuli and its provides:
1-Unconsciousness
2-analgisa
3-suppression of reflexes
4-Skeletal muscles relaxation
- and it has 3 stages :
1-induction ( IV)
2-maintenance state: is the period of sustained of general anethtics ( inhalation)
3-recovery : its post state
-Classification of Anethstia :
1-Inhaled :
1.1 Gases : Nitrous Oxide
1.2 volatile Halogenated : Halothane,isoflurane , Enflurane
2-Non inhaled : propofol , Ketamine ,Thiopental
——Features :
1-

Question 23

53 Local anesthetics: classification, mechanism of action, side effects. Application for different types of local anesthesia.