FINAL Flashcards

Question

Define orthosteric binding.

Answer 1

Binding where normal endogenous response binds ## Footnote Both agonists and antagonists can bind orthosterically.

Answer 2

Toxins are from living organisms; poisons are from non-living organisms ## Footnote Toxins can sometimes be used beneficially (e.g., botox), while poisons always have harmful effects.

Answer 3

A partial agonist can act as an antagonist by binding to a receptor in greater quantity than the agonist, blocking the agonist from binding to the site ## Footnote A partial agonist is not as strong as a full antagonist and may result in fewer side effects.

Answer 4

Stereoisomerism is when molecules have mirror images with the exact same molecular structure but are not superimposable ## Footnote These are also known as optical isomers, akin to the right and left hand of a drug.

Answer 5

A racemic mixture contains 50% of each stereoisomer ## Footnote An example is ketamine, which is broken into R and S forms.

Answer 6

Stronger bonds result in lower specificity of a drug ## Footnote A drug does not need to have a specific interaction or shape to bind to a receptor if a strong bond is present.

Answer 7

Covalent bonds are the strongest in aqueous systems ## Footnote These bonds are difficult to break and do not require specific interactions with receptors.

Answer 8

When it is by itself without the presence of a full agonist. ## Footnote In this scenario, it can activate the receptor, albeit less effectively than a full agonist.

Answer 9

Cocaine and Amphetamine.

Answer 10

The pathway will be available longer, enhancing the agonist effect.

Answer 11

Drugs acting at different receptors to counteract the effects of other drugs.

Answer 12

Clonidine versus norepinephrine.

Answer 13

Less amount of drug we have to give to see effect

Answer 14

Greatest therapeutic response a drug can deliver

Answer 15

50% of that drug maximal effect

Answer 16

Potent- B Efficacious- A,C,D

Answer 17

Occurs when administration of opposite charge drugs ex: protamine(+) and heparin (-)

Answer 18

-Appropriate size -Electrical charge -Shape -Atomic composition

Answer 19

Acidic: release H+ into solution

Answer 20

Direct crossing to intercellular receptor (lipid soluble) Enzymatic action mediated by ligand binding - Tyrosine kinase activated receptors Ligand gated ion channel G protein receptor

Answer 21

2 proteins in one (G protein couples with receptor) alpha, beta, gamma Seven trans-membrane: N terminal domain -->amino acids through cell membrane in and out of cell membrane (7) times--> C terminal domain

Answer 22

"Receptor stops signaling." Drug binds to GPRC--> activates amino acids and changes conformation of protein--> swings in other direction--> if drug still bound stays in active confirmation= exposes OH to G-receptor KINASE= add phosphates to OH= becomes Phosphate groups on receptor = Beta Arestin protein = arrests the signal

Answer 23

Once drug comes off= dephosphorylated and goes back to normal and can be restimulated

Answer 24

Moves receptor and membrane interal to cell to Clatherin proteins

Answer 25

Merge with lysosome if drug will not detach OR if drug comes off; phosphatase will strip Phosphate and receptor will come back to native form then moved back up to surface of cell

Answer 26

Binds to something then opens

Answer 27

nACh Receptor

Answer 28

Muscarinic & Nicotinic

Answer 29

M1,3,5 = GPCR-Q (inc IP3, DAG) M2&4= GPCR-I (dec cAMP)

Answer 30

Nm→ skeletal muscle (more somatic nervous system) Nn → CNS ^^ All open Ion channels

Answer 31

Alpha 1, 2 Beta 1, 2, 3 Dopamine

Answer 32

Located in peripheral vasculature Effects GPCR-Q → inc phospholipase C; IP3/DAG IP3→ Ca++ release→ smooth muscle (myosin light chain kinase) → contraction

Answer 33

Alpha 2→ located in CNS mostly, some in peripheral vasculature Effects GPCR- I → dec adenylate cyclase; Ca/K channels

Answer 34

****All beta → Stimulate adenylate cycles; Ca+ channels; inc cAMP Beta 1→ located in heart--> Ca+ release from SR in heart= contraction Beta 2→ located in lungs, smooth muscle, skeletal muscle Beta 3→ located on fat cells

Answer 35

In smooth muscle B2 = relaxation Stimulates adenyl cylase= Inc cAMP= relaxation

Answer 36

Baroreceptors sense: CNS (vasomotor system-brainstem) → parasympathetic→ vagus nerve → dec HR → dec BP

Answer 37

SNS increases: Peripheral vascular resistance → arterioles -Venous tone -HR & Heart contraction Results Inc CO, SV, venous return → inc BP

Answer 38

Kidneys regulatory - RAAS Dec blood flow pressure → renin → angiotensinogen → angiotensin (constrict blood vessels) → release aldosterone (inc water @ kidneys) → inc blood volume

Answer 39

Receives information and sends to body of a neuron Contains many dendrites

Answer 40

Interprets and sends information Response can be excitatory or inhibitory (makes proteins- has nucleolus)

Answer 41

Sends interpreted information from cell body to telodendria Most have 1 axon

Answer 42

Branches off axon and connects to other cells; where synapse occur between telodendria and next cell

Answer 43

1) Esters- ACh 2) Monoamines- NE, Epi, serotonin, dopamine (all are GPCR mostly) 3) Amino Acids- GABA, glutamate 4) Purines- adenosine, ATP 5) Peptides- substance P, endorphins, enkephalins 6) Inorganic gases - nitric oxide

Answer 44

Heart- increase contraction Smooth muscle- relaxation

Answer 45

Inc CO; Dec peripheral resistance

Answer 46

Bind at synapse albuerol, clonidine, dobutamine (B1), dopamine, epi, isoproterenol, NE

Answer 47

Prolong NE at synapse but don't bind themselves (cocaine, amphetamines) ^^Inhibits dopamin reuptake in brain= addiction

Answer 48

Alpha= potent vasocosntrictor Beta1= inotropic, chronotopic B2- dilation in bronchioles/skeletal muscle NE same but not B2 stimulatory

Answer 49

B agonist- B1 & B2 Direct

Answer 50

Reversible: Phentolamine Tolazoline Labetalol Tamsulosin Phenoxybenzamine- irreversible THINK alpha 1 blocking= lower BP

Answer 51

Pheochromocytoma

Answer 52

HEART- neg ionotropic & chronotropic

Answer 53

Blocks B2 Acute: Inc peripheral resistance Chronic: Dec peripheral resistance

Answer 54

Works on B1 & B2- no partial agonist activity Dec HR & airway constriction

Answer 55

Metoprolol Atenolol (Safer for COPD, diabetes)

Answer 56

B1 selective- short acting Good for OR tachycardia, Supraventricular arrhythmias

Answer 57

Depending on the dose of dopamine, then you can have a triphasic effect (1) Activates dopa receptors at low dose (2) Beta receptors- increase CO (3) Alpha receptors- vasoconstriction

Answer 58

direct & indirect adrenergic agonist

Answer 59

Direct- act like ACh and bind where ACh would Indirect- inhibit AChE (prevents acetylcholinesterase), prolong ACh at junction

Answer 60

Muscarinic agonists: contraction (miosis) Increase intraocular drainage

Answer 61

Vasodilation → reduction in BP - reflexive increase in HR

Answer 62

1)Simple Alcohols- ex: edrophonium (Quat ammonium group) 2) Carbamic acid esters of alcohol- ex: neostigmine & carbamate (tertiary/quaternary ammonium groups) 3) Organic derivatives of phosphoric acid - ex: organophosphates, echothiophate

Answer 63

Therapy- atropine, pralidoxime (if pesticide expose, decontamination)

Answer 64

Hot, Blind, dry, red, mad TX: Physostigmine ( fro belladona)

Answer 65

Cardiac output and PVR. Hydraulic equation: BP= CO x PVR

Answer 66

1) Diuretics: deplete sodium 2) Sympathoplegics: decrease PVR, reduce CO 3) Direct Vasodilators: relax vascular smooth muscle 4) Anti-angiotensins: block activity or production

Answer 67

Clonidine & Methyldopa

Answer 68

Receptor & location : Agonist at CNS α2 adrenoceptors- more alpha 2 Major side effect: SEDATION

Answer 69

SV, HR, venous capacitance (preload)

Answer 70

Receptor/ Location: Stimulates α2 receptors in arterioles in CNS (Partial Agonist***) Side effect: Sedation Common use: ADHD, Tourettes, Withdrawl symptoms

Answer 71

Coronary vasospasm of blood flow= dec O2 delivery (Vasospastic; Prinzmetal)

Answer 72

Microvascular disease: Angina at rest Plaque build up; Clots within arteries of heart

Answer 73

BAD: HEADACHE, Orthostatic hypotension, Syncope GOOD: Inc venous capacitance, dec venous preload, dec heart size, dec CO

Answer 74

Beta 1 & Beta 2 - inhibits renin; dec CO NonSelective (ex: Propanolol- tox associated w B blockade)

Answer 75

Beta 1 Selective- Atenolol, Esmolol, Metoprolol

Answer 76

Verapamil- more cardiac acting Diltiazem- in between of cardiac & peripheral acting Dihydropyridines- peripheral vasculature

Answer 77

Blocks L-type Smooth muscle: Relaxation (Mainly vascular; Some effects on GI, GU, bronchi, uterine) Reduce blood pressure Blockade: Long lasting smooth muscle relaxation Effect on Heart: ↓ contractility ↓ SA node pacemaker rate ↓ AV node conduction velocity

Answer 78

Dec oxygen demand (dec HR, BP, Contractility)

Answer 79

Activate GC, increase cGMP - Relaxation

Answer 80

Blocks PDE5, increase cGMP - Relaxation

Answer 81

Bradycardia, arrest AV block CHF

Answer 82

Blocking: Block α1 receptors in arterioles and venules Effect: Dilates both resistance and capacitance vessels BP is reduced more in upright position

Answer 83

MOA: Opens K+ channels in smooth muscles Stabilizes potential, less likely to contract Dilates arteries, arterioles

Answer 84

MOA: Dilates arterioles (NO Production) Toxicity HA, nausea, sweating, flushing

Answer 85

Effects: Arteriole & Venuous blood vessel (very strong) Breaks down in blood to release NO (bc NO in its molecule), inc intracellular cGMP= close Ca channels Use: HTN Emergencies, Cardiac Failure

Answer 86

Agonist of D1 receptors in kidneys= inc in blood flow to kindey (less blood in vasculature; more filatration of blood at kidneys= inc urine output) **can be used for kidney transplant not only for HTN

Answer 87

ACE- blocks angiotensive coverting enzyme (DIRECT) ARBs: competitive inhibitors; blocks downstream effects of aldosterone & angiotensin II (INDIRECT)

Answer 88

HF: fails to meet the metabolic demands of tissues Congestive= fluid backup

Answer 89

Systolic HF: Reduced cardiac function (dilated cardiomyopathy); thin heart walls Diastolic HF: Reduced cardiac filing (can be peripheral); chronic (HTN caused- Hypertrophy)

Answer 90

R Vent: peripheral congestion L Vent: Pulmonary congestion

Answer 91

Dec CO; normal EF (% is being pumped out well BUT DECREASE total amount in amount within heart to begin with) (hypertrophy of myocardium) Tx: target BP ( inotropic drugs don't really help)

Answer 92

Dec CO; DEC EF Acute failure (MI)

Answer 93

1) Preload- how much is coming back to heart 2) Afterload- resistance heart has to overcome 3) Contractility- force of heart pumping 4) HR

Answer 94

1) Depolarization through cell- opens L Ca++ channels 2) Ca+ into cell (aka trigger Ca)--> binds to ryanodine receptors 3) Opens Ca++ --> Binds to Trop Ca= CONTRACTION RELAXATION (goes back to Vrm) 1) SERCA- dec Ca in SR 2) Na/Ca Exchanger from ECF Ca+ back out 3) Na/K ATPase Pump

Answer 95

Inhibits Na/K ATPase pump Maintains normal resting potential Positive inotrope (Inotropic)

Answer 96

Known as: Bypridines Blocks the Enzymes that inactivate cAMP and cGMP Positive inotropic effects Main action from vasodilation Milrinone

Answer 97

1) SA NODE- in RV, crescent shape ; will depolarize by itself (primary one in heart) 2) AV - within junction of atria & ventricles; slow (gotta wait for SA signal) 3) Atrioventricular bundle of His- down the septum (inter ventricular septum) 4) Purkinje Fibers - spreads within the muscle of the ventricle walls

Answer 98

Phase4-K out??? Phase 0- threshold occurs; Na comes in through channels Phase 1- K leaves cell Phase 2- Plateau; Ca+ in ;K out (balance each other out kinda) ; Ca channels close at end of plateau Phase 3- K continues to leave cell Phase 4- Bunch of K outside and Na inside (Na/K Pump to re-establish Vrm)

Answer 99

1) Class 1- Na channel blockade "state dependent" - quinidine, lidocaine, flecainide 2) Class 2- Sympatholytic (BB) - Propanolol 3) Class III- Prolong action potential duration (other mechanism besides sodium channels - commonly block K+) - Amiodarone 4) Class IV- Block cardiac Ca channel currents (CCB)- Verapamil

Answer 100

EX: Acetazolamide MOA: Block CA in PCT, waste Na, K, and bicarb

Answer 101

Ex: Furosemide Loss- Na, K

Answer 102

Ex: Hydrochlorothiazide Loss- NA, K

Answer 103

Spironolactone Conivaptan

Answer 104

H1- H4 All GPCR

Answer 105

Bronchoconstriction Vasodilation + reflex tachycardia

Answer 106

Diphenhydramine (benedryl) Most useful for Type I hypersensitivity

Answer 107

Pain & itching

Answer 108

Wheal and Flare- welt= wheal; flare= redness Histamine effects Caused by: 1) Microcirculation smooth muscle 2) Capillary endothelium- leaky 3) Sensory nerve endings- activation of nerve endings (flare)

Answer 109

Secretory- releases gastrin= releases hydrochloric acid

Answer 110

Helps cause peristalsis/contraction

Answer 111

1) Sedative effects- crosses BBB 2) ANS blocking -antinauseua, antiparkinsonsim (suppresses extrapyramidal s/s)

Answer 112

Very selective for stomach acid PPIs STRONGER

Answer 113

Short term 1) Bronchodilators: Beta agonist, anti-muscarinic, methylxanthines Long term 1) Anti-inflam- steroids, antibodies 2) Leukotriene antagonists- lipoxygenase & receptor inhibitors

Answer 114

B2- relax airway smooth muscle -inhibit mast cells, dec microvascular leakage, inc mucociliary transport

Answer 115

MOA- B2 selective Use- Rescue inhaler Effect- bronchodilation Duration- 3-4 hrs

Answer 116

Long acting B2 agonist (duration- 12 hrs) -high lipid solubility, dissolve cell membrane, slowly release to receptor

Answer 117

Toxic- Skeletal muscle tremor Drugs- Terbutaline, albuterol, salmeterol, No selective- Epi, Isoproterenol

Answer 118

Inhalation- 60-90 min duration Must monitor for late reaction & tachycardia, arrhythmias due to B1 stimulation as well as B2 (nonspecific)

Answer 119

Non- specific Potent bronchodilator-- but high doses = arrhythmias so replaced by albuterol

Answer 120

Terbutaline- B2

Answer 121

Lower dose than normal for cardiac parasympathetic blockade (Short Acting Muscarinic Antagonist)

Answer 122

Long Acting Muscarinic Antagonist (LAMA)- more selective than atropine when inhaled Synergistic w beta-2-agonist A: poorly absorbed, no CNS effects

Answer 123

Drug class: Muscarinic antagonist (LAMA) Duration: Longer acting (24hrs) Uses- COPD (limited in asthma)

Answer 124

Injection of IgE monoclonal antibodies Ex: Xolair (Omalizumab)

Answer 125

Targets IgE portion that binds to mast cells - prevents degranulation of mast cell & allergen from binding to it - lessens asthma severity -dec corticosteroid requirement - reduce hospitalizations

Answer 126

Drug Class- Leukotriene pathway inhibitor MOA- inhibits 5-lipoxygenase

Answer 127

Zafirlukast Montelukast

Answer 128

Mood, sleep, appetite, temp, pain perception, depression, anxiety, HA, vomiting, pain/itch chemoreceptor reflex= bradycardia & hypotension

Answer 129

5-Hydroxytryptamine - 1) Platelet clotting process= inc tone = vasoconstriction 2) Enterochromophone cells in Gut- 90% of serotonin in body = stimulates peristalsis

Answer 130

Melatonin (Tryptophan converted to serotonin to melatonin)

Answer 131

Function: Receptor is a Na/K ion channel (works quickly) Location- Area prostrema = Illicts vomiting reflex Drug- Ondansetron

Answer 132

Facilitate ACh release= constriction Hyperventilation CV- contraction vascular SM (not in heart); plt aggregation, inotrope

Answer 133

Serotonin Agonist Partial MOA: 5-HT1A USE: GAD, OCD (anxiolytic)

Answer 134

MOA: 5-HT1D/1B Agonist Use: Tx of Migraine HA

Answer 135

Coronary/ Cerebral vasospasm Serotonin syndrome- when taking w SSRI, MAOIs

Answer 136

Caused by: SSRI, MAOIs S/S- Diarrhea, HTN, tremor Tx- Sedation (benzos) paralytic, intubation, ventilation

Answer 137

Caused by- D2- Blocking drugs (inc dopamine) S/s- no bowel sounds, mimic parkinson's (slow over 1-3 days) TX- Diphenhydramine

Answer 138

Caused by: Volatile anesthetics S/s: HTN, rigidity, HTN (w/in minutes) Tx: Dantrolene

Answer 139

Serotonin antagonists @ 5-HT2 receptors Uses-Carcinoid tumors, cold induced urticaria

Answer 140

Ondansetron Use- surgery, Ca chemotherapy

Answer 141

(Tx for minor to major severity) 1) SSRI- Prozac, Zoloft 2) Selective serotonin-NE reuptake inhibitors (SNRIs) - Cymbalta, Pristique 3) Tricyclic antidepressants- SERT, NET, anticholinergic (Elavil) 4) MAOIs

Answer 142

-Minimal spread of discharge -Does not affect consciousness or awareness - EEG may show normal discharge

Answer 143

- Affects LOC= unresponsive or LOC - has automatisms

Answer 144

Starts as a focal then spreads to the whole brain= tonic clonic

Answer 145

1) Generalized Tonic-Clonic 2) Generalized absence 3) Myoclonic 4) Atonic/Tonic 5) Infantile Spams

Answer 146

Stare off into space; no notice of sx, some automatisms

Answer 147

"aka grand mal" -Starts all over ENTIRE surface of brain (diff from focal to bilateral) (fall; urinary incontinence, jerky)

Answer 148

1) Corticosteroids- Prednisone IM (chronic tx) 2) Vigabatrin- GABA analog= tx s/s

Answer 149

MOA: ALL 1) ALL; mostly Limit Na activity in neuron (block)= neuron can't release NT Use: Generalized T/C & All Focal

Answer 150

Tricyclic antidepressant but also anti-seizure MOA: blocks Na channels

Answer 151

1) Drug choice for focal sx 2) Trigeminal neuralgia 3) Bipolar D/o

Answer 152

MOA: Enhance GABA transmission (sedative hypnotic) Use: Focal, Generalized Tonic-Clonic

Answer 153

MOA: Ca channel inhibition Use: General absence sz Tox: GI, Lethargy, hiccup, euphoria

Answer 154

MOA: Unknown; ALL Broad Spectrum AED Use: All kinds of sz Tox: Hepato, GI, sedation, fine tremor ADME : A:80%, 90% PP bound, T1/2 = 9-18 hr

Answer 155

Psychoactive drugs MOA: Inc GABA Use:Status epilepticus (SE) Commonly for anxiety d/o

Answer 156

lamotrigine Phenytonin, Phenobarb, Carbamazapeine Ethosux Valporic aacid Vigabatrin

Answer 157

1) Adhesion- activated by collagen & vWF 2) Aggregation 3) Secretion: ADH, TXA2, 5HT 4) Cross linking of adjacent plts- fibrin (mesh) links plts together

Answer 158

1) Damage to endothelial cells= Collagen & vWF exposed 2) C & vWF bind to glycoproteins (GP1) on plts= plts ADHERE = cascade event= degranulation of plts 3) Plt release: ADP, TXA2, 5-HT 4) Main functions- activate additional plts = go to their receptors on other plts= allows for other plts to come= aggregation 5) More degranulation of more plts

Answer 159

1) Activated by plt interaction with phospholipids 2) Factor 12--> 11--> 9--> 10 --> thrombin activated

Answer 160

1) Tissue damage= tissue factor release= activates extrinsic pathway 2) Tissue factor & F7= activate thrombin

Answer 161

Over stimulation of blood clotting mechanism (run out of clotting factors) (Massive tissue injury, malignancies, abruptio placenta)

Answer 162

Plasma transfusions Tx underlying cause 10-50% Mortality

Answer 163

1) Fibrin inhibition 2) Fibrinolysis 3) Protease Inhibitors- antithrombin

Answer 164

Urokinase Streptokinase

Answer 165

Aminocaporic acid- anti-activator blocks conversion of plasminogen to plasmin

Answer 166

Un-fractionated heparin LMW heparin Fondaparinux (Arixtra)

Answer 167

MOA: inc Antithrombin x1000= Inhibits F10 & thrombin by inc

Answer 168

Activate antithrobin= only blocks F10 (not as effective/strong)

Answer 169

Bleeding- monitor aPTT Transient thrombocytopenia (temp dec in plts) - HIT

Answer 170

From salmon eggs For unfractionated heparin reversal only

Answer 171

Warfarin blocks Vit K reductase= so shits down Vit K cycling= fewer proteins produces for coagulation cascade - blocks proteins production process (not ones made already) (essentially blocks F10, 7,9) INR- 2-3

Answer 172

8-12 hr delay in onset of action Heparin - warfarin bridge

Answer 173

1) Injured cells releases tPA (tissue plasminogen activator) 2) tPA--> plasminogen into plasmin 3) Breaks down fibrinogen & fibrin (lyse thrombi) (acts on clot where it is)

Answer 174

COX1- Selective: TXA2 blocks thromboxane A2 = plt changes shape, no granule release or aggregation Inc bleeding time Anti-platelet

Answer 175

MOA inhibits ADP receptors on platelets= reduce plt aggregation (dec ischemic events)

Answer 176

MOA: Blocks F2& F3 receptor complex = fibrin cant bind to help with cross linking in plts ex: Abciximab (monoclonal antibody)

Answer 177

Activity on prothrombin, factors 7,9,10= all need to be carboxylated by Vit K

Answer 178

Adjunctive hemophilia therapy Bleeding from fibrinolytic therapy Intracranial Aneurysms Post surg bleeding

Answer 179

Aminocaproic acid

Answer 180

1) Bind to active & substrate site of thrombin - Hirudin, Bivalirudin 2) Binds to only thrombin active site- argatroban, melagatran

Answer 181

Type 1- insulin dependent (juvenile) Type 2- Non- insulin dependent Type III- other causes inc BG (pancreatitis, drug therapy) Type IV- Gestational (OB)

Answer 182

Low affinity Transporter 1) High glucose--> transported into cell by GLUT-2 2) Glycolysis= Metabolism --> ATP made 3) ATP goes to K-channels= makes inside cell more (+) charged 4) VG Ca channels- floods into cell when membrane depolarizes = goes to cells 5) Vesicles have insulin in them =insulin released (exocytosis)

Answer 183

Tyrosin kinase receptors - insulin bind to Tyrosine R=dimerization & phosphorylation = IRS (insulin receptor substrates) phosphorylated= makes 1) IP3- fast GLUT-4 channels go to cell membrane= glucose comes into cell 2) MAPK- long term (cell division

Answer 184

Lispro, aspart, gluisine

Answer 185

Novalin, Humulin

Answer 186

Neutral protamine hagedorn

Answer 187

Glargine, Detemir (mimics constitutive insulin activity)

Answer 188

First line therapy MOA: Reduction in hepatic glucose production (gluconeogensis) Side effect: GI Tox Ex: Metformin (Glucophage)

Answer 189

MOA: Bind to K channel = blocks it= depolarizes cell= Ca comes into cell= helps inc glucose uptake Inc insulin secretion

Answer 190

1st Gen- Tolbutamide : higher doses, shorter duration 2nd Gen- Glyburide (has sulfa group & urea molecule)

Answer 191

MOA: Dec insulin resistance, inc insulin signal transduction Ex: Rosiglitazone

Answer 192

Beneficial for Pre-DM MOA: Block digestion of complex carbs ; blocks enzyme that breaks down sucrose= prevent production of monosaccharide & transports cant tansport glucose into body Side effects: Flatulence, diarrhea, Abd pain (since sucrose has to be broken down in GI) Ex: Acarbose

Answer 193

MOA: bind bile acids- prevents reabsorption of them SIde Effect: GI Upset

Answer 194

MOA: Suppresses glucagon release; slows stomach emptying & dec circulating glucose Ex: Symlin

Answer 195

MOA: Slows gastric emptying; inc Insulin release; inhibits glucagon release Inc risk- pancreatic risk

Answer 196

MOA: Acts like GLP-1 EX: Semaglutide

Answer 197

MOA: inhibits DPP-4 = more GLP1 available EX: Sitagliptan

Answer 198

MOA: Targets kidneys; prevents glucose reabsorption in PCT Ex: SGLT2 Inhibiors (Dapagliflozin

Answer 199

Membrane translocation of GLUT Increased glycogen formation Activation of multiple transcription factors

Answer 200

1) TOO much LDL 2) Entrapment in vessel 3) WBC comes= foam cell made 4) Oxidation= over years= crystallization in foam cell 5) Rupture of cell= inc inflammation 6) Inc WBC = vicious cycle WBC 7) Calcification & necrosis = plaque forms = dec blood flow

Answer 201

Know HMG-Coa= Mevalonate= makes cholesterol HMG-CoA= converted into ketone bodies in blood=

Answer 202

Structure- Part lipid & protein Apolipoprotein- outer surface (mostly protein) Formed in liver

Answer 203

Formed in intestine, carries triglycerids, cholesterol- dietary fat

Answer 204

Secreted by liver- converted to IDL , LDL

Answer 205

From production in liver- transports to cell to LDL receptors- binds & internalizes LDL = excess goes into arteries

Answer 206

Scavenerge of cholesterol from CELLS; not from endothelial cells

Answer 207

Total Cholesterol < 200 LDL< 120 HDL> 50

Answer 208

MOA: 1) HMG-CoA Reductase Competitive Inhibitor = dec cholesterol synthesis 2) Inc LDL-Receptors= dec circulating diet cholesterol since more receptors Ex: -Statin

Answer 209

MOA: Blocks packaging of cholesterol in VLDL= Dec VLDL & LDL, inc HDL Dosing- 2-6 g daily : inc from regular multivitamin dose

Answer 210

MOA: PPAR mediated lipolysis- inc breakdown of lipids & cholesterol in liver = dec VLDL Ex: Gemfibrozil, Fenofibrate

Answer 211

MOA: Cationic bile acid binding= prevent reabsorption of bile acids & cholesterol Use: Primary Hypercholesterolemia Ex: Colestipol, Cholestyramine

Answer 212

MOA: BLOCKS NPC1L1- block reabsorption of Cholesterol when it goes out to liver in bile & out to gut Ex: Ezetimbe

Answer 213

MOA: PCSK9 Inhibitors- allows for increased LDL-Receptors by blocking PCSK9 Ex: Evolocumab (Repatha)

Answer 214

At night since cholesterol synthesis occurs at night w food

Answer 215

AVOID in Pregnancy & lactating women Restricted in children

Answer 216

Inc liver enzymes CK elevations - excess creatinine= muscle pain or weakness

Answer 217

Cutaneous vasodilation - FLUSHING

Answer 218

GABA-A: primary- induces sedative hypntoic state; Cl- channel Opens channel; lets Cl- come into cell= hyperpolarization= harder to excite cell (can work on pre & post synaptic cells)

Answer 219

MOA: Enhance GABA= depresses all levels of CNS Diazepam, Midazolam May contribute to a persistent postanesthetic respiratory depression Reversible with flumazenil

Answer 220

Use: RARE d/t easy OD; anticonvulsants, anesthesia Dose index: VERY NARROW therapeutic range (tolerance, dependence, abuse)

Answer 221

Barbituates- Thiopental & Methohexital= can induce sz if sensitive to it Benzodiazpenes

Answer 222

Reversal for benzodiazepines

Answer 223

1) Inhaled 2) Injected

Answer 224

Route: Injectable anesthetic Use: Day care surgery ADME: Highly lipid soluble, T1/2= 2-8 min E:kidney excretion

Answer 225

Incs GABA-A INC Glycine Supresses 5HT, nicotinic (does not work at glutamate= not amnesic)

Answer 226

1) Thrombophlebitis 2) Allergy 3) Hypotension 4) Propofol Syndrome 5) PE

Answer 227

Buspirone – 5-HT1A Receptor Agonist

Answer 228

Nonpharm= diet, no caffeine Pharm= Zolpidem (Ambien) or Escopiclone (Lunesta) only after sleep study & for short period ; antihistamines

Answer 229

Selective Toxicity Spectrum of Activity- how wide they toss their net Modes of Action- 5 main modes Side effects Resistance of Microorganisms

Answer 230

Cell wall inhibitors: Better at gram (+) Cell Membrane: Better @ gram (-) DNA/RNA- inhibits replication or transcription/translation Inhibit DNA/RNA Synthesis = Block Folic acid synthesis of bacteria Protein Synthesis Inhibitors- target ribosomes (broadest category)

Answer 231

Penicillin Cephalosporin Tx: Gram (+)

Answer 232

No beta-lactam ring Benefit: resistance to beta-lactamase Use- MRSA, Gram (+) stuff

Answer 233

Binds to glycoproteins which prevents cross linking enzyme = cell wall of bacteria falls apart

Answer 234

Irritating to tissues Chills/Fever Ototoxicity, Nephrotoxicity Red "neck" 10% have adverse rx

Answer 235

Amphotericin - acts a detergents= binds to phospholipids Use- Gram (-)

Answer 236

MOA- disruption of cell membrane Route- Topical (Neosporin) or Systemic (oral) Use- Gram (-)

Answer 237

MOA- Bacteriostatic- slows down growth Widest spectrum of activity of all abx; kills lots of good bacteria too Useful- better for Gram (-)

Answer 238

C-diff Bone: TEETH= breakdown of enamel if teeth growing in Neurotoxicity Allergy Nephrotoxicity Ototoxicity

Answer 239

Protype: Erthromycin Semi- Sythetic: Clarithomycin, Azithromycin (very lipid soluble; short duration)

Answer 240

MOA: Inhibit DNA gyrase Use- Gram (+ & -) EX: Cipro, Levaquin, Floxin

Answer 241

Blocks PABA since structure if very similar

Answer 242

Rifamycin Floroquinolones- Ciprofloxacin

Answer 243

Aplastic Anemia

Answer 244

Sulfonamides + Conjunction with trimethoprim Bactrim, Septra

Answer 245

- Nucleic acid- RNA or DNA -Protein Coat aka Capsid - Spike: recognition particle= specific for certain cells - infectious particles : active vs inactive

Answer 246

Use: anti-herpes drug (HSV & VZV infections) Prototype MOA: Inhibits viral DNA synthesis/polymerases

Answer 247

Has similar structure to DNA-Guanine strand but missing strand to make chains Missing part blocks further chains= chain terminator blocks further DNA replication

Answer 248

Inhibitor of reverse transcriptase Combined with other antivirals in HAART (cocktail)

Answer 249

Inhibits HBV DNA polymerase and HIV reverse transcriptase

Answer 250

Oseltamivir (Tamiflu) Zanamirivir (Xofluza) Baloxivir Marboxil (Reneza)

Answer 251

Paxlovid- 2 antivirals, emergency use authorization Remdesivir- chain terminator Monoclonal Antibodies- blocks COVID entry into cells Dexamethason - cytokines

Answer 252

Rhythmic movement around a joint; postural; intentional movement (CNS involvement) (hallmark of parkinsonism)

Answer 253

Muscle jerks in various areas; impairs movement & coordination Jerky; flips back and forth

Answer 254

Violent abnormal chorea movement

Answer 255

1) Motore Cortex- Stimulated by gluatmine= sends signal to striatum 2) Striatum= stimulated by ACh goes to 3) Substantria Nigra= produces dopamine= inhibits some GABA 4) GABA goes to thalamus and goes back to motor cortex

Answer 256

Substantia nigra- loss of neural melanin cells (makes dopamine) Loss of Dopamine neurons= blocking signal to GABA receptor no longer there; more GABA to thalamus (inhibition)= no signal to help control fine muscle movement of motor cortex = jerky movements

Answer 257

Rigidity Bradykinesia Tremor Postural Instability Cognitive decline

Answer 258

Protein responsible for NT release- dec dopamine release

Answer 259

Lewy bodies

Answer 260

Exercise & PT important 1) Levodopa- (L-DOPA) or Dopamine agonists 2) CNS Antimuscarinics 3) MAOi- Selegiline, Rasagiline COMTis- Tolcapone 4) Amantadine, Apomorphine (off periods) Dopamine agonists- Pramipexole, Ropinirole

Answer 261

Antipsychotics- Dopamine receptor antagonists MPTP- can destroy dopaminergic neurons

Answer 262

MOA: Inc dopamine w inc L-Dopa (since dopamine cant cross BBB) Given with carbidopa to prevent breakdown from DOPA- decarboxylase

Answer 263

Hallucinations & delusions due to high dopamine---esp w carbidopa Tx: Pimavanserin

Answer 264

Grower's sign

Answer 265

No cure; gene therapy 1) Corticosteroids, Beta-2 agonist, orthopedic braces PT, RT

Answer 266

Baclofen : GABAr agonist; centrally acting Botulinum Toxin Dantrolene (through intrathecal pump)

Answer 267

Opposite of parkinsons= inhibit dopamine by inc GABA Tetrabenazine - inhibits VMAT Haloperidol- dopamina receptor blocker

Answer 268

Riluzole- NA channel blocker (damaged neurons) Edaravone

Answer 269

MOA: Blocks COX pathway- inhibits prostaglandin synthesis Use: Antipyretic, analgesic

Answer 270

MOA: Irreversibly block of cyclooxygenase COX1 > COX2

Answer 271

Histamine, serotonin, bradykinin, prostaglandins, leaukotrienes

Answer 272

Interleukins, GM-CSF, TNF, Interferons, PDGF

Answer 273

1) Nociceptors- free nerve endings pain receptors A(Beta) fibers- light touch (fast) A(delta)- fast pain C fiber- slower pain

Answer 274

Tissue damage – bradykinin Receptors – B1 (inflammatory) and B2 (constitutive) Activate PKA and PKC

Answer 275

Want to do something about Sphinothalamic vs Spinorecticular

Answer 276

Travels through reticular formation of the pons= Location of pain; slower

Answer 277

Pain- spinal cord neuron- reflex arch- thalamus- post-central gyrus Fastest travel of pain

Answer 278

Familiarization of pain; rich in μ (mu) goes through PAG (DIC pathway)- endorphins & enkephalins (gate theory)

Answer 279

Codeine (Prodrug- activated to morphine as active drug)

Answer 280

Phase II to active forms

Answer 281

Bind to receptors in brain & spinal cord= hyper polarize postsynaptic neurons Dec neurotransmitter release--> Glutamate, ACh, NE, serotonin, Substance P

Answer 282

Analgesia Miosis (ALWAYS) Euphoria or dysphoria Sedation, Resp depression Cough suppression Constipation

Answer 283

Morphine, Hydromorphone Heroin Use- severe pain

Answer 284

Methadone Use- Chronic pain; opioid abuse Shorter duration analgesia; long half life

Answer 285

Fentanyl Meperidine (Demerol)

Answer 286

MOA- antimuscarinic effects Use- Post-op shivering Induce- Serotonin syndrome, seizures

Answer 287

Codeine, oxycodone Oxy + aspirin = percodan Oxy + Acetaminophen= percocet

Answer 288

Derivatives of morphine- Naloxone, Naltrexone, naloxegol Effects in 1-3 min & short duration; little effect in absence of agonist

Answer 289

Tissue esterases to morphine

Answer 290

New growth; abnormal mass of tissues, growth of which exceeds and is uncoordinated with the normal tissues

Answer 291

Epithelial origin (Basal cell carcinoma, breast carcinoma )

Answer 292

Connective tissue or muscle (soft tissue cell) (Osteosarcoma, kaposi sarcoma)

Answer 293

Immune cells (Hodgkins, AML)

Answer 294

Surgery Radiation Chemotherapy

Answer 295

Tumor is inoperable Advanced disease – goal is to limit spread, improve QOL

Answer 296

Surgery + chemo as adjunct (chemo before & after surgery) ; chemo is secondary Useful in many GI cancers, breast, lung

Answer 297

After surgery – reduce incidence and resurgence of tumor Both surgery and chemotherapy equally important, possibly radiation Goal is disease-free survival (DFS) and overall survival (OS)

Answer 298

N/V, Bone marrow depression, alopecia, abortion, fetal death, teratogenicity, carcinogenicity, immunosupression

Answer 299

MOA: Transfers alkyl group (organic molecule missing H) to DNA or binds to DNA & interferes by cross linking (platinum compounds) largest & most diverse class

Answer 300

Nitrogen Mustards- Cyclophosphamide (Ca & immunosuppressive) , Chlorambucil (least toxic ok for long term) Nitrosoureas- crosses BBB (good for brain tumors) Alkyl Sulfonate Platinum Analogs: Cisplatin, Carboplatin

Answer 301

1) Enters cell 2) Forms highly reactive platinum complexes 3) Intra strand & interstrand cross links 4) DNA damage 5) Inhibits cell proliferation

Answer 302

A: Highly bound to plasma proteins Concentrated in kidneys, intestine, testes E: Slowly excreted in urine

Answer 303

MOA: Inhibits dihydrofolate reductase (DHFR); interferes w DNA/RNA synthesis

Answer 304

1) Cytotoxic actions: ulceration of intestinal mucosa 2) Immunosupressive action: prevents clonal expansion of B & T lymphocytes 3) Anti-inflammatory action : interferes w release of inflam cytokines

Answer 305

6-MP: 6 Mercaptopurine 5-FU: 5 fluoruracil

Answer 306

Vincristine, Paclitaxel (Taxol)

Answer 307

Dactinomycin, Doxorubicin, Bleomycin

Answer 308

Corticosteroids, Tamoxifen, Fulvestrant

Answer 309

Imatinib- inhibits specific receptors inside cell Trastuzumab, Rituximab- Mab targeting specific protein outside cell

Answer 310

Innate: 1) Physical, chemical, genetic barriers 2) cellular system (phagocytosis, inflam, fever) Acquired- Active (infection) or Passive (maternal antibodies) = B & T cells

Answer 311

Primary immunodeficiency: loss of immune system Secondary- HIV (acquired immune issues) Immune system not working

Answer 312

1) Type 1: antibody mediated (anaphylaxis) 2) Types 2- antibody mediated (blood tx rx) 3) Type 3: immune complex (RA) 4) Type 4: Cell mediated; t cells (delayed hypersensitivity)

Answer 313

Primary immunodeficieny- no thymus (no T cells)

Answer 314

Primary immunodeficieny : No B cells (no antibodies)

Answer 315

Primary Immunodeficiency: No B or T cells

Answer 316

Acquired Immune def Syndrome

Answer 317

Too much – overreaction of the immune system to innocuous stimuli (allergy) Types I-IV A – Anaphylaxis, allergies C - Cytotoxic I – Immune complex D - Delayed

Answer 318

Hypocortisolism

Answer 319

Autoantibodies agains DNA

Answer 320

MS: Autoantibodies & T cells agains neurons, myelin MG- destruction of ACh-R

Answer 321

Insulin dependent DM

Answer 322

MOA: inhibits T cell- R signaling & activation Cyclosporine (toxic) Tacrolimus

Answer 323

Antimetabolite targeting rapidly proliferating cells • Immunosuppressive, anti-cancer – Metabolized by xanthine oxidase (XO) to mercaptopurine – Interferes with purine metabolism – Graft rejection, lupus, RA, Crohn’s, MS – Main side effect – leukocytopenia caused by bone marrow suppression

Answer 324

MOA: Alkylating agent = destroys proliferating lymphoid cells/ Ca cells Small dose - potent autoimmune d/o High dose - Cancer agent Metabolism- CYP 450 phase 1 breaks down to acrolein = tissue tox & Phosphoramide mustard= cell death

Answer 325

MOA: Suppress immune response, mimic naturally occurring adrenal corticosteroids Ex: Prednisone, hydrocortisone, Dexamethasone

Answer 326

MOA: Antibodies created in lab, directed against cell-surface antigens/receptors EX: Muromonab (CD3), RhoGAM, Adalimumab (TNF-a)

Answer 327

Sirolimus, Mycophenylate Mofetil, Thalidomide Derivatives

Answer 328

Enhance synthesis; inhibit degradation -IF metabolism deactivated drug= dec drug effect - If metabolism activated drug= inc drug effect

Answer 329

Dec or irreversible inhibit P450 Competitive inhibition – co-administered drugs metabolized by same P450

Answer 330

Aqueous diffusion Lipid diffusion Special carriers Endocytosis and exocytosis

Answer 331

Concentration of the drug in the body COMPARED to the concentration in the blood

Answer 332

Drug is more likely to leave blood and go into tissues

Answer 333

Drug is more likely to stay in blood

Answer 334

Higher Vd= more likely to leave blood = more dose to reach target concentration

Answer 335

Vd x target concentration

Answer 336

Ability of body to eliminate drug; amount of drug that leaves a certain volume of the blood Ex: blood is 5.6L; 10mL of blood, how much blood is in this 10mL?

Answer 337

CL= filtering out a certain amount of the blood compared to total amount of blood over time (volume/time) Elimination= how much drug is leaving / time (concentration/time)

Answer 338

Clearance is CONSTANT ROE changes as concentration decreases (less drug in body= slower to eliminate)

Answer 339

Clearance VARIES ROE is constant

Answer 340

Time required to change drug in body to ½ of concentration

FINAL Flashcards

(380 cards)