7/15 Flashcards

Question 1

Q

what is a major determinant of viral tropism with enveloped viruses

Answer

A

the extent to which the viral surface proteins can bind to complementary host cell plasma receptors

depends on the viral envelope glycoprotein and its affinity for the host cell surface glycoproteins

Question 2

Q

what are standard precautions for C diff

Answer

A

wash with soap and water

gown
non sterile gloves

(masks are for droplet precautions)

Question 3

Q

what is a type 1 vs type 2 error

Answer

A

Type 1/alpha:
falsely concluding there’s a difference
“falsely thinking you’re number 1”

Type 2/beta:
falsely concluding there is no different
“falsely thinking being 2nd best is ok”

Question 4

Q

what is Berkson’s bias

Answer

A

selection bias when you’re selecting hospitalized (sick) pts as your control group

Question 5

Q

what are asplenic pts at risk for

Answer

A

infection with encapsulated bacteria
SHiN
Strep pneumo
Haemophilus Influenzae 
Neisseria

Question 6

Q

what does the spleen do that asplenic pts are missing out on

Answer

A

spleen does 2 things:

acts as a blood filter capable of removing circulating pathogens

acts as a major site of opsonizing antibody synthesis

you could describe that as “systemic bacterial clearance”

Question 7

Q

what is the problem in CGD

Answer

A

susceptibility to catalase-positive organisms

they can be phagocytksed but cannot be killed effectively w/o NADPH oxidase.

“defective intracellular killing”

Question 8

Q

where is complement produced

Question 9

Q

what is immediate hypersensitivity

Answer

A

results from IgE-mediated mast cell degranulation

“imEEEdiate”

Question 10

Q

what is the only fungus that has a polysaccharide capsule

Answer

A

cryptococcus neoformans

Question 11

Q

what organism pairs with the ‘Micicarmine stain” buzzword

Answer

A

cryptococcus neoformans

it appears red on this stain

Question 12

Q

what is reaction formation

Answer

A

taking negative thoughts/feelings and doing the exact opposite

Question 13

Q

what is splitting

Answer

A

see something as “all good” or “all bad”

often with a borderline personality disorder

Question 14

Q

what is somatic symptom disorder

Answer

A

extreme preoccupation with unexplained medical symptoms and excessive health care use

symptoms are not intentional

Question 15

Q

how do you best treat somatic symptom disorder

Answer

A

schedule regular visits with the same provider

limit unnecessary workup and referral to specialists

reassure that a serious illness has been ruled out

legitimatize symptoms but focus on functional improvement as the treatment goal, rather than symptom-driven visits

decrease stress
improve coping strategies

Question 16

Q

distinguish Tourette syndrome from Chronic Tic disorder

Answer

A

Tourette:
motor AND vocal tics > 1 yr
(characteristically wax and wane)

Chronic tic disorder:
motor OR vocal tics > 1 yr

Question 17

Q

what is a t-test for

Answer

A

compare difference between the means of 2 groups

Question 18

Q

what is Analysis of Variance for

Answer

A

ANOVA:
compares the difference between the means of 2 or more groups

ALL quantitative variables

“ANOVA = 3 words”

Question 19

Q

what is a Chi square test for

Answer

A

used to evaluate the association between 2 categorical variables

ALL qualitative variables

“chi-tegorical”

Question 20

Q

what are anti-Smith antibodies specific for

Question 21

Q

what are anti-Smith antibodies’ target

Answer

A

autoantibodies against snRNPs

Question 22

Q

what can a SLE pt with anti-Smith antibodies not do

Answer

A

remove introns from RNA transcripts

Question 23

Q

what is wet and dry beriberi

Answer

A

2/2 thiamine deficiency

dry:
bilateral peripheral neuropathy

wet:
neuropathy + CHF

Question 24

Q

what is B6 deficiency characterized by

Answer

A

cheilosis, glossitis, dermatitis, affective symptoms (irritability)
sideroblastic anemias

Question 25

Q

what does Thiamine used for

Answer

A

cofactor in several synthesis steps: “ATP”:
alpha-ketoglutarate dehydrogenase (TCA cycle)
Transketolase (HMP shunt)
Pyruvate dehydrogenase (links glycolysis to TCA cycle)

also branched-chain alpha-ketoacid dehydrogenase (in Maple syrup urine disease)

Question 26

Q

how does colchicine help in gout

Answer

A

binds and stabilizes tubulin to inhibit microtubule polymerization, which will impair NEUTROPHIL chemotaxis and degranulation

acute and prophylactic value

Question 27

Q

what is the bruising process

Answer

A

the purple/blue color of a bruise is RBCs (with Hb) escaping into the tissue

RBC destruction causes the release of iron-containing heme molecules

HEME OXYGENASE (in macrophages) degrades heme into Biliverdin, CO, and Ferrous iron

BILIVERDIN IS GREEN! (verde)

Biliverdin is further reduced to
bilirubin

BILIRUBIN IS YELLOW! when transported to the liver bound to albumin

Question 28

Q

what suggests a general nephritic syndrome

Answer

A

HTN, hematuria, and moderate proteinuria

Question 29

Q

what are linear deposits made of on renal biopsy, and what are they characteristic of

Answer

A

mad elf IgG and C3

anti-glomerular BM disease

Question 30

Q

what are the different immunofluorescent findings in RPGN

Answer

A

linear:
anti-BM antibody
Goodpasture syndrome

Granular:
PSGN
or diffuse proliferative GN in SLE!

Negative:
pauci-immune, so you have ANCA’s
C-ANCA: Wegener’s
P-ANCA: microscopic polyangiitis or Churg-Strauss

Question 31

Q

what is the characteristic renal pathology in a lupus pt? 2nd most likely?

Answer

A

Diffuse proliferative glomerulonephritis!!!

or if it’s nephrotic,
Membranous Glomerulonephritis

Question 32

Q

how do you differentiate between Goodpasture and Wegener

Answer

A

Goodpasture:
lung
kidney
linear IF (anti-GBM)

Wegener:
"C disease"
Nasopharynx!!!
lung
kidney
c-ANCA (negative IF)

Question 33

Q

how do you differentiate between Churg-Strauss and Microscopic Polyangiitis

Answer

A

both are p-ANCA (with negative IF)
both are micro-vasculitides

Churg Strauss:
granulomatous inflammation
eosinophilia!!
asthma

Microscopic polyangiitis:
presents similarly to Wegener disease (C disease), but without c-ANCA and without nasopharynx involvement

Question 34

Q

what do you see on membranoproliferazive glomerulonephritis

Answer

A

BM splitting (tram tracking!!) on light microscopy using PAS stains

glomeruli are lobular with proliferating mesangial cells and increased mesangial matrix.

Granular deposits on IF (lumpy bumpy)

type 1 is sub epithelial
type 2 is intramembranous

Question 35

Q

which 2 renal diseases have effacement of podocyte foot processes

Answer

A

minimal change disease

focal segmental glomerulonephritis

Question 36

Q

which 2 renal pathologies have immune complex deposition giving a granular IF

Answer

A

membranous nephropathy

membranoproliferazive glomerulonephritis

Question 37

Q

which 2 renal pathologies are 2/2 systemic disease that affect glomeruli

Answer

A

Diabetes

systemic amyloidosis

Question 38

Q

what are Kimmelstiel-Wilson nodules a buzzword for

Answer

A

diabetic nephropathy

they’re nodules of sclerosis within the glomeruli

Question 39

Q

which cancer is Minimal change disease associated with

Answer

A

Hodgkin Lymphoma

Reid Sternberg cells produce massive cytokines

Question 40

Q

which renal pathology gives you spike and dome appearance on EM

Answer

A

membranous nephropathy

thick membranes + immune complex deposition

Question 41

Q

what diseases are membranous nephropathy associated with

Answer

A

Hepatitis B,C

SLE if it’s not Diffuse proliferative glomerulonephritis

Question 42

Q

how do you identify systemic sclerosis affecting kidneys

Answer

A

apple-green birefringence with Congo Red staining 2/2 amyloid deposits!!

Question 43

Q

what stain apple-green with congo-red stain

Answer

A

Amyloidosis!

Question 44

Q

what is Berger disease

Answer

A

AKA IgA nephropathy!

IgA immune complex deposition in mesangium

commonly in childhood
with RBC casts
following mucosal infection

Question 45

Q

what can IgA nephropathy be associated with

Answer

A

Henoch Schonlein Purpura!!!
with palpable purpora on buttocks, arthralgia, GI pain 2/2 URI commonly

both have IgA deposition

Question 46

Q

what is Alport syndrome

Answer

A

inherited defect in type 4 collagen (on the floor)

Albert:
“can’t see, can’t pee, can’t hear a bee while he basket-weaves!”

retinopathy/lens dislocation
glomerulonephritis
sensorineural deafness
basket-weave appearance on EM

Question 47

Q

what is the AR equation and the ARR equation, and which NNT/NNH does each pair with

Answer

A

AR = (a / a+b) - (c / c+d)
pairs with NNH (1/AR)

ARR = (c / c+d) - (a / a+b)
pairs with NNT (1/ARR)

extra R = “reverse” alphabet;

Question 48

Q

what is NNH equation and the NNT equation

Answer

A

NNH = 1 / AR

NNT = 1/ARR

Question 49

Q

how can you accelerate fetal lung development in a pregnant mom expecting a preterm baby

Answer

A

Betamethasone or Dexamethasone is administered to pregnant women at risk for premature delivery to prevent neonatal ARDS.

they have the greatest efficacy in increasing surfactant production by accelerating the maturation of type 2 pneumocytes

Question 50

Q

what is the rapid treatment option for RA relief

Answer

A

NSAIDs and glucocorticoids help provide immediate, short-term relief

Question 51

Q

what can a pt with anti-phospholipid antibodies have

Answer

A

pt has SLE

Question 52

Q

what do anti-phospholipid antibodies do

Answer

A

can cause a paradoxical prolongation of PTT and a false-positive RPR/VDRL (syphilis) test

pts with anti-phospholipid antibodies are at risk for venous and arterial thromboembolisms and recurrent, unexplained pregnancy losses

Question 53

Q

how long does it take to lose cardiomyocyte contractility after onset of total ischemia

Answer

A

60 seconds

if the ischemia lasts less than 30min, restoration of blood flow leads to reversible contractile dysfunction (myocardial stunning), with contractility gradually returning over several hours/days.

after 30min of total ischemia, ischemic injury becomes irreversible

Question 54

Q

what is Hyper-IgM syndrome

Answer

A

defect in CD40L Ligand on Th cells,
leading to class switching defect on B cells

Findings:
high IgM
low of everything else
“defective signaling between activated CD4 T cells and B lymphocytes

Question 55

Q

what immunoglobulins are on naive B cells

Answer

A

IgM and IgD prior to activation

this is why a hyper-IgM pt with defect in CD40L can still produce an IgM response

Question 56

Q

distinguish transference and displacement

Answer

A

transference:
pt projects feelings about formative or other important persons onto physician (doctor is seen as their bad parent)

displacement:
transferring avoided ideas and feelings to a safer person (mother yells at her child because her husband yelled at her)

Question 57

Q

distinguish Type 1 from Type 2 muscle fibers

Answer

A

Type 1:
slow twitch; red
high mito and myogolbulin (high oxidative phosphorylation) for sustained contraction
increases with endurance training
"1 slow red ox" (posture muscles)

Type 2:
fast twitch; white
low mito and myoglobulin (high anaerobic glycolysis)
increases with weight/resistance training

Question 58

Q

why are skeletal muscles not affected by CCBs

Answer

A

skeletal muscles rely on mechanical RyR calcium channels to release Ca from the SR. it does not require Ca influx across its cell membrane to work

Question 59

Q

which lymphocytes are seen in the peripheral blood smears of pts with EBV

Answer

A

activated CD8+ cytotoxic T cells

they function to destroy virally-infected B-lymphocytes.

they are very large, and irregularly shaped, conforming to the borders of neighboring cells

Question 60

Q

what are the 4 types of hypersensitivity reactions

Answer

A

Type 1:
Immediate:
anaphylaxis, allergies
preformed antibodies

Type 2:
Cytotoxic
antibody mediated

Type 3:
Immune complex mediated

Type 4:
delayed type

"ACID"
Anaphylaxis
Cy-two-toxic
Immune complex mediated
Delayed

Question 61

Q

Run through Type 1 hypersensitivity rxn

Answer

A

Immediate

Humoral: IgE

Cellular: Basophils, mast cells

Anaphylaxis, Allergies

IgE is on presensitized mast cells and basophils, triggering an immediate release of vasoactive amines that act at poastcapillary venues (histamine).
Rxn develops quickly after antigen exposure because of preformed antibodies

Question 62

Q

which hypersensitivities have antibody-mediated components

Answer

A

types 1,2, and 3 (not 4!)

Question 63

Q

Run through Type 2 hypersensitivity rxn

Answer

A

Cytotoxic
antibody mediated

Humoral:
IgG and IgM autoantibodies
Complement activation

Cellular:
NK cells
Eosinophils
Neutrophils
Macrophages

Coombs testing comes into play

examples incl acute hemolytic transfusion rxns
autoimmune hemolytic anemia
Goodpasture syndrome

IgM and IgG bind to fixed antigen on an “enemy” cell and cause cellular destruction.

IgM is most classic in activating Complement cascade

Question 64

Q

Run through Type 3 hypersensitivity rxn

Answer

A

Immune complex:
antigen-antibody complex activates complement, which attracts neutrophils
neutrophils release lysosomal enzymes

this is usually IgG

in type 3 reaction, imagine 3 things stuck together:
Antigen-Antibody-Complement

Examples:
SLE nephritis
PSGN
Serum sickness

Answer 63

A

delayed type

No humoral component (no antibodies)

cellular component:
T cells!!!
Macrophages

T cells encounter antigen, release cytokines, and activate macrophages

Examples:
4 T's:
T cells
Transplant rejection!!
TB skin test!!
Touching (contact dermatitis)

Answer 64

A

Type 2- preformed antibodies agains the foreign blood antigens

Answer 65

A

microcytic

Answer 66

A

vesicoureteral reflux

Answer 67

A

overflow incontinence

Answer 68

A

incomplete emptying,
causing leak with overfilling
you also have high post-void residual volume

this is due to detrusor UNDERactivity (impaired contractility) or an outlet obstruction (tumor)

Answer 69

A

urethral hyper mobility or intrinsic sphincter deficiency

leak with increased abdominal pressure

Answer 70

A

overactive bladder (detrusor instability),
which causes leak with urge to void immediately

you have uninhibited bladder contraction

Answer 71

A

parasympathetic stimulation:
detrusor contract
internal urethral sphincter relax

sympathetic stimulation:
internal sphincter contract
help sense a full bladder

Answer 72

A

uninhibited bladder contraction, an urge incontinence

Answer 73

A

M3 receptor on the bladder:

stimulate: detrusor contraction
inhibit: detrusor relaxation –> urinary retention

Answer 74

A

promotor region that binds transcription factors and RNA polymerase II during initiation phase of transcription

Answer 75

A

polyuria that resolves with administration of desmopressin

because CDI is likely 2/2 a deficient vasopressin secretion

Answer 76

A

a V2 receptor-mediated increase in water permeability within the collecting ducts

as water leaves, urea concentration greatly increases

the collecting duct is impermeable to urea, but vasopressin activates urea transporters in the medullary collecting duct, increasing urea reabsorption and decreasing renal urea clearance. this allows for maximally concentrated urine

Answer 77

A

agonist at:

alpha-1:
vasoconstriction to increase BP

beta-1:
increase cardiac contractility and CO improves BP and peripheral perfusion

beta-2:
bronchodilation

Answer 78

A

perfusion greatly increases from the apex to the base

ventilation increases slightly from the apex to the base

the V/Q ratio is highest at the apex, lowest at the base

Answer 79

A

release of endotoxins into the bloodstream

Answer 80

A

caused by the release of LPS from bacterial cells during division or bacteriolysis

LPS is not actively secreted by bacteria!!!
Lipid A is the toxic component of LPS
it causes activation of macrophages,
leading to widespread release of IL-1 and TNF-alpha,
which cause the signs/symptoms of septic shock:

fever, hypotension, diarrhea, oliguria, vascular compromise, DIC

(LPS = lipopolysaccharide)

Answer 81

A

poorly differentiated

Answer 82

A

stress ulcers arising in the setting of severe trauma/burns

hypovolemia and mucosal ischemia

“burned by the curling iron”

Answer 83

A

brain injury,
causing increased vagal stimulation,
increased ACh,
increased H+ secretion

“always cushion the brain”

Answer 84

A

inherited inability to synthesize apolipoprotein B,
an important component of chylomicrons and VLDL

lipids absorbed by the small intestine cannot be transported into the blood,
and accumulate in the interstitial epithelium,
resulting in RBCs with clear or foamy cytoplasm

Answer 85

A

infection with T Whipplei.
PAS (+)
foamy macrophages in interstitial lamina propria
mesenteric nodes
Cardiac symptoms
Arthralgia's
Neurologic symptoms

“Foamy whipped cream in a CAN”

Answer 86

A

Angiotensin 2 and extracellular K

Answer 87

A

acetylcholine acts on medullary chromaffin cells

Answer 88

A

often due to inactivating mutation in BMPR2

predisposition for endothelial and SM cell proliferation.

vasoconstriction
vascular SM proliferation
intimal thickening and fibrosis
increased pulmonary vascular resistance
progressive pulmonary HTN

Answer 89

A

inadequate canalization of the ureteropelvic junction (kidney and ureter connection)

Answer 90

A

external abdominal oblique
rectus abdominus
hip flexors, including:
psoas major
psoas minor
iliacus

Answer 91

A

elevated serum LFTs and prolonged PTT
leukocytosis
eosinophilia

may give you a h/o recent surgery in another country (that uses halothane)

Answer 92

A

A and B are IgM

type O mothers have predominately IgG antibodies, which can cross the placenta and cause fetal hemolysis

Answer 93

A

cofactor for carboxylation enzymes (add 1-C)

pyruvate carboxylase:
pyruvate –> oxaloacetate
(gluconeogenesis)

acetyl-CoA carboxylase
acetyl-CoA –> malonyl-CoA
(Fatty acid synthesis)

propionyl-CoA carboxylase
propionyl-CoA –> methylmalonyl-CoA
(Fatty acid oxidation)

Answer 94

A

longhand cells have multiple nuclei peripherally organized in a horseshoe shape.
the macrophages that form these giant cells are activated by CD4+ Th1 cells

Answer 95

A

“ragged red fibers”!!!

blotchy red muscle fibers on Gomori trichrome stain

Answer 96

A

failure in oxidative phosphorylation, often present with lactic acidosis and myopathy, and CNS disease

Answer 97

A

CFTR 3-base pair deletion at deltaF508.

this mutation impairs post-translational processing (folding) of CFTR, resulting in shunting of CFTR toward the proteasome, with complete absence of the protein on the cell surface

Answer 98

A

depends on several genetic factors with its inheritance

a key example is androgenic alopecia,
which factors in genes on X and Y chromosomes

Answer 99

A

it decreases CRH, ACTH, and cortisol levels

they cannot rise in response to a stress

the exogenous glucocorticoids has a negative feedback on the ENTIRE HPA axis

Answer 100

A

a hypercoagulable state

you lose anticoagulant factors, especially antithrombin III, is responsible for thrombotic and thromboembolic complications of nephrotic syndrome

Answer 101

A

Kussmaul sign (increase in JVP on inspiration, vs decrease in a normal heart)

pulsus paradoxus

may also be pericardial knock (even earlier than S3)

Answer 102

A

pulmonary HTN

Answer 103

A

mitral valve prolapse

Answer 104

A

restrictive cardiomyopathy- reduced intrinsic ventricular wall compliance

common in dilated ventricles

Answer 105

A

atrial kick late in diastole
high atrial pressure

associated with ventricular noncompliance- push against a stiff wall

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7/15 Flashcards

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