Professional Exam Study Guide Flashcards
Patient with a stroke in the middle cerebral artery, which areas are lesioned?
- The motor and sensory cortices (upper limb and face)
- Temporal lobe (Wernicke area)
- Frontal lobe ( Broca area)
What symptoms present with a stroke of the middle cerebral artery?
- Contralateral paralysis and sensory loss of the face and upper limb
- Aphasia if in dominant (usually left) hemisphere
- Hemineglect if lesion affects the nondominant (usually right ) hemisphere.
What is aphasia?
- A higher order language deficit
- The inability to understand, speak, read or write
What is dysarthria?
- The motor inability to speak
- Movement deficit due to muscle weakness
What is Hemineglect or spatial neglect?
- Inability to report, respond or orient to stimuli in the contralesional space
- Ex. Patient with a stroke of the right middle cerebral artery completely ignores everything on the left side because they can not recognize it
What visual symptoms is Wernicke aphasia associated with in a stroke?
Right superior quadrant visual field defect due to temporal involvement of
Patient with a stroke in the anterior cerebral artery, which area is lesioned?
- Motor and sensory cortices (lower limb)
What symptoms present with a stroke of the anterior cerebral artery?
- Contralateral paralysis and sensory loss of the lower limbs
Amyotrophic lateral sclerosis
- Commonly known as Lou Gehrig’s
- Combined degeneration of UMN and LMN with no sensory or bowel/bladder deficits (due to loss of cortical and spinal cord motor neurons, respectively)
- Can be caused by superoxide dismutase 1
- Presents with asymmetric limb weakness (hands/feet), fasciculation’s, eventual atrophy
- Fatal
- Treatment is with Riluzole
- Increases survival by decreased glutamate excitotoxicity via unclear mechanism
What are common UMN symptoms seen in ALS?
Some of the following seen in combination with LMN symptoms
- Babinski sign
- Hyperreflexia
- Spasticity
- Hypertonia
- Clasp knife reflex
- Pronator drift (when eyes closed and hands supinated)
What are common LMN symptoms seen in ALS?
Some of the following seen in combination with UMN symptoms
- Fibrillations
- Fasciculations
- Hypotonia
- Hyporeflexia
What is the treatment for ALS?
Riluzole
- It increases survival by decreased glutamate excitotoxicity via an unclear mechanism
Hypertrophic Cardiomyopathy is caused by?
60-70% are familial, autosomal dominant - Due to mutations in genes encoding sarcomeric proteins such as myosin binding protein C , Beta-myosin heavy chain and Troponin C May be associated with friedreich ataxia - Neurodegenerative disease - Autosomal recessive
What are the complications of prolonged hypertension on the heart?
Left ventricular hypertrophy
- May hear S4, systolic murmur (during contraction)
- Mitral regurgitation due to impaired mitral valve closure (crescendo decrescendo murmur)
- This is because hypertrophic ventricle dilates and opens the mitral valve annulus
- May lead to left ventricular heart failure
What are the symptoms and findings seen in hypertrophic cardiomyopathy?
- Causes syncope during exercise
- May lead to sudden cardiac death in athletes do to ventricular arrhythmia
- S4, systolic murmur is heard (crescendo-decrescendo)
- May see mitral regurgitation due to impaired mitral valve closure
- Leads to diastolic dysfunction
- Leads to concentric hypertrophy (sarcomeres are added in parallel) - septal predominance
- Myofibrill disarray and fibrosis
What is hypertrophic obstruction cardiomyopathy?
- A subset of hypertrophic cardiomyopathy
- Asymmetric septal hypertrophy of the left ventricle and systolic anterior motion of the mitral valve lead to an obstruction of the blood leaving the left ventricle
- Leads to dyspnea and possible syncope
- Causes crescendo decrescendo murmur
- If person squats, systemic vascular resistance increases, this increases the force needed to increases blood out of the ventricle, increasing afterload
- This stretches the ventricle out a little more, leading to reduced obstruction of the outflow tract, a less intense murmur is then heard
- If the person stands up or does Valsalva, it decreases venous return, causing less blood to enter the ventricle, leading to more obstruction of the outflow tract, a more intense murmur is heard
How is hypertrophic cardiomyopathy treated?
- Cessation of high intensity athletics
- Beta blockers or Non-Dihydropyridine Ca2+ blockers (verapamil)
- Implantable cardioverter defibrillator if patient is high risk
What are the causes of dilated cardiomyopathy?
- Often idiopathic or familial
- Alcohol abuse (chronic)
- Wet beriberi (Thiamin deficiency - B1)
- Cocaine
- Coxsackie B viral myocarditis
- Chagas disease
- Doxorubicin / Daunorubicin toxicity
- Duchen muscular dystrophy
- Hemochromatosis
- Sarcoidosis
- Peripartum cardiomyopathy (Due to HTN in pregnancy)
What are the findings seen in dilated cardiomyopathy?
- Heart failure (weak contractions, less stroke volume)
- S3 result of blood rushing in and slamming into thew wall during disatole
- Systolic regurgitant murmur (mitral or tricuspid) is due to stretching out the valves allowing blood to leak back
- Holosystolic murmur
- Dilated heard on CXR or echocardiogram
- Systolic dysfunction ensues due to weak contractions
- Leads to eccentric hypertrophy (sarcomeres are added in series)
What is takotsubo cardiomyopathy?
- Broken heart syndrome
- Ventricular apical ballooning likely due to increased sympathetic stimulation
- Stressful situations or emotional situations
What are the medications used to treat tuberculosis?
RIPE
- Rifampin
- Isoniazid
- Pyrazinamide
- Ethambutol
Isoniazid
- Uses
- MOA
- Side effects
Uses
- Mycobacterium Tuberculosis
- Used as solo prophylaxis against TB
- Used as monotherapy for latent TB
- Combined with other medications to treat primary TB
MOA
- Inhibits mycolic acids in cell wall of mycobacterium
- Decreases synthesis of mycolic acids
- Must be activated by bacterial catalase peroxidase (KatG)
- KatG converts it to active metabolite
- Resistance occurs when KatG is down regulated
Side effects
- Mainly causes injury to nerves and hepatocytes
- Peripheral neuropathy
- Metabolized by N-acetyltransferase
- Slow acetylators increased risk for toxicity
- May lead to seizures
- B6 is given alongside to prevent toxicity
- Hepatocyte dysfunction is common
- Increased LFTs
- Drug induced lupus
- Anion gap metabolic acidosis
- Inhibits cytochrome P450 increasing levels of other drugs ( Increases WEPT)
Rifampin or Rifabutin
- Uses
- MOA
- Side effects
Uses
- Mycobacterium tuberculosis
- Mycobacterium leprae, delays resistance to dapsone when used in combination
- Meningococcal prophylaxis and chemoprophylaxis in contacts of children with H. influenzae type B
MOA
- Inhibits DNA-dependent RNA polymerase
- Inhibits RNA synthesis
- Resistance to drug when used alone or when RNA polymerase binding site is prevented
Side effects
- Hepatitis when used with other RIPE drugs
- Urine, tears, sputum, feces and CSF may turn orange
- Induces (revs up) cytochrome P-450 (decreases WEPT)
- Rifabutin preferred in HIV patients due to less cytochrome P-450 stimulation
Pyrazinamide
- Uses
- MOA
- Side effects
Uses
- Mycobacterium tuberculosis
MOA
- Uncertain
- Works best at acidic pH (host phagolysosome)
Side effects
- Hyperuricemia and needle shaped uric acid crystal formation that may precipitate gout
- Hepatotoxicity leading to liver necrosis
Ethambutol
- Uses
- MOA
- Side effects
Uses - Mycobacterium tuberculosis MOA - Blocks arabinosyl transferase - Inhibits carbohydrate formation at the cell wall of mycobacterium - Stops polymerization (bacteriostatic) Side effects - Optic neuropathy- red green color blindness - Loss of visual acuity
Where does primary tuberculosis typically presen in the lungs?
In the Ghon complex
- The hilar nodes
and
- The Ghon focus (mid/lower lobes)
What is normocytic, normocromyc anemia?
- Can be nonhemolytic or hemolytic
- Can be intravascular or extravascular
- Can
What is Chronic Granulomatous Disease?
- X- linked recessive defect in NADPH oxidase
- Disorder of phagocytic cells
- Defect in bactericidal mechanism
- Usually young boys that get recurrent bacterial and fungal infections
- Recurrent catalase positive infections
> Staphyloccocus aureus
> Serratia Marcescens
> Pseudomonas
> Nocardia
> Aspergillus
> Candida
> E. coli
> Enterobacteriaceae (Klebsiella)
What test is used to diagnose chronic granulomatous disease?
Nitroblue Tetrazolium Test (NBT)
- Detects NADPH oxidase
- If it does not change enzyme to blue and it stays yellow, indicates that NAPH oxidase deficiency
- Negative test
Dihydrorhotamine Flow Cytometry Test
- Activation of neutrophils with phorbol myristate acetate (PMA) results in oxidation of DHR to a fluorescent compound, rhodamine 123, which can be measured by flow cytometry
When does sickling of RBC’s occur in patient with sickle cell disease?
- Dehydration (Acidosis)
- Deoxygenation
- High altitudes
What causes sickle cell anemia?
- HbS point mutation causes a single amino acid replacement in Beta chain
- Substitutes Glutamic Acid with Valine
- Leads to extravascular and intravascular hemolysis
When is sickle cell disease first diagnosable?
- After the first 6 months of life
- Because infants are protected by HbF
- HbF levels are reduced by 6 months of age
What is the most common clinical manifestation of sickle cell anemia?
- Vaso occlusive crisis that can present as:
- Dactilytis: painful and swollen hands and feet
- Priapism: prolonged erection
- Acute chest syndrome
- Acute abdomen
- Avascular necrosis
- Stroke
Are heterozygotes with sickle cell trait resistant to malaria?
Yes
What is seen on skull x-ray of patients with sickle cell anemia?
Where else is this seen?
Crew cut
- Produces perpendicular radiations characterized as hair on end appearance
- Due to marrow expansion from increased erythropoiesis
What are complications seen in sickle cell disease?
- Aplastic crisis (due to parvovirus B19)
- Autosplenectomy leads to increased risk of infections by encapsulated organisms
- Howell-Jolly bodies on smere (nuclear remnant)
- Some killers have nice capsules
- S. Pneumonia
- Klebsiella
- H. Influenzae
- Pseudomonas
- N. Meningitidis
- Cryptococcus - Splenic infarct/ sequestration crisis
- Salmonella Osteomyelitis
- Painful crisis (most common)
- Renal papillary necrosis and microhematuria
- Decreased Po2 in papilla causes necrosis
- Medullary infarcts lead to microhematuria
How is sickle cell anemia diagnosed?
Hemoglobin electrophoresis
What is the treatment for Sickle cell disease?
- Hydroxyurea
- Increases HbF
- increase in fetal hemoglobin retards gelation and sickling of RBCs
- Reduces levels of circulating leukocytes, which decreases the adherence of neutrophils to the vascular endothelium
- In turn, these effects reduce the incidence of pain episodes and acute chest syndrome episodes. - Hydration
What is restrictive cardiomyopathy?
- Heart muscle is restricted and less compliant
- Cant stretch and there is less filling
- Less blood is pumped out to the body
- Leads to diastolic heart failure (filling failure)
What causes restrictive cardiomyopathy?
- Amyloidosis
- Misfolded proteins that are insoluble
- Become deposited in many organs including the heart
- Can be familial or senile (TTR becomes deposited) - Sarcoidosis
- Formation of granulomas in the heart tissue - Endocardial fibroelastosis
- Thick fibroelastic tissue in the endocardium of young children - Loffler Syndrome
- Endomyocardial fibrosis with a prominent eosinophilic infiltrate
- Leads to inflammation of the myocardium - Hemochromatosis
- Iron becomes deposited in the hear - Postradiation fibrosis
What are the four pyruvate metabolic pathways and their cofactors?
- Alanine aminotransferase
- B6 is the cofactor
- Alanine carries amino groups to the liver from muscle - Pyruvate Carboxylase
- Biotin is the cofactor
- Oxaloacetate can replenish TCA cycle or be used in gluconeogenesis - Pyruvate dehydrogenase
- B1, B2, B3, B5 and Lipoic acid are cofactors
- Transition from glycolysis to the TCA cycle - Lactic acid dehydrogenase
- B3 is the cofactor
- End of anaerobic glycolysis
- Major pathway in RBCs, WBCs, kidney medulla, lens, testes and cornea
What is primary disease prevention?
Give an example
Preventing the disease before it occurs
- Ex. HPV vaccination
What is secondary disease prevention?
Screen early for and manage existing but asymptomatic disease
- Ex. Pap smear for cervical cancer
What is tertiary disease prevention?
Treatment to reduce complications from disease that is ongoing or has long-term effects
- Ex. Chemotherapy to cure cancer
What is quarternary disease prevention?
Identifying patients at risk of unnecessary treatment, protecting from the harm of new interventions
- Ex. Electronic sharing of the patient records to avoid duplicating recent laboratory and imaging studies
The axillary nerve
Arises from?
Exits the axilla through the?
Innervates which structures and muscles?
- Arises from posterior cord (C5, C6)
- Quadrangular space
- Gives rise to superior lateral cutaneous nerve of arm which innervates the skin over the lower deltoid (regimental badge area)
- Innervates teres minor and deltoid muscles
Fractures of the surgical neck of humerus or anterior dislocation of humerus damages which nerve?
Axillary nerve (C5, C6)
Which nerve is injured in the following presentation?
Flattened deltoid
Loss of arm abduction at shoulder ( > 15 degrees)
Loss of sensation over deltoid muscle and lateral arm
Axillary nerve (C5, C6)
What structures make up the quadrangular space? Superior border Inferior border Lateral border Medial border
- Subscapularis
- Teres major
- Surgical neck of humerus
- Long head of triceps brachii
The musculocutaneous nerve
Arises from?
Leaves the axilla by?
Innervates which structures and muscles?
- Arises from lateral cord (C5, C6, C7)
- Leaves the axilla by piercing through the coracobrachialis near the humerus
- Innervates the coracobrachialis, biceps brachii and brachialis
- Gives rise to the lateral cutaneous nerve of the forearm which innervates the skin on the lateral surface of the forearm
Upper trunk compression of the brachial plexus damages which nerve?
Musculocutaneous nerve (C5, C6, C7)
Which nerve is injured in the following presentations?
Loss of forearm flexion and supination or loss of sensation to the lateral forearm
Musculocutaneous nerve (C5, C6, C7)
The radial nerve
Arises from?
Leaves the axilla by?
Innervates which structures and muscles?
- Arises posterior to the axillary artery from the posterior cord (C5-T1)
- Exits the axilla inferiorly through the triangular interval supplying the long and medial heads of the triceps. It descends down the arm through the radial groove
- Descends wraping around the medial head of the triceps accompanied by the brachial artery
- Travels anteriorly over the lateral epicondyle of the humerus
- Innervates most of the skin of the posterior side of forearm and dorsal surface of the lateral palm and lateral three and a half digits (sensory)
- innervates triceps brachii (extends elbow) and the majority of the extensor muscles in the forearm (extends wrist and fingers and supinates the forearm)
Midshaft fracture of the humerus or compression of the axilla, due to crutches or sleeping with arm over chair (Saturday night palsy) causes injury to which nerve?
Radial nerve (C5-T1)
The following presentations cause injury to which nerve?
Wrist drop: loss of elbow, wrist and finger extension
- Decreased grip strength (wrist extension for maximal action of flexors)
Loss of sensation over the posterior arm/forearm and dorsal hand
Radial nerve (C5-T1)
Median nerve
Arises from?
Travels by?
Innervates which structures and muscles?
- Arises from medial and lateral cords of the brachial plexus (C5-T1)
- Exits the axilla, travels lateral to the brachial artery
- Halfway down the arm it crosses over the brachial artery and it becomes situated medially
- It enters the anterior compartment of the forearm via the cubital fossa
- Travels between the flexor digitorum profundus and flexor digitorum superficialis
- Gives rise to anterior interosseous nerve and the palmar cutaneous nerve
- It enters the hand via the carpal tunnel where it dives into the recurrent branch and the palmar digital branch
Motor Innervation - Innervates the flexors of the anterior compartment of the forearm except flexor carpi ulnaris and only half of flexor digitorum profundus
- Innervates the thenar muscles and the lateral two lumbricals in the hands.
Sensory innervation - Palmar cutaneous branch which arises from forearm, innervates the lateral aspect of the palm, does not pass through carpal tunnel
- Palmar digital cutaneous branch which arises in the hand, innervates the palmar surface and fingertips of the lateral three and a half digits
Supracondylar fracture of the humerus (proximal lesion) or carpal tunnel syndrome and wrist lacerations (distal lesion) cause injury to which nerve?
The median nerve (C5-T1)
The following presentations cause injury to which nerve?
- Ape hand
- Popes blessing
- Loss of wrist flexion
- Loss of flexion of the lateral fingers
- Loss of thumb opposition
- Loss of lumbricals of 2nd and 3rd digits
- Loss of sensation over the thenar eminence and dorsal and palmar aspects of lateral 3.5 fingers with proximal lesion
- Tingling on percussion of the carpal tunnel
The median nerve (C5-T1)
The ulnar nerve
Arises from?
Travels by?
Innervates what?
- Arises from C8-T1, a continuation of the medial cord
- Descends down the medial side of the upper arm
- At elbow it passes posterior to the medial epicondyle of humerus
- In the forearm it pierces the two heads of the flexor carpi ulnaris and travels along the ulna
Three branches arise in the forearm - Muscular branch, palmar cutaneous branch and dorsal cutaneous branch
- At the wrist it travels superficial to the flexor retinaculum
- Enters the hand via guyon canal
Innervates - The flexor carpi ulnaris and the flexor digitorum profundus medial half
- The hypothenar muscles
- Medial two lumbricals
- Adductor pollicis
- Interossei of the hand
- Palmaris brevis
Fracture of the medial epicondyle of the humerus (funny bone) or fractured hook of hamate causes injury to which nerve?
The ulnar nerve
The following presentations are injury to which nerve?
- Ulnar claw on digit extension
- Radial deviation of wrist upon flexion (proximal lesion)
- Loss of wrist flexion
- Loss of flexion of medial fingers
- Loss of abduction and adduction of fingers (Interossei)
- Loss of action of medial 2 lumbrical muscles (MCP flexion)
- Loss of sensation over the medial 1.5 fingers including hypothenar emminence
The ulnar nerve (C5-T1)
Recurrent branch of the median nerve is injured when?
Superficial laceration of the palm
Injury to the recurrent branch of the median nerve presents as?
- Ape hand
- Loss of thenar muscle group which include opposition, abduction and flexion of the thumb
- No loss of sensation
Patient presents with winged scapula What nerve is injured? What can cause the injury? What muscle is deficit? What are the symptoms?
- Lesion of long thoracic nerve
- Axillary node dissection from mastectomy
- Stab wounds
- Serratus anterior deficit
Symptoms - Can not anchor the scapula to thoracic cage
- Can not abduct the arm above the horizontal plane
What is thoracic outlet syndrome?
What causes it?
Which muscles are affected?
What are the symptoms?
- Compression of the lower trunk of the brachial plexus and of the subclavian vessels
- Caused by a cervical rib (extra) or a pancoast tumor (tumor of pulmonary apex)
- Intrinsic hand muscles: lumbricals, Interossei, thenar and hypothenar
- Symptoms are atrophy of the intrinsic hand muscles, ischemia, pain and edema due to vascular compression
What is klumpke palsy?
What are the causes?
What are the muscle deficits?
What are the symptoms?
- Traction or tear of the lower trunk (C8-T1) roots
- In infants, due to upward force on arm during delivery
- In adults, due to fall and trying to grab on with on arm
- The intrinsic hand muscles: lumbricals, Interossei, thenar and hypothenar
- Symptoms are total claw hand, lumbricals flex the MCP joints and extend the DIP and PIP joints
What is Erbs palsy?
What are the causes?
What are the muscle deficits?
What are the symptoms?
- Waiters tip (Erb-er Trunk)
- Traction or tear of the upper trunk (C5-C6)
- In infants due to traction on neck during delivery
- In adults due to trauma
- Deltoid, supraspinatus, infraspinatus and biceps are affected
- Supraspinatus and Deltoid unable to abduct arm so it hangs by the side
- Infraspinatus unable to laterally rotate the arm so it stays medially rotated
- Biceps unable to flex and supinate arm so it stays extended and pronated
Lesion to the upper trunk of the brachial plexus causes?
Erbs palsy
Lesion to the lower trunk of the brachial plexus causes?
- Klumpke’s palsy (claw hand)
Lesion to the posterior cord of the brachial plexus causes?
- Wrist drop
Lesion to the Long Thoracic from T1 of the brachial plexus causes?
- Winged scapula
Lesion to the axillary nerve of the brachial plexus causes?
- Deltoid paralysis
Lesion to the radial nerve of the brachial plexus causes?
- Wrist drop (Saturday night palsy)
Lesion to the musculocutaneous branch of the brachial plexus causes?
- Difficulty flexing the elbow joint and loss of lateral forearm sensation
