Midterm Flashcards

Question 1

Q

what is HIPAA and when was it started?

Answer

A

Health Insurance Portability and Accountability Act - 1996

Designed to provide privacy standards for patients.
Created by the dept. of health and human resources

Question 2

Q

What CANNOT be included in a case presentation?

Answer

A

any identifiers:
Names
Numbers of any sort (DOB, phone, MRN, SS, etc)
Identifying Photos

Question 3

Q

what happens if you do not safeguard the patients information?

Answer

A

you get kicked out

Question 4

Q

What is on the identification sheet (aka registration form)?

Answer

A

demographics
employment
insurance
emergency contact

Question 5

Q

what is included in the patient’s history?

Answer

A

Date & Time
Identifying Data
Chief Complaint
History of Present Illness incl. medications, allergies, habits
Past History: both medical and surgical
Family History: narrative or diagram
Personal/Social History:
Review of Systems (ROS)

Question 6

Q

what is included in the physical exam?

Answer

A

Vital Signs: Blood Pressure, Heart rate, Respiration rate, Temp(C), O2 Saturation (SpO2)

Exam of all systems:
Skin, HEENT(incl. thyroid and lymph nodes), Thorax/lungs, breasts/axillae, musculoskeletal, cardiovascular, abdomen, peripheral vascular/nervous system & genital/rectal exam

Question 7

Q

what are the components of a consent form?

Answer

A

Patient Name & Date
Name and Description of Surgery
Indication for Surgery
Risks & Benefits of Procedure
Alternatives to Procedure
Patient’s Signature, printed name, date, and time/Surgeon’s signature
*Patient must be competent to make medical decisions

Question 8

Q

what is the SOAP format?

Answer

A

Subjective: what the patient tells you

Objective: found as part of your physical exam

Assessment: Problem list

Plan: Management

Question 9

Q

what are the normal ranges for vital signs for a patient at rest?

Answer

A

Blood Pressure: 90/60- 120/80
Heart Rate: 60-100 beats per minute (BPM)
Respiratory Rate: 12-20 breaths per minute
Temperature: 97.8-99.1 F (ave. 98.6)
Pulse Oximetry: 95-100%

Question 10

Q

what is the difference between systolic and diastolic pressure?

Answer

A

Systolic BP (SP):  the pressure exerted on the walls of the arteries during heart contraction (systole) (top number)
Diastolic BP (DP): the pressure exerted on the walls of the arteries during heart relaxation (diastole) (bottom number)

Question 11

Q

what is MAP and how does it effect perfusion?

Answer

A

Mean Arterial Pressure (MAP): aka perfusion pressure
MAP= DP+ 1/3 PP (pulse pressure= SP-DP)
MAP > 60 mmHg to perfuse organs
MAP > 70 mmHg to perfuse organs in hypertensive patient.

Question 12

Q

what are the classifications of HTN?

Answer

A

Normal: Systolic:119 or lower Diastolic: 79 or lower
Prehypertension: Systolic: 120-139 Diastolic 80-89
Stage 1 Hypertension: Systolic: 140-159 Diastolic: 90-99
Stage 2 Hypertension: Systolic: 160 or higher Diastolic: 100 or higher.

Question 13

Q

are body temperatures uniform wherever they are taken?

Answer

A

No,
Axillary temperatures - 1 C lower than oral
Rectal temperatures + 1 C higher than oral

Question 14

Q

what is pulse oximetry?

Answer

A

Non-invasive means of measuring the saturation of hemoglobin

Question 15

Q

What is the CAGE questionnaire and what is it used for?

Answer

A

CAGE Questionnaire
Have you ever felt the need to CUT DOWN on drinking?
Have you ever felt ANNOYED by criticism of your drinking?
Have you ever felt GUILTY about drinking?
Have you ever had an EYE-OPENER to steady your nerves or get rid of a hangover?

Question 16

Q

what are the stages of the kubler-ross response?

Answer

A

Kubler-Ross: 5 stages in a person’s response to death.

Denial & Isolation
Anger
Bargaining
Depression or Sadness
Acceptance

Question 17

Q

what is the difference between subjective and objective data?

Answer

A

Subjective Data: What the patient tells you.

Objective Data: What you detect during the exam.

Question 18

Q

what is the chief complaint?

Answer

A

The reason the patient is here to see you.

Make every attempt to use the patient’s own words.

If the patient has NO complaints, report their GOALS instead.

Question 19

Q

what are the seven attributes of a symptom?

Answer

A

Seven Attributes of a Symptoms (Chloride)

Character or Quality
Location
Onset
Radiation
Intensity
Duration
Exacerbating or Alleviating factors

Question 20

Q

what is included in the past medical history?

Answer

A

General health and strength of the patient
Adult illnesses
Childhood illnesses
Past surgeries or hospitalizations
Recent tests
Immunizations

Question 21

Q

what is the review of systems?

Answer

A

Series of questions from “head to toe” in a system based approach
(General, skin, HEENT, Neck, Breasts, Resp. Cardio, GI, Urinary, Genitals, Perif. Vasc., MS, Neuro, Hematologic, Endocrine, Psych)

Question 22

Q

what are the cardinal techniques of examination?

Answer

A

Inspection, Palpation, Percussion, Ascultation

Question 23

Q

what are the BMI ranges and how is it calculated?

Answer

A

Weight (kg)/height (meters squared)
25 overweight
>30 is obese

Question 24

Q

what are the 5 segments when doing a neuro exam?

Answer

A

mental status
cranial nerves
motor function
sensory system
reflexes

Question 25

Q

what are some normal hematology lab values?

Answer

A

White Blood Cell Count (WBC)(cells/ml): 4,500-10,000
Red Blood Cell Count (RBC)(x 10 6): 4.0-5.5
Hemoglobin (Hgb)(g/dl): 12.0-16.5
Hematocrit (Hct)(%): 36-50
Mean Corpuscular Volume (MCV): 80-100
Platelet Count (plt): 100,000-450,000

Question 26

Q

what are some normal values for a complete metabolic panel?

Answer

A

Sodium (Na)( mEq/L): 135-147
Potassium (K)(mEq/L): 3.5-5.2
Chloride (Cl)(mEq/L): 95-107
Bicarbonate (HCO3) (mEq/L) 23-29
BUN (Blood Urea Nitrogen)(mg/dl): 7-20
Creatinine (Cr)(mg/dl): 0.5-1.4
Glucose (Glu) (mg/dl): 60-110

Question 27

Q

what are normal bilirubin and alkaline phospatase values and what do they indicate?

Answer

A

Total Bilirubin (TB) (mg/dl): 0.1-1.2

Alkaline Phosphatase (Alk phos)(IU/L:) 33-153
liver function: bile duct or gallbladder issue

Question 28

Q

what are some normal values for coagulation studies?

Answer

A

Protime (PT)(Extrinsic pathway): 10-14 seconds

Partial Prothrombin Time (PTT)(Intrinsic pathway): 25-39 sec

International Normalized Ratio (INR): 0.8-1.2
INR= PT test/PT normal

Question 29

Q

whatis the purpose of the lacrimal gland?

Answer

A

produces tears. Tears protect the cornea from drying out, inhibits microbial growth, and gives a smooth optical surface to the cornea

Question 30

Q

what is the fundus of the eye?

Answer

A

Fundus (posterior part of the eye) contains the retina, choroid, fovea, macula, optic disc, and retinal vessels

Question 31

Q

what are the two phases of hearing?

Answer

A

Conductive Phase
From external ear through the middle ear

Sensorineural Phase
Involves the cochlea and vestibulocochlear nerve (CN VIII)

Question 32

Q

what is the function of the nasal turbinates and meatuses?

Answer

A

Principal functions: cleansing, humidification, and temperature control of inspired air.

Question 33

Q

which sinuses are accessible to exam?

Answer

A

Only the frontal and maxillary sinuses are accessible to exam.

Question 34

Q

what is the snellen eye chart used for?

Answer

A

visual acuity NOT peripheral vision

Question 35

Q

what is Nystagmus?

Answer

A

Nystagmus (fine rhythmic oscillation of the eyes)

Question 36

Q

what is the difference between the Weber and Rinne tests?

Answer

A

hearing tests
Weber test: lateralization
Rinne test: compares air conduction and bone conduction

Question 37

Q

where are some of the places where lymph nodes can be identified?

Answer

A

Preauricular: front of ear
Posterior auricular: superficial to mastoid process
Occipital: at base of skull posteriorly
Tonsillar: at angle of mandible
Submandibular: midway btwn the angle and tip of the mandible
Submental: few centimeters behind tip of mandible
Superficial cervical: superficial to sternomastoid
Posterior cervical: along anterior edge of the trapezius
Deep cervical chain: deep to sternomastoid (often inaccessible to exam)
Supraclavicular: deep in the angle formed by the clavicle and the sternomastoid

Question 38

Q

The parts of the history and ROS that will be especially pertinent to the airway exam include:

Answer

A

Previous surgeries
Previous prolonged intubations
Previous tracheostomy
Previous laryngectomy
Previous traumas to the airway, neck, etc.
Social history including smoking, drug and alcohol dependence

Question 39

Q

what are some clues to a difficult intubation?

Answer

A

Dry cough
-Possible tracheobronchial compression
Easy bleeding
-Epistaxis risk
Gastroesophageal reflux
-Aspiration risk
Longstanding diabetes mellitus
-Limited cervical mobility
Loud snoring
-Prone to soft-tissue obstruction
Major trauma
-unstable neck
Radiation to the neck
-Fibrosis, immobility of larynx
Recent temporal craniotomy
-Limited mandibular mobility
Smoking
-Salivation, cough, laryngospasm
Undigested food returning to the mouth
-Aspiration risk from the pharyngeal pouch

Question 40

Q

what are the mallampati scores?

Answer

A

Grade 1: Most of glottis visible
Grade 2: Only posterior portion of glottis visible
Grade 3: Epiglottis, but none of glottis visible
Grade 4: No airway structures visualized

Question 41

Q

trace blood flow to and from the heart

Answer

A

VCs -> RA -> (tricuspid) RV -> (pulmonary) PAs-> Lungs-> PVs-> LA-> (mitral) LV-> (aortic) Aorta-> Body

Question 42

Q

when do systole and diastole occur?

Answer

A

Diastole:
Pressure in Left Atrium (LA) > pressure in the Left Ventricle (LV) and blood flows from the LA through the open mitral valve and into the LV
Systole:
When the LV starts to contract, and LV pressure > LA pressure the mitral valves shut
LV pressure > aorta and forces the aortic valve open (maximal LV pressure=systolic pressure)
After the LV ejects most of its blood, LV pressure < aorta and the aortic valve shuts

Question 43

Q

what are the heart sounds and when do they occur?

Answer

A

mitral valves shut (which produces the 1st heart sound S1)
aortic valve shuts (which produces the 2nd heart sound S2)

S3 (a 3rd heart sound): in children and young adults, arises from a rapid deceleration of the column of blood against the ventricular wall. In older adults, an “S3 gallop” usually indicates a pathologic change in ventricular compliance.

S4 (a 4th heart sound) marks atrial contraction and usually happens just before S1. Reflects a pathologic change in ventricular compliance.

Question 44

Q

what can cause heart murmurs?

Answer

A

Attributed to turbulent blood flow

Stenotic valve: abnormally narrowed valvular orifice that obstructs blood flow and has a very “harsh” characteristic sound Ex. Aortic stenosis

Regurgitant valve: fails to close fully and allows blood to leak backward in a retrograde direction. Ex. Aortic regurgitation/insufficiency.

Question 45

Q

where do you listen for valve sounds?

Answer

A

Mitral Valve: heard best at the cardiac apex.
Tricuspid Valve: heard best at the lower left sternal border.
Pulmonic Valve: heard best in the 2nd and 3rd left interspaces close to the sternum.
Aortic Valve: heard anywhere from the right 2nd interspace to the apex.

Question 46

Q

what is the path of conduction in the heart?

Answer

A

SA -> AV -> His -> R and L bundle branches

Question 47

Q

why is there a delay at the AV node?

Answer

A

allow ventricles to fill

Question 48

Q

what is a P wave, QRS complex and T wave?

Answer

A

atrial depol.
ventricular depol.
ventricular repol.

Question 49

Q

define cardiac output and stroke volume

Answer

A

Cardiac Output (CO): the volume of blood ejected from each ventricle in 1 min (product of heart rate (HR) & stroke volume (SV).
CO= HR X SV

Stroke Volume: the volume of blood ejected with each heartbeat (depends on: preload, myocardial contraction, and afterload)

Question 50

Q

what are preload and afterload?

Answer

A

Preload: the load that stretches the cardiac muscle before contraction. The volume of blood in the RV at the end of diastole=preload for the next beat.
Increases: inspiration, increased volume (exercise), CHF
Decreases: exhalation, decreased LV output, and pooling of blood in capillary bed/venous system.

Afterload: refers to the degree of vascular resistance to ventricular contraction (from tone in walls of arterial system).

Question 51

Q

what is myocardial contractility and how is it affected?

Answer

A

Myocardial Contractility: refers to the ability of the cardiac muscle, when given a load, to shorten.
Increases: when stimulation occurs from the sympathetic ns
Decreases: when blood flow or oxygen delivery to the myocardium is impaired.

Question 52

Q

what is jugular venous pressure and where is it measured?

Answer

A

Jugular Venous Pressure (JVP): height in the venous column of blood in the internal jugular veins.
Reflects right atrial pressure; important clinical indicator of cardiac function and right heart hemodynamics.
Estimated from the RIGHT internal jugular vein (IJV) b/c right side has a more direct path to the right atrium.

Question 53

Q

what do the jugular venous pulsations represent?

Answer

A

A wave: reflects the slight rise in atrial pressure that accompanies atrial contraction (just before S1)
C wave: RV contraction causing tricuspid valve to bulge toward RA.
X descent: starts with atrial relaxation, rapid atrial filling due to low pressure.
V wave: tricuspid valve closes & RA fills with blood (after S2)
Y descent: tricuspid valve opens and blood flows from RA passively into RV and right atrial pressure falls.

Question 54

Q

what is Paroxysmal nocturnal dyspnea (PND)?

Answer

A

Paroxysmal nocturnal dyspnea (PND): episodes of sudden dyspnea or orthopnea that awakens patient from sleep prompting need to go to window for air.

Question 55

Q

what are some modifiable cardiac risk factors?

Answer

A

Tobacco use
Physical Inactivity/Obesity
Hypertension
Diabetes
Hypercholesterolemia
Stress/Behavior

Question 56

Q

what are the steps for measuring JVP or CVP?

Answer

A

1) make patient comfortable. Raise head slightly (pillow) to relax the sternocleidomastoid ms.
2) Raise head of bead (HOB) of exam table to 30 degrees and turn patients head away from side inspected.
3) Examine both sides of neck. Identify external jugular vein (EJ) then find the internal jugular pulsations.
4) Raise or lower the HOB until oscillations of IJV are seen in the lower half of the neck.
5) Focus on the right internal jugular vein. Look for pulsations in the suprasternal notch.
6) Identify the highest point of pulsation in the right IJV. Extend card horizontally and ruler vertically from sternal angle and form a right angle. Distance on ruler in cm=JVP

Question 57

Q

what are thrills and bruits?

Answer

A

Thrills: humming vibration felt during palpation of the carotid artery.
Bruits: a murmur like sound of vascular rather than cardiac origin. Use the diaphragm of the stethoscope. And ask patient to hold breath then listen with the bell.

Question 58

Q

what is the PMI?

Answer

A

Apical impulse, point of maximal impulse, or PMI
Represents the brief early pulsation of the LV as it moves anteriorly during contraction and touches the chest wall. Usually at 4th or 5th interspace around midclavicular line

Question 59

Q

what are some characteristics of heart sounds?

Answer

A

Location – anatomic area
Intensity – loudness
Duration – length of time
Pitch – high vs. low
Quality – sharp, dull, booming, snapping, blowing, harsh, musical
Timing – systole or diastole

Question 60

Q

name four systolic murmurs

Answer

A

Aortic stenosis
Mid-systolic ejection murmur, heard best over aortic area, crescendo/decrescendo, radiates to neck

Mitral valve prolapse
Mid-systolic click, heard best over mitral area

Mitral regurgitation
Pansystolic (holosystolic) – valve is unable to contain blood within the ventricle during systole, S1 may be decreased heard best over apex, radiates to left axilla

Tricuspid regurgitation
Pansystolic – valve fails to close completely during systole, heard best over lower left sternal border

Question 61

Q

name 2 diastolic murmurs

Answer

A

Aortic regurgitation
Leaflets of aortic valve fail to close – volume overload in LV
Heard best in aortic area with patient sitting and leaning forward

Mitral stenosis
Leaflets of valve have become thick, stiff, and distorted because of rheumatic fever
Heard best at apex and using bell
Mainly rheumatic in origin

Question 62

Q

what are myocytes?

Answer

A

Myocytes (cardiac cells): electrically polarized at rest

Question 63

Q

name three types of heart cells and their function

Answer

A

Pacemaker cells: electrical power source of the heart

Electrical conducting cells: the hard wiring of the heart

Myocardial cells: the contractile machinery of the heart

Question 64

Q

what is an action potential?

Answer

A

Action Potential: a record of one electrical cycle of depolarization & repolarization of a single cell.
This one action potential stimulates neighboring cells to depolarize until the entire heart has been depolarized and contracts.

Answer 65

A

Automaticity: all heart cells possess ability to behave as a pacemaker. Suppressed unless SA node fails.

Answer 66

A

Horizontal axis=time
Small square distance=0.04 sec
Large square=0.2 sec
Vertical axis=voltage
Small square=0.1 mV
Large square=0.5 mV

Answer 67

A

A wave of depolarization towards a positive electrode=positive deflection.
A wave of depolarization away from a positive electrode=negative deflection.
A depolarizing wave moving perpendicular to a positive electrode=biphasic wave.

Answer 68

A

Three standard leads
I is with right arm( – ) left arm( +)
II is with right arm( –) legs( +)
III is with left arm (–) legs( +)

Answer 69

A

All electrodes are + with a – central terminal

Answer 70

A

V1, V2, V3, V4

Answer 71

A

I, AVL, V5, V6

Answer 72

A

II, III, AVF

Answer 73

A

Lead I & AVL: toward current=positive wave
Lead III: perpendicular to current=biphasic p wave
Lead AVR: away from current=negative p wave

Answer 74

A

Lead V5 & V6: toward current=positive wave
Lead V1: perpendicular to current=biphasic wave
Lead V2-V4: vaiable

Answer 75

A

Represents the time from the start of atrial depolarization to the start of ventricular depolarization.

Answer 76

A

Lead V1: smallest R wave

Lead V5: largest R wave

Answer 77

A

Represents the time from the end of ventricular depolarization to the start of ventricular repolarization.

Answer 78

A

Represents the time from the beginning of ventricular depolarization to the end of ventricular repolarization.
Duration of QT interval is proportional to HR
QT interval composes 40% of the normal cardiac cycle (R-R interval)

Answer 79

A

P wave: small and usually positive in the left lateral and inferior leads.
Biphasic: III & V1
Positive: II
Negative: AVR

Answer 80

A

Refers to any disturbance in the rate, regularity, site of origin, or conduction of the cardiac electrical impulse.
Can be a single aberrant beat (prolonged pause between beats) or a sustained rhythm disturbance

Answer 81

A

palpations, light-headedness, syncope, CHF, sudden death

Answer 82

A

Mnemonic: HIS DEBS
H-Hypoxia:
I-Ischemia and Irritability:
S-Sympathetic stimulation:
D-Drugs:
E-Electrolyte Disturbances:
B-Bradycardia
S-Stretch:

Answer 83

A

A Holter Monitor or ambulatory monitor is a portable EKG machine with a memory.
Patient wears monitor for 24-48 hours and a complete record of the patient heart rhythm is stored and later analyzed for any arrhythmic activity.

An event monitor records 3-5 minutes of a rhythm strip, but is initiated by the patient when he/she experiences symptoms.
EKG recording is sent over phone lines for evaluation.

Answer 84

A

Step 1:	Calculate rate.
Step 2:	Determine regularity.
Step 3:	Assess the P waves.
Step 4:	Determine PR interval.
Step 5:	Determine QRS duration

Answer 85

A

Count the # of R waves in a 6 second rhythm strip, then multiply by 10.

Answer 86

A

Normal: 0.12 - 0.20 seconds. (3-5 boxes)

Answer 87

A

Normal: 0.04 - 0.12 seconds.

(1 - 3 boxes)

Answer 88

A

)When electrical activity follows the usual conduction pathways, but are either too fast, too slow, or irregular. These are called arrhythmias of SINUS origin.
)When the electrical activity originates elsewhere than the sinus node. These are called ECTOPIC rhythms.
3) When the electrical activity originates in the sinus node and follows the usual pathways, but encounters unexpected blocks and delays these are called CONDUCTION BLOCKS.
4) And finally, when the electrical activity follows accessory conduction pathways that bypass the normal ones, providing an electrical shortcut, or short circuit. These arrhythmias are termedPREEXCITATION SYNDROMES.

Answer 89

A

(sinus arrythmia)

Depolarization originates near the AV node and usual pattern of atrial depolarization does not occur, thus NO P waves.

Answer 90

A

ectopic

PSVT is very common and sudden in onset usually initiated by a supraventricular premature beat.

Regular rhythms with a rate of between 150-250 BPM.

You can see retrograde p waves, but usually burried in the QRS complexes.

QRS complexes are normally narrow

Answer 91

A

Respiration changes HR

Answer 92

A

PSVT - Paroxysmal Supraventricular Tachycardia

Answer 93

A

Atrial depolarization occurs so rapidly, the baseline rises and falls yielding a saw-toothed pattern or flutter waves.
AV node becomes overwhelmed and therefore not every atrial impulse that goes to AV node results in a QRS complex. AV block

Answer 94

A

In atrial fibrillation, atrial activity is completely chaotic and the AV node may be bombarded with more than 500 impulses per minute.

Multiple reentrant circuits occurring in a totally unpredictable fashion.
No true p waves are seen. Baseline appears flat or undulates slightly. AV node lets occasional impulses pass generating irregularly irregular ventricular rate between 120-180 BPM.

Key: Irregularly irregular without p waves

Answer 95

A

Multifocal atrial tachycardia (MAT) is an irregular rhythm occurring at a rate of 100-200 BPM.
Results from a random firing of several different atrial foci. When rate < 100 BPM =Wandering atrial pacemaker.
MAT is common in patients with severe lung disease

Answer 96

A

Paroxysmal atrial tachycardia or PAT is regular rhythm with a rate of 100-200 BPM

Automatic type typically displays a warm-up period (rhythm is irregular) and a cool-down period (terminates)
Seen in otherwise normal hearts
Most common cause: Digitalis Toxicity

Answer 97

A

How to differentiate PSVT and PAT? Warm up and cool down with PAT and Carotid massage will help PSVT but not PAT.

Answer 98

A

QRS complex appears wide and bizarre b/c ventricular depolarization does not follow normal conduction pathways.
Isolated PVCs are common and rarely require treatment. An isolated PVC in the setting of an acute myocardial infarction is more ominous in that it can predispose patient to VT or VF.

Answer 99

A

run of 3 or more consecutive PVCs

Answer 100

A

Ventricular fibrillation is a preterminal event, seen almost solely in dying hearts.
Most frequently encountered arrhythmia leading to sudden death.
EKG tracing jerks about spasmodically in course VF and undulates gently in fine VF.
There are no true QRS complexes.
In VF the heart generates no cardiac output and CPR and cardiac defibrillation must be performed at once.

Answer 101

A

Accelerated Idioventricular rhythm is a benign rhythm sometimes seen during an acute infarction.
It’s a regular rhythm occurring at 50-100 BPM and represents a ventricular escape focus that has accelerated sufficiently to drive the heart.
Rarely sustained, does not progress to VF and does not require treatment.

Answer 102

A

Means “twisting of the points”

Form of VT usually seen in patients with prolonged QT intervals

Answer 103

A

programmed electrical stimulation or defibrillation

Answer 104

A

6th

midaxillary

Answer 105

A

No, Lung tissue has no pain fibers: pain in lung conditions such as pneumonia and pulmonary infarction arises from inflammation of the parietal pleura.

Answer 106

A

Non-painful but uncomfortable awareness of breathing that is inappropriate to the level of exertion.

Answer 107

A

Normal breath sounds are Vesicular, Bronchiovesicular, or Bronchial

adventitious sounds are Rales (crackles), Rhonchi (gurgles), Friction rub, and Wheezes.

Answer 108

A

Literally means “the measuring of breath”

Measures the amount (volume) and/or speed (flow) of air that can be inhaled and exhaled.

Answer 109

A

The tidal volume (TV), about 500 mL, the amount of air inspired during normal, relaxed breathing.

Answer 110

A

The inspiratory reserve volume (IRV), about 3,100 mL, the additional air that can be forcibly inhaled after the inspiration of a normal tidal volume

Answer 111

A

The expiratory reserve volume (ERV), about 1,200 mL, the additional air that can be forcibly exhaled after the expiration of a normal tidal volume.

Answer 112

A

Residual volume (RV), about 1,200 mL, the volume of air still remaining in the lungs after the expiratory reserve vol. is exhaled

Answer 113

A

The total lung capacity (TLC), about 6,000 mL, is the maximum amount of air that can fill the lungs (TLC = TV + IRV + ERV + RV).

Answer 114

A

The vital capacity (VC), about 4,800 mL, is the total amount of air that can be expired after fully inhaling (VC = TV + IRV + ERV = approximately 80 percent TLC). The value varies according to age and body size.

Answer 115

A

The inspiratory capacity (IC), about 3,600 mL, is the maximum amount of air that can be inspired (IC = TV + IRV)

Answer 116

A

The functional residual capacity (FRC), about 2,400 mL, is the amount of air remaining in the lungs after a normal expiration (FRC = RV + ERV).

Answer 117

A

Normal FEV1/FVC ratio = 80%

The percent of forced vital capacity that is exhaled in the first second

Answer 118

A

Involves difficulty exhaling all the air from the lungs.
Because of damage to the lungs or narrowing of the airways inside the lungs, exhaled air comes out more slowly than normal.
At the end of a full exhalation, an abnormally high amount of air may still linger in the lungs. FEV1/FVC ratio is < 70%

Answer 119

A

Results from a condition causing stiffness in the lungs themselves.
In other cases, stiffness of the chest wall, weak muscles, or damaged nerves may cause the restriction in lung expansion.
FEV1. FEV1 > 80%

Answer 120

A

pH 7.35-7.45 
pCO2 35-45
 pO2 80-100 
HCO3 22-26 
O2 Sat. 95-100%

Answer 121

A

Contraindicated in severe bronchospasm and bleeding

Answer 122

A

When using bronchoscopy for a fiberoptic approach to intubation, your orientation is the tracheal rings are anterior.

Answer 123

A

Used in massive bleeding, extraction of large obstructing objects, biopsy of tracheal or main stem bronchus tumors and bronchial carcinoids, facilitation of laser therapy

Answer 124

A

VQ Scan is a type of medical imaging using scintigraphy and medical isotopes to evaluate the circulation of air and blood within a patient’s lungs in order to determine the ventilation/perfusion ratio.
The ventilation part of the test looks at the ability of air to reach all parts of the lungs, while the perfusion part evaluates how well blood circulates within the lungs.
Commonly done in order to check for the presence of a blood clot or abnormal blood flow inside the lungs (such as a pulmonary embolism (PE)

Answer 125

A

ventricular foci (20-40)
junctional foci (AV node- 40-60)
Atrial foci (60-75)
SA Node (60-100)

Answer 126

A

> 100 bpm

Answer 127

A

unpleasant awareness of the heartbeat described as skipping, racing, fluttering, or pounding.

Answer 128

A

Aortic stenosis

Answer 129

A

mitral valve prolapse

Answer 130

A

mitral regurgitation

Answer 131

A

Tricuspid regurgitation

Answer 132

A

aortic regurgitation

Answer 133

A

mitral stenosis

Brainscape's Knowledge GenomeTM

Midterm Flashcards

Midterm sample questions

Brainscape's Knowledge Genome^TM