Med Surg Final Flashcards

Question 1

Q

Pituitary Gland

Answer

A

Located at the base of the skull. Divided in two two lobes 1.anterior and 2. posterior.

Secretes regulatory hormones that in turn regulates many bodily functions.

Anterior pituitary secretes (6 hormones)
Posterior pituitary secretes (2 hormones) - these hormones are produced in the hypothalamus and stored in the posterior pituitary gland where they’re secreted as needed.

Question 2

Q

Anterior Pituitary

Answer

A

Thyroid Stimulating Hormone (TSH)
Luteinizing Hormone (LH)
Follicle stimulating hormone (FSH)
Prolactin
Growth Hormone (GH) ( TOO MUCH= acromegaly in adults)
adrenocorticotropic hormone ( ACTH)- stimulates the secretion of glucocorticoids from the adrenal glands ( TOO MUCH= Cushings)

FLATPG

For this exam- just need to focus on TSH and GH

Question 3

Q

Posterior Pituitary

Answer

A

Antidiuretic Hormone ( ADH; Vasopressin): Increases reabsorption of water in the kidneys ( deficiency = diabetes insipidous) Excessive = SIADH)
Oxytocin

Disorders of the Posterior pituitary result in fluid/electrolyte imbalances

Question 4

Q

Acromegaly

Answer

A

Too much growth hormone that causes widespread overgrowth ( but not height), untreated can cause hypertension, Diabetes, and heart problems)

-onset is gradual

Risk Factors: Age, benign tumors ( Pituitary Adenoma

S/S:

severe head aches
visual disturbances (diplopia (double vision), decreased visual acuity)
joint pain
decreased labido
enlarged hands and feets
HYPERglycemia
Barrel-shaped Chest
lower jaw protrusion
big head
change in voice characteristics
menstrual pattern changes
sleep apnea
Increased ICP ( decreased level of consciousness, pupillary changes, sever hypertension, widened pulse pressure, bradycardia and Seizures)

Diagnostics:

X-ray
CT/MRI
Cerebral Angiography

Labs:
Growth Hormone suppression test- where GH is measured at baseline as well as after receiving glucose ( increase Glucose is expected to decrease GH) pts. With acromegaly with show either no decrease or only minor decrease in GH following administration of Glucose

Nursing Actions:

obtain baseline GH and glucose levels
administer glucose
obtain Gh and blood glucose at 10, 60 and 120 min post glucose administration

( patients should be NPO, except water for 6-8 hrs prior to test)

Medications:
dopamine agonists- inhibit release of GH
( mesylate, cabergoline)

Somatostatin analogs - inhibit GH release

GH receprot blocker-

Surgical Interventions:
Hypophysectomy (Removal of pituitary gland/ tumors via endoscopic transnasal or oronasal approach)
Radiation- radiate the tumor

Patient Teaching:

If pituitary gland removed- pt will need life long hormonal replacement

avoid activities that increase ICP
oral care- to minimize effects of mouth breathing post surgery
High fiber diet to minimize straining post op

Question 5

Q

Diabetes Insipidus

Answer

A

Primarily DI = decreased ADH
Decreased ADH reduces the ability of the distal renal tubules in the kidney to collect and concentrate urine, resulting in excessive diluted urination, excessive thirst, electrolyte imbalance and excessive fluid intake

Think *WATER WASTING

Types (4):
1. Primary - low ADH production caused by defects in hypothalamus or pituitary gland

Secondary- lack of ADH caused by infection, tumor, head trauma or brain surgery
Nephrogenic- inherited , renal tubules do not react to ADH
Drug-induced- Lithium or demeclocycline can alter how the kidneys respond to ADH

Risk Factors:

head injury, tumors or lesions, surgery, radiation near or around the pituitary gland.
infections like meningitis or encephalitis
clients on lithium/ demeclocycline
older adults are at higher risk of dehydration due to generally lower water content in the body, decreased thirst response, decreased kidney function, increase use of diuretics, swallowing difficulties and inadequate food intake

S/S:

polyuria ( abrupt onset of excessive urination) output of 4-30 L/day
polydipsia ( excessive thirst)
nocturia
fatigue
dehydration ( excessive thirst, weight loss, muscle weakness, headache, constipation, dizziness)

Physical Assessment findings:

sunken syes
tachycardia
hypotension
loss or absence skin turgor
dry mucous membranes
weak, poor peripheral pulses
decreased cognition

Lab Tests:
Serum Chemistry ( THINK HIGHLY CONCENTRATED)
-increased osmolarity
-increased sodium
-increased potassium
-serum volume is lower, but serum concentration is higher

Urine Chemistry:

Decreased Specific gravity ( less that 1.005)
decreased osmolality
decreased PH
decreased sodium
decreased potassium
urine volume is increased and concentration decreases

Nursing Assessment/Considerations:

Monitor vitals , urinary out put, I/O,
Monitor Lab Values: specific gravity, BUN, potassium, sodium, creatinine)
daily weights
regular diet, but avoid foods/beverages with diuretic effects
IV therapy: hydrate to match output, electrolytes replacement
promote safety ( access to bathroom, bed pan, assist with ambulation as dizziness may be present)
assess skin turgor and mucous membranes
drink in response to thirst

Medications:
ADH replacement agents
( desmopressin, vasopressin ( IV, orally or intranasally)

monitor vitals
give cautiously to patients with coronary artery disease because it can cause vasoconstriction
monitor I/O, labs
monitor for headache, confusion or other signs of water intoxication
for nasal preparations, teach clients to blow nose prior to clear nasal passage and have them sit up prior to inhalation

Question 6

Q

SIADH ( syndrome of inappropriate Antidiuretic Hormone)

Answer

A

SIADH is excessive release of ADH (OPPOSITE OF DI)

common in lung cancers

THINK WATER HOLDING / NA WASTING
-leads to renal reabsorption of water and suppression of renin-angiotensin mechanism, causing renal excretion of sodium leading to water intoxication

Risk factors: conditions that stimulate the hypothalamus to hyper secrete ADH include malignant tumors, increased intrathoracic pressure ( like positive pressure ventilation), head injury, meningitis, stroke, tuberculosis, and medications such as ( TCAs, Chemo agents, SSRIs, Opioids, fluoroquinolone antibiotics)

S/S:
early manifestations: 
- headache
-weakness
-muscle cramps
-anorexia
 -weight gain (without edema because water, not sodium is retained)

As serum sodium levels decrease:

personality changes
hostility
sluggish deep tendon reflexes
nausea
vomiting
diarrhea
oliguria with dark yellow concentrated appearance

Physical Assessment Findings

confusion, lethargy, cheyne-stokes respirations,
seziures, stroke, coma or death

manifestations of fluid volume excess ( hypervolemia) include: tachycardia, bounding pulses, possible hypertension, crackles in lungs, distended neck veins, taut skin, weight gain w/o edema, intake greater than output

Lab values:

Urine chemistry- Think Concentrated

increase sodium
increase urine osmolarity
as urine volume decreases, urine osmolarity increases

Blood Chemistry - Think Diluted

decreased sodium - dilution hyponatremia
decreased osmolarity
as serum volume increases, serum osmolarity decreases)

Nursing Care:
-restrict oral intake of fluid to 500-1,000ml/day to prevent further hemodilution- provide comfort measures for thirst, such as oral care, ice chips, lozenges and stagger water intake

Flush all enteral and fastric tubes with normal saline- NOT WATER to replace sodium and prevent further hemodilution
monitor I/O - report decrease output of urine
monitor vitals for signs of increased BP, tachycardia and hypothermia
auscultate lungs sounds- monitoring for Pulmonary edema
daily weights
report altered mental status
reduce environmental stimuli
provide safe environment, initiate seizure protocol
monitor for indications of heart failure, which can occur from fluid overload, use of loop diuretics can be indicated

Medications :
Vasopressin- promote water secretion without causing sodium loss
-administer in acute care setting
-monitor blood glucose
-monitor serum sodium
-I/O
-bowel movement patterns
-frequent oral care
-monitor for sins of dehydration

Loop diuretics:

increase water secretion in the kidneys
caution for hyponatremia
tell client to change positions - orthostatic hypotension
monitor signs of hyponatremia (nausea/vomiting and decreased appetite)
Hypertonic sodium chloride IV therapy
(3%-5%)
-monitor for fluid over load ( distended neck veins, crackles in the lungs, trouble breathing, onset of cough)
-changes in LOC

Question 7

Q

Thyroid

Answer

A

Thyroid gland produces 3 hormones

thyroxine ( T4)
Triiodothyronine ( T3)
thyrocalcitonin ( calcitonin)

Secretion of T3 and T4 is regulated by the Anterior pituitary gland through a negative feedback mechanism

When T3 and T4 level decrease, TSH is released from the anterior pituitary , this stimulates more hormones to be released until normal levels are reached.

T3 and T4 affect all body systems by regulating overall metabolism, energy production, and controlling tissue use of fats, proteins and carbohydrates

Calcitonin- inhibits mobilization of calcium from bone and reduces blood calcium levels. Dietary intake of protein and iodine are necessary for the production of thyroid hormones

Question 8

Q

Hyperthyroidism

Answer

A

Excessive thyroid hormones- exaggerating normal body functions and produces a hyper-metabolic state

Risk Factors:
-Graves disease is the most common cause-autoimmune antibodies result in hypersecretion of thyroid hormones- AUTOSOMAL RECESSIVE TRAIT passed to females

Toxic nodular goiter, is caused by over production due to thyroid nodules
exogenous hyperthyroidism is caused by excessive dosages of thyroid hormone

S/S:

nervousness, irritability, hyperactivity, emotional lability, low attention span, crying/laughing without cause, change in mental status/emotional status
weakness, easily fatigability, exercise intolerance
muscle weakness
heat intolerance
weight change( usually loss), increased appetite
insomnia, change in sleep patterns
frequent stools and dirrhea
menstrual irregularities ( usually amenorrhea, decreased flow or infertility)
initial increase in libido, then gradually decrease as the disease progresses
warm, sweaty, flushed skin with velvety smooth texture
hair thinning, fine, soft, silky texture
tremors, hyperkinesia, hyperreflexia
Bulging eyes
enlarged thyroid ( goiter)
vision changes
elevtaed systolic blood pressure
widened pulse pressure
tachycardia, palpatations, dysrhythmia
dyspnea
older adults may present with heart failure, angina or afib

Lab Tests:

Serum TSH: decrease in graves disease, but possibly elevated in secondary or tertiary hyperthyroidism

T4, T3- elevated in presence of disease

Diagnostic procedures:
- Ultrasound images of thyroid gland and surrounding tissues

-electrocardiogram - used to evaluate the effects of excessive TH on the heart(tachycardia, dysrhythmias) ECG changes include a-fib and changes in P and T waves)

Radioactive Iodine uptake - nuclear medicine test
clarifies size and function of gland
contraindicated in pregnancy
assess for allergy to iodine/shellfish
the uptake of radiactive iodine orally, 24 hours prior to test is measured
elevated uptake is indicative of hyperthyroidism

nursing considerations pre scan

med list- to determine use of iodides
allergies
confirm not pregnant
recent use of contrast media/ birth control- can cause false positives
severe illnesses, malnutrition, use of aspirin, steroids, phenytoin sodium can cause false decreases in TH levels
inform provider if pt received iodine contrast recently

-advise client to avoid foods high in iodine for 1 week suggest the use of non-iodized salt, avoid fish shellfish and medications containing iodine

Nursing Considerations:
- minimize clients energy expenditure, encourage alternation of activity and rest and assist with activities as necessary
- promote calm environment
-assess mental status changes and decision-making ability
-Monitor nutritional status, providence increase calories and protein- other nutritional support as necessary
-I/O
-Daily weights
- provide eye protection/lubricants, tape eyes closed for pts. with exophthalmos
- monitor vitals and hymodynamic parameters
-reduce room temperature
- provide cool showers/sponge bath to promote comfort
-provide frequent linen changes
- MONITOR TEMPERATURE- an increase of 1* could indicate impending thyroid crisis
-monitor for ECG changes
-avoid excessive palpation of thyroid
-administer antithyroid medications or if goiter is obstructing airway
if unresponsive to med prepare for total/subtotal thyroidectomy

Medications:
Thiaonamides -inhibit productino of thyroid hormones ( methimazole, propylthiouracil)

beta-blockers ( -OLOL)
help with sympathetic nervous system effects of hyperthyroidism

Radioactive iodine therapy- higher doses destroys some of the hormone-producing cells- one dose could be sufficient, or two to three may be needed. - destruction of cells caries and lifelong thyroid replacement therapies may be needed ( effects can take 6-8 weeks to be evident, stay away from pregnant women, children or infants for the first week following treatment, avoid contact closer than 3 feet - and limit for no more than 1 hr daily )
-monitor for sign of hypothyroidism (edema, intolerance to cold, bradycardia, weight gain and depression)

Thyroidectomy -
pre-procedure:
-thianomides for 4-6 weeks prior to surgery
-iodine 10-14 days prior to surgery to help shrink glands
-high protein high carb diet prior to surgery

Post-precedure:

support the neck when doing deep breathing and coughing exercises ( q30-60mins)
keep pt in semi fowlers- support head and neck with pillows
avoid neck extensions
vitals q15 until stable then q30
provide oral/trach suctioning as needed
check surgical site and BACK OF NECK for signs of bleeding ( hemorrhage most likely in first 24 hrs)
respiratory distress due to swelling and surgical site/compression of trachea
humidify air
ask pt to speak upon waking from anesthesia and q2 hrs to check for laryngeal nerve damage

-Hypocalcemia and Tetany can occur if parathyroid glands are damage or removed
( indications are tingling of toes or around mouth, muscle twitching)
-check for chvosteks (face) and trousseaus (wrist) signs

ENSURE IV CALCIUM GLUCONATE AND CALCIUM CHLORIDE ARE IMMEDIATELY AVAILABLE)

voice may be hoarse
notify nurse of any tingling sensations

-scant bleeding after 24 hrs

Question 9

Q

Thyroid Storm/Crisis

Answer

A

sudden surge of large amounts of thyroid hormones into the bloodstream

MEDICAL EMERGENCY- high mortality rate
-most commonly in graves disease, infection, trauma, emotional stress, diabetic ketoacidosis and digitalis toxicity , post surgical procedure or thyroidectomy

S/S:

hyperthermia
hypertension
delirium
vomiting
abdominal pain
tachydyrhythmias
chest pain
dyspnea
palpitations

Nursing Considerations:

maintain paten airway
provide cardiac monitoring
administer acetaminophen to decrease temp
provide cool sponge baths
administer thionamides
1 hr later administer iodide
administer beta-blockers for heart sxs
administer glucocorticoids if adrenal insufficiency is suspected or to treat shock
IV fluids to provide adequate hydration and vascular collapse
give O2

Question 10

Q

Hypothyroidism

Answer

A

Low levels of circulating T3 and T4 causing a decrease in metabolic rate

*hypothyroidism can have manifestations that mimic the aging process, so it goes often undiagnosed in elder clients, leading to serious adverse effects from medications ( sedatives, opiates and anesthetics)

Primary- dysfunction of the gland, typically caused by autoimune thyroiditis, medications that decrease synthesis of TH, and loss of thyroid gland due to surgery, radiation, iodine deficiency

secondary- caused by failure of anterior pituitary to stimulate thyroid gland or failure of surrounding tissues to respond to tyroid hormones, ( pituitary tumors)

Tertiary - failure of hypothalamus to produce thyroid-releasing hormone

Risk Factors:
women 30-60 effected 7-10Xs more than men
-mild hypothyroid often goes undiagnosed, but can contribute to increase acceleration of atherosclerosis and complications of medical treatment
-can be cause by lithium or amiodarone
-inadequate intake of iodine
-radiation to head/neck

S/S: ( often vague and varied sxs that develop slowly over time)

fatigue
irritabilty
intolerance to cold
constipation
weight gain without increased caloric intake
pale skin
thick, brittle fingernails
depression/apathy
periorbital edema
joint/muscle pain
bradycardia, hypotension, dysrhythmias
slow thought/speech
hypoventilation, pleural effusion
thickening of the skin
swelling in face, hands and feet ( myexedema: non-pitting mucinous edema)
decrease acuity of taste and smell
hoarse, raspy speech
abnormal menstrual periods
decreased libido

Lab results

decreased T3 and T4
increased serum cholesterol
increase in TSH in primary hypothyroidism
decrease in TSH in secondary hypothyroidism

Diagnostic procedures:
-radioisotope scan- clients will have a low uptake of iodine

-ECG: sinus bradycardia, dysrhythmias

Nursing Considerations:

monitor for cardiovascular changes (low BP, bradycardia, dysrhythmias)
monitor weight
assess for peripheral edema
increase clients activity level gradually, provide frequent rest periods to avoid fatigue and decrease myocardial oxygen demand
compression stalkings and elevation of legs to assist in venous return
monitor respiratory status including rate, depth, o2 sat, arterial blood gas
encourage cough and deep breathing to prevent pulmonary complications
provide good skin care, avoid alcohol based products, provide emollient lotion after bathing
provide clothing/blankets for client with cold intolerance- adjust room temp
caution client in using heating blankets
CAUTION with mediations due to alteration in metabolism

Medication MGMT:
levothyroxine- thyroid hormone replacement therapy
-increase the effects of warfarin and can increase the need for insulin and digoxin
-medications that accelerate the metabolism of levothyroxine ( phenytoin, carbamazepine, rifampin, sertraline, phenobarbital ) - thus increased dose may be needed to reach therapeutic effects
-begin slowly in elder adults who may have CAD to avoid coronary ischemia because of increased oxygen demands of the heart.
-take medication on empty stomach
-avoid supplements unless discussed with provider- excessive calcium, iron or antacids can interfere with absorption

lifelong replacement will be necessary

Question 11

Q

Myxedema Coma

Answer

A

life-threatening condition that occurs when hypothyroidism is untreated or when a stressor (acute illness, surgery, chemo, discontinuation of thyroid replacement meds or use of sedative/opiates) affects a client who had hypthyroidism

S/S:

respiratory failure
hypotension
hypothermia
bradycardia
hyponatremia
hypoglycemia
coma

Nursing Considerations:

maintain airway- with ventilator if necessary
provide continuous ECG monitoring
Monitor ABGs to detect hypoxia, hypercapnia ( aka hypercarbia, aka co2 retention) and respiratory acidosis
monitor mental status
cover client with warm blankets
monitor temperature hourly until stable
replace fluids with normal saline
replace thyroid hormones by IV bolus
monitor vitals cause rapid correction can cause cardiac issues
monitor I/Os and daily weights
treat hypoglycemia with glucose
administer corticosteroids
initiate aspiration precautions
check for sources of infection that may have precipitated the coma, treat underlying illness

Question 12

Q

Control of Hormonal Secretions:

Answer

A

Negative feedback
Positive feedback
Biological rhythms
Central nervous system control

Question 13

Q

Hormonal Circadian Rhythms

Answer

A

Growth hormone- increases during sleep, decreases during wakeful state

cortisol- highest in morning, slowest during sleep

prolactin- resembles growth hormone cycle

aldosterone-peaks in afternoon, declines in evening

testosterone- low in afternoon, high in night

Question 14

Q

Cushings syndrome

Answer

A

hypercortisolism- cause by over excretion cortisol from the adrenal cortex

Risk Factors: women ages 20-40

Causes:
Tumor of pituitary gland that results in the release of ACTH ( Adrenocorticotropic hormone) that then stimulates cortisol excretion in adrenal cortex.
-can also be cause by hyperplasia( increase or enlargement of an organ or tissue due to increased reproduction of its cells) of the adrenal cortex
-carcinomas of the lung, GI tract or pancreas ( these tumors can secrete ACTH)
-exogenous causes of increased cortisol:
therapeutic use of glucocorticoids for the following:
-organ transplant
-chemo
-autoimmune diseases
-asthma
-allergies
-chronic inflammation

Health promotion/disease prevention:

take meds!
eat foods high in calcium and vitamin D
monitor for gastric bleeds ( coffee ground emesis)
monitor daily weights
avoid infections

S/S:

weakness
fatigue
sleep disturbances
back and joint pain
altered emotional state (irritability, depression)
decreased libido

Physical Assessment findings:

evidence of decreased immune function and decreased inflammatory responses( infections without fever, swelling, drainage, redness)
thin, fragile skin
bruising and petichia
hypertension ( caused by sodium and water retention)
tachycardia
gastric ulcers due to over secretion of hydrochloric acid
weight gain and increased appetite
irregular periods
dependent edema
fat accumulation in the face, truncal obesity, BUFFALO HUMP
fractures
bone pain
muscle wasting
impaired glucose control
hirsutism
acne
striae ( stretch marks, very red)
hyperglycemia
emotional lability

LAB Values:
-elevated cortisol ( check urine for elevated free cortisol as well) in the absence of acute illness or stress

if caused by increase in ATCH by anterior pituitary- ACTH level will be elevated

if caused by disorders of adrenal cortex or medication therapy - ACTH levels will be decreased

-salivary cortisol confirms the diagnosis of cushings

decreased Potassium and Calcium levels
increased glucose
increased sodium
decreased lymphocytes

Diagnostics:
X-ray, CT, Radiological imaging

Nursing Care:

Monitor I/O
assess for hypervolemia (edema extended neck veins, shortness of breath, adventitious lung sounds, hypertension, tachycardia)
maintain safe environment
meticulous skin care
decrease infection risk
change clients position q2hrs
monitor WBCs daily

Medication treatments ( depend on the cause of the disease) -

Ketoconazole ( antifungal agent that inhibits adrenal corticosteroid synthesis at high doses) ( used supplementally with radiation or surgery)- monitor for hepatotoxicity
Mitotane- produces selective destruction of adrenocortical cells ( purpose to reduce tumor size)

hydrocortisone- for replacement therapy for clients who have adrenocortical insufficiency

Question 15

Q

Risk Factors for altered Hormone Regulation

Answer

A

Hormonal supplement therapy
Advanced age
Obesity 
Sedentary lifestyle
Genetics 
Chromosomal deficiencies/abnormalities
Family history, especially autoimmune responses/conditions
Stress
Trauma
Chronic medical  conditions 
Cancer treatment

Question 16

Q

transsphenoidal hypophysectomy

Answer

A

Avoid activities that increase pressure at site

Monitor patient for

Meningitis
CSF leakage ( halo sign, yellow around the edges, clear in the middle fluid) or glucose containing clear fluid from nose
Diabetes Insipidus
Increased intracranial pressure

Post operative Assessment:

Neuro exam( q1 hr for the first 24 hrs)
I/O – monitor drainage
Urine specific gravity
Desmopressin or vasopressin
IV access
Increase HOB
Mouth care ( due to mouth breathing, given the drip padding under nose)
Give glucocorticoids to prevent and abrupt drop in cortisol levels
Give stool softener or laxative to reduce strain
teach pt they may experience numbness at incision site and diminished sense of smell for 3-4 months post op
avoid bending at the wait
avoid teeth brushing for 2 weeks ( floss and rinse mouth instead)
advise on head ache, confusion and bleeding
these patients are also at risk or GI bleeds ( monitor for coffee group emesis, due to increased cortisol levels, levels of protective gastric mucosa are diminished*

Question 17

Q

Adrenal Cortex- Hormones

Answer

A

Sugar, salt, sex

Sugar- glucocorticoids (cortisol) - cortisol affects glucose, protein and fat metabolism; the bodys response to stress; and the bodys immune function

Salt- mineralcorticords (aldonsterone)- aldosterone increases sodium absorption and causes potassium excretion by the kidneys

Sex- mineralcorticords (androgens/estrogens; testosterone)

Question 18

Q

Addison’s disease

Answer

A

adrenocortical insufficiency - caused by damage or dysfunction of adrenal cortex
( DECREASE IN ALDOSTERONE AND CORTISOL)

Risk factors for primary Addisons:

Ideopathic autoimmune
tuburculosis
histoplasmosis
adrenalectomy
cancer
radiation therapy of the abdomen

Causes of secondary Addisons:

steroid withdrawal
hypophysectomy
pituitary neoplasim
high dose radiation of pituitary gland or entire brain

S/S:

weight loss
craving for salt
hyper-pigmentation
weakness and fatigue
nausea and vomiting
abdominal pain
constipation or diarrhea
orthostatic hypotension
dizziness
severe hypotension
dehydration
hyponatremia
hyperkalemia
hypoglycemia
hypercalcemia
manifestations of chronic Addison develop SLOWLY*
manifestations of acute adrenal insufficiency develop rapidly-

Lab Values:

Increased Potassium
decreased sodium
increased calcium
Increased BUN and Creatinine
decreased serum cortisol

Nursing Care:

monitor for fluid/electrolyte imbalances
give saline infusions to restore fluid volume
observe for dehydration
give hydrocortisone infusion or bolus
monitor for and treat hyperkalemia
obtain serum K+ values and ECG
assess vitals frequently
give insulin, calcium, glucose and bicarb as needed
monitor and treat hypoglycemia (monitor for neurological changes)
safety precautions- fall risk

Question 19

Q

Hyperaldosteronism (CONN’s Disease)

Answer

A

Primary and Secondary etiology

Cause:
-most common cause is ideopathic
-second most common is adenoma 
Manifestations – hypertension and hypokalemia 
-increase urine potassium
-increase in plasma levels of aldosterone and sodium
-decrease in renin plasma levels
-Increased BP

Collaborative Care:
( when you see hypokalemia and HTN- suspect CONNS)

Diagnostics:

CT Scan
EKG changes
Labs

Question 20

Q

Parathyroid Disorders

Answer

A

Hyperparathyroidism
Hypoparathyroidism

PTH increased the excretion of calcium by the kidneys into the urine

PTH enhances the release of calcium from bones into the bloodstream

Hyper- Increased serum calcium
Hypo - decreased serum calcium

BONES,STONES, GROANS

Hypo/hypercalcemia

Question 21

Q

Goiter

Answer

A

Hypertrophy and enlargement of the thyroid

Caused by excessive TSH stimulation from inadequate thyroid hormones

Can be caused by Goitrogens (foods or drugs that suppress gland function)

Enlargement of gland
Interferes with iodine uptake
Surgery may be necessary

What is a priority nursing diagnosis for this patient?
( airway)

Question 22

Q

Nodules

Answer

A

Palpable deformity

May be benign or malignant

Major sign of thyroid cancer is a hard, painless, nodule on an enlarged gland

Diagnostics:
Ultrasound, CT scan, thyroid scan, MRI and/or Fine Needle Aspiration (FNA)

Question 23

Q

Thyroiditis

Answer

A

Inflammation of thyroid

Can be viral, bacterial, fungal, or autoimmune

Can lead to hypothyroidism (Hashimoto’s)

Usually thyroid hormones are elevated but then may become depressed

TSH low, then elevated

Treatment depends on cause and manifestations

Question 24

Q

Thyroidectomy Post-op Care

Answer

A

Airway – tracheostomy tray at bedside WHY?
ANS: bleeding, swelling of the airway

Assess for bleeding. How? Where?
ANS: behind the neck

Position – Semi Fowlers

Avoid flexion of neck, neutral position of neck

Monitor vital signs and which electrolyte imbalance?
hypocalcemia ( if the parathyroid was damaged or removed)

Diet – permitted to take fluid as soon as tolerated and soft diet the next day

Question 25

Q

adrenal Crisis ( acute adrenal insufficiency)

Answer

A

RAPID onset due to Sudden drop in corticosteroids is due t sudden tumor removal, stress of illness, trauma, surgery or dehydration, or abrupt withdrawal of steroid medications

if not quickly diagnosed and treated- prognosis is poor.

S/S:

hypotension
hypoglycemia
hyperkalemia
abdominal pain
weakness
weight loss

Nursing Actions:

start IV line and administer rapid infusion of Normal saline
administer glucocorticoids to treat acute insufficiency
administer insulin with dextrose or loop diuretic to treat the hyperkalemia ( move potassium into cells)
give calcium to counteract the effects of hyperkalemia and protect the heart
if acidosis occurs, give bicarb
administer glucagone or iv glucose for the hypoglycemia
monitor vitals and gluose levels
monitor for ECG changes

Question 26

Q

adrenal Crisis ( acute adrenal insufficiency)

Answer

A

RAPID onset due to Sudden drop in corticosteroids is due t sudden tumor removal, stress of illness, trauma, surgery or dehydration, or abrupt withdrawal of steroid medications

if not quickly diagnosed and treated- prognosis is poor.

S/S:

hypotension
hypoglycemia
hyperkalemia
abdominal pain
weakness
weight loss

Nursing Actions:

start IV line and administer rapid infusion of Normal saline
administer glucocorticoids to treat acute insufficiency
administer insulin with dextrose or loop diuretic to treat the hyperkalemia ( move potassium into cells)
give calcium to counteract the effects of hyperkalemia and protect the heart
if acidosis occurs, give bicarb
administer glucagon or iv glucose for the hypoglycemia
monitor vitals and glucose levels
monitor for ECG changes

Question 27

Q

Homeostasis of blood glucose regulation requires (3)

Answer

A

Balanced Nutrient intake
Balanced Hormonal signaling
Balanced Glucose uptake by the cell

Question 28

Q

Hypoglycemia

Answer

A

State of insufficient or low blood levels, defined as less than 70 mg/dL

Possible Causes:

Insufficient Nutritional Intake
Adverse Reaction to Medication
Excessive Exercise

S/S:

irritability
fatigue
mental confusion
seizures
unconsciousness
potentially leads to cellular death

TREATMENT:
Rule of 15s

eat/drink 15g carbs
wait 15 min
check blood glucose
less than 70mb- repeat steps 1-5

Once BG >70 mg/dL – give complex CHO with protein or fat

If pt is crashing or unconscious- give glucagon 1 mg, sub Q or IM

OR

50% Dextrose (D50) 25-50ml IV push

Question 29

Q

Hyperglycemia

Answer

A

State of elevated blood glucose levels, defined as more than 100 mg/dL in a fasting state or 140 mg/dL when not fasting

Insufficient Insulin -Production/Secretion
Deficient Hormone Signaling
Excessive Counter-regulatory Hormone Secretion

Short-term consequences :
Inadequate glucose reaching the cells
Dehydration

Long-term consequences:
End-organ disease due to microvascular damage
Retinopathy
Nephropathy
Peripheral neuropathy

Macrovascular angiopathy:
Hypertension
Cardiovascular and peripheral vascular disease

Collaborative Care:

Education about glucose regulation
Nutrition therapy
Pattern management: monitoring meal-related blood glucose values
Pharmacological agents
Oral hypoglycemic agents
Insulin

ketones in urine associated with hyperglycemia- greater than 300mg=medical emergency

Question 30

Q

Diagnostic test for diabetes

Answer

A

Fasting Plasma glucose
- No caloric intake for at least 8 hrs.
-Impaired Fasting Glucose = 100-126
Critical Values :
<60 mg/dl or >500 mg/dl

2.Random Glucose test
-Can be drawn any time
-Meals, drugs, stress can cause increase
-Critical values
>180 mg/dl on two occasions
>200 mg/dl with s/s hyperglycemia

Two-Hour Glucose Tolerance Test ( OGTT)
-Multiple blood draws over 2 hrs. after a glucose load of 75 g
-200 mg/dl or more = diabetes
>140 and <199 = pre-diabetes

Question 31

Q

Glycosylated Hemoglobin A1c (HbA1c)

Answer

A

A blood test that measures the amount of glycosylated hemoglobin in the blood (Hemoglobin is a protein found in the blood)
Glycosylated hemoglobin means that glucose (sugar) has attached to the hemoglobin protein
The higher the blood sugar, the more that glucose gets attached to the hemoglobin
Glucose attaches to Hgb and remains attached to the RBC for it’s lifespan (90 days)

Indicates overall long term average glucose control for previous 60-90 days
Near-normal levels over time markedly reduce risk of complications

Conditions that affect RBC turnover may alter HbA1c (sickle cell, anemia, hemolysis, etc.)

Normal range: 4 to 5.6 %
Prediabetes: 5.7-6.4%

Goal: 6.5% or less

Question 32

Q

Other diagnostic testing for glucose regulation disorders

Answer

A

Urine- checking for protein and/or ketones

Kidney function tests

people with a BMI of >25 at risk for glucose regulation issues

Question 33

Q

Diabetes Mellitus

Answer

A

Multi-system disease related to abnormal insulin production, impaired insulin utilization or both
Disturbance in carbohydrate, protein and fat metabolism
heart disease, cerebral vascular accidents, renal failure, blindness, and non traumatic limb amputation

Glycemic control reduces complications of diabetes

Treatment of hypertension and hyperlipidemia is essential

Question 34

Q

Types of DM

Answer

A

Pre-diabetes (Impaired Glucose Tolerance)
Type 1
Type 1.5 - Latent autoimmune diabetes in adults (LADA)
Type 2
Type 3
MODY (maturity onset diabetes of the young)
Gestational

-Secondary diabetes: Chemical induced
Disease induced
Hormonal

Question 35

Q

Type 1.5

Answer

A

Slow progressing form of autoimmune diabetes
Occurs because your pancreas stops producing adequate insulin, most likely from some “insult” that slowly damages the insulin-producing cells in the pancreas.
Often won’t need insulin for several months up to years after being diagnosed.
Usually diagnosed over 30 years
At first, LADA can be managed by controlling blood glucose with diet, weight reduction if appropriate, exercise and, possibly, oral medications.
As the body gradually loses its ability to produce insulin, insulin injections will eventually be needed.

Question 36

Q

Type 3 Dm

Answer

A

alzheimers related DM

Evidence suggests that AD represents a form of diabetes that selectively involves the brain and has molecular and biochemical features
Rapid growth in the literature pointing toward insulin deficiency and insulin resistance as mediators of AD
People with type 2 diabetes have an increased risk of suffering fromAD disease estimated to be between 50% and 65% higher.

Question 37

Q

MODY ( maturity onset diabetes of the young)

Answer

A

1-5% of DM cases
Autosomal dominant
Leads to Beta cell dysfunction
Usually before age of 25
Not associated with obesity or hypertension
Treatment depends on the genetic mutation

Question 38

Q

Pre-diabetes

Answer

A

Prediabetes/Impaired Glucose Tolerance (IGT)/Impaired Fasting Glucose (IFG)

Beta cells become fatigued from overproduction
Beta cell dysfunction is mild (with slight increase in glucose)
Patients with IGT are increased risk for DM II (usually within 10 years)

Fasting glucose levels above 100

pre-diabetes can prevent or delay the development of Type 2 diabetes through changes to their lifestyle that include modest weight loss and regular exercise
long-term damage, especially the cardiovascular system, already may be occurring during pre-diabetes

Question 39

Q

Type 1

Answer

A

-Failure of the pancreas
-May be genetic – recessive
-Can be caused by toxins or virus
5-10 % of all diabetics
-Usually under age of 40
-Peaks before 20 years of age

same incidence in males and females
Patients are usually thin/lean but may be obese
Progressive destruction of Pancreatic B cells
Requires exogenous Insulin
Diabetic Ketoacidosis (DKA)

Acute onset- 3Ps

polydipsia
polyphagia
polyuria
weight loss

Question 40

Q

Type 2 DM

Answer

A

Most prevalent (90% of patients)
Genetics – dominant and multifactorial (
Insulin resistance
Highest among Native Americans and Hispanics followed by African Americans

correlated with obesity

over the age of 35
also identified in young people- especially with the increase of childhood obesity
pancreas still manufactures SOME insulin
but its usually insufficient to meet the needs of the body and/or poorly utilized by tissues
body tissues do not respond to insulin
insufficient number of receptors or the receptors are unresponsive
hyperglycemia
hyperinsulinemia

can result in HHNK
( hyperosmolar hyperglycemic nonKetotic state)

s/s: non specific manifestations
Can be 3 P's
-fatigue
-recurrent infections
-visual changes
-prolonged healing

Question 41

Q

Metabolic Syndrome

Answer

A

-primarily occurs in Type 2 Diabetes

Metabolic Syndrome - cluster of abnormalities working synergistically to greatly ↑ risk for CV disease and diabetes

Elevated insulin levels (insulin resistance)
High triglycerides
Decreased HDL
Increase LDL
Hypertension
Obesity (esp. central obesity)
Sedentary Lifestyle
Estimated 34% of Americans fit the criteria
Can be treated with weight loss and exercise

Question 42

Q

Insulin Therapy

Answer

A

Drug Therapy- Exogenous Insulin
Why can’t exogenous insulin be taken orally?- destroyed by gastric enzymes before it can reach the cells

Onset-Peak-Duration
Sliding Scale

insulin pumps, ports, pens, Omnipods, insulin jets

Question 43

Q

Nutritional Therapy for glucose regulation

Answer

A

Nutritional Therapy – Individualized to patient (Table 44.6)

CHO:
include fruits, vegetables whole grains and low-fat milk
Fiber intake 25-30 g/day

Protein:
High protein diets for weight loss not recommended
15-20% of daily intake

Fats:
Minimize trans fats
Dietary cholesterol <200mg/day
At least 2 servings/week of fish

Alcohol:
Limit to moderate amounts

Effect of Alcohol on sugar?
alcohol decreases serum blood glucose and can cause hypoglycemia

Question 44

Q

Collaborative care for DM

Answer

A

*Lowers blood glucose by increasing CHO metabolism
Fosters weight reduction & maintenance
Increases insulin sensitivity
Increases high-density lipoprotein (HDL) levels
Decreases triglyceride levels
Lowers blood pressure
Reduces stress & tension

Monitor blood sugars before and after exercise
Best done after meals
Moderate activity level such as brisk walking or active housework
If BS <100 mg/dL – delay exercise
If BS >250mg/dL and with ketones in urine– postpone exercising

Monitor by healthcare providers – adjustment of medications

Question 45

Q

Illness and DM

Answer

A

Illness causes increased BS…
Eat regular diabetic diet
Increase non-caloric fluids
Continue with oral agents and/or insulin
Monitor BS every 4 hrs.
If > 240 check urine for ketones and report
\+ ketones to physician

If Illness leads to decreased PO intake…
Supplement CHO food intake with CHO-containing fluids while continuing with oral agents and/or insulin
Notify physician immediately if unable to keep any food or fluids down

Question 46

Q

Foot Care and DM

Answer

A

Risk of amputation 15X higher in diabetics
Foot care/assessment
Proper footwear
Podiatrist

Question 47

Q

Somogyi Effect

Answer

A

Somogyi Effect: A rebound effect in which an overdose of insulin induces morning hyperglycemia

Results in ↓ B.S. in middle of night as a response to ↑ insulin

Compensatory mechanisms occur to raise glucose (release of counter-regulatory hormones → gluconeogenesis etc.)
Results in overcompensation, leading to rebound hyperglycemia and ketosis noted in the AM.

Problem: Possible undetected hypoglycemia during the night

Treatment
Check B.S. between 2 AM and 4 AM
If this AM B.S. is low …then reduce PM dose of insulin OR eat a more substantial bedtime snack

Question 48

Q

Dawn Phenomenon

Answer

A

Hyperglycemia noted on awakening in AM due to release of hormones in predawn hours

Growth hormone is possible factor
Affects majority of those with diabetes but most severe in adolescence and young adulthood

Problem: high B.S. usually after 3 AM
Treatment

Check B.S. between 2 AM and 4 AM
If high, then increase insulin and eat bedtime snack

Change timing of evening intermediate acting from dinnertime to bedtime

Question 49

Q

Diabetic Ketoacidosis ( DKA)

Answer

A

Onset Over 4-10 hours - Medical EMERGENCY- Type 1 only

SERUM GLUCOSE GREATER THAN 300
serum sodium - normal, low or high
sodium potassium depends on how long DKA existed prior to treatment- decreases with treatment
Increase in BUN (>30) and Creatinine (>1.5)
ketones present in serum and urine
metabolic acidosis with respiratory compensation
PH less than 7.3

Causes:

lack of sufficient insulin related to undiagnosed type 1 or nonadhearance to medication regimen
reduced or missed dose of insulin
any condition that increases carbohydrate metabolism (physical or emotional stress, illness, infection (#1 cause of DKA), surgery or trauma)
increased hormone production( cortisol, glucagon, epinephrine), stimulates the liver to produce glucose and decreases the effects of insulin

Expected findings:

polyuria
polydipsia
polyphagia
weight loss
GI effects ( N/V/Abdominal pain)
blurred vision
orthostatic hypotension
fruity odor of breath
kussmaul respirations ( deep labored breathing)
metabolic acidosis
mental status changes

Question 50

Q

Hyperglycemic Hyperosmolar State (HHS)/Hyperosmolar Hyperglycemic Nonketotic State (HHNK)

Answer

A

MEDICAL EMERGENCY -Occurs in patients who produce enough insulin to prevent DKA- Type 2 only

SERUM GLUCOSE GREATER THAN 600
serum sodium- normal or low
serum potassium- normal to high as a result of dehydration
Increase in BUN (>30) and Creatinine (>1.5)
ketones NOT present in urine or serum

Not enough insulin to prevent osmotic diuresis, hyperglycemia or ECF depletion
Increase in serum osmolarity
BS >400mg/dl
Ketones are absent

absence of acidosis
PH :greater than 7.4

Causes:
lack of insulin related to undiagnosed DM, enough to prevent ketosis, but not enough to prevent hypoglycemia.
-inadequate fluid intake or poor kidney function
-most common in elder adults 50-70
-mortality rates in elders are between 40-70%, due to late treatment and overall poorer health
-medical conditions such as MI, Stroke or sepsis can cause HHNK
- can be caused by some medication such as : glucocorticoids, thiazide diuretics, phenytoin, beta blockers, calcium channel blockers
-infection and stress

Expected findings:

polyuria
polydipsia
polyphagia
weight loss
blurred vision
orthostatic hypotension
mental status changes
seizures, myoclonic jerking
reversible paralysis

Question 51

Q

Treatment for DKA and HHNK

Answer

A

Medical emergency
-IV administration of NSS the hypotonic- ½ NSS
-Regular insulin IV
-When glucose falls < 250 add IV glucose
(D5 ½)
-monitor serum potassium - initially they will be increased but with iv insulin potassium will shift back into the cell and pt is at risk for hypokalemia
-Electrolyte replacement
-Bicarbonate for pH<7.10
-Treat underlying cause and complications
-cardiac monitoring- why?

pts with known DM should monitor blood glucose every 1-4 hours when ill
-wear medical alert bracelet

Question 52

Q

Medication treatments for type 2 DM

Answer

A

biguanides- metformin
-reduces the production of glucose in the liver ( glycogenesis)

-take with food
STOP taking it 48 hours before/after any tyoe of radigraphic test with iodinated contrast dye- can cause lactic acidosis and kidney failure

second gen. sulfonylureas - glipizides, glyburide
-stimulates insulin release from pancreas causing decrease blood glucose

-take 30 min before meals

Question 53

Q

Gas exchange

Answer

A

Conceptually: process by which oxygen is transported to cells and carbon dioxide is transported from cells.

Process: interaction among the following systems…
Neurologic
Respiratory
Cardiovascular

Impairment of gas exchange occurs when the diffusion of gases (oxygen and carbon dioxide) becomes impaired because of

Ineffective ventilation
Reduced capacity for gas transportation (reduced hemoglobin and/or red blood cells)
Inadequate perfusion

Consequences of impaired gas exchange include:

reduced oxygen in blood( hypoxia)
absence of oxygen in blood ( anoxia)
oxygen-deprived tissues
CELL DEATH

Question 54

Q

Risk Factors for Impaired Gas Exchange

Answer

A

Age
Smoking
Chronic medical conditions,
Immunosuppression
Reduced state of cognition
Brain injury
Prolonged immobility

Question 55

Q

Primary Prevention of impaired Gas exchange

Answer

A

-Infection control
-Smoking cessation
-Immunizations
-Influenza – Given Yearly - Check for egg allergies prior to flu shot
-Pneumococcal
-PCV13 (Pneumococcal Conjugate) -recommended @65 yrs.
or younger who are high risk
-PPSV23 (Pneumococcal Polysaccharide) – recommend @65 yrs. or younger if smoker or have asthma

-Preventing postoperative complications

Question 56

Q

Diagnostic Tests for impaired gas exchanged

Answer

A

Screening Tests:
Mantoux skin test
Interferon-gamma release assays (IGRAs).

Laboratory tests:
Throat culture
Arterial blood gases 
Complete blood count 
D-Dimer test
Sputum
Biopsy

-Pulse Oximetry
-Radiologic studies
(Chest x-ray,
CT scan and Spiral CT scan
MRI scans,
ventilation/perfusion (V/Q) scan,
positron emission tomography (PET) scan)
-Pulmonary function studies/Peak Flow

Bronchoscopy
-transbronchial needle biopsy

Thoracentesis

Question 57

Q

Collaborative interventions for Impaired gas exchange

Answer

A

Pharmacotherapy:
β-adrenergic Agents (short and long acting)
Corticosteroids
Anticholinergic Agents
Methylxanthines
Mucolytics
Antibiotics
Decongestants/Expectorants/Antitussives

Question 58

Q

Cor Pulmonale

Answer

A

Alveolar hypoxia–>pulmonary capillary vasoconstriction–>increased pulmonary artery pressure (pulmonary hypertension)–> hypertrophy of right ventricle–> right-sided heart failure

Question 59

Q

Polycythemia

Answer

A

Physiologic compensation for hypoxemia.

- Increased RBC’s but not able to carry increased O2 as oxygen not available –>cyanosis.

Question 60

Q

Anemia

Answer

A

Deficiency in # of RBC or a deficiency in the quantity of hemoglobin concentration OR both
Not a specific disease but rather a manifestation of a pathologic process
Manifestations stem from hypoxia

S/S variable:
Mild, Moderate, Severe 
-possibly asymptomatic in mild cases
-pallor
-irritability
-numbness or tingling of extremities
-dyspnea on exertion
-yellowing of eyes
-pale, cold yellow skin
-shortness of breath
-muscle weakness
- changes in stool color
-fatigue
-dizziness
-fainting ( severe)
-low BP
-heart palpitations
-Tachycardia
-chest pain (severe)
-angina (severe)
-heart attack ( severe)
-enlarge spleen
-orthostatic hypotension
-nail bed deformities( spoon-shaped nails) 
-smooth, sore, bright-red tongue ( b12 deficiency)

*Collaborative Care:
Administer oxygen as needed
Alternate rest/activity
Monitor blood H/H
Medication teaching
Diet teaching- b12, folate, iron

A causes of Anemia:

bood loss
inadequate RBC production (hypoproliferative anemia)
Increased RBC destruction ( Hemolytic)
deficiency of necessary components such as folic acid, iron, erythpoietin, and/or vitamin b-12

Risk Factors for Anemia:

Acute or chronic blood loss
trauma
menorrhagia
GI bleeds ( ulcers, tumor)
Intra or post-surgical blood loss or hemorrhage
Chemical or radiation exposures
Increased Hemolysis
defective Hgb ( sickle-cell disease) RBCs become malformed during periods of hypoxia and obstruct capillaries in joins and organs
immune disorders or destruction (transfusion reactions, auto immune diseases)
mechanical destruction of RBCs (mechanical heart valve, cardiopulmonary bypass)
inadequate dietary intake or malabsorption
iron deficiency
vitamin b-12 deficiency
folic acid deficiency
pica
bone-marrow suppression
exposure to radiation or chemo
aplastic anemia
age
older clients are at risk for nutrition-deficient anemia
anemia can be misdiagnosed as depression or debilitation in older adult clients
gastrointestinal bleeding is a common cause of anemia in older adult clients. check stools for occult blood

Question 61

Q

pernicious anemia

Answer

A

anemia due to deficiency of intrinsic factor produced by gastric mucosa, which is necessary for absorption of b-12

-dietary intake of b12 would do nothing

Collaborative Care:
Supplemental B-12 ( cobalamin) injections for pernicious anemia

Cobalamin= B-12

Question 62

Q

Gas Exchange and Upper Airway

Answer

A

Epistaxis ( nose bleed)
Rhinitis
Sinusitis

NOTE: These conditions typically do not interfere with a person’s ability to maintain oxygenation or adequate tissue perfusion unless complications (such as Bronchitis, Pneumonia etc.) develops

Question 63

Q

Epistaxis

Answer

A

Etiology:
Trauma
Foreign bodies
Nasal sprays
Street drug use
Anatomic malformation
Allergic rhinitis
Tumors
Medications 
Hypertension (doesn’t increase risk but 
makes bleeding more difficult to control)

Anterior ( most common):
Keep patient quiet
Place in sitting position, lean forward
Pinch entire soft portion of nose 10 minutes
Apply ice to nose
Partially insert gauze into bleeding nostril
Obtain medical assistance if bleeding continues

Posterior ( More serious): 
If tubes are used to control bleeding…
Observe for respiratory distress
Humidified oxygen
Bedrest
Pain management 
Hydration and oral care

Question 64

Q

Rhinitis

Answer

A

Viral (“Common Cold”):
Viruses invade the upper respiratory system
Spread by droplet
Increased in winter months

Risk factors:
Overcrowding/staying indoors
Compromised immune system
Stress

Allergic:
Triggered by a sensitivity reaction to airborne allergens
“Seasonal” or “chronic”

Nursing considerations:

Rest, fluids, diet, analgesics
Antihistamine and decongestant therapy
Recognize symptoms of secondary bacterial infection
Prevention – avoid crowded areas, good hand washing, etc.

Answer 65

A

Exit (ostia) from sinus is narrowed or blocked by inflammation or hypertrophy (swelling) of the mucosa

Secretions build up behind the obstruction
Excellent medium for organism growth leading to infection

Clinical Manifestations:
Pain over affected sinus
Purulent nasal drainage
Nasal obstruction
Congestion
Fever
Malaise
Dental pain
Headaches

Collaborative Care:
Control underlying cause (i.e. allergies etc.)
Antibiotics
Decongestants
Nasal Corticosteroids
Increase fluids
Nasal Clearing/Cleaning Techniques (hot showers nasal rinse, etc.)
Avoid smoking or exposure to smoke
Increase HOB

Answer 66

A

Partial or complete airway obstruction during sleep
Apnea is cessation of airflow >10 seconds (adults)
Narrowing of passages – reduction of muscle tone during sleep
Tongue falling back to obstruct airway
Decreased O2 and increased CO2
Long term effect: Hypertension, Cardiac dysrhythmias, heart failure, CAD etc.
Chronic OSA: impaired memory, inability to concentrate, failure to accomplish task, interpersonal difficulties

Risk factors: Obesity, smoking, cranial abnormalities, acromegaly, men>women (until menopause than women = men)

Manifestations:

insomnia
daytime sleeping
partner may notice snoring
restless behaviors

Treatments: 
Mild (5-10 apnea episodes per hour) – positioning, 
Avoid sedatives and ETOH
Weight loss
CPAP (>15 apnea episodes per hour)

Answer 67

A

Influenza
TB
Pneumonia
Acute Bronchitis

**Seriousness of above conditions and/or complications that may occur can result in altered ventilation and perfusion concerns

Answer 68

A

Highly contagious that may cause serious morbidity and mortality (estimated 20,000 death each year)

Flu season starts in September and extends to April

Need annual flu vaccinations due to different Influenza virus strains mutating over time

s/s:
headache
fever (usually high)
extreme muscle tiredness
join aches
runny or congested nose
sore throat
aches
coughing
Vomiting

Diagnosis:
History & Physical
Viral Cultures (usually take 3-10 days)
Rapid Flu Tests (nasal secretions) – best done within 48 hours of onset of symptoms

Collaborative Care:Prevent:
-Good hand-washing and Vaccine (nasal vaccine not available)
-Check for egg allergies prior to flu shot
Antiviral – inhaler, oral or IV- best if given within 48 hours of s/s onset
-Supportive therapy (rest, analgesics/antipyretics, hydration)

Answer 69

A

Inflammation of the bronchi
Viral or Bacterial (Most are viral)

Manifestations: 
Cough
Sputum production
Headache 
Shortness of breath on exertion
Rhonchi, wheezing

Collaborative Care:
Supportive (rest, fluids etc.)
Antitussives
Anti-inflammatory agents
Bronchodilators

Answer 70

A

Infectious disease caused by Mycobacterium tuberculosis
Lungs most commonly infected
1/3 of world’s population is infected with TB
Leading cause of death in patients with HIV/AIDs
Prevalence is decreasing in the United States

Multidrug-Resistant Tuberculosis (MDR-TB)
Resistance to 2 of the most potent first-line anti-TB drugs

Extensively Drug Resistant TB (XDR-TB)
Resistant to any fluoroquinolone plus any injectable antibiotic

Risk Factors:
Homeless
Residents of inner-city neighborhoods
Foreign-born persons
Living or working in institutions (includes health care workers)
IV drug users
Poverty, poor access to health care
Immunosuppression

Etiology and Pathophysiology

Spread via airborne particles
Can be suspended in air for minutes to hours
Transmission requires close, frequent, or prolonged exposure
NOT spread by touching, sharing food utensils, kissing, or other physical contact
Once particles lodge in bronchioles and alveoli -> local inflammatory reaction occurs -> calcified lesions and further spread stopped
Has affinity for lungs but can spread and grow in other organs

Classifications
-Primary infection
When bacteria initiate inflammatory response – encapsulate organisms preventing disease

-Latent TB infection (LTBI)
Infected but no active disease

-Active TB disease
Primary TB
Reactivation TB (post-primary)

Clinical Manifestations:
LTBI – asymptomatic

Pulmonary TB:
Takes 2-3 weeks to develop symptoms
Initial dry cough that becomes productive
Symptoms (fatigue, malaise, anorexia, weight loss, low-grade fever, night sweats)
Dyspnea and hemoptysis late symptoms

Hospitalization not necessary for most patients

Infectious for first 2 weeks after starting treatment

Drug therapy used to prevent or treat active disease

Need to monitor compliance

Vaccine
Bacille-Calmette-Guérin (BCG) vaccine to prevent TB is currently in use in many parts of world
In United States, not recommended
Can result in positive PPD reaction

Active Disease:
Four-drug regimen (Isoniazid, Rifampin (Rifadin) Pyrazinamide Ethambutol)
Teach side effects and when to seek medical care
Monitor liver function
Avoid Alcohol
May need Direct Observed Therapy (DOT)

Latent TB infection:
Positive TB test
Drug therapy to prevent TB infection from becoming active disease
Usually treated with Isoniazid for 6 to 
9 months
HIV patients should take Isoniazid for 
9 months

Answer 71

A

Airborne isolation
Single-occupancy room with 6-12 airflow exchanges/hour
Health care workers wear high-efficiency particulate air (HEPA) masks
Immediate medical workup
Appropriate drug therapy
Patient wears mask if outside of negative-pressure room
Identify and screen close contacts

Answer 72

A

Can go home even if cultures positive
Monthly sputum cultures
Teach patient how to minimize exposure to others
Ensure that patient can adhere to treatment
Negative cultures are needed to declare the patient not infectious
Notify Health Department
Smoking Cessation

Answer 73

A

Acute infection of lung parenchyma
Associated with significant morbidity and mortality rates
Pneumonia and influenza are 8th leading cause of death in the U.S.

Etiology :

When defense mechanisms become incompetent or overwhelmed
↓ Cough and epiglottal reflexes may allow aspiration
Chronic diseases suppress immune system

Three ways organisms reach lungs:

Aspiration from nasopharynx or oropharynx
Inhalation of microbes present in air
Hematogenous spread from primary infection elsewhere in body

Mucociliary mechanism impaired :
Pollution
Cigarette smoking
Upper respiratory infections
Tracheal intubation 
Aging

Answer 74

A

Can be classified according to causative organism
Community Acquired Pneumonia (CAP)
Hospital-Acquired Pneumonia (HAP)
Ventilator Associated Pneumonia (VAP)
Multidrug-resistant (MDR) organisms (risks factors, advanced age, immunosuppression, history of antibiotic use, prolonged mechanical ventilation)
Aspiration Pneumonia
Necrotizing Pneumonia
Opportunistic Pneumonia
Pneumocystis jiroveci pneumonia (PJP)

Answer 75

A

Inflammatory response- attraction of neutrophils, release of inflammatory mediators, Accumulation of fibrinous exudates, red blood cells and bacteria
alveoli fill with fluid and debris (consolidation)
and increased production of mucus (airway obstruction)
Decreased gas exchange
Resolution of infection
- macrophages in alveoli ingest and remove debris
- normal lung tissue restored
- gas exchange returns to normal

Answer 76

A

S/S:

cough ( productive cough: blood streaked, yellow, rusty sputum=infection)
fever
chills
tachycardia
tachypnea
dyspnea
pleural pain
malaise
respiratory distress
decreased breath sounds

Diagnostic orders:

sputum culture
chest X-ray
ABGs

Collaborative Care:

oxygen
hydration
rest and activty
patient teaching

Medications:
antibiotics
analgesics/antipyretics
cough sepressants
corticosteroids
bronchodilators

Answer 77

A

-pulmonary embolism
-asthma
-COPD
(chronic bronchitis vs. emphysema)

Answer 78

A

PE occurs when a blood clot becomes lodged in a lung artery, blocking blood flow to lung tissue. Blood clots often originate in the legs

Risk Factors:
> 90% arise from thrombi in the deep veins of the legs
-Immobilization
-Surgery within last 3 months
(especially orthopedic surgery i.e. hip/knee replacements)
-Stroke
-Malignancy
-Obesity
-Smoking 
-Hypertension/Chronic -Heart Disease

PE Classifications:
Massive
Sub-massive
Low risk

s/s:

Dyspnea (most common - 85% of patients)
Anxiety
Tachycardia
Cough/Hemoptysis
Chest pain
Syncope
Sudden change in MS
Massive emboli produce abrupt hypotension and shock; sudden collapse of the patient

Collaborative Care:

O2 therapy
Bed rest – Semi-Fowler’s
Call for assistance

-Drug Therapy
Anticoagulant Therapy
Thrombolytic agent

-Surgery
Embolectomy
Vena Cava Filter

Answer 79

A

-Reversible expiratory airflow limitation
-Disease of Inflammation along with bronchial hyper-responsiveness
-Parasympathetic Dominance :
Mucosal Inflammation
Bronchial smooth muscle construction
Excess mucus production

Risk Factors:
- inflammatory factors
allergens, respiratory infections, environmental factors

-irritants
change in temp, exercise, cold air, stress and emotions, strong odors

-other
medications, tobacco, gastric reflux, pollutants, food additives

S/S:
Wheezing
Coughing
Dyspnea
Chest tightness
Use of accessory muscles to breath
Anxiety
Tachycardia, 
Diminished breath sounds

Classification-severity:
Intermittent 
Mild persistent
Moderate persistent
Severe persistent
Treatment is based upon stages

Collaborative Care:
-Medications
β-agonists, anti-inflammatory, mucolytics, methylxanthines, anticholigenerics, Leukotriene modifiers)

Oxygen
Nebulizer Treatments
Elimination of causative factors
Daily monitoring of PEFR
Self-management plan (Green, Yellow, Red Zone) Asthma Action Plan -

Answer 80

A

Hold inhaler 2-3 cm from mouth, shake canister, spray one puff and inhale; hold for 10 seconds
1-2 minutes in-between each puff of the same type of inhaler
Rinse mouth after use of steroid inhalers

Answer 81

A

COPD (Chronic Obstructive Pulmonary Disease)

Disease state characterized by the presence of airflow obstruction

-Chronic bronchitis
Presence of chronic productive cough for 3 months X 2 years

-Emphysema
Abnormal enlargement of airspaces accompanied by destruction of walls

Answer 82

A

Hypertrophy & hyperplasia of bronchial glands
Increased # goblet cells increased mucus
Decreased cilia
Chronic Inflammation- airway narrowing
Altered function of alveoli macrophages

S/S:
Cough-frequent, productive
Frequent respiratory infections
Dyspnea on exertion (DOE)
Hypoxemia &amp; Hypercapnia
Edematous
Coarse rhonchi &amp; wheezing

Answer 83

A

Destruction of alveolar walls 2o proteolytic enzymes–>destroys elastin & collagen
Alveolar air trapping–> hyperinflation–>alveoli meld together–> bleb/bullae
Lose normal elastic recoil

S/S:
Dyspnea
Cough-minimal
Thin and underweight
Finger Clubbing
Pursed-lip breathing
Diminished breath sounds
Hypercapnia

Answer 84

A

-Oxygen Therapy
( “O2 drive” -CO2 narcosis)

My carbon dioxide can be raised- do not give me high flow O2- low flow only 24%

Hypoxic Drive theory:

is a form of respiratory drive in which the body uses oxygen chemo-receptors instead of carbon dioxide receptors to regulate the respiratory cycle
it is believe when a patients has chronically elevated CO2, that CO2 levels stop being the drive to breath, and that low oxygen level becomes the main drive to breath.

Treatment:
-STOP SMOKING
-Poisitioning- high fowlers
-breathing exercises- pursed lip breathing
-coughing
Nebulizer treatments
Chest physiotherapy 
Postural drainage
Airway suctioning
Tracheostomy tubes
Mechanical intubation
Chest tube management

Answer 85

A

Nutrition therapy
Modifications depending on condition:
-Encourage 3L/Day
-Small, frequent meals
-Fluids between meals
-Rest 30 minutes before eating
-Bronchodilator may be needed before eating
-Frozen  &amp; microwave foods – conserve energy in food preparation (be careful of sodium content-read labels)
-Sodium restriction may be necessary
-Avoid foods that cause bloating and gas
-5-6 small meals/day
-Liquid commercials diets
-Avoid food that requires significant chewing
-Avoid exercises for 1 hour after eating
-Low carbohydrate diets

Answer 86

A

Explore patient concerns
Bronchodilator before sex
Less stressful positions
O2 if needed

Answer 87

A

Transfusion Therapy:
Injection/administration of blood or blood products into the blood stream

Universal donor: is 0-
Universal Recipient is: AB+

Answer 88

A

Rh factor is an antigen that is a component of the Rh blood groups and is made up of numerous complex antigens

Rh(+) indicates a person has Rh factor on surface of RBCs

Rh(-) indicates person does not have Rh factor on surface of RBCs

Rh factor is a powerful antigen

Rh(-) person may only be transfused with Rh(-) blood to prevent formation of antibodies to
Rh(+) blood

Rh(+) person may be transfused with either Rh(-) or Rh(+) blood

Answer 89

A

With FFP…
Liquid portion of blood (no cells)
Contains clotting factors
AB is considered the universal donor 
O is the universal recipient

Answer 90

A

Blood Typing: Blood test that determines blood type

Cross-matching: Blood test that indicates compatibility between blood of donor and recipient

Clumping in test tube=BAD not compatible

Answer 91

A

Whole Blood
Packed RBCs
Platelets
Granulocytes
Fresh Frozen Plasma (FFP)
Anti-hemophilic Factor VIII
Cryoprecipitate
Albumin
Immune Serum Globulins

Answer 92

A

19 gauge IV line or greater
Establish patency before requesting blood!
Sterile technique
NSS/”Y-type” IV tubing set-up at bedside (or as per institution protocol)
Baseline VS
Check orders
Double-check patient ID and blood product ID data with another licensed RN (or RN and MD)
Administer blood as soon it arrives to floor (within 2-4 hours)
Minimal handling of bag
Vital signs at start of infusion, 15 minutes into infusion (and as per institution protocol)
Stay with patient for first 15 minutes
Administer very slowly for the first 15 minutes

DO NOT:
-do not use dextrose solution or LR for blood administration - will cause RBC hemolysis

-DO NOT give any additives (including meals) via same tubing unless cleared with NSS

Post Transfusion:
-Vital signs/necessary assessments at end of transfusion

Document findings after transfusion
Complete any adverse reaction forms if needed
Monitor lab values

H/H (generally one unit of packed RBC raises the HCT by 3% and
hemoglobin by 1g/dL)

Answer 93

A

Nursing Responsibilities:
-STOP THE INFUSION
-Maintain patency of cannula via NSS
-Monitor vital signs and urine output
-Notify the physician 
-Emergency equipment at bedside
-Implement appropriate interventions
-Written documentation
-Follow appropriate protocol for reporting 
incident and collecting blood bag for lab

Answer 94

A

Most dangerous
Infusion of ABO-incompatible whole blood, RBCs, or components containing 10 mL or more of RBCs
Antibodies in recipient’s plasma attach to antigens on transfused RBC = RBC destruction

s/s:

chills
fever
hypotension
uncontrollable bleeding
heat sensation in the transfused vein
BACK PAIN
increased heart rate
constricting chest pain
heboglobinuria
hyperbilirubinemia
acute kidney injury
vascular collapse
cardiac arrest
Death

Nursing Actions:
STOP THE BLOOOD
Discontinue blood
Emergency fluids/drugs/dialysis to maintain renal perfusion/blood pressure
Treat shock
Red urine appears on next void – need to collect urine
Collect blood specimen

Answer 95

A

-Can be mild or severe
-Results from recipient’s sensitivity to donor plasma proteins
-Flushing, itching, Antihistamines/
corticosteroids
-Monitor closely
-Can lead to anaphylaxis

s/s:

anxiety
chills
flushing
itching
shortness of breath
chest pain

Answer 96

A

Emergency situation
Sensitivity to donor plasma proteins
Usually follows quickly - after only a few milliliters of blood

S/S:
Anxiety, urticaria, dyspnea, wheezing, bronchospasm, shock, possible cardiac arrest

swelling of the conjunctiva
runny nose
swelling of lips, tongue, throat
increase or decrease in HR
low BP
Hives, flushing itching
pelvic pain
dizziness, LOC, confusion, headache
OSB, wheezes or stridor
hoarseness
pain with swallowing
coughing
crampy abdominal pain
diarrhea/comiting
loss of bladder contorl

Answer 97

A

-Occurs when blood is administered more rapidly that the circulatory system can accommodate

S/S:
Cough, dyspnea, chest tightness, tachycardia, pulmonary edema, HTN, restlessness, JVD
-dyspnea
-cyanosis
-orthopnea
-headache
-systolic hypertension . increase >50 mm hg

Nursing actions:

Stop transfusion
Increase HOB
IV NSS to KVO
Notify MD

Answer 98

A

-Due to transfusion of bacterially infected blood components, or when blood sits around too long

S/S: Rapid onset chills, high fever, vomiting, diarrhea, marked hypotension, shock

Nursing actions:
Stop blood
NSS to KVO
Notify MD
Blood bag and tubing
   sent back to lab

Answer 99

A

Possible reaction between recipient’s leukocytes and donor’s antibodies = pulmonary inflammation and capillary leak = sudden development of non-cardiogenic pulmonary edema
Usually 2-6 hours after transfusion

S/S:
Fever, hypotension, tachypnea, dyspnea, ↓O2 sat, frothy sputum

Nursing actions:
Stop blood
O2
Steroids
IV KVO

Answer 100

A

Occurs days to weeks after infusion

Usually less severe

S/S:
Fever, malaise, gradual decrease in H/H
No red urine

Important to monitor because may be a precursor to a more severe reaction in further transfusions

Answer 101

A

Hepatitis B &amp; C
HIV
Malaria
EBV
Lyme disease
West Nile virus

Transfusion Hyperkalemia- prolonged storage of blood, cell destruction, improper handling of blood products

Transfusion Hypocalcemia- preservative used to store blood binds to calcium to cause a deficiency

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Med Surg Final Flashcards

Hormonal Regulation Glucose Regulation (Diabetes and Hypoglycemia) Gas Exchange (Upper airway obstruction, allergic rhinitis/sinusitis, Influenza, sleep apnea) Lower Respiratory/Impaired Transportation (Anemia PE, Pneumonia, Tuberculosis, Asthma & COPD,) Blood Administration

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