Management of Patients with Peripheral Vascular Disease PDF

Summary

This document presents a review of the management of patients with peripheral vascular disease, including vascular anatomy, physiology, assessment, and diagnostic evaluation. It details various disorders like arterial stenosis, aneurysms, and aortic dissection. Important considerations include risk factors and nursing implications.

Full Transcript

MANAGEMENT OF PATIENT
WITH ALTERATION IN
PERIPHERAL PERFUSION

PRESENTED BY: JED KEONI UY JOLO, RN

REVIEW OF ANATOMY,
PHYSIOLOGY AND FUNCTION
OF PERIPHERAL SYSTEM

 THE BLOOD VESSELS:
THE VASCULAR SYSTEM

Taking blood to the tissues and back
1. Arteries- a critical part of your cardiovascular
system, are blood vessels that distribute oxygen-
rich blood to your entire body.
2. Arterioles-
-small blood vessels that carry blood away from your
heart, are connectors between your arteries and
capillaries.
-They control your blood pressure and blood flow
throughout your body, using their muscles to change
their diameter. They also link to capillaries to exchange
oxygen, nutrients and waste.
3. Capillaries- the smallest and most numerous
of the blood vessels, form the connection
between the vessels that carry blood away from
the heart (arteries) and the vessels that return
blood to the heart (veins).
4. Venules- the smallest and most numerous of
the blood vessels, form the connection between
the vessels that carry blood away from the heart
(arteries) and the vessels that return blood to the
heart (veins).
5. Veins- blood vessels located throughout your
body that collect oxygen-poor blood and return it
to your heart.
 BLOOD VESSELS:
ANATOMY
The walls of the arteries and arterioles are
composed of three layers (Tunics)
1. Tunica Intima- inner endothelial cell layer
(Endothelium)
2. Tunica Media- middle layer of smooth muscle
and elastic tissue ; Controlled by sympathetic
nervous system
3. Tunica Externa- Mostly Fibrous connective
tissue
 REVIEW OF THE
CNS
It is divided into two parts: Brain and Spinal Cord
There 2 sets of antagonistic nerves in the Autonomic
Nervous System which is the SNS and PNS




When talking about Sympathomimetic, meaning it
mimics the Sympathetic Nervous System effects by
releasing a neurotransmitter Norepinephrine which:
Increase all, except GI and GU (The flight and fight
response).




-Eyes: Dilates pupils

-Lungs: Dilate Bronchioles

-Heart: Increases Heart rate

-Blood vessels: Constriction

-Gastrointestinal: Relaxes smooth muscles of
gastrointestinal tract

-Bladder: Relaxes bladder muscle



 Parasympathomimetic on the other hand,
mimics the Parasympathetic Nervous System
effects by releasing a neurotransmitter called
Acetylcholine which: Decreases all, except GI
and GU (Rest and Digest)




-Constricts pupils

-Constricts bronchioles and increases
secretions

-Decrease heart rate

-Dilates blood vessels

-Increase peristalsis

-Constricts bladder







 DIFFERENCES
BETWEEN BLOOD
VESSEL TYPES
Walls of the arteries are the
thickest
Lumens of veins are the larger
Skeletal muscle “milks” blood in
veins toward the heart
Walls of capillaries are only one
cell layer thick to allow for
exchanges between blood and
tissue
 ASSESSMENT OF THE
VASCULAR SYSTEM

The nurse should perform a focused health
history and physical assessment to
establish a patient’s baseline and identify
alterations in the vascular system
 ASSSESSMENT

1. HEALTH HISTORY TAKING
2. PHYSICAL ASSESSMENT
3. PALPATION OF PULSES
 DIAGNOSTIC
EVALUATION
The nurse should educate the patient on
the purpose of the diagnostic studies, what
to expect, and any possible side effects
related to these examinations.
DOPPLER ULTRASOUND
FLOW STUDIES
When pulses cannot be reliably palpated,
a handheld continuous wave (cw)
doppler ultrasound device may be used
to detect blood flow
 This handheld device emits a
continuous signal through the
patient’s tissues. the signals are
reflected by the moving blood cells
and received by the device.
Continuous wave doppler ultrasound
detects blood flow in peripheral
vessels. combined with computation
of ankle or arm pressures.
This diagnostic technique helps
health care providers characterized
the nature of peripheral vascular
disease
 NURSING IMPLICATIONS
FOR ANKLE BRACHIAL
PRESSURE INDEX
Nurses should perform a baseline
ABI on any patient with decreased
pulses or any patient 65 years or
older, especially patients with a
history of diabetes or nicotine use
 ARTERIAL DISORDERS

ARTERIOSCLEROSIS – stiffening/
decreased elasticity of the blood
vessel

ATHEROSCLEROSIS- accumulation of
lipids, calcium, blood components,
carbohydrates and fibrous tissue on the
intimal layer of the artery that cause
atheromas or plaque formation that
may obstruct the normal flow of the
blood.
OBSTRUCTION OF THE BLOOD FLOW= INCREASE
CARDIAC OUTPUT TO PROVIDE MORE BLOOD TO
THE TISSUES AND ORGAN.




SIGNS AND SYMPTOMS:

1. Ischemia- blood flow is restricted or reduced in
the tissue or organ, especially the heart (when the
heart is hypoxic, it causes imbalance between
oxygen supply and oxygen demand)




2. Hypoxia- a state in which oxygen is not available
in sufficient amounts at the tissue level to maintain
adequate homeostasis;




3. Hypoxemia- decreased oxygenation in the blood




4. Tachycardia- compensatory mechanism to
promote blood flow

REFER CAD MATERIALS AS REVIEW
FOR THE CLINICAL MANAGEMENT,
NURSING MANAGEMENT, AND
OTHER NURSING INTERVENTIONS

PERIPHERAL
ARTERIAL OCCLUSIVE
DISEASE
 BUERGER’S DISEASE
(THROMBOANGITIS
OBLITERANS)
Cause:

1. Blockage/ Obstruction in the peripheral
arteries/ arteries secondary to blood clot.

2. Leads to tissue ischemia

3. There will be pain/ inflammation

complications: tissue necrosis / cell death
Common in males (20-40 yrs. Old)
Idiopathic (unknown cause)
Autoimmune problem that attacks arteries/
veins, that causes occlusion, decreased in
circulation, decreased in oxygenation.
 Signs and symptoms or clinical
manifestations (Buerger’s)

5 P’s


1. Pain- increased when walking

- decreased when resting

it is called- Intermittent Claudication

2. Pulseless


3. Pallor

4. Paresthesia- Tingling sensation,
Prickling “Pins & Needles”, Numbness
5. Poikilothermia- Thickening of the toe
nails

upon dependency: Rubor

 RISK FACTORS

-Smoking – nicotine

-Viscous Blood (DM, Dehyrated/ Dehydration,
increased LDL, Increased RBC )

-Sedentary Lifestyle

-prolonged presence (longer than 48 hours) of an IV
catheter in the same site, the use of contaminated IV
equipment,

-trauma


-Virchow’s Triad – Stasis

H-Hypercoagulation

E- Hereditary/ Endothelial Injury
 Stasis occurs when the valves are
dysfunctional or the muscles of the
extremities are inactive more
frequently in people who are obese,

-have congestive heart failure,

-have been on long trips without
regular exercise,

-have a prolonged surgical procedure,
or are immobile for long periods (e.g.,
with spinal cord injuries or fractured
hips).
 Also at risk are pregnant women and
women in the postpartum period
Patient with atrial fibrillation is also at
high risk because of stagnation of blood
in the atria and the eddying in blood
flow caused by irregular ventricular
contractions in response to the atrial
fibrillation.
Some medications (e.g.,
corticosteroids, quinine) predispose a
patient to DVT formation.
 ENDOTHELIAL DAMAGE
Damage to the endothelial surface of the
vein may be caused by trauma or external
pressure and occurs any time a
venipuncture is performed.
Damaged endothelium has decreased
fibrinolytic properties, predisposing to
thrombus development.
 HYPERCOAGULABILIT
Y OF BLOOD
Hypercoagulability of blood occurs in many
hematologic disorders, particularly
polycythemia, severe anemias, various
malignancies (especially cancers of the breast,
brain, pancreas, and gastrointestinal tract),
antithrombin III deficiency, protein C deficiency,
protein S deficiency, antiphospholipid,
antibodies, elevated homocysteine levels, and
factor V Leiden mutation
A patient with sepsis is predisposed to
hypercoagulable state in response to
endotoxins that are released.
 Women of childbearing age who take
estrogen- based oral contraceptives or
postmenopausal women who use
hormone replacement therapy (HRT)
are at increased risk for venous
thromboembolism disease.
Women who use oral contraceptives
and smoke double their risk because of
the constricting effect of nicotine on
the blood vessel wall.
Smoking may also cause
hypercoagulability.
 PATHOPHYSIOLOGY
Red blood cells (RBCs), white blood cells
(WBCs), platelets, and fibrin adhere to form a
thrombus.
A frequent site of thrombus formation is the
valve cusps of veins, where venous stasis
allows accumulation of blood products.
As the thrombus enlarges, increased
numbers of blood cells and fibrin collect
behind it, producing a larger clot with a “tail”
that eventually occludes the lumen of the
vein.
If a thrombus only partially occludes the vein,
 If the thrombus does not become detached,
it undergoes lysis or becomes firmly
organized and adherent within 5 to 7 days.
The organized thrombi may detach and
result in emboli.
Turbulence of blood flow is a major factor
contributing to detachment of the thrombus
from the vein wall.
The thrombus can become an embolus that
generally flows through the venous
circulation to the heart and lodges in the
pulmonary circulation.
Thus it becomes a pulmonary embolus.
 DIAGNOSTIC TEST
D-DIMER
Protein C&S

Arteriogram- Dye- Result: Dye stops (+) for
occlusion

Nursing Mgt. check for allergies (Dye)
 NURSING MANAGEMENT
1. Assess Circulation


-Capillary refill test- best

-Pulse – distal: Dorsalis pedis

-U/O

-if (-) pulse: Doppler UTZ

2. Promote Circulation


-walking

-X constrictions

-ROM

3.Health Education


- stop smoking

- foot care : avoid walking barefoot/ avoid cavass
shoes- leads to decreased perspiration and causes
irritation

4. shoes: Well fitted

5. Cut toenail

6. Apply Lanolin
 UPPER EXTREMITY
ARTERIAL DISEASE
Arterial stenosis and occlusions occur less
frequently in the upper extremities (arms) than
in the legs, and cause less severe symptoms
because the collateral circulation is
significantly better in the arms. The arms also
have less muscle mass and are not subjected
to the workload of the legs.
 ANEURYSM
Localized, irreversible dilatation of an artery
due to an alteration in the integrity of its walls.
Fusiform Aneurysm
Localized, irreversible dilatation of an artery
due to an alteration in the integrity of its walls.
Saccular Aneurysm
Projects from only one side of the vessel
One side of the arterial wall is dilated
Bulbous protrusion of one side of the arterial
wall
Saccular Aneurysm
Projects from only one side of the vessel
One side of the arterial wall is dilated
Bulbous protrusion of one side of the arterial
wall
 Aortic Dissection
Occasionally, in an aorta diseased by
arteriosclerosis, a tear develops in the intima or
the media degenerates, resulting in a dissection
There is separation between the tunica media
and tunica intima.
Usually is a hematoma that splits the layers of
the arterial wall.




 Thoracic Aortic
Aneurysm
Approximately 70% of all cases of thoracic
aortic aneurysm are caused by
atherosclerosis.
Occurs most frequently in men between the
ages of 50 and 70 years old, and are
estimated to affect 10 of every 100,000 older
adults.
 Clinical Manifestations

Symptoms vary and depend on how rapidly
the aneurysm dilates and how the pulsating
mass affects surrounding intra-thoracic
structures.
Some patients are asymptomatic. In most
cases, pain is the most prominent symptom.
 Dyspnea- the result of pressure of the aneurysm sac
against the trachea, a main bronchus, or the lung itself.
Cough, frequently paroxysmal (sudden, uncontrollable
outburst) and with a brassy quality.
Hoarseness
Stridor
Vocal weakness or aphonia (complete loss of the
voice), resulting from pressure against the laryngeal
nerve.
Dysphagia (difficulty in swallowing)- due to
impingement on the esophagus by the aneurysm
Diagnostic Findings
Chest X-ray
Computed Tomography Angiography (CTA)
MRA (Magnetic Resonance Angiogram)
Transesophageal echocardiography (TEE)

 CTAs are typically performed because they are
widely available, can be completed rapidly, and
can remove cardiac motion artifacts, enhancing
their accuracy
 Medical
Management
Treatment is based on whether the patient is
symptomatic and whether the aneurysm is
expanding in size, caused by an iatrogenic injury.




General measures such as controlling blood
pressures and correcting risk factors are helpful
Beta blockers (Mainstay of medical treatment for
aortic aneurysms). Ex. Metoprolol, atenolol,
carvedilol
ARBs (Angiotensin Receptor Blockers) ‘tans’
Losartans, valsartan, irbesartan
Hydralazine
 Abdominal Aortic
Aneurysm
 The most common cause of abdominal aortic
aneurysm is atherosclerosis.
 Affects men two to six times more often than women
 Two to three times more common in White versus
Black men
 Most prevalent in patients older than 65 years of age
 Most of these aneurysms occur below the renal
arteries (infrarenal aneurysms).

-Untreated, the eventual outcome may be rupture and
death.
 Pathophysiology

All aneurysms involve a damaged media layer of
the vessel.
May be caused by congenital weakness, trauma,
or disease.
After an aneurysm develops, it tends to enlarge.
 Risk Factors

Genetic predisposition
Nicotine use
Hypertension; more than half of the patients with
aneurysms have hypertension.
 Clinical
Manifestations
Pulsatile mass over the abdomen.
Low back pain, lower abdominal pain, and flank
pain. This is due to compression of structures and
nerve endings in the area by the dilated artery
Collapse and shock due to hemorrhage.
 Facts

 The most common cause of aneurysm is
hypertension
 The most dangerous complications of aneurysm
is rupture
 Collaborative management

-Antihypertensive drugs

-Surgery
 Raynaud’s Disease
Common in females (20-40 years old)




Cause:

1. Vasospasm of the arteries/ arterioles
2. Tissue ischemia, but no tissue necrosis.
3. Idiopathic (unknown)
 CAUSES
Stress
Smoking
SLE (Systemic Lupus Erymathosus) -
Autoimmune
R.A - Rheumatoid Arthritis –Autoimmune




Autoimmune- Attacks connective tissues
causing vasculitis that causes spasm
Common site: finger, toes




CLINICAL
MANIFESTATIONS
Ischemic pain
Poor blood circulation
Poor wound healing
Risk for infection
Pulse deficit
Bilateral/ symmetrical
Altered sensation (pain/ numbness)
Cold extremities during white/ blue phase
Warm extremities during Red Phase
Watch out for: OHP- orthostatic hypotention
(postural) – Risk for injury (RED phase)
 CARDINAL
MANIFESTATIONS
Progressive color shifting of fingers and
toes




White – Blue – Red

contrict - constrict – Dilate-

Raynaud’s Phenomenon

(Sudden/ Explained vasodilation)




 DIAGNOSTIC TEST

1. Arteriogram

2. Doppler

3. Ice water test- soak pt. hand
 DRUG THERAPY

Calcium channel blockers are the first-
line drug therapy.
Calcium channel blockers such as
nifedipine (Procardia) and diltiazem
(Cardizem) relax smooth muscles of the
arterioles by blocking the influx of
calcium into the cells, thus reducing the
number of vasospastic attacks.
 ADVERSE EFFECTS

calcium channel blockers include
tachycardia, headache, flushing,
dizziness, and peripheral edema.
Sympathectomy is considered only in
advanced cases.
Patients with Raynaud’s phenomenon
should also receive routine follow-up to
monitor possible connective tissue or
autoimmune disease.
MANAGEMENT
V- Vasodilators- Alpha cholinergic blockers

A- Avoid Stress

W- Warm clothing

A- avoid injury

C- Caution (safety)

S- Stop smoking= treat underlying ause

VENOUS DISORDERS
 Venous
Thromboembolism
Deep vein thrombosis (DVT) and pulmonary
embolism (PE) collectively make up the
condition called venous thromboembolism
(VTE).
 DEEP VEIN THROMBOSIS

Due to blood clot

Location: Deep vein/ Larger veins

both w/ inflammation: non-visible

Cardinal sign:

Homan Sign (Calf pain at dorsiflexion of the
foot)
Also has similar symptoms to varicose veins
 RISK FACTOR

Virchow’s Triad – Refer previous slides for SHE
(Stasis, Hypercoagulation, and Endothelial
Damage).
 CAUSE

Increased pooling of blood, causing thrombus
formation or clot in deep vein (calf).




If thrombus is dislodged, it becomes an embolus
“travelling clot”




Travels to pulmonary artery




Complications: Pulmonary embolism
S&S of Pulmonary Embolism
 Air hunger – increased RR
 Blood tinged sputum
 Chest pain
 Elevated temperature
 Difficulty of breathing








 S AND S OF DVT
Fever (low-grade)
Inflammation + pain = sudden onset
Swelling
Redness
Warmth
Pain
Edema- unilateral (one side) – increase
calf measurement

Sign: Homan’s- pain upon dorsiflexion of
the foot
 DIAGNOSTIC TESTS

1. UTZ

-venous duplex

-Result: shows clot/ thrombus




2. Venography

-confirms

-Result: dye- stops (+) for occlusion or clot




 DRUGS

1. Anticoagulants

-heparin

-Warfarin

= prevents blood clot




2. Thrombolytics

Dissolves blood clot
VARICOSE VEIN


- Distended vein d/t damaged or incompetent
valves

*valve – gatewate

prob: 2 way valve

-Retention of blood

Common: Lower extremities

*Minor case- retention of blood

- no retention

- spider veins




Complication:-Deep Vein Thrombosis

-Thrombophlebitis
 PULMONARY
EMBOLISM
is the blockage of pulmonary arteries by
thrombus, fat or air emboli, and tumor tissue.
Other sites of origin include the right side of the
heart (especially with atrial fibrillation), upper
extremities (rare), and the pelvic veins (especially
after surgery or childbirth).
Lethal PEs most commonly originate in the
femoral or iliac veins.
Emboli are mobile clots that generally do not
stop moving until they lodge at a narrowed part
of the circulatory system.
 Thrombi in the deep veins can dislodge
spontaneously.
However, a more common mechanism is
jarring of the thrombus by mechanical forces,
such as sudden standing, and changes in the
rate of blood flow, such as those that occur
with Valsalva maneuver.
In addition to dislodged thrombi, less
common causes of PE include fat emboli
(from fractured long bones), air emboli (from
improperly administered IV therapy), bacterial
vegetations, amniotic fluid, and tumors.
In Tumor emboli may originate from primary
or metastatic malignancies.
CLINICAL MANIFESTATION
anxiety and the sudden onset of unexplained
dyspnea, tachypnea, or tachycardia.
cough, pleuritic chest pain, hemoptysis, crackles,
fever, accentuation of the pulmonic heart sound,
and sudden change in mental status as a result
of hypoxemia.
Massive emboli may produce sudden collapse of
the patient with shock, pallor, severe dyspnea,
and crushing chest pain.
However, some patients with massive PE do not
have pain. The pulse is rapid and weak, the BP is
low, and an ECG indicates right ventricular strain.
 Medium-sized emboli often cause
pleuritic chest pain, dyspnea, slight
fever, and a productive cough with
blood-streaked sputum.
A physical examination may reveal
tachycardia and a pleural friction rub.
An ECG and chest x-ray may indicate
right ventricular hypertrophy secondary
to pulmonary hypertension.
 COMPLICATIONS
Pulmonary infarction (death of lung tissue) is
most likely when the following factors are present:
(1) occlusion of a large or medium-sized pulmonary
vessel (greater than 2 mm in diameter),
(2) insufficient collateral blood flow from the
bronchial circulation,
(3) preexisting lung disease.
Pulmonary hypertension also results from
hypoxemia.
Pulmonary hypertension eventually results in
dilation and hypertrophy of the right ventricle.
 DIAGNOSTIC TESTING

Lung Scan
PE
D-dimer testing
 If the lung scan is inconclusive, pulmonary
V angiography is recommended.
Pulmonary angiography is an invasive
procedure that involves the insertion of a
catheter through the antecubital or femoral
vein, advancement to the pulmonary artery,
and injection of contrast media
A spiral (or helical) computed tomography
(CT) scan ABG analysis
COLLABORATIVE CARE

The objectives of treatment are to

(1) prevent further growth or multiplication of thrombi in the
lower extremities,
(2) prevent embolization from the upper or lower extremities to the
pulmonary vascular system, and
(3) Provide cardiopulmonary support
DRUG THERAPY

Heparin and warfarin (Coumadin)
Anticoagulant agent – warfarin, etc.
Thrombolytic agents, such as drugs that ends with a suffix “kinase”

Streptokinase, Alteplase, Reteplase, Etc.
SURGICAL THERAPY

Pulmonary Embolectomy

Preoperative pulmonary angiography
NURSING MANAGEMENT

Nursing Implementation
Health Promotion
Nursing measures aimed at prevention of pulmonary embolism
parallel those for prophylaxis of deep vein thrombosis
 ACUTE INTERVENTION
The patient should be kept on bed rest in a semi-Fowler position to facilitate
breathing.
An IV line should be maintained for medications and fluid therapy.
The nurse should know the side effects of medications and observe for them.
Oxygen therapy should be administered as ordered.
Careful monitoring of vital signs, ECG, ABGs, and lung sounds is critical to
assess the patient’s status.
The patient is usually anxious because of pain, sense of doom, inability to
breathe, and fear of death.
EVALUATION

The expected outcomes are that the patient who has a pulmonary
embolism will have
adequate tissue perfusion and respiratory function
adequate cardiac output
increased level of comfort
no recurrence of PE
 RISK FACTORS
-Adult= high risk

-congenital

-obesity/ Pregnancy

-Smoking

-alcohol

-DM

-HPN

-Trauma

CLINICAL MANIFESTATIONS

Warm skin
Tender to touch
Increased Pelvic Venous Pain
Increased leg size d/t peripheral edema
Decreased Pulse Quality

N: +4
Decreased Pulse Grading

N:+2

PULSE QUALITY – VIA
PALPATION
0= absent

+1= impairment
+2= moderate impairment (weaker)

+3= slight impairment

+4= normal
PULSE GRADING

0= Absent

+1= diminished

+2= normal

+3= increased pulsation- Boundary
 MANAGEMENT

Position- Legs above level of the heart

-worsens w/ dependent position
 NSG. MGT.
1. Relieve pain

- bed rest= 5-7 days

- warm moist heat

- X ambulation

- analgesics: acetaminophen (Tylenol)




2. Promote Venous Return

- elevate legs

- elastic stockings (antiembolic)

- X hip flexion

- Decrease Vit. K

THROMBOPHLEBITIS

-D/t blood clot

Location: Smaller veins/ superficial




- both w/ inflammation: Visible








*Same nursing management and medical
management with DVT

 CLINICAL
MANIFESTATION
The most common cause of superficial
thrombophlebitis in the upper extremities
is trauma to the vein caused by IV therapy.
Superficial thrombophlebitis in the lower
extremities is usually related to trauma to
the varicose veins.
This type of superficial thrombophlebitis
is more common in older patients with
long-standing venous insufficiency and in
women during pregnancy.
Superficial thrombophlebitis is typically
diagnosed on the basis of physical
examination alone
 COLLABORATIVE CARE
elevation of the affected extremity to promote
venous return and decrease the edema and
the application of warm, moist heat.
If the superficial thrombophlebitis is
associated
with an IV catheter or solution, the IV catheter
should be removed immediately.
If the superficial thrombophlebitis has
occurred in the lower extremity, elastic
compression stockings are recommended
once the acute thrombophlebitis has resolved.
 Mild oral analgesics such as aspirin
or acetaminophen with codeine
Nonsteroidal anti-inflammatory
drugs (NSAIDs) such as ibuprofen
(Motrin, Advil)
Anticoagulant therapy
Antibiotics and/or corticosteroids
NURSING INTERVENTIONS TO PREVENT
BLEEDING COMPLICATIONS IN PATIENTS
RECEIVING ANTICOAGULANTS

ASSESSMENT
Monitor vital signs as indicated.
Examine appropriate laboratory coagulation tests
for achieved therapeutic levels.
Inspect skin frequently, especially under splinting
devices.
Perform assessments frequently to observe for
signs and symptoms of bleeding and/or clotting.
Evaluate lower extremity for
ecchymosis/hematoma development if
sequential compression hose used.
Test urine and stool for occult blood as indicated.
Notify the health care provider of any
abnormalities in assessments, vital signs, or
laboratory values.
INJECTIONS

Minimize venipunctures.
Do not give IM injections.
Use small-gauge needles for
venipunctures unless replacement therapy
requires a larger gauge.
Apply manual pressure for at least 10
minutes (or longer if needed) on
venipuncture sites.
 PATIENT
Avoid restrictive clothing.
Reposition the patient carefully at regular
intervals.
Use support pads, mattresses, bed cradles and
therapeutic beds as indicated.
Avoid removing/disrupting established clots.
Instruct patient not to forcefully blow nose.
Administer stool softeners to avoid hard stools
and constipation.
Limit application—use paper tape as
appropriate.
 Perform care in a gentle manner.
Use soft toothbrushes or foam swabs for oral
care.
Apply moisturizing lotion to skin.
Do not use lemon-glycerin swabs.
Humidify O2 source.
Utilize electric razors, not straight razors.
Lubricate tubes adequately prior to insertion.
Apply antiembolism stockings(e.g.,TED
hose)as ordered
SURGICAL THERAPY

include venous thrombectomy (rarely
performed) and inferior vena cava
interruption
Vena cava interruption devices, such as
the Greenfield or Simon-Nitinol filters,
can be inserted percutaneously through
superficial femoral or internal jugular
veins
 COMPLICATIONS

air embolism, improper placement,
and migration of the filter more
distally into the venous system.
Venous congestion
Pulmonary Embolism
 NURSING DIAGNOSIS
Acute pain related to venous congestion,
impaired venous return, and inflammation
Ineffective health maintenance related tolack of
knowledge about disorder and its treatment
Risk for impaired skin integrity related to altered
peripheral tissue perfusion
Potential complication: bleeding related to
anticoagulant therapy
Potential complication: pulmonary embolism
related to embolization of thrombus,
dehydration, and immobility
 PLANNING

The overall goals are that the patient
with venous thrombosis (1) relief of
pain,

(2) decreased edema

(3) no skin ulceration,
(4) no complications from
anticoagulant therapy, and (5) no
evidence of pulmonary emboli.
NURSING IMPLEMENTATION

Observe for any indication of bleeding,
including epistaxis and bleeding gingivae.
Urine should be assessed for gross or
microscopic hematuria. A smoky
appearance to the urine is sometimes noted
if blood is present.
A specimen should be checked daily for
hematuria.
Particular attention should be paid to the
protection of skin areas that may be
traumatized.
 Surgical incisions should be closely
observed for evidence of bleeding.
Stools should be tested to
determine the presence of occult
blood from the gastrointestinal tract.
Mental status changes, especially in
the older patient, should be
assessed as a possible indication of
cerebral bleeding.
Intramuscular injections should not
be given.
 The nurse should review with the patient any
medications currently being taken that may
interfere with anticoagulant therapy
The nurse should ask if the patient is taking
any herbal products.
Herbs can interfere with anticoagulant
The nurse should monitor PTT, INR,
hemoglobin, hematocrit, and platelet levels
when a patient is receiving anticoagulant
drugs.
Platelet counts are monitored to assess for
heparin-induced thrombocytopenia.
Medication doses are titrated according to
 EVALUATION

-The expected outcomes are that the
patient with venous thrombosis will
have minimal to no pain

-Intact skin

-no signs of respiratory distress

-no signs of hemorrhage or occult
bleeding
COMPLEMENTARY ALTERNATIVE
THERAPIES

garlic, ginger, ginkgo, ginseng, goldenseal,
feverfew,
chamomile, angelica, bilberry, and evening
primrose.
Effects
Can interfere with clotting in various ways.
One common mechanism is to inhibit
platelet aggregation.
NURSING IMPLICATIONS

herbs should be used with caution or not at all
in patients with bleeding or clotting disorders
or those taking anticoagulant and antiplatelet
drugs (e.g, warfarin [Coumadin], heparin, low-
molecular-weight heparin, aspirin, ticlopidine
Ticlid, clopidogrel.
These herbs should be discontinued at least 2
to 3 weeks before surgery to avoid potential
complications.
CHRONIC VENOUS
INSUFFICIENCY AND VENOUS
LEG ULCERS

Chronic venous insufficiency (CVI) is a
common problem in the elderly.
CVI, which often occurs as a result of
previous episodes of DVT, can lead to
venous leg ulcers (formerly called
venous stasis ulcers or varicose ulcers).
 ETIOLOGY
The causes of CVI include vein
incompetence, deep vein obstruction,
congenital venous malformation,
arteriovenous fistula, and calf muscle failure.
The basic dysfunction is incompetent valves
of the deep veins.
 PATHOPHYSIOLOGY

As a result, hydrostatic pressure in the veins increases and
serous fluid and red blood cells (RBCs) leak from the
capillaries and venules into the tissue, resulting in edema.
Enzymes in the tissue eventually break down RBCs, causing
the release of hemosiderin, which causes a brownish skin
discoloration.
Over time, the skin and subcutaneous tissue around the
ankle are replaced by fibrous tissue, resulting in thick,
hardened, contracted skin.
Although the causes of CVI are known, the exact
pathophysiology of venous ulcers remains unknown.
It is known that decreased fibrinolysis, pericapillary fibrin
cuffs, and WBC trapping
CLINICAL MANIFESTATIONS AND
COMPLICATIONS

In individuals with CVI, the skin of the lower leg is leathery, with a
characteristic brownish or “brawny” appearance from the hemosiderin
deposition.
Edema has usually been persistent for a prolonged period.
Eczema, or “stasis dermatitis,” is often present, and pruritus is a
common complaint.
Venous ulcers classically are located above the medial malleolus.
Venous ulcers are typically partial thick wounds that extend through the
epidermis and portions of the dermis.
 Ulcer drainage may be extensive, especially when the
leg is edematous.
The ulcer is often quite painful, particularly when
edema or infection is present.
Pain may be worse when the leg is in a dependent
position. Ulcer pain adversely affects the patient’s
quality of life.
If the venous ulcer is untreated, the lesion becomes
more extensive, eroding wider and deeper.
Recurrent episodes of cellulitis may lead to
destruction of the superficial lymphatics, causing a
secondary lymphedema to develop.
On very rare occasions, severe CVI with long- standing
non-healing venous ulceration may result in the
patient’s need to have an amputation.
 COLLABORATIVE CARE

Compression is essential to the management of CVI,
venous ulcer healing, and prevention of ulcer recurrence.
A variety of options are available to achieve compression
including elastic wraps, custom-fitted compression
stockings, elasticated tubular
support bandages, a Velcro wrap (Circaid),

sequential pneumatic compression devices, paste banda
(Unna’s boot) with an elastic wrap, and multilayer (three o
four) bandage regimens.
 Moist environment dressings are the mainstay of
wound care.
A variety of dressings are available that provide a
moist environment and include transparent film
dressings, hydrocolloids, hydrogels, foams, calcium
alginates, impregnated gauze, gauze moistened
with saline, and combination dressings.
Nutritional status and intake should be evaluated in
a patient with a venous leg ulcer.
A balanced diet with adequate protein, calories, and
micronutrients is essential for healing.
 Nutrients most important for healing include
protein, vitamins A and C, and zinc.
Foods high in protein (e.g., meat, beans, cheese,
tofu),vitamin A (green leafy vegetables), vitamin
C (citrus fruits, tomatoes, cantaloupe), and zinc
(meat, seafood) must be provided.
For patients with coexistent diabetes mellitus,
maintaining normal blood glucose levels
facilitates the healing process.
For overweight individuals with CVI and no
active venous ulcer, a weight-reduction diet may
be prescribed.
CLINICAL SIGNS OF INFECTION
Change in quantity, color, or odor of the
drainage; presence of pus; erythema
of the wound edges;

change in sensation around the
wound;

warmth around the wound;
increased local pain, edema, or both;
dark-colored granulation tissue;
induration around the wound
delayed healing; and Cellulitis
NURSING MANAGEMENT

Long-term management of venous
leg ulcers should focus on teaching
the patient about self-care measures
because the incidence of recurrence
is high.
DISORDERS OF THE LYMPHATIC SYSTEM

The lymphatic system consists of a set of vessels that spread
throughout most of the body
The fluid drained from the interstitial space by the lymphatic system is
called lymph
The flow of lymph depends on the intrinsic contractions of the lymph
vessels, the contraction of muscles, respiratory movements, and
gravity
LYMPHANGITIS AND LYMPHADENITIS
Lymphangitis is an acute inflammation of the lymphatic channels
It arises most commonly from a focus of infection in an extremity
The infectious organism is a hemolytic streptococcus
The lymph nodes located along the course of the lymphatic channels
also become enlarged, red, and tender (acute lymphadenitis).
They can also become necrotic and form an abscess (suppurative
lymphadenitis)
The nodes involved most often are those in the groin, axilla, or
cervical region.
LYMPHEDEMA AND
ELEPHANTIASIS
Lymphedema may be primary (congenital malformations) or secondary (acquired
obstructions).
Tissue swelling occurs in the extremities because of an increased quantity of lymph
that results from obstruction of lymphatic vessels
lymphedema praecox which is caused by hypoplasia of the lymphatic system of the
lower extremity is congenital
seen in the arm after an axillary node dissection (e.g., for breast cancer) and in the
leg in association with varicose veins or chronic thrombophlebitis
Lymphatic obstruction caused by a parasite (filaria)
Elephantiasis lead by chronic fibrosis, thickening of the subcutaneous tissues, and
hypertrophy of the skin
The goal of therapy is to reduce and control the edema and prevent infection
CELLULITIS
most common infectious cause of limb swelling
can occur as a single isolated event or a series of recurrent
events
sometimes misdiagnosed as recurrent thrombophlebitis or
chronic venous insufficiency
occurs when an entry point through normal skin barriers
allows
bacteria to enter and release their toxins in the
CELLULITIS
acute onset of swelling, localized redness, warmth, and pain
frequently associated with systemic signs of fever, chills,
and sweating
redness may not be uniform and often skips areas and
eventually develops a pitting “orange peel” appearance
Regional lymph nodes may also be tender and enlarged
MEDICAL MANAGEMENT
Oral antibiotic therapy
Severe, patient is treated with IV antibiotics
Key to preventing recurrent episodes of cellulitis lies in
adequate antibiotic therapy for the initial event and in
identifying the site of bacterial entry
NURSING MANAGEMENT
elevate the affected area 3 to 6 in above heart level
apply cool, moist packs to the site every 2 to 4 hours until the
inflammation has resolved then transition to warm moist packs
caution when applying warm packs because burns may occur
Education should focus on preventing a recurrent episode
patient with peripheral vascular disease or diabetes should receive
education or reinforcement about skin and foot care
THANK YOU!!!!