20 Acute Compartment syndrome of the lower extremity draft.pdf

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Acute
Compartment
syndrome of
the lower
extremity
MATHE W J OHNSTONE DPM,
FACFAS, DABPM, FFPM
RCPS( GL ASG)
ASSI STANT PROFE SSOR

COL L E GE OF PODI ATRI C
ME DI CI NE AND SURGE RY, DE S
MOI NE S UNI VE RSI T Y
Copyright Notice:

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of Fair Use and the TEACH Act. It is intended only for use by students enrolled in this course.
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 Demonstrate knowledge of Recognize the pathophysiology of
compartmental anatomy of the ACS to the underlying etiology.
lower leg and foot.

Learning
objectives
Demonstrate knowledge of
diagnosing and managing ACS of
the lower leg and foot.
Brief historical aside
1881- “Die ischämischen Muskellähmungen und Kontracturen”-
Dr. Richard Von Volkmann-head of the department of surgery at
the university of Halle, Germany

“Volkmann’s contractures” described in this work

Previously: Surgeon-General of the Prussian army and one of
the most famous physicians of his time.

He was once consulted by Pope Pius IX for a foot ailment in
1885
Acute compartment syndrome
-A complication of trauma (particularly crush injuries),
or other factors

-Injury Swelling Interruption of blood flow
Tissue necrosis

-ACS is a Surgical emergency : prompt diagnosis is
key to preserving function

-Thorough understanding of the anatomy of the lower
leg is critical to successful treatment of ACS
Etiology
Exertional Major vascular Injury

Trauma* Surgical closure

Hemorrhage External pressure

Burns Snake bites

Infiltration Infection

Frostbite
Pathophysiology
1. INJURY

2. Bleeding and interstitial edema
3. Increased pressure

4. Reduced arterial-venous flow gradient

5. Collapse of capillary blood flow

6. Death of tissue, nerve damage, muscle death etc.
Positive feedback loop of ACS

Untreated can lead to death
At the
cellular
level
Intercompartmental pressure approaches
or exceeds capillary hydrostatic pressure.
◦ interrupts the blood flow to the
tissues
◦ causes an oxygen debt in the
muscle tissue.

Skeletal Muscle switches to anerobic
metabolism
Oxygen debt continues to grow
◦ causing increased capillary
permeability
◦ Increased inflammation
Compartmental
anatomy of the
lower limb
Compartments
of the lower leg
Anterior
Lateral
Deep Posterior
Superficial Posterior
Septa
Compartments of the leg are
divided into 4 parts by the
Anterior intermuscular septum
Interosseous membrane
Posterior intermuscular
septum
Transverse intermuscular
septum
Compartments of the foot
2 main classifications for compartments of the foot

Myerson-4 compartments (1988 injection study)
Manoli and Weber 9 Compartments (1990
anatomical/ injection study)

Myserson and Manoli would later collaborate on a
1992 study strongly recommending evaluation for
compartment syndrome following calcaneal fractures
as up to 10% can develop this syndrome
Myerson study
Central compartment:
◦ flexor dig brevis, lumbrical, quadratus plantae and
adductor hallucis muscles; flexor dig longus, peroneal
and posterior tibial tendons.
Medial compartment:
◦ abductor hallucis and flexor hallucis brevis muscles;
flexor hallucis longus, peroneus longus and posterior
tibial tendons

Interosseus compartment:
◦ Interossei muscles
Lateral compartment:
◦ Abductor digiti minimi and flexor digiti minimi muscles
9-compartment modern
model
1990: a series of three patients developed unilateral claw toes
after calcaneal fractures of the same foot.
◦ A deep, previously un-described compartment was proposed
17 fresh cadaver limbs were with dyed with gelatin, the limbs
were then frozen
Nine compartments were identified
◦ including a deep separate “calcaneal compartment” which
contains the quadratus plantae muscle
◦ Manoli and weber recommended a release of this
compartment
 3 compartments span the length of the foot
Medial:
5 Forefoot Compartments ◦ Flexor Hallucis, abductor hallucis

Lateral:
Interosseous x4: (interosseous muscles)
◦ Abductor digiti quinti, flexor digiti minimi
Adductor: (adductor hallucis)
Superficial:
◦ flexor digitorum brevis, lumbricals, flexor digitorum longus tendons, medial Plantar
nerve
One compartment
confined to the hindfoot

Calcaneal: (contains the quadratus
plantae, posterior tibial nerve, lateral
plantar nerve and possible medial
plantar nerve as well.) (see circled
N/V bundle)
Diagnosing ACS
HPI (NLDOCAT)
◦ Nature: Injury (primary cause) usually a high energy or crush
injury
◦ Location: ask for any other locations of pain/ abnormal
feeling as well
◦ Duration: How long has it been since the injury?
◦ Onset: Sudden appearance vs gradual increase in pain
◦ Characteristics: what does pain feel like, any other
symptoms
◦ Aggravating factors: does anything make it worse?
(elevation)
◦ Treatments: Previously attempted treatments
ROS
◦ General is patient conscious?
◦ Vision: flashes? Spots?
◦ Head and neck: Pain? Stiffness?
◦ Pulmonary: Shortness of breath?
◦ Cardio: Palpitations?
◦ Gastro-intestinal: Nausea? Vomiting?
◦ Genito-urinary- pain?, burning with urination?
◦ Hematology/oncology: hx of cancer or bleeding dx
◦ OB/Gyn (female patient only): is patient pregnant? Trying?
◦ Neuro: peripheral sensation? Feeling in injured limb?
◦ Endocrine: is patient diabetic? On steroids?
◦ Infectious diseases: Chronic conditions like HIV
◦ MSK: Pain? Loss of function?
◦ Mental health: is patient cooperative? Alert?
◦ Skin: Redness? Is the foot cold to the touch?
 Skin
Sensory deficit
PAIN discoloration
(Paresthesia) (Pallor)

Temperature
difference Pulselessness Paralysis
(Poikilothermia)

Exam findings: The (6 P’s)
 Focused examination of the feet and legs (Don’t forget the other leg!)
◦ Vascular exam
◦ Pulses (may need Doppler)
◦ Skin Color/texture/ temperature
◦ Capillary fill time
◦ Musculoskeletal exam
◦ Location

Physical ◦ Pain
◦ Gross anatomical deformity

examination
◦ Neurological exam
◦ Semmes-Weinstein Monofilament
◦ Light touch/ sharp vs dull
◦ Two-point discrimination
◦ Dermatological exam
◦ Describe the Skin
◦ Color
◦ Temperature
◦ Wounds?/Blisters?
Example
46-year-old Male construction worker

He was standing in a deep post-hole at the build-site when
the backhoe operator accidentally began to fill the hole with
dirt while he was standing inside

He yells for help and is rescued by his teammates who dig
him out by hand and bring him to the ED. He is in
“astounding pain”

Clinical picture is on the right
Patient workup
HPI–WHEN did this happen, how many hours have passed. Is there any
other injury that hasn’t been mentioned (check for back/ neck pain for
high impact trauma like a car accident or fall from a height). Is pain
increasing? When did patient last eat anything? (may need to go to OR
emergently)

Medical history: pertinent to know any bleeding disorders or medications
which may increase bleeding

Surgical history: any previous injury. Surgery to the affected side?

Social and Family hx: patient has given his occupation. A functional
recovery will be most important for him in order to return to work. Check
for family hx of bleeding disorder while waiting for tests.
Physical examination
Focused to the injured limb:

Vascular: You are unable to localize any pedal pulses by palpation,
handheld RF doppler is also not picking up any signal from the DP or PT.
The skin is cold to the touch (in contrast to the right foot which is warm)

MSK: patient has intense pain with obvious dislocation clinically he is
unable to move his toes at all
Neuro: patient is unable to feel light touch on the distal foot (although he
was fully able to feel this area before the injury)

Skin: there is a bright red color to the foot and ankle save for the great toe
which is white there are no open wounds, however.
 Pain Poikilothermia

Pallor Paresthesia

Pulselessness
Paralysis
Diagnostic tests
Diagnosis is based on strong clinical suspicion as well as
intra-compartmental pressure measurement.

Intra-compartmental pressures can be read using a wick-
catheter system
◦ The wick-catheter system has been in use since at least 1968
(Scholander et al)

X-ray/CT also useful in identifying associated fractures and
severity of injury
Measurement
devices

Top: Schematic of Whiteside's catheter 1973

Bottom: Modern Stryker-brand compartment
pressure measurement tool
Side-port The side-ported needle shown
If forced to use a traditional
hypodermic needle, ensure that
needle above is usually included in the
set for modern devices
the device is not plugged with
tissue or pressed against the
bone
These will result in false
positives
Measurement
techniques (leg)
Each compartment is measured at the junction between the
upper and middle 1/3 of the leg.
Anterior compartment: 1cm lateral to the anterior tibial border to
a depth of 1-3cm
Deep Posterior: insert needle just posterior to the medial tibial
border and directed towards the posterior border of the fibula to
a depth of 2-4cm
Lateral: just anterior to the posterior border of the fibula to a
depth of 1-1.5cm
Superficial Posterior insert needle on either side of the anatomic
midline at the posterior leg to a depth of 1-1.5cm
Placement for measurement of medial (1-1/5cm) and Placement of superficial and deep central Placement for lateral and interosseous compartments
calcaneal (2.4cm deep) compartments compartments

Measurement techniques (foot)
 Measurement values/ significance
Muscle perfusion pressure
Absolute Measurement Treatment *typically, anterior leg compartment
=
(intra-compartmental recommendation (Diastolic pressure) – (intra-compartmental pressure
pressure reading)
0-8mmHg Normal resting pressure Muscle perfusion Treatment
30-40mmHg Monitoring zone pressure

40mmHG + clinical Fasciotomy Above 30mmHg monitor
symptoms Below 30mmHg Fasciotomy

Example: patient has a preoperative B/p of 100/70,
intra-compartmental pressure readings are 50mmHg
Diastolic pressure 70-50=20mmHg, Perform surgery
Additional
Labs/
Diagnostics
ECG
Bloodwork
◦ CBC/diff (sickle cell
correlation)
◦ Electrolytes
◦ Bun/Creatinine
◦ ALT/Creatinine Kinase
(Rhabdomyolysis)
Urinalysis
Routine
Myoglobin
Surgical technique
(lower leg)
2- Incision Approach

Lateral incision allows access to the
◦ Anterior compartment
◦ Lateral compartment
2 incision
technique
Medial incision allows access to
◦ Superficial posterior compartment
◦ Deep Posterior compartment
Surgical technique
Proper placement of lateral incision one finger-breadth
anterior to the fibula, leads to easier identification of
the anterior intermuscular septum, and release of both
anterior and lateral compartments

Release of deep posterior
compartment requires
separation of both gastric and
soleus from the tibia
(Identification of N/v bundle
confirms location)
Surgical approach diagram

Lateral
incision and
fasciotomy Medial incision
and fasciotomy
 Let's do: a four- Medial incision begins 2cm posterior to postero-
medial tibial border
compartment lower Extends from proximal tibia to gastroc-soleus
extremity release (leg) junction at the achilles
Medial
incision
Superficial fascia is released with
dissection scissors.

This release is carried out in-line
with the skin incision

Take care to protect the
saphenous vein and nerve.
Deep
compartment
release
The soleus is elevated from the
poserior-medial tibia, releasing the
deep compartment

May need to extend incision for
adequate release.
 DISSECTION PLANE IS

Dissection CARRIED BEHIND THE TIBIA
TO ACCE SS THE D E E P
P O S T E R I O R C O M P A R T M E N T.
 M U ST B E AB L E TO

Soleus elevated
VISUALIZE THE DEEP
P O ST E R I O R C O M PA R T M E N T
TO E N SU R E R E L E ASE IS
A D E Q U AT E
 B O T H C O M PA R T M E N T S
ACCESS THROUGH A SINGLE
Lateral and anterior release L AT E R A L I N C I S I O N P L A C E D
2CM AN TE R IO R TO THE
FIBULA
Dissection DEEPEN THROUGH THE
S U P E R F I C I A L FA S C I A
Identify
Release anterior
compartment
After raising an anterior flap
(subcutaneous) incise the anterior
fascia (be careful to preserve the
superficial peroneal nerve)
Lateral compartment T H E L AT E R A L
C O M PA R T M E N T I S
RELEASED ALONG THE
release POSTERIOR BORDER OF
THE FIBULA
Immediate postop care
 Closure options
Primary Closure?

Packed open
Negative-pressure VAC

“Shoelace Technique”
Elevate extremity after surgery

(-requires strict compliance)
SPLINT! (prevent equinus contracture)
Delayed primary closure Vs Skin graft
Shoelace
tecnique
Silicone vessel loops tied into a
large knot which is stapled to the
skin at the apex of the incision
 VESSEL LOOPS ARE THEN

Vessel loop closure “L ACE D ” BY CO N TIN U IN G TO
S TA P L E C R O S S E D V E S S E L
L O O P S AT T H E S K I N E D G E S
Vessel loop closure
Vessel loop closure
M A I N TA I N T E N S I O N O N T H E
VESSEL LOOPS, PLACE
T H E S E A B O U T 2 C M A PA R T
Anatomical correlation
The intermuscular septa are the dividing lines between muscular compartments of the leg, which
will need to be opened by the surgeon in order to relieve the pressure in each compartment,
inadequate decompression, or missed decompression of a compartment can lead to severe
consequences.

Lateral incision too far posterior can lead to Accidentally developing a plane between the
mistaking the posterior intermuscular septum for gastrocnemius and soleus missing the deep
the anterior intermuscular septum posterior compartment
Surgical
technique
(foot)
Classic three incision
approach

Two dorsal incisions access
the forefoot compartments

One medial incision allows
access to medial, calcaneal,
superficial and lateral
compartments.
Forefoot
decompression
DEEP DISSECTION OF THE
F I R S T I N T E R S PA C E A L L O W S
ACCESS AN D RELEASE O F
T H E M E D I A L C O M PA R T M E N T
AS WELL
Rearfoot
Decompression
Single-incision approach

Dissection continues dorsal and plantar to the abductor
hallucis muscle belly.
Five
incision
approach

Note that the calcaneal
compartment is not released
by this approach
 Check your work
you can recheck the compartment pressures intraoperatively
◦ Try to normalize BP first
◦ Anesthesia often lowers diastolic BP, must use preop measures for
determination

Patients are generally admitted to the hospital floor for close monitoring
of vitals and symptoms

Recheck all postoperatively if pain (and other 6 P’s) continues/ increases
Manage
Complications
Unfortunately ACS carries a high incidence of
morbidity following injury even with expedited care,
neurological deficits (such as clawtoes, cavo-varus
foot and drop-foot) as well as wound healing
complications/scarring can persist.

Volkmann’s contracture refers to the ischemic
contracture of the muscles of the forearm
Conclusions
-Include ACS in your differential diagnosis for high energy
injuries of the leg and foot, especially crushing forces

-Consider intra-compartmental pressure measurement for
patient’s displaying clinical symptoms of ACS following injury.

-Develop your expert knowledge of the anatomical structures
of the foot and leg in order to appropriately release
compartments and treat ACS.
Lecture review
Understand the positive feedback loop of ACS and how this leads to increasing oxygen debt to the tissue/cell death.

Recognize some of the key injuries which should raise suspicion for ACS (crush injuries, multiple fractures, high
energy)

Recognize clinical symptoms associated with ACS the “6 P’s”

Identify the anatomical compartments of the foot and leg, as well as intramuscular septae.
How many compartments are in the foot? The leg? And how would one access each for decompression?

Identify the proper locations for compartment pressure measurements.
Relate intercompartment pressures to surgical decision making absolute and muscle perfusion pressures.

Identify complications associated with acute compartment syndrome
Questions?
Practice question 1
You are consulted on an 18-year-old female patient with a calcaneal fracture and suspected compartment
syndrome. Her blood pressure is 110/75. She has intense pain, a cold insensate foot, and pale
discolorations. You cannot feel her pulses. You obtain an intra-compartment pressure reading of 40mmgHg
from her foot.
What is the best course of action?
A: Monitor the patient and recheck her blood pressure
B: Monitor the patient and recheck her intercompartmental pressure
C: Perform an emergency Fasciotomy of the foot
D: Schedule an elective Fasciotomy for the next 24 hours, if symptoms persist
E: Perform an emergency fasciotomy of the foot and leg
 Practice question
2
Following an acute crush-injury of the foot a patient was diagnosed with
acute compartment syndrome and undergoes a 5-incision forefoot
fasciotomy. The patient presents to clinic after one year with unilateral claw
toe deformity, and numbness of their lateral foot. An MRI reveals severe
atrophy of the quatratus plantae muscle.
Which pedal compartment was not released, leading to these
complications?
A: Deep posterior compartment
B: Interosseous compartment
C: Central compartment
D: Lateral Compartment
E: Calcaneal Compartment
 Practice question 1 (answered)
You are consulted on an 18-year-old female patient with a calcaneal fracture and suspected compartment
syndrome. Her blood pressure is 110/75. She has intense pain, a cold insensate foot, and pale discolorations. You
cannot feel her pulses. You obtain an intra-compartment pressure reading of 40mmgHg from her foot.
What is the best course of action?
A: Monitor the patient and recheck her blood pressure
B: Monitor the patient and recheck her intercompartmental pressure
C: Perform an emergency Fasciotomy of the foot
D: Schedule an elective Fasciotomy for the next 24 hours, if symptoms persist
E: Perform an emergency fasciotomy of the foot and leg

Rationale: The 40mmHg reading satisfies both the absolute and muscle perfusion scales for
emergency fasciotomy of the foot (details on slide 31) in the presence of clinical symptoms (5 of the six
P’s here) this patient emergently requires the fasciotomy... and time is of the essence.
 Practice question
2 (answered)
Following an acute crush-injury of the foot a patient was diagnosed with acute
compartment syndrome and undergoes a 5-incision forefoot fasciotomy. The patient
presents to clinic after one year with unilateral claw toe deformity, and numbness of their
lateral foot. An MRI reveals severe atrophy of the quatratus plantae muscle.
Which pedal compartment was not released, leading to these complications?
A: Superficial posterior compartment
B: Interosseous compartment
C: Central compartment
D: Lateral Compartment
E: Calcaneal Compartment

Rationale: The five incisions seen here will address the intermetatarsal septa (left
image) as well as the medial and lateral compartments (right images) and superficial
central compartment (center image) as the deep calcaneal compartment is in the
posterior foot, this would be omitted by this approach. The superficial posterior
compartment is also not located in the foot, however this would not necessarily
cause ischemia of the quadratus plantae muscle, and given its position in the leg
was not involved in this stated injury.
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