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Intermittent Compression Devices

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Title: Intermittent Compression Devices

1
Intermittent CompressionDevices

Jennifer Doherty-Restrepo, ATC, LAT
Entry-Level Athletic Training Education Program
PET 4995 Therapeutic Modalities

2
Definitions

Edema
Abnormal amounts of fluid in extracellular tissue
spaces
Joint swelling
Blood and/or fluid accumulation
Appears and feels like a water balloon
Lymphedema
Accumulation of lymph in subcutaneous tissues
Occurs over several hours following injury

3
The Lymphatic System

Pick up plasma and plasma proteins that escape
from small blood vessels and return them to blood
circulation
Acts as a safety valve for fluid overload
Prevents edema formation
Maintains homeostasis of extracellular
environment
Removes excess protein molecules and waste from
the interstitial fluid
Cleanses interstitial fluid
Blocks thes spread of infection or malignant
cells

4
The Lymphatic System

Closed vascular system
Parallels arterial system
Lymphatic capillaries made of single
layered endothelial cells

5
The Lymphatic System

Lymphatic capillaries are surrounded by
interstitial fluid
Terminal lymphatics provide entry way into
lymphatic system for excess interstitial fluid
and plasma proteins

6
The Lymphatic System

Lymphatic capillaries form a network of lymphatic
vessels
Lead to larger Collecting Vessels in extremities
Collecting vessels connect with thoracic duct or
right lymphatic duct, which join the venous
system

7
The Lymphatic System

Fluid moving into interstitial spaces pushes or
pulls on fibrils
Fibrils connective tissue fibers supporting
lymphatic capillaries
Endothelial cell junctions in lymphatic capillary
wall open
Allows entry of interstitial fluid,
cellular waste, large protein
molecules, plasma
proteins,
extracellular particles, and
cells into terminal
lymphatics

8
The Lymphatic System

Once in the terminal lymphatics, the interstitial
fluid, cellular waste, large protein molecules,
plasma proteins, extracellular particles, and
cells become lymph
Endothelial cell junctions in lymphatic
capillaries remain closed when there is
No increase in interstitial volume
No tissue activity
Movement of lymph is accomplished via muscle
activity, active and passive motion, elevation,
respiration, and blood vessel contraction

9
Injury Edema Pitting Edema

Local edema
Formed by plasma, plasma proteins, and cellular
debris moving into interstitial spaces
Hormones released by injured cells stimulate
small anterioles, capillaries and venules to
vasodialate separating endothelial cells in
vessel wall
Increases permeability

10
Injury Edema Pitting Edema

Increased permeability allows more plasma, plasma
proteins, and cellular debris to escape into
local area
Results in gel-like fluid that is trapped by
collagen fibers
Gel-like fluid referred to as pitting edema

11
Injury Edema Lymphedema

Accumulation of edema causing overdistention of
lymph capillaries
Entry pores become ineffective and interstitial
fluid increases
Lymphedema results
Constriction of lymph capillaries due to
increased pressure will also discourage lymph
flow and cause lymphedema formation

12
Negative Effects of Edema

Edema compounds injury by causing secondary
hypoxic cellular death in surrounding tissues
Other negative effects include
Physical separation of torn tissue ends
Pain
Restricted joint range of motion
Prolonged recovery times
Interstitial fibrosis
Reflex sympathetic dystrophy

13
Treatment of Edema

P.R.I.C.E.
Minimize edema
formation
E-stim or AROM
exercises
Retard edema
accumulation
Any treatment that assists lymph flow will
decrease plasma protein content in interstitial
spaces and decrease edema

14
Treatment of Edema Elevation

Gravity used to assist lymph flow
The higher the elevation, the greater the effect
on the lymph flow

15
Treatment of Edema Compression

Muscle contractions provide rhythmic internal
compression of lymph vessels to assist lymph flow
Isometrics, AROM exercise, or E-stim
External compression assists lymph flow
Massage, elastic compression, or intermittent
pressure devices
External compression spread interstitial edema
over a larger area, enabling more lymph
capillaries to become involved in removing plasma
proteins

16
Treatment of Edema Weight-Bearing Exercise

Activates a venous pump
Not related to muscle activity
Mediated by release of an endothelial-derived
relaxing factor (EDRF)
EDRF is liberated by sudden pressure changes and
it diffuses locally
Functions to relax smooth muscle and stimulate
blood flow in the veins

17
Treatment of Edema Cryotherapy

Cryotherapy used in conjunction with intermittent
compression has shown the best results in the
reduction of post-acute injury edema

18
Intermittent Compression Treatment Parameters

Inflation Pressure
On/Off Time Sequence
Total Treatment Time

19
Inflation Pressure

Loosely correlated with BP
Most treatment protocols utilize a pressure
approximating diastolic BP

20
Inflation Pressure

Arterial capillary pressures 30 mmHg
Any pressure that exceeds this should encourage
Edema absorption, and
Lymph flow

21
Inflation Pressure

Maximum pressure should correspond to diastolic
BP
More pressure is not necessarily better
Enough pressure is needed to squeeze lymphatic
vessels and encourage lymph flow

22
On/Off Time Sequence

On/Off time sequences are variable
Patient comfort should be a primary deciding
factor
30s on, 30s off is effective and comfortable
Lymphatic massage
Shorter on/off time sequences may have an
advantage

23
Total Treatment Time

Clinical studies show significant limb volume
reduction after 30 minutes of compression
A treatment of 10 - 30 minutes may be adequate
unless edema is overwhelming in volume or is
resistant to treatment
Multiple treatment times per day may also be an
advantage in controlling and reducing edema

24
Equipment Setup and Instructions

Compression sleeves
Half-leg, full-leg, half-arm, or full-arm
Connect compression sleeve (deflated) to unit via
a rubber hose and connecting valve

25
Equipment Setup and Instructions

Assess BP and set inflation pressure
Set On-time (between 30 to 120 seconds)
Off-time is left at 0 until the compression
sleeve is inflated and treatment pressure is
reached
Then adjust off-time between 0 and 120 seconds
During the off-time, instruct patient to move
extremity
Treatment should last between 20 - 30 minutes

26
Cold and Compression Combination

Combination of cold and compression is effective
in treating edema
Cold/compression unit
Temperature adjustment ranges between 10 - 25oC
Cooling accomplished by circulating cold water
through compression sleeve

27
Compression and Electrical Stimulating Currents

Combination of compression and e-stim
induced muscle pumping is effective in treating
edema
Facilitates reabsorption of injury byproducts by
lymphatic system

28
Sequential Compression Pumps

Sequentially inflate compression sleeves with
multiple compartments
Massage effect
Applies pressure from distal to proximal
Gradual decrease in pressure gradient

29
Sequential Compression Pumps

Highest pressure in distal compartment sleeve
Determined by mean value of systolic to diastolic
BP
Middle compartment is set at 20 mm lower than the
distal cell
Proximal compartment pressure is reduced an
additional 20 mm

30
Sequential Compression Pumps

Each pressure cycle is 120s
Distal compartment is pressurized initially and
continues pressurization for 90s
20s later, the middle compartment inflates
After another 20s, the proximal compartment
inflates
A final 30s period allows pressure in all three
compartments to return to 0
Entire cycle is then repeated

31
Indications