Aquatic exercise.pptx

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AQUATIC EXERCISES
Dr.Ikram Ali
DEFINITION OF AQUATIC EXERCISE
 Aquatic exercise refers to the use of water (in
multidepth immersion pools or tanks) that facilitates
the application of established therapeutic
interventions, including stretching, strengthening,
joint mobilization, balance and gait training, and
endurance training.
 GOALS AND INDICATIONS
FOR AQUATIC EXERCISE
 Facilitate range of motion (ROM) exercise;
 Initiate resistance training;

 Facilitate weight-bearing activities;

 Enhance delivery of manual techniques;

 Facilitate cardiovascular exercise;

 Initiate functional activity replication;

 Minimize risk of injury or reinjury during rehabilitation;

 Enhance patient relaxation;
PRECAUTIONS AND
CONTRAINDICATIONS
TO AQUATIC EXERCISE

Fear of water
Neurologic disorders
Seizures
Cardiac dysfunction
Small open wounds & intravenous
lines
CONTRAINDICATIONS
 Onset of cardiac  Severe kidney disease
failure & unstable  Open wounds, skin

angina infections
 Respiratory  Uncontrollable

dysfunction bowel/bladder
 Water & airborne
 Severe peripheral
infections or diseases
vascular disease  Uncontrolled seizures
 Danger of bleeding or

hemorrhage
PHYSICAL PROPERTIES OF
WATER

Buoyancy: Buoyancy is the upward force that works opposite to
gravity;

Clinical significance: Buoyancy provides the patient with relative
weightlessness and joint unloading by reducing the force of gravity on
the body. In turn, this allows the patient to perform active motion
with increased ease.

Buoyancy provides resistance to movement when an extremity is
moved against the force of buoyancy. This technique can be used to
strengthen muscles.

The amount of air in the lungs will affect buoyancy of the body.
Buoyancy will be increased with fully inflated lungs and decreased
with deflated lungs.

Body composition will also affect buoyancy. Obese patients will have
increased buoyancy due to fat tissue having a lower specific gravity.
Patients with increased bone density will have less buoyancy than
those with decreased bone density.

CLINICAL TIP

Rotator cuff
HYDROSTATIC PRESSURE

 Definition. Hydrostatic pressure is the
pressure exerted by the water on immersed
objects.
 Clinical significance :Increased pressure

reduces or limits effusion, assists venous return,
induces bradycardia, and centralizes peripheral
blood flow.
VISCOSITY
 Viscosity is friction occurring between molecules
of liquid resulting in resistance to flow.
 Clinical significance. Water’s viscosity

creates resistance with all active movements.
 Increasing the velocity of movement increases

the resistance.
 Increasing the surface area moving through

water increases resistance.
SURFACE TENSION

 Definition. The surface of a fluid acts as a
membrane under tension. Surface tension is
measured as force per unit length.
 Clinical significance. The effect of surface

tension includes the following.
 An extremity that moves through the surface

performs more work than if kept under water.
HYDROMECHANICS
 Hydromechanics comprise the physical properties and
characteristics of fluid in motion.
 Components of flow motion. Three factors affect flow;
 They are laminar flow, turbulent flow, and drag.
 Laminar flow. Movement in which all molecules move parallel to
each other, typically slow movement.
 Turbulent flow. Movement in which molecules do not move
parallel to each other, typically faster movements.
 Drag. The cumulative effects of turbulence and fluid viscosity
acting on an object in motion.
 Clinical significance of drag. As the speed of movement
through water increases, resistance to motion increases.
 Moving water past the patient requires the patient to work
harder to maintain his or her position in pool.
 Application of equipment (glove/paddle/boot) increases drag and
resistance as the patient moves the extremity through water.
CLINICAL TIP

 Increasing resistance to motion. If the goal is to
increase muscular force production during the
early part of knee extension,the clinician should
consider the use of a hydro-boot or similar device
to increase the drag force on the leg/foot.
THERMODYNAMICS
 Water temperature has an effect on the body and,
therefore, on performance in an aquatic
environment.
 Specific Heat

 Definition. Specific heat is the amount of heat

(calories)required to raise the temperature of 1
gram of substance by 1°C.
 Properties. The rate of temperature change is

dependent on the mass and the specific heat of the
object.
 Clinical significance. Water retains heat 1000

times more than air.
 Temperature Transfer
 Water conducts temperature 25 times faster than

air.
 Heat transfer increases with velocity. A patient

moving through the water loses body temperature
faster than an immersed patient at rest
AQUATIC TEMPERATURE
AND THERAPEUTIC EXERCISE
 A patient’s impairments and the intervention
goals determine the water temperature selection.
In general, utilize cooler temperatures for higher-
intensity exercise and utilize warmer
temperatures for mobility and flexibility exercise
and for muscle relaxation.
SPECIAL EQUIPMENT
FOR AQUATIC EXERCISE
EXERCISE INTERVENTIONS
USING
AN AQUATIC ENVIRONMENT
AEROBIC CONDITIONING