Therapeutic Heating Modalities PDF

Summary

This document is a lecture on therapeutic heating modalities. It covers various methods of heat transfer such as conduction, convection, conversion, radiation, and evaporation. It also details the physiological effects of heat, including local and systemic effects, and the indicators for and contraindications of using heat therapy.

Full Transcript

Therapeutic Heating
Modalities
 Objectives
After studying this lecture, the students must
be able to;
Differentiate between methods of heat transfer.
Understand the physiological effects of thermotherapy.
Offer guidelines for use of therapeutic heating
modalities.
Outlines

Methods of heat transfers
Physiological effects of thermotherapy.
Uses (indications ) of thermotherapy.
Contraindications of thermotherapy.
Precautions & dangerous of thermotherapy
 Therapeutic Heating Modalities
(thermotherapy)
Therapeutic heating modalities are a variety of
physical agent used to deliver therapeutic heat
(40°-45°C), aiming to produce physiological
reactions that induces therapeutic benefits.
 Classification of Therapeutic Heating
Modalities
Superficial Heating Modalities Deep Heating Modalities
 Hydrocollator packs (Hot  Shortwave diathermy.
packs).  Microwave diathermy.
 Whirlpool.  Ultrasound.
 Paraffin wax. Depths to 3-5 cm
 Infrared lamp.
Depths to 0.5-2 cm.

Superficial and Deep heating agents increase the skin
temperature within the therapeutic range of (40°-45°C) in order to
provide physiological effects for therapeutic benefits.
Classification of Therapeutic Modalities
 Methods of Heat Transfer

Heat can be transferred to, from, or within the body
tissues by:
Conduction

Convection

Conversion

Radiation

Evaporation
 Methods of Heat Transfer

Conduction:
is a direct transfer of heat
energy between two
objects in physical
contact with each other.
Heat is transferred from
the area of higher temp,
to the area of low temp.
 Hot packs
 Methods of Heat Transfer
Convection is a transfer of heat through direct contact
between circulating medium (air/ water) and another material
of different temperature.
This is in contrast to heating by conduction, in which there is
constant contact between objects.

 Whirlpools
 Methods of Heat Transfer
Conversion is a conversion of non-thermal form of energy
(mechanical, electrical and / or chemical) into heat.
 Acoustical energy to heat
Heat transfer by conversion does not require direct contact
between the thermal agent and the body, however contact
medium is required.
 Ultrasound
 Methods of Heat Transfer

Radiation:
is a direct transfer of heat from
material at higher temperature to
material at lower temperature
without the need for an
intervening medium.
No-contact is made.
 Infrared
 Methods of Heat Transfer

Evaporation:
heat is absorbed by the
liquid on the skin surface
and cools the skin as it
turns into a gaseous state.
Alcohol
Sweating
 Physiological
Effect of Heat

Systemic
Local Effect
Effect
 Local Effect

I Hemodynamic effects
II Neuromuscular effect
III Tissue Extensibility
IV Metabolic effect
 I-Hemodynamic Effects
A- Vasodilatation – Increase in blood flow:
 Vasodilatation occurs by variety of methods:
1. Stimulation of cutaneous thermo-receptors by heat leads to
vasodilatation of blood vessels by its action of relaxation on
smooth muscles of the blood vessels
2. Increasing the local release of chemical mediators as histamine
like substance, bradykinins.

 Vasodilatation causes increase in blood flow to the heated
area which will lead to
 Increase supply of oxygen and nutrients to the heated area.
 Increase antibodies to the heated area.
 This improve cell function and enhance healing
I-Hemodynamic Effects
B-Increase fluid dynamics
 Heating and increase in blood flow will increase
the capillary pressure and permeability which
forces edema and metabolic waste products from
the area, then these wastes can be drained into
the venous and lymphatic systems.
 SO, heat leads to increase venous and lymphatic
drainage which aids removal of wastes and re-
absorption of edema.
 II-Neuromuscular effects
A- Increased temperature increase nerve conduction
velocity of both sensory and motor nerves.

B- Reduction of muscle spasm:
Elevation of muscle temperature 42 °C has been shown to result
in:

Decreased firing rate of gamma (γ) fiber which decrease firing
of muscle spindle.

Increased firing rate of Golgi tendon organ that leads to reflex
inhibitory effect of the respective muscles.

These changes in nerve firing rates lead to a reduction in the
activities of alpha motor neurons and thus to reduction in
muscle spasm and relaxation of muscle
 II-Neuromuscular effects
C- Relieve Pain
Local application of heat relieve pain (subacute and chronic) by the
following mechanisms:
Direct mechanism
Activation of spinal gating mechanism through stimulation of free
nerve ending (A-beta) leads to blocking the transmission of pain at
level of spinal cord.

Indirect mechanism:
Heat leads to vasodilatation and increase blood flow resulting in
reducing pain through:
 Increase the oxygen and nutrition supply
 Removal of irritant waste products
 Re-absorption of edema
 Decrease muscle spasm
 Improving tissue healing
 II-Neuromuscular effects
D- Change in the muscle strength
 Muscle strength and endurance decrease during
the initial 30 minutes after the application of deep or
superficial heating agents as a result of change in
the firing rate of gamma fiber and Golgi tendon
organ.
 Beyond 30 minutes after the application of heat,
and for the next 2 hours, muscle strength gradually
recovers and then increases to above preheating
levels.
 III-Altered Tissue Extensibility

Increased Extensibility of Collagen (40-45°C )
 Increase extensibility of collagen (tendon, ligament,
capsule ).
 So, heating is indicated before stretching or range of
motion exercises.
 Heat must be maintained for 5-10 minutes.
 Superficial heat only good for small superficial joints,
 Deep heat required for deeper large joints, capsules,
muscles.
IV-Metabolic Effects
For every (10°C) increase in skin temperature
“the metabolic rate increased by factors of 2-3”
Increase tissue temperature leads to increase
rate of cell metabolism as a result of increase
enzymatic activities and biological reactions.
Increase in the cell metabolic rate leads to the
followings:
1- Increase demand for oxygen and nutrients.
2- Increase amount of wastes excreted from the
cell.
 At temps > 50°C, protein, cells and tissues are destroyed.
 Systemic effects of heating
The following systemic effects occurs when
the body is exposed to heat:
Generalized skin vasodilatation
Generalized sweating
Increase pulse rate
Increase respiratory rate
Decrease blood pressure
Physiological effects of Heat Application

Increased Decreased

1-Joint stiffness
1- Local blood flow
2-Pain
2- Lymphatic drainage
3-Capillary permeability
3-muscle spasm
4-Metabolic rate 4-Muscle strength
5-Flexibility of collagen tissues 5-Blood pressure
6-Respiratory rate
7-Pulse rate

(1-5)-----Local effects (1-4)---- Local effects
(6,7)-----systemic effects (5)---- systemic effects
 Thermoregulation
For optimal function of internal organs, temperature of
human body is maintained at 37°C.
Body temperature is controlled by thermoregulatory center in
hypothalamus.

When temperature increase by application of heat
modalities, the following mechanism are taken to prevent
elevation of body temperature:
 Increase blood flow to the skin: increase radiation and
conduction of heat from the body.
 Increase sweat secretion : increase heat loss by
evaporation.
 Use of Thermotherapy
Indication: A condition(s) that could benefit from a
specific therapeutic modality.

Contraindication: A condition(s) that could be
adversely affected if a particular therapeutic modality
is used.

Precautions:
Applied with special care or limitations.
 Indications (uses)
Indications
 Subacute or chronic inflammatory conditions
 Subacute or chronic pain
 Muscle spasm
 Tissue healing
 Hematoma resolution
 Reduction of Subacute or chronic edema
 Reduction of Joint contractures
 Before passive mobilization and stretching exercise
 Contraindications
 Unreliable patient
 Fever
 Acute injuries
 Acute Pain
 Impaired sensation
 Recent or potential hemorrhage
 Impaired circulation (Peripheral vascular disease)
 Over or around neoplasms
 Over or around infected area
 Deep venous thrombosis
 Metal implants
 Open Wound.
 Over sensitive organ as eyes or the genitals.
 Precautions to Thermotherapy
 Never heat the abdomen during pregnancy.
 Very young and very old patients.
 Adverse Affects of Heat
-Burns due to:
1. Poor technique
2. Patients' inability to dissipate or detect heat
3. Treatment over areas of implanted metal or open wounds

-Bleeding: In acute trauma or hemophilia

-Fainting: Due to potential peripheral superficial
vasodilatation and decrease blood pressure.

-Dehydration: Due to prolonged and intensive heat