So,
this post originally started off as a post to review the evidence
behind contrast baths, however, I realised it would be best to
explain the physiological effect of hot and cold on the body, and
discuss healing times while I'm at it, due to the overlap.
So,
here it goes, I will begin with healing times and process.
The
healing process consists of 3 different phases, and these are:
- Inflammation (0-48 hours)
- Proliferation (5 days – 4 weeks)
- Maturation (4 weeks – 2 years +)
Now,
I've put the time frames up here as a guide. A popular misconception is
that these time frames are distinct and seperate, as shown below:
When
actually, each of these areas overlap, as one area is winding down,
the next is building up it's response, as shown below:
Now,
here I will discuss what each area does physiologically, in as brief
and simplest way possible:
Inflammation
We
are all familiar with this process. This is when the injured area,
swells, become red in colour, with associated warmth, pain, and loss
of function. In this stage, the initial bridging of collagen fibres
begins.
The
normal response in this stage is to apply the POLICE principles.
Now,
I must point, at this stage, we all panic about swelling, and try our
best to get rid of it. Swelling is a natural part of the healing
process and we should let it take it's course, as the swelling is
needed to get fresh nutrients to the area, and to remove cellular
debris.
Chronic
swelling, so swelling that is still present maybe a week after the
injury is not necessarily good, as this will start to impact on the
optimisation of the healing process, and this is where we would want
to remove excess inflammation.
Swelling
upon exercise of the injured area, at this stage, would still be
normal.
Proliferation
This
stage shows the signs of inflammation beginning to decrease, and pain
levels decreasing too.
Collagen
fibres are being laid down at the injured site at the peak rate at
this stage and will progress to orientate themselves in line with
imposed stresses.
Maturation
This
stage should so no signs of inflammation and a huge decrease in pain,
with pain only at end range. This stage should focus on restoring
function and strength, and optimising collagen alignment.
Collagen
fibre deposits peak around 3 months post injury, but will continue to
lay down up to 2 years after an inujry (depending on the severity of
the injury).
Maturation
is more focussed on return to normal, with excess collagen fibres
removal, optimisation of the collagen matrix to accommodate imposed
stresses, and return to normality of the vascular supply.
This video discusses the three stages of healing in much more
detail, if that interests you, and you can stand the accent!
detail, if that interests you, and you can stand the accent!
N.B.
Pain is not synonymous with healing. Pain levels will
decrease quicker than structural integrity of the injured site
improves, so the risk of re-injury is still high, even if the pain
has subsided.
 |
| This graph shows that after the injury, the pain levels drop below the threshold quicker than the tendon recovery |
It
is also worth mentioning a few stats on the temperature of tissues.
Optimal
tissue temperatures:
resting = 36.5ºC – 37.2ºC,
aim when exercising = 38ºC – 40ºC (as tendons exhibit plastic deformation at 39ºC, collagen at 40ºC)
resting = 36.5ºC – 37.2ºC,
aim when exercising = 38ºC – 40ºC (as tendons exhibit plastic deformation at 39ºC, collagen at 40ºC)
Hot and Cold response
So,
now I'll move onto the effect of hot and cold physiologically:
Hot
and cold can increase or decrease symptoms of inflammation, and
here's how:
Cold
 |
| Glenn ice climbing in cold conditions! Copyright Glenn Manifold |
|
Symptom
|
Response
|
How?
|
Additional
info:
|
|
Pain
|
↓
|
Reduces nerve conduction velocity and increases the firing
threshold
|
Considerations
Rewarming
after icing can take 3-4 hours
With
a muscle at 4cm depth from skin surface will have a 4ºC fall in
1hr
Contraindications:
Raynauds, Cold hypersensitivity, Open wound, Sensory defect, heart
disease
Precautions:
Cardiac disease/hypertension, pelvis/groin area (bone marrow
production/blood cells), left shoulder+neck area (proximity to
heart)
|
|
Spasm
|
↓
|
Automatic
protective response, prevents increase demand for O2
|
|
|
Metabolism
|
↓
|
Reduces
need for O2 in surrounding tissue so less damage via
hypoxia and reduces total debris. Less O2 means less secondary
damage to other tissues
|
|
|
Blood
flow
|
↓
|
Vasoconstriction
of the blood vessels
|
|
|
Inflammation
|
↓
|
|
|
|
Oedema
|
↓
|
By
vasoconstriction of blood vessels and increasing blood viscocity
|
|
|
Tissue
extensibility
|
↓
|
|
Heat
 |
| The author bouldering in sunny, warm Fountainebleau |
|
Symptom
|
Response
|
How?
|
Additional
info:
|
|
Pain
|
↓
|
By
reducing the nerve conduction velocity and increasing the firing
threshold
|
Precautions/contraindications:
Diabetes mellitus Multiple sclerosis
Peripheral vascular disease
Spinal
cord injuries Rheumatoid disease
Possible
side effects: skin burns
|
|
Spasm
|
↓
|
Automatic
protective response, prevents increase demand for O2
|
|
|
Metabolism
|
↑
|
More
energy to cells, increasing there productivity, plus increase in
blood flow meaning more oxygen to area
|
|
|
Blood
flow
|
↑
|
Vasodilation
of the blood vessels
|
|
|
Inflammation
|
↑
|
|
|
|
Oedema
|
↑
|
By
vasodilation of blood vessels and decreasing blood viscocity
|
|
|
Tissue
extensibility
|
↑
|
|
I
hope this post has given you a little more understanding around the
healing process and the physiological effects of hot and cold, and
hopefully this will aid understanding for future posts, such as the
evidence behind contrast baths, that I'm currently working on.
