Consult your healthcare professional if
you are experiencing any of the above
symptoms.
7. HOW 'EMS' WORKS
E.M.S. stands for Electrical Muscle
Stimulation and has successfully been
used in medical rehabilitation and
training in competitive sports. EMS
produces
intensive
muscular contraction.
In rehabilitation, EMS is a well-
established method for treatment of a
broad
field
of
diagnoses as well as pelvic floor
weakness. Electrical stimulation of an
intact peripheral nervous system may
create motor responses in patients with
impaired or lost ability for voluntary
muscle activity.
EMS is a complement to other physical
therapy
and
should
combined with active training such as
Kegel exercises (see section 4.2.).
Advantages of EMS
Use of EMS may lead to faster progress
in the patient's treatment programme.
The method is simple and appropriate
for treatment in the clinical setting as
well as for self-treatment at home.
How EMS Works
Electrical Muscle Stimulators can play a
vital role in educating women and men
about
their
pelvic
sensation they should feel when doing
pelvic floor exercises. Electrical Pelvic
Floor Exercisers (PFE) offer a non-
and
effective
musculoskeletal
always
be
floor
and
the
invasive
method
contraction of muscles via a gentle
stimulation to the pelvic floor through a
discreet probe or electrode pads when
they are placed close to the nerve that
controls the pelvic floor muscles. This
current then passes into the nerve
fibres controlling that part of the muscle
stimulating it to contract. So, electrical
stimulation (EMS) artificially activates a
muscle for you enabling you to develop
your
own
muscle
contractions exercise the muscles and,
as with any kind of exercise if
performed regularly, build strength and
tone.
In urge incontinence, pelvic floor
exercisers work in a slightly different
way. The electrical stimulation is
designed to soothe your bladder
muscles rather than exercise your
pelvic floor. Alivia uses a gentler, low
frequency
setting
release of endorphins and reduces
involuntary contractions of the bladder
(detrusor) muscle.
Different frequencies have different
effects; low frequencies (1-10 Hz)
coupled with long impulse times, for
example, have a purifying and relaxing
effect through individual contractions,
whereby the circulation in the treated
muscle is simultaneously improved and
removal of metabolic end products is
supported (lymphatic drainage).
In contrast, by means of a rapid
succession of contractions (fibrillation),
medium frequencies (20-50 Hz) can put
a high level of strain on the muscle, thus
promoting the muscular structure.
Each preset programme has a specific
frequency and pulse width that will offer
10
of
producing
control.
These
which
promotes