Effects of Progressive Mobilization on Awareness Levels in Intensive
Care Unit
Gusti Pandi Liputo
1
, Nursalam
1
and Puji Rahayu
2
1
Indonesia Faculty of Nursing Universitas Airlangga, Kampus C Mulyorejo, Surabaya, Indonesia
2
RSUD Haji, Surabaya, Indonesia
Keywords: Progressive Mobilization, Awareness Level, GCS, ICU.
Abstract: Decreased awareness is one indicator of gravity and prognosis in critical patients. One of the therapies used
in treating patients with the decreasing of consciousness is by the arrangement of position in the form of
mobilization progressive. This study used pre Experiment with one group pre-post-test design. Sample were
20 patients selected by using purposive sampling technique. Data were collected through observation,
measurement of awareness level with Glasgow Coma Scale (GCS) instrument before and after which was
analysed by Paired T-Test. The results showed an increase in GCS value between before and after progressive
mobilization treatment with p=0.000 which was smaller than α=0.05. Progressive mobilization is able to serve
as additional interventions that can be applied to improve patient awareness status and improve ventilation,
circulation, and perfusion.
1 BACKGROUND
Disturbance of consciousness can occur in
neurological disease and non-neurological conditions
(Wuysang et al. 2015). The problem that often arises
in critical patients treated in the intensive care unit
(ICU) is the decrease of consciousness. The
prevalence of delirious patients (delirium) reaches
80% (Bashar et al. 2017). The study found that
critically ill patients were at high risk for delirium,
with 50% of ICU patients and 80% of mechanical
ventilation patients experiencing delirium. Patients
with delirium have a higher risk of complications of
nosocomial pneumonia, longer duration of
mechanical ventilation, longer treatment period and a
higher risk of death compared to patients without
delirium (Munro et al. 2017). The indicator of gravity
and prognosis in critical patients are the patient's
awareness status. Prevention and management of
decreased levels of patient awareness in intensive
care is essential for identifying risk factors,
evaluating the patient's environment, maintaining
basic nursing care activities and being able to
implement nonpharmacological interventions (Tel
2017). Nonpharmacological interventions that can be
applied to critical patients are progressive
mobilization therapy (Tel 2017).
Mobilization refers to adequate physical activity
to obtain acute physiological effects that increase
ventilation, peripheral and peripheral perfusion,
circulation, muscle metabolism, and alertness and to
prevent deep vein thrombosis. The benefit of
progressive mobilization in critical patients is to
improve physiological function and fulfill adequate
oxygen demand (Roos 2015). Other studies have also
found mobilization therapy to improve oxygenation
in critical patients, preventing respiratory
complications and delirium (Umei et al. 2016).
Progressive mobilization can have a positive impact
on the awareness of the patient with a ventilator in
ICU. We tested this hypothesis in a fundamental
study of the effects of progressive mobilization on
awareness levels in patients with decreased
awareness in ICU RSUD Prof. Dr. H. Aloei Saboe
Gorontalo.
2 METHODS
2.1 Study Design, Population and
Sampling
This study used pre experiment research type with
one group pre-post-test design. Sample were 20
patients in Intensive Care Unit (ICU) who met
188
Liputo, G., Nursalam, . and Rahayu, P.
Effects of Progressive Mobilization on Awareness Levels in Intensive Care Unit.
DOI: 10.5220/0008322501880191
In Proceedings of the 9th International Nursing Conference (INC 2018), pages 188-191
ISBN: 978-989-758-336-0
Copyright
c
2018 by SCITEPRESS – Science and Technology Publications, Lda. All rights reserved
inclusion criteria: 1) GCS <11), 2) O2 Saturation≥
90%, 3) Heart rate > 60 <120, 4) age 29-45 years old
taken by purposive sampling. Measurement of
awareness level with Glasgow Coma Scale (GCS)
instrument (Institute of Neurological Sciences NHS
Greater Glasgow and Clyde 2015). The Ethics
Commission of the Faculty of Nursing Universitas
Airlangga approved the study and all recruits
provided voluntary written consent to participate after
being fully informed about the procedure, risk, and
protocol.
2.2 Procedure and Analysis
Progressive mobilization in this study was head of
bed 300 with trunk position, a range of motion 2 times
a day (morning and afternoon) and Continuum
Lateral Rotation Therapy every 2 hours. Perform
initial mobility screen 8 hours of ICU admission.
Progressive mobilization is given for 5 days. The data
were analysed by using Independent T-Test with
significance level α=0.05.
Table 1: Demographic characteristics and clinical data of
the 20 patients.
Variable
Patients (n=20)
Age
Sex
Male
Female
Diagnosis
Stroke
Respiratory Distress Syndrome
Sepsis
29-45
12 (60%)
8 (40%)
7 (35%)
12 (60%)
1 (5%)
Table 2: The effect of progressive mobilization in ICU
Patients.
Variable
Pre-test
(mean (SD))
Post-test
(mean
(SD))
p
Awareness
levels/
GCS
9.50
(0.889)
10,95
(0.826)
0.000
* GCS is only seen on the eye and motoric because the patient is on a ventilat
3 RESULTS
During the study from 5 January 2018 to 03 March,
2018 found 56 patients who installed ventilator. 20
(n=20) patients were respondents who met the
criteria.
This study found that after 5 days of progressive
mobilization in 20 respondents experienced a change
in awareness status characterized by an increase in
GCS score. Paired T-Test test results found P-value =
0.000 <0.005 and the value of CI do not pass the
number 0 then statistically there is the effect of
progressive mobilization of the level of awareness of
patients in ICU.
4 DISCUSSION
Head of bed or head elevation in head injury patients
is expected so that venous drainage to the brain
remains smooth. Head of bed can be done if there is
no contraindication for the patient to do (Mahfoud et
al. 2010). The position of the head of bed does not
interfere with the perfusion of oxygen to the cerebral
(Olviani, 2015).
Provision of a higher head position may provide
good lung performance in the ventilation distribution
process as well as perfusion will improve during
mobilization. Blood circulation is also affected by
body position and gravitational changes of the body.
So that perfusion, diffusion, the distribution of blood
and oxygen flow can flow throughout the body. Head
of the bed has an effect on oxygen saturation. Head of
bed position causes the body to perform various ways
to adapt psychologically to maintain cardiovascular
homeostasis. Critical patients usually have a weak
pulse, unstable breathing or low cardiovascular
reception so it is better to be given intervention rather
than being left in a static position (Vollman 2010).
The Range of motion (ROM) is an exercise
performed to maintain or improve the ability to move
the joints normally and completely to increase muscle
mass and muscle tone (Potter & Perry, 2010). ROM
exercises determine the value of bone and muscle
joint ability in performing a movement, improving
muscle tone, improving muscle tolerance for
exercise, preventing joint stiffness, and improving
blood circulation (Beebe & Lang 2009)
ROM can affect the development of awareness in
patients in the ICU room. Implementation of ROM in
critical patients runs well and is digested by patients
with mechanical ventilation. ROM may affect blood
pressure, heart, respiratory rate, central venous
pressure and oxygen saturation within the normal
range (Younis & Sayed Ahmed 2015).
CLRT was found to reduce the incidence of
ventilator-associated pneumonia in patients with
mechanical ventilation (Bein et al. 2012). CLRT is
continuously shown to reduce the risk of nosocomial
pneumonia, pulmonary complications, reduce the
number of days of ventilation, length of stay and
reduce overall treatment costs (Swadener-Culpepper
Effects of Progressive Mobilization on Awareness Levels in Intensive Care Unit
189
et al. 2008). CLRT improves the drainage of secretion
in the lungs, optimizes pulmonary expansion, reduces
respiratory complications (VAP, atelectasis, ARDS)
and reduces the associated risk of venous and PE
thrombosis from immobilization (Kubo 2008). CLRT
achieve best results when done at least 18 hours two
times a day (Timmerman 2007).
The decrease in physical function that occurs in
critical patients in ICU can be countered with
physical therapy to increase muscle strength and to
apoptosis (Suwardianto 2006).
Level of awareness each patient has with a variety
of average clinical problems is influenced by the
inadequate supply of oxygen to the brain tissue
(hypoxia) so that the need for improved ventilation
and circulation in the body. Progressive mobilization
consisting of the head of bed 300 with trunk position,
ROM, and CLRT.
Head of bed can reduce intracranial pressure,
launching venous drainage to the brain and increasing
oxygen saturation in the body. Passive ROM by
nurses in addition to preventing complications due to
immobilization, can also reduce the accumulation of
sputum and increase the elasticity of blood vessel
walls so that the circulation of virgin, oxygen, and
nutrients smoothly. CLRT every 2 hours can
maximize ventilation and prevent and treat
respiratory complications. Hypoxia will be handled
when oxygenation in the body is supported by good
circulation and ventilation so perfusion to the brain
can improve the patient's awareness status.
Progressive mobilization may increase the transport
of oxygen in the patient's body.
Mobilization of patients in ICU as early
rehabilitation to maintain muscle strength and to
prevent poor changes in cardiovascular response, in
addition, mobilization is expected to shorten the
length of care in ICU (Morris & Herridge 2007).
Progressive mobilization is a recommended
intervention to improve the awareness status of
patients with critical conditions, especially patients
with hypoxia.
5 CONCLUSIONS
Progressive mobilization in ICU patients can support
ventilation and circulation improvements to provide
adequate perfusion effects to the brain tissue that can
boost the patient's awareness status.
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