Early Mobilization in the ICU: Difference between revisions
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== Prescription of Early mobilization (The clinical decision making process) == | == Prescription of Early mobilization (The clinical decision making process) == | ||
Step 1: | '''Step 1:''' Identifying the contributing factors towards oxygen transport deficits | ||
Identifying the contributing factors towards oxygen transport deficits | |||
* Understanding the pathophysiology of the condition or disease | * Understanding the pathophysiology of the condition or disease | ||
* Extrinsic factors that affect patient care | * Extrinsic factors that affect patient care | ||
* Intrinsic factors related to the patient | * Intrinsic factors related to the patient | ||
* Relative immobility | * Relative immobility | ||
Step 2 | '''Step 2:''' Determining the specific need for mobilization and subsequently the form of mobilization or exercise that will address the oxygen transport deficiency. | ||
Determining the specific need for mobilization and subsequently the form of mobilization or exercise that will address the oxygen transport deficiency. | |||
'''Step 3:'''Matching the selected mobilization technique or exercise type to the patients oxygen carrying capacity. | |||
Step | '''Step 4:''' Set the dosage , ie the intensity to match the safe limits of oxygen transport of the patient. | ||
Combining body positions with these maneuvers | '''Step 5:''' Combining body positions with these maneuvers | ||
* Thoracic mobility exercises | * Thoracic mobility exercises | ||
* ROM exercises (Active, passive and active assisted) | * ROM exercises (Active, passive and active assisted) | ||
* Coordinating breathing control with body movements | * Coordinating breathing control with body movements | ||
* Coughing, supported by self or others | * Coughing, supported by self or others | ||
Step 6 | '''Step 6:''' Use oxygen transport and its indices to monitor the dosage of mobilization, not a fixed duration of time. | ||
Use oxygen transport and its indices to monitor the dosage of mobilization, not a fixed duration of time | |||
Step | '''Step 7:''' Repeat this mobilization as frequently and safely as the beneficial effects are tolerated by the subject or patient. | ||
The intensity of the mobilization stimulus can be increased as long as the patient capacity permits the effects of the mobilization stressor, keeping the oxygen transport as the benchmark, constantly monitoring vitals. | '''Step 8:''' The intensity of the mobilization stimulus can be increased as long as the patient capacity permits the effects of the mobilization stressor, keeping the oxygen transport as the benchmark, constantly monitoring vitals. | ||
== Early Mobilization Intervention == | == Early Mobilization Intervention == |
Revision as of 12:38, 16 April 2020
Globally people recover from critical illnesses and get discharged from an ICU setup, however it has been noticed that patients develop weakness, probably credited to their prolonged period of immobilization.[1] Post intensive care syndrome was the term used which describes worsening of physical, mental and cognitive problems. [2] Early mobilization of the critically ill patients is a safe option with additional benefits of improving functional outcomes.[3]
The term "mobilization in the Intensive care Unit is refered to physical activity performed to the intensity that can bring about physiological changes.[4] Early mobilization is the application of physical activity as early as the 2nd to 5th day after the onset of critical illness or injury. [5]
Why Early Mobilization[edit | edit source]
Long term ICU care is always associated with complications in a high proportion of ICU survivors. Prolonged periods of immobility has often been associated with Physical deconditionng, fatigue, loss of function and decreased quality of life have also been observed.[6] Below is a gist of the system wise complications of prolonged immobility.
The respiratory system it causes retention of secretions, reduced respiratory excursion, pneumonia, atelectasis. The cardiovascular complications include Orthostatic hypertension, deep vein thrombosis, hypovolemia and embolisation. The Gastrointestinal complications include decreased motility, constipation, ilues. The musculoskeletal complications include muscle shortening, weakness and wasting which would in turn cause functional denervation, joint contractures, bone demineralisation and heterotrophic ossification.[7] [8]The neurological system is affected by polyneuropathies due to reduced micro circulation at the nerve. The endocrine system related complications include Hyperglycemia with insulin resistance and catabolism. On the integumentary system it can cause pressure ulcers. And the psychology of the person is affected causing depression and delirium.[8]
Benefits of Early Mobilization[edit | edit source]
The proposed benefits are
- Increased circulation
- Prevention of venous stasis and deep vein thrombosis
- Feeling of alertness
- Better central and peripheral perfusion
- Ventilation
Physiological effects[edit | edit source]
The acute Physiological effects of early mobilization are summarized system wise below
Systems | Physiological effects |
---|---|
Pulmonary system | Increased Regional ventilation
Increased regional diffusion Increased Regional perfusion Increase tidal volume Increase efficiency of respiratory mechanics Reduce air flow resistance Increase flow rates Increase zone 2 (Area of ventilation perfusion matching) Increase or decrease Breathing frequency Increase floe rates Increase strength and quality of a cough Increase mucociliary transport and airway clearance Increase distribution and function of pulmonary immune factors |
Cardiovascular system | Incraease venous return
Increase stroke volume Increase heart rate Increase myocardial cntractilty Increase stroke volume, heart rate and cardiac output Increase coronary perfusion Increase circulating blood volume Increase chest tube drainage |
Peripheral circulatory effects | Reduced peripheral vascular resistance
Increase blood flow Increase peripheral tissue oxygen extractiion |
Lymphatic system | Increase pulmonary lymphatic flow
Increase pulmonary lymphatic drainage |
Hematologic system | Increase circulatory transit times
Reduce circulatory stasis |
Neurological system | Increase arousal
Increase cerebral electrical activity Increase stimulus to breathe Increase sympathetic stimulation Increase postural reflexes |
Endoricne system | Increase release, distribution and degradation of catechoamines |
Genitourinary system | Increase glomerular filtration
Increase urinary output |
Gastrointestinal system | Increase gut motility
Reduce constipation |
Integumentary system | Increase cutaneous circulation for thermoregulation |
Multisystemic effects | Reduce effects of anesthesia and sedation
Reduce deleterious cardiopulmonary effects of surgery Reduce the risk of loss of gravitational stimulus and exercise stimulus |
There is an improved ventilation/perfusion matching, better lung complaince, mucociliary clearance, reduced work of breathing in upright positions.
Movement of the lower limbs mainly the ankle prevented statsis of blood and hence prevents Deep vein thrombosis as well as pulmonary embolus formation
Prescription of Early mobilization (The clinical decision making process)[edit | edit source]
Step 1: Identifying the contributing factors towards oxygen transport deficits
- Understanding the pathophysiology of the condition or disease
- Extrinsic factors that affect patient care
- Intrinsic factors related to the patient
- Relative immobility
Step 2: Determining the specific need for mobilization and subsequently the form of mobilization or exercise that will address the oxygen transport deficiency.
Step 3:Matching the selected mobilization technique or exercise type to the patients oxygen carrying capacity.
Step 4: Set the dosage , ie the intensity to match the safe limits of oxygen transport of the patient.
Step 5: Combining body positions with these maneuvers
- Thoracic mobility exercises
- ROM exercises (Active, passive and active assisted)
- Coordinating breathing control with body movements
- Coughing, supported by self or others
Step 6: Use oxygen transport and its indices to monitor the dosage of mobilization, not a fixed duration of time.
Step 7: Repeat this mobilization as frequently and safely as the beneficial effects are tolerated by the subject or patient.
Step 8: The intensity of the mobilization stimulus can be increased as long as the patient capacity permits the effects of the mobilization stressor, keeping the oxygen transport as the benchmark, constantly monitoring vitals.
Early Mobilization Intervention[edit | edit source]
The frequency of early mobilization can be conducted everyday of the week or five days a week. [4]Although active techniques are preferred more than passive and attribute more to the prevention of complications these are some of the listed techniques that come under the scope of early mobilization. The
- Passive and active range of motion
- Active side to side turning
- Exercising in the bed
- Bed side sitting
- Transfers from bed to the chair and vice versa
- Ambulation
- Hoist therapy
- Tilt table
- Resistance exercises
- Electrical stimulation
- ↑ Harrold ME, Salisbury LG, Webb SA, Allison GT, Australia and Scotland ICU Physiotherapy Collaboration. Early mobilisation in intensive care units in Australia and Scotland: a prospective, observational cohort study examining mobilisation practises and barriers. Crit Care. 2015 Dec 1;19(1):336.
- ↑ Needham DM, Davidson J, Cohen H, Hopkins RO, Weinert C, Wunsch H, Zawistowski C, Bemis-Dougherty A, Berney SC, Bienvenu OJ, Brady SL. Improving long-term outcomes after discharge from intensive care unit: report from a stakeholders' conference. Crit Care Med. 2012 Feb 1;40(2):502-9.
- ↑ Stiller K. Physiotherapy in intensive care: an updated systematic review. Chest 2013;144:825–47.
- ↑ 4.0 4.1 Castro-Avila AC, Serón P, Fan E, Gaete M, Mickan S. Effect of early rehabilitation during intensive care unit stay on functional status: systematic review and meta-analysis. PloS one. 2015;10(7).
- ↑ Hodgson CL, Berney S, Harrold M, Saxena M, Bellomo R. Clinical review: early patient mobilization in the ICU. Crit Care 2013;17:207.
- ↑ Castro-Avila AC, Serón P, Fan E, Gaete M, Mickan S. Effect of early rehabilitation during intensive care unit stay on functional status: systematic review and meta-analysis. PloS one. 2015;10(7).
- ↑ Morris PE, Herridge MS. Early intensive care unit mobility: future directions. Critical care clinics. 2007 Jan 1;23(1):97-110.
- ↑ 8.0 8.1 Amidei C. Mobilisation in critical care: a concept analysis. Intensive and critical care nursing. 2012 Apr 1;28(2):73-81.