Transfers: Difference between revisions

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== Introduction==
== Introduction==
A transfer can be viewed as the safe movement of a person from one place or surface to another <ref name=":3">Perry, A. G., Potter, P. A., & Ostendorf, W. R. (2014). ''Clinical nursing skills and techniques''. St Louis, MO: Mosby Elsevier.</ref> and an opportunity to train an individual to enhance independent function,<ref name=":2">Patient Transfers and Mobility. In: Dutton M. eds. ''Introduction to Physical Therapy and Patient Skills''. McGraw Hill; 2014. Accessed June 24, 2023. https://accessphysiotherapy.mhmedical.com/content.aspx?bookid=1472&sectionid=86198760</ref> and is considered to include all assistance provided to transfer or move a patient that can include manual assistance and/or use of assistive devices, which includes use of a hoist.<ref>Karhula K, Rönnholm T, Sjögren T. A method for evaluating the load of patient transfers. Occupational Safety and Health Administration. Occupational safety and health publications. 2009;83.</ref> Transfers can include vertical transfers from a seated-to-seated position (wheelchair to toilet) or supine-to-seated position (bed to wheelchair) and horizontal or lateral transfers from one flat surface to another (bed to stretcher). <ref name=":0">Matz MW. Patient Handling and Mobility Assessments 2nd Edition. The Facility Guidelines Institute 2019. Available from: https://www.fgiguidelines.org/wp-content/uploads/2019/10/FGI-Patient-Handling-and-Mobility-Assessments_191008.pdf [Accessed: 23/06/2023</ref>
A transfer can be viewed as the safe movement of a person from one place or surface to another<ref name=":3">Perry, A. G., Potter, P. A., & Ostendorf, W. R. (2014). ''Clinical nursing skills and techniques''. St Louis, MO: Mosby Elsevier.</ref> and an opportunity to train an individual to enhance independent function.<ref name=":2">Patient Transfers and Mobility. In: Dutton M. eds. ''Introduction to Physical Therapy and Patient Skills''. McGraw Hill; 2014. Accessed June 24, 2023. https://accessphysiotherapy.mhmedical.com/content.aspx?bookid=1472&sectionid=86198760</ref> Patient transfers require varying levels of assistance, including manual assistance and/or the use of assistive devices, such as a hoist.<ref>Karhula K, Rönnholm T, Sjögren T. A method for evaluating the load of patient transfers. Occupational Safety and Health Administration. Occupational safety and health publications. 2009;83.</ref> Transfers can be ''vertical'' (i.e. from a seated-to-seated position (wheelchair to toilet) or supine-to-seated position (bed to wheelchair)) and ''horizontal'' or ''lateral'' (i.e. from one flat surface to another (bed to stretcher)).<ref name=":0">Matz MW. Patient Handling and Mobility Assessments 2nd Edition. The Facility Guidelines Institute 2019. Available from: https://www.fgiguidelines.org/wp-content/uploads/2019/10/FGI-Patient-Handling-and-Mobility-Assessments_191008.pdf [Accessed: 23/06/2023</ref>


Research shows that injuries to health and social care workers happen most frequently during patient transfers, with up to one third of workplace injuries to staff in hospitals and nursing homes occurring when moving patients.<ref>Pompeii LA, Lipscomb HJ, Schoenfisch AL, Dement JM. Musculoskeletal injuries resulting from patient handling tasks among hospital workers. American journal of industrial medicine. 2009 Jul;52(7):571-8.</ref> <ref>Strid EN, Wåhlin C, Ros A, Kvarnström S. Health care workers’ experiences of workplace incidents that posed a risk of patient and worker injury: a critical incident technique analysis. BMC health services research. 2021 May 27;21(1):511.</ref> Transfers also also increases the risk to patients of injury, pain, and negative health outcomes. Likewise infrequent use of assistive technology may also restrict opportunities for patient movement, mobilisation, and weight-bearing activities, which can compromise patients’ recuperation, rehabilitation, and overall health. <ref name=":0" /> Successful and safe patient transfers rely on understanding each patient’s specific needs while simultaneously adhering to evidence-based guidelines, and rely on a thorough assessment.<ref>Bergman R, De Jesus O. Patient Care Transfer Techniques. [Updated 2022 Oct 17]. In: StatPearls [Internet]. Treasure Island (FL): StatPearls Publishing; 2023 Jan-. Available from: <nowiki>https://www.ncbi.nlm.nih.gov/books/NBK564305/</nowiki></ref> The therapist must must choose the most efficient and safest method to transfer a patient while taking into consideration the safety of both the patient and the clinician.
== Benefits of Movement and Mobilisation ==
Evidence supports the positive effect of movement and mobilisation on:


Evidence supports the positive effect of movement and mobilisation on the quality and speed of a patient’s recovery and their ability to preserve current levels of physical capability. It is also well known that early mobilisation is crucial for positive patient outcomes including decreased incidences of pneumonia, falls, skin tears, and length of stay in Intensive Care Units and acute care settings and increased quality of life,<ref>Association of Safe Patient Handling Professionals/American Nurses Association, “Advancing the Science and Technology of Progressive Mobility.”</ref> while insufficient movement put patients at high risk of immobility-related adverse events, such as pressure injuries, reduced range of motion, reduced muscle strength, muscle atrophy and reduced mobility.<ref name=":1">R. L. Kane, J. G. Ouslander, and I. B. Abrass, Essentials of Clinical Geriatrics, 5th ed. (New York: McGraw-Hill, 2004), 245–48; </ref> <ref>H. L. Wald et al., “The Case for Mobility Assessment in Hospitalized Older Adults, A White Paper from the American Geriatrics Society,” Journal of the American Geriatric Society 67, no. 1 (2019): 11–16. </ref><ref>Rosemary A. Timmerman, “A mobility protocol for critically ill adults,” Dimensions of Critical Care Nursing 26, no. 5 (Sept.-Oct. 2007): 175–79. </ref>
* the quality and speed of a patient's recovery
* the patient's ability to maintain their current level of physical ability
 
Early mobilisation is crucial for positive patient outcomes, such as decreased incidence of pneumonia, falls, skin tears, and length of stay in Intensive Care Units and acute care settings and increased quality of life<ref>Association of Safe Patient Handling Professionals/American Nurses Association, “Advancing the Science and Technology of Progressive Mobility.”</ref>
 
Conversely, insufficient movement increases an individual's risk for immobility-related adverse events, such as pressure injuries, reduced range of motion, muscle strength and mobility and muscle atrophy.<ref name=":1">R. L. Kane, J. G. Ouslander, and I. B. Abrass, Essentials of Clinical Geriatrics, 5th ed. (New York: McGraw-Hill, 2004), 245–48; </ref> <ref>H. L. Wald et al., “The Case for Mobility Assessment in Hospitalized Older Adults, A White Paper from the American Geriatrics Society,” Journal of the American Geriatric Society 67, no. 1 (2019): 11–16. </ref><ref>Rosemary A. Timmerman, “A mobility protocol for critically ill adults,” Dimensions of Critical Care Nursing 26, no. 5 (Sept.-Oct. 2007): 175–79. </ref>
 
== Risks ==
Research shows that injuries to health and social care workers happen most frequently during patient transfers, with up to one-third of workplace injuries to staff in hospitals and nursing homes occurring when moving patients.<ref>Pompeii LA, Lipscomb HJ, Schoenfisch AL, Dement JM. Musculoskeletal injuries resulting from patient handling tasks among hospital workers. American journal of industrial medicine. 2009 Jul;52(7):571-8.</ref> <ref>Strid EN, Wåhlin C, Ros A, Kvarnström S. Health care workers’ experiences of workplace incidents that posed a risk of patient and worker injury: a critical incident technique analysis. BMC health services research. 2021 May 27;21(1):511.</ref> Transfers can also increase the risk to patients for injury, pain, and negative health outcomes. It has also been found that manual handling combined with the infrequent use of assistive technology may reduce opportunities for patients to move, mobilise, and engage in weight-bearing activities. This lack of opportunities can have an impact on recovery, rehabilitation, and general health.<ref name=":0" />
 
To achieve a successful and safe patient transfer, health workers need to understand their patient's specific needs, follow evidence-based guidelines and conduct a thorough assessment.<ref>Bergman R, De Jesus O. Patient Care Transfer Techniques. [Updated 2022 Oct 17]. In: StatPearls [Internet]. Treasure Island (FL): StatPearls Publishing; 2023 Jan-. Available from: https://www.ncbi.nlm.nih.gov/books/NBK564305/</ref> Health workers must choose the most efficient transfer method while considering patient and clinician safety.
[[Category:Understanding Basic Rehabilitation Techniques Content Development Project]]
[[Category:Understanding Basic Rehabilitation Techniques Content Development Project]]
[[Category:Rehabilitation]]
[[Category:Rehabilitation]]
[[Category:MOOCs]]
[[Category:MOOCs]]
== Indications ==
== Indications ==
Indications for transferring a patient vary depending on the patient population, but typically transfers are indicated for patients who have difficulty moving on their own and require assistance with moving independently from one position to another safely.<ref name=":2" /> <ref name=":0" /> Patients should always be encouraged to move independently but when assistance is required, they should be encouraged to assist in as much of the movement themselves as possible.  
Indications for transferring a patient vary depending on the patient population. However, transfers are typically indicated for patients who have difficulty moving independently and require assistance with moving independently from one position to another safely.<ref name=":2" /> <ref name=":0" /> Patients should always be encouraged to move independently. But when assistance is required, they should still be encouraged to do as much as they can.  


The following are just some of the indications  
The following are just some of the indications for patient transfers:


* Safety
* safety
* Comfort
* comfort
* Support Patient Care Tasks
* support patient care tasks
* Support Patient Procedures
* support patient procedures
* Prevent Secondary Complications of Immobilisation
* prevent secondary complications of immobilisation
* Support Activities of Daily Living
* support activities of daily living
* Support Rehabilitation
* support rehabilitation


== Contraindication and Precautions ==
== Contraindication and Precautions ==
There are no general contraindications for transfers. Transfers may be contraindicated for specific conditions or following specific procedures, however more commonly specific precautions may be in place to maintain safety during transfers, typically seen within hospital settings, in intensive care units or on post-surgical wards. The following precautions should be considered in the following conditions;
There are no general contraindications for transfers. Transfers may be contraindicated for specific conditions or following particular procedures. However, it is more common that specific precautions will be put in place to maintain safety during transfers. The following precautions should be considered in the conditions listed below:


# '''[[Total Hip Replacement|Hip Arthroplasty]].''' Associated movement precautions based on the method of surgical replacement. Traditionally, these precautions stay in place for 6 weeks following the joint replacement, although current evidence does not routinely support the use of these hip precautions in patients post total hip arthroplasty for primary hip osteoarthritis to prevent dislocation. <ref>Korfitsen CB, Mikkelsen LR, Mikkelsen ML, Rohde JF, Holm PM, Tarp S, Carlsen HH, Birkefoss K, Jakobsen T, Poulsen E, Leonhardt JS. Hip precautions after posterior-approach total hip arthroplasty among patients with primary hip osteoarthritis do not influence early recovery: a systematic review and meta-analysis of randomized and non-randomized studies with 8,835 patients. Acta Orthopaedica. 2023 Apr 5;94:141-51.</ref>
# '''[[Total Hip Replacement|Hip Arthroplasty]].''' Associated movement precautions based on the method of surgical replacement. Traditionally, these precautions stay in place for 6 weeks following the joint replacement. However, it is noteworthy that current evidence does not routinely support the use of these hip precautions in patients post-total hip arthroplasty for primary hip osteoarthritis to prevent dislocation.<ref>Korfitsen CB, Mikkelsen LR, Mikkelsen ML, Rohde JF, Holm PM, Tarp S, et al. Hip precautions after posterior-approach total hip arthroplasty among patients with primary hip osteoarthritis do not influence early recovery: a systematic review and meta-analysis of randomized and non-randomized studies with 8,835 patients. Acta Orthopaedica. 2023 Apr 5;94:141-51.</ref>
#* '''Anterior Approach''' - Avoid hip external rotation, active abduction and flexion beyond 90°
#* '''Anterior Approach''' - Avoid hip external rotation, active abduction and flexion beyond 90°
#* '''Posterior Approach''' - Avoid hip internal rotation, adduction across midline, and flexion beyond 90°
#* '''Posterior Approach''' - Avoid hip internal rotation, adduction across the midline, and flexion beyond 90°
#* '''Lateral Approach''' - Avoid hip external rotation, active abduction, and extension
#* '''Lateral Approach''' - Avoid hip external rotation, active abduction, and extension
# '''Post Spinal Surgery.''' Spinal precautions are guidelines or restrictions put in place to protect the spine and reduce risk of further injury after spinal surgery, spinal trauma, or suspected spinal instability.
# '''Post-Spinal Surgery.''' Spinal precautions are guidelines or restrictions put in place to protect the spine and reduce the risk of further injury after spinal surgery, spinal trauma, or suspected spinal instability.
#* Restrictions in forward flexion following spinal surgery limit patient's ability to assume certain positions comfortably and may require modifications to their transfers to avoid excessive bending, twisting, rotation or flexion of the spine. Clear communication and understanding of the specific precautions and their impact on positioning are vital to ensure patient safety and optimal outcomes.
#* Restrictions in forward flexion following spinal surgery limit the patient's ability to assume certain positions comfortably and may require modifications to their transfers to avoid excessive bending, twisting, rotation or flexion of the spine. Clear communication and understanding of the specific precautions and their impact on positioning are vital to ensure patient safety and optimal outcomes.
# [[Spinal Cord Injury Clinical Guidelines|Spinal Cord Injury]]. Spinal cord injury rehabilitation occurs in different stages and may take weeks, months, or even years. Transfers play a vital role throughout each of the different stages with up to six members of staff required to work together in order to undertake routine transfer procedures, with all moving and handling must be coordinated by a nominated team leader during the acute phase to teaching of supported and independent transfer techniques during specialist spinal cord injury rehabilitation settings.<ref name=":4">Multidisciplinary Association of SCI Professionals and the Spinal Injuries Association, Moving and Handling Patients with Actual or Suspected Spinal Cord Injuries (SCI), 2015, Available from: https://www.mascip.co.uk/wp-content/uploads/2015/02/MASCIP-SIA-Guidelines-for-MH-Trainers.pdf, [10 July 2023]</ref>Read more about [[Bed Mobility and Transfers in Spinal Cord Injury|Transfers for Spinal Cord Injury]].  
# [[Spinal Cord Injury Clinical Guidelines|'''Spinal Cord Injury''']]. Spinal cord injury rehabilitation occurs in different stages and may take weeks, months, or even years. Transfers play a vital role throughout each stage, with up to six members of staff required to work together to carry out routine transfers. A nominated team leader should coordinate all moving and handling during the acute phase.<ref name=":4" /> Supported and independent transfer techniques should be taught at specialist spinal cord injury rehabilitation settings.<ref name=":4">Multidisciplinary Association of SCI Professionals and the Spinal Injuries Association, Moving and Handling Patients with Actual or Suspected Spinal Cord Injuries (SCI), 2015, Available from: https://www.mascip.co.uk/wp-content/uploads/2015/02/MASCIP-SIA-Guidelines-for-MH-Trainers.pdf, [10 July 2023]</ref> Read more about [[Bed Mobility and Transfers in Spinal Cord Injury|Transfers for Spinal Cord Injury]].  
#*'''Pre Hospital and Acute Management''' - Carry out or maintain full in‑line spinal immobilisation if there is a high-risk for spinal cord injury. <ref name=":02">National Institute for Health and Care Excellence. Spinal Injury: Assessment and Initial Management (NICE Guideline NG41). National Clinical Guideline Centre, 2016. Available at https://www.nice.org.uk/guidance/ng41 [Accessed 10/11/2018]</ref> During any logroll manoeuvres or when transferring a patient from one surface to another the patient’s head and vertebral column must be kept in alignment.<ref name=":4" />
#*'''Pre-Hospital and Acute Management''' - Carry out or maintain full in‑line spinal immobilisation if there is a high risk of spinal cord injury.<ref name=":02">National Institute for Health and Care Excellence. Spinal Injury: Assessment and Initial Management (NICE Guideline NG41). National Clinical Guideline Centre, 2016. Available at https://www.nice.org.uk/guidance/ng41 [Accessed 10/11/2018]</ref> During any logroll manoeuvres or when transferring a patient from one surface to another, the patient’s head and vertebral column must be kept in alignment.<ref name=":4" />
#*'''Bracing -''' Be aware of requirements for any bracing or orthotic use required during transfers and ensure they are properly fit to the patient prior to completing any transfers.  
#*'''Bracing -''' Be aware of requirements for any bracing or orthotic use required during transfers and ensure they are properly fit to the patient before completing any transfers.
# [[Osteoporosis]] is defined as low [[Bone Density|bone mineral density]] caused by altered [[bone]] microstructure, which predisposes patients to low-impact, [[Osteoporotic Vertebral Fractures|fragility fractures]]. Fragility fractures result from mechanical forces that would not ordinarily result in a fracture that occur during normal daily activities such as bending, twisting, walking or lifting relatively light objects. There is also increased risk of spontaneous fractures with weight bearing following periods of prolonged bed rest or immobility.<ref>Smith MC, O'May F, Tropea S, Berg J. Framing moving and handling as a complex healthcare intervention within the acute care of older people with osteoporosis: a qualitative study. Journal of Clinical Nursing. 2016 Oct;25(19-20):2906-20.</ref>
# '''[[Osteoporosis]]'''. Defined as low [[Bone Density|bone mineral density]] caused by altered [[bone]] microstructure, which predisposes patients to low-impact, [[Osteoporotic Vertebral Fractures|fragility fractures]]. Fragility fractures result from mechanical forces that would not ordinarily cause a fracture. They occur during normal daily activities such as bending, twisting, walking or lifting relatively light objects. There is also an increased risk of spontaneous fractures with weight bearing following periods of prolonged bed rest or immobility.<ref>Smith MC, O'May F, Tropea S, Berg J. Framing moving and handling as a complex healthcare intervention within the acute care of older people with osteoporosis: a qualitative study. Journal of Clinical Nursing. 2016 Oct;25(19-20):2906-20.</ref>
#* Where possible, encourage the patient to move themselves rather than the healthcare professional moving the patient, as this has been shown to reduce the risk of fracture. <ref>Smith MC, Pearson C, O'May F, Tropea S, Irvine L, Rush R, Wilson R. Final Report for The Lydia Osteoporosis Project. 2016</ref>
#* Where possible, encourage the patient to move themselves rather than the healthcare professional moving the patient, as this has been shown to reduce the risk of fracture.<ref>Smith MC, Pearson C, O'May F, Tropea S, Irvine L, Rush R, Wilson R. Final Report for The Lydia Osteoporosis Project. 2016</ref>
#* Minimise trunk forward flexion, especially if loaded and use the hip hinge to bend safely.<ref>Royal Osteoporosis Society. Moving and Lifting Safely. Available from: https://theros.org.uk/information-and-support/osteoporosis/living-with-osteoporosis/exercise-and-physical-activity-for-osteoporosis/caring-for-your-back/moving-and-lifting-safely/ (accessed 11 July 2023)</ref>
#* Minimise trunk forward flexion, especially if loaded and use the hip hinge to bend safely.<ref>Royal Osteoporosis Society. Moving and Lifting Safely. Available from: https://theros.org.uk/information-and-support/osteoporosis/living-with-osteoporosis/exercise-and-physical-activity-for-osteoporosis/caring-for-your-back/moving-and-lifting-safely/ (accessed 11 July 2023)</ref>
# [[Stroke: Positioning|Stroke]] or [[Traumatic Brain Injury Clinical Guidelines|Acquired Brain Injury]]. Glenohumeral subluxation is a common complication of stroke and acquired brain injury in patients with hemiplegia, and is an important risk factor for shoulder pain and other problems. Factors that contribute to include improper positioning, lack of support in the upright position, and pulling on the hemiplegic arm during transfers.
# '''[[Stroke: Positioning|Stroke]] or [[Traumatic Brain Injury Clinical Guidelines|Acquired Brain Injury]]'''. [[Shoulder Dysfunction Associated with Stroke|Glenohumeral subluxation]] is a common complication of stroke and acquired brain injury in patients with hemiplegia, and it is an important risk factor for shoulder pain and other problems. Factors that contribute to glenohumeral subluxation include improper positioning, lack of support in the upright position, and pulling on the hemiplegic arm during transfers.
#* Protecting and supporting the arm during and tranfers or functional mobility; avoid pulling on the affected arm. <ref>Canadian Stroke Best Practices. Rehabilitation and Recovery following Stroke - 5.3. Management of Shoulder Pain & Complex Regional Pain Syndrome (CRPS) following Stroke. 2019. Available from: https://www.strokebestpractices.ca/recommendations/stroke-rehabilitation/management-of-shoulder-pain-complex-regional-pain-syndrome-crps-following-stroke [Accessed on 11 July 2023]</ref>  
#* It is important to protect and support the arm during transfers or functional mobility; avoid pulling on the affected arm.<ref>Canadian Stroke Best Practices. Rehabilitation and Recovery following Stroke - 5.3. Management of Shoulder Pain & Complex Regional Pain Syndrome (CRPS) following Stroke. 2019. Available from: https://www.strokebestpractices.ca/recommendations/stroke-rehabilitation/management-of-shoulder-pain-complex-regional-pain-syndrome-crps-following-stroke [Accessed on 11 July 2023]</ref>  
# [[Weight bearing|Weight-bearing Status]]. Weight bearing refers to how much weight or force is put through a specific limb. It is common for a reduced amount of weight bearing to be prescribed following a specific surgery or injury. Adherence to this reduced weight bearing status is vital for optimal recovery, as prematurely increased weight bearing can delay healing.<ref>Augat P, Merk J, Ignatius A, Margevicius K, Bauer G, Rosenbaum D, Claes L. Early, full weightbearing with flexible fixation delays fracture healing. Clinical Orthopaedics and Related Research®. 1996 Jul 1; 328:194-202.</ref><ref>Mavčič B, Antolič V. Optimal mechanical environment of the healing bone fracture/osteotomy. International orthopaedics. 2012 Apr 1;36(4):689-95.</ref>  
# [[Weight bearing|'''Weight-bearing Status''']]. Weight bearing refers to how much weight or force is put through a specific limb. It is common for a reduced amount of weight bearing to be prescribed following a specific surgery or injury. Adherence to a reduced weight-bearing status is vital for optimal recovery, as prematurely increased weight bearing can delay healing.<ref>Augat P, Merk J, Ignatius A, Margevicius K, Bauer G, Rosenbaum D, Claes L. Early, full weightbearing with flexible fixation delays fracture healing. Clinical Orthopaedics and Related Research®. 1996 Jul 1; 328:194-202.</ref><ref>Mavčič B, Antolič V. Optimal mechanical environment of the healing bone fracture/osteotomy. International orthopaedics. 2012 Apr 1;36(4):689-95.</ref>  
#* Reduced weight bearing status can be applied to either an upper or lower limb.
#* Reduced weight-bearing status can be applied to either an upper or lower limb.
#* Weight-bearing status can significantly impact on the type of transfers available to the patient and the level of support required.  
#* Weight-bearing status can significantly impact the type of transfers available to the patient and the level of support required.
#* Patients who are non-weightbearing or restricted from bearing weight on a specific limb may require additional support, stabilisation or assistive devices during transfers.
#* Patients who are non-weight bearing or restricted from bearing weight on a specific limb may require additional support, stabilisation or assistive devices during transfers.


== Principles of Transfers ==
== Principles of Transfers ==
The following principles guiding transfers should be considered in relation to the short‐ and long‐term goals of rehabilitation and management for each specific patient. Each patient has unique needs and preferences so before transferring a patient, it is important to assess the situation and environment, conduct an individualised assessment considering patient's medical condition, mobility limitations, and comfort preferences and consider the following principles to help you decide how much the patient can assist and what method of transfer should be used.   
The following principles should always be considered in relation to a patient's short‐ and long‐term goals and management approach. Each patient has unique needs and preferences, so before transferring a patient, it is important to assess the situation and environment. Clinicians must also conduct an individualised assessment which considers the patient's medical condition, mobility limitations, and comfort preferences. This helps to ensure that dignified and respectful positioning care is provided. 
 
Please consider the following principles when deciding how much assistance the patient requires, how much they can do themselves, and what method of transfer should be used.   


# '''Preparation for Transfers'''
# '''Preparation for Transfers'''
#*
#* Check for precautions
#** Check for precautions
#* Complete your [https://www.physio-pedia.com/Assessment_Before_Moving_and_Handling?utm_source=physiopedia&utm_medium=search&utm_campaign=ongoing_internal assessment before moving and handling]
#** Complete your [https://www.physio-pedia.com/Assessment_Before_Moving_and_Handling?utm_source=physiopedia&utm_medium=search&utm_campaign=ongoing_internal assessment before moving and handling]
#* Confirm [[Weight bearing|weight-bearing status]]
#** Confirm weight-bearing status
#* Determine the level of assistance required
#** Determine level of assistance
#* Determine [[Assistive Devices|assistive devices]] required
#** Determine assistive devices required
# '''Encourage Patient Participation'''
# '''Encourage Patient Participation'''
#**The amount of assistance each patient will require depends on the patient’s previous health status, age, type of illness, and length of stay.<ref name=":3" />
#* The amount of assistance each patient requires depends on the patient’s previous health status, age, type of illness, and length of stay<ref name=":3" />
#**Engaging patients in the transfer process by seeking their input and involving them in decision-making empowers them and promotes respect. Encourage the patient to perform as much of the transfer as possible and only provide
#* Engaging patients in the transfer process by seeking their input and involving them in decision-making empowers them and promotes respect - encourage the patient to perform as much of the transfer as possible
#**''Support the patients natural movement patterns''
#* Support the patient's natural movement patterns
# '''Ergonomics.''' The science of fitting the physical demands of the transfer to the therapist to prevent injury, and improve therapist and patient comfort during the transfer process.
# '''[[Ergonomics]].''' The science of fitting the physical demands of the transfer to the therapist to prevent injury and improve therapist and patient comfort during the transfer process.
#** Distance between Surfaces;
#* Distance between surfaces
#*** As short as possible between surfaces
#** Aim for the distance to be as short as possible between surfaces
#** Height of Transfer Surfaces;
#* Height of transfer surfaces
#*** Allow for ergonomic work postures based on the shortest person assisting.
#** Allow for ergonomic work postures based on the shortest person assisting
# '''Body Mechanics. I'''nvolve the coordinated effort of muscles, bones, and the nervous system to maintain balance, posture, and alignment during positioning, transferring, and mobilising patients. Proper body mechanics allows individuals to carry out activities without excessive use of energy, and it helps prevent injuries for patients and health care providers <ref>Perry, A. G., Potter, P. A., & Ostendorf, W. R. (2018). ''Clinical nursing skills and techniques'' (9th ed.). St. Louis, MO: Elsevier-Mosby.</ref>Always consider the principles of proper body mechanics prior to any transfer - assess the environment, plan the transfer, avoid stretching and twisting, ensure wide stance, stand close to patient as possible, face the direction of movement.
# '''Body Mechanics'''. The coordinated effort of muscles, bones, and the nervous system to maintain balance, posture, and alignment while positioning, transferring, and mobilising patients. Proper body mechanics allows individuals to carry out activities without excessive use of energy, and it helps prevent injuries for patients and health care providers.<ref>Perry, A. G., Potter, P. A., & Ostendorf, W. R. (2018). ''Clinical nursing skills and techniques'' (9th ed.). St. Louis, MO: Elsevier-Mosby.</ref> Always consider the principles of proper body mechanics prior to any transfer - assess the environment, plan the transfer, avoid stretching and twisting, ensure a wide stance, stand as close to the patient as possible, face the direction of movement.
#** Upper Limbs
#* Upper limbs:
#*** shoulders relaxed and low
#** shoulders relaxed and low
#*** elbows close to the body  
#** elbows close to the body  
#*** wrists neutral
#** wrists neutral
#*** not squeeze strongly with the fingers
#** do not squeeze firmly with the fingers
#** Spine
#* Spine
#*** subjected to the most strain during patient transfers
#** the spine is subjected to the most strain during patient transfers
#*** maintain a neutral spine  
#** maintain a neutral spine
#*** minimise rotation or twisting of spine  
#** minimise rotation or twisting of the spine
#** Lower Limbs
#* Lower limbs
#*** knees and feet are aligned  
#** make sure knees and feet are aligned
#*** wide stance - shoulder width apart
#** adopt a wide stance - shoulder width apart
#*** bend knees with lifting  
#** bend knees with lifting
# '''Communication.''' Clear and compassionate communication enhances patient's understanding, and cooperation during transfers.Patient should be informed about transfer and their role and to try and perform as many steps as possible independently.
# '''Communication.''' Clear and compassionate communication enhances a patient's understanding and cooperation during transfers. Patients should be informed about transfers and their role and encouraged to independently perform as many steps as possible.
#** '''Use of Cues'''
#* '''Use of Cues'''
#*** Sensory cues including auditory, tactile and visual cues are commonly used in rehabilitation settings and have been shown to be beneficial in motor learning and motor performance including improvement in movement and mobility in many conditions including stroke, spinal cord injury, Parkinsons Disease, and dementia.<ref>Hollands KL, Pelton T, Wimperis A, Whitham D, Jowett S, Sackley C, Alan W, Van Vliet P. Visual cue training to improve walking and turning after stroke: a study protocol for a multi-centre, single blind randomised pilot trial. Trials. 2013 Dec;14(1):1-1.</ref><ref>Ghai S, Ghai I, Schmitz G, Effenberg AO. Effect of rhythmic auditory cueing on parkinsonian gait: a systematic review and meta-analysis. Scientific reports. 2018 Jan 11;8(1):1-9.</ref><ref>Ghai S, Ghai I, Schmitz G, Effenberg AO. Effect of rhythmic auditory cueing on parkinsonian gait: a systematic review and meta-analysis. Scientific reports. 2018 Jan 11;8(1):1-9.</ref>
#** Sensory cues, including auditory, tactile and visual cues, are commonly used in rehabilitation settings and have been shown to be beneficial in motor learning and motor performance. They are known to improve movement and mobility in many conditions including stroke, spinal cord injury, Parkinsons's and dementia.<ref>Hollands KL, Pelton T, Wimperis A, Whitham D, Jowett S, Sackley C, Alan W, Van Vliet P. Visual cue training to improve walking and turning after stroke: a study protocol for a multi-centre, single blind randomised pilot trial. Trials. 2013 Dec;14(1):1-1.</ref><ref>Ghai S, Ghai I, Schmitz G, Effenberg AO. Effect of rhythmic auditory cueing on parkinsonian gait: a systematic review and meta-analysis. Scientific reports. 2018 Jan 11;8(1):1-9.</ref><ref>Ghai S, Ghai I, Schmitz G, Effenberg AO. Effect of rhythmic auditory cueing on parkinsonian gait: a systematic review and meta-analysis. Scientific reports. 2018 Jan 11;8(1):1-9.</ref>
#*** Cues are used to enhance communication by directly prompting a person to take action or respond, or indirectly inferring that a response is wanted. Commonly clinicians may use a range of cues to support transfers, which often increase patient engagement in the process.<ref>Föcker J, Atkins P, Vantzos FC, Wilhelm M, Schenk T, Meyerhoff HS. Exploring the effectiveness of auditory, visual, and audio-visual sensory cues in a multiple object tracking environment. Attention, Perception, & Psychophysics. 2022 Jul;84(5):1611-24.</ref>
#** Cues are used to enhance communication by directly prompting a person to take action or respond or indirectly inferring that a response is wanted. Commonly, clinicians use a range of cues to support transfers, which often increase patient engagement in the process.<ref>Föcker J, Atkins P, Vantzos FC, Wilhelm M, Schenk T, Meyerhoff HS. Exploring the effectiveness of auditory, visual, and audio-visual sensory cues in a multiple object tracking environment. Attention, Perception, & Psychophysics. 2022 Jul;84(5):1611-24.</ref>
#** '''Commands and Counts'''
#* '''Commands and Counts'''
#*** Commands and counts synchronised with all participants.
#** Commands and counts should be synchronised with all participants
#*** Rehabilitation professionals at the head of the patient should give the commands when more than one person assisting with transfer.
#** The rehabilitation professional at the head of the patient should give the commands when more than one person is assisting with the transfer


== Levels of Assistance ==
== Levels of Assistance ==
The level of assistance a patient requires during transfers is dependent upon the patient's size, physical, cognitive, and medical capabilities. Therapists determine assistance levels by subjectively grading the patient's assistance requirement during specific patient handling tasks, and should be based on the assistance level required by the patient and not the perceived effort level by the therapists during patient assistance. This provides for continuity of care, so if another therapist is transferring the patient they will have an idea of the amount of assistance that particular patient requires. and can be used to track the patient's progress in a rehabilitation program. <ref>Reichert P. Patient Handling Ergonomics. Thesis. New Jersey Institute of Technology. 2004</ref>
The level of assistance a patient requires during transfers depends on their size and physical, cognitive and medical capabilities. Therapists determine the level of assistance by subjectively grading the amount of assistance required by a patient during specific patient-handling tasks. This assessment should be based on the assistance level required by the patient and not the perceived effort level by the therapists during patient assistance. This encourages continuity of care - if another therapist is transferring the patient, they will have an idea of the amount of assistance required. It can also be used to track the patient's progress.<ref>Reichert P. Patient Handling Ergonomics. Thesis. New Jersey Institute of Technology. 2004</ref> The various levels of assistance are described below:
# '''Independant'''
# '''Independant'''
#* is able to transfer independently and safely.
#* patient is able to transfer independently and safely
#* no assistance required.
#* no assistance is required
# '''Supervision'''
# '''Supervision'''
#* may require assistance with set up for transfer
#* patient may require assistance with set up for the transfer
#* requires no physical assistance during transfer
#* requires no physical assistance during the transfer
#* may require supervision
#* may require supervision
# '''Stand By Assistance'''
# '''Stand By Assistance'''
#* requires no physical assistance
#* patient requires no physical assistance
#* may require verbal cues.
#* may require verbal cues
# '''Contact Guard Assistance'''
# '''Contact Guard Assistance'''
#* is cooperative and reliable  
#* patient is cooperative and reliable
#* occasional loss of balance  
#* occasional loss of balance  
#* requires therapist to maintain contact with patient.
#* requires therapist to maintain contact with patient
# '''Minimal Assist;'''  
# '''Minimal Assistance'''  
#* is cooperative and reliable.
#* patient is cooperative and reliable
#* needs minimal physical assistance with the transfer.
#* needs minimal physical assistance with the transfer
#* requires minor physical exertion from health and social care worker during transfers.
#* requires minor physical exertion from health and social care worker during transfers
#* is able to perform 75% of the required activity on their own.
#* is able to perform 75% of the required activity on their own
#* therapist provides 25% assistance
#* clinician provides 25% assistance
#* typically requires only one person to assist with transfer
#* typically requires only one person to assist with the transfer
# '''Moderate Assist'''
# '''Moderate Assistance'''
#* requires more than minor physical assistance.
#* patient requires more than minor physical assistance
#* often needs equipment to assist with transfers.
#* often needs equipment to assist with transfers
#* is able to perform 50% of the required activity on their own.
#* is able to perform 50% of the required activity on their own
#* therapist provides 50% assistance
#* clinician provides 50% assistance
#* may require two persons to assist with transfer
#* may require two persons to assist with the transfer
# '''Maximum Assist;'''  
# '''Maximum Assistance'''  
#* requires full physical assistance for all transfers.
#* patient requires full physical assistance for all transfers
#* may be unpredictable and uncooperative.
#* may be unpredictable and uncooperative
#* requires equipment to assist with transfers
#* requires equipment to assist with transfers
#* is able to perform 0-25% of the required activity on their own
#* is able to perform 0-25% of the required activity on their own
#* therapist provides 75% assistance
#* clinician provides 75+% assistance
#* typically requires two persons to assist with transfer
#* typically requires two persons to assist with the transfer
# '''Dependent;'''
# '''Dependent'''
#* Patient unable to assist and does not actively participate in the transfer.
#* patient is unable to assist and does not actively participate in the transfer
#* The clinician performs all aspects of the transfer.
#* clinician performs all aspects of the transfer


== Overview of Transfers ==
== Assistive Devices for Transfers ==
Each patient has unique needs and preferences. Conducting an individualised assessment, considering patient's medical condition, mobility limitations, and comfort preferences, is essential for providing dignified and respectful positioning care.
[[Assistive Devices for Transfers|Assistive devices for transfers]] are tools or equipment designed to assist individuals in achieving optimal body positioning and support for enhanced comfort, function, and independence. These devices are particularly beneficial for individuals with mobility limitations, physical disabilities, or medical conditions that affect their ability to maintain proper posture and positioning.<ref>WHO. Definition of Assistive Technology. Available from: <nowiki>http://www.who.int/disabilities/technology/en/</nowiki>. (accessed19 April 2023)</ref> Assistive devices also allow the healthcare worker to position and transfer patients in a way that reduces the risk of injury for themselves and their patients.


=== Assistive Devices for Transfers ===
Assistive devices that can be utilised for transfers include slide sheets, transfer belts, sliding boards, turn tables, sit to stand devices and hoists. Read more about the wide range of assistive devices available to support patient transfers [[Assistive Devices for Positioning|here]].
Assistive devices for transfers are tools or equipment designed to assist individuals in achieving optimal body positioning and support for enhanced comfort, function, and independence. These devices are particularly beneficial for individuals with mobility limitations, physical disabilities, or medical conditions that affect their ability to maintain proper posture and positioning.<ref>WHO. Definition of Assistive Technology. Available from: <nowiki>http://www.who.int/disabilities/technology/en/</nowiki>. (accessed19 April 2023)</ref> Assistive devices also allow the the healthcare worker to position and transfers patients in a way that reduces risk for injury to themselves and their patients.


Assistive devices that can be utilised for transfers include slide sheets, transfer belts, sliding boards,  turn tables, sit to stand devices and hoists. Read more detail about the wide range of assistive devices available to support patient transfers [[Assistive Devices for Positioning|here]].
== Common Transfers ==
Table 1 provides an overview of common ways to transfer patients.  
{| cellspacing="1" cellpadding="1" border="1" width="100%"
{| cellspacing="1" cellpadding="1" border="1" width="100%"
|+'''Table.1''' Overview of Common Transfers
|+'''Table 1.''' Overview of Common Transfers
|-
|-
! scope="col" |'''Transfer'''
! scope="col" |'''Transfer'''
Line 149: Line 161:
|Sliding board transfers are typically used for patients who are unable to bear weight on their legs, have paralysis or limb loss in the lower limbs.[[File:Slide Board Transfer.png|center|frameless]]
|Sliding board transfers are typically used for patients who are unable to bear weight on their legs, have paralysis or limb loss in the lower limbs.[[File:Slide Board Transfer.png|center|frameless]]
|
|
* Positioned at the edge of the bed
* The patient is positioned at the edge of the bed.
* Lean to one side while placing one end of the sliding board sufficiently under the proximal thigh
* The patient leans to one side, and the sliding board is placed sufficiently under their proximal thigh.
* Other ended of the board should be positioned under the destination surface
* The other end of the board should be positioned on the destination surface.
* Patient should not hold onto the end of the sliding board in order to avoid pinching the fingers
* The patient should not hold onto the end of the sliding board to avoid pinching their fingers.
* Patient should place the lead hand 4-6 inches away from the sliding board and use both arms to initiate a push-up and scoot across the board
* The patient should place their hand 4-6 inches away from the sliding board and use both arms to initiate a push-up and scoot across the board.
* Therapist should guard in front of the patient and assist as needed as the patient performs a series of push-ups across the board.
* The therapist should guard in front of the patient and assist as needed as the patient performs a series of push-ups across the board.
|
|
* Sliding Board
* Sliding board
* Transfer Belt
* Transfer belt
|-
|-
!'''Squat Pivot Transfer'''
!'''Squat Pivot Transfer'''
|The squat pivot transfer is useful for patients who can support some of their weight but are unable to achieve a full stand.[[File:Dependent Squat Pivot Transfer.png|center|frameless]]
|The squat pivot transfer is useful for patients who can support some of their weight but are unable to achieve a full stand.[[File:Dependent Squat Pivot Transfer.png|center|frameless]]
|
|
* Position surfaces close together ~90 degrees.
* Position the surfaces close together (at around 90 degrees).
* Remove armrests from wheelchairs.
* Remove the armrests from wheelchairs.
* Assist or instruct the client to scoot to the edge of the origin surface.
* Assist or instruct the patient to scoot to the edge of the origin surface.
* Angle the client’s heels towards the destination surface.
* Angle the patient's heels towards the destination surface.
* Block the client’s knees with your knees.
* Block the patient's knees with your knees.
* Instruct the client to push off the surface while shifting their weight “nose over toes”.
* Instruct the patient to push off the surface while shifting their weight “nose over toes”.
* Support the client at gait belt, waist, or buttocks and assist in guiding the transfer towards the destination surface. Never grasp under the weak arm or the weak arm.
* Support the patient at the gait belt, waist, or buttocks and assist in guiding the transfer towards the destination surface. Never grasp under the patient's weak arm or the weak arm.
* Get close to your client. You can have your head on the side of the destination surface, but the client will not be able to see where they are going.
* Get close to the patient. You can have your head on the side of the destination surface, but the patient will not be able to see where they are going.
* Instruct the client to reach for the destination surface.
* Instruct the patient to reach for the destination surface.
* Assist in lower the client onto the destination surface.
* Assist in lowering the patient onto the destination surface.
|
|
* Transfer Belt
* Transfer belt
* Turn Table
* Turn table
|-
|-
!'''Sit to Stand Transfer'''
!'''Sit to Stand Transfer'''
|The sit to stand transfer is useful for reliable and predicable patients who can actively participate, with some ability to stand.[[File:Sit To Stand Transfer.png|center|frameless]]
|The sit to stand transfer is useful for reliable and predictable patients who can actively participate and have some ability to stand.[[File:Sit To Stand Transfer.png|center|frameless]]
|
|
* Feet are placed flat on the floor
* The patient's feet are placed flat on the floor.
* Place hands on the armrests of the chair or next to their side on bed
* The patient places their hands on the armrests of the chair or next to their side on the bed.
* The patient should push up with her arms as you pull her close to your body as you move into a standing position
* The patient should push up with their arms as you pull them close to your body as you move into a standing position.
|
|
* Transfer Belt
* Transfer belt
* Sit to Stand Device
* Sit to stand device
|-
|-
!'''Stand Pivot Transfer'''
!'''Stand Pivot Transfer'''
|The stand pivot transfer is useful for patients who can support most of their weight by standing but are unable to take steps to move from one place to another.[[File:Stand Pivot Transfer.png|center|frameless]]
|The stand pivot transfer is useful for patients who can support most of their weight in standing but cannot move from one place to another.[[File:Stand Pivot Transfer.png|center|frameless]]
|
|
* Positioned at the edge of the wheelchair or bed to initiate transfer
* The patient is positioned at the edge of the wheelchair or bed to initiate the transfer.
* Therapist can assist the patient to keep feet flat on floor while bringing the head and trunk forward
* The therapist can assist the patient to keep their feet flat on the floor while bringing their head and trunk forward.
* Therapist should assist as needed with their feet
* The therapist should assist as needed with the patient's feet.
* Therapist guard or assist the patient through transfer and instruct the patient to reach back for the surface before they begin to sit down
* The therapist should guard or assist the patient through the transfer and instruct the patient to reach back for the surface before they begin to sit down.
* Once stand pivot is performed, therapist should assist as needed to ensure control with lowering the patient to destination surface.
* Once the stand pivot is performed, the therapist should assist as needed to ensure control when the patient lowers to the destination surface.
|
|
* Transfer Belt
* Transfer belt
* Turn Table
* Turn table
* Sit to Stand Device
* Sit to stand device
|-
|-
!'''Stand Step Transfer'''
!'''Stand Step Transfer'''
|The stand step transfer is for patients who can support their weight in standing and are unable to take steps to move from one place to another with support, and may also use an assistive device.[[File:Stand Step Transfer.png|center|frameless]]
|The stand step transfer is for patients who can support their weight in standing, but cannot take steps to move from one place to another with support. They may also use an assistive device.[[File:Stand Step Transfer.png|center|frameless]]
|
|
* Place the chair at the side of the bed on a slight angle.
* Place the chair at the side of the bed at a slight angle.
* Move yourself forward to the edge of the chair.
* The patient moves forward to the edge of the chair.
* Make sure your feet are flat on the floor.
* Make sure the patient's feet are flat on the floor.
* Therapist should hold your hand and arm. They should hold your arm steady and should not pull on it.
* The therapist holds the patient's hand and arm. Make sure not to pull on the patient's arm but keep it steady.  
* Place one hand on the arm support of the chair. Therapist should should already be holding the other hand or arm.
* The patient should place one hand on the arm support of the chair. The therapist should already be holding the patient's other hand or arm.
* To get up, lean forward and push down with your arms and legs and, if needed, on the therapist’s hand.
* To get up, the patient leans forward and pushes down with their arms and legs and, if needed, on the therapist’s hand.
* Once up, your assistant should just guide and support you.
* Once up, the therapist guides and supports the patient.  
* Turn by taking small steps.
* The patient turns by taking small steps.
* As you descend, the therapist should hold your arm without pulling it. They can also put their hand behind your shoulder. They should guide you as you lower for a slow descent.
* As the patient descends, the therapist holds the patient's arm. The therapist can also place a hand behind the patient's shoulder and help guide them down as they slowly lower.  
|
|
* Transfer Belt
* Transfer belt
* Mobility Device
* Mobility device
|}
|}
== Summary ==
== Summary ==
Transferring a patient can be physically demanding and often require strenuous movements and awkward positioning and are considered a high-risk manoeuvre because of the potential harm posed to both the patient and the rehabilitation professional.
* Attention to proper ergonomics may reduce the risk of musculoskeletal injuries to rehabilitation professionals, while use of  assistive devices such as sliding sheets, sliding boards, transfer belts, sit to stand devices and multi-person teams may reduce the burden placed on rehabilitation professionals who routinely perform patient transfers.


* Remember that transfers should always be individualised to a patient’s unique needs and limitations with regular evaluation and reassessment of the effectiveness of the transfer strategy essential to ensure safety and that the desired rehabilitation goals for the patient are being achieved.
* Transferring a patient can be physically demanding, often requiring strenuous movements and awkward positioning. Because of the potential harm posed to both the patient and the rehabilitation professional, transfers are considered a high-risk manoeuvre.
* Attention to proper ergonomics may reduce the risk of musculoskeletal injuries to rehabilitation professionals.
* Using assistive devices, such as sliding sheets, sliding boards, transfer belts, sit to stand devices and multi-person teams, may reduce the burden placed on rehabilitation professionals who routinely perform patient transfers.
* Remember that transfers should always be individualised to a patient’s unique needs and limitations.
* The transfer strategy should be regularly evaluated and reassessed to ensure safety and that the patient's desired rehabilitation goals are being achieved.


== References  ==
== References  ==
<references /> 
<references /> 

Latest revision as of 14:11, 3 September 2023

Original Editors - Naomi O'Reilly and Robin Tacchetti

Top Contributors - Naomi O'Reilly and Jess Bell   

Introduction[edit | edit source]

A transfer can be viewed as the safe movement of a person from one place or surface to another[1] and an opportunity to train an individual to enhance independent function.[2] Patient transfers require varying levels of assistance, including manual assistance and/or the use of assistive devices, such as a hoist.[3] Transfers can be vertical (i.e. from a seated-to-seated position (wheelchair to toilet) or supine-to-seated position (bed to wheelchair)) and horizontal or lateral (i.e. from one flat surface to another (bed to stretcher)).[4]

Benefits of Movement and Mobilisation[edit | edit source]

Evidence supports the positive effect of movement and mobilisation on:

  • the quality and speed of a patient's recovery
  • the patient's ability to maintain their current level of physical ability

Early mobilisation is crucial for positive patient outcomes, such as decreased incidence of pneumonia, falls, skin tears, and length of stay in Intensive Care Units and acute care settings and increased quality of life[5]

Conversely, insufficient movement increases an individual's risk for immobility-related adverse events, such as pressure injuries, reduced range of motion, muscle strength and mobility and muscle atrophy.[6] [7][8]

Risks[edit | edit source]

Research shows that injuries to health and social care workers happen most frequently during patient transfers, with up to one-third of workplace injuries to staff in hospitals and nursing homes occurring when moving patients.[9] [10] Transfers can also increase the risk to patients for injury, pain, and negative health outcomes. It has also been found that manual handling combined with the infrequent use of assistive technology may reduce opportunities for patients to move, mobilise, and engage in weight-bearing activities. This lack of opportunities can have an impact on recovery, rehabilitation, and general health.[4]

To achieve a successful and safe patient transfer, health workers need to understand their patient's specific needs, follow evidence-based guidelines and conduct a thorough assessment.[11] Health workers must choose the most efficient transfer method while considering patient and clinician safety.

Indications[edit | edit source]

Indications for transferring a patient vary depending on the patient population. However, transfers are typically indicated for patients who have difficulty moving independently and require assistance with moving independently from one position to another safely.[2] [4] Patients should always be encouraged to move independently. But when assistance is required, they should still be encouraged to do as much as they can.

The following are just some of the indications for patient transfers:

  • safety
  • comfort
  • support patient care tasks
  • support patient procedures
  • prevent secondary complications of immobilisation
  • support activities of daily living
  • support rehabilitation

Contraindication and Precautions[edit | edit source]

There are no general contraindications for transfers. Transfers may be contraindicated for specific conditions or following particular procedures. However, it is more common that specific precautions will be put in place to maintain safety during transfers. The following precautions should be considered in the conditions listed below:

  1. Hip Arthroplasty. Associated movement precautions based on the method of surgical replacement. Traditionally, these precautions stay in place for 6 weeks following the joint replacement. However, it is noteworthy that current evidence does not routinely support the use of these hip precautions in patients post-total hip arthroplasty for primary hip osteoarthritis to prevent dislocation.[12]
    • Anterior Approach - Avoid hip external rotation, active abduction and flexion beyond 90°
    • Posterior Approach - Avoid hip internal rotation, adduction across the midline, and flexion beyond 90°
    • Lateral Approach - Avoid hip external rotation, active abduction, and extension
  2. Post-Spinal Surgery. Spinal precautions are guidelines or restrictions put in place to protect the spine and reduce the risk of further injury after spinal surgery, spinal trauma, or suspected spinal instability.
    • Restrictions in forward flexion following spinal surgery limit the patient's ability to assume certain positions comfortably and may require modifications to their transfers to avoid excessive bending, twisting, rotation or flexion of the spine. Clear communication and understanding of the specific precautions and their impact on positioning are vital to ensure patient safety and optimal outcomes.
  3. Spinal Cord Injury. Spinal cord injury rehabilitation occurs in different stages and may take weeks, months, or even years. Transfers play a vital role throughout each stage, with up to six members of staff required to work together to carry out routine transfers. A nominated team leader should coordinate all moving and handling during the acute phase.[13] Supported and independent transfer techniques should be taught at specialist spinal cord injury rehabilitation settings.[13] Read more about Transfers for Spinal Cord Injury.
    • Pre-Hospital and Acute Management - Carry out or maintain full in‑line spinal immobilisation if there is a high risk of spinal cord injury.[14] During any logroll manoeuvres or when transferring a patient from one surface to another, the patient’s head and vertebral column must be kept in alignment.[13]
    • Bracing - Be aware of requirements for any bracing or orthotic use required during transfers and ensure they are properly fit to the patient before completing any transfers.
  4. Osteoporosis. Defined as low bone mineral density caused by altered bone microstructure, which predisposes patients to low-impact, fragility fractures. Fragility fractures result from mechanical forces that would not ordinarily cause a fracture. They occur during normal daily activities such as bending, twisting, walking or lifting relatively light objects. There is also an increased risk of spontaneous fractures with weight bearing following periods of prolonged bed rest or immobility.[15]
    • Where possible, encourage the patient to move themselves rather than the healthcare professional moving the patient, as this has been shown to reduce the risk of fracture.[16]
    • Minimise trunk forward flexion, especially if loaded and use the hip hinge to bend safely.[17]
  5. Stroke or Acquired Brain Injury. Glenohumeral subluxation is a common complication of stroke and acquired brain injury in patients with hemiplegia, and it is an important risk factor for shoulder pain and other problems. Factors that contribute to glenohumeral subluxation include improper positioning, lack of support in the upright position, and pulling on the hemiplegic arm during transfers.
    • It is important to protect and support the arm during transfers or functional mobility; avoid pulling on the affected arm.[18]
  6. Weight-bearing Status. Weight bearing refers to how much weight or force is put through a specific limb. It is common for a reduced amount of weight bearing to be prescribed following a specific surgery or injury. Adherence to a reduced weight-bearing status is vital for optimal recovery, as prematurely increased weight bearing can delay healing.[19][20]
    • Reduced weight-bearing status can be applied to either an upper or lower limb.
    • Weight-bearing status can significantly impact the type of transfers available to the patient and the level of support required.
    • Patients who are non-weight bearing or restricted from bearing weight on a specific limb may require additional support, stabilisation or assistive devices during transfers.

Principles of Transfers[edit | edit source]

The following principles should always be considered in relation to a patient's short‐ and long‐term goals and management approach. Each patient has unique needs and preferences, so before transferring a patient, it is important to assess the situation and environment. Clinicians must also conduct an individualised assessment which considers the patient's medical condition, mobility limitations, and comfort preferences. This helps to ensure that dignified and respectful positioning care is provided.

Please consider the following principles when deciding how much assistance the patient requires, how much they can do themselves, and what method of transfer should be used.

  1. Preparation for Transfers
  2. Encourage Patient Participation
    • The amount of assistance each patient requires depends on the patient’s previous health status, age, type of illness, and length of stay[1]
    • Engaging patients in the transfer process by seeking their input and involving them in decision-making empowers them and promotes respect - encourage the patient to perform as much of the transfer as possible
    • Support the patient's natural movement patterns
  3. Ergonomics. The science of fitting the physical demands of the transfer to the therapist to prevent injury and improve therapist and patient comfort during the transfer process.
    • Distance between surfaces
      • Aim for the distance to be as short as possible between surfaces
    • Height of transfer surfaces
      • Allow for ergonomic work postures based on the shortest person assisting
  4. Body Mechanics. The coordinated effort of muscles, bones, and the nervous system to maintain balance, posture, and alignment while positioning, transferring, and mobilising patients. Proper body mechanics allows individuals to carry out activities without excessive use of energy, and it helps prevent injuries for patients and health care providers.[21] Always consider the principles of proper body mechanics prior to any transfer - assess the environment, plan the transfer, avoid stretching and twisting, ensure a wide stance, stand as close to the patient as possible, face the direction of movement.
    • Upper limbs:
      • shoulders relaxed and low
      • elbows close to the body  
      • wrists neutral
      • do not squeeze firmly with the fingers
    • Spine
      • the spine is subjected to the most strain during patient transfers
      • maintain a neutral spine
      • minimise rotation or twisting of the spine
    • Lower limbs
      • make sure knees and feet are aligned
      • adopt a wide stance - shoulder width apart
      • bend knees with lifting
  5. Communication. Clear and compassionate communication enhances a patient's understanding and cooperation during transfers. Patients should be informed about transfers and their role and encouraged to independently perform as many steps as possible.
    • Use of Cues
      • Sensory cues, including auditory, tactile and visual cues, are commonly used in rehabilitation settings and have been shown to be beneficial in motor learning and motor performance. They are known to improve movement and mobility in many conditions including stroke, spinal cord injury, Parkinsons's and dementia.[22][23][24]
      • Cues are used to enhance communication by directly prompting a person to take action or respond or indirectly inferring that a response is wanted. Commonly, clinicians use a range of cues to support transfers, which often increase patient engagement in the process.[25]
    • Commands and Counts
      • Commands and counts should be synchronised with all participants
      • The rehabilitation professional at the head of the patient should give the commands when more than one person is assisting with the transfer

Levels of Assistance[edit | edit source]

The level of assistance a patient requires during transfers depends on their size and physical, cognitive and medical capabilities. Therapists determine the level of assistance by subjectively grading the amount of assistance required by a patient during specific patient-handling tasks. This assessment should be based on the assistance level required by the patient and not the perceived effort level by the therapists during patient assistance. This encourages continuity of care - if another therapist is transferring the patient, they will have an idea of the amount of assistance required. It can also be used to track the patient's progress.[26] The various levels of assistance are described below:

  1. Independant
    • patient is able to transfer independently and safely
    • no assistance is required
  2. Supervision
    • patient may require assistance with set up for the transfer
    • requires no physical assistance during the transfer
    • may require supervision
  3. Stand By Assistance
    • patient requires no physical assistance
    • may require verbal cues
  4. Contact Guard Assistance
    • patient is cooperative and reliable
    • occasional loss of balance
    • requires therapist to maintain contact with patient
  5. Minimal Assistance
    • patient is cooperative and reliable
    • needs minimal physical assistance with the transfer
    • requires minor physical exertion from health and social care worker during transfers
    • is able to perform 75% of the required activity on their own
    • clinician provides 25% assistance
    • typically requires only one person to assist with the transfer
  6. Moderate Assistance
    • patient requires more than minor physical assistance
    • often needs equipment to assist with transfers
    • is able to perform 50% of the required activity on their own
    • clinician provides 50% assistance
    • may require two persons to assist with the transfer
  7. Maximum Assistance
    • patient requires full physical assistance for all transfers
    • may be unpredictable and uncooperative
    • requires equipment to assist with transfers
    • is able to perform 0-25% of the required activity on their own
    • clinician provides 75+% assistance
    • typically requires two persons to assist with the transfer
  8. Dependent
    • patient is unable to assist and does not actively participate in the transfer
    • clinician performs all aspects of the transfer

Assistive Devices for Transfers[edit | edit source]

Assistive devices for transfers are tools or equipment designed to assist individuals in achieving optimal body positioning and support for enhanced comfort, function, and independence. These devices are particularly beneficial for individuals with mobility limitations, physical disabilities, or medical conditions that affect their ability to maintain proper posture and positioning.[27] Assistive devices also allow the healthcare worker to position and transfer patients in a way that reduces the risk of injury for themselves and their patients.

Assistive devices that can be utilised for transfers include slide sheets, transfer belts, sliding boards, turn tables, sit to stand devices and hoists. Read more about the wide range of assistive devices available to support patient transfers here.

Common Transfers[edit | edit source]

Table 1 provides an overview of common ways to transfer patients.

Table 1. Overview of Common Transfers
Transfer Purpose and Populations Description Assistive Devices
Sliding Board Transfer Sliding board transfers are typically used for patients who are unable to bear weight on their legs, have paralysis or limb loss in the lower limbs.
Slide Board Transfer.png
  • The patient is positioned at the edge of the bed.
  • The patient leans to one side, and the sliding board is placed sufficiently under their proximal thigh.
  • The other end of the board should be positioned on the destination surface.
  • The patient should not hold onto the end of the sliding board to avoid pinching their fingers.
  • The patient should place their hand 4-6 inches away from the sliding board and use both arms to initiate a push-up and scoot across the board.
  • The therapist should guard in front of the patient and assist as needed as the patient performs a series of push-ups across the board.
  • Sliding board
  • Transfer belt
Squat Pivot Transfer The squat pivot transfer is useful for patients who can support some of their weight but are unable to achieve a full stand.
Dependent Squat Pivot Transfer.png
  • Position the surfaces close together (at around 90 degrees).
  • Remove the armrests from wheelchairs.
  • Assist or instruct the patient to scoot to the edge of the origin surface.
  • Angle the patient's heels towards the destination surface.
  • Block the patient's knees with your knees.
  • Instruct the patient to push off the surface while shifting their weight “nose over toes”.
  • Support the patient at the gait belt, waist, or buttocks and assist in guiding the transfer towards the destination surface. Never grasp under the patient's weak arm or the weak arm.
  • Get close to the patient. You can have your head on the side of the destination surface, but the patient will not be able to see where they are going.
  • Instruct the patient to reach for the destination surface.
  • Assist in lowering the patient onto the destination surface.
  • Transfer belt
  • Turn table
Sit to Stand Transfer The sit to stand transfer is useful for reliable and predictable patients who can actively participate and have some ability to stand.
Sit To Stand Transfer.png
  • The patient's feet are placed flat on the floor.
  • The patient places their hands on the armrests of the chair or next to their side on the bed.
  • The patient should push up with their arms as you pull them close to your body as you move into a standing position.
  • Transfer belt
  • Sit to stand device
Stand Pivot Transfer The stand pivot transfer is useful for patients who can support most of their weight in standing but cannot move from one place to another.
Stand Pivot Transfer.png
  • The patient is positioned at the edge of the wheelchair or bed to initiate the transfer.
  • The therapist can assist the patient to keep their feet flat on the floor while bringing their head and trunk forward.
  • The therapist should assist as needed with the patient's feet.
  • The therapist should guard or assist the patient through the transfer and instruct the patient to reach back for the surface before they begin to sit down.
  • Once the stand pivot is performed, the therapist should assist as needed to ensure control when the patient lowers to the destination surface.
  • Transfer belt
  • Turn table
  • Sit to stand device
Stand Step Transfer The stand step transfer is for patients who can support their weight in standing, but cannot take steps to move from one place to another with support. They may also use an assistive device.
Stand Step Transfer.png
  • Place the chair at the side of the bed at a slight angle.
  • The patient moves forward to the edge of the chair.
  • Make sure the patient's feet are flat on the floor.
  • The therapist holds the patient's hand and arm. Make sure not to pull on the patient's arm but keep it steady.
  • The patient should place one hand on the arm support of the chair. The therapist should already be holding the patient's other hand or arm.
  • To get up, the patient leans forward and pushes down with their arms and legs and, if needed, on the therapist’s hand.
  • Once up, the therapist guides and supports the patient.
  • The patient turns by taking small steps.
  • As the patient descends, the therapist holds the patient's arm. The therapist can also place a hand behind the patient's shoulder and help guide them down as they slowly lower.
  • Transfer belt
  • Mobility device

Summary[edit | edit source]

  • Transferring a patient can be physically demanding, often requiring strenuous movements and awkward positioning. Because of the potential harm posed to both the patient and the rehabilitation professional, transfers are considered a high-risk manoeuvre.
  • Attention to proper ergonomics may reduce the risk of musculoskeletal injuries to rehabilitation professionals.
  • Using assistive devices, such as sliding sheets, sliding boards, transfer belts, sit to stand devices and multi-person teams, may reduce the burden placed on rehabilitation professionals who routinely perform patient transfers.
  • Remember that transfers should always be individualised to a patient’s unique needs and limitations.
  • The transfer strategy should be regularly evaluated and reassessed to ensure safety and that the patient's desired rehabilitation goals are being achieved.

References [edit | edit source]

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