Gunshot Injuries Assessment and Treatment Considerations: Difference between revisions

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== Introduction ==
== Introduction ==
Gunshot injuries in civilian and military populations have serious long-term health and socioeconomic consequences worldwide.<ref name=":3">Moriscot A, Miyabara EH, Langeani B, Belli A, Egginton S, Bowen TS. [https://www.nature.com/articles/s41536-021-00127-1 Firearms-related skeletal muscle trauma: pathophysiology and novel approaches for regeneration.] NPJ Regen Med. 2021 Mar 26;6(1):17.</ref>Primary injuries following ballistic trauma include soft-tissue damage and loss, haemorrhage, bone fracture, nerve and vascular injuries and pain.<ref name=":3" />The effects of these injuries are disability, extended hospitalisations, and overall poor quality of life. Identification and management of firearm-related impairments require a team approach and individual skills to prioritise interventions and prevent further damage. This page provides an in-depth review of the Pain and Disability Drivers Model applied in assessing and treating gunshot injuries.
Gunshot injuries in civilian and military populations can have serious long-term health and socioeconomic consequences.<ref name=":3">Moriscot A, Miyabara EH, Langeani B, Belli A, Egginton S, Bowen TS. [https://www.nature.com/articles/s41536-021-00127-1 Firearms-related skeletal muscle trauma: pathophysiology and novel approaches for regeneration.] NPJ Regen Med. 2021 Mar 26;6(1):17.</ref> Primary injuries following ballistic trauma include soft-tissue damage and loss, haemorrhage, bone fracture, nerve and vascular injuries and pain.<ref name=":3" /> These injuries can lead to disability, extended hospitalisations, and reduced quality of life. Identification and management of firearm-related impairments require a team approach and individual skills to prioritise interventions and enhance outcomes. This page provides an in-depth review of the Pain and Disability Drivers Model, which can be used to assess and treat gunshot injuries.


== General Rules in the Management of Gunshot Injuries ==
== General Management Principles for Individuals with Gunshot Injuries ==


# Build a therapeutic alliance and trust relationship with your patient
* Build trust and a therapeutic alliance with your patient
# Explain your roles and your abilities
* Explain your role and abilities
# Be realistic and set your patient's expectations
* Be realistic and set your patient's expectations
# Agree on some mutual goals and responsibilities with your patient  
* Agree on mutual goals and responsibilities with your patient
# Collect information related to the patient's history throughout assessment and interventions
* Collect comprehensive information related to your patient's history (e.g. history of injuries, previous surgical interventions, presence of retained fragments, past complications, previous treatments etc.)
# Use a trauma-informed approach
* Use a [[Trauma-Informed Care|trauma-informed]] approach
# Avoid re-traumatisation of your patient
* Avoid re-traumatisation of your patient
# Be sensitive to unrevealed stories of captivity or torture
* Be sensitive to unrevealed stories of captivity or torture


== Pain and Disability Drivers Model ==
== Pain and Disability Drivers Model ==
The Pain and Disability Drivers Model (PDDM) provides an assessment frame to standardise healthcare providers' approach to managing gunshot injuries. It "identifies the domains driving pain and disability to guide clinical decisions." <ref>Longtin C, Décary S, Cook CE, Martel MO, Lafrenaye S, Carlesso LC, Naye F, Tousignant-Laflamme Y. Optimizing management of low back pain through the pain and disability drivers management model: A feasibility trial. PLoS One. 2021 Jan 20;16(1):e0245689.</ref>PDDM besets the multidimensional elements from the International Classification of Functioning, Disability and Health framework. This model includes the following five biopsychosocial domains that drive pain and disability:<ref name=":0">Naye F, Décary S, Tousignant-Laflamme Y. [https://archivesphysiotherapy.biomedcentral.com/articles/10.1186/s40945-022-00137-2 Development and content validity of a rating scale for the pain and disability drivers management model]. Arch Physiother 2022; 12(14).</ref>
Having an assessment framework to standardise rehabilitation approaches to complex injuries can be useful. The Pain and Disability Drivers Model (PDDM) was developed for the comprehensive management of low back pain, but it can be adapted to gunshot injuries. The PDDM "identifies the domains driving pain and disability to guide clinical decisions."<ref name=":4">Longtin C, Décary S, Cook CE, Martel MO, Lafrenaye S, Carlesso LC, Naye F, Tousignant-Laflamme Y. Optimizing management of low back pain through the pain and disability drivers management model: A feasibility trial. PLoS One. 2021 Jan 20;16(1):e0245689.</ref> It also incorporates the multidimensional elements from the International Classification of Functioning, Disability and Health Framework (ICF).<ref name=":4" />


# Nociceptive pain drivers
The PDDM includes the following five biopsychosocial domains that drive pain and disability:<ref name=":0">Naye F, Décary S, Tousignant-Laflamme Y. [https://archivesphysiotherapy.biomedcentral.com/articles/10.1186/s40945-022-00137-2 Development and content validity of a rating scale for the pain and disability drivers management model]. Arch Physiother 2022; 12(14).</ref>
# Nervous system dysfunction drivers
# Comorbidity factors
# Cognitive-emotional drivers
# Contextual drivers (social and environmental)


Each domain is divided into two categories: (1)modifiable drivers of pain and disability and (2)more complex and/or less modifiable elements. <ref name=":0" /> Based on the assessment results, the provider can weigh the relative contribution of each domain in the patient’s profile.<ref>Tousignant-Laflamme Y, Cook CE, Mathieu A, Naye F, Wellens F, Wideman T, Martel MO, Lam OT. Operationalization of the new Pain and Disability Drivers Management model: A modified Delphi survey of multidisciplinary pain management experts. J Eval Clin Pract. 2020 Feb;26(1):316-325. </ref>
# nociceptive pain drivers
# nervous system dysfunction drivers
# comorbidity factors
# cognitive and behavioural drivers
# contextual drivers (social and environmental)
 
Each domain is divided into two categories: (1) modifiable drivers of pain and disability and (2) more complex and / or less modifiable elements.<ref name=":0" /> Based on the assessment results, the provider can weigh up the relative contribution of each domain in the patient’s profile.<ref>Tousignant-Laflamme Y, Cook CE, Mathieu A, Naye F, Wellens F, Wideman T, Martel MO, Lam OT. Operationalization of the new Pain and Disability Drivers Management model: A modified Delphi survey of multidisciplinary pain management experts. J Eval Clin Pract. 2020 Feb;26(1):316-325. </ref>


=== Pain and Disability Drivers Model and Gunshot Injuries ===
=== Pain and Disability Drivers Model and Gunshot Injuries ===
In gunshot injuries, the PDDM allows the creation of a "comprehensive picture of the patient's clinical presentation". <ref name=":1">Altunbezel Z. Gunshot Injuries Assessment and Treatment Considerations. Plus course 2024</ref> Gunshot injuries can be complex and challenging, and people surviving gunshot injury live with long-term disabilities: <ref>Raza S, Thiruchelvam D, Redelmeier DA. [https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7850230/pdf/cmajo.20190200.pdf Death and long-term disability after gun injury: a cohort analysis.] CMAJ Open. 2020 Jul 14;8(3):E469-E478. </ref>
Gunshot injuries can be complex, and people who survive gunshot injuries may live with long-term disabilities:<ref>Raza S, Thiruchelvam D, Redelmeier DA. [https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7850230/pdf/cmajo.20190200.pdf Death and long-term disability after gun injury: a cohort analysis.] CMAJ Open. 2020 Jul 14;8(3):E469-E478. </ref>


* Pain or neurologic deficits associated with gunshot injury are severe and can become long-lasting <ref>Ajmal S, Enam SA, Shamim MS. Neurogenic claudication and radiculopathy as delayed presentations of the retained spinal bullet. Spine J. 2009 Oct;9(10):e5-8.</ref>
* pain or neurologic deficits associated with gunshot injury can be severe and long-lasting<ref>Ajmal S, Enam SA, Shamim MS. Neurogenic claudication and radiculopathy as delayed presentations of the retained spinal bullet. Spine J. 2009 Oct;9(10):e5-8.</ref>
* Anxiety, depression or other signs of stress affect 50% of patients with gunshot injury while in hospital<ref>Wiseman T, Foster K, Curtis K. Mental health following traumatic physical injury: an integrative literature review. Injury. 2013 Nov;44(11):1383-90. </ref>
* anxiety, depression or other signs of stress affect 50% of patients with gunshot injuries while they are in hospital, but these conditions are "poorly identified and treated in the acute hospital phase despite their effect on physical health"<ref>Wiseman T, Foster K, Curtis K. Mental health following traumatic physical injury: an integrative literature review. Injury. 2013 Nov;44(11):1383-90. </ref>
* Disfigurement following gunshot injury can cause further complications and mental health issues <ref>Smith RN, Seamon MJ, Kumar V, Robinson A, Shults J, Reilly PM, Richmond TS. Lasting impression of violence: Retained bullets and depressive symptoms. Injury. 2018 Jan;49(1):135-140.</ref>
* disfigurement following a gunshot injury can cause further complications and mental health issues<ref>Smith RN, Seamon MJ, Kumar V, Robinson A, Shults J, Reilly PM, Richmond TS. Lasting impression of violence: Retained bullets and depressive symptoms. Injury. 2018 Jan;49(1):135-140.</ref>
* Gunshot injuries affect sleeping, eating, working, and other previously taken-for-granted activities <ref>Lee J. Wounded: life after the shooting. The ANNALS of the American Academy of Political and Social Science. 2012 Jul;642(1):244-57.</ref>
* gunshot injuries can affect sleeping, eating, working, and other daily activities<ref>Lee J. Wounded: life after the shooting. The ANNALS of the American Academy of Political and Social Science. 2012 Jul;642(1):244-57.</ref>
 
<blockquote>The PDDM helps give a comprehensive picture of a patient's clinical presentation.<ref name=":1">Altunbezel Z. Gunshot Injuries Assessment and Treatment Considerations Course. Plus, 2024.</ref> </blockquote>When using the PDDM to '''''manage complex gunshot injuries''''', it may be difficult to know where to start. In these cases, it may be easier to follow the PDDM in ''reverse order'', beginning with contextual drivers:<ref name=":1" />
The '''''management of the gunshot injury''''' using PDDM should address contextual drivers first. It is a reversed model of PDDM as compared to PDDM used in patients with musculoskeletal conditions:<ref name=":1" />


<nowiki>#</nowiki>5. Nociceptive pain drivers
<nowiki>#</nowiki>5. Nociceptive pain drivers
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<nowiki>#</nowiki>3. Comorbidity factors
<nowiki>#</nowiki>3. Comorbidity factors


<nowiki>#</nowiki>2. Cognitive-emotional drivers
<nowiki>#</nowiki>2. Cognitive and behavioural drivers


<nowiki>#</nowiki>1. Contextual drivers (social and environmental)
<nowiki>#</nowiki>1. Contextual drivers (social and environmental)


The PDDM in gunshot injuries is based on the following factors:<ref name=":1" />
== General Assessment and Intervention Principles in Gunshot Injuries ==


* Addressing a negative or passive coping style first is necessary because the patient will not follow healthcare providers' advice on active lifestyle modifications related to their comorbidities
# Choose an assessment framework to standardise your approach: the PDDM is one example of a framework that can be used for the assessment and treatment of gunshot injuries
* Addressing central sensitisation issues is required for successful peripheral interventions
 
== Basic Rules for the Assessment and Interventions in the Gunshot Injuries ==
 
# Use PDDM for assessment and a reverse PDDM for interventions
# Choose an assessment frame to standardise your approach
# Use outcome measures when appropriate
# Use outcome measures when appropriate
# Focus on providing self-capacity to your patients and refer them to required services
# Focus on ensuring self-capacity or self-management in patients and refer them to additional services as needed
# Select treatment tools based on the combat field's reality and the PDDM examination findings
# Select relevant treatment tools based on the findings in the PDDM (or other relevant framework)
# Prioritise the domains that most impact an individual's recovery and try to provide them with some tools and relief.
# When time is limited, prioritise the domains that most impact an individual's recovery and try to provide them with some management tools and relief


=== General Goals ===
=== General Aim of Rehabilitation ===
<blockquote>The primary goal of all interventions in gunshot injuries is to ensure patient compliance and sustainability of rehabilitation activities. The treatment is usually lengthy, and there may not be enough allocated time to address every problem the patient presents with.--Zafer Altunbezel </blockquote>
<blockquote>''Our general aim is to ensure compliance and sustainability of rehabilitation activities'' "because in most gunshot injury cases, the treatment will take some [...] time, and you alone won't be able to allocate that time for all your patients. So, patients should be able to deal with [their] own situation in the mid and long term after their discharge from your rehabilitation setting."<ref name=":1" /> -- Zafer Altunbezel </blockquote>


== #5: N'''ociceptive Pain Drivers''' ==
== N'''ociceptive Pain Drivers''' ==
'''Modifiable factors:'''<ref name=":1" />
'''Modifiable factors:'''<ref name=":1" />


* Functional mobility deficits are due to some joint limitations after immobilisation.
* functional mobility deficits that are due to reversible joint limitations after immobilisation or impaired myofascial flexibility
* Impaired myofascial flexibility.
* functional stability deficits due to muscle imbalance or impaired movement patterns
* Functional stability deficits due to muscle imbalances or impaired movement patterns.


'''Less modifiable factors:'''<ref name=":1" />
'''Less modifiable factors:'''<ref name=":1" />


* Structural mobility deficits in the form of fixed deformity after the complex fractures.
* structural mobility deficits in the form of fixed deformity after complex fractures or excessive scarring around the gunshot injury (may cause neural or vascular compromise)
* Excessive scarring around the gunshot area due to neural or vascular compromise.
* structural stability deficits due to joint, ligament and tendon injury or muscle wasting
* Structural stability deficits are due to damaged joints, torn ligaments, tendons, or muscle wasting.
* general deconditioning, especially after prolonged treatment / immobilisation
* General deconditioning as a result of a prolonged immobilisation.


=== N'''ociceptive Pain Drivers''' Therapeutic Management ===
=== N'''ociceptive Pain Drivers''' Therapeutic Management ===


# Patient Education:<ref name=":1" />  
* Patient education:<ref name=":1" />  
#* Explain how physiotherapy or how your intervention works
** explain how rehabilitation (e.g. physiotherapy, occupational therapy, etc.) and your suggested intervention work
#* Explain what is expected from the patient
** explain what the patient needs to do to get results
#* Explain the goal and principles of the patient's active participation in the treatment
** provide education on the importance of the patient's ''active'' participation in treatment
#* Explain the need to exercise to regain strength and function
** emphasise the need for them to exercise to regain strength and function
# Modalities:<ref name=":1" />
* Modalities might include:<ref name=":1" />
#* [[Transcutaneous Electrical Nerve Stimulation (TENS)|Transcutaneous Electrical Nerve Stimulation]] (TENS) for pain control.<ref>Vance CG, Dailey DL, Rakel BA, Sluka KA. [https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4186747/pdf/nihms620660.pdf Using TENS for pain control: the state of the evidence.] Pain Manag. 2014 May;4(3):197-209. </ref>  
** [[Transcutaneous Electrical Nerve Stimulation (TENS)|transcutaneous electrical nerve stimulation]] (TENS) for pain control<ref>Vance CG, Dailey DL, Rakel BA, Sluka KA. [https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4186747/pdf/nihms620660.pdf Using TENS for pain control: the state of the evidence.] Pain Manag. 2014 May;4(3):197-209. </ref>  
#* [[Cryotherapy|Cold]] for inflammation at the initial phases. ''Note'': "When considering a cryotherapy protocol for treating soft-tissue injuries, variables such as its forms, local or whole-body, physical agents, cooling temperature, and time duration must be well-designed and controlled." <ref>Wang ZR, Ni GX. [https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8173427/pdf/WJCC-9-4116.pdf Is it time to put traditional cold therapy in rehabilitation of soft-tissue injuries out to pasture?] World J Clin Cases. 2021 Jun 16;9(17):4116-4122.</ref>
** [[Cryotherapy|cold]] in initial stages - ''please note'' that evidence on the use of ice for soft tissue injuries is evolving,<ref name=":5">Wang ZR, Ni GX. [https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8173427/pdf/WJCC-9-4116.pdf Is it time to put traditional cold therapy in rehabilitation of soft-tissue injuries out to pasture?] World J Clin Cases. 2021 Jun 16;9(17):4116-4122.</ref> but it has been shown to have pain-relieving effects for post-operative pain<ref>Muaddi H, Lillie E, Silva S, Cross JL, Ladha K, Choi S, Mocon A, Karanicolas P. The effect of cryotherapy application on postoperative pain: a systematic review and meta-analysis. Ann Surg. 2023 Feb 1;277(2):e257-e265. </ref>  
#* [[Thermotherapy|Heating agents]] as a supportive tool to address joint stiffness and soft tissue stiffness.
** [[Thermotherapy|heating agents]] as a supportive tool for addressing joint and soft tissue stiffness
# [[Manual Therapy|Manual therapy:]]<ref name=":1" />
* [[Manual Therapy|Manual therapy:]]<ref name=":1" />
#* Joint traction and glides to address joint stiffness.
** joint traction and glides to address joint stiffness
#* [[Scar Management|Scar mobilisation]] if it is useful and necessary
** [[Scar Management|scar mobilisation]] where indicated
#Exercises<ref>Kinney M, Seider J, Beaty AF, Coughlin K, Dyal M, Clewley D. The impact of therapeutic alliance in physical therapy for chronic musculoskeletal pain: A systematic review of the literature. Physiother Theory Pract. 2020 Aug;36(8):886-898.</ref>
*Exercise<ref>Kinney M, Seider J, Beaty AF, Coughlin K, Dyal M, Clewley D. The impact of therapeutic alliance in physical therapy for chronic musculoskeletal pain: A systematic review of literature. Physiother Theory Pract. 2020 Aug;36(8):886-898.</ref>


== #4: Nervous System Dysfunction Drivers''' ==
== Nervous System Dysfunction Drivers''' ==
Gunshot injuries are likely to have a neural component due to that cavitation effect, which can easily disturb the surrounding nerves.<ref name=":1" />
Gunshot injuries are highly likely to have a neural component because the cavitation effect can easily disturb the surrounding nerves.<ref name=":1" />


'''Modifiable factors:'''<ref name=":1" />
'''Modifiable factors:'''<ref name=":1" />


* [[Radiculopathy]] or radicular symptoms due to some nerve root compromise.
* [[radiculopathy]] or radicular symptoms due to nerve root compromise
* Abnormal impulse generating sites(AIGS): demyelinated axonal zones along the nerve tract, especially around the gunshot injury zone as a result of excessive scarring, excessive pressure or excessive tension. It is characterised by spontaneous upward and downward pain radiation and can lead to the development of central sensitisation. AIGS can be identified by applying neurodynamic tests.
* abnormal impulse-generating sites (AIGS):
** demyelinated axonal zones develop along the nerve tract, especially around the gunshot injury zone, because of excessive scarring, excessive pressure or excessive tension in this area
** characterised by spontaneous upward and downward pain radiation
** can lead to the development of central sensitisation
** AIGS can be identified through [[Neurodynamic Assessment|neurodynamic tests]]


'''Less modifiable factors:'''<ref name=":1" />
'''Less modifiable factors:'''<ref name=":1" />


* Peripheral nerve injuries
* peripheral nerve injuries
* Neuropathic pain as a result of gunshot injury or surgeries related to gunshot injuries
* neuropathic pain as a direct result of the gunshot injury or surgeries related to the injury
* Central sensitisation <ref name=":2">Volcheck MM, Graham SM, Fleming KC, Mohabbat AB, Luedtke CA. Central sensitization, chronic pain, and other symptoms: Better understanding, better management. Cleve Clin J Med. 2023 Apr 3;90(4):245-254. </ref>
* central sensitisation<ref name=":2">Volcheck MM, Graham SM, Fleming KC, Mohabbat AB, Luedtke CA. Central sensitization, chronic pain, and other symptoms: Better understanding, better management. Cleve Clin J Med. 2023 Apr 3;90(4):245-254. </ref>


=== N'''ervous System Dysfunction Drivers Assessment''' ===
=== N'''ervous System Dysfunction Drivers Assessment''' ===
The neurological assessment should include the following components:<ref name=":1" />
The neurological assessment should include the following components:<ref name=":1" />


* Fundamental [[Sensory Impairment|sensory]] and [[Motor Assessment Scale|motor]] examination
* general [[Neurological Screen|sensory and motor examination]]
* [[Neurodynamic Assessment|Neurodynamic tests]]
* [[Neurodynamic Assessment|neurodynamic tests]]
* Neuropalpation
* neuro palpation
* Outcome measures:
* outcome measures:
** [[DN4 questionnaire|DN4]] (Douleur Neuropathique en 4 Questions)  
** [[DN4 questionnaire|DN4]] (Douleur Neuropathique en 4 Questions)  
** LANNS ([[Leeds Assessment of Neuropathic Symptoms and Signs (LANSS)|Leeds Assessment of Neuropathic Symptoms and Signs]])  
** LANNS ([[Leeds Assessment of Neuropathic Symptoms and Signs (LANSS)|Leeds Assessment of Neuropathic Symptoms and Signs]])  
** [[Central Sensitisation Inventory]]
** CSI ([[Central Sensitisation Inventory]])


=== N'''ervous System Dysfunction Drivers Therapeutic Management''' ===
=== N'''ervous System Dysfunction Drivers Therapeutic Management''' ===


* Patient Education about pain neuroscience  
* Patient education on pain neuroscience
* Modalities: TENS
* Modalities, such as TENS
* Manual therapy, scar mobilisation, soft tissue interventions from a nervous compromise due to internal scarring. <ref>Jiménez-Del-Barrio S, Cadellans-Arróniz A, Ceballos-Laita L, Estébanez-de-Miguel E, López-de-Celis C, Bueno-Gracia E, Pérez-Bellmunt A. [https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8782801/pdf/264_2021_Article_5272.pdf The effectiveness of manual therapy on pain, physical function, and nerve conduction studies in carpal tunnel syndrome patients: a systematic review and meta-analysis.] Int Orthop. 2022 Feb;46(2):301-312. </ref>'' Warning'': maintain caution due to the possibility of retained fragments. Some fragments can be risky to mobilise, and it is necessary to '''receive approval from the surgical team'''.  
* Manual therapy, scar mobilisation, and soft tissue interventions for nerve compromise associated with internal scarring.<ref>Jiménez-Del-Barrio S, Cadellans-Arróniz A, Ceballos-Laita L, Estébanez-de-Miguel E, López-de-Celis C, Bueno-Gracia E, Pérez-Bellmunt A. [https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8782801/pdf/264_2021_Article_5272.pdf The effectiveness of manual therapy on pain, physical function, and nerve conduction studies in carpal tunnel syndrome patients: a systematic review and meta-analysis.] Int Orthop. 2022 Feb;46(2):301-312. </ref>'' Warning'': be careful about any retained fragments. It can be risky to mobilise some fragments, and you must '''get approval from the surgical team''' before attempting these techniques.
* [[Mirror Therapy|Mirror therapy]], [[Graded Motor Imagery|graded motor imagery]] in the neuropathic pain or central sensitisation<ref name=":2" />
* [[Mirror Therapy|Mirror therapy]], [[Graded Motor Imagery|graded motor imagery]] for neuropathic pain or central sensitisation<ref name=":2" />
* Referral to speciality services for medical or surgical management
* Referral to specialist services for medical or surgical management
== #3: C'''omorbidity Factors''' ==
== C'''omorbidity Drivers''' ==
'''Modifiable factors:'''<ref name=":1" />
'''Modifiable factors:'''<ref name=":1" />


* Sleep disturbance: a patient suffering from post-traumatic stress disorder, depression or anxiety are at high risk of developing sleep disturbance <ref>Burgess HJ, Burns JW, Buvanendran A, Gupta R, Chont M, Kennedy M, Bruehl S. [https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6551250/pdf/nihms-1523407.pdf Associations Between Sleep Disturbance and Chronic Pain Intensity and Function: A Test of Direct and Indirect Pathways.] Clin J Pain. 2019 Jul;35(7):569-576.</ref><ref>Kind S, Otis JD. The Interaction Between Chronic Pain and PTSD. Curr Pain Headache Rep. 2019 Nov 28;23(12):91. </ref>
* sleep disturbance: patients who have post-traumatic stress disorder, depression or anxiety are at high risk of developing sleep issues<ref>Burgess HJ, Burns JW, Buvanendran A, Gupta R, Chont M, Kennedy M, Bruehl S. [https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6551250/pdf/nihms-1523407.pdf Associations Between Sleep Disturbance and Chronic Pain Intensity and Function: A Test of Direct and Indirect Pathways.] Clin J Pain. 2019 Jul;35(7):569-576.</ref><ref>Kind S, Otis JD. The Interaction Between Chronic Pain and PTSD. Curr Pain Headache Rep. 2019 Nov 28;23(12):91. </ref>
* Musculoskeletal problems
* musculoskeletal problems
'''Less modifiable factors:'''<ref name=":1" />
'''Less modifiable factors:'''<ref name=":1" />
* [[Diabetes]]: can lead to nervous system dysfunctions like diabetic neuropathy <ref>Rosenberger DC, Blechschmidt V, Timmerman H, Wolff A, Treede RD. [https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7148276/pdf/702_2020_Article_2145.pdf Challenges of neuropathic pain: focus on diabetic neuropathy.] J Neural Transm (Vienna). 2020 Apr;127(4):589-624. </ref>
* [[diabetes]]: can lead to nervous system dysfunctions, such as diabetic neuropathy<ref>Rosenberger DC, Blechschmidt V, Timmerman H, Wolff A, Treede RD. [https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7148276/pdf/702_2020_Article_2145.pdf Challenges of neuropathic pain: focus on diabetic neuropathy.] J Neural Transm (Vienna). 2020 Apr;127(4):589-624. </ref>
* Visceral damage in the thoracic or abdominal gunshot injuries
* visceral damage in the thoracic / abdominal areas from gunshot injuries


=== Comorbidity Factors Assessment ===
=== Comorbidity Drivers Assessment ===


* Outcome measures:<ref name=":1" />
* Outcome measures:<ref name=":1" />
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** [https://www.svri.org/sites/default/files/attachments/2016-01-13/HADS.pdf Hospital Anxiety and Depression Scale]
** [https://www.svri.org/sites/default/files/attachments/2016-01-13/HADS.pdf Hospital Anxiety and Depression Scale]


=== Comorbidity Factors Management ===
=== Comorbidity Drivers Management ===


* Patient Education
* Patient education
* [[Relaxation Techniques|Relaxation]] for sleep disturbance
* [[Relaxation Techniques|Relaxation]] for sleep disturbance
* Lifestyle modifications in case of diabetes, smoking or substance abuse
* Relevant lifestyle modifications / interventions for diabetes, smoking or substance abuse
* [[Aerobic Exercise|Aerobic exercise]] for musculoskeletal problems
* [[Aerobic Exercise|Exercise]]  
* Referrals to adequate services: internal disease specialist, psychiatrist, or psychologist.
* Referral to appropriate services: internal disease specialist, psychiatrist, psychologist, etc.


== #2: C'''ognitive and Behavioural Drivers''' ==
== C'''ognitive and Behavioural Drivers''' ==


* Unhelpful beliefs and thoughts that can be related to the pain, injury, or treatment received
* Unhelpful beliefs and thoughts that can be related to pain, the injury, or treatment received
* Pain catastrophizing that might cause an excessive fear towards movement and pain<ref>Martinez-Calderon J, Jensen MP, Morales-Asencio JM, Luque-Suarez A. Pain Catastrophizing and Function In Individuals With Chronic Musculoskeletal Pain: A Systematic Review and Meta-Analysis. Clin J Pain. 2019 Mar;35(3):279-293. </ref>
* Pain catastrophising might cause an excessive fear of movement and pain<ref>Martinez-Calderon J, Jensen MP, Morales-Asencio JM, Luque-Suarez A. Pain Catastrophizing and Function In Individuals With Chronic Musculoskeletal Pain: A Systematic Review and Meta-Analysis. Clin J Pain. 2019 Mar;35(3):279-293. </ref>
* Passive coping style  
* Passive coping style  


=== C'''ognitive and Behavioural Drivers Assessment''' ===
=== C'''ognitive and Behavioural Drivers Assessment''' ===


* Observation during intervention
* Observation during interventions
* Informal talk
* Informal talk during treatment sessions
* Outcome measures:
* Outcome measures:
** [[Pain Catastrophizing Scale]]
** [[Pain Catastrophizing Scale]]
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=== C'''ognitive and Behavioural Drivers Management''' ===
=== C'''ognitive and Behavioural Drivers Management''' ===


* Patient Education
* Patient education
* Pain diaries  
* Pain diaries  
* [[Cognitive Behavioural Therapy|Cognitive behavioural therapy]] (CBT)  
* [[Cognitive Behavioural Therapy|Cognitive behavioural therapy]] (CBT)  
* Referral to a mental health and psychosocial support specialist (MHPSS)
* Referral to an appropriate mental health and psychosocial support specialist (MHPSS) when necessary


== #1: Contextual Drivers (S'''ocial or Environmental Factors)''' ==
== Contextual Drivers (S'''ocial or Environmental Factors)''' ==


* Factors related to being a military personnel or combatant, such as excessive fear of sending back to the frontline.
* Factors related to being a military-combatant, including:
* Unrealistic expectations related to returning to the battlefield 
** extreme fear of being sent back to the frontline
* Concerns related to access to basic needs after or during the treatment (shelter, food, basic needs)
** having unrealistic expectations about recovery fuelled by a motivation to get back to the frontline
*Livelihood concerns
* Concerns about basic needs being met during and after treatment (e.g. shelter, food, etc.)
* Poor family or social support
* Poor family or social support
* Losses experienced among the patient's families or loved ones
* Losses experienced (e.g. patient's family members or loved ones)


=== Contextual Drivers Management ===
=== Contextual Drivers Management ===


* Referral to adequate services
* Referral to appropriate services as needed


== [https://www.rehab.research.va.gov/jour/07/44/2/pdf/Clark.pdf Resources] ==
== Resources  ==
*Gray H, Stern M.  [https://journals.sagepub.com/doi/epub/10.1177/1354066119832074 Risky dis/entanglements: Torture and sexual violence in conflict]. European Journal of International Relations 2019; 25(4): 1035-1058.
*Gray H, Stern M.  [https://journals.sagepub.com/doi/epub/10.1177/1354066119832074 Risky dis/entanglements: Torture and sexual violence in conflict]. European Journal of International Relations 2019; 25(4): 1035-1058.
*Clark ME, Bair MJ, Buckenmaier III CC, Gironda RJ, Walker RL. [https://www.rehab.research.va.gov/jour/07/44/2/pdf/clark.pdf Pain and combat injuries in soldiers returning from Operations Enduring Freedom and Iraqi Freedom: implications for research and practice.] Journal of Rehabilitation Research & Development. 2007 Mar 1;44(2).
*Clark ME, Bair MJ, Buckenmaier III CC, Gironda RJ, Walker RL. [https://www.rehab.research.va.gov/jour/07/44/2/pdf/clark.pdf Pain and combat injuries in soldiers returning from Operations Enduring Freedom and Iraqi Freedom: implications for research and practice.] Journal of Rehabilitation Research & Development. 2007 Mar 1;44(2).
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[[Category:Rehabilitation]]

Latest revision as of 12:56, 1 May 2024

Original Editor - Zafer Altunbezel

Top Contributors - Ewa Jaraczewska and Jess Bell  

Introduction[edit | edit source]

Gunshot injuries in civilian and military populations can have serious long-term health and socioeconomic consequences.[1] Primary injuries following ballistic trauma include soft-tissue damage and loss, haemorrhage, bone fracture, nerve and vascular injuries and pain.[1] These injuries can lead to disability, extended hospitalisations, and reduced quality of life. Identification and management of firearm-related impairments require a team approach and individual skills to prioritise interventions and enhance outcomes. This page provides an in-depth review of the Pain and Disability Drivers Model, which can be used to assess and treat gunshot injuries.

General Management Principles for Individuals with Gunshot Injuries[edit | edit source]

  • Build trust and a therapeutic alliance with your patient
  • Explain your role and abilities
  • Be realistic and set your patient's expectations
  • Agree on mutual goals and responsibilities with your patient
  • Collect comprehensive information related to your patient's history (e.g. history of injuries, previous surgical interventions, presence of retained fragments, past complications, previous treatments etc.)
  • Use a trauma-informed approach
  • Avoid re-traumatisation of your patient
  • Be sensitive to unrevealed stories of captivity or torture

Pain and Disability Drivers Model[edit | edit source]

Having an assessment framework to standardise rehabilitation approaches to complex injuries can be useful. The Pain and Disability Drivers Model (PDDM) was developed for the comprehensive management of low back pain, but it can be adapted to gunshot injuries. The PDDM "identifies the domains driving pain and disability to guide clinical decisions."[2] It also incorporates the multidimensional elements from the International Classification of Functioning, Disability and Health Framework (ICF).[2]

The PDDM includes the following five biopsychosocial domains that drive pain and disability:[3]

  1. nociceptive pain drivers
  2. nervous system dysfunction drivers
  3. comorbidity factors
  4. cognitive and behavioural drivers
  5. contextual drivers (social and environmental)

Each domain is divided into two categories: (1) modifiable drivers of pain and disability and (2) more complex and / or less modifiable elements.[3] Based on the assessment results, the provider can weigh up the relative contribution of each domain in the patient’s profile.[4]

Pain and Disability Drivers Model and Gunshot Injuries[edit | edit source]

Gunshot injuries can be complex, and people who survive gunshot injuries may live with long-term disabilities:[5]

  • pain or neurologic deficits associated with gunshot injury can be severe and long-lasting[6]
  • anxiety, depression or other signs of stress affect 50% of patients with gunshot injuries while they are in hospital, but these conditions are "poorly identified and treated in the acute hospital phase despite their effect on physical health"[7]
  • disfigurement following a gunshot injury can cause further complications and mental health issues[8]
  • gunshot injuries can affect sleeping, eating, working, and other daily activities[9]

The PDDM helps give a comprehensive picture of a patient's clinical presentation.[10]

When using the PDDM to manage complex gunshot injuries, it may be difficult to know where to start. In these cases, it may be easier to follow the PDDM in reverse order, beginning with contextual drivers:[10]

#5. Nociceptive pain drivers

#4. Nervous system dysfunction drivers

#3. Comorbidity factors

#2. Cognitive and behavioural drivers

#1. Contextual drivers (social and environmental)

General Assessment and Intervention Principles in Gunshot Injuries[edit | edit source]

  1. Choose an assessment framework to standardise your approach: the PDDM is one example of a framework that can be used for the assessment and treatment of gunshot injuries
  2. Use outcome measures when appropriate
  3. Focus on ensuring self-capacity or self-management in patients and refer them to additional services as needed
  4. Select relevant treatment tools based on the findings in the PDDM (or other relevant framework)
  5. When time is limited, prioritise the domains that most impact an individual's recovery and try to provide them with some management tools and relief

General Aim of Rehabilitation[edit | edit source]

Our general aim is to ensure compliance and sustainability of rehabilitation activities "because in most gunshot injury cases, the treatment will take some [...] time, and you alone won't be able to allocate that time for all your patients. So, patients should be able to deal with [their] own situation in the mid and long term after their discharge from your rehabilitation setting."[10] -- Zafer Altunbezel

Nociceptive Pain Drivers[edit | edit source]

Modifiable factors:[10]

  • functional mobility deficits that are due to reversible joint limitations after immobilisation or impaired myofascial flexibility
  • functional stability deficits due to muscle imbalance or impaired movement patterns

Less modifiable factors:[10]

  • structural mobility deficits in the form of fixed deformity after complex fractures or excessive scarring around the gunshot injury (may cause neural or vascular compromise)
  • structural stability deficits due to joint, ligament and tendon injury or muscle wasting
  • general deconditioning, especially after prolonged treatment / immobilisation

Nociceptive Pain Drivers Therapeutic Management[edit | edit source]

  • Patient education:[10]
    • explain how rehabilitation (e.g. physiotherapy, occupational therapy, etc.) and your suggested intervention work
    • explain what the patient needs to do to get results
    • provide education on the importance of the patient's active participation in treatment
    • emphasise the need for them to exercise to regain strength and function
  • Modalities might include:[10]
  • Manual therapy:[10]
    • joint traction and glides to address joint stiffness
    • scar mobilisation where indicated
  • Exercise[14]

Nervous System Dysfunction Drivers[edit | edit source]

Gunshot injuries are highly likely to have a neural component because the cavitation effect can easily disturb the surrounding nerves.[10]

Modifiable factors:[10]

  • radiculopathy or radicular symptoms due to nerve root compromise
  • abnormal impulse-generating sites (AIGS):
    • demyelinated axonal zones develop along the nerve tract, especially around the gunshot injury zone, because of excessive scarring, excessive pressure or excessive tension in this area
    • characterised by spontaneous upward and downward pain radiation
    • can lead to the development of central sensitisation
    • AIGS can be identified through neurodynamic tests

Less modifiable factors:[10]

  • peripheral nerve injuries
  • neuropathic pain as a direct result of the gunshot injury or surgeries related to the injury
  • central sensitisation[15]

Nervous System Dysfunction Drivers Assessment[edit | edit source]

The neurological assessment should include the following components:[10]

Nervous System Dysfunction Drivers Therapeutic Management[edit | edit source]

  • Patient education on pain neuroscience
  • Modalities, such as TENS
  • Manual therapy, scar mobilisation, and soft tissue interventions for nerve compromise associated with internal scarring.[16] Warning: be careful about any retained fragments. It can be risky to mobilise some fragments, and you must get approval from the surgical team before attempting these techniques.
  • Mirror therapy, graded motor imagery for neuropathic pain or central sensitisation[15]
  • Referral to specialist services for medical or surgical management

Comorbidity Drivers[edit | edit source]

Modifiable factors:[10]

  • sleep disturbance: patients who have post-traumatic stress disorder, depression or anxiety are at high risk of developing sleep issues[17][18]
  • musculoskeletal problems

Less modifiable factors:[10]

  • diabetes: can lead to nervous system dysfunctions, such as diabetic neuropathy[19]
  • visceral damage in the thoracic / abdominal areas from gunshot injuries

Comorbidity Drivers Assessment[edit | edit source]

Comorbidity Drivers Management[edit | edit source]

  • Patient education
  • Relaxation for sleep disturbance
  • Relevant lifestyle modifications / interventions for diabetes, smoking or substance abuse
  • Exercise
  • Referral to appropriate services: internal disease specialist, psychiatrist, psychologist, etc.

Cognitive and Behavioural Drivers[edit | edit source]

  • Unhelpful beliefs and thoughts that can be related to pain, the injury, or treatment received
  • Pain catastrophising might cause an excessive fear of movement and pain[20]
  • Passive coping style

Cognitive and Behavioural Drivers Assessment[edit | edit source]

Cognitive and Behavioural Drivers Management[edit | edit source]

  • Patient education
  • Pain diaries
  • Cognitive behavioural therapy (CBT)
  • Referral to an appropriate mental health and psychosocial support specialist (MHPSS) when necessary

Contextual Drivers (Social or Environmental Factors)[edit | edit source]

  • Factors related to being a military-combatant, including:
    • extreme fear of being sent back to the frontline
    • having unrealistic expectations about recovery fuelled by a motivation to get back to the frontline
  • Livelihood concerns
  • Concerns about basic needs being met during and after treatment (e.g. shelter, food, etc.)
  • Poor family or social support
  • Losses experienced (e.g. patient's family members or loved ones)

Contextual Drivers Management[edit | edit source]

  • Referral to appropriate services as needed

Resources[edit | edit source]

References[edit | edit source]

  1. 1.0 1.1 Moriscot A, Miyabara EH, Langeani B, Belli A, Egginton S, Bowen TS. Firearms-related skeletal muscle trauma: pathophysiology and novel approaches for regeneration. NPJ Regen Med. 2021 Mar 26;6(1):17.
  2. 2.0 2.1 Longtin C, Décary S, Cook CE, Martel MO, Lafrenaye S, Carlesso LC, Naye F, Tousignant-Laflamme Y. Optimizing management of low back pain through the pain and disability drivers management model: A feasibility trial. PLoS One. 2021 Jan 20;16(1):e0245689.
  3. 3.0 3.1 Naye F, Décary S, Tousignant-Laflamme Y. Development and content validity of a rating scale for the pain and disability drivers management model. Arch Physiother 2022; 12(14).
  4. Tousignant-Laflamme Y, Cook CE, Mathieu A, Naye F, Wellens F, Wideman T, Martel MO, Lam OT. Operationalization of the new Pain and Disability Drivers Management model: A modified Delphi survey of multidisciplinary pain management experts. J Eval Clin Pract. 2020 Feb;26(1):316-325.
  5. Raza S, Thiruchelvam D, Redelmeier DA. Death and long-term disability after gun injury: a cohort analysis. CMAJ Open. 2020 Jul 14;8(3):E469-E478.
  6. Ajmal S, Enam SA, Shamim MS. Neurogenic claudication and radiculopathy as delayed presentations of the retained spinal bullet. Spine J. 2009 Oct;9(10):e5-8.
  7. Wiseman T, Foster K, Curtis K. Mental health following traumatic physical injury: an integrative literature review. Injury. 2013 Nov;44(11):1383-90.
  8. Smith RN, Seamon MJ, Kumar V, Robinson A, Shults J, Reilly PM, Richmond TS. Lasting impression of violence: Retained bullets and depressive symptoms. Injury. 2018 Jan;49(1):135-140.
  9. Lee J. Wounded: life after the shooting. The ANNALS of the American Academy of Political and Social Science. 2012 Jul;642(1):244-57.
  10. 10.00 10.01 10.02 10.03 10.04 10.05 10.06 10.07 10.08 10.09 10.10 10.11 10.12 10.13 10.14 Altunbezel Z. Gunshot Injuries Assessment and Treatment Considerations Course. Plus, 2024.
  11. Vance CG, Dailey DL, Rakel BA, Sluka KA. Using TENS for pain control: the state of the evidence. Pain Manag. 2014 May;4(3):197-209.
  12. Wang ZR, Ni GX. Is it time to put traditional cold therapy in rehabilitation of soft-tissue injuries out to pasture? World J Clin Cases. 2021 Jun 16;9(17):4116-4122.
  13. Muaddi H, Lillie E, Silva S, Cross JL, Ladha K, Choi S, Mocon A, Karanicolas P. The effect of cryotherapy application on postoperative pain: a systematic review and meta-analysis. Ann Surg. 2023 Feb 1;277(2):e257-e265.
  14. Kinney M, Seider J, Beaty AF, Coughlin K, Dyal M, Clewley D. The impact of therapeutic alliance in physical therapy for chronic musculoskeletal pain: A systematic review of literature. Physiother Theory Pract. 2020 Aug;36(8):886-898.
  15. 15.0 15.1 Volcheck MM, Graham SM, Fleming KC, Mohabbat AB, Luedtke CA. Central sensitization, chronic pain, and other symptoms: Better understanding, better management. Cleve Clin J Med. 2023 Apr 3;90(4):245-254.
  16. Jiménez-Del-Barrio S, Cadellans-Arróniz A, Ceballos-Laita L, Estébanez-de-Miguel E, López-de-Celis C, Bueno-Gracia E, Pérez-Bellmunt A. The effectiveness of manual therapy on pain, physical function, and nerve conduction studies in carpal tunnel syndrome patients: a systematic review and meta-analysis. Int Orthop. 2022 Feb;46(2):301-312.
  17. Burgess HJ, Burns JW, Buvanendran A, Gupta R, Chont M, Kennedy M, Bruehl S. Associations Between Sleep Disturbance and Chronic Pain Intensity and Function: A Test of Direct and Indirect Pathways. Clin J Pain. 2019 Jul;35(7):569-576.
  18. Kind S, Otis JD. The Interaction Between Chronic Pain and PTSD. Curr Pain Headache Rep. 2019 Nov 28;23(12):91.
  19. Rosenberger DC, Blechschmidt V, Timmerman H, Wolff A, Treede RD. Challenges of neuropathic pain: focus on diabetic neuropathy. J Neural Transm (Vienna). 2020 Apr;127(4):589-624.
  20. Martinez-Calderon J, Jensen MP, Morales-Asencio JM, Luque-Suarez A. Pain Catastrophizing and Function In Individuals With Chronic Musculoskeletal Pain: A Systematic Review and Meta-Analysis. Clin J Pain. 2019 Mar;35(3):279-293.
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