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Annals of Plastic Surgery May 2022Neuromas, neuralgia, and phantom limb pain commonly occur after lower-extremity amputations; however, incidence of these issues is poorly reported and understood....
BACKGROUND
Neuromas, neuralgia, and phantom limb pain commonly occur after lower-extremity amputations; however, incidence of these issues is poorly reported and understood. Present literature is limited to small cohort studies of amputees, and the reported incidence of chronic pain after amputation ranges as widely as 0% to 80%. We sought to objectively investigate the incidence of postamputation pain and nerve-related complications after lower-extremity amputation.
METHODS
Patients who underwent lower-extremity amputation between 2007 and 2017 were identified using a national insurance-based claims database. Incidence of reporting of postoperative neuroma, neuralgia, and phantom limb pain were identified. Patient demographics and comorbidities were assessed. Average costs of treatment were determined in the year after lower-extremity amputation. Logistic regression analyses and resulting odds ratios were calculated to determine statistically significant increases in incidence of postamputation nerve-related pain complications in the setting of demographic factors and comorbidities.
RESULTS
There were 29,507 lower amputations identified. Postoperative neuralgia occurred in 4.4% of all amputations, neuromas in 0.4%, and phantom limb pain in 10.9%. Nerve-related pain complications were most common in through knee amputations (20.3%) and below knee amputations (16.7%). Male sex, Charlson Comorbidity Index > 3, diabetes mellitus, diabetic neuropathy, diabetic angiopathy, diabetic retinopathy, obesity, peripheral vascular disease, and tobacco abuse were associated with statistically significant increases in incidence of 1-year nerve-related pain or phantom limb pain.
CONCLUSIONS
Given the incidence of these complications after operative extremity amputations and associated increased treatment costs, future research regarding their pathophysiology, treatment, and prevention would be beneficial to both patients and providers.
Topics: Amputation, Surgical; Amputation Stumps; Humans; Lower Extremity; Male; Neuralgia; Neuroma; Phantom Limb; Retrospective Studies
PubMed: 35443269
DOI: 10.1097/SAP.0000000000003009 -
Scandinavian Journal of Pain Jan 2022The population of Americans with limb loss is on the rise, with a different profile than in previous generations (e.g., greater incidence of amputation due to diabetes)....
OBJECTIVES
The population of Americans with limb loss is on the rise, with a different profile than in previous generations (e.g., greater incidence of amputation due to diabetes). This study aimed to identify the key characteristics of phantom limb sensation (PLS) and pain (PLP) in a current sample of Americans with limb loss.
METHODS
This cross-sectional study is the first large-scale (n=649) study on PLP in the current population of Americans with limb loss. A convenience sample of military and civilian persons missing one or more major limbs was surveyed regarding their health history and experience with phantom limb phenomena.
RESULTS
Of the participants surveyed, 87% experienced PLS and 82% experienced PLP. PLS and PLP typically first occurred immediately after amputation (47% of cases), but for a small percentage (3-4%) onset did not occur until over a year after amputation. Recent PLP severity decreased over time (β=0.028, 95% CI: -0.05-0.11), but most participants reported PLP even 10 years after amputation. Higher levels of recent PLP were associated with telescoping (β=0.123, 95% CI: 0.04-0.21) and higher levels of pre-amputation pain (β=0.104, 95% CI: 0.03-0.18). Those with congenitally missing limbs experienced lower levels of recent PLP (t (37.93)=3.93, p<0.01) but there were no consistent differences in PLP between other amputation etiologies.
CONCLUSIONS
Phantom limb phenomena are common and enduring. Telescoping and pre-amputation pain are associated with higher PLP. Persons with congenitally missing limbs experience lower levels of PLP than those with amputation(s), yet PLP is common even in this subpopulation.
Topics: Amputation, Surgical; Amputees; Cross-Sectional Studies; Humans; Incidence; Phantom Limb
PubMed: 34529903
DOI: 10.1515/sjpain-2021-0139 -
Cognitive and Behavioral Neurology :... Jun 2021After tissue or limb loss, the development of sensation and perception of the lost or deafferent tissue is defined as a phantom phenomenon. We investigated the presence...
After tissue or limb loss, the development of sensation and perception of the lost or deafferent tissue is defined as a phantom phenomenon. We investigated the presence of phantom phenomena in individuals who underwent a full face transplant as well as those who had a hand transplant. Specifically, we investigated sensory perception of the face on the fingers and sensory perception of the fingers on the face in three full face and four hand transplant patients. In all seven individuals, we used a brush to separately stimulate the right and left sides of the face or the palmar and dorsal faces of the hand. We then asked the individuals if they felt a sensation of touch on any other part of their body and, if so, to describe their perceptions. Changes in the regions of the primary sensory cortex representing the hand and face were defined using fMRI obtained via tactile sensory stimulation of the clinical examination areas. Two of the full face transplant patients reported sensory perceptions such as a prominent sensation of touch on their faces during sensory stimulation of their fingers. Three of the hand transplant patients reported sensory perceptions, which we referred to as finger patches, during sensory stimulation of the face area. In fMRI, overlaps were observed in the cortical hand and face representation areas. We consider the phantom hand and phantom face phenomena we observed to be complementary due to the neighborhood of the representations of the hand and face in the somatosensory cortex.
Topics: Face; Fingers; Hand; Hand Transplantation; Humans; Phantom Limb; Somatosensory Cortex; Touch; Touch Perception
PubMed: 34074869
DOI: 10.1097/WNN.0000000000000258 -
World Journal of Clinical Cases Sep 2022Painful conditions are probably among the most frequent reasons for seeking medical advice and assistance. Although pain is a common complaint among psychiatric... (Review)
Review
Painful conditions are probably among the most frequent reasons for seeking medical advice and assistance. Although pain is a common complaint among psychiatric patients, clinicians generally separate its presence from the background mental disorder and downplay its importance, trying primarily to control the psychiatric symptomatology. As a sensory modality, the presence of pain and its importance account for an impressive body of scholarly research. Cartesian methodology considered sensations of all modalities in a mechanistic form, which actually sounds obsolete. However, authors have continuously been faced with the same dilemmas plaguing scholars for centuries. We assume that a large portion of the sensory inputs might be generators of distorted perceptions, which subsequently lead to psychopathology. Auditory and visual hallucinations are incontestable examples. Somaesthetic hallucinations also exist, but pain hardly deserves such a denomination. Nevertheless, chronic pain and psychiatric comorbidity is a reality that needs explanation. Painkillers are not effective in treating psychiatric disorders, and antipsychotics do very little, perhaps nothing, to relieve pain. The pharmacological approach opens one door on the horizon and closes many others, while clinicians continue to face a high prevalence of comorbid pain and mental health issues. However, attempts to correlate altered body schemata (as distorted as it may be, for example, in phantom limb pain) with somatic delusions can simplify all these dilemmas, and the basket of psychophysiology, in fact, might be bigger than presumed.
PubMed: 36186191
DOI: 10.12998/wjcc.v10.i27.9550 -
PM & R : the Journal of Injury,... Mar 2023Following lower-limb amputation, phantom limb pain (i.e., pain perceived as coming from the amputated portion of the limb) is common. Phantom limb pain may be associated...
BACKGROUND
Following lower-limb amputation, phantom limb pain (i.e., pain perceived as coming from the amputated portion of the limb) is common. Phantom limb pain may be associated with impaired body image and perception, which may be targets for rehabilitative intervention.
OBJECTIVE
To compare measures of body image and perception between adults with and without phantom limb pain post amputation and evaluate associations between measures of body image and perception and phantom limb pain.
DESIGN
Survey.
SETTING
Online, remote assessment.
PARTICIPANTS
Seventy-two adults ≥1 year post unilateral lower-limb loss (n = 42 with phantom limb pain, n = 30 without phantom limb pain or pain in the remaining portion of the limb).
INTERVENTIONS
Not applicable.
MAIN OUTCOME MEASURES
Self-reported outcome measures assessing body image (i.e., Amputee Body Image Scale-Revised), perceptual disturbances associated with the phantom limb (i.e., a modified Bath Complex Regional Pain Syndrome Body Perception Disturbance Scale), and prosthesis satisfaction (i.e., Trinity Amputation and Prosthesis Experience Scale) were administered; participants with phantom limb pain reported pain interference via the Brief Pain Inventory-Short Form. Between-group comparisons of self-reported outcome measure scores were conducted using Mann Whitney U or chi-square tests, as appropriate (a = .05).
RESULTS
Compared to peers without phantom limb pain, adults with phantom limb pain reported more negative body image; increased phantom limb ownership, attention, and awareness; and reduced prosthesis satisfaction and embodiment (U = 175.50-364.00, p < .001 to .034). Disturbances in phantom limb perception (i.e., size, weight, pressure, temperature) were similar between groups (p = .086 to >.999). More negative body image was associated with increased phantom limb pain interference (τ = .25, p = .026).
CONCLUSIONS
Adults with phantom limb pain demonstrate more negative body image and hypervigilance of the phantom limb as compared to peers with nonpainful phantom sensations. Mind-body treatments that target impaired body image and perception may be critical interventions for adults with phantom limb pain.
Topics: Adult; Humans; Phantom Limb; Body Image; Amputation, Surgical; Lower Extremity; Amputees; Artificial Limbs
PubMed: 34914201
DOI: 10.1002/pmrj.12750 -
Vascular and Endovascular Surgery Feb 2024Phantom limb pain (PLP) and symptomatic neuroma can be debilitating and significantly impact the quality of life of amputees. However, the prevalence of PLP and... (Meta-Analysis)
Meta-Analysis
BACKGROUND
Phantom limb pain (PLP) and symptomatic neuroma can be debilitating and significantly impact the quality of life of amputees. However, the prevalence of PLP and symptomatic neuromas in patients following dysvascular lower limb amputation (LLA) has not been reliably established. This systematic review and meta-analysis evaluates the prevalence and incidence of phantom limb pain and symptomatic neuroma after dysvascular LLA.
METHODS
Four databases (Embase, MEDLINE, Cochrane Central, and Web of Science) were searched on October 5, 2022. Prospective or retrospective observational cohort studies or cross-sectional studies reporting either the prevalence or incidence of phantom limb pain and/or symptomatic neuroma following dysvascular LLA were identified. Two reviewers independently conducted the screening, data extraction, and the risk of bias assessment according to the PRISMA guidelines. To estimate the prevalence of phantom limb pain, a meta-analysis using a random effects model was performed.
RESULTS
Twelve articles were included in the quantitative analysis, including 1924 amputees. A meta-analysis demonstrated that 69% of patients after dysvascular LLA experience phantom limb pain (95% CI 53-86%). The reported pain intensity on a scale from 0-10 in LLA patients ranged between 2.3 ± 1.4 and 5.5 ± .7. A single study reported an incidence of symptomatic neuroma following dysvascular LLA of 5%.
CONCLUSIONS
This meta-analysis demonstrates the high prevalence of phantom limb pain after dysvascular LLA. Given the often prolonged and disabling nature of neuropathic pain and the difficulties managing it, more consideration needs to be given to strategies to prevent it at the time of amputation.
Topics: Humans; Phantom Limb; Retrospective Studies; Cross-Sectional Studies; Quality of Life; Prospective Studies; Treatment Outcome; Amputation, Surgical; Neuroma; Extremities; Lower Extremity
PubMed: 37616476
DOI: 10.1177/15385744231197097 -
Anesthesiology Clinics Dec 2022Cardiovascular disease affects close to half of the United States population and many of these patients will develop chronic pain syndromes as a result of their disease... (Review)
Review
Cardiovascular disease affects close to half of the United States population and many of these patients will develop chronic pain syndromes as a result of their disease process. This article provides an overview of several pain syndromes that result, directly or indirectly, from cardiovascular disease including peripheral arterial disease, angina, thoracic outlet syndrome, postamputation pain, complex regional pain syndrome, and poststroke pain. Psychological and medical comorbidities that affect the medical decision-making process in the treatment of chronic pain associated with cardiovascular disease are also discussed.
Topics: Humans; Chronic Pain; Cardiovascular Diseases; Syndrome; Peripheral Vascular Diseases
PubMed: 36328629
DOI: 10.1016/j.anclin.2022.08.018 -
Current Pain and Headache Reports Oct 2023Peripheral nerve stimulation (PNS) refers to the technique of utilizing electrical stimulation of peripheral nerves to inhibit the transmission of pain signals. PNS is... (Review)
Review
PURPOSE OF REVIEW
Peripheral nerve stimulation (PNS) refers to the technique of utilizing electrical stimulation of peripheral nerves to inhibit the transmission of pain signals. PNS is used to treat chronic intractable pain and post-surgical or post-traumatic pain alongside a variety of other pain conditions, including headaches, facial pain, pelvic and urogenital pain, chest wall pain, residual limb or phantom limb pain, and back pain.
RECENT FINDINGS
More recently, PNS has been used temporarily for periods of time less than 60 days to treat acute post-surgical pain. Peripheral nerve stimulation is believed to be effective due to its effects on both central and peripheral pathways. Centrally, it is proposed that the electrical pulses of PNS inhibit alpha-delta and C fibers, which decreases pain signaling in the higher centers of the central nervous system. Peripherally, gate theory is applied as it is theorized that PNS downregulates inflammatory mediators, endorphins, and neurotransmitters associated with pain signaling to decrease the transmission of efferent nociception and reduce pain sensations.
PubMed: 37889467
DOI: 10.1007/s11916-023-01184-5 -
Cureus Aug 2022While amputation techniques have improved over time, questions remain around how to best treat neuromas and severed nerves in the amputee population, specifically for... (Review)
Review
While amputation techniques have improved over time, questions remain around how to best treat neuromas and severed nerves in the amputee population, specifically for trauma-related amputees. This systematic review investigates and summarizes outcomes following targeted muscle reinnervation (TMR) for the trauma-related amputee population. Studies were classified based on primary or secondary TMR and relevant outcomes, including the ability to use a prosthesis, post-TMR opioid use, Patient-Reported Outcomes Measurement Information System (PROMIS) scores for phantom limb pain and residual limb pain, and overall pain resolution/reduction. Following TMR for trauma-related amputation, most patients experienced neuroma pain resolution (86.2%, 95% confidence interval [CI]: 67.2-95.0%) and overall pain reduction/resolution (90.7%, 95% CI: 82.2-95.4%). No differences were seen between primary and secondary TMR. Preliminary evidence indicates that TMR is effective for preventing or treating pain in patients with trauma-related amputation, whether used in the acute or delayed setting.
PubMed: 36176851
DOI: 10.7759/cureus.28474 -
Brain and Behavior Mar 2022Phantom limb pain (PLP) is a complicated condition with diverse clinical challenges. It consists of pain perception of a previously amputated limb. The exact pain... (Review)
Review
Phantom limb pain (PLP) is a complicated condition with diverse clinical challenges. It consists of pain perception of a previously amputated limb. The exact pain mechanism is disputed and includes mechanisms involving cerebral, peripheral, and spinal origins. Such controversy limits researchers' and clinicians' ability to develop consistent therapeutics or management. Neuroimaging is an essential tool that can address this problem. This review explores diffusion tensor imaging, functional magnetic resonance imaging, electroencephalography, and magnetoencephalography in the context of PLP. These imaging modalities have distinct mechanisms, implications, applications, and limitations. Diffusion tensor imaging can outline structural changes and has surgical applications. Functional magnetic resonance imaging captures functional changes with spatial resolution and has therapeutic applications. Electroencephalography and magnetoencephalography can identify functional changes with a strong temporal resolution. Each imaging technique provides a unique perspective and they can be used in concert to reveal the true nature of PLP. Furthermore, researchers can utilize the respective strengths of each neuroimaging technique to support the development of innovative therapies. PLP exemplifies how neuroimaging and clinical management are intricately connected. This review can assist clinicians and researchers seeking a foundation for applications and understanding the limitations of neuroimaging techniques in the context of PLP.
Topics: Amputees; Brain Mapping; Diffusion Tensor Imaging; Humans; Neuroimaging; Phantom Limb
PubMed: 35218308
DOI: 10.1002/brb3.2509