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Cureus May 2024Major amputation of a lower limb is a traumatic experience that causes physical and psychosocial disabilities. This study set out to ascertain how anxiety and depression...
OBJECTIVE
Major amputation of a lower limb is a traumatic experience that causes physical and psychosocial disabilities. This study set out to ascertain how anxiety and depression symptoms changed during the three months following the amputation.
MATERIALS AND METHODS
A prospective longitudinal observational study was conducted between October 1, 2019, and January 1, 2021, in the Department of Vascular Surgery and the Department of Orthopedic Traumatology of the Ibn Sina Hospital Center in Rabat, Morocco. The study assesses symptoms of anxiety and depression in patients who have undergone a major lower limb amputation over a three-month interval.
RESULTS
In patients who had undergone a major lower limb amputation, the prevalence of anxiety and depression symptoms was very high immediately postoperatively (47.4% and 79.2%, respectively), with a significant decrease in these symptoms. Three months later, anxiety was reported in 24.4% of cases, and depressive symptoms in 65.1% of cases. Age, amputation level, stump pain, phantom limb pain, re-amputation, and emergency amputation were all associated with an increased risk of anxiety and depression. The patient's psychological preparation prior to the amputation, the anesthetic technique used during the procedure, the patient's mobility, and the patient's post-amputation professional status were all protective factors.
CONCLUSION
Our research findings bolster the necessity of promptly evaluating and managing anxiety and depression in the initial three months following major lower limb amputation. Thus, we believe that amputee patients ought to receive a formal psychological evaluation, which could be helpful, particularly for those whose anxiety or depression symptoms did not improve after three months.
PubMed: 38872678
DOI: 10.7759/cureus.60284 -
Plastic and Reconstructive Surgery.... Jun 2024Patients without proper covering of the bone stump with soft tissues after below-knee amputation have limited opportunities for prosthesis. The resulting high degree of...
Patients without proper covering of the bone stump with soft tissues after below-knee amputation have limited opportunities for prosthesis. The resulting high degree of disability severely restricts their proper functioning in social and professional life. The commonly used significant reduction of the bone length for local coverage limits rehabilitative options to the less comprehensive prosthesis. We aimed to describe a delayed reconstruction with soft tissues of the lower leg stump using free anterolateral thigh flap as an alternative surgical method allowing for optimal prosthesis. A 20-year-old patient was consulted because of right lower leg stump, covered only with a skin graft following posttraumatic amputation. Previously, the patient had ineffective attempts of using a prosthesis. He asked to determine the possibility of recovering the functionality of the lower limb. We performed reconstruction of soft tissues of the stump with a free anterolateral thigh flap. Postoperatively, the patient achieved good coverage of the remaining part of the tibia with a thick layer of soft tissues, allowing the subsequent adequate forming of the stump. Therefore, a fixed prosthesis with the dynamic foot could be implemented. A significant increase in physical activity contributed to a full return to the patient's professional and private life. In conclusion, the free anterolateral thigh flap provides a robust amount of good-quality tissues for supportive function of the lower limb stump. The resulting adaptation of the stump to numerous modern prosthetic devices significantly increases the range of physical activity and contributes to the full return of the patient to their professional and private life.
PubMed: 38868619
DOI: 10.1097/GOX.0000000000005905 -
Plastic and Reconstructive Surgery.... Jun 2024Arm transplantation has been proposed as a valid therapeutic option for arm amputees. A bilateral arm transplantation including reconstruction of the left shoulder was...
BACKGROUND
Arm transplantation has been proposed as a valid therapeutic option for arm amputees. A bilateral arm transplantation including reconstruction of the left shoulder was performed on January 13, 2021 in Lyon (France).
METHODS
The recipient was a 48-year-old man with bilateral amputation at proximal arm level on both sides following an electric shock in 1998. He had received a liver transplant in 2002. The donor was a 35-year-old man. On the right side, the donor humerus was fixed on the remaining 9-cm-long proximal stump, and was reinforced with the donor fibula in an intramedullary fashion. On the left side, the whole donor humerus (including the humeral head) was transplanted with reconstruction of the gleno-humeral joint, including a suspension ligamentoplasty. The immunosuppressive protocol was based on antithymocyte globulins as induction therapy, and tacrolimus, steroids and mycophenolate mofetil as maintenance therapy.
RESULTS
Good bone healing and a well-positioned ligamentoplasty on the left side were achieved. At 2 years, the recipient was able to flex both elbows, and wrist extension, finger flexion, and extension were appreciated on both sides. Intrinsic muscle activity was detectable by electromyography during the eighth posttransplant month, and sensitivity was recovered. The patient is satisfied with his autonomy in some daily activities, but his greatest satisfaction is the recovery of his body image.
CONCLUSIONS
These results confirm that it is possible to propose this transplantation to proximal-level arm amputees. The patients' information about risks and limits as well as their compliance and determination remain important prerequisites.
PubMed: 38859807
DOI: 10.1097/GOX.0000000000005884 -
Plastic and Reconstructive Surgery.... Jun 2024Symptomatic neuroma represents a debilitating complication after major limb amputation. The regenerative peripheral nerve interface (RPNI) has emerged as a reproducible...
Symptomatic neuroma represents a debilitating complication after major limb amputation. The regenerative peripheral nerve interface (RPNI) has emerged as a reproducible and practical surgery aimed at mitigating the formation of painful neuroma. Although previous animal studies revealed axonal sprouting, elongation, and synaptogenesis of proximal nerve stump within the muscle graft in RPNI, there is a lack of reports confirming these physiological reactions at the histopathological level in human samples. This report presents a case of below-knee amputation with RPNI due to foot gangrene resulting from polyarteritis nodosa. Subsequently, an above-knee amputation was necessitated due to the exacerbation of polyarteritis nodosa, providing the opportunity for histopathological examination of the RPNI site. The examination revealed sprouting, elongation, and existence of neuromuscular junction of the tibial nerve within the grafted muscle. To the best of our knowledge, this is the first report demonstrating axonal sprouting, elongation, and possibility of synaptogenesis of the nerve stump within the grafted muscle in a human sample.
PubMed: 38855139
DOI: 10.1097/GOX.0000000000005878 -
Frontiers in Surgery 2024Terminal osseous overgrowth is a common complication after trans-diaphyseal amputation in children, leading to pain, soft tissue problems, and recurrent surgical...
Terminal osseous overgrowth is a common complication after trans-diaphyseal amputation in children, leading to pain, soft tissue problems, and recurrent surgical procedures. We report three different cases with post-amputation issues of osseous overgrowth, ulceration, and deformity over the amputation site. The first case involves a 9-year-old boy with a right leg congenital amputation secondary to amniotic band syndrome. The right below-knee stump later experienced recurrent episodes of osseous overgrowth, leading to ulceration. After the prominent tibia was resected and capped with the ipsilateral proximal fibula, a positive outcome was achieved with no more recurrent overgrowth over the right leg stump. The second case involves a 9-year-old girl born with an amniotic constriction band over both legs. Her left leg remained functional after a circumferential Z-plasty, but the right leg was a congenital below-knee amputation. Multiple refashioning surgeries were performed on the right leg due to osseous overgrowth but the patient continued to experience recurrent overgrowth causing pain and difficulty fitting into a prosthesis. We performed osteocartilaginous transfer of the proximal part of the ipsilateral fibula to the right tibial end, successfully preventing the overgrowth of the tibia without any complications. The third case involves an 11-year-old boy with a history of meningococcal septicemia who underwent a right below-knee amputation and left ankle disarticulation due to complications of septic emboli. He experienced a prominent right distal tibia stump, which later developed into valgus deformity as a result of the previous insult to the proximal tibial growth plate. We performed a corrective osteotomy over the proximal right tibia and capped the entire tibia with the ipsilateral fibula as an intramedullary splint for the osteotomy site. Post-operatively, we achieved satisfactory deformity correction and successfully halted the recurrent overgrowth over the right tibia stump. The method of ipsilateral fibula capping is safe and effective in managing the osseous overgrowth complications in trans-diaphyseal amputations among children. Therefore, it is a reasonable option during primary below-knee amputations in children compared to multiple refashioning surgeries.
PubMed: 38854925
DOI: 10.3389/fsurg.2024.1320661 -
Biological Reviews of the Cambridge... May 2024The ability to regenerate large body appendages is an ancestral trait of vertebrates, which varies across different animal groups. While anamniotes (fish and amphibians)...
The ability to regenerate large body appendages is an ancestral trait of vertebrates, which varies across different animal groups. While anamniotes (fish and amphibians) commonly possess this ability, it is notably restricted in amniotes (reptiles, birds, and mammals). In this review, we explore the factors contributing to the loss of regenerative capabilities in amniotes. First, we analyse the potential negative impacts on appendage regeneration caused by four evolutionary innovations: advanced immunity, skin keratinization, whole-body endothermy, and increased body size. These innovations emerged as amniotes transitioned to terrestrial habitats and were correlated with a decline in regeneration capability. Second, we examine the role played by the loss of regeneration-related enhancers and genes initiated by these innovations in the fixation of an inability to regenerate body appendages at the genomic level. We propose that following the cessation of regenerative capacity, the loss of highly specific regeneration enhancers could represent an evolutionarily neutral event. Consequently, the loss of such enhancers might promptly follow the suppression of regeneration as a side effect of evolutionary innovations. By contrast, the loss of regeneration-related genes, due to their pleiotropic functions, would only take place if such loss was accompanied by additional evolutionary innovations that compensated for the loss of pleiotropic functions unrelated to regeneration, which would remain even after participation of these genes in regeneration was lost. Through a review of the literature, we provide evidence that, in many cases, the loss in amniotes of genes associated with body appendage regeneration in anamniotes was significantly delayed relative to the time when regenerative capability was lost. We hypothesise that this delay may be attributed to the necessity for evolutionary restructuring of developmental mechanisms to create conditions where the loss of these genes was a beneficial innovation for the organism. Experimental investigation of the downregulation of genes involved in the regeneration of body appendages in anamniotes but absent in amniotes offers a promising avenue to uncover evolutionary innovations that emerged from the loss of these genes. We propose that the vast majority of regeneration-related genes lost in amniotes (about 150 in humans) may be involved in regulating the early stages of limb and tail regeneration in anamniotes. Disruption of this stage, rather than the late stage, may not interfere with the mechanisms of limb and tail bud development during embryogenesis, as these mechanisms share similarities with those operating in the late stage of regeneration. Consequently, the most promising approach to restoring regeneration in humans may involve creating analogs of embryonic limb buds using stem cell-based tissue-engineering methods, followed by their transfer to the amputation stump. Due to the loss of many genes required specifically during the early stage of regeneration, this approach may be more effective than attempting to induce both early and late stages of regeneration directly in the stump itself.
PubMed: 38817123
DOI: 10.1111/brv.13102 -
Annals of Vascular Surgery May 2024Against the technological advances in limb salvage, below-the-knee amputation (BKA) remains a common procedure. Although most elective BKA is classified as clean...
INTRODUCTION
Against the technological advances in limb salvage, below-the-knee amputation (BKA) remains a common procedure. Although most elective BKA is classified as clean operation, the reported stump complication rate is much higher than predicted. Postoperative casting (PC) may reduce the number of these complications. The aim of this study was to compare the efficacy of elastic bandage with knee immobilizer (EBKI) and PC in BKA stump complications.
METHODS
Retrospective cohort comparison design identified patients who underwent BKA between 2000-2023 for uncorrectable lower extremity ischemia, or excessive tissue loss secondary to non-correctable critical limb ischemia (CLI), excessive tissue loss secondary to CLI, infection, severe neuropathy, or the combination of these and stratified them into 2 cohorts based on their postoperative stump dressing: EBKI and PC. BKAs that were done for trauma or neoplastic process were excluded. The primary outcome measures: wound healing in 6 weeks and length of stay (LOS).
SECONDARY OUTCOME MEASURES
stump injury, infection, dehiscence, necrosis, number of higher-level amputations, knee contracture and post BKA mobility with SIGAM score.
RESULTS
116 patients with 122 limbs (52 EBKI, 70 PC) were found who met inclusion criteria and analyzed. The groups were comparable in demographics and comorbidities and pre-operative variables, including mobility. The primary wound healing at 6 weeks was higher (p=0.007), wound dehiscence (p=0.01) and length of stay (p=0.006) was lower in the PC group compared to EBKI group. The PC group achieved higher SIGAM mobility score and lower number of contractures developed compared to the EBKI group.
CONCLUSIONS
Applying and maintaining PC to the BKA stump during the first month of healing reduced the incidence of stump complications, shortened the LOS and improved post rehabilitation mobility results. We found no effect of PC on postoperative infections, stump necrosis and higher-level amputations.
PubMed: 38815907
DOI: 10.1016/j.avsg.2024.03.011 -
Orthopedic Research and Reviews 2024To study the peculiarities of peroneal stump remodelling after transtibial amputation in the process of prosthesis usage.
AIM
To study the peculiarities of peroneal stump remodelling after transtibial amputation in the process of prosthesis usage.
MATERIAL AND METHODS
A histological study of the ends of the stumps of the fibula in 68 patients was performed. Terms after amputation: 2-8 years.
RESULTS
In the 1st group the stumps with the reparative process completion were formed. In the 2nd group there were sharp disturbances of the reparative process with the formation of the cone-shaped end. In the 3rd group there was a pronounced periosteal bone formation with changes in the shape and structure of bone tissue and incompleteness of the reparative process.
CONCLUSION
Absence of balloting of the fibula stump and dense overlapping of the medullary cavity by muscles promotes complete remodelling of the fibula remnant with preservation of its organicity. Pathological remodelling of the fibula stump occurs due to its hypermobility, repeated traumatisation of the forming regenerate, neuritis of the peroneal nerve, osteogenesis disorders and structural and functional mismatch of the bone tissue to the loading conditions in the prosthesis. Morphological signs of pathological remodelling are the lack of completion of reparative regeneration, intensive bone tissue remodelling lasting for years with pronounced resorption and appearance of immature bone structures, fractures of the cortical diaphyseal layer, residual limb deformities with formation of a functional regenerates, narrowing and closure of the medullary canal with conglomerate with soft tissue inclusions. The anatomical inferiority of bone tissue formed in the process of remodelling of the fibula remnant creates a threat of stress fracture.
PubMed: 38799026
DOI: 10.2147/ORR.S459927 -
Prosthetics and Orthotics International May 2024Residual limb maturation is a crucial stage in postamputation care.
BACKGROUND
Residual limb maturation is a crucial stage in postamputation care.
OBJECTIVE
It was aimed to examine the effect of medium tension bandages and stump stockings on postamputation stump maturation in patients who underwent lower extremity amputations.
STUDY DESIGN
In this prospective observational study, patients who were earthquake survivors and had undergone emergency amputation of their lower extremities were included.
METHODS
Medium-tension elastic bandage or personalized stump stockings were used for stump maturation. Residual limb volume was measured once a week for 3 weeks.
RESULTS
The study included 23 patients and 29 amputated limbs. Because of the larger stump volume of transfemoral amputations and the higher number of these patients in the stocking group ( p < 0.001), the stump volume differed across groups before and during the follow-up ( p < 0.001). There was no difference in mean volumetric measurement between the bandage and stocking groups over time ( p = 0.272). Although the group interaction was significant (p < 0.001), the group × time interaction was not ( p = 0.306).
CONCLUSION
Medium-tension bandages and stump stockings had a similar effect on postamputation stump maturation in patients with lower extremity amputations. So, depending on the patient's and physician's preferences, both procedures can be used for stump maturation.
PubMed: 38775756
DOI: 10.1097/PXR.0000000000000356 -
Journal of Plastic, Reconstructive &... Jul 2024Targeted muscle reinnervation (TMR) and regenerative peripheral nerve interface (RPNI) are used to prevent or treat neuromas in amputees. TMR for above-the-knee... (Comparative Study)
Comparative Study
Targeted muscle reinnervation (TMR) and regenerative peripheral nerve interface (RPNI) are used to prevent or treat neuromas in amputees. TMR for above-the-knee amputation (AKA) is most commonly performed through a posterior incision rather than the stump wound because recipient motor nerves are primarily located in the proximal third of the thigh. When preventative TMR is performed with concurrent AKA, a posterior approach requires intraoperative repositioning and an additional incision. The purpose of this study was to evaluate feasibility of TMR and operative times for nerve management performed through the wound compared to a posterior approach in AKA patients to guide surgical decision-making. Patients who underwent AKA with TMR between 2018-2023 were reviewed. Patients were divided into two groups: TMR performed through the wound (Group I) and TMR performed through a posterior approach (Group II). If a nerve was unable to undergo coaptation for TMR due to the lack of suitable donor motor nerves, RPNI was performed. Eighteen patients underwent AKA with nerve management were included from Group I (8 patients) and Group II (10 patients). TMR coaptations performed on distinct nerves was 1.5 ± 0.5 in Group I compared to 2.6 ± 0.5 in Group II (p = 0.001). Operative time for Group I was 200.7 ± 33.4 min compared to 326.5 ± 37.1 min in Group II (p = 0.001). TMR performed through the wound following AKA requires less operative time than a posterior approach. However, since recipient motor nerves are not consistently found near the stump, RPNI may be required with TMR whereas the posterior approach allows for more TMR coaptations.
Topics: Humans; Male; Female; Amputation, Surgical; Middle Aged; Adult; Nerve Transfer; Retrospective Studies; Operative Time; Amputation Stumps; Nerve Regeneration; Feasibility Studies; Aged; Neuroma; Thigh; Muscle, Skeletal
PubMed: 38749367
DOI: 10.1016/j.bjps.2024.05.007