Acute Vascular Complications of VA-ECMO in COVID-19 Patients. Does COVID-19 Affect the Outcome?

BACKGROUND: Extracorporeal membrane oxygenation (ECMO) through the femoral artery and vein can lead to significant vascular complications. We retrospectively studied the acute vascular complications of Veno-Arterial Extracorporeal Membrane Oxygenation (VA-ECMO) in COVID-19 patients compared to non-COVID patients during the period from January 2020 to July 2023. RESULTS: Seventy-eight patients underwent VA-ECMO for various indications from January 2020 to July 2023. The studied patients had a mean age of 59.6 ± 6.9 years for non-COVID patients (38 patients), and 62.2 ± 7.6 years for COVID patients (40 patients), with a P = 0.268. In non-COVID patients, The baseline characteristics were similar in both groups. The primary indications for ECMO were cardiac diseases, followed by respiratory failure (78.9% vs 10.5%). Conversely, in COVID patients, respiratory failure due to COVID-19 infection was the main indication (45% vs 40%). The overall incidence of general complications, including cerebrovascular stroke, acute kidney injury, intracardiac thrombi, and wound infection, was comparable in both groups (31.6% vs 45%). The overall incidence of vascular complications in both groups was 33.3%. Ipsilateral acute lower limb ischemia occurred in 5.3% vs 10% of non-COVID and COVID patients, respectively. Thrombosis of the distal perfusion catheter (DPC) occurred in 10.5% vs 15%, respectively. CONCLUSION: During the COVID-19 pandemic, an increasing number of patients required VA-ECMO due to associated respiratory failure. Patients undergoing VA-ECMO are at high risk of developing various vascular complications. COVID-19 significantly increases the risk of acute limb ischemia and distal perfusion catheter thrombosis in both upper and lower limbs. However, other VA-ECMO-related vascular complications are comparable between COVID-19 and non-COVID patients.

Should individuals with unilateral transtibial amputation carry a load on their intact or prosthetic side?

Carrying side loads often occurs during activities of daily living. As walking is most unstable mediolaterally, side load carriage may further compromise gait biomechanics, especially for transtibial amputees (TTAs). This study investigated the effects of side load carriage on gait kinetics during steady-state walking to determine which side, intact or prosthetic, TTAs should carry a load. Twelve unilateral TTAs wore a passive-elastic foot and carried a side load of 13.6 kg while walking at their self-selected speed. Kinetic metrics, including ground reaction force peaks and impulses, loading and unloading rates, and joint moments and powers, were analyzed. TTAs had smaller propulsive forces on their intact limb during the prosthetic side load condition. During the intact side load condition, they had smaller hip flexor moment in late stance and smaller knee flexor moment at the end of swing on their intact limb. They had higher hip and knee abductor moments on their intact limb and prosthetic limb in early and late stance during the contralateral side load condition. TTAs generated higher hip extensor power at weight acceptance during the ipsilateral side load. Significant interactions were observed in hip extensor power and abductor moment, suggesting strong associations between hip extensor power generation and the ipsilateral side load and between hip abductor moment and the contralateral side load. These mixed results demonstrate some kinetic changes due to side load carriage and suggest that the side TTAs should carry a load depends on the desired effects, primarily on their intact limb.

Exploring the use of wearable sensors for assessing risk factors during orthopedic surgeries: A protocol for data collection.

During orthopedic surgeries, surgeons are generally exposed to prolonged periods of standing, awkward and sustained body postures, and forceful movements, which can increase the likelihood of developing work-related musculoskeletal disorders (WRMSD). Therefore, this study proposes a protocol to measure parameters related to physical risk factors contributing to lower limb WRMSD, during orthopedic surgery procedures. The protocol development was preceded by an initial phase of understanding and specifying the context of use, followed by pre-tests in laboratory environment. It integrates a motion capture system, using inertial measurement units (IMU) to collect posture data from hip, knee, and ankle, and electromyography system (EMG) to measure and record data from muscle activity of biceps femoris, rectus femoris, and gastrocnemius lateralis. Pre-tests provided insights for protocol optimization, estimating a 3-hour data collection session per surgery due to sensor battery limitations, streamlining the process by placing EMG sensors before IMU and refining thigh sensor placement strategies. The protocol presents an opportunity for a real-time and quantitative approach to monitor surgeon's exposure to risk factors contributing to lower limb WRMSD while performing surgical procedures. Two months after pre-tests, the protocol implementation began in a real work context. The study's final outcomes fall outside the paper's scope.

The influence of load carriage and prosthetic foot type on individual muscle and prosthetic foot contributions to body support and propulsion.

Individuals with transtibial amputation (TTA) experience altered gait mechanics, which are primarily attributed to the functional loss of the ankle plantarflexors. The plantarflexors contribute to body support and propulsion and play an important role in adapting to different load carriage conditions. However, how muscle function is altered across different prosthetic foot types and load carriage scenarios for individuals with TTA remains unclear. This study used musculoskeletal modeling and simulation of human movement in OpenSim to investigate the effects of a range of prosthetic feet and load conditions on individual muscle and prosthetic foot contributions to body support and propulsion. Twenty walking trials were collected from five individuals with TTA, consisting of five loading conditions (no-load; 30 lbs (13.6 kg) carried as a front-load, back-load, intact-side-load and residual-side-load) while wearing four prosthetic feet (their passive standard of care (SOC) foot, their SOC foot one category stiffer, their SOC foot with a heel stiffening wedge, and a dual-keel foot). Two participants also wore a powered ankle-foot prosthesis, thus completing an additional five trials each. The results indicated that the front-load condition may be more challenging because it required overall increased muscle contributions to body support and propulsion. However, the front- and residual-side-loads required reduced intact-side plantarflexor contributions to support and propulsion, and thus may be advantageous for individuals with plantarflexor weakness. Further, the large variability across contributions suggests that individuals with TTA may rely on a variety of compensatory mechanisms depending on the load condition and prosthetic foot used.

Immersive virtual reality for learning exoskeleton-like virtual walking: a feasibility study.

PURPOSE: Virtual Reality (VR) has proven to be an effective tool for motor (re)learning. Furthermore, with the current commercialization of low-cost head-mounted displays (HMDs), immersive virtual reality (IVR) has become a viable rehabilitation tool. Nonetheless, it is still an open question how immersive virtual environments should be designed to enhance motor learning, especially to support the learning of complex motor tasks. An example of such a complex task is triggering steps while wearing lower-limb exoskeletons as it requires the learning of several sub-tasks, e.g., shifting the weight from one leg to the other, keeping the trunk upright, and initiating steps. This study aims to find the necessary elements in VR to promote motor learning of complex virtual gait tasks. METHODS: In this study, we developed an HMD-IVR-based system for training to control wearable lower-limb exoskeletons for people with sensorimotor disorders. The system simulates a virtual walking task of an avatar resembling the sub-tasks needed to trigger steps with an exoskeleton. We ran an experiment with forty healthy participants to investigate the effects of first- (1PP) vs. third-person perspective (3PP) and the provision (or not) of concurrent visual feedback of participants' movements on the walking performance - namely number of steps, trunk inclination, and stride length -, as well as the effects on embodiment, usability, cybersickness, and perceived workload. RESULTS: We found that all participants learned to execute the virtual walking task. However, no clear interaction of perspective and visual feedback improved the learning of all sub-tasks concurrently. Instead, the key seems to lie in selecting the appropriate perspective and visual feedback for each sub-task. Notably, participants embodied the avatar across all training modalities with low cybersickness levels. Still, participants' cognitive load remained high, leading to marginally acceptable usability scores. CONCLUSIONS: Our findings suggest that to maximize learning, users should train sub-tasks sequentially using the most suitable combination of person's perspective and visual feedback for each sub-task. This research offers valuable insights for future developments in IVR to support individuals with sensorimotor disorders in improving the learning of walking with wearable exoskeletons.

The Association between Fatty Liver Index and Lower Limb Arterial Calcification in Patients with Type 2 Diabetes Mellitus.

Background: Peripheral arterial calcification is a prevalent condition in patients with type 2 diabetes mellitus (T2DM), resulting in lower-limb amputation and reduced life quality. Non-alcoholic fatty liver disease (NAFLD), which can be simply evaluated using the fatty liver index (FLI), is closely associated with T2DM development. In this study, we aimed to explore the relationship between FLI and lower limb arterial calcification (LLAC) in T2DM patients and to reveal the value of T2DM patients with NAFLD in predicting the occurrence of LLAC. Methods: A total of 77 T2DM patients with LLAC who underwent comprehensive physical and health examinations, serological examinations, as well as lower limb computed tomography imaging at Sun Yat-sen Memorial Hospital of Sun Yat-sen University between January 2018 and January 2019 were enrolled in this study. The FLI was calculated using body mass index, waist circumference, triglycerides, and γ-glutamyl transferase. Additionally, LLAC was evaluated using computed tomography with the Agatston scoring algorithm. The patients were divided into three groups based on their FLI values: Non-liver disease group (FLI <30, n = 29), borderline-liver disease group (30 ≤ FLI < 60, n = 32), and NAFLD group (FLI ≥60, n = 16). Univariate and multivariate binary logistic regression analyses were employed to investigate the association between FLI and LLAC in T2DM patients. Furthermore, differences in LLAC among groups were analyzed using post-hoc multiple comparisons and ordinal logistic regression model analysis. Results: Univariate and multivariate analyses showed that age and FLI influenced LLAC severity in T2DM patients. Moreover, T2DM patients in the NAFLD group had significantly lower LLAC scores than those in the Non-liver disease group. The correlation analysis showed that FLI was negatively associated with LLAC scores (R = -0.31, p = 0.006), while age was positively associated (R = 0.361, p = 0.001). Conclusions: Our study revealed an inverse relationship between FLI and the degree of LLAC. This indicates that, based on evidence in the current research, NAFLD may not be reliable as a predictor of LLAC in T2DM patients.

Venous Thromboembolism (VTE) in May-Thurner Syndrome: Decision-Making Related to Long-Term Anticoagulation.

May-Thurner syndrome (MTS) involves the compression of the left iliac vein between the right iliac artery anteriorly and the lumbar vertebrae posteriorly. Patients may remain asymptomatic throughout their lives or experience unilateral lower limb swelling and symptoms of deep vein thrombosis (DVT), such as redness and pain in the limb, or features of its complication (pulmonary embolism) such as chest pain or shortness of breath. We present the case of a 34-year-old female exhibiting acute pain and tightness in her left leg, due to DVT of the left common femoral vein, extending up to the pelvic veins, which, on further diagnostic imaging, was found to be due to MTS. The patient was initiated on lifelong anticoagulation to prevent further complications. The rising incidence of MTS, coupled with frequent delays in its diagnosis, highlights the need to raise awareness among healthcare providers, especially acute medics (who are often the first point of contact for the patient) to expand their diagnostic umbrella of differentials to include MTS as a potential cause of such presentations and to look and think beyond DVT of the lower limb. This is especially important in females presenting with non-specific DVT symptoms, as early suspicion and referral to the respective medical teams including vascular medicine, can improve diagnostic accuracy and provide more management options, thereby improving long-term outcomes.

A systematic review and meta-analysis of outcomes associated with development of surgical site infection after lower-limb revascularization surgery.

OBJECTIVES: Although surgical site infection (SSI) is a commonly used quality metric after lower-limb revascularization surgery, outcomes associated with development of this complication are poorly characterized. We conducted a systematic review and meta-analysis of studies reporting associations between development of an SSI after these procedures and clinical outcomes and healthcare resource use. METHODS: We searched MEDLINE, Embase, CENTRAL, and Evidence-Based Medicine Reviews (inception to April 4th, 2023) for studies examining adjusted associations between development of an SSI after lower-limb revascularization surgery and clinical outcomes and healthcare resource use. Two investigators independently screened abstracts and full-text citations, extracted data, and assessed risk of bias. Data were pooled using random-effects models. Heterogeneity was assessed using I2 statistics. GRADE was used to assess estimate certainty. RESULTS: Among 6671 citations identified, we included 11 studies (n = 61,628 total patients) that reported adjusted-associations between development of an SSI and 13 different outcomes. Developing an SSI was associated with an increased adjusted-risk of hospital readmission (pooled adjusted-risk ratio (aRR) = 3.55; 95% CI (confidence interval) = 1.40-8.97; n = 4 studies; n = 13,532 patients; I2 = 99.0%; moderate certainty), bypass graft thrombosis within 30-days (pooled aRR = 2.09; 95% CI = 1.41-3.09; n = 2 studies; n = 23,240 patients; I2 = 51.1%; low certainty), reoperation (pooled aRR = 2.69; 95% CI = 2.67-2.72; n = 2 studies; n = 23,240 patients; I2 = 0.0%; moderate certainty), bleeding requiring a transfusion or secondary procedure (aRR = 1.40; 95% CI = 1.26-1.55; n = 1 study; n = 10,910 patients; low certainty), myocardial infarction or stroke (aRR = 1.21; 95% CI = 1.02-1.43; n = 1 study; n = 10,910 patients; low certainty), and major (i.e., above-ankle) amputation (pooled aRR = 1.93; 95% CI = 1.26-2.95; n = 4 studies; n = 32,859 patients; I2 = 83.0; low certainty). Development of an SSI >30-days after the index operation (aRR = 2.20; 95% CI = 1.16-4.17; n = 3 studies; n = 21,949 patients; low certainty) and prosthetic graft infection (aRR = 6.72; 95% CI = 3.21-12.70; n = 1 study; n = 272 patients; low certainty) were both associated with an increased adjusted-risk of major amputation. Prosthetic graft infection was also associated with an increased adjusted-risk of mortality >30-days after the index procedure (aRR = 6.40; 95% CI = 3.32-12.36; n = 1 study; n = 272 patients; low certainty). CONCLUSIONS: This systematic review and meta-analysis suggests that development of an SSI after lower-limb revascularization surgery significantly increases patient morbidity and healthcare resource use. SSI is therefore a valuable quality metric after these surgeries. However, current estimates are based on heterogenous, low-to-moderate certainty evidence and should be confirmed by large, multicenter, cohort studies.

Corrigendum: Genome-wide association study identifying variants related to performance and injury in high-performance athletes.

[This corrects the article DOI: 10.1177/15353702231198068.].

Orthoplastic Reconstruction of Distal Tibia High-Energy Fractures Using a Circular External Fixator-A Systematic Review.

Background: Compound fractures of the distal tibia (with or without the middle third) represent a challenge for orthopedic and plastic surgeons because of the scarcity of available soft tissue reconstruction and the important comminution of the fractures that usually appear. Methods: The design of this study is based on the PRISMA guidelines. Databases were searched for articles published and available until the first half of 2023. Articles that presented the evolution of patients treated by combining circular external fixators with reconstructive methods were selected. Results: After searching the literature using keywords, we obtained 3355 articles, out of which 14 articles met all the inclusion criteria, with a total number of participants of 283. The bone loss varied between 0.7 and 18.2 cm, while the soft tissue defect was between 3/3 cm and 16/21 cm. The average period of fixation ranged from 4 to 22.74 months. The most used reconstruction methods were 80 free flaps and 73 pedicled flaps out of 249 interventions. Complete flap loss appeared only in 3/283 patients. Regarding the bone union, the percentage of non-union was low, and in all cases, it was achieved after reintervention. A low rate of major complications was observed. Conclusions: The orthoplastic team is the key to successfully treating the high-energy traumatism of the distal tibia (with or without a middle third). The Ilizarov external fixator can be used as a definitive limb-salvage treatment (secondary to the standard primary methods of fixation) in combination with a flap to cover the defects because it does not damage the pedicle, and it helps stabilize the soft tissues and bones around the flap to lower the complications.

Amplitude of Lower Limb Muscle Activation in Different Phases of the Illinois Test in Parkinson's Disease Patients: A Pilot Study.

Background: Parkinson's disease (PD) is a neurodegenerative disorder with high prevalence in men and is characterized by symptoms such as tremors and gait difficulties. This study aimed to determine muscle activation in patients with PD by considering sex differences. Methods: This pilot study used analytical, quantitative, observational, and case-control methods. Surface electromyography was used to assess muscle activity during a variant of the Illinois agility test. The study population comprised an experimental group of patients with PD (N = 30) and a control group of healthy individuals without the disease (N = 10). Results: The Illinois agility test revealed significant differences in completion times between the groups. The Parkinson's disease group took longer overall (p = 0.004), especially for standing up (p < 0.001) and sitting down (p = 0.002), than the control group. In the control group, sex influenced gastrocnemius muscle activation, with women showing higher activation (rs = -0.87). Women also had greater rectus femoris activation during standing and sitting, with higher activation on the right side when standing (rs = -0.66) and the left side when sitting (rs = -0.87). In the control group, men exhibited greater activation of the right biceps femoris (rs = 0.87). However, in the Parkinson's disease group, sex did not affect muscle activation. Conclusions: Patients with Parkinson's showed lower muscle activation than healthy individuals while standing up, sitting down, and walking.

Medial Gastrocnemius Tenocutaneous Island Flap: A Salvage Option After Free Flap Compromise in the Lower Limb.

Lower limb salvage following free flap compromise poses a significant reconstructive challenge, particularly when managing complex defects with exposed bone or hardware. Despite advances in microsurgical techniques, the medial gastrocnemius flap, known for its reliable vascular anatomy and versatility, remains a valuable option in such scenarios. In this case report, we present the effective use of a medial gastrocnemius tenocutaneous island flap for reconstructing a complex defect in the middle third of the leg following partial free flap failure. This approach provided successful coverage of exposed structures, preserved limb function, and prevented further complications. Our experience highlights the adaptability and utility of the medial gastrocnemius tenocutaneous island flap in lower limb salvage, especially for wounds located in the middle third of the leg, underscoring its role as a good option in complex reconstructive cases.

Case Report: Charcot-marie-tooth disease caused by a de novo MORC2 gene mutation - novel insights into pathogenicity and treatment.

Charcot-Marie-Tooth disease (CMT) is a hereditary peripheral neuropathy involving approximately 80 pathogenic genes. Whole-exome sequencing (WES) and confirmatory Sanger sequencing analysis was applied to identify the disease-causing mutations in a Chinese patient with lower limb weakness. We present an 18-year-old male with a 2.5-year history of progressive lower limb weakness and an unsteady gait. Upon admission, a physical examination revealed hands tremulousness, bilateral calf muscle wasting and weakness, pes cavus, and elevated serum creatine kinase (CK) levels. Electromyography demonstrated axonal neuropathy affecting both upper and lower limbs. A de novo heterozygous missense mutation was identified in the MORC2 gene, NM_001303256.3: c.1199A>G, NP_001290186.1: p.Gln400Arg. Consequently, these clinical and genetic findings suggested a diagnosis of hereditary peripheral neuropathy, CMT type 2Z. Oral mecobalamin and coenzyme Q10 was initiated as subsequent treatment. Our study firstly reports the MORC2 c.1199A>G mutation occurring de novo, highlighting its causal association with CMT2Z, and prompting its reclassification as likely pathogenic. Oral mecobalamin and coenzyme Q10 might be a potential treatment approach for early-stage CMT2Z. We recommend genetic testing for CMT patients to identify the genetic etiology, thereby improving clinical management and facilitating genetic counseling.

Analysis of the interplay between proximal lower limb and foot joint structures as a mechanical predictor of neuropathic ulceration.

BACKGROUND: Diabetes-related foot ulcers are a leading cause of morbidity and mortality globally, in which the most significant contributing factor is peripheral neuropathy. The purpose of this research was to evaluate the influence of diabetic peripheral neuropathy and ulceration on lower limb and foot joint kinematics during gait. RESEARCH QUESTION: Are there any significant alterations lower limb and foot joint kinematics during gait in the presence of active and history of diabetic neuropathic ulceration? METHODS: A prospective, cross-sectional study was conducted, recruiting eighty adult participants who were equally divided into four groups, namely, the diabetes (DM), diabetic peripheral neuropathy (DPN), active diabetic neuropathic ulceration (DNU) and history of diabetic neuropathic ulceration (DHNU) groups. Three-dimensional gait analysis was performed, and participants were instructed to walk barefoot over a 10-m walkway at self-selected speed. The acquired pelvic, hip, knee, ankle and foot joint segmental kinematic data was compared between individuals with and without active neuropathic ulceration. RESULTS: Mean scores between the four independent groups was performed using the Kruskal-Wallis test. Participants within the DNU and DHNU groups demonstrated significantly reduced knee flexion, ankle dorsiflexion and first metatarsal dorsiflexion kinematics with resultant increased anterior pelvic tilt, hip flexion and midtarsal kinematics (all values p<0.01) when compared to participants within the DM and DPN groups. SIGNIFICANCE: Through the integration of a more individualised, biomechanical approach, the findings in this study may provide improved preventative and management strategies of ulceration amongst the diabetic population.

Clinical Presentation, Diagnosis, and Genetic Insights of Miyoshi Myopathy: A Case Report and Literature Review.

Miyoshi myopathy (MM) is an autosomal recessive dysferlinopathy caused by a mutation in the dysferlin (DYSF) gene on chromosome 2p. Recent findings indicate that MM and Lower Girdle Muscular Dystrophy R2 (LGMD2B) are the same disease. We present the case of a 44-year-old male who first experienced symptoms of MM at the age of 19, initially noticing difficulty climbing stairs and standing on his toes. By the age of 29, he had developed significant calf muscle atrophy and weakness, which led to difficulties with walking. Electromyography and nerve conduction studies showed axonal damage and myogenic features. Genetic testing ruled out Charcot-Marie-Tooth disease but identified a pathogenic variant in the DYSF gene. Laboratory tests revealed elevated creatine kinase levels. Photographs of the patient's lower limbs showed significant calf muscle atrophy. Based on clinical, laboratory, and electrophysiological findings, he was diagnosed with MM. This case highlights the importance of genetic testing in diagnosing muscular dystrophies and underscores the need for continued research into gene and cell therapies. To the best of our knowledge, this is one of the first studies reporting a case of MM in Poland.

The Effect of Isometric Exercise Position on the Effectiveness of Isolated Work of the Thigh Flexor Muscles Based on the Results of the sEMG Study.

BACKGROUD: The main function of the hamstring muscles is to bend the knee joint and support the function of the hip extensors. Their frequent injuries are the result of overload related to, among others, dynamic running or jumping, and inadequate preparation for athletics activities. The asymmetry of the work of individual flexor muscle groups is clearly marked in the case of valgus or varus of the knee joint, i.e., in different positions of the lower limb. The aim of the study was to determine the position and form of a rehabilitation exercise in which an isolated group of muscles flexing the knee joint will show the greatest bioelectrical activity. METHODS: The study involved 25 students of the Jagiellonian University Medical College. The students were aged 20-26. The average age was 22.9 (±1.4). The study participants included 17 women with an average age of 23.0 (±1.1) and 8 men with an average age of 22.6 (±1.9). Women constituted 68% and men 32% of all respondents. All participants agreed to participate in the study. Surface electromyography measurements in both lower limbs provided an initial number of 50 cases. The activity of the knee flexor muscles during isometric contraction with resistance was measured in correlation with three foot and lower leg settings: internal rotation, neutral position, and external rotation. The bioelectrical activity of the semitendinosus muscle is significantly higher (p < 0.01) in the internal rotation position than in the neutral position of the lower leg, while the bioelectrical activity of the biceps femoris muscle is inversely higher (p < 0.01) in the external rotation position than in the neutral position. RESULTS: The results are significant for both average and maximum values of muscle stimulation. During isometric contraction with resistance, the semitendinosus muscle shows the greatest bioelectrical activity in the internal rotation position of the lower leg and foot, and the biceps femoris muscle in the external rotation position of the lower leg and foot. CONCLUSIONS: The above information has important implicational applications when improving isolated groups of hamstrings. In the future, this may contribute to more effective rehabilitation of patients with injuries of the muscles described in the article.

Antibiotic-Loaded Hydrogel for the Treatment of Lower-Limb Fracture-Related Infections: A Single Center's Multidisciplinary Experience.

A fracture-related infection (FRI) is a severe complication of an orthopedic trauma, often leading to challenging treatments and poor outcomes. The surgical strategies are typically categorized into one-stage or two-stage procedures, with the use of systemic and local antibiotics being crucial for infection management. This study assessed the efficacy of an antibiotic-loaded hydrogel (ALH) applied over the internal fixation devices for treating FRIs, comparing the outcomes between the one-stage (OS) and two-stage (TS) reconstructions. This retrospective study included 17 patients with an FRI treated using the ALH at a single center. The patients were divided into OS and TS reconstruction groups. The data on demographics, surgical procedures, antibiotic regimens, and outcomes were collected. The primary and secondary outcomes included the infection cure rate, bone union, complications, and reoperation rates. Among the 17 patients (mean age 48.5 years, 16 males), infections were predominantly in the tibia, with 12 chronic and 5 acute cases. Seven patients had monomicrobial infections, and nine had multidrug-resistant pathogens. No significant differences were found between the OS and TS groups in terms of the infection cure rate, bone union, or complications. One patient in the OS group experienced an infection recurrence, and bone healing was achieved in all but one case. Additional complications included delayed wound closure in two cases and implant failure in one case, requiring a reoperation. The ALH demonstrated potential as an effective local antibiotic treatment for FRIs, particularly in the one-stage reconstructions, allowing for a safe application of internal fixation devices. However, further research with larger sample sizes and longer follow-ups is needed to validate these findings.

Effect of Foot Orthoses and Footwear in People with Rheumatoid Arthritis: An Updated Systematic Review.

BACKGROUND/OBJECTIVES: Rheumatoid arthritis is a chronic, systemic, inflammatory disease of an autoimmune nature that causes pain and disability in affected patients. Foot pain has become a challenge due to its negative impact on physical function. The objective of this updated systematic review is to describe the effect of foot orthoses and/or footwear in patients with rheumatoid arthritis and foot problems. METHODS: Scopus, PubMed, CINALH, WOS, and Dialnet were searched for all articles published from January 2013 to September 2024. Inclusion criteria included randomised clinical trials and crossover trials (level of evidence I), published within the last 10 years, involving adults with a diagnosis of rheumatoid arthritis, with no restrictions on gender, race, or ethnicity. All studies that addressed the use of foot orthoses and/or shoe therapy in any type of comparison between these interventions were considered relevant. Review Manager was used to carry out the bias analysis of the selected studies. The reporting was based on the new PRISMA guidelines. RESULTS: A total of 9 relevant articles were selected from an initial sample of 438. These articles analyse and compare the effectiveness of various types of foot orthoses in reducing pain, functional limitation, and disability, as well as improving balance and kinetic and kinematic parameters affected by rheumatoid arthritis. CONCLUSIONS: Foot orthoses reduce pain and disability in rheumatoid arthritis, improving balance and kinematic parameters. However, no significant improvements in the patients' functionality and walking ability have been demonstrated. Customised ones with good arch control, heel reinforcement, and metatarsal pad are more effective. No results on the impact of footwear on patients with rheumatoid arthritis have been found in the last 10 years. This systematic review was registered in PROSPERO (CRD42023405645).