Hybrid Treatment Research Articles

One Stage Hybrid Treatment for Double Giant Aortic Aneurysms.

One Stage Hybrid Treatment for Double Giant Aortic Aneurysms.

Effect of the NiTi particle hybrid and aging treatment on the phase transformation and mechanical and damping properties of 6061Al composites

Effect of the NiTi particle hybrid and aging treatment on the phase transformation and mechanical and damping properties of 6061Al composites

Influence of Gd alloying and ultrasonic vibration hybrid treatment on the microstructures, mechanical properties and strengthening mechanisms of Al/Mg interface by compound casting

Influence of Gd alloying and ultrasonic vibration hybrid treatment on the microstructures, mechanical properties and strengthening mechanisms of Al/Mg interface by compound casting

Comparing Abstinence, Peer Support, and Quality of Life Among Patients Receiving Virtual and In-Person Substance Use Disorder Treatment: A Six-Month Follow-Up Study

ABSTRACT Virtual treatment for substance use disorder (SUD) has become common practice to support patients in achieving and sustaining their recovery. The knowledge base on the effectiveness of virtual treatment is growing; however, little is known about how SUD outcomes in virtual treatment compare to outcomes for patients receiving in-person treatment. This study used data from patients (n = 1164) receiving intensive outpatient (IOP) treatment throughout the United States. Findings suggest that there were no significant differences in outcomes among group 1 (patients receiving virtual treatment) and group 2 (patients receiving in-person or hybrid treatment). This is a promising finding because it demonstrates that one approach to SUD treatment is not superior over another, which further supports patients in choosing the format for treatment that works best for their lifestyle. At 6-month follow-up, patients in both groups reported abstinence at 69%, improvements in quality of life, and engagement in peer support groups and other recovery-oriented support systems. Implications for practice and future research are discussed, particularly around assessing the impact of virtual treatment for patients who have different severities in diagnosis (e.g. mild, moderate, and severe) and assessing changes in recovery capital based on treatment modality.

Three-Staged Surgical Hybrid Treatment for an Extended Thoracoabdominal Aneurysm in a High-Risk Patient: A Case Report

Three-Staged Surgical Hybrid Treatment for an Extended Thoracoabdominal Aneurysm in a High-Risk Patient: A Case Report

Rotarex®S rotational atherectomy combined with drug-coated balloon angioplasty for treating femoropopliteal artery in-stent restenosis

ObjectiveThis study aimed to analyze the safety and mid-term outcomes of a hybrid treatment method combining rotational atherectomy (RA) with drug-coated balloon (DCB) angioplasty in patients with femoropopliteal artery in-stent restenosis (ISR).MethodsThis single-center retrospective study enrolled patients from January 2018 to March 2022 who had femoropopliteal artery in-stent restenosis treated by RA and DCB. Preoperative demographics, operative details, and postoperative 12-month follow-up outcomes were analyzed statistically.Results38 consecutive patients (31 men; mean age 69.55 ± 9.18 years, range 54–91 years) with Tosaka II (n = 8) and III (n = 30) ISR were treated with RA Most patients had a high prevalence of typical vascular comorbidities. Overall, 50% of patients had chronic limb-threatening ischemia, and the average lesion length was 155.0 ± 54.8 mm. The primary patency rate, assessed by duplex ultrasound at 12 months, was 86.7%; 7.9% (3/38) of patients underwent target lesion revascularization (TLR). The overall mortality rate was 2.6% (1/38), and the ulcer healing rate reached 83.3% (5/6), with none of these patients requiring amputation. Subgroup analysis based on target lesion length (≥ 200 mm) showed that the 12-month primary patency rate was 75.0% for the ≥ 200 mm group and 95.5% for the < 200 mm group. Cox univariate regression analysis did not identify any risk factors affecting primary patency rate and freedom from clinically driven TLR (CD-TLR) at 12 months.ConclusionsRotarex®S combined with DCB seems safe and provides acceptable 12-month primary patency and TLR rates in femoropopliteal in-stent restenosis. Well-designed comparative or large registry studies are necessary to provide high quality and long-term data on this technique to provide firm conclusions on the efficacy of Rotarex®S and DCB in ISR in the femoropopliteal area.

The Effect of Hybrid Blood Purification Combined with Ulinastatin for the Treatment of Severe Sepsis on APACHE II Score and Levels of miR-146a and miR-155.

Severe sepsis is a systemic inflammatory response syndrome caused by infection, and the Acute Physiological Assessment and Chronic Health Evaluation II (APACHE II) scoring system is widely used to assess the severity of severe patients. Hybrid blood purification treatment (HBPT) and ulinastatin (UTI) have shown good efficacy in a variety of inflammatory diseases, and miR-146a and miR-155 were found to be closely related to inflammatory reaction. The purpose of this study was to investigate the effect of HBPT combined with UTI in the treatment of patients with severe sepsis, especially the effects on APACHE II score and miR-146a and miR-155 levels. We carried out a retrospective analysis of clinical data with severe sepsis admitted to our hospital from January 2020 to June 2022. The patients were divided into an HBPT or HBPT+UTI group according to the treatment records. The APACHE II score, miR-146a level, miR-155 level, inflammatory factors, and rehabilitation status of both groups were analyzed and compared before and after treatment. A total of 150 were included in the analysis, there were 77 participants in HBPT+UTI and 73 in HBPT group. After treatment, the APACHE II score and levels of miR-146a, miR-155, and inflammatory factors were significantly lower than that before treatment. Furthermore, the HBPT+UTI group showed significantly lower values than the HBPT group (all P < 0.05). The recovery time of serum amylase, the disappearance time of abdominal pain, and the length of hospitalization in the HBPT+UTI group were significantly shorter than those in the HBPT group (all P < 0.05). UTI treatment combined with the administration of HBPT could improve the APACHE II score, alleviate the inflammatory reaction, and significantly improve the short-term prognosis of the patients with severe sepsis.

Analgesics in wastewater matrix: A comprehensive review on occurrence, toxicity, and sustainability assessment of biological, tertiary, and hybrid treatment processes

Analgesics in wastewater matrix: A comprehensive review on occurrence, toxicity, and sustainability assessment of biological, tertiary, and hybrid treatment processes

How to preserve the native or reconstructed esophagus after perforations or postoperative leaks: A multidisciplinary 15-year experience.

Esophageal perforation or postoperative leak after esophageal surgery remain a life-threatening condition. The optimal management strategy is still unclear. To determine clinical outcomes and complications of our 15-year experience in the multidisciplinary management of esophageal perforations and anastomotic leaks. A retrospective single-center observational study was performed on 60 patients admitted at our department for esophageal perforations or treated for an anastomotic leak developed after esophageal surgery from January 2008 to December 2023. Clinical outcomes were analyzed, and complications were evaluated to investigate the efficacy and safety of our multidisciplinary management based on the preservation of the native or reconstructed esophagus, when feasible. Among the whole series of 60 patients, an urgent surgery was required in 8 cases due to a septic state. Fifty-six patients were managed by endoscopic or hybrid treatments, obtaining the resolution of the esophageal leak/perforation without removal of the native or reconstructed esophagus. The mean time to resolution was 54.95 ± 52.64 days, with a median of 35.5 days. No severe complications were recorded. Ten patients out of 56 (17.9%) developed pneumonia that was treated by specific antibiotic therapy, and in 6 cases (10.7%) an atrial fibrillation was recorded. Seven patients (12.5%) developed a stricture within 12 months, requiring one or two endoscopic pneumatic dilations to solve the problem. Mortality was 1.7%. A proper multidisciplinary approach with the choice of the most appropriate treatment can be the key for success in managing esophageal leaks or perforations and preserving the esophagus.

Long term performance of Nature-Based Solutions as decentralized wastewater treatment: a case study of a retail store in southern Italy

The aim of this study is to evaluate the removal efficiency and the hydraulic behavior of the 10-year-old hybrid treatment wetland (TW) system treating effluents of the IKEA® store of Catania (Eastern Sicily, Italy), under Mediterranean semi-arid climate conditions. The system is placed downstream to the conventional wastewater (WW) treatment of the store, that includes a sequential batch reactor (SBR) followed by a horizontal subsurface treatment wetland (HF) unit and two vertical subsurface flow treatment wetlands (VF1 and VF2) units. The assessment of chemical, physical, and microbiological parameters in treated WW was carried out through regular monitoring activities, occurring approximately on a monthly basis, over a 8-year period spanning from 2016 to 2023. Up to 72 samples were collected for the following parameters measurements: total suspended solids (TSS), BOD5, COD, total phosphorus (TP), ammonia (as NH4), nitrate (as NO3-N), nitrite (as NO2-N), total nitrogen (TN) and E. coli. Hydraulic conductivity at saturation (Ks) measurements and tracer tests were conducted to evaluate the extent of clogging and to characterize the hydraulic behavior within the HF unit. Results obtained during the entire monitoring period show the following mean and standard errors (±) removal efficiency ranges (%): TN 21(±11)-80(±9); TSS 18(±42)-95(±3); COD 28(±23)-93(±2); BOD5 31(±10)-85(±44); TP 14(±6)-49(±19); NH4 50(±50)-95(±3); E. coli was abated with a mean range of 3.3(±0.2)-4.8(±0.4) Ulog reduction, reaching not detectable values in most samples analyzed since 2018. The efficacy of the treatment system is assessed in the context of both national and European regulatory frameworks governing effluent discharge and water reuse standards. Ks values and tracer test results agree in showing the progressive clogging of the HF unit influencing the hydraulic behavior of the unit giving useful on the management of TWs in Mediterranean area. Finally, the performance results also indicate that the overall treatment is not affected by the HF unit clogging.

Combined one-step hybrid treatment for a paediatric giant internal carotid artery aneurysm: a case report.

Background Giant intracranial aneurysms (GIAs) require complex treatment strategies including clipping, coiling, stenting, parent artery occlusion, bypass, or combined procedures. Neurovascular hybrid operating rooms (h-OR) combine a conventional operating theatre with high-resolution digital subtraction angiography (DSA). We describe a one-step combined surgical and endovascular treatment in a h-OR for a paediatric internal carotid artery giant aneurysm that can be an optimal solution to manage challenging cases, such as giant aneurysms. Case Description An 11-year-old boy presented with rapid onset right hemiparesis and left eyelid ptosis. A three months history of headache associated with sporadic vomit was reported. A giant, unruptured, left internal carotid artery aneurysm (ICA) was detected on imaging. The patient underwent surgical trapping of the aneurysm. Intraoperative DSA showed residual backflow from the posterior communicating artery (PComA) and coils were placed to completely exclude the aneurysm. At 18 months follow up, the patient showed a complete recovery and MRI showed a progressive reduction of the sac aneurysm. Conclusions Due to their morphologic variability, intracranial giant aneurysms may require a different procedural strategy instead of direct clipping or coiling. The introduction of h-OR allows combined treatments to be performed simultaneously in the same room setting. The present case shows that combined treatment in a neurovascular h-OR can be an optimal solution to manage challenging cases, such as giant aneurysms, reducing operative time with the added benefit of selecting an appropriate strategy adjustment in a multidisciplinary effort.

Advancements in Electrochemical Advanced Oxidation Processes: Addressing Emerging Contaminants in Latin America

Water contamination by persistent organic pollutants is one of the main challenges to be solved for a desired sustainable society. The occurrence of emerging pollutants (CECs), even at low concentrations (from μg L-1 to ng L-1), negatively affects species' life cycles and water quality, impacting the population's water supply. Inorganic pollutants such as arsenic, sulfates, phosphates, iron, lead, and mercury, often accompany emerging pollutants, further reducing effluent quality. In Latin America, the occurrence and problematic nature CECs pose significant challenges to environmental and public health. Rapid urbanization and industrialization, and agricultural intensification contribute to the release of a diverse range of emerging pollutants into the environment. Therefore, their study has recently been gaining wide interest in the scientific community. Various factors contribute to water pollution, including direct industrial and domestic discharge without proper treatment, deteriorating sewage pipes causing effluent infiltration, and stormwater percolating through solid waste disposal sites. These pollutants, along with their degradation by-products, are not fully biodegradable and persist in water bodies, leading to bioaccumulation in marine and freshwater species and posing potential hazards to human health through contaminated food consumption.Over the past two decades, scientific research in Latin America has evolved to study emerging pollutants in various biological samples and environmental matrices, but further collaboration among neighboring countries is needed. In recent years, Brazil, Chile, and Colombia are the main countries that have conducted research on the presence of these pollutants in biological and aquatic compartments. However, economic issues and high treatment/monitoring costs result in data absence in countries like Haiti, Cuba, Venezuela, Nicaragua, and Honduras. Figure 1 shows CECs detection in different Latin America´s countries. Figure 1. Overview of the detection of CECs in Latin America in different matrices of biological and environmental origin [1].Analytical methods used in Latin America for determining emerging pollutants have evolved towards environmentally friendly techniques with shorter development times and lower solvent consumption. Most common analytical methodologies for identifying these compounds were HPLC and GC coupled with mass spectrometry. However, studies remain insufficient compared to other regions, partly due to equipment absence and focus on target analysis, potentially biased information. Data gathered indicated that pharmaceuticals, pesticides, and personal care products are the most assessed CECs in Latin America, being the most common compounds the followings: atrazine, acenaphthene, caffeine, carbamazepine, ciprofloxacin, diclofenac, diuron, estrone, losartan, sulfamethoxazole, and trimethoprim.Effective wastewater management plays a fundamental role in preserving public and ecological health. However, the use of outdated wastewater treatment plants (WWTPs) or with limited disposal strategies/practices is the main essential factor for an unhealthy ecosystem because a large number of organic micropollutants and their transformations products (TPs) are constantly released into the aquatic environment during their life cycle. Most CECs’ monitoring and detection were observed near to urban areas which confirm the out-of-date wastewater treatment plants and sanitization infrastructures limiting the removal of these pollutants. Therefore, the implementation of tertiary treatment should be required.Global efforts to eliminate or at least control CECs have increased. To remove emerging pollutants from wastewater, several treatments such as adsorption, physicochemical processes, constructed wetlands, membrane technologies, advanced oxidation processes (AOPs), electrochemical advanced oxidation processes (EAOPs), and hybrid treatments have been assessed, each one with their cons and pros. Regarding EAOPs, they represent a promising and innovative approach. Through the generation of reactive oxygen species and other powerful oxidants at the electrode surface, EAOPs facilitates the breakdown of diverse organic pollutants. This method offers advantages such as high efficiency, selectivity, and the ability to target a wide range of CECs. Moreover, EAOP can be particularly beneficial for treating complex wastewater matrices where traditional treatment methods may fall short. Moreover, these electrochemical processes promote sustainable water management practices, but further research is needed to scale up laboratory findings to pre-industrial setups.Addressing the occurrence of contaminants of emerging concern in Latin America requires a comprehensive approach that involves strengthened regulations, improved monitoring infrastructure, and sustainable waste management practices to safeguard both environmental and human well-being. In addition, circular economy approaches have shifted focus towards value-added by-products from wastewater treatment, but a unified regulation across Latin America is crucial for mitigating environmental impacts and maximizing recycling and reuse benefits. Future research should include continuous wastewater testing, studying new contaminants, elucidating degradation mechanisms, assessing treatment effectiveness and toxicity, promoting renewable energy use, optimizing treatment methods, developing new reactor designs, enhancing plant control and automation, fostering university-industry-government collaboration, and implementing regional monitoring plans and standardized policies.References. [1] Sandoval, M., et al., Environ, Pollut. 345, 123397, 2024. Figure 1

Modulation of miR-205 expression using a Cheiranthus cheiri phyto-nano hybrid as a potential therapeutic agent against breast cancer.

Breast cancer is the fifth major cause of fatalities associated with cancer worldwide and in Pakistan, 34 066 female breast cancer cases were recorded in 2018. This study was designed to understand extracts of Cheiranthus cheiri (C. cheiri) and to evaluate the epigenetic modulation of microRNA expression for breast cancer therapy using a selected phyto-nanohybrid treatment. The phytochemical screening revealed the presence of potential phytochemicals and antioxidant scavenging activity in the C. cheiri extracts with a DPPH (2-diphenyl-1-picryl-hydroxyl) assay giving an IC50 value of 20.63 μg mL-1. GC-MS (gas chromatography-mass spectroscopy) analysis of the C. cheiri n-hexane extract detected 42 phytocompounds. Titanium oxide (TiO2) nanoparticles were synthesized and characterized using XRD (X-ray diffraction), SEM (scanning electron microscopy) and EDX (energy dispersive X-ray spectrometry) to confirm the synthesis of anatase (tetragonal) TiO2. The prepared nanoparticles were conjugated with the selected plant i.e., C. cheiri. The resulting phyto-nanohybrid was used for the subsequent treatment of breast cancer induced in a female rat model. The treatment groups were as follows: doxorubicin as the standard treatment, C. cheiri, TiO2 and the phyto-nano hybrid treatment. After 8 weeks of treatment, the groups induced to exhibit breast cancer (with and without treatment) and the control groups were dissected and analysed for histopathological, haematological and microRNA expression. Histopathological examination revealed chronic inflammation in the dilated ducts and tumour embolus formation, thus confirming the presence of breast cancer in the DMBA-induced female rat model. MicroRNA expression analysis showed a statistically significant decrease in levels of miR-205 in the plasma of the breast cancer rat model compared to the control (p < 0.05). After treatment with the phyto-nano hybrid, a statistically significant increase in the expression of miR-205 was observed in the rat models induced to exhibit breast cancer compared to the rat model without any treatment (p < 0.05). The downregulation of miR-205 in the plasma of the breast cancer exhibiting model, as compared to the control, and its upregulation after treatment with the selected phyto-nano hybrid indicated its diagnostic and prognostic significance. It is concluded that the phyto-nano hybrid used in this study is effective against breast cancer induced female rat model. All the results support the finding that the selected phyto-nano hybrid has great potential as a possible therapeutic agent for the treatment of breast cancer.

Recent Advances in Aluminum Alloy Surface Treatment Technology and Bonding Properties

Aluminum alloys are widely used in lightweight automotive structures due to their excellent properties. To deeply explore the development of surface bonding technology, aluminum alloy is selected as the object, and current research status of aluminum alloy surface treatment methods is reviewed. The adhesion mechanism during joint preparation, the method of adhesive selection, and the bonding process are summarized. This overview discusses the impact of different surface treatment processes on aluminum alloy joints from two perspectives: substrate characteristics and joint failure modes. It examines how these processes affect surface roughness, surface morphology, surface contact angle, surface free energy, surface chemical composition, and bonding performance. Additionally, it looks ahead to key directions for future research on adhesive joint performance. The results indicate that surface treatment increases the surface roughness of aluminum alloys, reduces the contact angle, and improves surface wettability. Moreover, chemical elements or functional groups that enhance adhesion are introduced on the surface, improving the bonding capability between the adhesive and the substrate. Compared to single‐surface treatment methods, hybrid treatment methods significantly enhance the surface characteristics of aluminum alloys and are expected to become a primary focus for future research on bonded joint performance.

A Comprehensive Review of Advanced Treatment Technologies for the Enhanced Reuse of Produced Water

Produced water (PW) is considered to be the largest source of industrial wastewater associated with oil and gas extraction operations for industrial production. It is a mixture of organic and inorganic compounds that has high complexity in terms of various characteristics. Globally, the volume of PW is increasing along with the expansion of gas and oil fields, leading to major impacts on the environment. Existing treatment technologies involve partially treating the PW through removing the suspended solids, heavy metals, without removing organic components and re-injecting the water underground using water disposal injection wells. The treatment process consists of a primary treatment unit to remove the particles, followed a secondary biological or chemical processing treatment, while the final treatment stage involves the use of a tertiary treatment unit to improve the water quality and remove the remainder of the undesired components. Moreover, while PW is considered one of the available options to be utilized as a water source, no alternate advanced treatment options on a commercial scale are available at present due to the limitations of existing PW treatment technologies, associated with their maintainability, sustainability, cost, and level of quality improvement. As such, research focused on finding an optimal treatment approach to improve the overall process continues to be conducted, with the aim of reusing the water instead of injecting it underground. This literature review discusses the latest advanced technologies for PW treatment aimed at reusing the full stream capacity of PW and eliminating the need for wastewater disposal via injection. It is concluded that researchers should focus on hybrid treatment technologies in order to remove the pollutants from PW, effectively allowing for its reuse.

A quantification of the electron return effect using Monte Carlo simulations and experimental measurements for the MRI-linac

The integration of magnetic resonance (MR) imaging and linear accelerators into hybrid treatment systems has made MR-guided radiation therapy a clinical reality. This work aims to evaluate the influence of the Electron Return Effect (ERE) on the dose distributions. This study was conducted using MRIdian (ViewRay, Cleveland, Ohio) system. Monte-Carlo simulations (MCs) and experimental measurements with EBT3 Gafchromic films were performed to investigate the dose distribution in a slab water phantom with and without a 2-cm air gap. Plus, MCs took into account different field sizes and a lung gap. A gamma analysis compared calculated versus measured dose distributions. The MCs have shown an increase of the ERE with the radiation field size both in Percent Depth Dose (PDD) and crossline direction. As concerns to the PDD direction, the smallest field for which there was a significant dose accumulation was 4.15×4.15 cm2both for air-gap (13.5%) and lung-gap (3.3%). The largest field for which there was a significant dose accumulation was 24.07×24.07 cm2both for air-gap (39.7%) and lung-gap (4.9%). Instead for the crossline direction, the smallest field for which there was a significant dose accumulation was 2.49×2.49 cm2both for air-gap (8.6% ) and lung-gap (0.5%). The largest field for which there was a significant dose accumulation was 24.07×24.07 cm2both for air-gap (46.2%) and lung-gap (4.2%). PDD and crossline profiles showed good agreement with a gamma-passing rate higher than 91.15% for 2%/2 mm. The ERE can be adequately calculated by MC dose calculation platform available in the MRIdian Treatment Planning System. The MCs show an increase of the ERE directly proportional with the radiation field size. Good agreement was observed between the experimental measurements and calculated dose distributions.

SURG-31. HYBRID THERAPY FOR NEWLY DIAGNOSED AND RECURRENT GLIOBLASTOMA: STAGED PROCEDURE INTEGRATING OPEN SURGICAL RESECTION WITH LASER INTERSTITIAL THERMAL THERAPY

Abstract BACKGROUND Glioblastoma (GBM) is the most common and aggressive primary malignant brain tumor in adults with a median overall survival (OS) of 15.6 months. Despite advancements, 5-year survival rates have not significantly improved. Laser interstitial thermal therapy (LITT) has been employed to treat both newly diagnosed (nGBM) and recurrent GBM (rGBM) with demonstrable safety and efficacy. Traditionally, LITT has been limited to smaller lesions given physical and thermal constraints. OBJECTIVE We present two case examples of a novel, hybrid treatment approach to GBM, utilizing both surgery and laser ablation as part of a single-staged procedure. METHODS Two geriatric (&amp;gt;65 years) patients with nGBM or rGBM were treated with surgical resection followed by LITT the subsequent day. Both patients underwent preoperative magnetic resonance imaging (MRI) showing multifocal disease with a dominant component, causing mass effect in the second case, and an unresectable component. RESULTS The first case underwent surgical resection of a large, multicentric rGBM in the parieto-occipital region, followed by LITT of an unresectable lesion in the inferior temporal gyrus. The second patient underwent surgical resection of the dominant temporal lobe component, and LITT of the insular component. Neither patient had intraoperative or ablation complications. Both patients had stable postoperative neurological exams and were discharged on the day after ablation, with no new deficits at follow-up. CONCLUSION The prognosis for GBM remains dismal despite significant research and attempts at advancements in patient management. Surgical resection is a critical component of the GBM treatment paradigm. However, surgery alone is not sufficient in many patients. LITT has shown promise for improving GBM outcomes, mainly due to its minimal invasiveness, enhanced immune responses, BBB disruption, and cytoreductive potential. We demonstrate a novel, hybrid approach to GBM using hybrid surgical resection and LITT in a single-staged procedure to overcome traditional constraints of LITT.

Feasibility of Home-Based Early Infant Hybrid Therapy in Children with Unilateral Cerebral Palsy.

Background: The first stage of childhood is characterized by great neuronal plasticity. In Unilateral Cerebral Palsy (UCP), it is essential to carry out early treatment, with family involvement. The aim of this study was to investigate the feasibility of Early Infant Hybrid Therapy (eI-Hybrid) applied at home with family involvement in children with UCP aged 9-18 months, and to assess its preliminary effectiveness on bimanual functional performance. Methods: A single group of 10 children (12.8 months, SD = 3.4) performed the eI-Hybrid therapy. The main outcome was measured with the mini Assisting Hand Assessment scale (mini-AHA), functional goals were measured with the Goal Attainment Scale (GAS), and satisfaction expectations on intensive therapy were also recorded. Three measures were performed (week 0, week 10, and month 6). A repeated-measures ANOVA test was performed on the mini-AHA in order to observe the statistically significant differences in pairwise comparison. Results: Ten children completed the study and the parents' expectations were fulfilled, indicating high caregiver compliance and high adherence to the treatment. Clinically relevant changes were observed between pre- and post-intervention measurements in BFP (pre: 41.9 (SD: 7.7), post: 50.9 (SD: 6.0) and in the follow-up at 6 months (50.3 (SD:5.6); p < 0.001). Families reported a high satisfaction. Conclusions: infant hybrid treatment is feasible to be performed at home with the family's involvement, obtaining improvements in the affected upper limb for early-age UCP.

An investigation into the microstructural evolution and shrinkage control in internally cured mortars with milkweed fibres

This study presented a significant advancement in the use of Milkweed (MW) fibres as internal curing agents in low water-to-cement (w/c) cementitious materials. The research focused on how different pre-treated MW fibres, with different composition, can impact internal curing efficacy in reducing autogenous shrinkage of cement mortars. In addition, the hydration behaviour and microstructural development were revealed using a series of tests including setting time, compressive strength, flexural strength, scanning electron microscopy (SEM), and thermogravimetric analysis (TGA/DTG). A key finding of this study is the remarkable reduction in autogenous shrinkage, with using 0.1 % wt. pre-treated MW fibres leading to up to 28 % reduction at 7 days, compared to plain mortars. Furthermore, internal curing effect resulted in narrowing the compressive strength gap between the reference mixes and those with pre-treated MW fibres in the later stages of hydration. It was also found that the removal of hemicellulose through hybrid treatment can reduce the delay in the final setting time of cement from 45 minutes to 18 minutes. Additionally, while the incorporation of N- and HT-treated MW fibres had negligible effects on drying shrinkage, the inclusion of HY-treated MW fibres led to a 15 % increase in drying shrinkage at 7 days. This difference in behaviour was attributed to the presence of lignin in N- and HT-treated fibres. Lignin was found to play a crucial role in influencing the drying shrinkage, microstructural development, and mechanical properties of MW fibre-incorporated cementitious mixes. Acting as a protective barrier, lignin shielded the MW fibres from cement infiltration into their lumina. Moreover, it served as both a physical and chemical barrier, reducing moisture transport through the capillary network during drying. In conclusion, this study demonstrated the potential of using pre-treated MW fibres as internal curing agents to effectively reduce autogenous shrinkage, with minimal compromise in terms of the compressive strength of cementitious composites.

Application of shot peening to improve fatigue properties via enhancement of precipitation response in high-strength Al-Cu-Li alloys

This paper investigates the role of a hybrid treatment considering severe shot peening as a pre-treatment to age-hardening in enhancing the fatigue properties of an advanced high-strength Al-Cu-Li alloy. The alloy was subjected to severe shot peening with a combination of two different heat treatment regimes, aiming for microstructural modification to promote precipitation of heterogeneously nucleating phases. The effects of different treatments based on combined aging and severe shot peening on residual stresses, hardness, microstructural characteristics, and fatigue properties were evaluated and critically discussed. The results have shown that in the case of heat treatment regimes at which the formation of heterogeneously nucleating T1 precipitates occurs, the application of severe shot peening prior to aging results in significant refinement of strengthening particles, enhancing the fatigue properties in the short and medium fatigue lifetimes.