Redução e desnasalização em verbos de 3ª pessoa do plural no português mazaganense

This work seeks to highlight the phenomena of reduction and denasalization in final unstressed nasal diphthongs in 3rd person plural verbs in Mazagan Portuguese. The objective is to show how these occurrences develop in the community, in view of the variability of realizations already present in Brazilian Portuguese. Thus, we deal with the concept of reduction and denasalization, from the morphophonological perspective, related to the variable behavior of third-person plural verb agreement ─ they/they speak [ãw] [w], they/they eat [ẽy] [I]. For this, we consider the studies already carried out by Chaves (2016), Mendonça et al (2017), Medeiros et al (2021), Batisti (2000), Silva et al (2012), Bopp da Silva and Schwindt (2009), as well as how we used the theory and variationist methodology of Labov (2018 [1972]) and Weinreich, Lavob and Herzog (2006). For this purpose, we considered the graphematic transcriptions, based on the transcription key of Projeto Vertentes (LUCCHESI, 2010), from clippings of interviews carried out in the Mazagan community. This community, under the eyes of Vidal (2008) and Oliveira (2015), corresponds to the district of Mazagão Velho, in Amapá, an Afro-descendant community that maintains in its tradition a social organization that stands out for its uniqueness, considering the local cultural manifestations. These evidences favor the accomplishment of the sociolinguistic investigation given its geographic, historical and sociocultural representation, since this place constitutes historical-cultural heritage of the state of Amapá.Este trabalho busca evidenciar os fenômenos de redução e desnasalização em ditongos nasais átonos finais em verbos da 3ª pessoa do plural no português mazaganense. O objetivo é mostrar como essas ocorrências se desenvolvem na comunidade, tendo em vista a variabilidade das realizações já presentes no português brasileiro. Assim, tratamos do conceito de redução e desnasalização, a partir da perspectiva morfofonológica, relacionado ao comportamento variável da concordância verbal de terceira pessoa do plural ─ eles/elas falam [ãw] [w], eles/elas comem [ẽy] [I]. Para isso, consideramos os estudos já realizados por Chaves (2016), Mendonça et al (2017), Medeiros et al (2021), Batisti (2000), Silva et al (2012), Bopp da Silva e Schwindt (2009), bem como lançamos mão da teoria e metodologia variacionista de Labov (2018 [1972]) e Weinreich, Lavob e Herzog (2006). Para esse fim, consideramos as transcrições grafemáticas, com base na chave de transcrição do Projeto Vertentes (LUCCHESI, 2010), provenientes de recortes de entrevistas realizadas na comunidade mazaganense. Essa comunidade, sob o olhar de Vidal (2008) e Oliveira (2015), corresponde ao distrito de Mazagão Velho, no Amapá, comunidade afrodescendente que mantém em sua tradição uma organização social que se destaca por sua singularidade, considerando as manifestações culturais locais. Essas evidências favorecem a realização da investigação sociolinguística dada sua representação geográfica, histórica e sociocultural, visto que esse local constitui patrimônio histórico-cultural do estado do Amapá

Fatal pulmonary embolism following injectable gluteal filler usage: a case report

Abstract Background Despite the fact that injectable filler usage in the gluteal region has not been recommended in formal medical institutions, illegal procedures are performed in many clinics and beauty centers across Egypt. This case report illustrates the illegal practice culminating in a fatal complication. Case presentation A 26-year-old female with no relevant medical history presented to the ER with acute onset shortness of breath. The complaint started 16 h before, with a rapidly progressive course, shortly after undergoing a gluteal filler injection at a center in Cairo. At ER, the patient was severely distressed, yet fully conscious and oriented. She was shocked (BP 70/40 mmHg), tachycardic (130 BPM), and tachypneic (30/min) with normal temperature. She had congested pulsating neck veins with positive Kussmaul sign. Chest auscultation revealed normal vesicular breathing with equal air entry and no adventitious sounds. Her O2 saturation was 60% on room air that improved to 85% on O2 mask. ECG showed sinus tachycardia. Echocardiography showed dilated right side, D-shaped septum with systolic flattening, dilated IVC, mild tricuspid regurgitation and estimated RV systolic pressure 53 mmHg. Her ABG showed compensated metabolic acidosis with elevated lactate level. At the ICU, CVP was 18 mmHg. Saline infusion was continued along with noradrenaline infusion initiation. A provisional diagnosis of high-risk pulmonary embolism was made, though CT pulmonary angiography was not available. Accordingly, thrombolytic therapy was initiated with alteplase (100 mg) over 2 h. Also, a dose of pulse steroids (methylprednisolone 200 mg) was given. Chest X-ray showed bilateral heterogenous opacity and ABG showed deteriorating hypoxia and combined metabolic and respiratory acidosis. The patient was intubated upon deterioration of conscious level and was put on mechanical ventilation. Her ET tube showed frequent blood-tinged secretions. Echocardiography showed more right-side dilatation that was consistent with deterioration of clinical status. Three hours after admission the patient developed cardiac arrest and died 2 h later. Conclusions This case report highlights the dangers associated with injectable filler usage in the gluteal region. Physicians and patients should be aware of the possible complications and how to avoid it

Polyphosphoester nanoparticles as biodegradable platform for delivery of multiple drugs and siRNA

Hadeel Elzeny,1,* Fuwu Zhang,2,* Esraa N Ali,1 Heba A Fathi,1 Shiyi Zhang,3 Richen Li,2 Mohamed A El-Mokhtar,4 Mostafa A Hamad,5 Karen L Wooley,2,6 Mahmoud Elsabahy1,6–8 1Assiut International Center of Nanomedicine, Al-Rajhy Liver Hospital, Assiut University, Assiut, Egypt; 2Departments of Chemistry, Chemical Engineering and Materials Science and Engineering, Texas A&M University, College Station, TX, USA; 3School of Biomedical Engineering, Shanghai Jiao Tong University, Shanghai, People’s Republic of China; 4Department of Microbiology and Immunology, Faculty of Medicine, 5Department of Surgery, Faculty of Medicine, Assiut University, Assiut, Egypt; 6Laboratory for Synthetic-Biologic Interactions, Department of Chemistry, Texas A&M University, College Station, TX, USA; 7Department of Pharmaceutics, Faculty of Pharmacy, Assiut University, Assiut, 8Misr University for Science and Technology, 6th of October City, Egypt *These authors contributed equally to this work Abstract: Delivery of multiple therapeutics and/or diagnostic agents to diseased tissues is challenging and necessitates the development of multifunctional platforms. Among the various strategies for design of multifunctional nanocarriers, biodegradable polyphosphoester (PPE) polymers have been recently synthesized via a rapid and simple synthetic strategy. In addition, the chemical structure of the polymer could be tuned to form nanoparticles with varying surface chemistries and charges, which have shown exceptional safety and biocompatibility as compared to several commercial agents. The purpose of this study was to exploit a mixture of PPE nanoparticles of cationic and neutral surface charges for multiple delivery of anticancer drugs (ie, sorafenib and paclitaxel) and nucleic acids (ie, siRNA). Cationic PPE polymers could efficiently complex siRNA, and the stability of the nanoparticles could be maintained in physiological solutions and upon freeze-drying and were able to deliver siRNA in vivo when injected intravenously in mice. Commercially available cationic polyethylenimine polymer had LD50 of ca. 61.7 mg/kg in mice, whereas no animal died after injection of the cationic PPE polymer at a dose of >130 mg/kg. Neutral PPE nanoparticles were able to encapsulate two hydrophobic drugs, namely, sorafenib and paclitaxel, which are commonly used for the treatment of hepatocellular carcinoma. Mixing the neutral and cationic PPE nanoparticles did not result in any precipitation, and the size characteristics of both types of nanoparticles were maintained. Hence, PPE polymers might have potential for the delivery of multiple drugs and diagnostic agents to diseased tissues via simple synthesis of the individual polymers and assembly into nanoparticles that can host several drugs while being mixed in the same administration set, which is of importance for industrial and clinical development. Keywords: biodegradable nanoparticles, polyphosphoester, chitosan, polyethylenimine, siRNA, sorafenib, paclitaxe

Polyphosphoester nanoparticles as biodegradable platform for delivery of multiple drugs and siRNA

Delivery of multiple therapeutics and/or diagnostic agents to diseased tissues is challenging and necessitates the development of multifunctional platforms. Among the various strategies for design of multifunctional nanocarriers, biodegradable polyphosphoester (PPE) polymers have been recently synthesized via a rapid and simple synthetic strategy. In addition, the chemical structure of the polymer could be tuned to form nanoparticles with varying surface chemistries and charges, which have shown exceptional safety and biocompatibility as compared to several commercial agents. The purpose of this study was to exploit a mixture of PPE nanoparticles of cationic and neutral surface charges for multiple delivery of anticancer drugs (ie, sorafenib and paclitaxel) and nucleic acids (ie, siRNA). Cationic PPE polymers could efficiently complex siRNA, and the stability of the nanoparticles could be maintained in physiological solutions and upon freeze-drying and were able to deliver siRNA in vivo when injected intravenously in mice. Commercially available cationic polyethylenimine polymer had LD 50 of ca. 61.7 mg/kg in mice, whereas no animal died after injection of the cationic PPE polymer at a dose of >130 mg/kg. Neutral PPE nanoparticles were able to encapsulate two hydrophobic drugs, namely, sorafenib and paclitaxel, which are commonly used for the treatment of hepatocellular carcinoma. Mixing the neutral and cationic PPE nanoparticles did not result in any precipitation, and the size characteristics of both types of nanoparticles were maintained. Hence, PPE polymers might have potential for the delivery of multiple drugs and diagnostic agents to diseased tissues via simple synthesis of the individual polymers and assembly into nanoparticles that can host several drugs while being mixed in the same administration set, which is of importance for industrial and clinical development

Trailblazing Kr/Xe Separation: The Birth of the First Kr-Selective Material

Efficient separation of Kr from Kr/Xe mixtures is pivotal in nuclear waste management and dark matter research. Thus far, scientists have encountered a formidable challenge: the absence of a material with the ability to selectively adsorb Kr over Xe at room temperature. This study presents a groundbreaking transformation of the renowned metal–organic framework (MOF) CuBTC, previously acknowledged for its Xe adsorption affinity, into an unparalleled Kr-selective adsorbent. This achievement stems from an innovative densification approach involving systematic compression of the MOF, where the crystal size, interparticle interaction, defects, and evacuation conditions are synergistically modulated. The resultant densified CuBTC phase exhibits exceptional mechanical resilience, radiation tolerance, and notably an unprecedented selectivity for Kr over Xe at room temperature. Simulation and experimental kinetic diffusion studies confirm reduced gas diffusion in the densified MOF, attributed to its small pore window and minimal interparticle voids. The lighter Kr element demonstrates facile surface passage and higher diffusivity within the material, while the heavier Xe encounters increased difficulty entering the material and lower diffusivity. This Kr-selective MOF not only represents a significant breakthrough in Kr separation but also demonstrates remarkable processability and scalability to kilogram levels. The findings presented herein underscore the transformative potential of engineered MOFs in addressing complex challenges, heralding a new era of Kr separation technologies

Trailblazing Kr/Xe Separation: The Birth of the First Kr-Selective Material

Efficient separation of Kr from Kr/Xe mixtures is pivotal in nuclear waste management and dark matter research. Thus far, scientists have encountered a formidable challenge: the absence of a material with the ability to selectively adsorb Kr over Xe at room temperature. This study presents a groundbreaking transformation of the renowned metal–organic framework (MOF) CuBTC, previously acknowledged for its Xe adsorption affinity, into an unparalleled Kr-selective adsorbent. This achievement stems from an innovative densification approach involving systematic compression of the MOF, where the crystal size, interparticle interaction, defects, and evacuation conditions are synergistically modulated. The resultant densified CuBTC phase exhibits exceptional mechanical resilience, radiation tolerance, and notably an unprecedented selectivity for Kr over Xe at room temperature. Simulation and experimental kinetic diffusion studies confirm reduced gas diffusion in the densified MOF, attributed to its small pore window and minimal interparticle voids. The lighter Kr element demonstrates facile surface passage and higher diffusivity within the material, while the heavier Xe encounters increased difficulty entering the material and lower diffusivity. This Kr-selective MOF not only represents a significant breakthrough in Kr separation but also demonstrates remarkable processability and scalability to kilogram levels. The findings presented herein underscore the transformative potential of engineered MOFs in addressing complex challenges, heralding a new era of Kr separation technologies

Trailblazing Kr/Xe Separation: The Birth of the First Kr-Selective Material

Efficient separation of Kr from Kr/Xe mixtures is pivotal in nuclear waste management and dark matter research. Thus far, scientists have encountered a formidable challenge: the absence of a material with the ability to selectively adsorb Kr over Xe at room temperature. This study presents a groundbreaking transformation of the renowned metal–organic framework (MOF) CuBTC, previously acknowledged for its Xe adsorption affinity, into an unparalleled Kr-selective adsorbent. This achievement stems from an innovative densification approach involving systematic compression of the MOF, where the crystal size, interparticle interaction, defects, and evacuation conditions are synergistically modulated. The resultant densified CuBTC phase exhibits exceptional mechanical resilience, radiation tolerance, and notably an unprecedented selectivity for Kr over Xe at room temperature. Simulation and experimental kinetic diffusion studies confirm reduced gas diffusion in the densified MOF, attributed to its small pore window and minimal interparticle voids. The lighter Kr element demonstrates facile surface passage and higher diffusivity within the material, while the heavier Xe encounters increased difficulty entering the material and lower diffusivity. This Kr-selective MOF not only represents a significant breakthrough in Kr separation but also demonstrates remarkable processability and scalability to kilogram levels. The findings presented herein underscore the transformative potential of engineered MOFs in addressing complex challenges, heralding a new era of Kr separation technologies