Clemonskristiansen9974
Male gender (
= .006) and lower gestational age (
= .0001) contributed to higher grades of IVH.
According to the results obtained in this study, it may be concluded that the lack of corticosteroid use is the most common risk factor for IVH, and short-term complications may be seen in one-tenth of the cases.
According to the results obtained in this study, it may be concluded that the lack of corticosteroid use is the most common risk factor for IVH, and short-term complications may be seen in one-tenth of the cases.
processing disorder (SPD) is a neurodevelopmental disorder that can negatively affect objective, emotional, and behavioral functioning. Therefore, assessing sensory processing is critical in children. This study aimed to provide a current comprehensive list of assessment instruments special about sensory processing in children aged between 0 and 14 years.
This systematic review focused on pediatric assessment of sensory processing. Three electronic databases (Google Scholar, Web of Science, Scopus, PubMed, and ProQuest) were comprehensively searched for eligible studies, and language restriction (English) was applied.The search strategy consisted of keywords and medical subordinate headings for sensory processing and various pediatric assessment tools.
Thirty-four assessment tools were identified, of which nine met the predefined inclusion criteria. The test of ideational praxis, clinical observations of proprioception, and pediatric clinical test of sensory interaction for balance were clinical observational assessment tools.The final tool was a caregiver or teacher reported questionnaire. The obtained studies evaluated the clinical use and psychometric properties of these nine assessment tools.
The result of this study indicated that each of the sensory processing assessment tools considered various aspects of sensory processing.Selecting the most appropriate assessment tools to measure sensory processing function in children depends on specific components of sensory processing that need to be evaluated.
The result of this study indicated that each of the sensory processing assessment tools considered various aspects of sensory processing.Selecting the most appropriate assessment tools to measure sensory processing function in children depends on specific components of sensory processing that need to be evaluated.
Studies have shown vitamin (Vit) D deficiency and bone disease in long-term use of antiepileptics, especially in young individuals. This study aimed to determine the relationship between antiepileptic drugs and the level of Vit D, calcium (Ca), and phosphorus (P) in children with epilepsy at the Shohada Hospital from 2016 to 2017.
In this case-control study, 60 consecutive children with epilepsy at the Shohada Hospital from 2016 to 2017 under treatment with anticonvulsions for more than six months were enrolled as the case group. The level of Vit D, Ca, and P was determined in the case group and compared with 60 children without seizure as the control group.
The mean Ca and P were alike across the groups (P > 0.05). The mean Vit D3 level was 31.3 and 40 in the case and control groups, respectively, with significant difference (P=0.0001). The mean Ca and P were alike across the types of drug in the case group (P > 0.05); however, the mean Vit D3 level was lower in the case versus control group with significant difference (P=0.040).
Totally, according to the obtained results, it may be concluded that treatment with antiepileptic drugs, especially stimulant type, is related to the lower Vit D3 level, but not to the Ca and P levels.
Totally, according to the obtained results, it may be concluded that treatment with antiepileptic drugs, especially stimulant type, is related to the lower Vit D3 level, but not to the Ca and P levels.Child development is one of the principal aspects of pediatrics. It is a multidimensional process, on which many factors may have different effects. Zinc is a nutritional trace element that has an essential role in neuronal activity and, consequently, in brain development. Since Zinc deficiency is prevalent in developing countries, some clinical trials were conducted to evaluate the impact of zinc supplementation on child development. Thus, we decided to run a systematic review in this area to identify the effectiveness of zinc supplements on child development. This systematic review protocol will include randomized controlled trials studies (RCTs) in which zinc supplementation was used versus placebo or no intervention, zinc supplementation with other micronutrients versus the same micronutrients without zinc. We will evaluate the effect of zinc alone and zinc co-supplementation with iron on child development. We will search the Medline, Pubmed, EMBASE, ERIC, Psychinfo, the Cochrane Central Register of Contr, we will use the best statistical methods. This is a protocol of systematic Review and meta-analysis of the effect of zinc supplementation on child development. The strengths of this protocol after meta-analysis are as follows We will identify the strengths and weaknesses of each study. We will also study if zinc alone and zinc co-supplementation with iron are useful for improving child development in terms of their age, their nutritional status, dose of the zinc supplementation, type of the zinc supplementation (salt), duration of the intervention and iron or other nutrient co supplementations. We will assume that the measures used for the outcome will be heterogeneous between studies. We know that each study has its own quantity. We will use the random effect models for these heterogeneous data.Global concerns have been observed due to the outbreak and lockdown causal-based COVID-19, and hence, a global pandemic was announced by the World Health Organization (WHO) in January 2020. The Movement Control Order (MCO) in Malaysia acts to moderate the spread of COVID-19 through the enacted measures. check details Furthermore, massive industrial, agricultural activities and human encroachment were significantly reduced following the MCO guidelines. In this study, first, a reconnaissance survey was carried out on the effects of MCO on the health conditions of two urban rivers (i.e., Rivers of Klang and Penang) in Malaysia. Secondly, the effect of MCO lockdown on the water quality index (WQI) of a lake (Putrajaya Lake) in Malaysia is considered in this study. Finally, four machine learning algorithms have been investigated to predict WQI and the class in Putrajaya Lake. The main observations based on the analysis showed that noticeable enhancements of varying degrees in the WQI had occurred in the two investigated rivers. With regard to Putrajaya Lake, there is a significant increase in the WQI Class I, from 24% in February 2020 to 94% during the MCO month of March 2020. For WQI prediction, Multi-layer Perceptron (MLP) outperformed other models in predicting the changes in the index with a high level of accuracy. For sensitivity analysis results, it is shown that NH3-N and COD play vital rule and contributing significantly to predicting the class of WQI, followed by BOD, while the remaining three parameters (i.e. pH, DO, and TSS) exhibit a low level of importance.
COVID-19 associated hearing loss is still an ongoing matter of debate. No original studies exist on audiological effects of SARS-CoV-2 infection in hospitalized patients. The main objective was to determine whether SARS-CoV-2 may affect auditory function in clinically ill COVID-19 patients.
COVID-19 patients with moderate-severe disease and without prior history of hearing abnormalities were enrolled from a tertiary referral center, and matched with controls. Participants performed an audiometric evaluation, and thresholds were compared.
120 ears from 60 patients were enrolled. Patients with COVID-19 showed worse mean auditory thresholds starting from 1000 Hz through higher frequencies, when compared to controls (
18.52 ± 5.49 dB HL in controls vs 25.36 ± 6.79 dB HL in COVID-19, p<0.001;
17.50 ± 5.57 dB HL in controls vs 21.96 ± 7.05 dB HL in COVID-19, p=0.010;
17.97 ± 8.07 dB HL in controls vs 25 ± 9.38 dB HL in COVID-19, p=0.003;
20.16 ± 10.12 dB HL in controls vs 29.55 ± 11.26 dB HL in COVID-19, p=0.001;
31.09 ± 12.75 dB HL in controls vs 40.71 ± 19.40 dB HL in COVID-19, p=0.030;
20.42 ± 4.29 dB HL in controls vs 24.85 ± 5.62 dB HL in COVID-19, p=0.001). Statistical significance persisted after adjusting for confounders such as age, gender and various comorbidities (p<0.05).
SARS-CoV-2 may affect hearing in COVID-19 patients with moderate-severe disease. Results are in line with the previous suggested effects of COVID-19 on auditory system. This study is expected to encourage further research on this topic.
SARS-CoV-2 may affect hearing in COVID-19 patients with moderate-severe disease. Results are in line with the previous suggested effects of COVID-19 on auditory system. This study is expected to encourage further research on this topic.SARS-CoV-2 is a new human coronavirus (CoV), which emerged in China in late 2019 and is responsible for the global COVID-19 pandemic that caused more than 97 million infections and 2 million deaths in 12 months. Understanding the origin of this virus is an important issue, and it is necessary to determine the mechanisms of viral dissemination in order to contain future epidemics. Based on phylogenetic inferences, sequence analysis and structure-function relationships of coronavirus proteins, informed by the knowledge currently available on the virus, we discuss the different scenarios on the origin-natural or synthetic-of the virus. The data currently available are not sufficient to firmly assert whether SARS-CoV2 results from a zoonotic emergence or from an accidental escape of a laboratory strain. This question needs to be solved because it has important consequences on the risk/benefit balance of our interactions with ecosystems, on intensive breeding of wild and domestic animals, on some laboratory practices and on scientific policy and biosafety regulations. Regardless of COVID-19 origin, studying the evolution of the molecular mechanisms involved in the emergence of pandemic viruses is essential to develop therapeutic and vaccine strategies and to prevent future zoonoses. This article is a translation and update of a French article published in Médecine/Sciences, August/September 2020 (10.1051/medsci/2020123).
The online version of this article (10.1007/s10311-020-01151-1) contains supplementary material, which is available to authorized users.
The online version of this article (10.1007/s10311-020-01151-1) contains supplementary material, which is available to authorized users.The rising use of radioactive elements is increasing radioactive pollution and calling for advanced materials to protect individuals. For instance, polymers are promising due to their mechanical, electrical, thermal, and multifunctional properties. Moreover, composites made of polymers and high atomic number fillers should allow to obtain material with low-weight, good flexibility, and good processability. Here we review the synthesis of polymer materials for radiation protection, with focus on the role of the nanofillers. We discuss the effectivness of polymeric materials for the absorption of fast neutrons. We also present the recycling of polymers into composites.