Sickle cell nephropathy: A review of novel biomarkers and their potential roles in early detection of renal involvement

Whether the underlying mutations are homozygous, heterozygous, or co-inherited with other hemoglobinopathies, sickle cell disease is known to afflict the kidneys, leading to the clinical entity known as sickle cell nephropathy (SCN). Although common, SCN remains diagnostically elusive. Conventional studies performed in the context of renal disorders often fail to detect early stage SCN. This makes the quest for early diagnosis and treatment more challenging, and it increases the burden of chronic kidney disease-related morbidity among patients. Novel diagnostic tools have been employed to overcome this limitation. In this study, we discuss various biomarkers of SCN, including those employed in clinical practice and others recently identified in experimental settings, such as markers of vascular injury, endothelial dysfunction, tubulo-glomerular damage, and oxidative stress. These include kidney injury molecule-1, monocyte chemoattractant protein-1, N-acetyl-B-D-glucosaminidase, ceruloplasmin, orosomucoid, nephrin, and cation channels, among others. Furthermore, we explore the potential of novel biomarkers for refining diagnostic and therapeutic approaches and describe some obstacles that still need to be overcome. We highlight the importance of a collaborative approach to standardize the use of promising new biomarkers. Finally, we outline the limitations of conventional markers of renal damage as extensions of the pathogenic process occurring at the level of the organ and its functional subunits, with a discussion of the expected pattern of clinical and biochemical progression among patients with SCN.     

Efficacy and safety of 1440-nm Nd:YAG laser on lower face and neck rejuvenation

Lasers in Medical Science - Reviewing the literatures, we did not found—to our knowledge—any study using the Nd:YAG laser with wavelength 1440 nm in assisted liposuction and...     

Evaluation of serum cardiac troponin I and N‐terminal pro‐B‐type natriuretic peptide levels in patients with alopecia areata

Alopecia areata (AA) is a recurrent, immune‐mediated, hair‐loss disorder. It is associated with other autoimmune disorders that carry a high risk of cardiovascular disease (CVD). However, there is a lack of reports on the association of cardiovascular comorbidities and AA. Cardiac troponin I is a biomarker of myocardial ischaemia and inflammation, while N‐terminal pro‐B‐type natriuretic peptide is used in the diagnosis of congestive heart failure. This study was conducted to assess the serum level of both markers by ELISA in 44 patients with AA compared with 44 healthy controls (HCs). None of the participants had CVD, CVD risk factors or other diseases associated with elevation of either marker. The study revealed that serum levels of both markers were significantly higher in patients with AA compared with HCs (P < 0.001). The inflammatory milieu encountered in AA may be associated with subtle myocardial inflammation that causes elevation of levels of both of these cardiac markers.     

Diagnosis of the multiple effect of selenium nanoparticles decorated by Asteriscus graveolens components in inhibiting HepG2 cell proliferation

Using plant bio-components for Designing green metal nanoparticles was considered as one of the most important methods in nanomedical application field due to their eco-friendly, cheap source, easily obtainable and having a high detection result. In this report, we fabricated eco-friendly engineering and cost-effective technique for green selenium nanoparticles from 0.01 M H₂SeO₃ solution using Asteriscus graveolens leaves extract as reducing and a capping agent at ambient temperature. Spectral techniques have been used to identify the formatted Selenium nanoparticles such as UV–Vis, pH, XPs, FT-IR, XRD, LDS, Z.P, EDS, TEM and AFM spectroscopy, which showed a size of 20 nm with spherical shape. Herein, the multi-effect of decorated Se-NPs surface have been evaluated, firstly on the hemolysis that showed completely hemocompatibility. Cytotoxicity assay showed that Se-NPs have a high selective effect on the HepG2 apoptosis and which proved by phase-contrast microscopy. Furthermore, the effect of nanoparticles on the action of the mechanism internal revealed that Se-NPs significantly and rapidly increased the level of reactive oxygen species and lipid peroxidation, while caused decreased the potential of mitochondrial membrane and glutathione level, which they together responsible on regulating the HepG2 cells fate. Furthermore, Flow cytometry analysis gave high values about S and G2/M phases of cell cycle resulting from Se-NPs effectiveness. In the end, with all the recorded information that has been measured in this study, this report provides a suitable and effective pathway for the green fabrication of Se-NPs decorated by biomolecules having high anticancer inhibited.     

Treating epilepsy with options other than antiepileptic medications

Epilepsy is a common health burden worldwide. Epilepsy is linked to variety of factors, including infectious, vascular, immune, structural, genetic, and metabolic etiologies. Despite the existence of multiple antiepileptic drugs (AEDs), many patients are diagnosed with intractable epilepsy. Many nonpharmacological options are available for epilepsy. Some types of epilepsy respond to cofactors. Other patients may be candidates for a ketogenic diet. Inflammatory mediators, such as intravenous immunoglobulins (IVIgs) and steroids, are other options for epilepsy. Recently, cannabinoids have been approved for epilepsy treatment. Refractory epilepsy can be treated with surgical interventions. Focal resections, hemispherectomies, and corpus callosotomies are some common epilepsy surgery approaches. Neuromodulation techniques are another option. Thermal ablation is a minimally invasive approach for epilepsy treatment. Epilepsy outcomes are improving, and treatment modalities are expanding. Trials of nonpharmacological options for epilepsy patients are recommended. This article summarizes available nonpharmacological options other than AEDs for the treatment of epilepsy.

Epilepsy is a common neurological condition in adults and children.1 It affects more than 1% of the population worldwide.2,3 In Saudi Arabia, its prevalence is 6.54/1000 population. Epilepsy is a chronic disorder, and at least 10–40% of patients are diagnosed with intractable epilepsy.4 Charles Locock was the first to describe antiepileptic drugs (AEDs) in 1857 in the Lancet. He described the use of potassium bromide in what so called “hysterical epilepsy”.3 In 1912, Alfred Hauptmann discovered phenobarbital.3 Phenytoin was introduced in 1938, followed later by first-generation AEDs (primidone, carbamazepine, ethosuximide and valproic acid). These first-generation AEDs were followed by second- and third-generation AEDs. However, about one- third of epilepsy patients are pharmacoresistant.4In patients with intractable epilepsy (i.e., nonresponders to at least two appropriate AEDs), there are a number of available treatment options, which range from treatment with AEDs to nonpharmacological approaches. This review article focuses on available treatment options other than AEDs for epilepsy patients. There are few published reviews regarding this topic. This article provides a concise and updated review for the available nonpharmacological modalities.Vitamin-responsive epilepsy and metabolic epilepsyEpilepsy patients, especially neonates, may present with antenatal and neonatal seizures, including myoclonic seizures, infantile spasms, and tonic spasms. Motor regression, hypotonia, and movement disorders may also be part of the clinical picture of vitamin-responsive epilepsy among children of different ages. Pyridoxine (B6)-dependent epilepsy (PDE), pyridoxal 5’-phosphate-dependent epilepsy, folinic acid-responsive seizures, cerebral folate deficiency, biotinidase deficiency, biotin-thiamine-responsive basal ganglia disease, creatine disorders, glucose transporter type 1 (GLUT-1) deficiency, mitochondrial disorders, urea cycle disorders, glutaric aciduria, molybdenum cofactor deficiency, isolated sulfite oxidase deficiency, and tetrahydrobiopetrine deficiency are examples of metabolic and vitamin-responsive epilepsies.5,6Pyridoxine (B6)-dependent epilepsy (PDE) can present early or later in life. Inheritance of PDE is mainly autosomal recessive manner. ALDH7A1 are the comments pathogenic mutations causing PDE.The neonatal presentation of PDE typically involves early neonatal seizures that are resistant to conventional AEDs. Once intravenous pyridoxine is administered, clinical and electrographic improvements are usually observed. Pyridoxine is recommended for all neonates with intractable seizures, especially before the age of 18 months. Older age presentation of PDE is also reported in the literature as intractable epilepsy and developmental delay. This presentation may be partially responsive to long-term treatment with B6. The presence of elevated α-amino adipic semialdehyde in urine and plasma supports a diagnosis of PDE. The treatment dose of B6 is usually 15-30 mg/kg/d BID (maximum daily dose 500 mg/d) (Table 1).7,8Table 1Treatable vitamin-responsive epilepsy.

Size Estimation of People Who Inject Drugs and Their Geographical Distribution in Dogonbadan,Iran, During 2018: a Mapping Method

The aim of this cross-sectional study was investigation of geographical distribution and size estimation of people who inject drugs (PWIDs) in Dogonbadan, Iran, in 2018 using geographical mapping method. Data was obtained through interviewing primary and secondary key informants as well as field team observations. Population size was estimated by median in Stata software (version 14). GIS software (version 10.6.1) was used to prepare the density and distribution maps of the hotspots. We identified 52 hotspots of drug users; injection of drugs occurred in 31 of the hotspots. The prevalence of injecting drugs was 232.4 per 100,000 adults, while it was 21.9 and 441.8 among females and males, respectively. A large number of identified hotspots are not covered by harm reduction services. Increasing outreach teams, equipping of harm reduction centers, and moving them to the nearest location to hotspots are suggested.

     

Cutaneous ectopia of lung,located on back and neck: Hitherto undescribed presentation

Ectopia is defined as the presence of a normal-appearing tissue in an abnormal location, where it is not normally found. In the literature, it is also referred to as heterotopia and is described as choristoma when it forms a mass. Lung tissue ectopia is a rare anomaly and is characterized by the presence of mature lung tissue comprising well-formed bronchi, bronchioles, and alveoli at an abnormal location. Occurrence of ectopic lung tissue in the skin is an extremely rare entity and the diagnosis is mostly established by histopathologic examination. This report documents a rare occurrence of cutaneous ectopic lung tissue at two locations (neck and back). Cutaneous ectopia at multiple sites has not been described in the literature till date.