Applications of titanium dioxide nanoparticles in nanomedicine

Nanotechnology is an exciting field that has a profitable outcome due to the increased applications of nanomaterials in many areas such as industry, agriculture, business, medicine and public health. Nanomedicine is a science that studies the application of nanotechnology in medicine. For diseases diagnosis, treatment, monitoring, control and prevention. Titanium dioxide nanoparticles (TiO2 NPs) possess the potential to be used in nanomedicine for cancer diagnosis and therapy due to their advantageous characteristics such as biocompatibility, photocatalytic activity and good optical and electronic properties. This review aims to introduce nanomedicine and nanomaterials and focus on the recent research interest toward TiO2NPs in medicine

Effect of Camel Milk on Oxidative Stresses in Experimentally Induced Diabetic Rabbits

Camel milk has an importance in the treatment of diabetes. It has been shown that the patients who drink camel milk daily, their need to insulin decrease. Therefore, this study aimed to investigate the effect of camel milk in comparison with insulin treatment in experimentally-induced diabetes. This study was carried out on forty male New Zealand rabbits, divided into four groups with ten rabbits in each. The first group G1 was considered as control non-diabetic group and received only normal saline solution. The other animals were injected intravenously with alloxan for induction of diabetes mellitus and then divided into three groups' ten rabbits each as the follows: G2 considered as control diabetic and left untreated, G3 was considered as diabetic and treated with insulin, and G4 was considered as diabetic and received camel milk. At the end of the experiment (4 weeks), blood (whole blood & serum) and tissue samples (liver, kidney and pancreas) were collected from all the animals for analysis of: enzymatic SOD and catalase, non-enzymatic GSH antioxidant enzyme activities. Serum malondialdeyde, glucose, insulin and lipid profile also were analyzed. The results showed that the camel milk was effective in the treatment of diabetes in comparison to insulin treatment alone. In addition to its hypoglycemic effect, camel milk improved the diabetes-induced oxidative stress. The histopathological evaluations demonstrated that there was a regeneration in β cells and the islets of Langerhans among the pancreatic acini in rabbits receiving camel milk. Our findings suggested that the camel milk administration in case of insulin dependant diabetes mellitus might be recommended as an oral anti-diabetic remedy

The Correlations among Dietary Lifestyle, Microecology, and Mind-Altering Toxoplasmosis on the Health of People, Place, and the Planet

Being one of the most common foodborne protozoa worldwide, chronic toxoplasmosis caused by Toxoplasma gondii (T. gondii) could contribute significantly to the etiology of several mental disorders. The neurotropic parasite can directly influence the gut microbiota, causing inflammation with subsequent degradation of tryptophan required for parasite growth. Research in humans and animals shows that the gut microbiome is involved in the regulation of brain serotonergic pathways through the microbiota–gut–brain axis. Since the serotonin system is extensively interconnected with the body’s master clock through neuronal networks, the microbiota has been suggested as a potential mediator, fine-tuning circadian misalignment, following a reciprocal relationship with human eating patterns. Furthermore, adherence to an intermittent fasting diet can improve the serotonin biosynthesis pathway in the intestines and improve cognitive function. This review aims to explain the role of fasting in parasite-driven gut microbiome perturbation and the mechanisms by which Toxoplasma infection alters brain function. Due to its significant impact on social–economic status, diet patterns, microbiota disruption, circadian rhythm, chronic inflammation, and mental disorders, toxoplasmosis is an underestimated threat that could be prevented by simple lifestyle changes through educational actions. Furthermore, there are few research studies that address toxoplasmosis-induced mental disorders from a holistic perspective. Thus, a planetary health lens is needed to understand these correlations that directly relate to the promotion of a resilient and empathic civilization, crucial to enabling a flourishing healthy society on all scales

The Correlations among Dietary Lifestyle, Microecology, and Mind-Altering Toxoplasmosis on the Health of People, Place, and the Planet

Being one of the most common foodborne protozoa worldwide, chronic toxoplasmosis caused by Toxoplasma gondii (T. gondii) could contribute significantly to the etiology of several mental disorders. The neurotropic parasite can directly influence the gut microbiota, causing inflammation with subsequent degradation of tryptophan required for parasite growth. Research in humans and animals shows that the gut microbiome is involved in the regulation of brain serotonergic pathways through the microbiota–gut–brain axis. Since the serotonin system is extensively interconnected with the body’s master clock through neuronal networks, the microbiota has been suggested as a potential mediator, fine-tuning circadian misalignment, following a reciprocal relationship with human eating patterns. Furthermore, adherence to an intermittent fasting diet can improve the serotonin biosynthesis pathway in the intestines and improve cognitive function. This review aims to explain the role of fasting in parasite-driven gut microbiome perturbation and the mechanisms by which Toxoplasma infection alters brain function. Due to its significant impact on social–economic status, diet patterns, microbiota disruption, circadian rhythm, chronic inflammation, and mental disorders, toxoplasmosis is an underestimated threat that could be prevented by simple lifestyle changes through educational actions. Furthermore, there are few research studies that address toxoplasmosis-induced mental disorders from a holistic perspective. Thus, a planetary health lens is needed to understand these correlations that directly relate to the promotion of a resilient and empathic civilization, crucial to enabling a flourishing healthy society on all scales

Ameliorative effects of l-carnitine on rats raised on a diet supplemented with lead acetate

Lead intoxication has been a major health hazard in humans. It affects people at all ages. Its toxicity is associated with various organs of the body and affects different metabolic pathways. Based on histological data, l-carnitine reduced the severity of tissue damage produced as a result of exposure of rats to lead acetate. The main objective of this study was to evaluate the underlying mechanism of protection offered by l-carnitine against lead acetate intoxication using male Sprague–Dawley rats.Forty male Sprague–Dawley rats were randomly divided into four groups with ten rats in each. The first group (G1) served as the control group and animals received standard diet only. The second group (G2) received lead acetate in their diet. The third group (G3) was the l-carnitine treated group and received the normal standard diet supplemented with l-carnitine. While the fourth group (G4) had a diet supplemented with both lead acetate and l-carnitine. At the end of each experiment, blood (serum and whole blood) were collected from each animal and analyzed for the following parameters: serum testosterone levels, serum nitric oxide and serum malondialdehyde. This is in addition to looking at the enzymatic activities of two important enzymes (superoxide dismutase and catalase) and on (glutathione reductase) which are indicative of the antioxidant activities in the whole blood. The results indicated that l-carnitine will counteract the undesirable effects of lead intoxication. It exerted its antioxidant potential by reducing the production of ROS and scavenging free radicals by maintaining and protecting the level of the of antioxidant enzymes SOD, CAT and glutathione peroxidase.Conclusion:l-Carnitine may play an important role in reversing the undesirable effects of lead intoxication. Future studies should be conducted to see whether such an effect is applicable in humans exposed to lead poising. Keywords: l-Carnitine, Sprague–Dawley rats, Lead toxicity, Antioxidants, Lead acetat

Structure of four newly observed alleles of the adult β-globin gene in Mediterranean goat

Owing to the presence of several variants at the adult β-locus and at both α-globinloci, the Hb polymorphism in goat is remarkably complex. We recently confirmed this high polymorphism in a survey on some 400 goats from Sardinia, Egypt and Cyprus. Eight alleles at the β-adultlocus and two allelic genes at both α-globinloci have been detected by electrophoretic and Chromatographic techniques. Five of the β genes identified have been completely sequenced. Four of them produce globin chains already described in previous studies at the protein level, whereas the globin chain encoded by the remaining one was undescribed. Results at the coding and non-coding regions level provide a possible basis for further interpretations on the origin of these alleles

Planetary Health and Traditional Medicine: A Potential Synergistic Approach to Tackle Antimicrobial Resistance

Antimicrobials are compounds that impede the activities of bacteria, viruses, parasites, or fungi. Continuous antimicrobial overuse, misuse, and improper use for human, animal, and agricultural purposes are raising concerns about antibiotic residue pollution in the environment, and antibiotic resistance genes (ARGs). Because antimicrobial-resistant diseases are linked to human–-microbial ecosystems, environmental pollution from antibiotic residue and ARGs alters the makeup and diversity of human gut microbiota, putting resistance under selection pressure. This perspective proposes that antibiotic-induced microbiome depletion is linked to environmental quality and has repercussions for human health via the gut microbiome’s sensitive ecosystem. This has stimulated new global efforts and multidisciplinary, integrative approaches to addressing Antimicrobial Resistance (AMR) awareness in communities. Several academic papers published in recent years have shown that medicinal plant extracts are effective against diseases on WHO’s pathogen priority lists (PPL), such as the ESKAPE pathogens (Enterococcus faecium, Staphylococcus aureus, Klebsiella pneumoniae, Acinetobacter baumannii, Pseudomonas aeruginosa, and Enterobacter species). Traditional medicine, with its knowledge of medicinal plants, promises to be a valuable source of next-generation powerful antimicrobials. Examples include the recent discovery of Artemisinin, a highly active antimalarial drug derived from Artemisia annua, and the discovery of Taxol, an active chemotherapeutic drug derived from the bark of the Pacific yew, Taxus brevifolia. The connections between small and large ecosystems’ vitality, biodiversity protection, and human health have been acknowledged by Planetary Health principles. To address these intertwined concerns, a Planetary Health and Traditional Medicine approach can be adopted, and antimicrobial resistance can be addressed by expanding the screening of medicinal plants for bioactive compounds

Structure and organization of Caprinae globin genes

In order to obtain molecular and biochemical data, which might help to elucidate aspects of evolution of Caprinae globin genes, we characterized the Hb phenotype of Ammotragus lervia (Barbary sheep) and compared it with O. aries (of the A and B-haplotypes), O. g. musimon (of the B and M-haplotypes), O. g. ophion (Cyprus mouflon), and Capra hircus. DNA sequencing analysis on PCR amplified segments was used to define the adult β-globin gene of Cyprus mouflon and Hb B type sheep. The structure of the adult β -globin gene of Barbary sheep was partially determined for the first time indicating closer relationships with goat than with sheep

Barbary sheep (Ammotragus lervia): The structure of the adult beta-globin gene and the functional properties of its hemoglobin

The adult beta-globin gene of Ammotragus lervia (Barbary sheep or aoudad) has been sequenced completely, including 185 base pairs of 5' flanking region and 168 base pairs 31 to the stop codon, and compared with that of other caprines such as goat (Capra hircus), wild Corsico-Sardinian (Ovis aries musimon) and Cypriot (O. a. ophion) mouflons, and domestic sheep (Ovis aries). The gene was identified as being located on a triplicated four-gene set cluster containing the HBBA locus (A-haplotype) as is the case of goat, sheep of the Hb A type and Corsico-Sardinian mouflon. Phylogenctic analyses support the evidence that caprines share a common ancestor that probably carried the A-haplotype and that a more recent deletion of a gene set gave rise to the duplicated cluster containing the HBBB locus (B-haplotype) found in sheep of the Hb B type and Cypriot mouflon, which evolved independently. Data also suggests that the Ammotragus beta-globin gene is older than genes of the examined caprines and indicates it followed an independent evolution after separating from species having the same HBBA locus. Similarly, phylogenetic analyses of beta-globin chain sequences suggest a different evolution for globins coded by the HBBA locus with respect to the HBBB. Ammotragus beta-globin chain shows all the amino acids responsible for the low oxygen affinity of ruminant Hbs. Investigations on the oxygen transport properties indicate that the intrinsic oxygen affinity of aoudad Rb is higher than the Hb B of the domestic sheep and, at the same time, more similar to that of other A type Rbs, whereas in the presence of the Cl- effector the oxygen affinity is approximately the same as that of the other species. (c) 2006 Elsevier Inc. All rights reserved