Artemisia annua L. (Sweet wormwood) leaf extract attenuates high-fat diet-induced testicular dysfunctions and improves spermatogenesis in obese rats.

ETHNOPHARMACOLOGICAL RELEVANCE: Artemisia annua L., known as "sweet wormwood," is widely used in Egyptian folk medicine. Egyptians implement the aerial parts in the treatment of respiratory, digestive and sexual dysfunctions. However, the mechanism by which Artemisia annua improves testicular function is still being discovered. AIM OF THE STUDY: This study aimed to evaluate the modulatory effects of the crude leaf extract of Artemisia annua (AAE) on a high-fat diet induced testicular dysfunction in rats and compare it with the antilipolytic drug Orlistat. MATERIAL AND METHODS: Forty adult rats were randomly classified and assigned to four groups. The first group typically consumed a balanced diet and served as a negative control (GP1). A high-fat diet-induced obesity was applied to the other three groups for 12 weeks. A positive control remained on HFD for another 8 weeks, which is GP2. Other groups were administered for 8 consecutive weeks either with Orlistat (50 mg/kg body weight) or AAE (100 mg/kg body weight), which have been defined as GP3 and GP4, respectively. Testosterone (TST), follicle-stimulating hormone (FSH) and luteinizing hormone (LH) were determined in the sera of all groups. In addition, the oxidant/antioxidant biomarkers such as protein carbonyl, malondialdehyde (MDA), superoxide dismutase (SOD), catalase (CAT) activities, lactate dehydrogenase (LDH) and creatine kinase isoenzyme-B (CK-MB) were determined. An immunohistochemical stain with the apoptotic marker caspase-3 and the proliferating cell nuclear antigen (PCNA) were also investigated. RESULTS: In the testes of the obese group, the results showed hormonal imbalance, an increase in oxidative stress biomarkers and apoptosis. In the group treated with orlistat (GP3), noticeably more perturbations were noted. The obese rats that had been treated with AAE (GP4) showed a significantly reduced level of oxidative stress, hormonal balance restoration and reduced apoptosis. CONCLUSIONS: The crude leaf extract of A. annua is a potential herbal therapeutic for the treatment of obesity-related testicular dysfunction and the restoration of hormonal imbalance in obese rats.

Genetic profile of MIF single nucleotide polymorphism (rs755622 G>C) in hepatocellular carcinoma among Egyptian patients.

Aim of the study: To evaluate the role of MIF gene polymorphism rs755622 G>C in occurrence and progression of hepatocellular carcinoma (HCC) among a cohort of Egyptian patients. Material and methods: This case-control study was conducted on 50 patients with HCC after chronic viral hepatitis and 50 healthy volunteers, recruited between July 2021 and January 2022. All patients with HCC were evaluated for severity of liver disease using a Child-Pugh score, and TNM and BCLC scoring systems. MIF 173 G>C (rs755622) single nucleotide polymorphism was performed for all participants by polymerase chain reaction using restriction fragment length polymorphism technique (RFLP-PCR). Results: Overall results showed significantly higher frequencies of GG (wild homozygous genotype) and mutant heterozygous genotype GC and G allele (OR = 6.303, 95% CI: 3.374-11.775) among patients with HCC compared to the control group (p = 0.001) for all. Also, significantly higher frequency of genotype GG was detected among patients with advanced Child scores (B and C) (p = 0.039) and TNM stages (III and IV) (p = 0.013). There was significantly higher frequency of the G allele among patients with multiple hepatic focal lesions compared to those with a single focal lesion (p = 0.01). Conclusions: An obvious role of MIF (rs755622) gene polymorphism could have an important role in susceptibility and progression of HCC among patients with chronic viral hepatitis induced liver cirrhosis.

Acute paracetamol toxicity-induced inflammatory and oxidative effects are relieved by Aleppo galls: a novel experimental study.

BACKGROUND: Paracetamol (acetaminophen) is an over-the-counter non-steroidal anti-inflammatory drug that may cause acute toxic overdosage particularly in neuropsychiatric patients. Paracetamol is also very commonly prescribed as an analgesic and antipyretic agent. Paracetamol toxicity causes decreased reduced glutathione and oxidative tissue damage. Aleppo galls is a promising natural remedy exerting antioxidant and tissue-protective effects that may combat acetaminophen-induced oxidative tissue damage. METHODOLOGY: Biochemical and toxicological effects of a toxic dose of paracetamol (250 mg/kg) were investigated for three consecutive days versus the tissue-protective effects of Aleppo galls. Eighteen white albino mice were randomly allocated in this study and divided into three experimental groups (six mice per group): negative control (received intraperitoneal sterile water injection), paracetamol toxicity group (received intraperitoneal paracetamol injection) and the third group (received paracetamol injection at 250 mg/kg/day together with oral Aleppo galls treatment at 250 mg/kg/day for 3 consecutive days). All mice were sacrificed by the end of the study. RESULTS: Our data revealed that paracetamol toxicity exerted significant oxidative stress damaging effects (high serum malondialdehyde, decreased serum catalase and decreased total antioxidant capacity), and significant inflammatory effects (high serum IL-6) and significant tissue-damaging effects (high serum LDH). Aleppo galls treatment significantly protected against acetaminophen toxicity-induced oxidative stress effects (P<0.001), inflammatory effects (P<0.001) and tissue-damaging effects (P<0.001). CONCLUSION: Aleppo galls are promising for future drug therapeutics and for the synthesis of natural remedies for treating paracetamol toxicity. We recommend formulating Aleppo galls extract as a pharmaceutical nutrition and to be given to those who need to take large doses of paracetamol.

Al-hijamah (the triple S treatment of prophetic medicine) significantly increases CD4/CD8 ratio in thalassemic patients via increasing TAC/MDA ratio: a clinical trial.

Beta thalassemia is associated with decreased immunity possibly due to iron overload. Al-hijamah (Hijamah) is wet cupping therapy (WCT) of prophetic medicine. Prophet Muhammad Peace be upon him said: "The best among your treatments is Al-hijamah". Al-hijamah is a promising excretory treatment to clear blood of causative pathological substances. Al-hijamah is a three-step technique (skin suction, scarification and suction) i.e. triple S technique). Recently, we introduced Al-hijamah as a novel iron excretion therapy (through pressure-dependent filtration then excretion via the skin dermal capillaries) that significantly decreased serum iron overload and related oxidative stress using a physiological excretory mechanism (Taibah mechanism). Iron overload was reported to impair both humoral immunity and cell mediated immunity in patients with beta thalassemia. In this study, twenty patients having ß-thalassemia major (maintained on iron chelation therapy) underwent a single session of Al-hijamah (30-60 minutes) using 4-5 sucking cups only. Another age and sex-matched control group of thalassemic patients received iron chelation therapy only. Al-hijamah enhanced the immunity of thalassemic patients in the form of increased CD4+ T cell count, from 124.10±36.98 to 326.20±57.94 cells/mm3, and an increased CD8+ T cell count from 100.30±36.98 to 272.40±46.37 cells/mm3. CD4/CD8 ratio significantly increased from 1.29 to 1.7 (P<0.001). There was a significant increase of ten times (P<0.001) in serum TAC/MDA ratio (reflects increased antioxidant capacity vs decreased oxidative load and stress) induced by Al-hijamah. After Al-hijamah, both CD4+ and CD8+ T cell counts significantly increased and positively correlated with TAC/MDA ratio (r = 0.246) and (r = 0.190), respectively. Moreover, CD4/CD8 ratio positively correlated with TAC/MDA after Al-hijamah (r = 0.285). In conclusion, Al-hijamah significantly increased CD4/CD8 ratio in thalassemic patients via increasing TAC/MDA ratio. Our study strongly recommends medical practice of Al-hijamah in hospitals for its immune potentiating effects in agreement with the evidence-based Taibah mechanism. Al-hijamah should be generalized for treating other immune-deficiency conditions. Al-hijamah-induced bloody excretion is so minimal and never aggravates the anaemic status.

Biochemical Assessments of Neurotrophin-3 and Zinc Involvement in the Pathophysiology of Pediatric Febrile Seizures : Biochemical Markers in Febrile Seizures.

Febrile seizures (FSs) are a common occurrence in young children and a serious concern in pediatric practice; nevertheless, the causes and mechanisms of FS are still unknown. We hypothesized a relation of neuropeptides such as neurotrophin-3 (NT-3) and growth-associated protein-43 (GAP-43) as well as zinc and the oxidant/antioxidant system with pediatric FS. The study included 100 infants categorized into 50 infants with FS and 50 febrile infants without seizures as controls. Clinical assessments, biochemical assays of NT-3 and GAP-43 using ELISA assay kits, and colorimetric measurements of TAC and Zn were performed to all participants. Overall, significant rises of the values of NT-3 and insignificant increases of GAP-43 were detected in children with FS. At the same time, zinc values and the total antioxidant capacity in serum samples were found to be decreased significantly. In addition, a negative correlation was estimated between NT-3 and zinc levels. Serum NT-3 in diagnosing febrile seizures at cutoff point > 49.62 ng/L showed 100% sensitivity, 46% specificity, positive predictive value (PPV) = 48.1%, and negative predictive value (NPP) = 100% with AUC = 0.678. Significant altered circulating NT-3 and zinc levels in FS may indicate their possible role in the pathogenesis of FS. This may open a way for further research and warrants enlightening of the pathophysiological details of FS.

TaibUVID nutritional supplements help rapid cure of COVID-19 infection and rapid reversion to negative nasopharyngeal swab PCR: for better public prophylaxis and treatment of COVID-19 pandemic.

Public prophylaxis to decrease the emergence of new daily COVID-19 cases is vital. Adjuvant TaibUVID nutritional supplements are promising home-made or hospital-made supplements suggested for rapidly preventing and treating COVID-19 pandemic. We report here a 44 years old male physician who caught COVID-19 infection at hospital in Egypt with confirmed positive nasopharyngeal swab PCR. Ethical committee approval and informed patient's consent were gained before performing this study. Chest X-ray revealed increased bronchovascular markings. Close follow-up was done with no treatment given and he was sent for home isolation. Few days later, he developed progressive non-productive cough and a sense of difficult breathing with no associated fever or chest pain. An antitussive drug was given to him. The patient read about TaibUVID supplements from social media and started to feel improvement after TaibUVID inhalation therapy (using the heated solution of nigella sativa and chamomile five times a day). He also received a home-made TaibUVID nutritional supplement (nigella sativa, chamomile and natural honey) five times daily for four consecutive days. The next day, he was quite better with mild symptoms. Two days later, nasopharyngeal swab PCR was negative while other patients still had positive nasopharyngeal swabs. As few attacks of mild cough and breathing difficulty existed, he was admitted to hospital. A nasopharyngeal swab PCR was done for him again and the result was negative also. Blood gases were normal. He had lymphocytosis (possibly due to TaibUVID effects) that counteract lymphopenia seen in COVID-19 patients. Biochemical and hematological evaluation were quite normal apart from increased serum chloride and lactate dehydrogenase. There was a mild decrease in serum CO2 and alkaline phosphatase. Chest CT report revealed symmetrically inflated both lungs with non-specific focal nodular infiltrates (scattered in basal and medial lung segments) in left lower lobes with faint ground glass opacities. He was discharged home. Few days later, he was quite improved with no symptoms and returned to his work comfortably. In conclusion, TaibUVID nutritional supplements may be effective in rapidly changing the nasopharyngeal swab PCR from positive to negative. TaibUVID nutritional supplements are advisable as a natural, safe and effective prophylaxis to stop COVID-19 infectiousness, transmission and emergence of new cases. Clinical studies to investigate TaibUVID nutritional benefits are strongly recommended. TaibUVID may be promising and recommended for public prophylaxis to decrease emergence of new COVID-19 cases.

Al-hijamah (the triple S treatment of prophetic medicine) exerts cardioprotective, tissue-protective and immune potentiating effects in thalassemic children: a pilot clinical trial.

Thalassemia is a major health problem in affected children due to iron overload, increased oxidative stress, atherogenic lipid profile and tissue-damage. This study aims at investigating the cardioprotective and tissue-protective benefits of Al-hijamah and their impact on cell-mediated immunity for treating thalassemic children. This study aimed also at investigating the tissue-clearance principle of Taibah mechanism: whenever pathological substances are to be cleared from the human body, Al-hijamah is indicated. Al-hijamah was done to thalassemic children (15 males and 5 females having a mean age of 9.07 ± 4.26 years) using sterile disposable sets in a complete aseptic hospital environment. Prior ethical committee agreement (in addition to written patient's consents) was obtained from Tanta Faculty of Medicine, Egypt. Twenty thalassemic children received iron chelation therapy plus Al-hijamah for one session (30-60 minutes) versus an age and sex-matched thalassemic control group treated with iron chelation therapy only. Al-hijamah is a quite safe outpatient hematological procedure that significantly decreased serum cholesterol (from 129.75 ± 3.67 to 103.5 ± 4.18 mg/dl) and decreased serum triglycerides (from 109.25 ± 8.96 to 91.95 ± 7.22 mg/dl). Interestingly, Al-hijamah exerted significant tissue-protective effects (it decreased serum GPT from 98.65 ± 12.27 to 71.65 ± 32.78 U/L and serum GOT from 96.35 ± 14.33 to 69.35 ± 34.37 U/L). Al-hijamah-induced ferritin excretion caused decreased serum ferritin (high serum ferritin negatively correlated with cell mediated immunity). Al-hijamah exerted cardioprotective and tissue-protective and hypolipidemic effects. Al-hijamah decreased serum cholesterol and is cardioprotective for thalassemic patients as it protects against atherogenesis and atherosclerosis. Medical practice of Al-hijamah is strongly recommended in hospitals. Al-hijamah cleared blood significantly from causative pathological substances e.g. serum ferritin resulting in enhanced cell-mediated immunity (in agreement with the evidence-based Taibah mechanism).

Dichloroacetate is an antimetabolite that antagonizes acetate and deprives cancer cells from its benefits: A novel evidence-based medical hypothesis.

Dichloroacetate (DCA) is a promising safe anticancer drug that cured a patient with chemoresistant non-Hodgkin's lymphoma and treated lactic acidosis effectively. The well-known mechanism of DCA action is through stimulating Krebs cycle (stimulating pyruvate dehydrogenase via inhibiting pyruvate dehydrogenase kinase). This prevents lactate formation (Warburg effect) depriving cancer cells of lactate-based benefits e.g. angiogenesis, chemoresistance and radioresistance. Here, we introduce novel evidence-based hypotheses to explain DCA-induced anticancer effects. On pharmacological and biochemical bases, we hypothesize that DCA is a structural antagonist of acetate competing with it for target enzymes and biological reactions. We hypothesize that DCA exerts its anticancer effects via depriving cancer of acetate benefits. We hypothesize also that acetate is an antidote of DCA capable of treating DCA toxicity. Many reports support our hypotheses. Acetate is vital for cancer cells (tumors depend on acetate) and DCA is structurally similar to acetate. DCA exerts opposite effects to acetate. Acetate caused a decrease in serum potassium, phosphorus and glucose, and an increase in serum lactate, citrate, free fatty acids and ketone bodies (serum acetoacetate and beta-hydroxybutyrate levels). Acetate decreased the proportion of active (dephosphorylated) pyruvate dehydrogenase in perfused rat heart. DCA produced quite opposite effects. Intravenous infusion of acetate produced metabolic alkalemia while DCA caused minimal effects on acid-base status. Acetate is important for cancer cells metabolism and survival as elevated acetate can drive resistance to targeted cancer treatments. Acetate is required for epidermal growth factor receptor vIII mutation in lethal brain tumors. Experimentally, DCA inhibited acetate oxidation in hearts of normal rats and reversed inhibitory effects of acetate on the oxidation of glucose. During presence of DCA with no glucose in heart perfusions with [1-14C]acetate, DCA decreased the specific radioactivity of acetyl CoA and its product citrate. This proves our hypotheses that DCA is an antimetabolite that antagonizes acetate for vital reactions in cancer cells. Acetate may be used as an antidote to combat DCA toxicity.

Warburg effect increases steady-state ROS condition in cancer cells through decreasing their antioxidant capacities (anticancer effects of 3-bromopyruvate through antagonizing Warburg effect).

Cancer cells undergo an increased steady-state ROS condition compared to normal cells. Among the major metabolic differences between cancer cells and normal cells is the dependence of cancer cells on glycolysis as a major source of energy even in the presence of oxygen (Warburg effect). In Warburg effect, glucose is catabolized to lactate that is extruded through monocarboxylate transporters to the microenvironment of cancer cells, while in normal cells, glucose is metabolized into pyruvate that is not extruded. Pyruvate is a potent antioxidant, while lactate has no antioxidant effect. Pyruvate in normal cells may be further metabolized to acetyl CoA and then through Krebs cycle with production of antioxidant intermediates e.g. citrate, malate and oxaloacetate together with the reducing equivalents (NADH.H+). Through activity of mitochondrial transhydrogenase, NADH.H+ replenishes NADPH.H+, coenzyme of glutathione reductase which replenishes reduced form of glutathione (potent antioxidant). This enhances antioxidant capacities of normal cells, while cancer cells exhibiting Warburg effect may be deprived of all that antioxidant capabilities due to loss of extruded lactate (substrate for Krebs cycle). Although intrinsic oxidative stress in cancer cells is high, it may be prevented from reaching progressively increasing levels that are cytotoxic to cancer cells. This may be due to some antioxidant effects exerted by hexokinase II (HK II) and NADPH.H+ produced through HMP shunt. Glycolytic phenotype in cancer cells maintains a high non-toxic oxidative stress in cancer cells and may be responsible for their malignant behavior. Through HK II, glycolysis fuels the energetic arm of malignancy, the mitotic arm of malignancy (DNA synthesis through HMP shunt pathway) and the metastatic arm of malignancy (hyaluronan synthesis through uronic acid pathway) in addition to the role of phosphohexose isomerase (autocrine motility factor). All those critical three arms start with the substrate G6P that is a direct product of HK II. 3-bromopyruvate (3BP, inhibitor of HK II) may prove as a promising anticancer and antimetastatic agent based on antagonizing the Warburg effect and disturbing the malignant behavior in cancer cells.