Previous studies have indicated that impaired bone mineralization in 5/6 th nephrectomized rats given high doses of lanthanum carbonate is due to phosphorus depletion caused by excessive binding to, and reduced absorption of, dietary phosphate. This study aimed to test this hypothesis by: 1) directly comparing the effects of a supratherapeutic dose of lanthanum carbonate or dietary phosphorus restriction on bone mineralization in a rodent model of chronic renal failure (CRF); and 2) investigating whether phosphorus supplementation would prevent the bone mineralization defect associated with lanthanum carbonate treatment.Male Sprague-Dawley rats were subjected to sham surgery or a two-step 5/6th nephrectomy to induce CRF and randomized across five treatment groups: sham, CRF, CRF + dietary phosphorus deficiency, CRF + lanthanum carbonate (1000 mg/kg/ day), and CRF + lanthanum carbonate + parenteral phosphorus repletion.Rats with 5/6th nephrectomy had elevated serum creatinine, blood urea concentration, and urine volume and protein, consistent with impaired renal function, and increased urinary phosphorus and serum parathyroid hormone, consistent with hyperparathyroidism. Lanthanum carbonate and dietary phosphate insufficiency induced parallel changes in serum and urine markers of phosphate homeostasis and increased osteoid formation. These changes induced by lanthanum carbonate were normalized by systemic phosphate supplementation.These findings provide further support for the concept that supratherapeutic doses of lanthanum carbonate induce effects on bone mineralization in uremic rats via an indirect pharmacological mechanism (phosphate depletion) and not via direct bone toxicity.
Using RNA-directed synthesis of the alpha-peptide of beta-galactosidase as an assay, a factor was purified that inactivated further function of the mRNA. In the presence of Ca2+ ions to inhibit most nuclease activity, inactivation of mRNA occurred during incubation with ribosomes or with a 1 M KCl wash of ribosomes. The inactivation activity required Mg2+ ions, and purified as a single factor which did not bind to DEAE-cellulose, but bound reversibly to phosphocellulose. The factor eluted from Sephadex G-150 with an apparent molecular weight of about 43,000. Purified 700-fold, it showed no detectable exonuclease activity, and little or no cleavage of a variety of single-stranded substrates, including full length lac operon mRNA; but repurified inactivated mRNA was still inactive for protein synthesis. The factor did not inhibit poly(U)-directed polyphenylalanine synthesis. When proteins isolated from the ribosomal wash were individually tested, highly purified RNase III, which purifies in the same way and has the same size, also inactivated lac mRNA. The ribosomal wash from an RNase III- strain showed little if any activity compared to that from an isogenic RNase III+ strain. The possibility of a site-specific inactivating cleavage of mRNA by RNase III at or near the 5' end is considered.
Non-alcoholic fatty liver disease is one of the main causes of elevated liver enzymes and chronic liver disease worldwide. It ranges from steatosis to steatohepatitis, leading to cirrhosis and related liver dysfunction. Silymarin is a herbal medicine, mostly used for liver disorders owing to its supposed hepatoprotective action. This report recommends silymarin in a patient with diabetes and grade II non-alcoholic steatohepatitis, confirming significant hepatoprotective effects as shown by the reduction of liver enzyme activities. This article is part of the Current clinical use of silymarin in the treatment of toxic liver diseases: a case series Special Issue: https://www.drugsincontext.com/special_issues/current-clinical-use-of-silymarin-in-the-treatment-of-toxic-liver-diseases-a-case-series.
Abstract Objectives The emergence of “green endoscopy” arises from the increasing global need to reform environmental sustainability due to climate change. Our review aimed to provide current evidence surrounding green endoscopy on sustainable issues including environmental impact, innovations, guidelines, policies, future directions, and recommendations. Materials and Methods A scoping review was conducted following the Preferred Reporting Items for Systematic Review and Meta-Analysis extension for scoping reviews guidelines. Full-text English articles from established databases were screened for eligibility criteria and analyzed. Results Out of 7,892 identified articles, 28 met all the eligibility criteria. Key findings include (1) the significant environmental impact of single-use items in current endoscopic practices; (2) there are emerging green innovations in endoscopy, such as reusable instruments, eco-friendly sterilization methods, and energy-efficient technologies; (3) guidelines and green policies are increasingly available to provide clinical guidance and framework for health care facilities; (4) model institutions can provide case studies and examples of implementing green endoscopy; and (5) unified efforts from all stakeholders are needed to address challenges, including cost-effectiveness. Conclusion A paradigm shift toward green endoscopy is clearly in place and should be driven by the need to reduce environmental impact, be cost-effective, and not sacrifice patient safety.
We employed skeletally matured rats to study changes in biochemical markers of bone turnover, bone mineral density (BMD), and bone biomechanics produced by continuous elevation of parathyroid hormone (PTH) in estrogen-deplete and -replete rodents. Ninety-six 7-month-old virgin female rats were divided randomly into 12 groups (n = 8) and treated as follows. One group was killed on the day of surgery. The remaining groups were either bilaterally ovariectomized (Ovx) or sham-operated and left untreated for 8 weeks, at which point, two groups, one sham and one Ovx, were killed. The remaining nine groups were treated for 2 weeks or 4 weeks. One sham and two Ovx groups received subcutaneous implants of Alzet miniosmotic pumps with vehicle for PTH. Two Ovx groups were given pumps with vehicle as well as a subcutaneous implant of 17beta-estradiol, which delivered 10 microg/kg per day. Two Ovx groups were implanted with rat PTH(1-34) in Alzet miniosmotic pumps, which delivered 30 microg PTH/kg per day. Two Ovx groups were implanted with both estradiol pellets and PTH-loaded pumps. One group of Ovx animals from each treatment was killed after 2 weeks and the other after 4 weeks. Biochemical markers of bone turnover, serum osteocalcin and urinary free pyridinoline, BMD, and mechanical strength of excised bones were measured. As expected, there was a significant increase in N-terminal PTH and serum calcium levels in all PTH infusion groups. Both serum osteocalcin and urinary pyridinoline showed a rapid increase within the first 2 weeks of the PTH infusion and remained elevated at week 4. In estrogen-replete groups, osteocalcin increased by week 2 of PTH infusion but pyridinoline did not increase until week 4. BMD of the distal and proximal femur showed the expected decrease 8 weeks after ovariectomy but did not exhibit any further changes during the 4 weeks of treatment with vehicle. Four weeks of PTH infusion in Ovx animals resulted in BMD loss at the midshaft, distal, and proximal regions of the femur. Estrogen repletion by itself, beginning 8 weeks after ovariectomy, produced no change in BMD at any site when compared with from Ovx vehicle-treated rats. Estrogen repletion in PTH-infused Ovx animals resulted in significant improvements of BMD comparable with sham-operated animals at all three femoral regions. The indentation test at the cancellous bone of the distal femur, three-point bending test at the midshaft femur, and cantilever bending test at the femoral neck showed that the changes in mechanical strength in these sites were consistent to the changes found in BMD. Our results showed that (1) continuously elevated levels of PTH induced additional loss of BMD in estrogen-deficient animals beyond the rapid bone loss phase associated with ovariectomy, (2) estrogen repletion, given by implant, to PTH-infused Ovx animals, reversed these BMD changes increasing BMD to levels comparable with estrogen-sufficient rats, and (3) these changes were reflected in the mechanical strength determined at these sites. These results lend experimental support that hormone replacement therapy may benefit bone health in postmenopausal women with primary hyperparathyroidism (PHPT). In addition, it raises the possibility that a continuous elevation of PTH could exert anabolic effects on skeletal tissue if its catabolic component can be minimized.
The soluble and membrane-bound forms of CSF-1 are synthesized by osteoblasts and stromal cells in the bone microenvironment. Transgenic mice, generated to selectively express sCSF-1 in bone, showed increased cortical thickness in the femoral diaphysis caused by new bone formation along the endosteal surface. The ability of sCSF-1 to enhance bone cell activity in vivo is potentially relevant for increasing cortical bone in a variety of disorders.The soluble form of colony-stimulating factor-1 (sCSF-1) and the membrane-bound form of CSF-1 (mCSF-1) have been shown to support osteoclastogenesis in vitro; however, the effect of each peptide on bone remodeling in vivo is unclear. To determine the effect of sCSF-1, selectively expressed in bone, the skeletal phenotype of transgenic mice harboring the human sCSF-1 cDNA under the control of the osteocalcin promoter was assessed.At 5 and 14 weeks, mice were analyzed for CSF-1 protein levels, weighed, and X-rayed, and femurs were removed for peripheral quantitative computed tomography, histology, and histomorphometry.High levels of human sCSF-1 were detected in bone extracts and, to a lesser extent, in plasma. Adult transgenic mice showed normal body weight and increased circulating monocytic cells. At 5 weeks, the femoral diaphysis was similar in CSF-1T and wt/wt littermates. However, by 14 weeks, the femoral diaphysis in CSF-1T mice showed increased cortical thickness and bone mineral density. In contrast to the diaphysis, the femoral metaphysis of CSF-1T mice showed normal cancellous bone comparable with wt/wt littermates at each time point. Histological sections demonstrated increased woven bone along the endosteal surface of the diaphysis and intracortical remodeling. Fluorochrome-labeling analysis confirmed endocortical bone formation in CSF-1T, with a 3.1-fold increase in the percentage of double-labeled surfaces and a 3.6-fold increase in the bone formation rate compared with wt/wt mice. Although remodeling resulted in a slightly porous cortex, sCSF-1 preferentially stimulated endocortical bone formation, leading to increased cortical thickness.These findings indicate that sCSF-1 is a key determinant of bone cell activity in the corticoendosteal envelope.
A definitive diagnosis of gastroesophageal reflux disease (GERD) depends on endoscopic and/or pH-study criteria. However, high resolution manometry (HRM) can identify factors predicting GERD, such as ineffective esophageal motility (IEM), esophago-gastric junction contractile integral (EGJ-CI), evaluating esophagogastric junction (EGJ) type and straight leg raise (SLR) maneuver response. We aimed to build and externally validate a manometric score (Milan Score) to stratify the risk and severity of the disease in patients undergoing HRM for suspected GERD.
Soluble colony-stimulating factor-1 (sCSF-1) and membrane bound CSF-1 are synthesized by osteoblasts and stromal cells. However, the precise role of each form in osteoclastogenesis is unclear. In the op/op mouse, absence of osteoblast-derived CSF-1 leads to decreased osteoclasts and osteopetrosis. To determine whether sCSF-1 gene replacement can cure the osteopetrotic defect, we took advantage of the osteoblast specificity of the osteocalcin promoter to selectively express sCSF-1 in the bone of op/op mice. Transgenic mice harboring the human sCSF-1 cDNA under the control of the osteocalcin promoter were generated and cross-bred with heterozygous op/wt mice to establish op/op mutants expressing the transgene (op/opT). The op/op genotype and transgene expression were confirmed by PCR and Southern blot analysis, respectively. High levels of human sCSF-1 protein were selectively expressed in bone. At 2½ wk, op/opT mice showed normal growth and tooth eruption. Femurs removed at 5 and 14 wk were analyzed by peripheral quantitative computed tomography and histomorphometry. The abnormal bone mineral density, cancellous bone volume, and growth plate width observed in op/op mice was completely reversed in op/opT mice by 5 wk, and this effect persisted at 14 wk, with measurements comparable with wt/wt mice at each time point. Correction of the skeletal abnormalities in the 5-wk-old op/opT mice correlated with a marked increase in the total osteoclast number, and their number per millimeter of bone surface compared with that of op/op mutants. Osteoclast number was maintained at 14 wk in op/opT mice and morphologically resembled wt/wt osteoclasts. These results indicate that sCSF-1 is sufficient to drive normal osteoclast development and that the osteocalcin promoter provides an efficient tool for delivery of exogenous genes to the bone. Moreover, targeting sCSF-1 to osteoblasts in the bone microenvironment may be a potentially useful therapeutic modality for treating bone disorders.
Mobile technologies are being increasingly developed to support the practice of medicine, nursing, and public health, including HIV testing and prevention. Chatbots using artificial intelligence (AI) are novel mobile health strategies that can promote HIV testing and prevention among men who have sex with men (MSM) in Malaysia, a hard-to-reach population at elevated risk of HIV, yet little is known about the features that are important to this key population.The aim of this study was to identify the barriers to and facilitators of Malaysian MSM's acceptance of an AI chatbot designed to assist in HIV testing and prevention in relation to its perceived benefits, limitations, and preferred features among potential users.We conducted 5 structured web-based focus group interviews with 31 MSM in Malaysia between July 2021 and September 2021. The interviews were first recorded, transcribed, coded, and thematically analyzed using NVivo (version 9; QSR International). Subsequently, the unified theory of acceptance and use of technology was used to guide data analysis to map emerging themes related to the barriers to and facilitators of chatbot acceptance onto its 4 domains: performance expectancy, effort expectancy, facilitating conditions, and social influence.Multiple barriers and facilitators influencing MSM's acceptance of an AI chatbot were identified for each domain. Performance expectancy (ie, the perceived usefulness of the AI chatbot) was influenced by MSM's concerns about the AI chatbot's ability to deliver accurate information, its effectiveness in information dissemination and problem-solving, and its ability to provide emotional support and raise health awareness. Convenience, cost, and technical errors influenced the AI chatbot's effort expectancy (ie, the perceived ease of use). Efficient linkage to health care professionals and HIV self-testing was reported as a facilitating condition of MSM's receptiveness to using an AI chatbot to access HIV testing. Participants stated that social influence (ie, sociopolitical climate) factors influencing the acceptance of mobile technology that addressed HIV in Malaysia included privacy concerns, pervasive stigma against homosexuality, and the criminalization of same-sex sexual behaviors. Key design strategies that could enhance MSM's acceptance of an HIV prevention AI chatbot included an anonymous user setting; embedding the chatbot in MSM-friendly web-based platforms; and providing user-guiding questions and options related to HIV testing, prevention, and treatment.This study provides important insights into key features and potential implementation strategies central to designing an AI chatbot as a culturally sensitive digital health tool to prevent stigmatized health conditions in vulnerable and systematically marginalized populations. Such features not only are crucial to designing effective user-centered and culturally situated mobile health interventions for MSM in Malaysia but also illuminate the importance of incorporating social stigma considerations into health technology implementation strategies.
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