Masonwalters7125
Soil NH4+-N and DOC contents both decreased during progressive drying, while the soil NO3--N content was enhanced. The drying process changed the community structure of ureC and amoA-b and reduced their abundance but had no effect on amoA-a, nirK or nirS. Correlation analysis indicated that the reductions in NH4+-N content and the abundances of ureC and amoA-b were the main factors suppressing N2O and NH3 emissions. We believe that drying process limits the related microbial activity and substrate supply during ammonia oxidation process in terms of N2O emissions, while in terms of NH3 volatilization, it reduces the related microbial activity of urea hydrolysis process and increases the ammonium adsorption to the soil.
Opioid misuse is a public health crisis. It is incumbent upon surgeons to understand analgesic requirements for operations they perform to inform responsible prescribing practices. The purpose of this study was to quantify opioid use following orthognathic surgery.
This is a prospective cohort study including consecutive patients that had orthognathic surgery at the Boston Children's Hospital from May 2020 to September 2021. To be included, subjects had to have had a Le Fort I osteotomy, bilateral sagittal split osteotomies, or both. Subjects were excluded if they had a craniofacial syndrome (not including cleft lip and palate) or did not complete the study. Postoperative prescriptions and instructions were standardized. find more The primary outcome variable was total postoperative opioid use (inpatient+outpatient). Inpatient opioid delivery was recorded from the electronic medical record. Outpatient opioid use was ascertained via electronic questionnaire each day for 7 postoperative days. Descriptive and analytic on the first postoperative day was also a predictor of total opioid use (P<.050).
Opioid use after orthognathic surgery is less than expected. Caution is necessary to avoid overprescribing.
Opioid use after orthognathic surgery is less than expected. Caution is necessary to avoid overprescribing.The stability of pharmaceuticals is an important product quality attribute. Of the known factors affecting stability, moisture is often perceived as the most common cause of drug degradation by hydrolysis or other reactions facilitated by moisture as a medium. Excipients are a critical entity in formulations to enable drug delivery as well as efficient manufacture of pharmaceutical dosage forms. Yet to this end, there is limited application and understanding of the role of excipients in protecting moisture sensitive drugs. An improved understanding of moisture-excipient interactions is important when selecting excipients for formulations containing moisture sensitive drugs. This review outlines the role of excipients as a moisture protectant in oral solid dosage forms. It focuses on the moisture interactions of excipients in order to highlight the potential of certain excipients as moisture protectants. More specifically, the mechanisms by which excipients can reduce drug degradation (e.g. acting as a physical barrier, reducing moisture availability and mobility) are discussed. A summary of analytical tools to evaluate moisture-excipient interactions is also provided.Methoxy trityl groups are acid-responsive protecting groups that are routinely used in the process of nucleoside analog synthesis. This study investigated the potential of methoxy trityl groups, monomethoxy trityl (MMT), dimethoxy trityl (DMT), and trimethoxy trityl (TMT), as acid-responsive substituents for designing anti-cancer cytidine analog prodrugs. For this purpose, we synthesized six gemcitabine (GEM) derivatives, which were modified either 4-(N)- or 5'-(O)-sites with MMT, DMT, and TMT, as candidates for anti-cancer cytidine analog prodrugs. In vitro dissociation test of methoxy trityl groups clearly showed that the acid responsivity of the methoxy trityl moieties was in the order TMT>DMT>MMT. Furthermore, the rate of 5'-(O)-methoxy tritylation was higher than that of 4-(N)-methoxy tritylation. Along with high acid-responsivity, trimethoxy trityl-O-GEM (TMT-O-GEM) showed superior cytotoxicity against 2D cultured human breast cancer cells (MCF-7 and MDA-MB-231) and human pancreatic cancer cells (AsPC-1) compared to other methoxy-tritylated GEM derivatives. Moreover, TMT-O-GEM suppressed the growth of MCF-7 spheroids compared with trimethoxy trityl-N-GEM (TMT-N-GEM). Both TMT-O-GEM and TMT-N-GEM were negligibly deprotected and metabolized in mouse or human serum after 72 h, indicating that trimethoxy tritylation inhibits deamination by cytidine deaminase. These results indicate that 5'-(O)-trimethoxy tritylation is a potent approach for the development of anti-cancer cytidine analog prodrugs.
The pharmacokinetics (PK) of methylphenidate (MPH) differ significantly among individuals. Carboxylesterase 1 (CES1) is the primary enzyme metabolizing MPH, and its function is affected by genetic variants, drug-drug interaction (DDI), and sex. The object of this study is to evaluate CES1 pharmacogenetics as related to MPH metabolism using human liver samples and develop a physiologically-based pharmacokinetic (PBPK) modeling approach to investigate the influence of CES1 genotypes and other factors on MPH PK.
The effect of the CES1 variant G143E (rs71647871) on MPH metabolism was studied utilizing 102 individual human liver S9 (HLS9) fraction samples. PBPK models were developed using the population-based PBPK software PK-Sim® by incorporating the HLS9 incubation data. The established models were applied to simulate MPH PK profiles under various clinical scenarios, including different genotypes, drug-alcohol interactions, and the difference between males and females.
The HLS9 incubation study showed that subjects heterozygous for the CES1 variant G143E metabolized MPH at a rate of approximately 50% of that in non-carriers. The developed PBPK models successfully predicted the exposure alteration of MPH from the G143E genetic variant, ethanol-MPH DDI, and sex. Importantly, the study suggests that male G143E carriers who are alcohol consumers are at a higher risk of MPH overexposure.
PBPK modeling provides a means for better understanding the mechanisms underlying interindividual variability in MPH PK and PD and could be utilized to develop a safer and more effective MPH pharmacotherapy regimen.
PBPK modeling provides a means for better understanding the mechanisms underlying interindividual variability in MPH PK and PD and could be utilized to develop a safer and more effective MPH pharmacotherapy regimen.Leishmaniasis is a group of neglected vector-borne tropical diseases caused by protozoan parasites of the genus Leishmania that multiply within phagocytic cells and have a wide range of clinical manifestations. Cutaneous leishmaniasis (CL) is a serious public health that affects more than 98 countries, putting 350 million people at risk. There are no vaccines that have been proven to prevent CL, and the treatment relies on drugs that often have severe side effects, justifying the search for new antileishmanial treatments. In the present investigation, it is demonstrated that 4-(3-(4-allyl-2-methoxyphenoxy)propyl)-1-(4-methylbenzyl)-1H-1,2,3-triazole (7k) presents significant antileishmanial activity (IC50 of 7.4 μmol L-1 and 1.6 μmol L-1 for promastigote and amastigote forms, respectively), low cytotoxicity against macrophage cells (IC50 of 211.9 μmol L-1), and a selective index of 132.5. Under similar conditions, compound 7k outperformed glucantime and pentamidine, two commonly used drugs in clinics. In vivo assays on CL-infected female BALB/c mice demonstrated that compound 7k had activity similar to intralesional glucantime when administered orally, with decreased lesion and parasitic load, and a low systemic toxic effect. Given the importance of understanding the relationship between compound structure and biological activity in the research and development of new drugs, the development of a quantitative structure-activity relationship (QSAR) model for the leishmanicidal activity presented by the eugenol derivatives with 1,2,3-triazole functionalities is also described herein. This study demonstrates the therapeutic potential of orally active eugenol derivatives against CL and provides useful insights into the relationship between the chemical structures of triazolic eugenol derivatives and their biological profile.Genetic risk for coronary artery disease (CAD) is commonly measured with polygenic risk scores (PRS); yet, the relationship of atherosclerotic burden with PRS in healthy individuals not at high clinical risk for CAD (ie, without a high pooled cohort equations [PCE] score) is unknown. Here, we implemented a novel recall-by-PRS strategy to measure coronary artery calcium (CAC) scores prospectively in 53 healthy individuals with extreme high PRS (median [IQR] PRS = 94% [83-98]) and low PRS (median [IQR] PRS = 3.6% [1.2-10]). The high PRS group was associated with a 2.8-fold greater CAC than the low PRS group, adjusted for age, sex, BMI, smoking, and statin use, and had a 6.7-fold greater proportion of individuals with CAC exceeding 300 HU. These findings reveal that extreme PRS tracks with CAD risk even in those without high clinical risk and demonstrate proof of principle for recall-by-PRS approaches that should be assessed prospectively in larger trials.
For patients with symptomatic atrial fibrillation (AF), physicians typically offer AF ablation for symptom relief; however, patients often anticipate/expect a life free from anticoagulation. This belief puts patients at increased risk of stroke due to the potential for asymptomatic AF postablation if anticoagulation is ceased contrary to clinical guidelines. Although the WATCHMAN device has been FDA-approved to decrease the risk of thromboembolism from the left atrial appendage (LAA) in patients with an appropriate rationale to avoid oral anticoagulation, it has not been well-studied following AF ablation. Additionally, there are limited data comparing the WATCHMAN device to direct oral anticoagulants. The OPTION study will investigate whether LAA closure with the WATCHMAN FLX device is a reasonable alternative to oral anticoagulation following percutaneous catheter ablation for nonvalvular AF.
OPTION is a multinational, multicenter, prospective randomized clinical trial. Patients with a CHA
DS
-VASc ofs trial will assess the safety and efficacy of WATCHMAN FLX in a postablation contemporary clinical AF patient population at risk of stroke.
This trial will assess the safety and efficacy of WATCHMAN FLX in a postablation contemporary clinical AF patient population at risk of stroke.
To compare rates of severe maternal morbidity (SMM) for pregnant patients with a cardiac diagnosis classified by the modified World Health Organization (mWHO) classification to those without a cardiac diagnosis.
This retrospective study using the 2015-2019 Nationwide Readmissions Database identified hospitalizations, comorbidities, and outcomes using diagnosis and procedure codes. The primary exposure was cardiac diagnosis, classified into low-risk (mWHO class I and II) and moderate-to-high-risk (mWHO class II/III, III, or IV). The primary outcome was SMM or death during the delivery hospitalization; secondary outcomes included cardiac-specific SMM during delivery hospitalizations and readmissions after the delivery hospitalization.
A weighted national estimate of 14,995,122 delivery admissions was identified, including 46,541 (0.31%) with mWHO I-II diagnoses and 37,330 (0.25%) with mWHO II/III-IV diagnoses. Patients with mWHO II/III-IV diagnoses experienced SMM at the highest rates (22.8% vs 1.6% for no diagnosis; with adjusted relative risk (aRR) of 5.