Mechanochemical chemically assisted ablation of varicose veins for venous insufficiency: American vein and lymphatic society position statement.

Background: Mechanical occlusion chemically assisted ablation (MOCA) of incompetent saphenous veins has been utilized since its FDA approval in 2008. However, only recently have longer-term three and 5 year clinical follow up data become available. This updated information necessitates a societal update to guide treatment and ensure optimal patient outcomes. Method: The American Vein and Lymphatic Society convened an expert panel to write a Position Statement with explanations and recommendations for the appropriate use of MOCA for patients with venous insufficiency. Result: This Position Statement was produced by the expert panel with recommendations for appropriate use, treatment technique, outcomes review, and potential adverse events. These recommendations were reviewed, edited, and approved by the Guidelines Committee of the Society. Conclusions: MOCA is effective in alleviating symptoms and a safe treatment option for venous insufficiency. It obviates the need for tumescent anesthesia, has less procedural discomfort and lower risk of thermal nerve or skin injury. It may be used in both the below knee distal GSV as well as the SSV. However, it is associated with significantly lower rates of vessel closure and higher recanalization rates compared to both RFA and EVLA and is less cost effective than thermal techniques. It is an available option for those in whom thermal ablation is not suitable.

Assessing the environmental impact of an anastomotic leak care pathway.

Background: The healthcare sector faces increasing pressure to improve environmental sustainability whilst continuing to meet the needs of patients. One strategy is to lower the avoidable demand on healthcare services, by reducing the number of surgical complications, such as anastomotic leak (AL). The aim of this study was to assess the environmental impact associated with the care pathway of AL. Methods: An environmental impact assessment was performed according to the Sustainable Healthcare Coalition (SHC) guidelines. A care pathway, describing the typical steps involved in the diagnosis and treatment of AL was developed. Activity and emission data for each stage of the care pathway were used to calculate the climate, water and waste impact of the treatment of AL patients. Results: The environmental impact assessment shows that AL is associated with an average climate, water and waste impact per patient of 1303 kg CO2-eq, 1803 m3 of water and 123 kg waste, respectively. Grade C leaks are associated with the greatest environmental impact, contributing to 89.3 %, 79.4 % and 97.9 % of each impact, respectively. A breakdown of the environmental impact of each activity shows that stoma home management is the largest contributor to the total climate (46.6 %) and waste (47.3 %) impact of AL patients, whilst in-patient hospital stay contributes greatest to the total water impact (46.7 %). Conclusions: The treatment of AL is associated with a substantial environmental impact. This study is, to our knowledge, the first to assess the environmental impact associated with the treatment of AL.

5'-Chalcogen-Substituted Nucleoside Pyrophosphate and Phosphate Monoester Analogues: Preparation and Hydrolysis Studies.

Novel sulfur and selenium substituted 5',5'-linked dinucleoside pyrophate analogues were prepared in a vibration ball mill from the corresponding persilylated monophosphate. The chemical hydrolysis of pyrophosphorochalcogenolate-linked dimers was studied over a wide pH-range. The effect of the chalcogeno-substitution on the reactivity of dinucleoside pyrophosphates was surprisingly modest, and the chemical stability is promising considering the potential therapeutic or diagnostic applications. The chemical stability of the precursor phosphorochalcogenolate monoesters was also investigated. Hydrolytic desilylation of these materials was effected in aqueous buffer at pH 3, 7 or 11 and resulted in phosphorus-chalcogen bond scission which was monitored using 31P NMR. The rate of dephosphorylation was dependent upon both the nature of the chalcogen and the pH. The integrity of the P-S bond in the corresponding phosphorothiolate was maintained at high pH but rapidly degraded at pH 3. In contrast, P-Se bond cleavage of the phosphoroselenolate monoester was rapid and the rate increased with alkalinity. The results obtained in kinetic experiments provide insight on the reactivity of the novel pyrophosphates studied as well as of other types of thiosubstituted biological phosphates. At the same time, these results also provide evidence for possible formation of unexpectedly reactive intermediates as the chalcogen-substituted analogues are metabolised.

Correction to "SARS-CoV-2 accelerated clearance using a novel nitric oxide nasal spray (NONS) treatment: A randomized trial".

[This corrects the article DOI: 10.1016/j.lansea.2022.100036.].

A Phenotypic Screen Identifies Potent DPP9 Inhibitors Capable of Killing HIV-1 Infected Cells.

Although current antiretroviral therapy can control HIV-1 replication and prevent disease progression, it is not curative. Identifying mechanisms that can lead to eradication of persistent viral reservoirs in people living with HIV-1 (PLWH) remains an outstanding challenge to achieving cure. Utilizing a phenotypic screen, we identified a novel chemical class capable of killing HIV-1 infected peripheral blood mononuclear cells. Tool compounds ICeD-1 and ICeD-2 ("inducer of cell death-1 and 2"), optimized for potency and selectivity from screening hits, were used to deconvolute the mechanism of action using a combination of chemoproteomic, biochemical, pharmacological, and genetic approaches. We determined that these compounds function by modulating dipeptidyl peptidase 9 (DPP9) and activating the caspase recruitment domain family member 8 (CARD8) inflammasome. Efficacy of ICeD-1 and ICeD-2 was dependent on HIV-1 protease activity and synergistic with efavirenz, which promotes premature activation of HIV-1 protease at high concentrations in infected cells. This in vitro synergy lowers the efficacious cell kill concentration of efavirenz to a clinically relevant dose at concentrations of ICeD-1 or ICeD-2 that do not result in complete DPP9 inhibition. These results suggest engagement of the pyroptotic pathway as a potential approach to eliminate HIV-1 infected cells.

SARS-CoV-2 accelerated clearance using a novel nitric oxide nasal spray (NONS) treatment: A randomized trial.

Background: Additional outpatient therapies which are readily accessible will be essential to reduce COVID-19 illness progression in high risk individuals. Especially as the virus continues to mutate with greater transmissibility despite increased global vaccination. Methods: A randomized, double-blind, multicentre, parallel group, placebo-controlled phase III clinical trial evaluated the ability of nitric oxide (NO) to rapidly eradicate nasal SARS-CoV-2 RNA. Adults (18-70 years) with mild symptomatic COVID-19 were randomized, confirmed by laboratory SARS-CoV-2 reverse transcription polymerase chain reaction (RT-PCR) nasal swab. Randomisation was 1:1, NONS (N = 153) vs placebo (N = 153). NO generated by a nasal spray (NONS) was self-administered six times daily as two sprays per nostril (0⋅45 mL of solution/dose) for seven days. Patients at high risk of illness progression, defined as unvaccinated, ≥ 45 years of age or having comorbidities, were the primary analysis population. Findings: Overall, mean SARS-CoV-2 RNA concentrations (6·96 log10 copies/mL in the NONS group and 7·16 log10 copies/mL in the placebo group) were comparable at baseline. Primary endpoint mean treatment difference SARS-CoV-2 RNA change from baseline to the end of treatment (EOT) was -0·52 copies/mL (SE 0·202, 95% CI -0·92 to -0·12; p = 0·010) with NONS compared to placebo. Secondary endpoint assessments demonstrated a greater proportion of patients receiving NONS (82·8%) cleared SARS-CoV-2 (RT-PCR negative) by EOT compared to placebo (66·7%, p = 0·046), with no virus RNA detected a median of four days earlier compared to placebo (three vs seven days; p = 0·044). Interpretation: Use of NONS in patients recently infected with SARS-CoV-2 accelerates nasal virus clearance. Funding: Funding provided by Glenmark Pharmaceuticals Limited. Study medication provided by SaNOtize.

Loop-Mediated Isothermal Amplification Detection of SARS-CoV-2 and Myriad Other Applications.

As the second year of the COVID-19 pandemic begins, it remains clear that a massive increase in the ability to test for SARS-CoV-2 infections in a myriad of settings is critical to controlling the pandemic and to preparing for future outbreaks. The current gold standard for molecular diagnostics is the polymerase chain reaction (PCR), but the extraordinary and unmet demand for testing in a variety of environments means that both complementary and supplementary testing solutions are still needed. This review highlights the role that loop-mediated isothermal amplification (LAMP) has had in filling this global testing need, providing a faster and easier means of testing, and what it can do for future applications, pathogens, and the preparation for future outbreaks. This review describes the current state of the art for research of LAMP-based SARS-CoV-2 testing, as well as its implications for other pathogens and testing. The authors represent the global LAMP (gLAMP) Consortium, an international research collective, which has regularly met to share their experiences on LAMP deployment and best practices; sections are devoted to all aspects of LAMP testing, including preanalytic sample processing, target amplification, and amplicon detection, then the hardware and software required for deployment are discussed, and finally, a summary of the current regulatory landscape is provided. Included as well are a series of first-person accounts of LAMP method development and deployment. The final discussion section provides the reader with a distillation of the most validated testing methods and their paths to implementation. This review also aims to provide practical information and insight for a range of audiences: for a research audience, to help accelerate research through sharing of best practices; for an implementation audience, to help get testing up and running quickly; and for a public health, clinical, and policy audience, to help convey the breadth of the effect that LAMP methods have to offer.

Saliva "Treat-and-Heat" Triplex Reverse Transcription Loop-Mediated Isothermal Amplification Assay for SARS-CoV-2.

The demand for severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) molecular diagnostics that are faster, cheaper, and simpler to run than nasopharyngeal-based reverse transcription quantitative PCR (RT-qPCR) tests remains unmet in many parts of the world. In the Philippines, geographical and economic access to quality diagnostic testing remains out of reach for many communities. We describe the preclinical development of a fluorescence-based reverse transcription loop-mediated isothermal amplification test that uses drooled saliva as the biospecimen. Six treat-and-heat ("direct") procedures that inactivate the virus and release the target RNA were compared. Using duplexed As1e and E1 primers, protocols derived from Ben-Assa et al. (2020) using proteinase K or from Rabe and Cepko (2020) using TCEP (Tris(2-carboxyethyl)phosphine hydrochloride)/EDTA provided reliable RNA amplification. The TCEP/EDTA-based method in particular showed improvement in robustness in duplex vs. singleplex format. Inclusion of human ß-actin primers provided a triplex test with an internal amplification control that could be distinguished from SARS-CoV-2 amplicons based on melt curve analysis. After including the dUTP/uracil-DNA glycosylase system and implementing laboratory procedures to avoid cross-contamination, false positive amplification was acceptably rare. The duplex or triplex tests are predicted to reliably detect patient salivary viral loads >100 copies/µL and to yield equivocal results between 10 and 100 copies/µL. These viral loads, corresponding to RT-qPCR C t ∼29-32, are expected to identify the majority of infected and, particularly, of infectious patients. If clinically validated, the test would provide additional testing capacity requiring only a fraction of the time, cost, and infrastructure of the current nasopharyngeal swab-based RT-qPCR test, thereby improving access to testing for more Filipinos.