Administration Of Multiple Drugs Research Articles

Multiple Abnormal Cutaneous Findings in a Patient With Hypomelanosis of Ito Undergoing General Anesthesia

Hypomelanosis of Ito (HI), a neurocutaneous syndrome, is characterized by skin depigmentation and skeletal, muscular, central nervous system, cardiac, and renal manifestations. A wide variety of cutaneous manifestations besides depigmentation have been reported. Herein we describe a 23-year-old woman with HI whose extracutaneous symptoms included severe mental and motor impairment, convulsions, and deformity of the orofacial region. She also had severe obesity, asthma, multiple allergies, and skin hypersensitivity. Although no extracutaneous manifestations were problematic during perioperative management of dental procedures under general anesthesia, erythema developed at 3 time points: during induction, during emergence, and in recovery. We speculated that mechanical stimuli to the skin and administration of multiple drugs likely caused histamine release, leading to the 3 episodes of erythema. Because patients with HI often have hypersensitivity reactions in the skin, both cutaneous and extracutaneous manifestations should be considered in the anesthetic management of patients with HI.

Chemical activation of mitochondrial ClpP to modulate energy metabolism of CD4+ Tcell for inflammatory bowel diseases treatment.

Inflammatory bowel disease (IBD) is an autoimmune disorder, and despite the availability of multiple Food and Drug Administration (FDA)-approved therapies, current clinical needs remain unmet. In this study, we find that caseinolytic protease P (ClpP) expression is markedly upregulated in colonic tissues from IBD patients and preclinical colitis models, particularly in CD4+ Tcells. Subsequently, a small molecule, namely NCA029, is identified, and its therapeutic efficacy and mechanism of action are investigated both invitro and invivo. Oral administration of NCA029 significantly alleviates symptoms associated with dextran sulfate sodium (DSS)-induced acute and interleukin (IL)-10-deficient chronic colitis. The effects of NCA029 are largely dependent on its selective binding to ClpP in CD4+ Tcells, thereby mitigating inflammation and restoring intestinal barrier function. Furthermore, NCA029 activates ClpP to promote oxidative phosphorylation (OXPHOS) inhibition and concomitantly modulate the Th17/Treg balance. In conclusion, our study develops a therapeutic strategy for treating IBD through the chemical activation of ClpP.

In silico drug repurposing approach to predict most effective HAART for HIV drug resistance variants prevalent in the Indian HIV-positive population.

HIV epidemics still exist as a major global public health burden, especially in middle- and low-income countries. Given the lack of approved vaccines, antiretroviral therapy (ART) remains the primary approach to reduce the mortality and morbidity linked to this disease. Effective treatment for HIV-1 requires the simultaneous administration of multiple drugs. However, the virus can show resistance to antiretroviral drugs, resulting in treatment failure. Therefore, this study focused on assessing the prevalence of mutations within the Indian HIV-positive population. After assessing the data, we intended to identify the most effective highly active ART (HAART) regimens for individuals with drug-resistant variants. Furthermore, our analysis revealed a spectrum of HIV mutations, with varying effects on protein stability. The significance of this analysis lies in its potential to optimize HAART selection for HIV-positive individuals by accounting for both prevalence and stability-altering mutations. By considering mutation effects on protein stability, we can modify treatment regimens, increasing the likelihood of therapy success and diminishing the risk of resistance. Moreover, this study contributes to the broader field of drug repurposing, offering insights into the rational design of antiretroviral therapies.

Nanocarriers for Controlled Drug Delivery A convergence of Polymer and Nanochemistry

Regarding improving the quality of health care strategies and other fields based on nanoscale technology, nanotechnology has been recognized as the most prevalent and commercially invented technology. In the near future, the pharmaceutical and biotechnology industries are likely to undergo significant changes due to the widespread adoption of nanoscale technology in drug delivery systems, that uses the polymeric nanoparticles that Polymeric nanoparticles have been extensively studied as particulate carriers in the pharmaceutical and medical fields, because they show promise as drug delivery systems as a result of their controlled- and sustained-release properties, subcellular size, and biocompatibility with tissue and cells. Several methods used for preparation of polymeric nanoparticles and after preparation of them they are most important particles that used in encapsulation of drugs such as PLGA, PLA, chitosan are used as encapsulation of anticancer drugs and antihormonal and antimalarial drugs and increase their release rates and also, they are used in field of dentistry and oral systems that are used in some diseases that cause infections, the use of polymeric nanoparticles with antibacterial drugs lead to decrease the infections . To achieve efficient drug delivery, it is important to understand the interactions of nanomaterials with the biological environment, targeting cell-surface receptors, drug release, multiple drug administration, stability of therapeutic agents and molecular mechanisms of cell signaling involved in pathobiology of the disease under consideration.

An observational study on the spectrum of Cutaneous Adverse Reactions to Antitubercular drugs and their management

IntroductionTuberculosis (TB) remains a significant global health issue, ranking as the 13th leading cause of death worldwide. Management of tuberculosis requires administration of multiple drugs for varied duration which increases the risk of developing adverse reactions. Among various adverse reactions are cutaneous adverse reactions (CARs) which can be immune mediated or non immune mediated. Aim1. To study the clinical, epidemiological, and morphological characteristics of cutaneous adverse reactions resulting from antitubercular treatment. 2. To study the outcomes of cutaneous adverse reactions to antitubercular therapy using the Modified Hartwig and Seigel severity assessment scale and rechallenge protocol, and assess the effectiveness of management strategies. Methodology: A longitudinal observational study was conducted over a period of 1 year at department of Pulmonology and Dermatology at tertiary care institute to assess CARs in patients on antitubercular treatment. Rechallenge was done in eligible patients. ResultsAmong 3164 TB patients on anti-tubercular treatment (ATT), 56 developed CARs, yielding an incidence rate of 1.77% per year. The study found female preponderance, with the most affected age groups being 21-30 and 41-50 years. Most CARs occurred within the first 30 days of ATT initiation, predominantly manifesting as maculopapular rash. Factors such as multiple medication use, diabetes, elderly age, and positive HIV status were associated with CARs. Ethambutol was identified as the most frequently implicated drug in the occurrence of cutaneous adverse reactions (CARs) upon rechallenge. ConclusionEffective management of CARs involves appropriate treatment, careful monitoring, and rechallenge protocols to identify culprit drugs while minimizing the risk of severe reactions.Upon complete resolution of initial adverse reaction, one must do rechallenge meticulously to pinpoint culprit drug and ensuring effective tuberculosis treatment.

Incompatibility of Y-site-administered drugs: the case of acyclovir and ciprofloxacin

Abstract Objectives Multiple drug administration is a common practice in hospitals and clinics. This is the case when multiple pathologies are treated. In this context, frequently, antivirals and antibiotics are co-administrated either simultaneously or sequentially ignoring potential incompatibilities. In this study, we focused on an antiviral (acyclovir) and an antibiotic (ciprofloxacin) compatibility/incompatibility when they are co-administrated. Methods In this study, we focused on the effect of drug ratio, pH, and delay by implementing robust high-performance liquid chromatography methods to determine the main factors leading to potential modification of concentration of one of the two drugs in the mixture. Key findings The results showed that acyclovir is quantitatively recovered in all conditions related to pH, concentration, and time (up to 24 hours). However, ciprofloxacin is strongly altered depending on the acidic and basic conditions, the quantity of ciprofloxacin used, and the time after mixing the two drugs. The most valuable piece of information is that the ratio of acyclovir/ciprofloxacin is crucial. Conclusions The volume ratio of acyclovir/ciprofloxacin (prepared at 2 mg/ml each) should be calculated and managed to provide at least two-fold quantity of acyclovir versus ciprofloxacin or at least nine-fold quantity of ciprofloxacin versus acyclovir to maintain the administrated doses and prevent physicochemical interactions.

The electronic artificial urinary sphincter: ongoing innovation of a classic device-a narrative review.

While the modern artificial urinary sphincter (AUS) has benefited from incremental innovation, which has improved both device efficacy and complication rates, the foundational technology in use in Boston Scientific's AMS800 can be traced back to the fundamental hydraulic tenets of the AS721. Research and development in adaptive technology and electronic integration stand to further improve AUS outcomes. The Medline online retrieval system was queried using the MeSH terms "artificial urinary sphincter", "electronic", "complications", "history", and "development" in various combinations. Publications were reviewed if applicable, and their reference lists were used to collect additional articles as needed. Final article inclusion was based on senior author discretion. The AMS800 AUS is the gold standard for male stress incontinence implants. A 2015 consensus conference set out the goals for sphincter device development in the coming decades. A future ideal sphincter would adjust cuff pressure dynamically as well as function with minimal manipulation, or even via electronic control. Multiple new devices are in various states of development. During the next decade, artificial urinary sphincter technology is likely to include multiple Food and Drug Administration (FDA)-approved devices with varying features aimed at satisfying the 2015 consensus conference goal for an "ideal" AUS. The future of stress incontinence therapy lies in both continued innovation for the AUS, as well as advances in regenerative medicine. Electronic and adaptive developments in AUS technology will increase device safety, efficacy, and longevity while improving the user and caregiver experience. For some, regenerative medicine may even make AUS technology obsolete.

Non-viral-mediated gene transfer of OX40 ligand for tumor immunotherapy.

Immune checkpoint blockade (ICB) is rapidly becoming a standard of care in the treatment of many cancer types. However, the subset of patients who respond to this type of therapy is limited. Another way to promote antitumoral immunity is the use of immunostimulatory molecules, such as cytokines or T cell co-stimulators. The systemic administration of immunotherapeutics leads to significant immune-related adverse events (irAEs), therefore, the localized antitumoral action is needed. One way to achieve this is intratumoral non-viral gene-immune therapy, which allows for prolonged and localized gene expression, and multiple drug administration. In this study, we combined the previously described non-viral gene delivery system, PEG-PEI-TAT copolymer, PPT, with murine OX40L-encoding plasmid DNA. The resulting OX40L/PPT nanoparticles were characterized via gel mobility assay, dynamic light scattering analysis and in vitro transfection efficiency evaluation. The antitumoral efficacy of intratumorally (i.t.) administered nanoparticles was estimated using subcutaneously (s.c.) implanted CT26 (colon cancer), B16F0 (melanoma) and 4T1 (breast cancer) tumor models. The dynamics of stromal immune cell populations was analyzed using flow cytometry. Weight loss and cachexia were used as irAE indicators. The effect of combination of i.t. OX40L/PPT with intraperitoneal PD-1 ICB was estimated in s.c. CT26 tumor model. The obtained OX40L/PPT nanoparticles had properties applicable for cell transfection and provided OX40L protein expression in vitro in all three investigated cancer models. We observed that OX40L/PPT treatment successfully inhibited tumor growth in B16F0 and CT26 tumor models and showed a tendency to inhibit 4T1 tumor growth. In B16F0 tumor model, OX40L/PPT treatment led to the increase in antitumoral effector NK and T killer cells and to the decrease in pro-tumoral myeloid cells populations within tumor stroma. No irAE signs were observed in all 3 tumor models, which indicates good treatment tolerability in mice. Combining OX40L/PPT with PD-1 ICB significantly improved treatment efficacy in the CT26 subcutaneous colon cancer model, providing protective immunity against CT26 colon cancer cells. Overall, the anti-tumor efficacy observed with OX40L non-viral gene therapy, whether administered alone or in combination with ICB, highlights its potential to revolutionize cancer gene therapy, thus paving the way for unprecedented advancements in the cancer therapy field.

Antibiotic-Drug Interactions in the Intensive Care Unit: A Literature Review.

Interactions between drugs are a common problem in Intensive Care Unit patients, as they mainly have a critical condition that often demands the administration of multiple drugs simultaneously. Antibiotics are among the most frequently used medications, as infectious diseases are often observed in ICU patients. In this review, the most important antibiotic-drug interactions, based on the pharmacokinetic and pharmacodynamic mechanisms, were gathered together and described. In particular, some of the most important interactions with main groups of antibacterial drugs were observed in patients simultaneously prescribed oral anticoagulants, NSAIDs, loop diuretics, and valproic acid. As a result, the activity of drugs can be increased or decreased, as dosage modification might be necessary. It should be noted that these crucial interactions can help predict and avoid negative consequences, leading to better patient recovery. Moreover, since there are other factors, such as fluid therapy or albumins, which may also modify the effectiveness of antibacterial therapy, it is important for anaesthesiologists to be aware of them.

Ultrasensitive Response Explains the Benefit of Combination Chemotherapy Despite Drug Antagonism.

Most aggressive lymphomas are treated with combination chemotherapy, commonly as multiple cycles of concurrent drug administration. Concurrent administration is in theory optimal when combination therapies have synergistic (more than additive) drug interactions. We investigated pharmacodynamic interactions in the standard 4-drug "CHOP" regimen in peripheral T-cell lymphoma (PTCL) cell lines and found that CHOP consistently exhibits antagonism and not synergy. We tested whether staggered treatment schedules could improve tumor cell kill by avoiding antagonism, using in vitro models of concurrent or staggered treatments. Surprisingly, we observed that tumor cell kill is maximized by concurrent drug administration despite antagonistic drug-drug interactions. We propose that an ultrasensitive dose response, as described in radiology by the linear-quadratic (LQ) model, can reconcile these seemingly contradictory experimental observations. The LQ model describes the relationship between cell survival and dose, and in radiology has identified scenarios favoring hypofractionated radiotherapy-the administration of fewer large doses rather than multiple smaller doses. Specifically, hypofractionated treatment can be favored when cells require an accumulation of DNA damage, rather than a "single hit," to die. By adapting the LQ model to combination chemotherapy and accounting for tumor heterogeneity, we find that tumor cell kill is maximized by concurrent administration of multiple drugs, even when chemotherapies have antagonistic interactions. Thus, our study identifies a new mechanism by which combination chemotherapy can be clinically beneficial that is not contingent on positive drug-drug interactions.

Evaluation of the risk factors for the failure of a single prophylactic dose of anticholinergic drugs for irinotecan-induced cholinergic symptoms.

Irinotecan (IRI) is an anticancer drug that is frequently used to treat colorectal, gastric, and pancreatic cancers. Its side effects include cholinergic symptoms, such as diarrhea, abdominal pain, nausea, and hyperhidrosis. Anticholinergic medicines are frequently used for treatment or prophylaxis; however, the risk factors for the failure of a single prophylactic anticholinergic administration remain unclear. Moreover, an appropriate anticholinergic drug for prophylaxis remains unknown. Thus, we aimed to identify the risk factors associated with the failure of a single prophylactic dose of anticholinergic drugs for IRI-induced cholinergic symptoms and to evaluate the usefulness of multiple prophylactic doses of anticholinergic drugs. Patients who underwent IRI treatment for colorectal, gastric, or pancreatic cancer and received prophylactic anticholinergic drugs for IRI-induced cholinergic symptoms (n = 135) were retrospectively evaluated. Univariate and multivariate logistic regression analyses were performed to identify the risk factors for failure of a single prophylactic dose of anticholinergic drugs. We also evaluated the efficacy of multiple prophylactic anticholinergic drug administration. Based on univariate and multivariate analyses, colorectal cancer, female sex, and prophylactic use of scopolamine butyl bromide were identified as risk factors for failure of a single prophylactic dose of anticholinergic drugs. The efficacy of multiple prophylactic doses was confirmed to be 95% of the patients who had a single prophylactic failure due to temporary effect but symptom appearance after a certain period of time (wearing-off). We determined that colorectal cancer, female sex, and prophylactic use of scopolamine butyl bromide were risk factors associated with the failure of a single prophylactic dose of anticholinergic drugs, and that multiple prophylactic doses for wearing-off can be a promising method.

Application of Electrospun Drug-Loaded Nanofibers in Cancer Therapy.

In the 21st century, chemotherapy stands as a primary treatment method for prevalent diseases, yet drug resistance remains a pressing challenge. Utilizing electrospinning to support chemotherapy drugs offers sustained and controlled release methods in contrast to oral and implantable drug delivery modes, which enable localized treatment of distinct tumor types. Moreover, the core-sheath structure in electrospinning bears advantages in dual-drug loading: the core and sheath layers can carry different drugs, facilitating collaborative treatment to counter chemotherapy drug resistance. This approach minimizes patient discomfort associated with multiple-drug administration. Electrospun fibers not only transport drugs but can also integrate metal particles and targeted compounds, enabling combinations of chemotherapy with magnetic and heat therapies for comprehensive cancer treatment. This review delves into electrospinning preparation techniques and drug delivery methods tailored to various cancers, foreseeing their promising roles in cancer treatment.

Structural and Functional Characterization of Biofilm-Related Proteins of Mycobacterium spp: An in-silico Approach

Biofilm-associated infections are characterized by the chronicity, recurrence, and the requirement of a prolonged administration of multiple drugs. Several non-pathogenic and pathogenic species of microorganism including Mycobacteria spp form biofilm. Mycobacterial biofilms present a unique composition. Instead of exopolysaccharides in other bacteria, proteins are essential compounds of the biofilm matrix in mycobacteria. To tackle mycobacterial infections, a detailed understanding of the biofilm-forming mechanisms is crucial. In this present study, all available Mycobacterial proteins involved in the biofilm were selected. Their sequences were retrieved and characterized through the determination of their physicochemical properties, secondary structure, 3D structure, subcellular localization, conserved domain, ubiquitination sites, and virulence potentiality. Furthermore, druggability testing was undertaken after excluding proteins with homology to human proteins to identify possible drug targets. The results showed that they possess functionally important domains and families. All of the selected hypothetical proteins were stable. Six of them were classified as soluble and the remaining as transmembrane proteins. A sole protein was found to lack ubiquitination sites. Additionally, three of these were discovered to be virulent. Moreover, host non-homology results indicated eight pathogen-specific proteins that might be potential therapeutic targets. Among them, D-alanyl-D-alanine carboxypeptidase is a druggable target that is inhibited by beta-lactam antibiotics. The remainder of the proteins were categorized as new targets. 
 In conclusion, this study may increase our knowledge of pathogenesis and host adaptation, drug resistance, and identification of drug and vaccine targets against infections caused by Mycobacteria. It can also guide new research.

An effective framework for predicting drug–drug interactions based on molecular substructures and knowledge graph neural network

Drug–drug interactions (DDIs) play a central role in drug research, as the simultaneous administration of multiple drugs can have harmful or beneficial effects. Harmful interactions lead to adverse reactions, some of which can be life-threatening, while beneficial interactions can promote efficacy. Therefore, it is crucial for physicians, patients, and the research community to identify potential DDIs. Although many AI-based techniques have been proposed for predicting DDIs, most existing computational models primarily focus on integrating multiple data sources or combining popular embedding methods. Researchers often overlook the valuable information within the molecular structure of drugs or only consider the structural information of drugs, neglecting the relationship or topological information between drugs and other biological objects. In this study, we propose MSKG-DDI – a two-component framework that incorporates the Drug Chemical Structure Graph-based component and the Drug Knowledge Graph-based component to capture multimodal characteristics of drugs. Subsequently, a multimodal fusion neural layer is utilized to explore the complementarity between multimodal representations of drugs. Extensive experiments were conducted using two real-world datasets, and the results demonstrate that MSKG-DDI outperforms other state-of-the-art models in binary-class, multi-class, and multi-label prediction tasks under both transductive and inductive settings. Furthermore, the ablation analysis further confirms the practical usefulness of MSKG-DDI.

SGN-B7H4V, an investigational vedotin ADC directed to the immune checkpoint ligand B7-H4, shows promising activity in preclinical models

BackgroundSGN-B7H4V is a novel investigational vedotin antibody–drug conjugate (ADC) comprising a B7-H4-directed human monoclonal antibody conjugated to the cytotoxic payload monomethyl auristatin E (MMAE) via a protease-cleavable maleimidocaproyl valine citrulline...

A Survey on Handling and Administration of Therapeutic Protein Products in German and Swiss Hospitals

Protein products in hospitals often have to be compounded before administration to the patient. This may comprise reconstitution of lyophilizates, dilution, storage, and transport. However, the operations for compounding and administration in the hospital may lead to changes in product quality and possibly even impact patient safety. We surveyed healthcare practitioners from three clinical units using a questionnaire and open dialogue to document common procedures and their justification and to document differences in handling procedures. The survey covered dose compounding, transportation, storage and administration. One key observation was that drug vial optimization procedures were used for some products, e.g., use of one single-use vial for several patients. This included the use of spikes and needles or closed system transfer devices (CSTDs). Filters or light protection aids were used only when specified by the manufacturer. A further observation was a different handling of the overfill in pre-filled infusion containers, possibly impacting total dose. Lastly, we documented the complexity of infusion administration setups for administration of multiple drugs. In this case, flushing procedures or the placement and use of filters in the setup vary. Our study has revealed important differences in handling and administration practice. We propose that drug developers and hospitals should collaborate to establish unified handling procedures.

The Concurrent Use of Phenytoin and Levetiracetam for Seizure Prophylaxis in ICU Patients: The "Arrowhead Rationale".

The administration of multiple antiepileptic drugs (AEDs) is standard practice for neurological intensive care unit (ICU) patients who cannot obtain seizure control with monotherapy. Phenytoin and levetiracetam continue to be highly utilized AEDs for ICU patients due to their efficacy and relatively low cost. However, there is no randomized control trial to date that assesses the efficacy outcomes of the concurrent use of these two medications for ICU patients in convulsive or silent status epilepticus that combats the toxicity with increasing dosages of a single drug by itself. Here, we have analyzed several studies published over the past two decades to better understand whether the concomitant use of these two medications is more efficacious in treating unremitting seizures in ICU patients. Several factors influence which AED is a better fit for ICU patients due to the complexity of their clinical state. Risk for drug interactions, increased incidence of renal and hepatic impairment, and higher need for patient monitoring are daily barriers that determine AED use. After analysis of past research, while the efficacy of concurrent use of levetiracetam and phenytoin is still not fully clear, we offer the "Arrowhead Rationale" for such dual therapy in a subset of patients at our tertiary care trauma and stroke center in Southern California.

In Vitro and In Vivo Evaluation of Composite Oral Fast Disintegrating Film: An Innovative Strategy for the Codelivery of Ranitidine HCl and Flurbiprofen.

Here, we evaluate the feasibility of co-loading plain ranitidine hydrochloride (RHCl) and microencapsulated flurbiprofen (FBP) in a Lycoat® RS780-based oral fast disintegrating film (ODF). These films were developed by the solvent casting method to minimize the adverse effects of FBP and reduce the dosage form burden on patients. Optimized FBP microparticles (M3) with an average size of 21.2 ± 9.2 µm were loaded alone (F1) and in combination with plain RHCl (F2) in the composite ODF. All films were evaluated physicomechanically and physicochemically. These films were resilient, flexible, and disintegrated within thirty seconds. SEM images showed intact FBP microparticles in both formulations and, moreover, did not observe an interaction between the drug and film components. Microencapsulated FBP was released in a controlled manner over 48 h from the proposed formulations, while RHCl was released within 5 min from F2. After in vitro evaluation, formulations were also tested for in vivo anti-inflammatory activity, cytokine (TNF-α and IL-6) levels, and gastroprotective effects in rats. The anti-inflammatory activity and gastroprotective effect of F2 were markedly higher than pure FBP and other synthesized formulations (M3 and F1). The average score of gastric lesions was in the order of pure FBP (15.5 ± 1.32) > M3 (8 ± 2) > F1 (1 ± 0.5) > F2 (0.5 ± 0) > control (0). Additionally, F2 showed a sustained anti-inflammatory effect up to 10 h in the rat paw edema model. Furthermore, F2 also markedly reduced TNF-α and IL-6 levels. Conclusively, the Lycoat® RS780-based composite film could be a promising carrier for the co-loading of microencapsulated FBP with RHCl. In the future, an optimized formulation (F2) could be capable of countering the issues related to multiple drug administration in geriatric patients and evading the gastric irritation associated with FBP.

A Review on Revolutionize Drug Delivery with Spansules

This article provides a brief overview of Spansules, a novel drug delivery system. Spansules are designed to release medication in a controlled manner, providing a sustained and consistent therapeutic effect. This delivery method involves encapsulating the drug in a special coating that dissolves slowly, allowing the medication to be released gradually over time. Spansules have been shown to improve patient compliance and reduce side effects associated with traditional drug delivery methods. Spansules are classified as an Advanced Drug Delivery System due to their ability to facilitate controlled and sustained release of medication over an extended duration. The delivery system in question has the capability to maintain a consistent plasma drug concentration across a broad time spectrum. This attribute can enhance the effectiveness of treatment and mitigate the likelihood of adverse reactions. Spansules can be utilized for the delivery of multiple drugs in a single dosage form, while also providing sustained release. The Spansules product offers a multi-drug regimen capability, which enables the administration of multiple drugs in a single dosage form, providing added benefits. Spansules are a type of biphasic release drug delivery system that enables the administration of medication in both immediate and sustained release forms. In situations where a patient necessitates prompt alleviation of symptoms followed by sustained management over an extended duration, these systems can prove to be advantageous. In general, Spansules represent a versatile and efficacious mechanism for drug delivery that can offer numerous advantages to both patients and healthcare providers. Overall, Spansules represent a promising advancement in the field of drug delivery.

Safety of integrated mass drug administration of azithromycin, albendazole and ivermectin versus standard treatment regimens: a cluster-randomised trial in Ethiopia.

Neglected Tropical Disease (NTD) programs require separate and distinct drug regimens for treatment. This has required countries to undertake multiple independent mass drug administration (MDA) programmes, each targeting one or more diseases. The possibility of safely combining different drug regimens together in one MDA may offer several advantages to national programs. We conducted a study to assess the safety of combining ivermectin, albendazole and azithromycin in one integrated MDA. We conducted an open-label, non-inferiority cluster-randomised trial comparing the frequency of adverse events in communities receiving co-administered ivermectin, albendazole and azithromycin to that in communities given albendazole and ivermectin MDA followed by azithromycin MDA after a two-week interval. The study took place in 58 gares (small administrative units) across two kebeles (sub-districts) in Kofele woreda (district) in the Oromia region of Ethiopia. We randomly assigned 29 gares to the combined treatment arm and 29 gares to the control arm. The study team revisited all individuals within 48 h and actively collected data on the occurrence of adverse events using a dedicated questionnaire and a pre-specified list of adverse events. The study team followed the same process in the control arm for the azithromycin distribution and again after the ivermectin plus albendazole distribution. Following this initial active surveillance, passive surveillance was undertaken for one week after the first visit. The primary outcome was the frequency of adverse events occurring following MDA. The study team determined that the safety of the combined MDA would be non-inferior to that of separate MDAs if the upper limit of the two-sided CI for the difference in rates was equal to or lower than 5%. The trial was registered with ClinicalTrials.gov, NCT03570814. The study took place from December 2021 to January 2022. The combined MDA arm consisted of 7292 individuals who were eligible to participate, of whom 7068 received all three medications. The separate MDA arm consisted of 6219 eligible individuals of whom 6211 received ivermectin and albendazole and 4611 received azithromycin two weeks later. Overall, adverse events were reported by 197 (1.2%) of individuals. The most commonly reported adverse events included headache, gastrointestinal disturbance and dizziness. There were no serious adverse events in either arm. The cluster-level mean frequency of reported adverse events varied markedly between clusters, ranging from 0.1 to 10.4%. The cluster-level mean frequency of adverse events was 1.4% in the combined MDA arm and 1.2% following ivermectin and albendazole MDA (absolute difference 0.2%, 95% confidence interval [CI]-0.6% to+1.1%). This met the pre-defined 1.5% non-inferiority margin. For the combined MDA comparison to the stand-alone azithromycin MDA the absolute difference was-0.4% (1.4 versus 1.8%, 95% CI-0.8 to+1.5) which also met the pre-specified non-inferiority margin. This study is the largest of its kind to date and demonstrates that the safety of combined MDA of azithromycin, ivermectin and albendazole is non-inferior to the safety of ivermectin-plus-albendazole MDA then azithromycin MDA conducted separately although we may not have been powered to detect very small differences between arms. Co-administration of these three medicines is safe and feasible in this setting and allows national programs to develop new strategies for integrated MDA programs. Ivermectin (Mectizan) was donated by the Mectizan Donation Program, albendazole was donated by GlaxoSmithKline, and azithromycin (Zithromax®) was donated by Pfizer via the International Trachoma Initiative (ITI). The trial was funded by ITI using operational research funds from the Bill and Melinda Gates Foundation.