A systematic review of microneedles technology in drug delivery through a bibliometric and patent overview.

The transdermal drug delivery (TDD) route has gathered considerable attention for its potential to improve therapeutic efficacy while minimizing systemic side effects. Among transdermal technologies, microneedle (MN) devices have proven to be a promising approach that combines the advantages of traditional needle injections and non-invasive topical applications. This review provides a comprehensive analysis of progress in transdermal drug delivery systems (TDDS) via MN from 2000 to 2023, integrating bibliometric analysis and patent landscape to present a multi-faceted perspective on the evolution of this technology.

Functional interplay between short antimicrobial peptides and model lipid membranes.

Antimicrobial peptides (AMPs) are considered an attractive generation of novel antibiotics due to their advantageous properties such as a broad spectrum of antimicrobial activity against pathogens, low cytotoxicity, and drug resistance. Although they have common structural features and it has been widely demonstrated that bacterial membranes represent the main target of the peptide activity, the exact mechanism underlying the membrane perturbation by AMPs is not fully understood. Nevertheless, all the proposed modes of action implicate the preliminary interaction of AMPs with the negatively charged lipids in bacterial membranes.

Individualizing care for patients with gallbladder cancer.

Unlabelled: The rarity and lack of Level I Evidence compromise our ability to care for patients with gallbladder cancer.

Methods: NCDB cohort study of with resected Stage Groups IB-IVA gallbladder adenocarcinoma between 2004 and 2018. Patients were included.

Hyaluronate loaded advanced wound dressing in form of in situ forming hydrogel powders: Formulation, characterization, and therapeutic potential.

In this paper, a blend composed of alginate-pectin-chitosan loaded with sodium hyaluronate in the form of an in situ forming dressing was successfully developed for wound repair applications. This complex polymeric blend has been efficiently used to encapsulate hyaluronate, forming an adhesive, flexible, and non-occlusive hydrogel able to uptake to 15 times its weight in wound fluid, and being removed without trauma from the wound site. Calorimetric and FT-IR studies confirmed chemical interactions between hyaluronate and polysaccharides blend, primarily related to the formation of a polyelectrolytic complex between hyaluronate and chitosan.

In Situ Hydrogel Formulation for Advanced Wound Dressing: Influence of Co-Solvents and Functional Excipient on Tailored Alginate-Pectin-Chitosan Blend Gelation Kinetics, Adhesiveness, and Performance.

Chronic skin wounds affect more than 40 million patients worldwide, representing a huge problem for healthcare systems. This study elucidates the optimization of an in situ gelling polymer blend powder for biomedical applications through the use of co-solvents and functional excipients, underlining the possibility of tailoring microparticulate powder properties to generate, in situ, hydrogels with advanced properties that are able to improve wound management and patient well-being. The blend was composed of alginate, pectin, and chitosan (APC).

Advances in Transdermal Drug Delivery Systems: A Bibliometric and Patent Analysis.

Transdermal drug delivery systems have become an intriguing research topic in healthcare technology and one of the most frequently developed pharmaceutical products in the global market. In recent years, researchers and pharmaceutical companies have made significant progress in developing new solutions in the field. This study sheds light on current trends, collaboration patterns, research hotspots, and emerging frontiers of transdermal drug delivery.

Iopamidol Abatement from Waters: A Rigorous Approach to Determine Physicochemical Parameters Needed to Scale Up from Batch to Continuous Operation.

The abatement of iopamidol (IPM), an X-ray iodinated contrast agent, in aqueous solution using powdered activated carbon (PAC) as a sorbent was investigated in the present work. The material was characterized by various analytical techniques such as thermogravimetric analysis, scanning electron microscopy, transmission electron microscopy, Brunauer-Emmett-Teller analysis, dynamic light scattering, and zeta potential measurements. Both thermodynamic and kinetic experiments were conducted in a batch apparatus, and the effects of the initial concentration of IPM, the temperature, and the adsorbent bulk density on the adsorption kinetics were investigated.

Textbook outcome as a composite measure of quality in hepaticopancreatic surgery.

Background: Textbook outcome (TO) is a valuable metric to assess postoperative outcomes. The aim of this study was to assess TO in patients undergoing hepatopancreatic surgery.

Methods: This was a retrospective cohort NSQIP study from 2015 to 2018.

Minimally invasive distal pancreatectomy for adenocarcinoma of the pancreas.

Introduction: Minimally invasive (MI) surgery has been widely adopted to treat left-sided pancreatic cancer. However, outcomes are not clearly defined.

Materials: Retrospective cohort study utilizing NCDB and NSQIP data.

Improved Overall Survival of Patients with Pancreatic Cancer through Multiagent Chemotherapy and Increased Rates of Surgical Resection.

Background: Seminal trials have demonstrated improved survival in pancreatic adenocarcinoma with novel multiagent chemotherapy regimens. To understand the clinical ramifications of this paradigm shift, we reviewed our institutional experience.

Methods: This retrospective cohort study utilized a prospective database at a single institution to study all patients diagnosed with and treated for pancreatic adenocarcinoma between 2000 and 2020.

Pathologic Tumor Regression is Associated With Improved Survival in Pancreatic Cancer.

Objectives: The advent of effective chemotherapy regimens has increased the use of neoadjuvant multiagent chemotherapy in pancreatic cancer. However, the effect of tumor downstaging with neoadjuvant treatment on survival is unclear.

Methods: Retrospective study included all resected patients with pancreatic adenocarcinoma who underwent neoadjuvant chemotherapy with FOLFIRINOX or gemcitabine/Abraxane.

Contemporary Treatment Paradigms are Associated with Improved Survival in Pancreatic Cancer.

Introduction: Over the last decade, a paradigm shift has been made in treating pancreatic cancer. Starting in 2011, several trials demonstrated a survival advantage for multiagent chemotherapy (MAC). However, the implication for survival at the population level remains unclear.

Pancreatic Cancer with Vascular Involvement: Adherence to Current Standard-of-Care Associated with Improved Survival.

Methods: This study is a retrospective cohort study of National Cancer Data Base (NCDB) data for pancreatic cancer with vascular involvement.

Results: A total of 23 903 patients with vascular involvement were included and divided into 3 groups; no treatment (40.6%), medical treatment (36.

Predicting loss of independence after high-risk gastrointestinal abdominal surgery: Frailty vs. NSQIP risk calculator.

Background: Loss of independence (LOI) is a significant concern for patients undergoing high-risk abdominal surgery. Although the risk for morbidity and mortality has been well studied, there is a dearth of data on risk for LOI.

Methods: This study utilized NSQIP data from 2015 to 2018 in a retrospective cohort study of patients undergoing high-risk gastrointestinal surgery (e.

A Novel Three-Polysaccharide Blend In Situ Gelling Powder for Wound Healing Applications.

In this paper, alginate/pectin and alginate/pectin/chitosan blend particles, in the form of an in situ forming hydrogel, intended for wound repair applications, have been successfully developed. Particles have been used to encapsulate doxycycline in order to control the delivery of the drug, enhance its antimicrobial properties, and the ability to inhibit host matrix metalloproteinases. The presence of chitosan in the particles strongly influenced their size, morphology, and fluid uptake properties, as well as drug encapsulation efficiency and release, due to both chemical interactions between the polymers in the blend and interactions with the drug demonstrated by FTIR studies.

Revisiting the Pancreatic Fistula Risk Score: Clinical Nomogram Accurately Assesses Risk.

Objectives: Surgeons have created numerous iterations of the pancreatic fistula risk score (FRS) to predict risk for clinically relevant postoperative pancreatic fistula (CR-POPF). The multitude of often conflicting models makes it difficult for surgeons to apply data in clinical practice.

Methods: We conducted a retrospective cohort study utilizing National Surgical Quality Improvement Program data from 2015 to 2018.

Key Physicochemical Determinants in the Antimicrobial Peptide RiLK1 Promote Amphipathic Structures.

Antimicrobial peptides (AMPs) represent a skilled class of new antibiotics, due to their broad range of activity, rapid killing, and low bacterial resistance. Many efforts have been made to discover AMPs with improved performances, i.e.

A Safe and Multitasking Antimicrobial Decapeptide: The Road from De Novo Design to Structural and Functional Characterization.

Antimicrobial peptides (AMPs) are excellent candidates to fight multi-resistant pathogens worldwide and are considered promising bio-preservatives to control microbial spoilage through food processing. To date, designing de novo AMPs with high therapeutic indexes, low-cost synthesis, high resistance, and bioavailability, remains a challenge. In this study, a novel decapeptide, named RiLK1, was rationally designed starting from the sequence of the previously characterized AMP 1018-K6, with the aim of developing short peptides, and promoting higher selectivity over mammalian cells, antibacterial activity, and structural resistance under different salt, pH, and temperature conditions.

Synthesis and characterization of electrically conductive polyethylene-supported graphene films.

Unlabelled: We describe a simple mechanical approach for low-density polyethylene film coating by multilayer graphene. The technique is based on the exfoliation of nanocrystalline graphite (few-layer graphene) by application of shear stress and allows to obtain thin graphene layers on the plastic substrate. We report on the temperature dependence of electrical resistance behaviors in films of different thickness.

Holographic patterning of graphene-oxide films by light-driven reduction.

We report on the patterning and reduction of graphene-oxide films by holographic lithography. Light reduction can be used to engineer low-cost graphene-based devices by performing a local conversion of insulating oxide into the conductive graphene. In this work, computer-generated holograms have been exploited to realize complex graphene patterns in a single shot, different from serial laser writing or mask-based photolithographic processes.

A simple mechanical technique to obtain carbon nanoscrolls from graphite nanoplatelets.

A simple approach for the bulk production of carbon nanoscrolls (CNSs) is described. This method is based on the application of shear-friction forces to convert graphite nanoplatelets into carbon nanoscrolls using a bi-axially oriented polypropylene (BOPP) surface. The combined action of shear and friction forces causes the exfoliation of graphite nanoplatelets and the simultaneous roll-up of graphite layers.

Graphite nanoplatelet chemical cross-linking by elemental sulfur.

Graphite nanoplatelets (GNPs) react with elemental sulfur to provide a mechanically stable, spongy material characterized by good electrical conductivity and high surface development; such unique property combination makes these novel nanostructured materials very useful for applications in different technological fields. The carbon-sulfur reaction can be accurately investigated by thermal analysis (differential scanning calorimetry and thermogravimetric analysis) and energy-dispersive X-ray spectroscopy combined with scanning electron microscopy. The thermal treatment required for the formation of electrically conductive monosulfur connections among the GNP unities has been investigated.

Mechanical properties of low-density polyethylene filled by graphite nanoplatelets.

The mechanical properties of GNP/LDPE nanocomposites (graphite nanoplatelets/low density polyethylene) have been investigated, in order to establish the effect of nanoscale reinforcement within the polymer matrix. Results show that the presence of the filler does not involve a change in the microscopic structure of the polymer. However, on a macroscopic scale, GNPs limit the mobility of the polymer chains, resulting in an increase in stiffness for the final composite.