Cutaneous Granulomatous Reaction Secondary to Mesotherapy.

The practice of mesotherapy has gained significant popularity due to its convenience and ability top recisely deliver medications to targeted areas within the skin. However, despite its perceived safety, mesotherapy has been associated with various adverse effects, including granulomatous reactions triggered by certain ingredients present in the injected solutions. This case report highlights a woman in her 50s who developed multiple treatment-resistant cutaneous granulomas following mesotherapy treatment for skin rejuvenation.

Erythema Nodosum Leprosum Reaction Masquerading as Rheumatoid Arthritis.

Erythema nodosum leprosum is a type 3 hypersensitivity reaction that often presents with transient eruptions of red papules, plaques, and nodules. A 52-year-old female presented with multiple joint pain that was being treated as rheumatoid arthritis (RA), but through clinical examination, she was found to have Hansen's disease with a type 2 reaction. Hence, the importance of a thorough clinical examination is a must for the timely and correct diagnosis of patients suffering from Hansen's disease.

Transposable Elements: Emerging Therapeutic Targets in Neurodegenerative Diseases.

Neurodegenerative diseases, such as Alzheimer's disease (AD), Parkinson's disease (PD), and amyotrophic lateral sclerosis (ALS), are characterized by the progressive loss of neuronal function and structure. While several genetic and environmental factors have been implicated in the pathogenesis of these disorders, emerging evidence suggests that transposable elements (TEs), once considered "junk DNA," play a significant role in their development and progression. TEs are mobile genetic elements capable of moving within the genome, and their dysregulation has been associated with genomic instability, altered gene expression, and neuroinflammation.

Targeting Cellular Senescence: A Potential Therapeutic approach for Alzheimer's Disease.

Although Amyloid beta plaque and neurofibrillary tangles are considered the two main hallmarks of Alzheimer's disease (AD), the mechanism by which they contribute is not clearly understood. Cellular senescence (CS) has been demonstrated to be a key characteristic of AD. Recent research suggests that persistent buildup of senescent cells over time results in protracted activation of inflammatory stress as an organism ages because of the accumulation of irreversible DNA damage and oxidative stress as well as the deterioration of immune system function.

Computational Investigation of Chirality-Based Separation of Carbon Nanotubes Using Tripeptide Library.

Carbon nanotubes (CNT) have fascinating applications in flexible electronics, biosensors, and energy storage devices, and are classified as metallic or semiconducting based on their chirality. Semiconducting CNTs have been teased as a new material for building blocks in electronic devices, owing to their band gap resembling silicon. However, CNTs must be sorted into metallic and semiconducting for such applications.

Size-tunable ICG-based contrast agent platform for targeted near-infrared photoacoustic imaging.

Near-infrared photoacoustic imaging (NIR-PAI) combines the advantages of optical and ultrasound imaging to provide anatomical and functional information of tissues with high resolution. Although NIR-PAI is promising, its widespread use is hindered by the limited availability of NIR contrast agents. J-aggregates (JA) made of indocyanine green dye (ICG) represents an attractive class of biocompatible contrast agents for PAI.

Versatile Encapsulation and Synthesis of Potent Liposomes by Thermal Equilibration.

The wide-scale use of liposomal delivery systems is challenged by difficulties in obtaining potent liposomal suspensions. Passive and active loading strategies have been proposed to formulate drug encapsulated liposomes but are limited by low efficiencies (passive) or high drug specificities (active). Here, we present an efficient and universal loading strategy for synthesizing therapeutic liposomes.

Autonomously Propelled Colloids for Penetration and Payload Delivery in Complex Extracellular Matrices.

For effective treatment of diseases such as cancer or fibrosis, it is essential to deliver therapeutic agents such as drugs to the diseased tissue, but these diseased sites are surrounded by a dense network of fibers, cells, and proteins known as the extracellular matrix (ECM). The ECM forms a barrier between the diseased cells and blood circulation, the main route of administration of most drug delivery nanoparticles. Hence, a stiff ECM impedes drug delivery by limiting the transport of drugs to the diseased tissue.

Synthesis of DNA Origami Scaffolds: Current and Emerging Strategies.

DNA origami nanocarriers have emerged as a promising tool for many biomedical applications, such as biosensing, targeted drug delivery, and cancer immunotherapy. These highly programmable nanoarchitectures are assembled into any shape or size with nanoscale precision by folding a single-stranded DNA scaffold with short complementary oligonucleotides. The standard scaffold strand used to fold DNA origami nanocarriers is usually the M13mp18 bacteriophage's circular single-stranded DNA genome with limited design flexibility in terms of the sequence and size of the final objects.

A Computational Approach for Understanding the Interactions between Graphene Oxide and Nucleoside Diphosphate Kinase with Implications for Heart Failure.

During a heart failure, an increased content and activity of nucleoside diphosphate kinase (NDPK) in the sarcolemmal membrane is responsible for suppressing the formation of the second messenger cyclic adenosine monophosphate (cAMP)-a key component required for calcium ion homeostasis for the proper systolic and diastolic functions. Typically, this increased NDPK content lets the surplus NDPK react with a mutated G protein in the beta-adrenergic signal transduction pathway, thereby inhibiting cAMP synthesis. Thus, it is thus that inhibition of NDPK may cause a substantial increase in adenylate cyclase activity, which in turn may be a potential therapy for end-stage heart failure patients.

Increasing vaccine production using pulsed ultrasound waves.

Vaccination is a safe and effective approach to prevent deadly diseases. To increase vaccine production, we propose that a mechanical stimulation can enhance protein production. In order to prove this hypothesis, Sf9 insect cells were used to evaluate the increase in the expression of a fusion protein from hepatitis B virus (HBV S1/S2).

Solar cells with PbS quantum dot sensitized TiO-multiwalled carbon nanotube composites, sulfide-titania gel and tin sulfide coated C-fabric.

Novel approaches to boost quantum dot solar cell (QDSC) efficiencies are in demand. Herein, three strategies are used: (i) a hydrothermally synthesized TiO-multiwalled carbon nanotube (MWCNT) composite instead of conventional TiO, (ii) a counter electrode (CE) that has not been applied to QDSCs until now, namely, tin sulfide (SnS) nanoparticles (NPs) coated over a conductive carbon (C)-fabric, and (iii) a quasi-solid-state gel electrolyte composed of S, an inert polymer and TiO nanoparticles as opposed to a polysulfide solution based hole transport layer. MWCNTs by virtue of their high electrical conductivity and suitably positioned Fermi level (below the conduction bands of TiO and PbS) allow fast photogenerated electron injection into the external circuit, and this is confirmed by a higher efficiency of 6.

Interactions between avidin and graphene for development of a biosensing platform.

Fundamental understanding of interactions at the interface of biological molecules, such as proteins, and nanomaterials is crucial for developing various biocompatible hybrid materials and biosensing platforms. Biosensors comprising of graphene-based conductive nanomaterials offer the advantage of higher sensitivity and reliable diagnosis mainly due to their superior specific surface area and ballistic conductivity. Furthermore, conductive nanocomposite structures that immobilize proteins can synergize the properties of both transducers and molecular recognition elements improving the performance of the biosensing device.