Diseases and disorders of dental, oral, and craniofacial (DOC) tissues represent a significant global health burden and have been found to have the greatest age‐standardized prevalence and incidence of all reported diseases worldwide. While the application of novel therapies has been suggested to address the different types of oral health diseases, only a limited number of interventional regenerative

Glioblastoma (GBM) is a highly malignant brain tumor with a poor survival prognosis of 12–15 months despite current therapeutic strategies. Diagnosing GBM is challenging, often requiring invasive techniques such as tissue biopsy and imaging methods that can provide inconclusive results. In this regard, liquid biopsy represents a promising alternative, providing tumor‐derived information from less invasive

Extranuclear organelle transplantation, an emerging field in cell biology and bioengineering, presents innovative therapeutic possibilities by transferring organelles such as mitochondria between cells or across species. In living organisms, mitochondria and chloroplasts are closely related to converting substances and energy within cells. Transplantation therapy of mitochondria seeks to rebuild cell

Tumors shift their metabolic needs to enable uncontrolled proliferation. Therefore, metabolic assessment of cancer patient sera provides a significant opportunity to noninvasively monitor disease progression and enable mechanistic understanding of the pathways that lead to response. Here, we show Raman spectroscopy (RS), a highly sensitive and label‐free analytical tool, is effective in metabolic profiling

Chemical ablative therapies offer effective alternatives for tumor treatment, particularly when surgical resection or heat‐based ablation therapies are unsuitable due to the tumor's stage, location, or extent. Photodynamic therapy (PDT), which involves delivering light‐activated, tumor‐killing photosensitizers, and percutaneous ethanol injection (PEI), which involves the direct injection of pure ethanol

Genome sequencing has identified numerous mutations in the DEAD‐box RNA helicases, DDX3X and DDX3Y, associated with cancer and other diseases, but monitoring of their functional consequences remains a challenge. Conventional helicase assays are laborious, often technically difficult, and are performed in cell‐free systems that do not address biologically relevant questions. Here, we developed an engineered

Photodynamic therapy (PDT) is a minimally invasive treatment that involves the administration of a light‐activatable drug followed by light activation of the lesion to produce reactive oxygen species that kill cancer cells. Visudyne®, a liposomal formulation of benzoporphyrin derivative (BPD) photosensitizer, is clinically approved for PDT of ocular diseases and is now being tested for PDT and imaging

One way to address the growing shortage of donated blood required for routine and emergency transfusion is to mass‐manufacture red blood cells (RBCs) in vitro. However, numerous biological and bioprocessing challenges must be overcome to realize this goal. In addressing these challenges, a promising solution is the erythroid progenitor cell line, BEL‐A (Bristol Erythroid Line—Adult). Despite this,

Spinal cord injury (SCI) triggers an immediate influx of immune cells that secrete pro‐inflammatory cytokines and reactive oxygen species that cause tissue damage that is secondary to the initial physical trauma. We aim to reprogram these immune cells to promote a less inflammatory and more pro‐regenerative environment. Herein, we investigated the window in time during which poly(lactide‐co‐glycolide)

Malignant cerebral edema (MCE) represents a significant medical emergency characterized by unmanageable intracranial pressure (ICP), frequently arising as a consequence of traumatic brain injury (TBI) or ischemic stroke. Decompressive craniectomy (DC) is a prevalent surgical procedure employed to mitigate elevated ICP by excising a segment of the skull to enhance intracranial volume. Nevertheless,

Bacteriophages are considered ideal vaccine platforms owing to their safety, intrinsic adjuvant properties, stability, and low‐cost production. One of the best strategies to prevent brucellosis in humans and animals is vaccination. For several years, researchers have dedicated their efforts to enhance the effectiveness and safety of the Brucella vaccine. This study was designed to evaluate the immunogenicity

Tissue engineering provides a promising avenue for treating meniscus defects. In this study, a novel polycaprolactone (PCL)/collagen type I (COL I) meniscus scaffold was fabricated using low temperature deposition manufacturing (LDM) 3D printing technology. The scaffold had a ring and radial fiber structure, and its composition and structure were double bionic of the natural meniscus. In vitro experiments

Malignant brain tumors, particularly glioblastoma multiforme (GBM), are aggressive and fatal cancers. The clinical efficacy of current standard‐of‐care treatments against brain tumors has been minimal, with no significant improvement over the past 30 years. Driven by the success of chimeric antigen receptor (CAR)‐T cells in the clinic for treating certain types of cancer, adoptive cell therapies have

Non‐small cell lung cancer (NSCLC) presents significant therapeutic challenges, often characterized by aggressive proliferation and metastasis. This study investigates the role of SLC7A11, a ferroptosis‐related gene, in NSCLC progression and the potential of engineered bacterial extracellular vesicles (BEVs) expressing SLC7A11‐targeting siRNA as a therapeutic strategy. Using TCGA and GEO databases

Lentiviral vectors (LVVs) are emerging as an enabling tool in gene and cell therapies, yet the toolkit for purifying them at scale is still immature. A pivoting moment in LVV isolation technology was marked by the introduction of affinity ligands for LVVs pseudo‐typed with Vesicular Stomatitis Virus G (VSV‐G) protein. Camelid antibody ligands were initially discovered and utilized to functionalize

Nipple reconstruction in patients who undergo total mastectomy or nipple‐sparing mastectomy is currently limited by a consistent and significant loss of nipple projection over time, which can negatively affect patient satisfaction and quality of life. To address this issue, we have previously shown that 3D‐printed poly‐4‐hydroxybutyrate (P4HB) nipple‐shaped scaffolds promote long‐term maintenance of

Adalimumab (Humira) represents a major advance in rheumatoid arthritis (RA) therapy. However, with long‐term administration of Adalimumab, anti‐idiotypic antibody (anti‐Id Ab) accelerates the Adalimumab clearance rate and reduces the therapeutic effect. To avoid the interference of anti‐Id Ab, we used an autologous hinge region as a spatial‐hindrance‐based Ab lock and connected it to the N‐terminal

Colorectal precancerous lesions (CRP) are early signs of cancer development, and early detection helps prevent progression to colorectal cancer (CRC), reducing incidence and mortality rates. This study developed a serum detection platform integrating surface‐enhanced Raman scattering (SERS) with machine learning (ML) for early detection of CRP. Specifically, a microarray chip with Au/SnO2 nanorope

Current ectopic implantation has shown limited efficacy in promoting reinnervation of the nigrostriatal pathway, which is critically affected in Parkinson's disease (PD). Homotopic transplantation, on the other hand, may facilitate physiological cell rewiring of the basal ganglia, potentially improving PD symptoms. This study aimed to evaluate the efficacy and safety of homotopically engrafting human

Atherosclerosis is a chronic, systemic, inflammatory disease associated with the build‐up of fatty deposits (“plaques”) in the arteries. A major global health burden, severe atherosclerosis progresses to ischemic heart disease, an underlying condition which can exacerbate the occurrence of fatal events such as heart attack and stroke. Over the past two decades, the use of in vitro models to study atherosclerotic

Managing delivery of complex multidrug infusions in anesthesia and critical care presents a significant clinical challenge. Current practices relying on manual control of infusion pumps often result in unpredictable drug delivery profiles and dosing errors—key issues highlighted by the United States Food and Drug Administration (FDA). To address these issues, we introduce the SMART (synchronized‐pump

Hypertrophic scar (HS) is one of the most common complications of skin injuries, with a lack of effective therapeutic approaches to date. Most current research has focused on the dysfunction of hypertrophic scar fibroblasts (HSFBs) and dermal vascular endothelial cells (HDVECs), neglecting the crucial role of the inflammatory microenvironment that causes them to be abnormal. In this study, we first

Rapid restoration of blood flow is critical in treating acute ischemic stroke. Current thrombolytic therapies using tissue plasminogen activator (tPA) are limited by low recanalization rates and risks of off‐target bleeding. Here, we demonstrate that a remarkably simple adjustment—using micrometer‐scale rather than sub‐micrometer particles to immobilize tPA—fundamentally improves thrombolysis. By merely

Volumetric muscle loss is the significant loss of skeletal muscle volume beyond the innate regenerative capacity, resulting in functional impairment. The current standard of care combines muscle autografting with physical therapy but is often insufficient to reach full recovery. Decellularized skeletal muscle (DSM) provides an interesting alternative to repair volumetric muscle loss. The native structure

The microvascular basement membrane (mvBM) is crucial in maintaining vascular integrity and function and, therefore, key to the health of major organs. However, the complex nature and the intricate interplay of biochemical and biomechanical factors that regulate the mvBM functional dynamics make it difficult to study. Here, we present a novel and highly tunable in vitro model of the human mvBM, enabling

Neuroblastoma is a highly aggressive pediatric cancer with a poor prognosis, particularly in high‐risk (HR) cases characterized by MYCN amplification. The severe side effects associated with high‐dose chemotherapy further complicate treatment. Despite significant advancements in drug screening, traditional platforms remain limited due to their requirement for large cell quantities and their low translational

Urothelial carcinomas (UCs) are the fourth most common male malignancies. However, currently implemented detection methods for UC are usually invasive and/or show passable sensitivity and specificity. An accurate, practical, and effective approach is urgently needed for UC clinical detection. Based on the observation that PCDHGB7 was hypermethylated in UC, we developed a bisulfite‐free quantitative

Natural killer (NK) cells are in development for allogeneic immunotherapy; however, for such use as off‐the‐shelf medicines, NK cells need to undergo ex vivo expansion, typically through activation with feeder cells and cytokines, to generate sufficient cells for clinical applications. Upon stimulation with feeder cells in the presence of cytokines, NK cells undergo profound changes in gene expression

State the PurposeObtaining high‐quality samples to diagnose streptococcal pharyngitis in pediatric patients is challenging due to discomfort associated with traditional pharyngeal swabs. This may cause reluctance to go to the clinic, inaccurate diagnosis, or inappropriate treatment for children with sore throats. Here, we determined the efficacy of CandyCollect, a lollipop‐inspired open‐microfluidic

Gastrointestinal cancers, a major global cause of cancer‐related mortality and disease burden, are a heterogeneous group of malignant aliments involving different organs of the digestive system. The late clinical diagnosis, genomic tumor heterogeneity, high complexity of the gastrointestinal tumor microenvironment, along with increasing treatment resistance have been recognized as the main contributing

Acute limb ischemia (ALI), especially acute lower limb ischemia (ALLI), is a common clinical vascular emergency with high amputation and mortality rates. However, major challenges exist in rapidly diagnosing and assessing collateral vascular compensatory capacity, leading to appropriate clinical treatment strategies to improve limb preservation and reduce recurrence rates. Traditional imaging methods

Adult human mesenchymal stem cells (hMSCs) injection into the wound site promotes angiogenesis and the wound‐closing process by secreting various growth and immune‐modulating factors. However, lower cell attachment sites and the hypoxic microenvironment in the wound site limit their viability and engraftment rate, leading to programmed cell death, anoikis. We synthesized carboxymethyl cellulose‐coated

Stem cell therapies have emerged as a transformative approach in modern medicine, with the potential to address and possibly cure a broad spectrum of diseases. These therapies utilize living stem cells that can perform complex biological functions not replicable by traditional drugs. Stem cell therapies have an expanding therapeutic landscape, with several products already approved and numerous clinical

The detection and complete eradication of early‐stage small tumors during hysteroscopy remains a significant clinical challenge in preserving fertility for young women with endometrial cancer (EC). The purpose of this study is to verify the feasibility of CD47 as an optical molecular imaging (OMI) target for human EC and to achieve precise localization and identification in hysteroscopic surgery. The

Cardiovascular diseases (CVDs) continue to drive global mortality rates, underscoring an urgent need for advancements in healthcare solutions. The development of point‐of‐care (POC) devices that provide rapid diagnostic services near patients has garnered substantial attention, especially as traditional healthcare systems face challenges such as delayed diagnoses, inadequate care, and rising medical

BackgroundStandard‐of‐care for warfarin dose titration is conventionally based on physician‐guided drug dosing. This may lead to frequent deviations from target international normalized ratio (INR) due to inter‐ and intra‐patient variability and may potentially result in adverse events including recurrent thromboembolism and life‐threatening hemorrhage.ObjectivesWe aim to employ CURATE.AI, a small‐data

Chimeric antigen receptor T cell (CAR‐T) therapies show high remission rates for relapsed and refractory leukemia and lymphoma. However, manufacturing challenges hinder their commercial viability and patient accessibility. This study applied quality‐by‐design principles to identify perfusion critical process parameters for CAR‐T expansion in stirred tank bioreactors to maximize yields. A design of

Novel therapeutics have emerged for treating neurodegenerative eye diseases but are limited by non‐optimal methods of ocular administration. Subretinal injection is the preferred method of delivery for retinal gene and stem‐cell therapies, but its invasive and complex surgical procedure is a major limiting factor in clinical investigations and practice. Here, we engineered a novel trans‐scleral injection

Monoclonal antibodies (mAbs) are commonly used biologic therapeutics with a wide variety of clinical applications. During the development process, manufacturers consider different production parameters to improve protein yield and achieve appropriate quality of the product. Synonymous gene recoding is one of such attributes that is often considered and implemented to enhance protein expression. However

Autism spectrum disorder (ASD) is a group of developmental diseases, which still lacks effective treatments. Pregnant exposure of Valproic acid (VPA) is an important environmental risk factor for ASD, but it's long‐term effects on the development of human neural cells, particularly in vivo, and the corresponding treatment have yet been fully investigated. In the present study, we first made a humanized

Mammalian milk, a multifaceted developmental biofluid, has attracted new attention due to its diverse constituents and their implications for health and disease. Among these constituents, extracellular vesicles (EVs) have emerged as focal points of investigation. EVs, including exosomes and small EVs, have demonstrated biological activity in preclinical studies—including reports of enhancement of cognition

Tumor resistance to chemotherapy is a common cause of cancer recurrence in patients with head and neck squamous cell carcinoma. The goal of this study is to establish and characterize a chemoresistant laryngeal cancer cell model and test its potential utility for chemosensitizing therapy. At the genotypic level, RNA sequencing confirmed that the cells acquired putative resistance with upregulated docetaxel‐resistant

As the prospect of engineering primary B‐cells for cellular therapies in cancer, autoimmune diseases, and infectious diseases grows, there is an increasing demand for robust in vitro culture systems that effectively activate human B‐cells isolated from peripheral blood for consistent and efficient expansion and differentiation into various effector phenotypes. Feeder cell‐based systems have shown promise

Previous studies of bladder tissue engineering simply seeded cells onto the surface of the material, which makes the cells lack protection and makes it difficult to face the complex in vivo environment. The gelatin methacryloyl (GelMA) hydrogel possesses outstanding biocompatibility and distinctive photo‐crosslinking characteristics and is capable of offering a suitable three‐dimensional growth environment

Spinal cord injury (SCI) initiates a complex cascade of chemical and biophysical phenomena that result in tissue swelling, progressive neural degeneration, and formation of a fluid‐filled cavity. Previous studies show fluid pressure above the spinal cord (supraspinal) is elevated for at least 3 days after injury and contributes to a phase of damage called secondary injury. Currently, it is unknown

This comprehensive review explores the implications of artificial intelligence (AI) in addressing cochlear implant (CI) issues and revolutionizing the landscape of auditory prosthetics. It begins with an overview of ear anatomy and hearing loss, then explores a review of CI technology and its current challenges. The review emphasizes how advanced AI algorithms and data‐driven approaches enhance CI

Mesenchymal stem cell‐derived extracellular vesicles (MSC EVs) are an attractive therapeutic option for regenerative medicine applications due to their inherently pro‐angiogenic and anti‐inflammatory properties. However, reproducible and cost‐effective production of highly potent therapeutic MSC EVs is challenging, limiting their translational potential. Here, we investigated whether the well‐characterized

We describe the use of ultrasound image guidance to improve treatment outcomes when administering interstitial photothermal therapy (I‐PTT), an experimental cancer treatment modality. I‐PTT is a promising thermal therapy for tumors using intratumorally injected nanoparticle‐based photothermal agents activated by an interstitially placed laser diffuser. We hypothesized that ultrasound‐based image guidance

Human Mpox disease (MPX) is an endemic zoonotic disease that develops when patients are infected with the Mpox virus (MPXV). MPXV shares a high level of genetic similarity to other poxviruses and the clinical presentation of MPX is similar to other poxvirus infections which can result in a delay in diagnosis. In addition, the MPXV virus is phylogenetically divided into two different clades which affects

Recent studies show that tumor cells undergo apoptosis after mechanical stretching, which promotes normal cell growth. Since ultrasound can produce similar sub‐cellular mechanical stresses on the nanoscale, here we test the effect of ultrasound‐mediated mechanical forces on tumors and normal cell survival. Surprisingly, tumor cells undergo apoptosis through a calpain‐dependent mitochondrial pathway

The generation of human cortical organoids containing outer radial glia (oRG) cells is crucial for modeling neocortical development. Here we show that Catalpol, an iridoid glucoside derived from Rehmannia glutinosa, significantly enhances the generation of cerebral organoids with expanded oRG populations and increased neurogenic potential. Catalpol‐treated organoids exhibited thicker ventricular zone/subventricular

Brain–machine interfaces (BMIs) have experienced remarkable advancements in recent years, marked by multiple companies initiating human trials. Consequently, the interface between the brain and electrodes has become more critical than ever, requiring implanted electrodes to be not only biocompatible and minimally invasive but also capable of remaining functioning in the brain for a lifetime. While

With papillary thyroid carcinoma (PTC) rates rising significantly, concerns about conventional treatments like thyroidectomy and radiotherapy highlight the need for non‐invasive options. Our study explores photobiomodulation therapy (PBMT), which uses specific light wavelengths to evoke cellular responses in PTC treatment. Our research utilized a custom‐designed optical system to investigate PBMT,

The potential of low‐intensity pulsed ultrasound (LIPUS) in regulating ovarian function has been demonstrated; however, there is a lack of scientific evidence regarding the long‐term efficacy of LIPUS in treating ovarian injury and understanding its regulatory mechanisms. In this study, 4‐vinylcyclohexene diepoxide (VCD) was used to induce ovarian injury in rats, and LIPUS was applied to target the

Revascularization plays a critical role in the successful engraftment of transplanted pancreatic islets, which are inherently rich in capillaries to meet their high metabolic demands. Innovative islet encapsulation strategies such as the NICHE (neovascularized implantable cell homing and encapsulation), generate a prevascularized transplantation site that allows for direct integration of the graft