With population aging, the incidence of osteoporosis continuously elevates worldwide, resulting in increased fracture risks and clinical demand for orthopedic fixation. However, under osteoporotic con Show more
With population aging, the incidence of osteoporosis continuously elevates worldwide, resulting in increased fracture risks and clinical demand for orthopedic fixation. However, under osteoporotic conditions, the stability and longevity of implants are severely compromised by the pathological microenvironment, thus developing effective therapeutic interventions to achieve successful osteoporotic osseointegration remains a critical challenge in the regenerative medicine field. Herein, the parathyroid hormone (PTH) is encapsulated in Sr Show less
Post-traumatic stress disorder (PTSD) is a debilitating neuropsychiatric condition triggered by severe trauma, characterised by dysregulated fear circuitry, hippocampal atrophy with impaired neurogene Show more
Post-traumatic stress disorder (PTSD) is a debilitating neuropsychiatric condition triggered by severe trauma, characterised by dysregulated fear circuitry, hippocampal atrophy with impaired neurogenesis, chronic neuroinflammation, neuroendocrine dysregulation, and disrupted prefrontal-limbic connectivity. Existing treatments are largely symptomatic, failing to address underlying neurobiological deficits. Emerging regenerative approaches using human stem cells, particularly induced pluripotent stem cell-derived neural progenitor cells (iPSC-NPCs), human embryonic stem cells (hESCs), mesenchymal stem cells (MSCs), and their extracellular vesicles (EVs), offer mechanistic plausibility for neural repair via direct neuronal replacement, paracrine neurotrophic support (e.g., BDNF, GDNF, VEGF), immunomodulation (e.g., shifting microglia to anti-inflammatory phenotypes), and promotion of synaptic plasticity and epigenetic reprogramming. Preclinical evidence remains limited and largely indirect, with sparse PTSD-specific studies (e.g., one report of iPSC-NPC transplantation reducing fear behaviour and enhancing hippocampal BDNF/neuronal density in a rat model) supplemented by convergent data from adjacent CNS injury paradigms. MSC- and iPSC-derived EVs, enriched with regulatory miRNAs (e.g., miR-124, miR-21, miR-146a), emerge as a safer, cell-free alternative with strong immunomodulatory potential and greater translational feasibility. However, reproducibility is constrained by model variability, lack of independent replication, and absence of PTSD-focused clinical trials. Major challenges include tumorigenicity risks (especially for pluripotent-derived cells), immune rejection, epigenetic/genomic instability, manufacturing scalability, stringent regulatory requirements, and elevated ethical thresholds for invasive therapies in a non-lethal psychiatric disorder. This review examines how stem cell actions align with PTSD brain changes, critically assesses the limited evidence, and suggests a careful translational plan. Show less
Neurotrophins are a class of proteins that maintain the health and phenotype of neuronal cells under normal physiological conditions. Nerve growth factor was the first neurotrophin to be discovered, s Show more
Neurotrophins are a class of proteins that maintain the health and phenotype of neuronal cells under normal physiological conditions. Nerve growth factor was the first neurotrophin to be discovered, supporting the survival and cholinergic phenotype of basal forebrain cholinergic neurons, which are crucial in maintaining cognitive function in healthy individuals. Nerve growth factor metabolism is altered in Alzheimer's disease and, along with the degeneration of basal forebrain cholinergic neurons and loss of cholinergic pathways in the affected brain, contributes to cognitive problems. These findings initiated the application of nerve growth factor supplementation as a regenerative strategy against Alzheimer's disease in the late 20 th century. Later decades witnessed the development of drugs that support cholinergic activity, namely, cholinesterase inhibitors offering small but persisting cognitive benefits in Alzheimer's disease patients. Further developments in the Alzheimer's disease field have witnessed the rise of anti-amyloid immunotherapies that target the amyloid plaques in Alzheimer's disease brains in an attempt to reduce disease pathology. Over the years, several reports have appeared in support of or undermining the therapeutic claims of each strategy, while many other therapeutic approaches are being presently tested. In this narrative review, we present broader perspectives regarding cholinergic therapeutic strategies against Alzheimer's disease, highlighting aspects in the Alzheimer's disease field that need to be addressed, and propose future perspectives. We provide a special focus on neurotrophic molecules, especially on nerve growth factor, due to its close association with cognitive pathways and its relationship with cholinergic pathways, since cholinesterase inhibitors remain a widely used medication for Alzheimer's disease patients even after 30 years of research. Show less