Futibatinib: A Review in Locally Advanced and Metastatic Cholangiocarcinoma.

Futibatinib (LYTGOBI®) is an oral small molecule compound that selectively, irreversibly and potently inhibits the tyrosine kinase activity of fibroblast growth factor receptor (FGFR)1-4. It is approved in the EU, Japan and the USA for the treatment of adults with locally advanced or metastatic cholangiocarcinoma (CCA) harbouring an FGFR2 fusion or rearrangement who have progressed following systemic therapy. In the phase II part (FOENIX-CCA2) of a multinational phase I/II study in this patient population, monotherapy with futibatinib 20 mg once daily was associated with clinically meaningful and durable responses, sustained health-related quality of life (HR-QOL), and a manageable safety profile with supportive care and as-needed dose modifications. Indeed, hyperphosphataemia (the most common all grade and grade 3 treatment-related adverse event) was manageable with phosphate-lowering therapy and dose reductions or interruptions. Although further efficacy and tolerability data are expected, current evidence indicates that futibatinib is a valuable targeted therapy option for adults with locally advanced or metastatic CCA harbouring an FGFR2 fusion or rearrangement who have progressed following systemic therapy, a patient population with limited treatment options and poor life expectancy.

Cholangiocarcinoma (CCA) is an invasive tumour arising from the biliary tract. In the early stages it presents silently; this, along with its highly aggressive nature, means it is often diagnosed in the later (advanced) stages when surgery is not a treatment option. Up to half of CCAs have genetic aberrations that can be targeted for treatment. One such abnormality (present in 9­15% of CCAs) is found in fibroblast growth factor receptor (FGFR)2. The presence of this aberration promotes tumour survival and development. Futibatinib (LYTGOBI^®) is an oral drug that strongly inhibits the activity of FGFR1­4. When given to adults with unresectable or metastatic CCA harbouring an FGFR2 aberration who had disease progression after systemic therapy, futibatinib 20 mg once daily produced clinically meaningful and prolonged responses and sustained health-related quality of life; moreover, with supportive care and as-needed dose modifications, futibatinib had a manageable safety profile. In a patient population that has limited treatment options and poor life expectancy, current evidence indicates that futibatinib is a valuable targeted therapy option.

Development and evaluation of a BCI-neurofeedback system with real-time EEG detection and electrical stimulation assistance during motor attempt for neurorehabilitation of children with cerebral palsy.

In the realm of motor rehabilitation, Brain-Computer Interface Neurofeedback Training (BCI-NFT) emerges as a promising strategy. This aims to utilize an individual's brain activity to stimulate or assist movement, thereby strengthening sensorimotor pathways and promoting motor recovery. Employing various methodologies, BCI-NFT has been shown to be effective for enhancing motor function primarily of the upper limb in stroke, with very few studies reported in cerebral palsy (CP). Our main objective was to develop an electroencephalography (EEG)-based BCI-NFT system, employing an associative learning paradigm, to improve selective control of ankle dorsiflexion in CP and potentially other neurological populations. First, in a cohort of eight healthy volunteers, we successfully implemented a BCI-NFT system based on detection of slow movement-related cortical potentials (MRCP) from EEG generated by attempted dorsiflexion to simultaneously activate Neuromuscular Electrical Stimulation which assisted movement and served to enhance sensory feedback to the sensorimotor cortex. Participants also viewed a computer display that provided real-time visual feedback of ankle range of motion with an individualized target region displayed to encourage maximal effort. After evaluating several potential strategies, we employed a Long short-term memory (LSTM) neural network, a deep learning algorithm, to detect the motor intent prior to movement onset. We then evaluated the system in a 10-session ankle dorsiflexion training protocol on a child with CP. By employing transfer learning across sessions, we could significantly reduce the number of calibration trials from 50 to 20 without compromising detection accuracy, which was 80.8% on average. The participant was able to complete the required calibration trials and the 100 training trials per session for all 10 sessions and post-training demonstrated increased ankle dorsiflexion velocity, walking speed and step length. Based on exceptional system performance, feasibility and preliminary effectiveness in a child with CP, we are now pursuing a clinical trial in a larger cohort of children with CP.

Exagamglogene Autotemcel: First Approval.

Exagamglogene autotemcel (Casgevy™) is a genetically modified autologous CD34+ cell enriched population. It contains human haematopoietic stem and progenitor cells edited ex vivo by CRISPR/Cas9 (a DNA double strand break-inducing nuclease system) to differentiate into erythroid cells that produce high levels of foetal hemoglobin. Developed by Vertex Pharmaceuticals and CRISPR Therapeutics, exagamglogene autotemcel received its first approval on 16 November 2023 in the UK for the treatment of transfusion-dependent ß-thalassemia (TDT) in patients aged ≥ 12 years for whom haematopoietic stem cell (HSC) transplantation is appropriate and a human leukocyte antigen matched related HSC donor is not available. On the same day, it was also approved in the UK for the treatment of sickle cell disease (SCD) in patients aged ≥ 12 years with recurrent vasoocclusive crises (VOCs) who have the ßS/ßS, ßS/ß+ or ßS/ß0 genotype for whom HSC transplantation is appropriate and a human leukocyte antigen matched related HSC donor is not available. Subsequently, exagamglogene autotemcel was approved in the USA on 8 December 2023 for the treatment of SCD in patients aged ≥ 12 years with recurrent VOCs and received a positive opinion in the EU on 14 December 2023 for the treatment of TDT and SCD. A regulatory assessment of exagamglogene autotemcel is currently underway for the treatment of TDT in the USA. This article summarizes the milestones in the development of exagamglogene autotemcel leading to these first approvals.

Bosutinib: Pediatric First Approval.

Bosutinib (BOSULIF®), an orally administered BCR-ABL tyrosine kinase inhibitor (TKI) developed by Pfizer Inc., is well established in the EU and the USA as a treatment for adults with newly diagnosed (ND) chronic phase (CP) Philadelphia chromosome-positive (Ph+) chronic myelogenous leukemia (CML), and for CP, accelerated phase and blast phase Ph+ CML that is resistant or intolerant (R/I) to prior therapy. In September 2023, based on clinical data from patients aged ≥ 1 to < 18 years, bosutinib was approved in the USA for the treatment of pediatric patients aged ≥ 1 year with CP Ph+ CML that is ND or R/I to prior therapy. This article summarizes the milestones in the development of bosutinib leading to this first pediatric approval.

Health Disparities in Appalachian and Other Rural Communities.

Rural areas are home to a larger proportion of older adults and populations who age within these locales and suffer disproportionately from health, mental health, and economic disparities compared to their urban counterparts. This article will explore the disparities faced by persons that reside in rural communities across the lifespan. It will briefly discuss what is meant by rural. As a rural region at specific risk, the issues confronting those aging in Appalachia will be examined. Finally, best practices and future directions to combat health disparities among rural residents and elders will be discussed. This includes the Appalachian Gerontology Experiences: Advancing Diversity in Aging Research training program which recruits and trains minority and first-generation undergraduate students in aging and health disparity research.

Motixafortide: First Approval.

Motixafortide (APHEXDATM) is a selective C-X-C motif chemokine receptor 4 (CXCR4) inhibitor being developed by BioLineRx under licence from Biokine Therapeutics for the mobilization of haematopoietic stem cells (HSCs) and the treatment of various cancers. On 11 September 2023, motixafortide was approved in the USA for use in combination with filgrastim [granulocyte colony stimulating factor (G-CSF)] to mobilize HSCs to the peripheral blood for collection and subsequent autologous transplantation in patients with multiple myeloma. Motixafortide has been granted Orphan Drug Designation for the treatment of pancreatic cancer in the EU and the USA, and for the treatment of acute myeloid leukaemia in the USA. Clinical development is ongoing for the mobilization of CD34+ HSCs for gene therapy in patients with sickle cell disease. This article summarizes the milestones in the development of motixafortide leading to this first approval.

Development of properly-polarized trophoblast stem cell-derived organoids to model early human pregnancy.

The development of human trophoblast stem cells (hTSC) and stem cell-derived trophoblast organoids has enabled investigation of placental physiology and disease and early maternal-fetal interactions during a stage of human pregnancy that previously had been severely restricted. A key shortcoming in existing trophoblast organoid methodologies is the non-physiologic position of the syncytiotrophoblast (STB) within the inner portion of the organoid, which neither recapitulates placental villous morphology in vivo nor allows for facile modeling of STB exposure to the endometrium or the contents of the intervillous space. Here we have successfully established properly-polarized human trophoblast stem cell (hTSC)-sourced organoids with STB forming on the surface of the organoid. These organoids can also be induced to give rise to the extravillous trophoblast (EVT) lineage with HLA-G + migratory cells that invade into an extracellular matrix-based hydrogel. Compared to previous hTSC organoid methods, organoids created by this method more closely mimic the architecture of the developing human placenta and provide a novel platform to study normal and abnormal human placental development and to model exposures to pharmaceuticals, pathogens and environmental insults. Motivation: Human placental organoids have been generated to mimic physiological cell-cell interactions. However, those published models derived from human trophoblast stem cells (hTSCs) or placental villi display a non-physiologic "inside-out" morphology. In vivo , the placental villi have an outer layer of syncytialized cells that are in direct contact with maternal blood, acting as a conduit for gas and nutrient exchange, and an inner layer of progenitor, single cytotrophoblast cells that fuse to create the syncytiotrophoblast layer. Existing "inside-out" models put the cytotrophoblast cells in contact with culture media and substrate, making physiologic interactions between syncytiotrophoblast and other cells/tissues and normal and pathogenic exposures coming from maternal blood difficult to model. The goal of this study was to develop an hTSC-derived 3-D human trophoblast organoid model that positions the syncytiotrophoblast layer on the outside of the multicellular organoid.

Comparison of virtual reality to physical box and blocks on cortical an neuromuscualar activations in young adults.

The purpose of this study was to assess the changes in neural activations when performing the box and block test (BBT) in virtual reality (VR) compared to the physical BBT. Young healthy participants performed three trials of the BBT with their left and right hands in both the VR BBT, using VR hand controllers, and physical BBT conditions. Electromyography sensors were placed on the upper extremity of both arms and functional near-infrared spectroscopy was used to measure motor cortex activations throughout each condition. While a reduction in BBT score and increased wrist extensor neuromuscular activity is exhibited during the VR condition, there is no statistical difference in motor cortex activation between the two BBT conditions. This work provides a basis for exploring cortical and neuromuscular responses to VR in patient populations.

Solriamfetol: A Review in Excessive Daytime Sleepiness Associated with Narcolepsy and Obstructive Sleep Apnoea.

Solriamfetol (SUNOSI®) is an oral selective dopamine and norepinephrine reuptake inhibitor approved in the EU and the USA for improving wakefulness in adults with excessive daytime sleepiness (EDS) associated with narcolepsy or obstructive sleep apnoea (OSA). In phase III studies, 12 weeks' therapy with solriamfetol within the recommended dosage range for narcolepsy (75 mg or 150 mg once daily) or OSA (37.5 mg, 75 mg or 150 mg once daily) provided early and sustained reductions in excessive sleepiness and improvements in wakefulness relative to placebo. These effects were generally sustained through 52 weeks. The drug's effectiveness in adults with EDS associated with narcolepsy is supported by results from real-world studies. Solriamfetol demonstrated a consistent safety and tolerability profile across clinical studies, with commonly reported adverse reactions generally occurring within 2 weeks of treatment initiation and mostly resolving within 2 weeks. Thus, solriamfetol represents a useful treatment option for adults with EDS associated with narcolepsy or OSA.

Excessive daytime sleepiness (EDS) is a common condition in which an individual is unable to stay awake during periods when they typically would be awake. Dopamine and norepinephrine are among the chemical messengers involved in sleep­wake regulation. Solriamfetol (SUNOSI^®), a selective dopamine and norepinephrine reuptake inhibitor, is a once-daily oral treatment approved in the EU and the USA for improving wakefulness in adults with EDS associated with narcolepsy or obstructive sleep apnoea (OSA). In such patients, solriamfetol reduced excessive sleepiness and improved wakefulness compared with placebo over 12 weeks. Onset was rapid and generally sustained through 52 weeks. The safety and tolerability profile of solriamfetol was consistent over the short and longer term; the most common adverse reactions were headache, decreased appetite, nausea, anxiety and insomnia in adults with narcolepsy and nausea and decreased appetite in those with OSA. Thus, solriamfetol represents a useful treatment option for adults with EDS associated with narcolepsy or OSA.

Pozelimab: First Approval.

Pozelimab (pozelimab-bbfg; VEOPOZ™) is a fully human immunoglobulin (Ig) G4P (i.e. IgG4 with a proline substitution to promote stabilization of the disulfide bonds between the two heavy chains) monoclonal antibody developed by Regeneron Pharmaceuticals Inc., to block the activity of complement factor 5 (C5) and prevent diseases mediated by the complement pathway. In August 2023, pozelimab received its first approval for the treatment of adults, and paediatric patients aged ≥ 1 year with CD55-deficient protein-losing enteropathy (PLE), also known as CHAPLE disease, in the USA. It is the first US FDA-approved treatment for this disease. In the USA, pozelimab has been granted orphan drug designations for the treatment of paroxysmal nocturnal haemoglobinuria (PNH) [both as a monotherapy and in combination with cemdisiran] and for the treatment of myasthenia gravis (in combination with cemdisiran). Pozelimab is also undergoing clinical development in several other countries worldwide for the treatment of CD55-deficient PLE, PNH and myasthenia gravis. This article summarizes the milestones in the development of pozelimab leading to this first approval for the treatment of adults, and paediatric patients aged ≥ 1 year with CD55-deficient PLE, also known as CHAPLE disease, in the USA.

Rozanolixizumab: First Approval.

Rozanolixizumab (rozanolixizumab-noli; RYSTIGGO®) is a high affinity humanized immunoglobulin G4 monoclonal antibody directed against human neonatal Fc receptor (FcRn). Administered subcutaneously, it is being developed by UCB Pharma for the treatment of autoimmune diseases and received its first approval on 27 June 2023 in the USA for the treatment of generalized myasthenia gravis (gMG) in adults who are anti-acetylcholine receptor (AChR) or anti-muscle-specific kinase (MuSK) antibody positive. Rozanolixizumab is the first agent to be approved in the USA for both anti-AChR and anti-MuSK antibody-positive gMG. A regulatory assessment of rozanolixizumab for the treatment of gMG is currently underway in the EU and Japan. Clinical development is ongoing for the treatment of leucine-rich glioma-inactivated 1 autoimmune encephalitis, myelin oligodendrocyte glycoprotein (MOG) antibody disease and severe fibromyalgia syndrome. This article summarizes the milestones in the development of rozanolixizumab leading to this first approval for the treatment of gMG in adults who are anti-AChR or anti-MuSK antibody positive.

Endothelial structure contributes to heterogeneity in brain capillary diameter.

The high metabolic demand of brain tissue is supported by a constant supply of blood flow through dense microvascular networks. Capillaries are the smallest class of vessels in the brain and their lumens vary in diameter between ~2 and 5 µm. This diameter range plays a significant role in optimizing blood flow resistance, blood cell distribution, and oxygen extraction. The control of capillary diameter has largely been ascribed to pericyte contractility, but it remains unclear if the architecture of the endothelial wall also contributes to capillary diameter. Here, we use public, large-scale volume electron microscopy data from mouse cortex (MICrONS Explorer, Cortical mm3) to examine how endothelial cell number, endothelial cell thickness, and pericyte coverage relates to microvascular lumen size. We find that transitional vessels near the penetrating arteriole and ascending venule are composed of two to six interlocked endothelial cells, while the capillaries intervening these zones are composed of either one or two endothelial cells, with roughly equal proportions. The luminal area and diameter are on average slightly larger with capillary segments composed of two interlocked endothelial cells vs one endothelial cell. However, this difference is insufficient to explain the full range of capillary diameters seen in vivo. This suggests that both endothelial structure and other influences, including pericyte tone, contribute to the basal diameter and optimized perfusion of brain capillaries.

Delandistrogene Moxeparvovec: First Approval.

Delandistrogene moxeparvovec (delandistrogene moxeparvovec-rokl; ELEVIDYS®) is an adeno-associated virus (AAV) vector-based gene therapy designed to deliver a gene encoding a micro-dystrophin protein [i.e. a shortened (138 kDa) version of the dystrophin protein expressed in normal muscle cells (427 kDa)] to all muscles involved in the pathology of Duchenne muscular dystrophy (DMD). Developed by Sarepta Therapeutics, it is the first gene therapy to be approved (in June 2023 under the Accelerated Approval pathway) for the treatment of DMD in the USA, where it is indicated for ambulatory paediatric patients aged 4 through 5 years with DMD and a confirmed mutation in the dystrophin (DMD) gene. The recommended dose of delandistrogene moxeparvovec is 1.33 × 1014 vector genomes per kg of body weight or 10 mL/kg body weight, administered as a single intravenous infusion. Delandistrogene moxeparvovec is undergoing clinical development in several countries/regions, including the EU and Japan. This article summarizes the milestones in the development of delandistrogene moxeparvovec leading to this first approval in the USA for the treatment of ambulatory paediatric patients aged 4 through 5 years with DMD and a confirmed mutation in the DMD gene.

Endothelial structure contributes to heterogeneity in brain capillary diameter.

The high metabolic demand of brain tissue is supported by a constant supply of blood through dense microvascular networks. Capillaries are the smallest class of vessels and vary in diameter between ∼2 to 5 µm in the brain. This diameter range plays a significant role in the optimization of blood flow resistance, blood cell distribution, and oxygen extraction. The control of capillary diameter has largely been ascribed to pericyte contractility, but it remains unclear if endothelial wall architecture also contributes to capillary diameter heterogeneity. Here, we use public, large-scale volume electron microscopy data from mouse cortex (MICrONS Explorer, Cortical MM^3) to examine how endothelial cell number, endothelial cell thickness, and pericyte coverage relates to microvascular lumen size. We find that transitional vessels near the penetrating arteriole and ascending venule are composed of 2 to 5 interlocked endothelial cells, while the numerous capillary segments intervening these zones are composed of either 1 or 2 endothelial cells, with roughly equal proportions. The luminal area and diameter is on average slightly larger with capillary segments composed of 2 interlocked endothelial cells versus 1 endothelial cell. However, this difference is insufficient to explain the full range of capillary diameters seen in vivo. This suggests that both endothelial structure and other influences, such as pericyte tone, contribute to the basal diameter and optimized perfusion of brain capillaries.

Eftrenonacog Alfa: A Review in Haemophilia B.

Eftrenonacog alfa (Alprolix®) is an extended half-life recombinant factor IX (rFIX)-Fc fusion protein (hereafter referred to as rFIXFc). Administered as an intravenous bolus, it is approved for prophylactic use and the treatment of bleeding in patients with haemophilia B in various countries worldwide, including those of the EU, as well as the USA. In multinational, phase III trials, rFIXFc was effective for the prophylaxis, perioperative management or on-demand treatment of bleeding in male patients with severe haemophilia B regardless of age and irrespective of whether or not they had been previously treated with FIX replacement products. Prophylactic efficacy was maintained over the longer term (up to 5 years) in previously treated patients. rFIXFc effectiveness in the real-world setting is supported by results of prospective studies, as well as the outcomes of several retrospective trials. rFIXFc was well tolerated in clinical trials in previously treated and untreated children, adolescents and/or adults with severe haemophilia B. Thus, rFIXFc continues to represent a useful treatment option among the haemophilia B patient population.

Haemophilia B is a rare inherited bleeding disorder caused by a deficiency in coagulation factor IX (FIX). Its management involves rectifying the deficiency in FIX by administering an FIX replacement product, thereby increasing FIX activity and reducing bleeding. FIX replacement therapy can be administered at the time of bleeding (i.e. as on-demand treatment) or prophylactically (as scheduled injections), as well as before surgery. Eftrenonacog alfa (also known as rFIXFc; Alprolix^®) is a replacement FIX therapy comprising FIX linked to a region of human immunoglobulin G to prolong the half-life of the product. It has been approved for the prevention and treatment of bleeding in patients with haemophilia B in various countries worldwide. Designed to require less frequent injections, rFIXFc was effective and well tolerated when used to prevent or treat bleeding, including before surgery, in individuals with haemophilia B regardless of age or whether they have been treated previously with an FIX replacement product. Thus, rFIXFc continues to represent a useful treatment option for individuals with haemophilia B.

Elacestrant: First Approval.

Elacestrant (ORSERDU™) is an orally available selective estrogen receptor degrader (SERD) being developed by Stemline Therapeutics, a subsidiary of Menarini Group, for the treatment of estrogen receptor (ER)-positive, human epidermal growth factor receptor 2 (HER2)-negative breast cancer. In January 2023, elacestrant received its first approval for the treatment of postmenopausal women or adult men with ER-positive, HER2-negative, estrogen receptor 1 (ESR1)-mutated (as determined by a US FDA-approved test) advanced or metastatic breast cancer with disease progression following ≥ 1 line of endocrine therapy in the USA. A regulatory assessment of elacestrant for the treatment of ER-positive, HER2-negative advanced or metastatic breast cancer is currently underway in the EU. Development of elacestrant for the treatment of vasomotor symptoms has been discontinued. This article summarizes the milestones in the development of elacestrant leading to this first approval for this indication.