Delirium,a complex neurocognitive syndrome,frequently emerges following surgery,presenting diverse manifestations and considerable obstacles,especially among the elderly.This editorial delves into the intricate phenom...Delirium,a complex neurocognitive syndrome,frequently emerges following surgery,presenting diverse manifestations and considerable obstacles,especially among the elderly.This editorial delves into the intricate phenomenon of postoperative delirium(POD),shedding light on a study that explores POD in elderly individuals undergoing abdominal malignancy surgery.The study examines pathophysiology and predictive determinants,offering valuable insights into this challenging clinical scenario.Employing the synthetic minority oversampling technique,a predictive model is developed,incorporating critical risk factors such as comorbidity index,anesthesia grade,and surgical duration.There is an urgent need for accurate risk factor identification to mitigate POD incidence.While specific to elderly patients with abdominal malignancies,the findings contribute significantly to understanding delirium pathophysiology and prediction.Further research is warranted to establish standardized predictive for enhanced generalizability.展开更多
This editorial critically evaluates the application of foot reflexology as a treatment for sensorineural hearing loss(SNHL)in infants,as proposed in a case report published in the World of Clinical Cases.SNHL is a con...This editorial critically evaluates the application of foot reflexology as a treatment for sensorineural hearing loss(SNHL)in infants,as proposed in a case report published in the World of Clinical Cases.SNHL is a condition characterized by damage to the cochlea or the neural pathways that transmit auditory information to the brain.The etiology of SNHL is often complex,involving genetic mutations,prenatal factors,or perinatal insults.Reflexology,an alternative therapy involving the application of pressure to specific points on the feet,is based on the hypothesis that these points correspond to different organs and systems in the body,including the auditory system.However,the biological plausibility and clinical efficacy of foot reflexology in addressing SNHL lack empirical support.This editorial examines the pathophysiology of SNHL,assesses the clinical claims of reflexology practitioners,and emphasizes the necessity of evidence-based approaches in treating infant hearing loss.While complementary therapies may provide ancillary benefits,they should not supplant validated medical treatments in managing SNHL in infants.Further research is needed to evaluate the safety and efficacy of foot reflexology and other alternative therapies in pediatric audiology.展开更多
The study of respiratory plasticity in animal models spans decades.At the bench,researchers use an array of techniques aimed at harnessing the power of plasticity within the central nervous system to restore respirati...The study of respiratory plasticity in animal models spans decades.At the bench,researchers use an array of techniques aimed at harnessing the power of plasticity within the central nervous system to restore respiration following spinal cord injury.This field of research is highly clinically relevant.People living with cervical spinal cord injury at or above the level of the phrenic motoneuron pool at spinal levels C3-C5 typically have significant impairments in breathing which may require assisted ventilation.Those who are ventilator dependent are at an increased risk of ventilator-associated co-morbidities and have a drastically reduced life expectancy.Pre-clinical research examining respiratory plasticity in animal models has laid the groundwork for clinical trials.Despite how widely researched this injury is in animal models,relatively few treatments have broken through the preclinical barrier.The three goals of this present review are to define plasticity as it pertains to respiratory function post-spinal cord injury,discuss plasticity models of spinal cord injury used in research,and explore the shift from preclinical to clinical research.By investigating current targets of respiratory plasticity research,we hope to illuminate preclinical work that can influence future clinical investigations and the advancement of treatments for spinal cord injury.展开更多
Neurological disorders are increasing in prevalence world- wide, and interest in stem cell therapies for these amictions has increased over the past two decades. While many neu- rological injuries are too devastating ...Neurological disorders are increasing in prevalence world- wide, and interest in stem cell therapies for these amictions has increased over the past two decades. While many neu- rological injuries are too devastating for the repair capabil- ities of endogenous neural stem cells (NSCs) an alternative is to harvest stem cells from a donor and grow them in vitro, to be used later as a donor source for transplantation. Many research groups have already done this, first using animal models and now using clinical trial participants. Despite the regular flow of publications about cell replace- ment therapies for central nervous system (CNS) disorders, there is still a scarcity of clinically-relevant reports of effi- cacy. The capability of donor cells to undergo ample site-di- rected differentiation and functional integration seems to be lacking (Andressen, 2013). So, while stem cells do have properties that are suited for repair of the injured CNS, a primary remaining question is how these cells can best be grafted to produce long-term functional benefit to the host environment. Moreover, among the challenges in neural cell transplantation is controlling the ultimate characteris- tics of grafted cells, pertaining to their survival, phenotypes and performance.展开更多
文摘Delirium,a complex neurocognitive syndrome,frequently emerges following surgery,presenting diverse manifestations and considerable obstacles,especially among the elderly.This editorial delves into the intricate phenomenon of postoperative delirium(POD),shedding light on a study that explores POD in elderly individuals undergoing abdominal malignancy surgery.The study examines pathophysiology and predictive determinants,offering valuable insights into this challenging clinical scenario.Employing the synthetic minority oversampling technique,a predictive model is developed,incorporating critical risk factors such as comorbidity index,anesthesia grade,and surgical duration.There is an urgent need for accurate risk factor identification to mitigate POD incidence.While specific to elderly patients with abdominal malignancies,the findings contribute significantly to understanding delirium pathophysiology and prediction.Further research is warranted to establish standardized predictive for enhanced generalizability.
文摘This editorial critically evaluates the application of foot reflexology as a treatment for sensorineural hearing loss(SNHL)in infants,as proposed in a case report published in the World of Clinical Cases.SNHL is a condition characterized by damage to the cochlea or the neural pathways that transmit auditory information to the brain.The etiology of SNHL is often complex,involving genetic mutations,prenatal factors,or perinatal insults.Reflexology,an alternative therapy involving the application of pressure to specific points on the feet,is based on the hypothesis that these points correspond to different organs and systems in the body,including the auditory system.However,the biological plausibility and clinical efficacy of foot reflexology in addressing SNHL lack empirical support.This editorial examines the pathophysiology of SNHL,assesses the clinical claims of reflexology practitioners,and emphasizes the necessity of evidence-based approaches in treating infant hearing loss.While complementary therapies may provide ancillary benefits,they should not supplant validated medical treatments in managing SNHL in infants.Further research is needed to evaluate the safety and efficacy of foot reflexology and other alternative therapies in pediatric audiology.
基金supported by funds awarded from the National Institutes of Health R01 NS104291Wings for Life(to MAL)the Lisa Dean Moseley Foundation(to LVZ).
文摘The study of respiratory plasticity in animal models spans decades.At the bench,researchers use an array of techniques aimed at harnessing the power of plasticity within the central nervous system to restore respiration following spinal cord injury.This field of research is highly clinically relevant.People living with cervical spinal cord injury at or above the level of the phrenic motoneuron pool at spinal levels C3-C5 typically have significant impairments in breathing which may require assisted ventilation.Those who are ventilator dependent are at an increased risk of ventilator-associated co-morbidities and have a drastically reduced life expectancy.Pre-clinical research examining respiratory plasticity in animal models has laid the groundwork for clinical trials.Despite how widely researched this injury is in animal models,relatively few treatments have broken through the preclinical barrier.The three goals of this present review are to define plasticity as it pertains to respiratory function post-spinal cord injury,discuss plasticity models of spinal cord injury used in research,and explore the shift from preclinical to clinical research.By investigating current targets of respiratory plasticity research,we hope to illuminate preclinical work that can influence future clinical investigations and the advancement of treatments for spinal cord injury.
文摘Neurological disorders are increasing in prevalence world- wide, and interest in stem cell therapies for these amictions has increased over the past two decades. While many neu- rological injuries are too devastating for the repair capabil- ities of endogenous neural stem cells (NSCs) an alternative is to harvest stem cells from a donor and grow them in vitro, to be used later as a donor source for transplantation. Many research groups have already done this, first using animal models and now using clinical trial participants. Despite the regular flow of publications about cell replace- ment therapies for central nervous system (CNS) disorders, there is still a scarcity of clinically-relevant reports of effi- cacy. The capability of donor cells to undergo ample site-di- rected differentiation and functional integration seems to be lacking (Andressen, 2013). So, while stem cells do have properties that are suited for repair of the injured CNS, a primary remaining question is how these cells can best be grafted to produce long-term functional benefit to the host environment. Moreover, among the challenges in neural cell transplantation is controlling the ultimate characteris- tics of grafted cells, pertaining to their survival, phenotypes and performance.
