In rural and underserved areas, there are restrictions in healthcare due to the lack of availability of neurologists; patients have to travel long distances to receive the required care. Considering the fact that neurological conditions have large mortality and disability rates, there is a need for innovative services like tele-neurology. It is an important tool in improving the health and quality of life by using different ways of communication between neurologists and patients, or neurologists and other providers. We examine the current types of facilities available in tele-neurology, as well as outcomes, barriers, limitations, legal litigations, and the multidisciplinary nature based on prior studies. We have also suggested recommendations for the future of tele-neurology including effective-accessibility and inexpensive-utilization in developing countries. There are various tele-health programs created by The Veterans Health Administration including a clinical video tele-health (CVT) system. This system allows direct patient care of veterans by neurologists. The University of South Carolina implemented a web-based tele-stroke program in which acute ischemic stroke patients were treated in the Emergency Department (ED) of rural hospitals by neurologists, after consulting with rural ED physicians. With growing technology and popularity of tele-neurology, there are now international collaborative efforts in tele-medicine that are looking to be adapted to tele-neurology. Thus, tele-neurology can provide quality neurological care with patient satisfaction, as well as time and cost savings. The tele-stroke group established by TRUST-tPA trial (Therapeutic Trial Evaluating Efficacy of Telemedicine (TELESTROKE) of Patients With Acute Stroke) has 10 community hospital-emergency rooms that were connected to a stroke center. It was found that tele-stroke is appropriate in places where there is no way for a patient to access a stroke unit within a 4.5-hour time window. Like other tele-neurology subtypes, tele-epilepsy and pediatric tele-neurology also offer more follow-up care to people of remote areas which have limited access. There are other subtypes like mental health, chronic neurological care, and hospitalist which are very effective in improving outcome and quality of life of people living in remote areas. Tele-neurology has effectively reduced travel costs and times; there is high patient satisfaction and reduced disparity for general and specialized neurological care. But there are certain limitations like large equipment costs, certain bandwidth requirement, and trained staff to use the equipment. Transmission of patient information using public internet raises the concern of legality. There should be sufficient encryption to satisfy the Health Insurance Portability and Accountability Act (HIPAA) requirements to ensure patient confidentiality and safety of personal data. The adaptation of tele-neurology is a powerful and innovative way to enhance healthcare in areas with a shortage o...
This report assesses the competencies and technology needed for the provision of Telehealth Peer Support by Peer Support Specialists . The online survey assessed access to technology, core competencies required for the delivery of ThPS, and resources needed by the workforce to deliver ThPS. Responses from 313 PSS and 164 managers/supervisors of PSS from New York State were analyzed. Findings indicate nearly one-quarter of the PSS workforce continues to need access to technology and one-third need training in the delivery of ThPS. Perceptions of the important, critical, and most frequently used competencies for the delivery of ThPS were rated similarly by PSS and managers/supervisors. The broad implementation of effective ThPS requires additional resources and training for the PSS workforce. Further research to validate the ThPS competencies identified in the study will enhance training programs and resources. Policy makers and those who have advocated for the continued delivery of ThPS post-stay at home orders should ensure programs delivering ThPS provide access to technology and skills training in the competencies of ThPS. The use of ThPS post COVID-19 may address some persistent service barriers such as rural access and areas with fewer available services.
IntroductionApproximately 5-10% of strokes occur in adults of less than 45 years of age. The rising prevalence of stroke risk factors may increase stroke rates in young adults (YA). We aimed to compare risk factors and outcomes of acute ischemic stroke (AIS) among YA. MethodsAdult hospitalizations for AIS and concurrent risk factors were found in the Nationwide Inpatient Sample database. Weighted analysis using chi-square and multivariable survey logistic regression was performed to evaluate AIS-related outcomes and risk factors among YA (18-45 years) and older patients.
BackgroundThe aim of this study was to develop a 48‐h mortality risk score, which included morphology data, for patients with ruptured abdominal aortic aneurysm presenting to an emergency department, and to assess its predictive accuracy and clinical effectiveness in triaging patients to immediate aneurysm repair, transfer or palliative care.MethodsData from patients in the IMPROVE (Immediate Management of the Patient With Ruptured Aneurysm: Open Versus Endovascular Repair) randomized trial were used to develop the risk score. Variables considered included age, sex, haemodynamic markers and aortic morphology. Backwards selection was used to identify relevant predictors. Predictive performance was assessed using calibration plots and the C‐statistic. Validation of the newly developed and other previously published scores was conducted in four external populations. The net benefit of treating patients based on a risk threshold compared with treating none was quantified.ResultsData from 536 patients in the IMPROVE trial were included. The final variables retained were age, sex, haemoglobin level, serum creatinine level, systolic BP, aortic neck length and angle, and acute myocardial ischaemia. The discrimination of the score for 48‐h mortality in the IMPROVE data was reasonable (C‐statistic 0·710, 95 per cent c.i. 0·659 to 0·760), but varied in external populations (from 0·652 to 0·761). The new score outperformed other published risk scores in some, but not all, populations. An 8 (95 per cent c.i. 5 to 11) per cent improvement in the C‐statistic was estimated compared with using age alone.ConclusionThe assessed risk scores did not have sufficient accuracy to enable potentially life‐saving decisions to be made regarding intervention. Focus should therefore shift to offering repair to more patients and reducing non‐intervention rates, while respecting the wishes of the patient and family.
Background The first wave of the COVID-19 pandemic in March 2020 forced our healthcare system in the Bronx, New York to cancel nearly all scheduled surgeries. We developed a framework for prioritizing postponed urologic surgeries that was utilized once cases were permitted to be rescheduled. As many parts of our country experience first and second waves of this pandemic, our framework may serve as a resource for other centers experiencing restrictions on the scheduling of elective urologic surgeries. Methods As the COVID-19 pandemic started and peaked in New York, almost all of our scheduled urologic surgeries were cancelled. Each Urologist was asked to rank his/her cancelled surgeries by priority (Level 1—least urgent; Level 2—moderately urgent; Level 3—most urgent). A committee of Urologists assigned a subclass to Level 3 and 2 cases (3a—least urgent; 3b—moderately urgent; 3c—most urgent; 2a—lower priority; 2b—higher priority). The committee then reviewed cases by urgency to derive a final priority ranking. Results A total of 478 total urologic surgeries were canceled and categorized: 250 Level 1, 130 Level 2, 98 Level 3 (73 adult, 25 pediatric). Level 3c involved renal cell carcinoma ≥ T2b, high-grade bladder urothelial carcinoma, adrenal mass/cancer > 6 cm, testicular cancer requiring radical orchiectomy, and penile cancer. Level 3b involved T2a renal masses requiring nephrectomy, while high-risk prostate cancer and symptomatic nephrolithiasis were classified as 3a. Level 2 included testicular cancer requiring retroperitoneal lymph node dissection and complicated benign prostatic hyperplasia. Surgeries for urologic reconstruction, non-complicated nephrolithiasis, erectile dysfunction, and urinary incontinence were considered Level 1. Conclusions Our disease-specific approach to surgical rescheduling offers appropriate guidance for triaging urologic surgeries. Our system can provide guidance to other institutions as COVID-19 cases surge in different regions and with the growing second wave.
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