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AUTISMO TEA PDF

AUTISMO TEA PDF
TRASTORNO ESPECTRO AUTISMO y URGENCIAS PDF

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Nota Importante

Aunque pueda contener afirmaciones, datos o apuntes procedentes de instituciones o profesionales sanitarios, la información contenida en el blog EMS Solutions International está editada y elaborada por profesionales de la salud. Recomendamos al lector que cualquier duda relacionada con la salud sea consultada con un profesional del ámbito sanitario. by Dr. Ramon REYES, MD

Niveles de Alerta Antiterrorista en España. Nivel Actual 4 de 5.

Niveles de Alerta Antiterrorista en España. Nivel Actual 4 de 5.
Fuente Ministerio de Interior de España

Monday, February 21, 2022

ALTERACIONES DE LOS ELECTROLITOS EN URGENCIAS; FISIOPATOLOGÍA, CLÍNICA, DIAGNÓSTICO Y TRATAMIENTO



ALTERACIONES DE LOS ELECTROLITOS EN URGENCIAS
FISIOPATOLOGÍA, CLÍNICA, DIAGNÓSTICO Y TRATAMIENTO

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Thursday, February 17, 2022

SICUR, Salón Internacional de la Seguridad, en IFEMA MADRID. Reino de España del 22 al 25 de febrero.

 

SICUR
Salón Internacional de la Seguridad
IFEMA 
MADRID. Reino de España del 22 al 25 de febrero.




Ampliar información en el enlace https://www.ifema.es/sicur


Grupo para profesionales de emergencias, salud, medicina, desastres, prehospitalarai a nivel global, concentrados principalmente en América Latina y Europa Latina. TELEGRAM 

¿Qué es TraumaRD –Vision 2020?

 

¿Qué es TraumaRD –Vision 2020?  Es un proyecto de emprendurismo social que busca fortalecer elementos para un Sistema Dominicano para Atención Integral al Trauma


Ayúdanos a lograr 2,500 firmas (anónimo y sin costo).

https://www.change.org/p/declaracion-de-punta-cana-compromiso-creaci%C3%B3n-de-un-sistema-dominicano-de-trauma/psf/promote_or_share

Trauma es la causa #1 de mortalidad y morbilidad en edad productiva para República Dominicana. Lleva el MAYOR impacto socio-económico.


Declaración de Punta Cana: Compromiso Creación de un Sistema Dominicano de Trauma 

#DrRamonReyesMD 


http://TraumaRD.org Es un proyecto de emprendurismo social que busca fortalecer elementos para un Sistema Dominicano para Atención Integral al Trauma

Wednesday, February 16, 2022

Logran recuperar movimiento en parapléjicos tras la implantación de electrodos en la medula espinal by redacción medica

 


Un paciente parapléjico comenzado la rehabilitación con éxito.


Dieciséis electrodos en la médula logran que 3 parapléjicos vuelvan a andar

Las lesiones de médula espinal podrán ser tratadas gracias a los avances de la tecnología




Un grupo de investigadores ha publicado hoy un estudio en la revista 'Nature Biotechnology' que podría marcar un antes y un después por lo que respecta a las variantes genéticas. El estudio relata el hallazgo de un nuevo punto de referencia que lograría mejorar la detección de variantes genéticas relacionadas con la atrofia muscular espinal y otras patologías.


Los investigadores que han dirigido el estudio son el neurocientífico Grégoire Courtine, de la Escuela Politécnica Federal de Lausana (Suiza), y la neurocirujana Jocelyne Bloch, del hospital universitario de Lausana. En una operación que llegó a durar un total de 4 horas, los especialistas implantaron 16 electrodos en diferentes puntos de la médula espinal a tres pacientes que habían perdido por completo la capacidad de movimiento en sus extremidades inferiores.


Estos electrodos llegan a generar pulsos eléctricos de forma sincronizada con la función de imitar las señales que circulan por la médula espinal, parte del sistema nervioso que vincula el cerebro con el resto de los miembros. Al mismo tiempo, los electrodos estaban ligados a un ordenador con un sistema de inteligencia artificial que era capaz de reproducir los esfuerzos que se necesitan para realizar tres actividades en particular: caminar, montar en bicicleta o remar en piragua.


Los electrodos emiten señales que circulan por la médula espinal


Todos los participantes en el estudio lograron realizar con éxito estos tres movimientos, por lo que el descubrimiento ha sido todo un hito. “Diseñar por primera vez una tecnología específica para este nuevo uso nos permite sincronizar mejor la estimulación con el momento del movimiento imitando las señales reales que envía el cerebro al andar, por ejemplo”, afirma Grégoire Courtine.


El éxito del experimento, fruto de muchos años de trabajo


El equipo de Courtine llevaba tiempo buscando la fórmula para que personas parapléjicas recuperasen la movilidad. En el año 2014 se inició un experiento con ratones a los que se le había separado la médula y dos años más tarde se decidió vovler a realizar el experimento con monos. No fue hasta el pasado otoño de 2018 cuando se lograron grandes resultados con un joven parapléjico de 20 años, David Mzee. Gracias a la estimulación epidural y un andador, el joven logró volver a caminar, algo que parecía imposible.


El equipo dirigido por Courtine llevaba años con el propósito de lograr la movilidad a personas que se quedaron parapléjicas tras sufrir algún tipo de accidente, y esta vez no solamente se ha logrado activar los nervios que permiten mover las piernas, sino que también se ha conseguido en los músculos del abdomen y espalda baja. Tras la operación, los tres pacientes consiguieron incorporarse y mantenerse de pie, dando sus primeros pasos.


La principal novedad del este nuevo estudio es que, por primera vez, los electrodos y cables que se han llegado a usar han sido diseñados teniendo en cuenta las lesiones sufridas por cada uno de los participantes. Courtine relata que “hasta ahora todos los implantes de este tipo reutilizaban electrodos originalmente diseñados para tratar el dolor”, y gracias a los avances de la tecnología se ha podido “sincronizar mejor la estimulación con el momento del movimiento imitando las señales reales que envía el cerebro al andar, por ejemplo”.


https://www.redaccionmedica.com/secciones/neurologia/dieciseis-electrodos-en-la-medula-logran-que-3-paraplejicos-vuelvan-a-andar-9089


#Neurología 🧠 | Plazo para que la #terapia que permite andar a #parapléjicos sea "accesible" 👇

La terapia que permite andar a parapléjicos, "accesible" máximo en 7 años

El equipo multidisciplinar que ha realizado el estudio ha llegado a contar con alrededor de 100 profesionales

https://www.redaccionmedica.com/secciones/neurologia/la-terapia-que-permite-andar-a-paraplejicos-accesible-maximo-en-7-anos-5206


Tuesday, February 15, 2022

Free Online Training: Epilepsy and Seizure Response for Law Enforcement and EMS

The Epilepsy Foundation's online training courses for Epilepsy and Seizure Response are intended for Law Enforcement personnel, Emergency Medical Services (EMS) personnel, students, and other healthcare professionals who may be responsible for the health and safety of persons with seizures. The training was developed with support from the Centers for Disease Control and Prevention (CDC) under cooperative agreement number 5U58DP000606-05.

https://www.efepa.org/webinars-trainings/

Related:
http://emssolutionsint.blogspot.com/2011/01/saber-un-poco-mas-de-epilepsia.html

El 25% de los casos de epilepsia se pueden prevenir

En el Día Internacional de la Epilepsia, la SEN pide concienciar sobre esta enfermedad, que sufren más de 400.000 personas en España

https://gacetamedica.com/investigacion/25-casos-epilepsia-prevencion-neurologia-tratamientos-internacional-resistencia/

Por Gaceta Médica -

14 febrero 2022

MANUAL BASICO DE CONTINGENCIAS

MANUAL BASICO DE CONTINGENCIAS

Autor: Argentina. Ministerio de Justicia, Trabajo y Seguridad; Argentina. Provincia del Neuquén. Defensa Civil.
Área temática: PROTECCION CIVIL. PLANIFICACION EN DESASTRES. RESPUESTA. MANEJO DE COMANDO DE INCIDENTES. AMENAZA ANTROPOGÉNICA O ANTROPICA (TECNOLOGICA). FENOMENO (EVENTO) PELIGROSO. AMENAZA NATURAL ANALISIS (EVALUACION) DE AMENAZAS. LEYES SOBRE DESASTRES. MANUALES. ARGENTINA



Enlace para bajar Manual 140 paginas en formato PDF



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  GEOLOCALIZACION Desfibriladores 
Republica Dominicana 

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TELEGRAM Sociedad Iberoamericana de Emergencias https://t.me/joinchat/GRsTvEHYjNLP8yc6gPXQ9Q      

Monday, February 14, 2022

Declaración conjunta sobre operaciones de vehículos con luces y sirenas en Respuestas de los Servicios Médicos de Emergencia (SEM)/ Joint Statement on Lights & Siren Vehicle Operations on Emergency Medical Services (EMS) Responses

Declaración conjunta sobre operaciones de vehículos con luces y sirenas en Respuestas de los Servicios Médicos de Emergencia (SEM)/ Joint Statement on Lights & Siren Vehicle Operations on Emergency Medical Services (EMS) Responses

Clinton, Miss. – In an outstanding demonstration of collaboration and focus on provider, patient, and community safety, 13 national and international associations have partnered on the release of a Joint Statement on Lights and Siren Vehicle Operations on Emergency Medical Services (EMS) Responses.
 
The statement articulates the following principles to guide the use of Lights and Sirens during emergency vehicle response to medical calls and initiatives to safely decrease the use of Lights and Sirens (L&S) when appropriate:
 
  • The primary mission of the EMS system is to provide out-of-hospital health care, saving lives and improving patient outcomes, when possible, while promoting safety and health in communities. In selected time-sensitive medical conditions, the difference in response time with L&S may improve the patient’s outcome.
 
  • EMS vehicle operations using L&S pose a significant risk to both EMS practitioners and the public. Therefore, during response to emergencies or transport of patients by EMS, L&S should only be used for situations where the time saved by L&S operations is anticipated to be clinically important to a patient’s outcome. They should not be used when returning to station or posting on stand-by assignments.
 
  • Communication centers should use EMD programs developed, maintained, and approved by national standard-setting organizations with structured call triage and call categorization to identify subsets of calls based upon response resources needed and medical urgency of the call. Active physician medical oversight is critical in developing response configurations and modes for these EMD protocols. These programs should be closely monitored by a formal quality assurance (QA) program for accurate use and response outcomes, with such QA programs being in collaboration with the EMS agency physician medical director.

  • Responding emergency agencies should use response based EMD categories and other local policies to further identify and operationalize the situations where L&S response or transport are clinically justified. Response agencies should use these dispatch categories to prioritize expected L&S response modes. The EMS agency physician medical director and QA programs must be engaged in developing these agency operational policies/guidelines.

  • Emergency response agency leaderships, including physician medical oversight and QA personnel should monitor the rates of use, appropriateness, EMD protocol compliance, and medical outcomes related to L&S use during response and patient transport.

  • Emergency response assignments based upon approved protocols should be developed at the local/department/agency level. A thorough community risk assessment, including risk reduction analysis, should be conducted, and used in conjunction with local physician medical oversight to develop and establish safe response policies.

  • All emergency vehicle operators should successfully complete a robust initial emergency vehicle driver training program, and all operators should have required regular continuing education on emergency vehicle driving and appropriate L&S use.

  • Municipal government leaders should be aware of the increased risk of crashes associated with L&S response to the public, emergency responders, and patients. Service agreements with emergency medical response agencies can mitigate this risk by using tiered response time expectations based upon EMD categorization of calls. Quality care metrics, rather than time metrics, should drive these contract agreements.

  • Emergency vehicle crashes and near misses should trigger clinical and operational QA reviews. States and provinces should monitor and report on emergency medical vehicle crashes for better understanding of the use and risks of these warning devices.

  • EMS and fire agency leaders should work to understand public perceptions and expectations regarding L&S use. These leaders should work toward improving public education about the risks of L&S use to create safer expectations of the public and government officials.



Authors:
Douglas F. Kupas, Matt Zavadsky, Brooke Burton, Shawn Baird, Jeff J. Clawson, Chip Decker, Peter Dworsky, Bruce Evans, Dave Finger, Jeffrey M. Goodloe, Brian LaCroix, Gary G. Ludwig, Michael McEvoy, David K. Tan, Kyle L. Thornton, Kevin Smith, and Bryan R. Wilson.

Sponsoring Organizations and Representatives:

  • Academy of International Mobile Healthcare Integration
  • American Ambulance Association
  • American College of Emergency Physicians
  • Center for Patient Safety
  • International Academies of Emergency Dispatch
  • International Association of EMS Chiefs
  • International Association of Fire Chiefs
  • National Association of EMS Physicians
  • National Association of Emergency Medical Technicians
  • National Association of State EMS Officials
  • National EMS Management Association
  • National EMS Quality Alliance
  • National Volunteer Fire Council


Fuente NAEMT 

DOWNLOAD (Descargar) pdf   english 


Joint Statement on Lights & Siren Vehicle Operations on Emergency Medical Services (EMS) Responses

 

February 14, 2022

 

Douglas F. Kupas, Matt Zavadsky, Brooke Burton, Shawn Baird, Jeff J. Clawson, Chip Decker, Peter Dworsky, Bruce Evans, Dave Finger, Jeffrey M. Goodloe, Brian LaCroix, Gary G. Ludwig, Michael McEvoy, David K. Tan, Kyle L. Thornton, Kevin Smith, Bryan R. Wilson

 

The National Association of EMS Physicians and the then National Association of State EMS Directors created a position statement on emergency medical vehicle use of lights and siren in 1994 (1). This document updates and replaces this previous statement and is now a joint position statement with the Academy of International Mobile Healthcare Integration, American Ambulance Association, American College of Emergency Physicians, Center for Patient Safety, International Academies of Emergency Dispatch, International Association of EMS Chiefs, International Association of Fire Chiefs, National Association of EMS Physicians, National Association of Emergency Medical Technicians, National Association of State EMS Officials, National EMS Management Association, National EMS Quality Alliance, National Volunteer Fire Council and Paramedic Chiefs of Canada.

 

In 2009, there were 1,579 ambulance crash injuries (2), and most EMS vehicle crashes occur when driving with lights and siren (L&S) (3). When compared with other similar-sized vehicles, ambulance crashes are more often at intersections, more often at traffic signals, and more often with multiple injuries, including 84% involving three or more people (4).

 

From 1996 to 2012, there were 137 civilian fatalities and 228 civilian injuries resulting from fire service vehicle incidents and 64 civilian fatalities and 217 civilian injuries resulting from ambulance incidents. According to the

U.S. Fire Administration (USFA), 179 firefighters died as the result of vehicle crashes from 2004 to 2013 (5). The National EMS Memorial Service reports that approximately 97 EMS practitioners were killed in ambulance collisions from 1993 to 2010 in the United States (6).

 

Traffic-related fatality rates for law enforcement officers, firefighters, and EMS practitioners are estimated to be 2.5 to 4.8 times higher than the national average among all occupations (7). In a recent survey of 675 EMS practitioners, 7.7% reported being involved in an EMS vehicle crash, with 100% of those occurring in clear weather and while using L&S. 80% reported a broadside strike as the type of MVC (8). Additionally, one survey found estimates of approximately four “wake effect” collisions (defined as collisions caused by, but not involving the L&S operating emergency vehicle) for every crash involving an emergency vehicle (9).

 

For EMS, the purpose of using L&S is to improve patient outcomes by decreasing the time to care at the scene or to arrival at a hospital for additional care, but only a small percentage of medical emergencies have better outcomes from L&S use. Over a dozen studies show that the average time saved with L&S response or transport ranges from 42 seconds to 3.8 minutes. Alternatively, L&S response increases the chance of an EMS vehicle crash by 50% and almost triples the chance of crash during patient transport (11). Emergency vehicle crashes cause delays to care and injuries to patients, EMS practitioners, and the public. These crashes also increase emergency vehicle resource use through the need for additional vehicle responses, have long-lasting effects on the reputation of an emergency organization, and increases stress and anxiety among emergency services personnel.


Despite these alarming statistics, L&S continue to be used in 74% of EMS responses, and 21.6% of EMS transports, with a wide variation in L&S use among agencies and among census districts in the United States (10).

 

Although L&S response is currently common to medical calls, few (6.9%) of these result in a potentially lifesaving intervention by emergency practitioners (12). Some agencies have used an evidence-based or quality improvement approach to reduce their use of L&S during responses to medical calls to 20-33%, without any discernable harmful effect on patient outcome. Additionally, many EMS agencies transport very few patients to the hospital with L&S.

 

Emergency medical dispatch (EMD) protocols have been proven to safely and effectively categorize requests for medical response by types of call and level of medical acuity and urgency. Emergency response agencies have successfully used these EMD categorizations to prioritize the calls that justify a L&S response. Physician medical oversight, formal quality improvement programs, and collaboration with responding emergency services agencies to understand outcomes is essential to effective, safe, consistent, and high-quality EMD.

 

The sponsoring organizations of this statement believe that the following principles should guide L&S use during emergency vehicle response to medical calls and initiatives to safely decrease the use of L&S when appropriate:

·       The primary mission of the EMS system is to provide out-of-hospital health care, saving lives and improving patient outcomes, when possible, while promoting safety and health in communities. In selected time-sensitive medical conditions, the difference in response time with L&S may improve the patient’s outcome.

·       EMS vehicle operations using L&S pose a significant risk to both EMS practitioners and the public. Therefore, during response to emergencies or transport of patients by EMS, L&S should only be used for situations where the time saved by L&S operations is anticipated to be clinically important to a patient’s outcome. They should not be used when returning to station or posting on stand-by assignments.

·       Communication centers should use EMD programs developed, maintained, and approved by national standard-setting organizations with structured call triage and call categorization to identify subsets of calls based upon response resources needed and medical urgency of the call. Active physician medical oversight is critical in developing response configurations and modes for these EMD protocols. These programs should be closely monitored by a formal quality assurance (QA) program for accurate use and response outcomes, with such QA programs being in collaboration with the EMS agency physician medical director.

·       Responding emergency agencies should use response based EMD categories and other local policies to further identify and operationalize the situations where L&S response or transport are clinically justified. Response agencies should use these dispatch categories to prioritize expected L&S response modes. The EMS agency physician medical director and QA programs must be engaged in developing these agency operational policies/guidelines.

·       Emergency response agency leaderships, including physician medical oversight and QA personnel should monitor the rates of use, appropriateness, EMD protocol compliance, and medical outcomes related to L&S use during response and patient transport.


·       Emergency response assignments based upon approved protocols should be developed at the local/department/agency level. A thorough community risk assessment, including risk reduction analysis, should be conducted, and used in conjunction with local physician medical oversight to develop and establish safe response policies.

·       All emergency vehicle operators should successfully complete a robust initial emergency vehicle driver training program, and all operators should have required regular continuing education on emergency vehicle driving and appropriate L&S use.

·       Municipal government leaders should be aware of the increased risk of crashes associated with L&S response to the public, emergency responders, and patients. Service agreements with emergency medical response agencies can mitigate this risk by using tiered response time expectations based upon EMD categorization of calls. Quality care metrics, rather than time metrics, should drive these contract agreements.

·       Emergency vehicle crashes and near misses should trigger clinical and operational QA reviews. States and provinces should monitor and report on emergency medical vehicle crashes for better understanding of the use and risks of these warning devices.

·       EMS and fire agency leaders should work to understand public perceptions and expectations regarding L&S use. These leaders should work toward improving public education about the risks of L&S use to create safer expectations of the public and government officials.

 

In most settings, L&S response or transport saves less than a few minutes during an emergency medical response, and there are few time-sensitive medical emergencies where an immediate intervention or treatment in those minutes is lifesaving. These time-sensitive emergencies can usually be identified through utilization of high-quality dispatcher call prioritization using approved EMD protocols. For many medical calls, a prompt response by EMS practitioners without L&S provides high-quality patient care without the risk of L&S-related crashes. EMS care is part of the much broader spectrum of acute health care, and efficiencies in the emergency department, operative, and hospital phases of care can compensate for any minutes lost with non-L&S response or transport.

 

Sponsoring Organizations and Representatives:

Academy of International Mobile Healthcare Integration American Ambulance Association

American College of Emergency Physicians Center for Patient Safety

International Academies of Emergency Dispatch                          

International Association of EMS Chiefs

International Association of Fire Chiefs National Association of EMS Physicians

National Association of Emergency Medical Technicians National Association of State EMS Officials

¡National EMS Management Association National EMS Quality Alliance

National Volunteer Fire Council

 

 

 

 


References:

1.  Use of warning lights and siren in emergency medical vehicle response and patient transport. Prehosp and Disaster Med. 1994;9(2):133-136.

2.  Grant CC, Merrifield B. Analysis of ambulance crash data. The Fire Protection Research Foundation. 2011. Quincy, MA.

3.  Kahn CA, Pirallo RG, Kuhn EM. Characteristics of fatal ambulance crashes in the United States: an 11-year retrospective analysis. Prehosp Emerg Care. 2001;5(3):261-269.

4.  Ray AF, Kupas DF. Comparison of crashes involving ambulances with those of similar-sized vehicles. Prehosp Emerg Care. 2005;9(4):412-415.

5.  U.S. Fire Administration. Firefighter fatalities in the United States in 2013. 2014. Emmitsburg, MD.

6.  Maguire BJ. Transportation-related injuries and fatalities among emergency medical technicians and paramedics.

Prehosp Disaster Med. 2011;26(5): 346-352.

7.  Maguire BJ, Hunting KL, Smith GS, Levick NR. Occupational fatalities in emergency medical services: A hidden crisis.

Ann Emerg Med, 2002;40: 625-632.

8.  Drucker C, Gerberich SG, Manser MP, Alexander BH, Church TR, Ryan AD, Becic E. Factors associated with civilian drivers involved in crashes with emergency vehicles. Accident Analysis & Prevention. 2013; 55:116-23.

9.  Clawson JJ, Martin RL, Cady GA, Maio RF. The wake effect: emergency vehicle-related collisions. Prehosp Disaster Med. 1997; 12 (4):274-277.

10.  Kupas DF. Lights and siren use by emergency medical services: Above all, do no harm. National Highway Traffic Safety Administration. 2017. Available online at https://www.ems.gov/pdf/Lights_and_Sirens_Use_by_EMS_May_2017.pdf

11.  Watanabe BL, Patterson GS, Kempema JM, Magailanes O, Brown LH. Is use of warning lights and sirens associated with increased risk of ambulance crashes? A contemporary analysis using national EMS information system (NEMSIS) data. Ann Emerg Med. 2019;74(1):101-109.

12.  Jarvis JL, Hamilton V, Taigman M, Brown LH. Using red lights and sirens for emergency ambulance response: How often are potentially life-saving interventions performed? Prehosp Emerg Care. 2021; 25(4): 549-555.