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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

viernes, 6 de enero de 2017

Blood in the Prehospital side. Transfusion

 
Blood in the Prehospital side. Transfusion

Blood in the Air

Increasingly, civilian air ambulance providers are carrying blood products onboard their aircraft—potentially life-saving for patients, but a challenging process for operators and staff

 

This article is reproduced with permission of Waypoint AirMed & Rescue,www.waypointmagazine.com. Waypoint AirMed & Rescue Magazine is the undisputed No.1 publication for the international air ambulance and air rescue community. Covering fixed-wing and rotary aircraft, and from private and state air ambulance operators to coast guards, armed forces, police aviation and aerial fire fighting services worldwide, Waypoint offers an unmatched, regular and expert resource to these industries.
Air ambulance medics arriving at the scene of an emergency will in many cases find a patient who has lost a dangerous amount of blood, making every second count between arrival, diagnosis and treatment. Until relatively recently, it was typical for medics to either use a saline solution to replace the volume lost–although this does not replace the oxygen-carrying ability of the shed blood–or wait for blood supplies to be transported from local hospitals by police or ground ambulances, a time-consuming methodology, potentially complicated by a lack of blood supplies at hospitals, or any number of possible hindrances, from heavy traffic to impassable terrain. However, this is starting to change.
In 2011, Australia’s Ambulance Victoria announced it had become the first paramedic-operated helicopter emergency medical service (HEMS) provider in the world to begin transporting and transfusing blood on its own rotary and fixed-wing aircraft.
The organisation’s chief executive officer Greg Sassella said at the time: “People who suffer serious external or internal bleeding as a result of car and other accidents can deteriorate quickly. Paramedics routinely provide fluid through a drip to help stabilise injured patients, but the most effective way of treating significant blood loss is with a blood transfusion. Seriously injured patients will now have the benefits of receiving blood in the field and whilst en route to hospital. Blood carries oxygen that is vital to major organs including the brain and as a result it gives a patient their best chance of survival.”
The process of transporting blood, particularly by air, with the attendant issues surrounding air pressure, temperature, etc., is both complex and costly, and aeromedical providers have only very recently started carrying blood onboard their aircraft–Shannon AirMed 1, a West Texas, US-based air ambulance, is a relative anomaly in that it adopted an early version of the process back in 2002.
While Ambulance Victoria began transporting blood in 2011, London’s Air Ambulance (LAA), the HEMS charity that covers the UK capital, became the first UK helicopter service to adopt the process in March 2012, and Air Med 1, another Texas-based air ambulance which covers Houston, started carrying blood on all its flights as of April this year. German fixed-wing air ambulance provider Med Call also implemented blood transportation facilities relatively recently.
These organisations’ medical aircraft—with more providers gradually adopting the process—now carry around four units of O-negative red blood cell concentrate, as O-negative is a universal donor group that can be given reasonably safely to any patient, regardless of their own blood type. Benefits
Clinically speaking, the benefits for patients are manifold. Red blood cells carry oxygen, thus when blood is lost, the patient’s ability to transport the necessary amount of oxygen to all areas of the body is dangerously diminished, and although saline-based options are effective enough to save lives, it doesn’t take a clinician to see that a transfusion of red blood cells is the better option.
“We have already seen patients surviving to delivery at hospital, where they receive the definitive care for their injuries, who may not have survived this part of their journey without the transfusion of the red cells,” says Gary Wareham, clinical manager for the UK’s Kent, Surrey and Sussex Air Ambulance, which began carrying blood in February of this year.

LAA’s lead clinician Dr Anne Weaver cites patients suffering from non-compressible haemorrhage as an example: “[Non-compressible haemorrhage] can only be controlled by invasive techniques such as surgery or interventional radiology. Many of these patients are compromised before they reach hospital. Even in an urban setting such as London, patients may not reach hospital in time to receive a blood transfusion. This is particularly well demonstrated for trapped patients e.g. in road traffic collisions, or unconscious patients who are found a while after the initial injury.”
In rural settings, Weaver adds, long journey times from the scene of the incident to hospital will also often mean potentially life-threatening delays between accident and full surgical control. “If a patient has lost a significant amount of blood and has gone into cardiac arrest,” Weaver goes on to say, “it is unlikely that the administration of crystalloid fluid will result in a return of spontaneous circulation. However, if you are able to give blood to these patients, it may be successful. If you have lost a large amount of blood, it needs to be replaced with blood in order to perfuse organs with oxygen. Crystalloid fluid does not carry oxygen and as such will not result in perfusion of the brain and other vital organs. Traumatic cardiac arrest due to hypovolaemia has a dismal outcome in the absence of blood transfusion and damage control techniques.”
Weaver believes that carrying blood will dramatically increase the survival rate for such patients; indeed, LAA has already been able to resuscitate patients at the scene of an accident through this technique—patients that would likely otherwise have died before reaching hospital.
Process
In-air blood transportation is logistically challenging, as air ambulances must store and carry blood at no lower than 2°C (36°F) and no higher than 8°C (46°F), in line with industry standards, but also be able to warm it to near body temperature so it can be safely given to patients, when many of the protective safeguards of a hospital operating environment are not present. If these strict temperature levels are not maintained, blood can be damaged, lose its effectiveness or even become dangerous for a patient.
“As blood supplies are limited, they are extremely valuable and strict guidelines are in place to ensure proper handling and record-keeping to guarantee that none is wasted,” explains Ambulance Victoria team manager Murray Barkmeyer. “The blood is stored in specially designed, temperature-controlled and alarmed fridges at our air ambulance bases. They are carried in temperature-controlled blood shippers that are loaded into the aircraft at the start of the shift.”
Blood products have a shelf life of 42 days, but Ambulance Victoria rotates its stocks on a 14-day timetable. “Any blood not used in that time is taken back under temperature-controlled transport to the hospital…where it can be used, to ensure there is no wastage,” adds Barkmeyer.
German fixed-wing air ambulance provider Med Call, as detailed in a presentation by their medical director Marcus Tursch at the International Travel Insurance Conference in Lisbon in 2011, uses powered cool boxes (developed in partnership with the German Blood Donor and Transfusion Service) in order to keep blood at suitable temperatures through long-duration missions. These have been shown to perform well when plugged in—for example by hooking them up to a plane’s inverter—though less favourably when un-powered, or ‘passive’. Loss of power for around 30 minutes is viewed as acceptable, however, as the boxes’ active compressor and passive insulation can keep temperatures below 10°C (50°F), but, as Tursch told Waypoint: “Performance is behind our expectations under tropical conditions. We know this from our thermologger protocols [which monitor temperatures during transport to show that blood is maintained at regulation levels before transfusion]. For bridging times without an available power source, [such as at] security checks and border police or hotel check-in, we carry a transportable, external power source with us.”
LAA uses Cool Logistics’ Credo Thermal Isolation Chambers (TICs), which surround the payload using a phase change material (PCM) to control the temperature. The PCM changes from a liquid to a solid state at a temperature different from that at which water changes, and by adding various chemicals to the substance, the phase change temperature can be altered, making it an ideal material to use for such a temperature-sensitive process. As the temperature of the blood cannot fall lower than 2°C (36°F), using ice is out of the question.
“Phase change materials are specifically formulated for the unique needs of diverse medical materials from super frozen tissue to room-temperature and fridge-temperature vaccines and pharmaceuticals,” a spokesperson for LAA told Waypoint when the organisation first adopted the process. “The boxes are also returnable and resuable, making [them] an environmentally-friendly option.”
Weaver goes into more detail about the requirements: “[We] investigated different storage options. The container needed to be robust, lightweight and weatherproof. Ideally, the storage box would not require batteries or a power source. This avoided the requirement and expense of airworthiness testing. Affordability was an important consideration as many air ambulances are charitably funded.”
The Golden Hour boxes that the charity now uses ‘can hold four units of packed red blood cells (PRBC) at steady-state temperature (2°C to 6°C – 36°F to 43°F) for 48 to 72 hours’. They contain a data logger, through which temperature data can be downloaded in order to show compliance with regulations.
“Blood which has not been used can be returned to the transfusion stock for use in other areas,” adds Weaver. “The box had already survived rigorous testing by the armed forces in Afghanistan.”
Regulations
So, why has in-air blood transportation been such a recent development for most organisations? One of the primary issues—in the UK, at least—has been regulatory, says Gary Wareham.
“From my experience,” Wareham elaborates, “the reasons for this [delay in implementing the procedure] have been the difficulties of working within the UK legislation with regard to the Cold Chain Management [the 2°C to 6°C temperature stipulation] and the traceability requirements [whereby each unit of blood product needs to be fully traceable from donor to recipient]. These requirements are easy to control and monitor in hospitals. A large part of our project was to identify transfusions departments who were prepared to explore the possibilities of these requirements being achieved in the pre-hospital world.” He adds: “The challenge to our crews is the maintenance of the traceability of the units ... often at a busy and stressful scene. This generates the inevitable paperwork at both the scene and on the base. We aim to achieve 100-per-cent traceability as required by UK legislation.”
The UK’s Medicines and Healthcare Products Regulatory Agency (MHRA), which regulates medicines and medical devices, mandates that full traceability is ensured ‘from donation to the point of delivery for not less than 30 years’, and final responsibility for traceability rests with the destination hospital (even if, for example, a transfusion is carried out en route from a different hospital), two of many stipulations that add to the challenging—and costly—nature of the process. “The rules and regulations make the practice of blood transfusion necessarily onerous,” says Weaver, “which on the face of it can appear to be impossible to negotiate for non-hospital based organisations, e.g. air ambulances. Blood transfusion is governed by strict legislation and extensive guidance. Hospital transfusion departments are quite rightly protective of the use of blood products. Legislation exists to ensure that patients are protected from transfusion errors and that products are not wasted or used inappropriately.”
Likely to Continue?
So, is uptake of the process among air ambulance organisations likely to increase? The professionals Waypoint spoke to seem to think so.
“In the two years since we began carrying blood onboard the first helicopter, it has been used more than 70 times,” says Ambulance Victoria’s Murray Barkmeyer, “with the majority of cases involving multi-trauma car accidents, while one patient who was hurt in an explosion was also given an in-flight transfusion. It has also been used in inter-hospital transfers involving life threatening haemorrhage, including an Irish backpacker who had an ectopic pregnancy while in a remote town in Victoria’s far east.”
On the financial side of things, costs vary depending on the organisation, be it a HEMS charity that is tied to a particular hospital, or a private air ambulance .

“We have an agreement in place with the National Blood Service (NBS) at the John Radcliffe Hospital, part of the Oxford University Hospitals Trust for the provision for O-neg blood,” AirMed UK’s Jane Topliss told Waypoint. “There is a cost attached to the provision of these blood products, which we have to pass on to the client. If there is a potential requirement identified, we will always carry a minimum of four units of blood with the cost associated being approximately £600 in total (£150 per unit).”
There are even variations between different UK HEMS charities, as Clive Dickin, national director of the Association of Air Ambulances, comments. “The equipment onboard the aircraft tends to be relatively cheap,” he explains. “The costs are more logistical than anything. London’s Air Ambulance, for example, is based on top of a major trauma centre, so has instant access to blood, making delivery and storage pretty straightforward. For others, the blood must be transported to the air ambulance, which can be costly, and as most air ambulances aren’t based at major trauma centres, hospitals need to be reassured that stocks won’t be wasted in transfer. However, there is definitely a desire to start taking [the process] up all around the UK.”
Both Dr Anne Weaver and Gary Wareham say that their respective organisations have encountered no major drawbacks or unforeseen issues. “LAA has delivered over 100 pre-hospital transfusions during the first 12 months of this innovation,” says Weaver. “The teams have a traceability record of 100 per cent, which is superior to that of many hospital departments. Wasted blood products must be avoided at all costs and unnecessary waste would be a drawback as O-negative blood is a precious resource. Only one unit of blood has been wasted due to a communication error with the transfusion laboratory.”
Marcus Tursch is also confident that Med Call will continue to utilise the process: “We will continue working with the powered cool box, as we did not find a passive system to guarantee the cooling chain on an overnight mission. However, I think the most important thing is to use a thermologger [and] a recording thermometer inside the cool box to prove that the cooling chain is not interrupted.”
In the UK, helicopter charity the Thames Valley and Chiltern Air Ambulance Service has also started carrying blood, as has fixed-wing provider CEGA Air Ambulance.
“Other air ambulances have shown interest in the results of this work,” adds Weaver, “and may well decide to offer this additional service.”
So long as organisations can adhere to the strict regulatory requirements—and overcome any potential financial barriers—the future seems bright for in-air blood transport and, by extension, for patients.
“I’m sure that we are one of the first [organisations] of many,” concludes Wareham. “The benefits of prehospital blood transfusions far outweigh any procedural ‘hassles’, and if we are honest it is something that we have wanted for some time. The next step will be to look at other blood products that may be beneficial to the patient, such as those that will assist in the clotting process. Onwards and upwards!”

Transfusions During Hospital Transport May Help Trauma Patients Survive Study compared short-term survival in severely injured patients
SATURDAY, Nov. 16, 2013 (HealthDay News) -- Giving blood transfusions to severely injured patients while they're on the way to the hospital could save their lives, at least in the short term, new research suggests.

The study included 97 trauma patients who received transfusions of either plasma or red blood cells in a ground or air ambulance before they arrived at the hospital. These patients were compared with 480 trauma patients who didn't receive transfusions on the way to the hospital.
Patients who received the transfusions were 8 percent less likely to die within six hours after arriving at the hospital, compared to those in the comparison group. Those in the transfusion group were also 13 percent more likely to survive to hospital discharge, although the researchers said this was not statistically significant.
The study was scheduled to be presented Saturday at the annual meeting of the American Heart Association in Dallas.
"Earlier, effective intervention seems to have the best effect on outcomes, such as pre-hospital transfusions on trauma patients that can save lives," study lead researcher Dr. John Holcomb said in a heart association news release.
Trauma is the leading cause of death in people aged 44 and younger in the United States, and the leading cause of years of life lost, according to the researchers.
Because the study was presented at a medical meeting, the data and conclusions should be viewed as preliminary until published in a peer-reviewed journal.
More information
The American College of Emergency Physicians offers injury prevention tips.
Copyright © 2012 HealthDay. All rights reserved.

U.S. and German medics doing fresh whole blood (auto)transfusion during a unit internal Prolonged Field Care exercise.
How does your unit practice fresh whole blood transfusions?

_____________________________________________
Auto-transfusion is taking blood out of the role-player patient before the exercise and putting it back in the same patient during the scenario as if it was drawn from someone else. It is far more confidence building than using food coloring fake blood transfusions on mannequins (but thats good for teaching first and for non-medics.) I recommend units have their medics do it instead of just talking through, watching a video, etc.
This is incredibly low risk with high reward. You can even recommend to take only one bag from one patient at a time, or keep the training lanes in completely divided areas, so they don't get mixed up and strictly enforce labeling them, further lowering the risk.
I have had my non-medics practice this on my own veins. 68W's will in the near future graduate knowing FWB transfusions...and it's the first option for fluid resuscitation. Being behind in medicine is a choice in the age of information. If you don't trust medics to do transfusions but they can do crics then you need to re-evaluate the teaching of your medics and who you are letting deploy.
If you need any resources or have any questions let us know.

jueves, 5 de enero de 2017

TOP 10 REASONS WHY VOLUNTEERS LEAVE

TOP 10 REASONS WHY VOLUNTEERS LEAVE

Reason #10 - The reality of their experience is not what they expected when they signed on.
Reason #9 - They don’t like the work they are being asked to do nor how it is being done.
Reason #8 - Veteran or leadership volunteers won’t let them into the “insider” group.
Reason #7 - They spend more time meeting than doing.
Reason #6 - No one listens to their suggestions.
Reason #5 - They feel unrecognized, and see that thanks are unfairly given to everyone, no matter who did the most work or none at all.
Reason #4 - They are no longer asked to participate.
Reason #3 - They do not actually understand how to get more involved.
Reason #2 - They can no longer see how their involvement makes a difference.
And the #1 Reason volunteers leave is...........

It stopped being fun. Remember that a volunteer is there by choice and if they aren't enjoying the experience they are likely to put on their walking shoes.

~source: Critical Response Network  http://www.leadershipemergencyservices.com/blog/top-10-reasons-why-volunteers-leave

miércoles, 4 de enero de 2017

Bezoar

Bezoar 


Es una bola de material extraño que se ingiere, a menudo compuesto de pelo o fibra. Se acumula en el estómago y no logra pasar a través de los intestinos.


Causas 

Masticar o comer cabello o materiales vellosos (o materiales difícilmente digeribles como bolsas plásticas) puede llevar a la formación de un bezoar. La tasa es muy baja. El riesgo es mayor entre las personas con discapacidad intelectual o niños con trastornos emocionales. Los bezoares se observan generalmente en mujeres entre los 10 y 19 años de edad.

Los síntomas pueden incluir:

Indigestión
Malestar estomacal o gastralgia
Náuseas
Vómitos
Diarrea
Dolor
Úlceras gástricas
Pruebas y exámenes
El proveedor de atención médica puede sentir una protuberancia en el abdomen del niño durante una palpación. Una esofagografía mostrará una masa en el estómago. Algunas veces, se puede utilizar un endoscopio para visualizar el bezoar directamente (endoscopia).

Tratamiento
Es posible sea necesaria la extirpación quirúrgica del bezoar, especialmente si es grande. En algunas ocasiones, los bezoares pequeños se pueden extraer a través del endoscopio que se introduce en la boca hasta el estómago. Esto es similar a un procedimiento de EGD.

Expectativas (pronóstico)
Se espera una recuperación completa.

Posibles complicaciones
El vómito persistente puede ocasionar deshidratación.

Cuándo contactar a un profesional médico
Llame a su proveedor si sospecha que su hijo tiene un bezoar.

Prevención
Si un niño ha tenido un bezoar de cabellos en el pasado, se recomienda cortarle el cabello de forma que no pueda llevar sus puntas a la boca. Asimismo, mantener los materiales indigestos lejos de un niño que tenga la tendencia a llevarse objetos a la boca.

También hay que estar seguros de que el niño no tenga acceso a materiales vellosos o llenos de fibra.

Nombres alternativos
Tricobezoar; Concreción de pelo

Referencias
Kliegman RM, Stanton BF, St Geme JW III, Schor NF. Foreign bodies and bezoars. In: Kliegman RM, Stanton BF, St Geme JW III, Schor NF, eds. Nelson Textbook of Pediatrics. 20th ed. Philadelphia, PA: Elsevier; 2016:chap 334.

Ultima revisión 7/10/2015
Versión en inglés revisada por: Neil K. Kaneshiro, MD, MHA, Clinical Assistant Professor of Pediatrics, University of Washington School of Medicine, Seattle, WA. Also reviewed by David Zieve, MD, MHA, Isla Ogilvie, PhD, and the A.D.A.M. Editorial team.

Traducción y localización realizada por: DrTango, Inc.

https://medlineplus.gov/spanish/ency/article/001582.htm

domingo, 1 de enero de 2017

Cetoacidosis "La Diabetes y sus complicaciones"

"La Diabetes y sus complicaciones"
Cetoacidosis

La Diabetes y sus complicaciones

La cetoacidosis es una afección grave que puede producir un coma diabético (perder el conocimiento por mucho tiempo) o incluso la muerte.

Cuando las células no están recibiendo la glucosa que necesitan como fuente de energía, el cuerpo comienza a quemar grasa para tener energía, lo que produce cetonas.Las cetonas son químicos que el cuerpo crea cuando quema grasa para usarla como energía. El cuerpo hace esto cuando no tiene suficiente insulina para usar glucosa, la fuente normal de energía de su cuerpo. Cuando las cetonas se acumulan en la sangre, esto hace que su sangre sea más ácida. Son una señal de advertencia de que la diabetes está fuera de control o que usted se está enfermando.
Un alto nivel de cetonas puede envenenar el cuerpo. Cuando el nivel es demasiado alto, le puede dar cetoacidosis diabética.
La cetoacidosis se puede presentar en cualquier persona con diabetes, aunque es poco común en personas con diabetes tipo 2. Algunas personas mayores con diabetes tipo 2 pueden tener una afección grave diferente, llamada coma hiperosmolar no cetósico, en el que el cuerpo trata de deshacerse del exceso de glucosa por la orina.
El tratamiento de la cetoacidosis generalmente requiere hospitalización. Pero usted puede ayudar a prevenir la cetoacidosis si aprende a identificar las señales de advertencia y se hace pruebas frecuentes de orina y sangre.


DIABETES una enfermedad dulce pero amarga. INFOGRAFIA



¿Cuáles son las señales de advertencia de la cetoacidosis?

La cetoacidosis generalmente se presenta lentamente. Si llega a vomitar, esta afección mortal puede surgir en pocas horas. Los síntomas iniciales incluyen:
  • Sed o boca muy seca
  • Constante necesidad de orinar
  • Alto nivel de glucosa (azúcar)
  • Alto nivel de cetonas en la orina
Luego se presentan otros síntomas:
  • Cansancio constante.
  • Piel seca o enrojecida
  • Náuseas, vómitos o dolor abdominal (Pueden causar vómitos muchas enfermedades, no solo la cetoacidosis. Si los vómitos continúan durante más de 2 horas, comuníquese con su proveedor de atención médica.)
  • Dificultad para respirar
  • Aliento con olor a fruta
  • Dificultad para prestar atención o confusión
La cetoacidosis es grave y peligrosa. Si tiene alguno de estos síntomas, comuníquese inmediatamente con su proveedor de atención médica o vaya a la sala de emergencia de su hospital local.

¿Cómo me mido las cetonas?
Puede medirse las cetonas con un simple análisis de orina usando una tira reactiva, similar a la tira para pruebas de sangre. Pregúntele a su proveedor de atención médica cuándo y cómo debe hacerse la prueba de cetonas. Muchos expertos aconsejan hacerse la prueba de cetonas en la orina cuando el nivel de glucosa en la sangre es de más de 240 mg/dl.
Cuando está enfermo (cuando tiene un resfrío o gripe, por ejemplo), hágase la prueba de cetonas cada 4 a 6 horas. Y cuando tiene un nivel de glucosa de más de 240 mg/dl, hágasela cada 4 a 6 horas.
Además, hágase la prueba de cetonas cuando tenga síntomas de cetoacidosis.

¿Qué pasa si noto que tengo un nivel de cetonas más alto de lo normal?

Si su proveedor de servicios médicos no ha dicho qué nivel de cetonas es peligroso, llámelo cuando note cantidades moderadas después de más de una prueba. A menudo, le podrá decir por teléfono qué hacer.
Llame a su proveedor de atención médica de inmediato bajo las siguientes condiciones:
  • las pruebas de orina detectan un alto nivel de cetonas
  • las pruebas de orina detectan un alto nivel de cetonas y su nivel de glucosa en la sangre es alto.
  • las pruebas de orina detectan un alto nivel de cetonas y ha vomitado más de dos veces en cuatro horas.
NO haga ejercicio cuando su análisis de orina muestra un alto nivel de cetonas y tiene la glucosa alta. Un alto nivel de cetonas y de glucosa puede significar que no tiene la diabetes bajo control. Consulte con su proveedor de atención médica sobre cómo manejar esta situación.

¿Qué causa cetoacidosis?

Estas son tres razones básicas para tener una cantidad moderada o alta de cetonas:
  • Insuficiente insulina
    Quizá no se inyectó suficiente insulina. O es posible que necesite más insulina de lo habitual debido a una enfermedad.
  • Insuficiente comida
    Cuando está enfermo, a menudo no le apetece comer, lo que a veces resulta en un alto nivel de cetonas. También puede tener un nivel alto de glucosa cuando se salta una comida.
  • Reacción a la insulina (bajo nivel de glucosa)
    Si la prueba indica un alto nivel de cetonas en la mañana, es posible que haya tenido una reacción a la insulina mientras dormía.
  • La última revisión: October 24, 2013
  • última edición: March 18, 2015 
- See more at: http://www.diabetes.org/es/vivir-con-diabetes/complicaciones/cetoacidosis.html?referrer=https://www.facebook.com/#sthash.VecaAzGb.dpuf



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¿Por qué el Desfibrilador TELEFUNKEN?

El DESFIBRILADOR de Telefunken es un DESFIBRILADOR AUTOMÁTICO sumamente avanzado y muy fácil de manejar.

Fruto de más de 10 años de desarrollo, y avalado por TELEFUNKEN, fabricante con más de 80 años de historia en la fabricación de dispositivos electrónicos.

El desfibrilador TELEFUNKEN cuenta con las más exigentes certificaciones.

Realiza automáticamente autodiagnósticos diarios y mensuales.

Incluye bolsa y accesorios.

Dispone de electrodos de "ADULTO" y "PEDIÁTRICOS".
Tiene 6 años de garantía.
Componentes kit de emergencias
Máscarilla de respiración con conexión de oxígeno.
Tijeras para cortar la ropa
Rasuradora.
Guantes desechables.

¿ Qué es una Parada Cardíaca?

Cada año solo en paises como España mueren más de 25.000 personas por muerte súbita.

La mayoría en entornos extrahospitalarios, y casi el 80-90 % ocasionadas por un trastorno eléctrico del corazón llamado"FIBRILACIÓN VENTRICULAR"

El único tratamiento efectivo en estos casos es la "Desfibrilación precoz".

"Por cada minuto de retraso en realizar la desfibrilación, las posibilidades de supervivencia disminuyen en más de un 10%".

¿ Qué es un desfibrilador ?

El desfibrilador semiautomático (DESA) es un pequeño aparato que se conecta a la víctima que supuestamente ha sufrido una parada cardíaca por medio de parches (electrodos adhesivos).

¿ Cómo funciona ?

SU FUNDAMENTO ES SENCILLO:

El DESA "Desfibrilador" analiza automáticamente el ritmo del corazón. Si identifica un ritmo de parada cardíaca tratable mediante la desfibrilación ( fibrilación ventricular), recomendará una descarga y deberá realizarse la misma pulsando un botón.

SU USO ES FÁCIL:

El desfibrilador va guiando al reanimador durante todo el proceso, por medio de mensajes de voz, realizando las órdenes paso a paso.

SU USO ES SEGURO:

Únicamente si detecta este ritmo de parada desfibrilable (FV) y (Taquicardia Ventricular sin Pulso) permite la aplicación de la descarga. (Si por ejemplo nos encontrásemos ante una víctima inconsciente que únicamente ha sufrido un desmayo, el desfibrilador no permitiría nunca aplicar una descarga).

¿Quién puede usar un desfibrilador TELEFUNKEN?

No es necesario que el reanimador sea médico, Enfermero o Tecnico en Emergencias Sanitarias para poder utilizar el desfibrilador.

Cualquier persona (no médico) que haya superado un curso de formación específico impartido por un centro homologado y acreditado estará capacitado y legalmente autorizado para utilizar el DESFIBRILADOR (En nuestro caso la certificacion es de validez mundial por seguir los protolos internacionales del ILCOR International Liaison Committee on Resuscitation. y Una institucion de prestigio internacional que avale que se han seguido los procedimientos tanto de formacion, ademas de los lineamientos del fabricante como es el caso de eeii.edu

TELEFUNKEN en Rep. Dominicana es parte de Emergency Educational Institute International de Florida. Estados Unidos, siendo Centro de Entrenamiento Autorizado por la American Heart Association y American Safety and Health Institute (Por lo que podemos certificar ILCOR) Acreditacion con validez en todo el mundo y al mismo tiempo certificar el lugar en donde son colocados nuestros Desfibriladores como Centros Cardioprotegidos que cumplen con todos los estanderes tanto Europeos CE como de Estados Unidos y Canada

DATOS TÉCNICOS

Dimensiones: 220 x 275 x 85mm

Peso: 2,6 Kg.

Clase de equipo: IIb

ESPECIFICACIONES

Temperatura: 0° C – + 50° C (sin electrodos)

Presión: 800 – 1060 hPa

Humedad: 0% – 95%

Máximo Grado de protección contra la humedad: IP 55

Máximo grado de protección contra golpes:IEC 601-1:1988+A1:1991+A2:1995

Tiempo en espera de las baterías: 3 años (Deben de ser cambiadas para garantizar un servicio optimo del aparato a los 3 años de uso)

Tiempo en espera de los electrodos: 3 años (Recomendamos sustitucion para mantener estandares internacionales de calidad)

Número de choques: >200

Capacidad de monitorización: > 20 horas (Significa que con una sola bateria tienes 20 horas de monitorizacion continua del paciente en caso de desastre, es optimo por el tiempo que podemos permanecer en monitorizacion del paciente posterior a la reanimacion)

Tiempo análisis ECG: < 10 segundos (En menos de 10 seg. TELEFUNKEN AED, ha hecho el diagnostico y estara listo para suministrar tratamiento de forma automatica)

Ciclo análisis + preparación del shock: < 15 segundos

Botón información: Informa sobre el tiempo de uso y el número de descargas administradas durante el evento con sólo pulsar un botón

Claras señales acústicas y visuales: guía por voz y mediante señales luminosas al reanimador durante todo el proceso de reanimación.

Metrónomo: que indica la frecuencia correcta para las compresiones torácicas. con las Guias 2015-2020, esto garantiza que al seguir el ritmo pautado de compresiones que nos indica el aparato de forma acustica y visual, podremos dar RCP de ALTA calidad con un aparato extremadamente moderno, pero economico.

Normas aplicadas: EN 60601-1:2006, EN 60601-1-4:1996, EN 60601-1:2007, EN 60601-2-4:2003

Sensibilidad y precisión:

Sensibilidad > 90%, tip. 98%,

Especificidad > 95%, tip. 96%,

Asistolia umbral < ±80μV

Protocolo de reanimación: ILCOR 2015-2020

Análisis ECG: Ritmos cardiacos tratables (VF, VT rápida), Ritmos cardiacos no tratables (asistolia, NSR, etc.)

Control de impedancia: Medición9 de la impedancia continua, detección de movimiento, detección de respiración

Control de los electrodos : Calidad del contacto

Identificación de ritmo normal de marcapasos

Lenguas: Holandés, inglés, alemán, francés, español, sueco, danés, noruega, italiano, ruso, chino

Comunicación-interfaz: USB 2.0 (El mas simple y economico del mercado)

Usuarios-interfaz: Operación de tres botones (botón de encendido/apagado , botón de choque/información.

Indicación LED: para el estado del proceso de reanimación. (Para ambientes ruidosos y en caso de personas con limitaciones acusticas)

Impulso-desfibrilación: Bifásico (Bajo Nivel de Energia, pero mayor calidad que causa menos daño al musculo cardiaco), tensión controlada

Energía de choque máxima: Energía Alta 300J (impedancia de paciente 75Ω), Energía Baja 200J

(impedancia de paciente 100Ω)