Reanimatiepatient altijd transporteren naar een ziekenhuis?

Auteur Topic: Reanimatiepatient altijd transporteren naar een ziekenhuis?  (gelezen 3584 keer)

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Joffry Ambu-Vpk

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Gepost op: 24 september 2014, 19:01:30
Reanimatiepatient altijd transporteren naar een ziekenhuis??

Onderstaand artikel in de British medical Journal heeft interessante pro en contra's

http://www.bmj.com/content/349/bmj.g5659

Should we take patients to hospital in cardiac arrest?
BMJ 2014; 349 doi: http://dx.doi.org/10.1136/bmj.g5659 (Published 23 September 2014)
Cite this as: BMJ 2014;349:g5659
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Bruce D Adams, chair and professor of emergency medicine1, Jonathan Benger, professor of emergency care and consultant23
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Correspondence to: B D Adams adamsb@uthscsa.edu, J Benger Jonathan.Benger@uwe.ac.uk
Bruce D Adams says that rules for deciding when to stop resuscitation are fallible, but Jonathan Benger argues that ambulance crews are best placed to deliver immediate cardiopulmonary resuscitation, which is usually the only treatment available

Yes—Bruce D Adams
Out of hospital cardiac arrest is a leading cause of premature death, and overall long term survival is about 10% .1 Two schools of thought towards cardiopulmonary resuscitation (CPR) have emerged in the past decade: the “glass 90% empty” sceptics, who see one arresting patient after another “come in dead and stay dead,” versus the “glass 10% full” optimists, who look to return more survivors to productive life.2

Clinical decision rules derived over the past decade clarify when further resuscitation and transport to the hospital is futile and offer the potential to reduce ambulance transport and its inherent costs and risks. The best studied is the Basic Life Support Termination of Resuscitation (BLS-TOR) rule, which directs paramedics to stop CPR and not to transport the patient if they have not witnessed the cardiac arrest, no shock has been given (no shockable rhythm), and spontaneous circulation has not returned.3

If we treat BLS-TOR as a test, a “positive” result generally predicts death, but unlike other clinical tests its specificity must be 100% because a false positive result by definition represents the wrongful death of a neurologically intact survivor of cardiac arrest.4 Validation trials of BLS-TOR have almost always found a handful of survivors who would have been declared dead by the rule. For instance, the original BLS-TOR study of 1240 cardiac arrests advised no transport for 776 (63%) patients, four of whom survived to hospital discharge.3 The accuracy of paramedics applying the criteria can be problematic. In a subsequent validation study, paramedics chose to stop resuscitation in 3% of the arrests when BLS-TOR actually called for transport.5 In 15% of the cardiac arrests, trained paramedics, many of whom had participated in the original BLS-TOR derivation study, expressed discomfort about applying the rule.5 Reasons cited for disagreement included the patient’s age, family distress, or short transport time to the hospital.

Geographical variability in outcomes
The quality of CPR and survival outcomes vary strikingly with geography, further complicating the application of guidelines on when to stop resuscitation.6 Studies of decision rules may report impressive positive predictive values for BLS-TOR, but a positive predictive value is not intrinsic to a test; it depends on prevalence and pretest probability. The BLS-TOR test measures futility of CPR so it naturally trends towards a higher positive predictive value in regions with poor survival outcomes for bayesian reasons. At the extreme, if you apply BLS-TOR to the late residents of Highgate cemetery, you would achieve a positive predictive value of 100%. Likewise, Los Angeles has a survival rate fourfold worse than Seattle, so a higher positive predictive value for Los Angeles is expected.7 Specificity, which is independent of the population being tested, may be the more appropriate statistical measure.

Outside North America, clinical decision rules are even more fallible. BLS-TOR applied to a large Japanese validation cohort of 151 152 out of hospital cardiac arrests found that specificity was only 96.8% (95% confidence interval 96.3% to 97.2%); the test advised stopping resuscitation for 193 people who ultimately achieved a neurologically favourable survival.8 BLS-TOR also performed poorly in a validation study in Taipei, incorrectly identifying 4.9% of 3489 patients who survived to hospital discharge as non-survivors.9 A similar study in Singapore showed specificities ranging from 81% to 91% when applied retrospectively to 2269 cardiac arrests out of hospital.10

Costs of CPR survival overstated
Cost effectiveness of CPR with respect to quality adjusted life years (QALYs) gained is about the same as that for other standard critical care therapies. For example, a study in Oslo calculated costs of €40 642 (£33 000; $53 000) per patient discharged alive or €6632 per QALY gained.11 12 Avoiding ambulance transport of every patient with a cardiac arrest who died in the emergency room would save the US Medicare programme only $58m, which is less than 0.1% of its total annual losses from fraud alone.13 The fear that CPR creates long term neurovegetative survivors is not borne out by the data. For the most part, patients that are destined to die do so fairly soon.12

All this effort is to what end? A modest reduction in patient transport rates? The rate of ambulance crashes with full lights and sirens is 45.9/100 000 patient journeys.2 We would need to halt 2178 ambulance transports to prevent a single injury, but with a false positive rate of just 1% that effort would result in more than 20 unnecessary deaths.

Post-termination care and future promises
Less tangible yet no less important considerations, such as the sentiments of the family, must be incorporated into this literally life and death process. Sudden cardiac death at home is enormously stressful for families, but ambulances in many jurisdictions will not transport dead people, leaving survivors without adequate grief counselling and logistical arrangements for autopsy, funeral, or organ donation. An estimated 5% of all organs harvested are from legally brain dead patients who received CPR, so reducing ambulance transport of patients in cardiac arrest could diminish organ donations.14

Finally, advances in CPR research are emerging, most notably in extracorporeal cardiopulmonary resuscitation and in the regionalisation of centres that specialise in new coronary interventions and therapeutic hypothermia.15 These promising hospital based resuscitative strategies may change our definition of who is and who is not salvageable.16

No—Jonathan Benger
Cardiac arrest outside hospital is a common and catastrophic medical emergency experienced by about 60 000 people a year in the UK.17 Less than 10% survive to discharge from hospital.18

The sooner spontaneous circulation returns, the better the prognosis. The chance of achieving this depends on the cause of arrest: patients with a cardiac rhythm amenable to defibrillation (ventricular fibrillation or pulseless ventricular tachycardia) have much better outlooks.19

The mainstay of treatment in all arrests is cardiopulmonary resuscitation (CPR), and international resuscitation guidelines emphasise the importance of continual and effective chest compressions, accompanied by rescue breathing.20 High quality CPR increases the chance of survival and buys time while waiting for a defibrillator or for other interventions to take effect. However, we have few other treatments. No drug has been shown to improve long term survival in patients with cardiac arrest outside hospital.21 Although many other interventions have been proposed, all lack evidence of clinical effectiveness in a general population.22

Hospital has little to offer
Ambulance services throughout the developed world tend to take patients in cardiac arrest to hospital, with CPR ongoing. This seems intuitive: these patients are critically ill, and hospital seems the obvious place to go. Indeed, when only hospital had defibrillators, the logic was clear.23 However, this is no longer the case, and hospitals have nothing to offer almost all such patients beyond the care that is provided by a well trained and equipped ambulance service. Furthermore, taking such patients to hospital may be harmful. Preparing patients for transport, moving them, and driving them to hospital leads to pauses in CPR and suboptimal chest compressions, even with the most skilled and committed staff. And it is not only the patient who is at risk: driving at speed with warning lights and sirens risks road traffic collisions that may themselves cause injury and death.

This has to stop. Ambulance clinicians are the experts in managing out of hospital cardiac arrest, and the best chance of return of spontaneous circulation, followed by long term survival, is in the first few minutes. Ambulance staff must be empowered to use their skills to optimise CPR, achieve early defibrillation, and deliver the best possible care at the scene, with no thought of transport until spontaneous circulation has returned or it becomes clear that the patient has no chance of survival. Once spontaneous circulation has returned the patient should be stabilised and transported to a “cardiac arrest centre” capable of providing coronary angiography, computed tomography, and critical care with temperature control.24 If spontaneous circulation does not return then the patient’s death should be accepted and made as dignified as possible.

In rare circumstances transport to hospital with ongoing CPR is justified—for example, when cardiac arrest results from hypothermia or drug overdose and in some cases of refractory ventricular fibrillation.25 Medical advances such as out of hospital extracorporeal life support also offer hope of better survival in future.26

Need for a rational approach
This applies as much to children as it does to adults: too often the stark tragedy of a small child in cardiac arrest prompts ambulance staff to scoop up the child in arms, run to the ambulance, and drive as fast as possible to hospital. Yet this response may paradoxically deny the child the optimal chest compressions and oxygenation that he or she desperately needs and which have the greatest chance of success when delivered immediately, rather than later in the back of a moving ambulance or on arrival at hospital.

If further expertise, or transport, is deemed necessary then this should come to the patient and be delivered by a specialist team that has access to equipment such as automated chest compression devices, ultrasound and central venous access, temperature regulation, and, perhaps, extracorporeal oxygenation. This will ensure that only patients with a chance of benefiting from hospital transfer will receive it, and in a consistent way.

For the majority of patients, however, it is time to call a halt to transport in cardiac arrest and to concentrate on providing the best possible resuscitation skills at scene, empowering and supporting ambulance staff. This is not a new idea, yet little progress has been made over the past two decades.27 28 Termination of resuscitation (TOR) rules have been derived and validated in several countries3 29 30 31 and have been shown to significantly reduce the rate of futile transportation,32 yet their considerable potential has never been realised in the United Kingdom. However, TOR rules are only part of what is required: more must also be done to educate staff and the public about best possible care and what to expect when cardiac arrest occurs outside hospital—that is, excellent resuscitation undertaken at the scene (by bystanders initially and continued by the ambulance service) until spontaneous circulation returns or it becomes clear that nothing more can be done.

Notes
Cite this as: BMJ 2014;349:g5659

Footnotes
Competing interests: Both authors have read and understood BMJ policy on declaration of interests and have no relevant interests to declare.


HBO-V, ACLS, IC, SOSA, PHTLS, PALS, LOV. PO AMLS en nog wat andere semi-interessante afkortingen. Ambulanceverpleegkundige instructeur (P)BLS AED, rod


Jim

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Reactie #1 Gepost op: 24 september 2014, 20:33:21
Nadenken over wat je wilt met je patient is denk ik altijd een goed idee.

Een ambu heeft geen PCI, geen electrolyten, geen chirurg en geen bloed. Soms is er dus zeker wat te zeggen voor scoop&run
CHAOS: Chief Has Arrived On Scene Waar cyanose is, is leven; nog heel even!


Joffry Ambu-Vpk

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Reactie #2 Gepost op: 24 september 2014, 23:07:41
Citaat van: Jim link=msg=1298010 date=1411583601
Nadenken over wat je wilt met je patient is denk ik altijd een goed idee.

Een ambu heeft geen PCI, geen electrolyten, geen chirurg en geen bloed. Soms is er dus zeker wat te zeggen voor scoop&run


In de reanimatiesituatie is er geen scoop en run methode zoals in de traumatologie of neurochirurgie.

In het artikel blijkt met name in de uitleg van de eerste arts dat deze echt iedere strohalm wil aanpakken om de patient ''te redden'' als is het maar voor de orgaandonatie...
Zijn visie gaat mij echt iets te kort door de bocht. Wilsbeslissingen van de patient (NRNB) laat hij bijvoorbeeld totaal buiten beschouwing, slechte zaak lijkt mij.
HBO-V, ACLS, IC, SOSA, PHTLS, PALS, LOV. PO AMLS en nog wat andere semi-interessante afkortingen. Ambulanceverpleegkundige instructeur (P)BLS AED, rod


Delta

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Reactie #3 Gepost op: 25 september 2014, 08:16:27
Volgens mij is het een Amerikaan. Daar zijn NTBR's niet iets wat de huisarts met een patient bespreekt, maar meer iets wat in de allerlaatste levensfase wordt afgesproken.
Arts  www.alphalog.nl


voske83

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Reactie #4 Gepost op: 25 september 2014, 08:37:18
Citaat van: Delta link=msg=1298093 date=1411625787
Volgens mij is het een Amerikaan.

Klopt. Een interessant detail is dat hij 27 jaar bij de Amerikaanse landmacht heeft gediend. Misschien heeft dat ook invloed op zijn standpunt?