小児の心肺蘇生法
(Pediatric Resuscitation)

参考文献(No. 1〜20)

No. 1

[PubMed]

No. 2

[PubMed]

BMJ 1994 May 21;308(6940):1349-55

Guidelines for pediatric life support.

Pediatric Life Support Working Party of the European Resuscitation Council.

Published erratum appears in BMJ 1994 Jun 11;308(6943):1563

Guidelines for paediatric life support. Paediatric Life Support Working Party of the European Resuscitation Council.

The paediatric life support working party of the European Resuscitation Council was set up in 1992 with the aim of producing guidelines for basic and advanced paediatric resuscitation that would be acceptable throughout Europe. The commonest cause of cardiac arrest in children is problems with the airway. The resulting difficulties in breathing and the associated hypoxia rapidly cause a severe bradycardia or asystole. In contrast, adults have primary cardiac events resulting in ventricular fibrillation. This important difference in the pathogenesis of paediatric and adult cardiac arrest is reflected in these European Resuscitation Council guidelines, which complement those already published for adults.

Publication Types: Guideline, Practice guideline

No. 3

[PubMed]

Med J Aust 1996 Aug 19;165(4):199-201, 204-6

Australian Resuscitation Council Guidelines. Advanced Life Support Committee of the Australian Resuscitation Council.

Paediatric advanced life support.

Publication Types: Guideline, Practice guideline

No. 4

[PubMed]

Anaesth Intensive Care 1990 Aug;18(3):348-57

The Melbourne Chart--a logical guide to neonatal resuscitation.

Roy RN, Betheras FR

Division of Paediatrics, Royal Women's Hospital, Carlton, Victoria. Resuscitation of the asphyxiated infant is one of the great emergencies in medical practice. Properly done, it can save many lives and greatly reduce the morbidity resulting from hypoxic-ischaemic encephalopathy, but if it is ineptly performed, the effects of hypoxic-ischaemic encephalopathy may be accentuated, with resultant increased morbidity and even mortality. Other than paediatricians, few practitioners have regular experience in neonatal resuscitation: indeed many, including obstetricians, anaesthetists, general practitioners and midwives may only rarely face the problem of severe asphyxia. It is therefore essential for the occasional practitioner to have ready reference to a logical guide to resuscitation. We have designed such a guide which is widely distributed in delivery suites and operating theatres in Victoria. Its basic form has been in use for over a decade and it has recently been revised. Use of the chart assists the resuscitator to judge the level of resuscitation required. It is our experience that much unnecessary intervention occurs at resuscitation, and we believe the methods outlined in this schematic chart represent a more conservative but logical approach to neonatal resuscitation. The chart is based on the pathophysiological changes that occur in perinatal asphyxia, directing the user to the appropriate manoeuvres required to correct those changes, depending on the degree of asphyxia which is determined by clinical signs and by use of the Apgar score.

Publication Types: Guideline

No. 5

[PubMed]

No. 6

[PubMed]

Ann Emerg Med 1995 Apr;25(4):492-4

CPR and the single rescuer: at what age should you "call first" rather than "call fast"?

Appleton GO, Cummins RO, Larson MP, Graves JR

Center for Evaluation of Emergency Medical Services, King County EMS Division of the Seattle-King County Department of Public Health.

STUDY OBJECTIVE: To determine whether the age-related frequency of ventricular fibrillation (VF) in cardiac arrest supports the guideline that single rescuers should "call first" for all victims of sudden collapse older than 8 years.

DESIGN: Analysis of data on all nontraumatic cardiac arrests treated by emergency medical service (EMS) personnel in King County, Washington, between 1976 and 1992.

MEASUREMENTS: Age, initial cardiac rhythm, witnessed versus unwitnessed status, whether patient was discharged alive. RESULTS: We analyzed 10,992 cardiac arrests. Initial rhythm was VF in 4,252 (40%) and non-VF in 6,740 (60%). VF frequencies were 3% (0 to 8 years old), 17% (8 to 30 years), and 42% (30 years or older).

CONCLUSION: Most patients under age 30 were not in VF at the time of EMS evaluation. Our data suggest that a "call fast" strategy may be more effective when a single rescuer is present and the victim is between 8 and 30 years old. Comments:

  1. Comment in: Ann Emerg Med 1995 Apr;25(4):540-3

  2. Comment in: Ann Emerg Med 1995 Nov;26(5):658-9

No. 7

[PubMed]

Ann Emerg Med 1995 Apr;25(4):484-91

Out-of-hospital ventricular fibrillation in children and adolescents: causes and outcomes.

Mogayzel C, Quan L, Graves JR, Tiedeman D, Fahrenbruch C, Herndon P

Department of Pediatrics, University of Washington School of Medicine, Seattle.


STUDY OBJECTIVE: To compare causes and outcomes of patients younger than 20 years with an initial rhythm of ventricular fibrillation versus asystole and pulseless electrical activity. DESIGN: Retrospective cohort study.

SETTING: Urban/suburban prehospital system.

PARTICIPANTS: Pulseless, nonbreathing patients less than 20 years who underwent out-of-hospital resuscitation. Patients with lividity or rigor mortis or who were less than 6 months old and died of sudden infant death syndrome were excluded.

RESULTS: Ventricular fibrillation was the initial rhythm in 19% (29 of 157) of the cardiac arrests. Rhythm assessment was performed by the first responder in only 44% (69 of 157) of patients. All three rhythm groups were similar in age distribution, frequency of intubation (96%), and vascular access (92%); 93% of ventricular fibrillation patients were defibrillated. The causes of ventricular fibrillation were distributed evenly among medical illnesses, overdoses, drownings, and trauma, only two patients had congenital heart defects. Seventeen percent were discharged with no or mild disability, compared with 2% of asystole/pulseless electrical activity patients (P = .003).

CONCLUSION: Ventricular fibrillation is not rare in child and adolescent prehospital cardiac arrest, and these patients have a better outcome than those with asystole or pulseless electrical activity. Earlier recognition and treatment of ventricular fibrillation might improve pediatric cardiac arrest survival rates.

Comments:

  1. Comment in: Ann Emerg Med 1995 Apr;25(4):540-3

  2. Comment in: Ann Emerg Med 1995 Nov;26(5):658-9

No. 8

[PubMed]

Ann Emerg Med 1995 Apr;25(4):540-3

Is pediatric resuscitation unique? Relative merits of early CPR and ventilation versus early defibrillation for young victims of prehospital cardiac arrest.

Hazinski MF

Publication Types: Comment, Editorial

Comments:

  1. Comment on: Ann Emerg Med 1995 Apr;25(4):484-91

  2. Comment on: Ann Emerg Med 1995 Apr;25(4):492-4

No. 9

[PubMed]

Ann Emerg Med 1995 Apr;25(4):495-501

Pediatric patients requiring CPR in the prehospital setting.

Hickey RW, Cohen DM, Strausbaugh S, Dietrich AM

Section of Emergency Medicine, Columbus Children's Hospital.


STUDY OBJECTIVE: To determine the outcome of pediatric patients with prehospital cardiopulmonary arrest. DESIGN: Chart review of all patients with prehospital cardiopulmonary arrest who were subsequently admitted to a pediatric emergency department from January 1988 to January 1993. Cardiopulmonary arrest was considered to have been present if assisted ventilation and chest compressions were performed on an apneic, pulseless patient.

SETTING: Pediatric ED. PARTICIPANTS: Pediatric patients in prehospital cardiac arrest.

RESULTS: In all, 95 patients were identified. Fifty-six had initial hospital care at the pediatric ED (primary patients). The remaining 39 were transported to the pediatric ED after initial care of another institution (secondary patients). Forty-one percent of patients were younger than 1 year. Most arrests were respiratory in origin; asystole was the most common dysrhythmia. Fifteen patients (27%) survived to discharge. Fourteen of the survivors had return of spontaneous circulation before ED arrival. Thirty-three patients were in arrest on ED arrival; in 16 (48%) of these, return of spontaneous circulation subsequently developed in the ED, and 1 survived to discharge. Two survivors, including the survivor with return of spontaneous circulation in the ED, had severe neurologic sequelae. Ten (26%) of the secondary patients survived. All survivors had return of spontaneous circulation before arrival in the ED. Two survivors had severe neurologic sequelae.

CONCLUSION: Most successfully resuscitated pediatric arrest victims are resuscitated in the prehospital setting and do not suffer severe neurologic injury. Most patients who present to the ED in continued arrest and survive to discharge have severe neurologic injury.

Publication Types: Review, multicase

Comments:

  1. Comment in: Ann Emerg Med 1995 Nov;26(5):658-9

    No.10

    [PubMed]

    Arch Dis Child 1993 Apr;68(4):487-91

    Audit of paediatric cardiopulmonary resuscitation.

    Innes PA, Summers CA, Boyd IM, Molyneux EM

    Department of Anaesthesia, Royal Liverpool Children's Hospital.

    The causes and outcome of cardiopulmonary arrests were studied in a paediatric hospital over a 12 month period. Forty five resuscitation attempts were made involving 41 children and one adult. Twenty eight (68%) of the children were under 1 year of age and 10 (24%) were neonates. Twenty one (47%) arrests were primarily respiratory and 11 (24%) primarily cardiac in origin. Eighty two per cent of the respiratory arrests had an initially successful outcome, compared with 36% of the cardiac arrests. Overall 70% of cardiopulmonary resuscitation attempts were initially successful. There were no survivors from resuscitation attempts longer than 30 minutes. At 12 months after cardiopulmonary resuscitation 15 (37%) of the children were still alive. The 11 children who had been neurologically normal before the arrest showed no evidence of neurological damage after successful cardiopulmonary resuscitation.

    No.11

    [PubMed]

    Ann Emerg Med 1987 Oct;16(10):1107-11

    CPR in children.

    Zaritsky A, Nadkarni V, Getson P, Kuehl K

    Department of Anesthesiology, Children's Hospital National Medical Center, Washington, DC.

    CPR has not been well studied in children and little is known about factors predictive of outcome. We conducted a study with three goals: longitudinal determination of demographic and laboratory data characterizing pediatric arrest victims; identification of factor(s) predictive of outcome; and determination of the prevalence of ionized hypocalcemia in pediatric arrest victims. All resuscitation efforts were documented during a one-year period in a 240-bed tertiary care children's hospital. Patients were classified into two groups--respiratory arrest (RA, requiring only assisted ventilation), and cardiac arrest (CA, absence of palpable cardiac activity requiring closed-chest CPR). Collected data and laboratory tests were analyzed using a step-wise discriminant analysis to determine which factors were predictive of outcome. There were 113 arrests in 93 children; 53 were CA victims and 40 were RA victims. CA had a high in-hospital mortality (90.6%) compared to RA (32.5%). The population was young (55% less than 1 year old) and 87% had at least one chronic underlying disease. No laboratory or demographic value was significantly associated with eventual outcome. The number of doses of epinephrine in CA victims, or bicarbonate in RA victims, was associated with eventual outcome. None of 31 CA victims receiving more than two doses of epinephrine survived to discharge. Low ionized calcium concentrations (less than 3.5 mg/dL) were identified in ten patients; septic shock was present in seven, and chronic renal failure in two.

    No.12

    [PubMed]

    Ann Emerg Med 1995 Jun;25(6):799-803

    Death and resuscitation in the pediatric emergency department.

    Teach SJ, Moore PE, Fleisher GR

    Division of Emergency Medicine, Children's Hospital of Buffalo, USA.


    STUDY OBJECTIVE: To describe a population of patients who arrived in a pediatric emergency department with pulse and respirations but then sustained cardiopulmonary or respiratory arrest while in the ED.

    DESIGN: Retrospective case series of patients from July 1987 to June 1993.

    SETTING: Urban, tertiary care pediatric ED. PARTICIPANTS: All patients who sustained cardiopulmonary or respiratory arrest while in the ED.

    RESULTS: Thirty-two cases of cardiopulmonary (n = 18) or respiratory arrest (n = 14) were identified, for an incidence of 1.2 arrests per 10,000 patient visits. Causes of arrest varied widely. Excluding those patients with do-not-resuscitate orders (n = 2), an initial response to resuscitative efforts was obtained in 22 of 30 (73%) patients. Overall rates of survival to discharge from the ED and from the hospital were 21 of 30 (70%) and 15 of 30 (50%), respectively. Of those patients who survived to hospital discharge, 12 of 15 (80%) were discharged at a baseline level of overall function.

    CONCLUSION: Cardiopulmonary or respiratory arrest in the pediatric emergency department is rare. The rate of survival of such an arrest is superior to that in outpatient arrests but inferior to that in inpatient arrests.

    No.13

    [PubMed]

    Pediatrics 1990 Aug;86(2):302-6

    Pediatric cardiopulmonary arrests in rural populations.

    Thompson JE, Bonner B, Lower GM Jr

    Dept of Pediatrics, Gundersen Clinic, Ltd, La Crosse, WI 54601.

    We reviewed emergency department records that spanned a period of 5 years at seven rural hospitals to provide more specific data concerning pediatric resuscitation. The purpose was to plan better for preventive programs and to help rural health care providers prepare better for these difficult patients. Patients entered in the study had either cardiorespiratory arrest or respiratory arrest. Although the distribution by age was similar to studies from other areas, the outcome for cardiorespiratory arrests was as bad or worse (70 arrests with 3 survivors), and the outcome of respiratory arrests was as good or better (25 arrests with 21 survivors) as reported previously. Survival of arrest from trauma and accidents was markedly worse (16%) than survival from nontraumatic arrests (44%). The etiologies of the arrests were dominated by sudden infant death syndrome and pulmonary disease but with very few drownings or farm-related fatalities. This study should encourage rural health care providers to increase efforts in specific areas of trauma and accident prevention. Also, respiratory illness needs to be monitored aggressively and respiratory arrests treated more effectively to avoid the much more consistently lethal cardiac arrests. In addition, more careful prospective study of these patients may be able to identify care patterns that can be improved to increase survival in these groups.

    No.14

    [PubMed]

    BMJ 1992 May 23;304(6838):1347-51

    Survey of 3765 cardiopulmonary resuscitations in British hospitals (the BRESUS Study): methods and overall results.

    Tunstall-Pedoe H, Bailey L, Chamberlain DA, Marsden AK, Ward ME, Zideman DA

    Cardiovascular Epidemiology Unit, Ninewells Hospital and Medical School, Dundee.


    OBJECTIVE--To determine the circumstances, incidence, and outcome of cardiopulmonary resuscitation in British hospitals.

    DESIGN--Hospitals registered all cardiopulmonary resuscitation attempts for 12 months or longer and followed survival to one year.

    SETTING--12 metropolitan, provincial, teaching, and non-teaching hospitals across Britain. SUBJECTS--3765 patients in whom a resuscitation attempt was performed, including 927 in whom the onset of arrest was outside the hospital.

    MAIN OUTCOME MEASURE--Survival after initial resuscitation, at 24 hours, at discharge from hospital, and at one year, calculated by the life table method.

    RESULTS--There were 417 known survivors at one year, with 214 lost to follow up. By life table analysis for every eight attempted resuscitations there were three immediate survivors, two at 24 hours, 1.5 leaving hospital alive, and one alive at one year. Survival at one year was 12.5% including out of hospital cases and 15.0% not including these cases. Each hospital year averaged 30 survivors at one year: three who had an arrest outside hospital, seven who had one in the accident and emergency department, seven in the cardiac care unit, 10 in the general wards, and three in other, non-ward areas. Within the hospitals survival rates were best in those who had an arrest in the accident and emergency department, the cardiac care unit, or other specialised units. Outcome varied 12-fold in subgroups defined by age, type of arrest, and place of arrest.

    CONCLUSION--71% of the mortality at one year in patients undergoing attempted resuscitation occurred during the initial arrest. Hospital resuscitation is life saving and cost effective and warrants appropriate attention, training, coordination, and equipment. Comments:

    1. Comment in: BMJ 1992 Aug 15;305(6850):422-3; discussion 424
    2. Comment in: BMJ 1992 Aug 15;305(6850):423; discussion 424
    3. Comment in: BMJ 1992 Aug 15;305(6850):423-4

    No.15

    [PubMed]

    Ann Emerg Med 1983 Nov;12(11):672-4

    Epidemiology of cardiac arrest and resuscitation in children.

    Eisenberg M, Bergner L, Hallstrom A

    A surveillance system identified all out-of-hospital cardiac patients under the age of 18 who received emergency care in suburban King County, Washington. The etiology, cardiac rhythm, and outcome were identified for each case. During a 6 1/2-year period, 119 cardiac arrests occurred (annual incidence, 12.7/100,000 among individuals less than 18). Sudden infant death was the most common etiology (32%), and drowning was the second most common (22%). The most common rhythm was asystole, accounting for 66% of all rhythms. Six percent of patients treated with basic EMT care were discharged, compared with 7% of patients treated with EMT and paramedic care. In contrast to resuscitation from cardiac arrest in adults, the likelihood of successful resuscitation in children is very poor. This is due to different etiologies and the higher proportion of asystole seen in pediatric cardiac arrest as compared with adults.

    No.16

    [PubMed]

    Am J Cardiol 1983 Feb;51(3):557-61

    Terminal cardiac electrical activity in pediatric patients.

    Walsh CK, Krongrad E

    Ventricular fibrillation (VF) is a frequently reported terminal cardiac electrical activity in adults. Such data are unavailable for pediatric patients. Terminal cardiac electrical activity determined in 100 pediatric patients was bradycardic arrest throughout the death process in 88% of newborns, 67% of infants, and 64% of children. Although bradycardic arrest was more common, the incidence of ventricular tachyarrhythmias was higher in patients who had congenital heart disease, who had received cardiopulmonary resuscitation, who were beyond the neonatal period, and/or who weighed greater than 2.23 kg. No definite associations could be established between arterial blood gases, electrolyte values, and type of terminal cardiac electrical activity. The development of VF may be related to cardiac mass and the developing autonomic nervous system and therefore is less likely to occur in patients with a small heart.

    No.17

    [PubMed]

    Pediatrics 1995 Jun;95(6):901-13

    High-dose epinephrine in pediatric out-of-hospital cardiopulmonary arrest.

    Dieckmann RA, Vardis R

    Department of Emergency Services, San Francisco General Hospital, CA 94110, USA.


    OBJECTIVE. To compare the efficacy of high-dose epinephrine (HDE) and standard-dose epinephrine (SDE) for out-of-hospital treatment of pediatric cardiopulmonary arrest (CPA). DESIGN. Forty-eight-month retrospective cohort study.

    SETTING. Prehospital emergency medical services (EMS) system of a large metropolitan region.

    PATIENTS. All children younger than 18 years of age, who suffered nontraumatic CPA, did not meet local EMS criteria for death in the field, and were treated by paramedics according to EMS pediatric CPA protocols.

    INTERVENTIONS. Paramedics administered HDE (> 0.1 mg/kg), SDE (< 0.1 mg/kg), or no epinephrine (NE), based on base hospital physician order and availability of access for drug delivery. Protocols permitted either HDE or SDE. The drug was given through an endotracheal tube, intraosseous line, or intravenous line.

    MAIN OUTCOME MEASURES. Return of spontaneous circulation (ROSC) and return of an organized electrical rhythm (ROER) in the ambulance and emergency department, hospital admission, hospital discharge, and short- and long-term neurologic outcome by pediatric cerebral performance category (PCPC) score.

    RESULTS. During the study period, 65 children met inclusion criteria and underwent attempted out-of-hospital resuscitation. Forty patients (62%) received HDE (mean dose +/- SD, 0.19 +/- 0.06 mg/kg); 13 patients (20%) received SDE (mean dose +/- SD, 0.02 +/- 0.02 mg/kg); and 12 patients (18%) received NE. The HDE and SDE groups were statistically different only in epinephrine dose but not in age, gender, proportion of asystolic presenting rhythms, success of endotracheal tube intubation or intraosseous line insertion, rate of ROSC, rate of ROER, survival, or proportion of sudden infant death syndrome final diagnoses. Fifty-four children (83%) presented in asystole, 5 (8%) had pulseless electrical activity (PEA), and 6 (9%) had ventricular fibrillation (VF). None presented with either supraventricular tachycardia or ventricular tachycardia. Thirty-nine patients receiving HDE had asystole or VF as presenting rhythms, 4 (10%) had ROER, and 1 had ROSC. The single child receiving HDE presenting with PEA did not have ROSC. Ten patients receiving SDE had asystole or VF, 2 (20%) had ROER, and none had ROSC. There were 3 children receiving SDE who had PEA, and 1 had ROSC. Eleven patients receiving NE had asystole or VF, and none had ROER. One child receiving NE had PEA and ROSC. Altogether, 1 patient receiving HDE, 1 receiving SDE, and 1 receiving NE had ROSC in the field, which continued in the emergency department; all 3 were admitted to the hospital. Two children (3%), 1 receiving HDE and 1 receiving SDE, survived to hospital discharge. The survivor receiving HDE had spastic quadriplegia and profound neurologic handicaps at discharge, with a PCPC score of 4 (severe disability with daily living milestones below the 10th percentile and excessive dependence on others for provision of activities of daily living); at a 1-year follow-up, she had a PCPC score of 4. The survivor receiving SDE was neurologically healthy at discharge; at discharge and at follow-up at age 1 year, she had a PCPC score of 1 (age-appropriate level of functioning and developmentally appropriate).

    CONCLUSIONS. HDE does not seem to improve the rates of ROER and ROSC, hospital admission, survival, or neurologic outcome when compared with SDE for treatment of out-of-hospital pediatric CPA. A large, blinded prospective clinical trial testing different epinephrine doses is necessary to determine drug efficacy and safety. Future pediatric CPA studies must standardize reporting of core data elements, using the adult Utstein criteria modified for pediatrics, to allow valid treatment comparisons. Overall, survival in out-of-hospital pediatric CPA is dismal.

    No.18

    [PubMed]

    Am J Emerg Med 1989 Nov;7(6):571-5

    Prehospital countershock treatment of pediatric asystole.

    Losek JD, Hennes H, Glaeser PW, Smith DS, Hendley G

    Department of Pediatrics, Medical College of Wisconsin, Milwaukee 53201.

    Prehospital care was retrospectively reviewed in 117 pulseless nonbreathing (PNB) pediatric patients (0 to 18 years of age) to determine the effects of immediate countershock treatment of asystole. Of 90 (77%) children with an initial rhythm of asystole, 49 (54%) received countershock treatment. Rhythm change occurred in ten (20%) of the asystolic children who received countershock treatment. Three of the countershocked asystolic children were successfully resuscitated, but none survived. Rhythm change occurred in nine (22%) of the asystolic children not countershocked. Six were successfully resuscitated, and one survived. The two groups (countershocked asystole v noncountershocked asystole) did not differ significantly in age, sex, witnessed arrest, witnessed arrest with bystander basic life support (BLS), prehospital endotracheal intubation, both intubation and vascular access success, or diagnosis. However, prehospital vascular access was successfully established in a significantly greater number of countershocked patients (P less than .05). The mean times to the scene, at the scene, and to the hospital for the countershocked v noncountershocked asystolic patients were 6.2, 23.8, and 6.1 v 5.9, 14.7 and 7.0 minutes. The mean time at the scene was significantly greater in the countershock group (P less than .001). The successful performance of prehospital endotracheal intubation was significantly associated with rhythm change (P less than .05). Patients age, witnessed arrest, witnessed arrest with bystander BLS, successful establishment of prehospital vascular access, diagnosis, and countershock treatment were not significantly associated with rhythm change. In conclusion, prehospital countershock treatment prolonged prehospital care time and was not associated with rhythm change in asystolic children. Therefore, prehospital countershock treatment of asystolic children is not recommended.

    No.19

    [PubMed]

    Arch Pediatr Adolesc Med 1995 Feb;149(2):210-4

    Outcome and cost at a children's hospital following resuscitation for out-of-hospital cardiopulmonary arrest.

    Ronco R, King W, Donley DK, Tilden SJ

    Department of Pediatrics, University of Alabama at Birmingham.


    OBJECTIVE: To determine the outcome and cost for children resuscitated following out-of-hospital cardiopulmonary arrest.

    DESIGN: Retrospective case series. SETTING: An organized prehospital emergency medical system within Birmingham, Ala, in a county with 150,493 children under the age of 15 years.

    PATIENTS: Sixty-three pediatric victims of out-of-hospital cardiopulmonary arrest of any cause presenting to the emergency department of a children's hospital.

    INTERVENTION: Standard resuscitative techniques were performed for all patients until resuscitative efforts were discontinued in the hospital emergency department or successful resuscitation was achieved.

    MAIN OUTCOME MEASURES: Successful resuscitation, survival to hospital discharge, neurological outcome, final disposition, and cost of hospital care. RESULTS: Of 63 children with out-of-hospital cardiopulmonary arrest treated in the emergency department of a children's hospital, 60 were pulseless and apneic on arrival, 18 (28.6%) were successfully resuscitated and admitted to the intensive care unit, and six (9.5%) were discharged from the hospital. Five of the survivors had severe neurological deficits and one appeared normal. On follow-up, two patients had died (1 month and 7 months after discharge), three were in a vegetative state, and one was normal. The normal patient had successful defibrillation prior to arrival at the emergency department. The average inpatient charge was $10,667 per patient for those who died and $100,000 for those discharged.

    CONCLUSIONS: Aggressive treatment does not lead to intact survival for victims of out-of-hospital cardiopulmonary arrest who present to the pediatric emergency department with a preterminal rhythm and absence of spontaneous circulation. Resuscitation efforts in the emergency department are commonly successful but lead to death or severe neurological sequelae at discharge with extremely high cost of care. Publication Types: Clinical trial

    No.20

    [PubMed]

    Can Med Assoc J 1982 May 1;126(9):1055-8

    Appraisal of pediatric cardiopulmonary resuscitation.

    Friesen RM, Duncan P, Tweed WA, Bristow G

    Sixty-six patients more than 30 days and less thant 16 years of age suffering an unexpected cardiac arrest in an 18-month period were included in a study of resuscitative measures in children. Six children survived to be discharged from hospital. Respiratory disease accounted for most (29%) of the cardiac arrests, but it also had the most favourable prognosis, 21% of the 19 patients surviving. None of the patients survived whose cardiac arrest was secondary to sepsis or trauma, even when the resuscitative efforts were initially successful. Only 1 of the 41 patients who had a cardiac arrest outside of hospital survived, and only 1 of the 34 patients who presented with asystole survived, and then with considerable damage to the central nervous system. The interval between cardiac arrest and application of basic life support was substantially shorter among the survivors. Also, most of the survivors did not present with asystole. The results of this study suggest that survival among resuscitated children is no better than that among adults but can be improved with early recognition and monitoring of children at risk. earlier application of basic and advanced life support, improved education of medical and lay personnel, and further research into pediatric resuscitative techniques.

    Pediatric Resuscitation
    (小児の心肺蘇生法)