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1. Molecular analysis of chicken embryo SPARC (osteonectin).

Author

Bassuk, JA, Iruela-Arispe, ML, Lane, TF, Benson, JM, Berg, RA, and Sage, EH

Subjects
Chick Embryo, Animals, Humans, Calcium, Copper, Epidermal Growth Factor, Osteonectin, DNA, Complementary, RNA, Messenger, Serine Proteinase Inhibitors, Protein Processing, Post-Translational, Binding Sites, Amino Acid Sequence, Base Sequence, Protein Structure, Secondary, Sequence Homology, Amino Acid, Molecular Sequence Data, Genetics, 1.1 Normal biological development and functioning, Generic Health Relevance, Biochemistry And Cell Biology, Medical Biochemistry And Metabolomics, Medicinal And Biomolecular Chemistry, Biochemistry & Molecular Biology, Biochemistry and Cell Biology, Medical Biochemistry and Metabolomics, Medicinal and Biomolecular Chemistry
Abstract

SPARC is a secreted glycoprotein that modulates cell shape and cell-matrix interactions. Levels of SPARC are increased at sites of somitogenesis, osteogenesis, and angiogenesis in the embryo and during wound repair in the adult. We have cloned and characterized SPARC from chicken embryo. A 2.2-kbp cDNA, obtained by a novel use of the polymerase chain reaction, was determined to encode a 298-residue protein that is 85% identical to human SPARC. Antigenic sites in particular appear to be highly conserved, as antibodies against C-terminal sequences of murine and bovine SPARC reacted with a 41-43 kDa protein in chicken embryo extracts. Chicken SPARC can be defined by four sequence signatures: (a) a conserved spacing of 11 cysteine residues in domain II, (b) the pentapeptide KKGHK in domain II, which is contained within a larger region of 31 identical residues, (c) a 100% conserved region of 10 residues in domain III, and (d) a C-terminal, calcium-binding EF-hand motif. SPARC mRNAs in the 10-day-old chicken embryo are represented by three sizes of 1.8, 2.2 and 3.0 kb. The relative steady-state levels for the 2.2-kb mRNA were determined as aorta > or = skeletal muscle > calvarium > vertebra > anterior limb > kidney > heart > brain > skin and lung >> liver. The relative abundance of the 1.8-kb and 2.2-kb mRNAs varied among tissues and indicated that differential processing of SPARC mRNAs might occur. All three RNA species were detected by a cDNA probe for the N-terminal part of the coding region. Thus, the three mRNA species appear to arise from differential 3' splicing and/or polyadenylation. Collective evidence demonstrates that SPARC has been well-conserved during vertebrate evolution, a finding that indicates a fundamental role for this protein in development.

Published
1993

3. Special Report—Pediatric Basic and Advanced Life Support: 2010 International Consensus on Cardiopulmonary Resuscitation and Emergency Cardiovascular Care Science With Treatment Recommendations

Author

Kleinman, ME, De Caen, AR, Chameides, L, Atkins, DL, Berg, RA, Berg, MD, Bhanji, F, Biarent, D, Bingham, R, Coovadia, AH, Hazinski, MF, Hickey, RW, Nadkarni, VM, Reis, AG, Rodriguez-Nunez, A, Tibballs, J, Zaritsky, AL, Zideman, D, Pediatric, B, and Advanced Life Support Chapter, C

Subjects
medicine.medical_specialty, Advanced Cardiac Life Support/ methods Cardiopulmonary Resuscitation/ methods Child Child, Preschool Emergencies Evidence-Based Medicine Heart Arrest/ therapy Hospital Rapid Response Team Humans Infant Infant, Newborn Respiratory Insufficiency/ therapy, medicine.medical_treatment, Advanced Cardiac Life Support, Pediatrics, Article, 17 Psychology And Cognitive Sciences, medicine, Intubation, Humans, Cardiopulmonary resuscitation, Cricoid pressure, Intensive care medicine, Child, Capnography, Evidence-Based Medicine, medicine.diagnostic_test, business.industry, Advanced cardiac life support, Infant, Newborn, Infant, 11 Medical And Health Sciences, Evidence-based medicine, medicine.disease, Cardiopulmonary Resuscitation, Advanced life support, Heart Arrest, Child, Preschool, Pediatrics, Perinatology and Child Health, Medical emergency, Emergencies, business, Respiratory Insufficiency, Rapid response system, Hospital Rapid Response Team
Abstract

The 2010 ILCOR Pediatric Task Force experts developed 55 questions related to pediatric resuscitation. Topics were selected based on the 2005 Consensus on Science and Treatment Recommendations (CoSTR) document,1,2 emerging science, and newly identified issues. Not every topic reviewed for the 2005 International Consensus on Science was reviewed in the 2010 evidence evaluation process. In general, evidence-based worksheets were assigned to at least 2 authors for each topic. The literature search strategy was first reviewed by a “worksheet expert” for completeness. The expert also approved the final worksheet to ensure that the levels of evidence were correctly assigned according to the established criteria. Worksheet authors were requested to draft CoSTR statements (see Part 3: Evidence Evaluation Process). Each worksheet author or pair of authors presented their topic to the Task Force in person or via a webinar conference, and Task Force members discussed the available science and revised the CoSTR draft accordingly. These draft CoSTR summaries were recirculated to the International Liaison Committee on Resuscitation (ILCOR) Pediatric Task Force for further refinement until consensus was reached. Selected controversial and critical topics were presented at the 2010 ILCOR International Evidence Evaluation conference in Dallas, Texas, for further discussion to obtain additional input and feedback. This document presents the 2010 international consensus on the science, treatment, and knowledge gaps for each pediatric question. The most important changes or points of emphasis in the recommendations for pediatric resuscitation since the publication of the 2005 ILCOR International Consensus on CPR and ECC Science With Treatment Recommendations1,2 are summarized in the following list. The scientific evidence supporting these changes is detailed in this document. Additional evidence shows that healthcare providers do not reliably determine the presence or absence of a pulse in infants or children. New evidence documents the important role of ventilations in CPR for infants and children. However, rescuers who are unable or unwilling to provide ventilations should be encouraged to perform compression-only CPR. To achieve effective chest compressions, rescuers should compress at least one third the anterior-posterior dimension of the chest. This corresponds to approximately 1½ inches (4 cm) in most infants and 2 inches (5 cm) in most children. When shocks are indicated for ventricular fibrillation (VF) or pulseless ventricular tachycardia (VT) in infants and children, an initial energy dose of 2 to 4 J/kg is reasonable; doses higher than 4 J/kg, especially if delivered with a biphasic defibrillator, may be safe and effective. More data support the safety and effectiveness of cuffed tracheal tubes in infants and young children, and the formula for selecting the appropriately sized cuffed tube was updated. The safety and value of using cricoid pressure during emergency intubation are not clear. Therefore, the application of cricoid pressure should be modified or discontinued if it impedes ventilation or the speed or ease of intubation. Monitoring capnography/capnometry is recommended to confirm proper endotracheal tube position. Monitoring capnography/capnometry may be helpful during CPR to help assess and optimize quality of chest compressions. On the basis of increasing evidence of potential harm from exposure to high-concentration oxygen after cardiac arrest, once spontaneous circulation is restored, inspired oxygen concentration should be titrated to limit the risk of hyperoxemia. Use of a rapid response system in a pediatric inpatient setting may be beneficial to reduce rates of cardiac and respiratory arrest and inhospital mortality. Use of a bundled approach to management of pediatric septic shock is recommended. The young victim of a sudden, unexpected cardiac arrest should have an unrestricted, complete autopsy, if possible, with special attention to the possibility of an underlying condition that predisposes to a fatal arrhythmia. Appropriate preservation and genetic analysis of tissue should be considered; detailed testing may reveal an inherited “channelopathy” that may also be present in surviving family members.

Published
2010

4. Pediatric Basic and Advanced Life Support Chapter Collaborators. Pediatric basic and advanced life support: 2010 International Consensus on Cardiopulmonary Resuscitation and Emergency Cardiovascular Care Science with Treatment Recommendations

Author

Kleinman, ME, De Caen, AR, Chameides, L., Atkins, DL., Berg, RA, Berg, MD, Bhanji, F., Biarent, Dominique, Bingham, Robert, Coovadia, A., Hazinski, MF, Hickey, RW, Nadkarni, VM., Reis, AG, Rodriguez Nunez, Antonio, Tibballs, J., Zaritsky, AL., Zideman, David, Kleinman, ME, De Caen, AR, Chameides, L., Atkins, DL., Berg, RA, Berg, MD, Bhanji, F., Biarent, Dominique, Bingham, Robert, Coovadia, A., Hazinski, MF, Hickey, RW, Nadkarni, VM., Reis, AG, Rodriguez Nunez, Antonio, Tibballs, J., Zaritsky, AL., and Zideman, David

Abstract

info:eu-repo/semantics/published

Published
2010

5. On behalf of the Paediatric Basic and Advanced Life Support Chapter: Part 10: Paediatric basic and advanced life support 2010 International Consensus on Cardiopulmonary Resuscitation and Emergency Cardiovascular Care Science with Treatment Recommendations.

Author

De Caen, AR, Kleinman, ME, Chameides, L., Atkins, DL., Berg, RA, Berg, MD, Bhanji, F., Biarent, Dominique, Bingham, Robert, Coovadia, A., Hazinski, MF, Hickey, RW, Nadkarni, VM., Reis, AG, Rodriguez Nunez, Antonio, Tibballs, J., Zaritsky, AL., Zideman, David, Nolan, Jerry P., De Caen, AR, Kleinman, ME, Chameides, L., Atkins, DL., Berg, RA, Berg, MD, Bhanji, F., Biarent, Dominique, Bingham, Robert, Coovadia, A., Hazinski, MF, Hickey, RW, Nadkarni, VM., Reis, AG, Rodriguez Nunez, Antonio, Tibballs, J., Zaritsky, AL., Zideman, David, and Nolan, Jerry P.

Abstract

info:eu-repo/semantics/published

Published
2010

6. Pediatric Basic and Advanced Life Support Chapter Collaborators: Part 10: pediatric basic and advanced life support: 2010 International Consensus on Cardiopulmonary Resuscitation and Emergency Cardiovascular Care Science With Treatment Recommendations

Author

Kleinman, ME, De Caen, AR, Chameides, L., Atkins, DL., Berg, RA, Berg, MD, Bhanji, F., Biarent, Dominique, Bingham, Robert, Coovadia, A., Hazinski, MF, Hickey, RW, Nadkarni, VM., Reis, AG, Rodriguez Nunez, Antonio, Tiballs, J., Zaritsky, AL., Zideman, David, Kleinman, ME, De Caen, AR, Chameides, L., Atkins, DL., Berg, RA, Berg, MD, Bhanji, F., Biarent, Dominique, Bingham, Robert, Coovadia, A., Hazinski, MF, Hickey, RW, Nadkarni, VM., Reis, AG, Rodriguez Nunez, Antonio, Tiballs, J., Zaritsky, AL., and Zideman, David

Abstract

(16 SUPPL 2), info:eu-repo/semantics/published

Published
2010

7. Pediatric Advanced Life Support Task Force; International Liaison Committee on Resuscitation. Use of automated external defibrillators for children: an update: an advisory statement from the pediatric advanced life support task force, International Liaison Committee on Resuscitation

Author

Samson, RA, Berg, RA, Bingham, Robert, Biarent, Dominique, Coovadia, A., Hazinski, MF, Hickey, RW, Nadkarni, V., Nichol, G., Tibballs, J., Reis, AG, Tse, S., Zideman, D., Potts, J., Uzark, K., Atkins, D, Samson, RA, Berg, RA, Bingham, Robert, Biarent, Dominique, Coovadia, A., Hazinski, MF, Hickey, RW, Nadkarni, V., Nichol, G., Tibballs, J., Reis, AG, Tse, S., Zideman, D., Potts, J., Uzark, K., and Atkins, D

Abstract

Comment in: Circulation. 2003 Jul 1;107(25):9055-6., info:eu-repo/semantics/published

Published
2003

11. Survival trends in pediatric in-hospital cardiac arrests: an analysis from Get With the Guidelines-Resuscitation.

Author

Girotra S, Spertus JA, Li Y, Berg RA, Nadkarni VM, Chan PS, erican Heart Association Get With the Guidelines-Resuscitation Investigators, Girotra, Saket, Spertus, John A, Li, Yan, Berg, Robert A, Nadkarni, Vinay M, Chan, Paul S, and American Heart Association Get With the Guidelines–Resuscitation Investigators

Abstract

Background: Despite ongoing efforts to improve the quality of pediatric resuscitation, it remains unknown whether survival in children with in-hospital cardiac arrest has improved.Methods and Results: Between 2000 and 2009, we identified children (<18 years of age) with an in-hospital cardiac arrest at hospitals with >3 years of participation and >5 cases annually within the national Get With The Guidelines-Resuscitation registry. Multivariable logistic regression was used to examine temporal trends in survival to discharge. We also explored whether trends in survival were attributable to improvement in acute resuscitation or postresuscitation care and examined trends in neurological disability among survivors. Among 1031 children at 12 hospitals, the initial cardiac arrest rhythm was asystole and pulseless electrical activity in 874 children (84.8%) and ventricular fibrillation and pulseless ventricular tachycardia in 157 children (15.2%), with an increase in cardiac arrests due to pulseless electrical activity over time (P for trend <0.001). Risk-adjusted rates of survival to discharge increased from 14.3% in 2000 to 43.4% in 2009 (adjusted rate ratio per year, 1.08; 95% confidence interval, 1.01-1.16; P for trend=0.02). Improvement in survival was driven largely by an improvement in acute resuscitation survival (risk-adjusted rates: 42.9% in 2000, 81.2% in 2009; adjusted rate ratio per year: 1.04; 95% confidence interval, 1.01-1.08; P for trend=0.006). Moreover, survival trends were not accompanied by higher rates of neurological disability among survivors over time (unadjusted P for trend=0.32), suggesting an overall increase in the number of survivors without neurological disability over time.Conclusions: Rates of survival to hospital discharge in children with in-hospital cardiac arrests have improved over the past decade without higher rates of neurological disability among survivors. [ABSTRACT FROM AUTHOR]

Published
2013
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16. Variability in case-mix adjusted in-hospital cardiac arrest rates.

Author

Merchant RM, Yang L, Becker LB, Berg RA, Nadkarni V, Nichol G, Carr BG, Mitra N, Bradley SM, Abella BS, Groeneveld PW, American Heart Association Get With the Guideline-Resuscitation Investigators, Merchant, Raina M, Yang, Lin, Becker, Lance B, Berg, Robert A, Nadkarni, Vinay, Nichol, Graham, Carr, Brendan G, and Mitra, Nandita

Published
2012
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22. Chest compression-only CPR by lay rescuers and survival from out-of-hospital cardiac arrest.

Author

Bobrow BJ, Spaite DW, Berg RA, Stolz U, Sanders AB, Kern KB, Vadeboncoeur TF, Clark LL, Gallagher JV, Stapczynski JS, LoVecchio F, Mullins TJ, Humble WO, Ewy GA, Bobrow, Bentley J, Spaite, Daniel W, Berg, Robert A, Stolz, Uwe, Sanders, Arthur B, and Kern, Karl B

Abstract

Context: Chest compression-only bystander cardiopulmonary resuscitation (CPR) may be as effective as conventional CPR with rescue breathing for out-of-hospital cardiac arrest.Objective: To investigate the survival of patients with out-of-hospital cardiac arrest using compression-only CPR (COCPR) compared with conventional CPR.Design, Setting, and Patients: A 5-year prospective observational cohort study of survival in patients at least 18 years old with out-of-hospital cardiac arrest between January 1, 2005, and December 31, 2009, in Arizona. The relationship between layperson bystander CPR and survival to hospital discharge was evaluated using multivariable logistic regression.Main Outcome Measure: Survival to hospital discharge.Results: Among 5272 adults with out-of-hospital cardiac arrest of cardiac etiology not observed by responding emergency medical personnel, 779 were excluded because bystander CPR was provided by a health care professional or the arrest occurred in a medical facility. A total of 4415 met all inclusion criteria for analysis, including 2900 who received no bystander CPR, 666 who received conventional CPR, and 849 who received COCPR. Rates of survival to hospital discharge were 5.2% (95% confidence interval [CI], 4.4%-6.0%) for the no bystander CPR group, 7.8% (95% CI, 5.8%-9.8%) for conventional CPR, and 13.3% (95% CI, 11.0%-15.6%) for COCPR. The adjusted odds ratio (AOR) for survival for conventional CPR vs no CPR was 0.99 (95% CI, 0.69-1.43), for COCPR vs no CPR, 1.59 (95% CI, 1.18-2.13), and for COCPR vs conventional CPR, 1.60 (95% CI, 1.08-2.35). From 2005 to 2009, lay rescuer CPR increased from 28.2% (95% CI, 24.6%-31.8%) to 39.9% (95% CI, 36.8%-42.9%; P < .001); the proportion of CPR that was COCPR increased from 19.6% (95% CI, 13.6%-25.7%) to 75.9% (95% CI, 71.7%-80.1%; P < .001). Overall survival increased from 3.7% (95% CI, 2.2%-5.2%) to 9.8% (95% CI, 8.0%-11.6%; P < .001).Conclusion: Among patients with out-of-hospital cardiac arrest, layperson compression-only CPR was associated with increased survival compared with conventional CPR and no bystander CPR in this setting with public endorsement of chest compression-only CPR. [ABSTRACT FROM AUTHOR]

Published
2010
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24. Post-cardiac arrest syndrome: epidemiology, pathophysiology, treatment, and prognostication: a scientific statement from the International Liaison Committee on Resuscitation; the American Heart Association Emergency Cardiovascular Care Committee; the...

Author

Nolan JP, Neumar RW, Adrie C, Aibiki M, Berg RA, Bbttiger BW, Callaway C, Clark RSB, Geocadin RG, Jauch EC, Kern KB, Laurent I, Longstreth WT, Merchant RM, Morley P, Morrison LJ, Nadkarni V, Peberdy MA, Rivers EP, and Rodriguez-Nunez A

Abstract

Aim of the review To review the epidemiology, pathophysiology, treatment and prognostication in relation to the post-cardiac arrest syndrome. Methods Relevant articles were identified using PubMed, EMBASE and an American Heart Association EndNote master resuscitation reference library, supplemented by hand searches of key papers. Writing groups comprising international experts were assigned to each section. Drafts of the document were circulated to all authors for comment and amendment. Results The 4 key components of post-cardiac arrest syndrome were identified as (1) post-cardiac arrest brain injury, (2) post-cardiac arrest myocardial dysfunction, (3) systemic ischaemia/reperfusion response, and (4) persistent precipitating pathology. Conclusions A growing body of knowledge suggests that the individual components of the postcardiac arrest syndrome are potentially treatable. [ABSTRACT FROM AUTHOR]

Published
2010
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25. Post-cardiac arrest syndrome: Epidemiology, pathophysiology, treatment, and prognostication: A Scientific Statement from the International Liaison Committee on Resuscitation; the American Heart Association Emergency Cardiovascular Care Committee; the...

Author

Nolan JP, Neumar RW, Adrie C, Aibiki M, Berg RA, Bbttiger B, Callaway C, Clark RSB, Geocadin RG, Jauch EC, Kern KB, Laurent I, Longstreth WT, Merchant RM, Morley P, Morrison LJ, Nadkarni V, Peberdy MA, Rivers EP, and Rodriguez-Nunez A

Abstract

Aim of the review To review the epidemiology, pathophysiology, treatment and prognostication in relation to the post-cardiac arrest syndrome. Methods Relevant articles were identified using PubMed, EMBASE and an American Heart Association EndNote master resuscitation reference library, supplemented by hand searches of key papers. Writing groups comprising international experts were assigned to each section. Drafts of the document were circulated to all authors for comment and amendment. Results The 4 key components of post-cardiac arrest syndrome were identified as (1) post-cardiac arrest brain injury, (2) post-cardiac arrest myocardial dysfunction, (3) systemic ischaemia/reperfusion response, and (4) persistent precipitating pathology. Conclusions A growing body of knowledge suggests that the individual components of the postcardiac arrest syndrome are potentially treatable. [ABSTRACT FROM AUTHOR]

Published
2009
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26. Comparison of neurological outcomes following witnessed out-of-hospital ventricular fibrillation defibrillated with either biphasic or monophasic automated external defibrillators.

Author

Kajino K, Iwami T, Berg RA, Hiraide A, Hayashi Y, Yukioka H, Tanaka H, Shimazu T, and Sugimoto H

Abstract

BACKGROUND: Biphasic waveform defibrillation results in higher rates of termination of fibrillation than monophasic waveform defibrillation but has not been shown to improve survival outcomes. OBJECTIVE: To compare the effectiveness of a biphasic automated external defibrillator (AED) with a monophasic AED for witnessed out-of-hospital cardiac arrest (OHCA) due to ventricular fibrillation (VF). METHODS: In a prospective population-based cohort study, adults with witnessed VF OHCA were treated with either monophasic or biphasic waveform AED shocks. The primary outcome measure was neurologically favourable 1-month survival, defined as a Cerebral Performance Categories score of 1 or 2. RESULTS: Of 366 adults with witnessed OHCA of presumed cardiac aetiology, 74 (20%) had VF. Termination of VF with the first shock tended to occur more frequently after biphasic AED shocks (36/44 (82%) vs 20/30 (67%), p = 0.14). Return of spontaneous circulation (ROSC) occurred more frequently after biphasic AED shocks (29/44 (66%) vs 8/30 (27%), p = 0.001). Neurologically favourable 1-month survival was also more frequent in the biphasic group (10/44 (23%) vs 1/30 (3%), p = 0.04). The median time interval from the first shock to the second shock was 67 s in the monophasic group and 24 s in the biphasic group (p = 0.001). CONCLUSIONS: Treatment with biphasic AED shocks improved the likelihood of ROSC and neurologically favourable 1-month survival after witnessed VF compared with monophasic AED shocks. In addition to waveform differences, a shorter time interval from the first shock to the second shock could account for the better outcomes with biphasic AED. [ABSTRACT FROM AUTHOR]

Published
2009
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33. Essential features of designating out-of-hospital cardiac arrest as a reportable event: a scientific statement from the American Heart Association Emergency Cardiovascular Care Committee; Council on Cardiopulmonary, Perioperative, and Critical Care; Council on Cardiovascular Nursing; Council on Clinical Cardiology; and Quality of Care and Outcomes Research Interdisciplinary Working Group.

Author

Nichol G, Rumsfeld J, Eigel B, Abella BS, Labarthe D, Hong Y, O'Connor RE, Mosesso VN, Berg RA, Leeper B, and Weisfeldt ML

Published
2008

43. Cardiopulmonary resuscitation algorithms, defibrillation and optimized ventilation during resuscitation.

Author

Samson RA, Berg MD, and Berg RA

Abstract

PURPOSE OF REVIEW: In 2005, the American Heart Association released its Guidelines for Cardiopulmonary Resuscitation and Emergency Cardiovascular Care. This article reviews the treatment algorithms for Advanced Cardiac Life Support, citing the evidence on which the Guidelines are based. Additional focus is placed on defibrillation and optimized ventilation. RECENT FINDINGS: Major changes include a reorganization of the algorithms for cardiac arrest. Emphasis on effective cardiopulmonary resuscitation is placed as the key to improved survival. Single defibrillation shocks are recommended (compared with three 'stacked' shocks) with immediate provision of cardiopulmonary resuscitation and minimal interruptions in chest compressions. The recommended chest compression : ventilation rate for single rescuers has been changed to 30:2. SUMMARY: Despite advances in resuscitation science, basic life support remains the key to improving survival outcomes. Ultimately, as new knowledge is gained, we believe resuscitation therapies will be more individualized, on the basis of pathophysiology and etiology of the initial cardiac arrest. [ABSTRACT FROM AUTHOR]

Published
2006

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