RESUMO
OBJECTIVE: To synthesize an emerging body of literature describing pharmacokinetic alterations and related pharmacodynamic implications affecting drugs commonly used in patients receiving targeted temperature management following cardiac arrest. DATA SOURCES: Peer-reviewed articles indexed in PubMed. STUDY SELECTION: A systematic search of the PubMed database for relevant preclinical studies and clinical and observational trials of physiologic changes and drug pharmacokinetic and pharmacodynamic alterations, especially during targeted temperature management/therapeutic hypothermia, but also from cardiac surgery and acute stroke hypothermia models. DATA EXTRACTION: Detailed review of information contained in published scientific work. DATA SYNTHESIS: Physiologic changes during targeted temperature management significantly alter both the pharmacokinetic and the pharmacodynamic parameters of medications. Current literature describes these alterations and provides practical considerations for management of medications. Medication selection should center on the pharmacokinetics and pharmacodynamics of agents in an attempt to ameliorate potential adverse effects. CONCLUSIONS: This review provides an overview of physiologic changes associated with targeted temperature management and practical considerations for the management of medications. Clinicians should understand and anticipate potential drug-therapy interactions of targeted temperature management and mitigate adverse outcomes by appropriate medication selection, dosing, and monitoring. We discuss complications of hypothermia including shivering, electrolyte abnormalities, hemodynamic changes, arrhythmias, and seizures. We review management of these complications as well as considerations for sedation, analgesia, anticoagulation, and prognostication. Approach to interpretation of the clinical significance of drug interactions during targeted temperature management therapy is also addressed.
Assuntos
Parada Cardíaca/terapia , Hipotermia Induzida , Farmacocinética , Parada Cardíaca/fisiopatologia , Humanos , Hipotermia Induzida/efeitos adversos , EstremecimentoRESUMO
BACKGROUND: Team-based learning (TBL) encourages learners to think critically to solve problems they will face in practice. Pharmacokinetic dosing and monitoring are complex skills requiring the application of learned knowledge. The study sought to assess the impact of a TBL, vancomycin dosing activity in a Pharmaceutical Skills IV course measured with exam question performance during the second professional year. METHODS: This retrospective, descriptive study relates a TBL activity, assigned to 85 students, which included an individual student pre-preparation quiz, assigned readings, in-class individual and team-based readiness assessments, small group application of a vancomycin patient case, and group discussion/feedback on clinical decisions with supportive reasoning. The class year before and class year of the TBL implementation were compared using the total percentage of points possible earned by the class years, by topic. To minimize potential confounding, the primary outcome was the change in topic performance by the rank difficulty (e.g., the largest possible benefit being the hardest topic becoming the easiest with no other variation in topic rank difficulty). RESULTS: In the year of implementation, the mean individual readiness assurance test (IRAT) performance was 5.5 ± 1.88 (10 points possible, 55%). The mean team readiness assurance test (TRAT) performance was 10 of 10 points possible (100%). The class exam item performance in the year before (n = 101) and year of (n = 84) TBL implementation showed a general decline in exam scores. However, the vancomycin topic difficultly went from fifth easiest, to second easiest, with less than 1% change in raw score. CONCLUSIONS: Implementation of a pharmacokinetic TBL activity appeared to moderately support the students' vancomycin learning. Additional studies are warranted on APPE readiness and performance.
RESUMO
Background: Shivering is often encountered in patients undergoing targeted temperature management (TTM) after cardiac arrest. The most efficient, safe way to prevent shivering during TTM is not clearly defined. Objective: The purpose of this study was to evaluate the impact of shivering management using a stepwise shivering protocol on time to target temperature (TT), medication utilization and nursing confidence. Methods: Single-center, retrospective chart review of all post-cardiac arrest patients who underwent TTM between 2016 and 2021. The primary outcome is a comparison of time to TT pre- and post-protocol implementation. Secondary objectives compared nursing confidence and medication utilization pre- and post-shivering protocol implementation. Results: Fifty-seven patients were included in the pre-protocol group and thirty-seven were in the post-protocol group. The median (IQR) time to TT was 195 (250) minutes and 165 (170), respectively (p = 0.190). The average doses of acetaminophen was 285 mg pre- vs 1994 mg post- (p <0.001, buspirone 47 mg pre- vs 127 mg post- (p < 0.001), magnesium 0.9 g pre-vs 2.8 g post- (p < 0.001), and fentanyl 1564 mcg pre- vs 2286 mcg post- (p=0.023). No difference was seen for midazolam and cisatracurium. Nurses reported feeling confident with his/her ability to manage shivering during TTM 38.5% of the time pre-protocol compared to 60% post-protocol (p = 0.306). Conclusion: Implementation of a stepwise approach to prevent and treat shivering improved time to TT in our institution, although this finding was not statistically significant. The stepwise protocol supported a reduced amount of high-risk medication use and increased nursing confidence in shivering management.
RESUMO
BACKGROUND: Carcinoid heart disease (CaHD) is a rare condition that has a high impact on the morbidity and mortality of its patients. Once heart failure symptoms develop in the patient with CaHD, cardiac valve surgery is often the only effective treatment. Although atrioventricular block (AVB) is a known postoperative complication of the valve surgery, the incidence of AVB in this population has not been well described. METHODS: Comprehensive records were collected retrospectively on consecutive patients with CaHD who underwent a valve surgery at a tertiary medical center from January 2001 to December 2015. We excluded patients with pre-existing permanent pacemaker (PPM). RESULTS: Nineteen consecutive patients were included in this study and 18 of them underwent at least dual valve (tricuspid and pulmonary valve) replacement surgery. Our 30-day post-surgical mortality was 0%. During the 6-month observation period following the surgery, 31.5% (n = 6) required PPM implantation due to complete AVB. There was no statistical difference in baseline characteristics and electrocardiographic and echocardiographic parameters between the patients who did or did not require PPM placement. CONCLUSIONS: Our study revealed that almost one-third of CaHD patients who underwent a valve replacement surgery developed AVB requiring PPM implantation. Due to high incidence of PPM requirement, we believe that prophylactic placement of an epicardial lead during the valve surgery can be helpful in these patients to reduce serious complication from placement of pacemaker lead on a later date through a prosthetic valve.