ABSTRACT
INTRODUCTION: Achieving the optimal survival rate for sudden cardiac arrest in mountains is challenging. The odds of surviving are influenced mainly by distance, response time, and organization of the emergency medical system. The aim of this study was to analyze the epidemiology and outcomes of patients with out-of-hospital cardiac arrest in whom cardiopulmonary resuscitation was performed in the Polish Tatra Mountains. METHODS: This was a retrospective analysis of data on sudden cardiac arrest collected from the database of the Tatra Mountain Rescue Service and local emergency medical system from 2001 to 2021. RESULTS: A total of 74 cases of sudden cardiac arrest were recorded. The mortality rate was 88% (65/74). Return of spontaneous circulation was achieved in 22 (30%) patients. A group of survivors was characterized by more frequent use of an automated external defibrillator (AED) (56% vs 14%, P=0.011), a shorter interval between cardiac arrest and emergency team arrival (12 vs 20 min, P=0.005), and a shorter time to initiation of advanced life support (ALS) (12 vs 22 min, P=0.004). All survivors had a shockable initial rhythm. The majority of survivors (8/9, 89%) had a good or moderate neurological outcome. CONCLUSIONS: This study confirms poor survival rate after sudden cardiac arrest in the mountain area. The use of AED, shockable initial rhythm, and shorter time interval to emergency team arrival and ALS initiation are associated with better outcomes.
Subject(s)
Advanced Cardiac Life Support , Emergency Medical Services , Out-of-Hospital Cardiac Arrest , Humans , Death, Sudden, Cardiac/epidemiology , Out-of-Hospital Cardiac Arrest/epidemiology , Out-of-Hospital Cardiac Arrest/therapy , Poland/epidemiology , Retrospective StudiesABSTRACT
Ultrathin reflective foils (URFs) are widely used to protect patients from heat loss, but there is no clear evidence that they are effective. We review the physics of thermal insulation by URFs and discuss their clinical applications. A conventional view is that the high reflectivity of the metallic side of the URF is responsible for thermal protection. In most circumstances, the heat radiated from a well-clothed body is minimal and the reflecting properties of a URF are relatively insignificant. The reflection of radiant heat can be impaired by condensation and freezing of the moisture on the inner surface and by a tight fit of the URF against the outermost layer of insulation. The protection by thermal insulating materials depends mostly on the ability to trap air and increases with the number of covering layers. A URF as a single layer may be useful in low wind conditions and moderate ambient temperature, but in cold and windy conditions a URF probably best serves as a waterproof outer covering. When a URF is used to protect against hypothermia in a wilderness emergency, it does not matter whether the gold or silver side is facing outward.
Subject(s)
Emergency Medical Services , Hypothermia , Body Temperature Regulation , Cold Temperature , Humans , Hypothermia/prevention & control , WindABSTRACT
Severe accidental hypothermia carries high mortality and morbidity and is often treated with invasive extracorporeal methods. Continuous veno-venous hemodiafiltration (CVVHDF) is widely available in intensive care units. We sought to provide theoretical basis for CVVHDF use in rewarming of hypothermic patients. CVVHDF system was used in the laboratory setting. Heat balance and transferred heat units were evaluated for the system without using blood. We used 5L of crystalloid solution at the temperature of approximately 25°C, placed in a thermally insulated tank (representing the "central compartment" of a hypothermic patient). Time of warming the central compartment from 24.9 to 30.0°C was assessed with different flow combinations: "blood" (central compartment fluid) 50 or 100 or 150 mL/min, dialysate solution 100 or 1500 mL/h, and substitution fluid 0 or 500 mL/h. The total circulation time was 1535 minutes. There were no differences between heat gain values on the filter depending on blood flow (P = .53) or dialysate flow (P = .2). The mean heating time for "blood" flow rates 50, 100, and 150 mL/min was 113.7 minutes (95% CI, 104.9-122.6 minutes), 83.3 minutes (95% CI, 76.2-90.3 minutes), and 74.7 minutes (95% CI, 62.6-86.9 minutes), respectively (P < .01). The respective median rewarming rate for different "blood" flows was 3.6°C/h (IQR, 3.0-4.2°C/h), 4.8 (IQR, 4.2-5.4°C/h), and 5.4 (IQR, 4.8-6.0°C/h), respectively (P < .01). The dialysate flow did not affect the warming rate. Based on our experimental model, CVVHDF may be used for extracorporeal rewarming, with the rewarming rates increasing achieved with higher blood flow rates.
Subject(s)
Continuous Renal Replacement Therapy/methods , Hypothermia/therapy , Rewarming/methods , Hemodynamics , HumansABSTRACT
Prolonged cardiac arrest (CA) may lead to neurologic deficit in survivors. Good outcome is especially rare when CA was unwitnessed. However, accidental hypothermia is a very specific cause of CA. Our goal was to describe the outcomes of patients who suffered from unwitnessed hypothermic cardiac arrest (UHCA) supported with Extracorporeal Life Support (ECLS). We included consecutive patients' cohorts identified by systematic literature review concerning patients suffering from UHCA and rewarmed with ECLS. Patients were divided into four subgroups regarding the mechanism of cooling, namely: air exposure; immersion; submersion; and avalanche. A statistical analysis was performed in order to identify the clinical parameters associated with good outcome (survival and absence of neurologic impairment). A total of 221 patients were included into the study. The overall survival rate was 27%. Most of the survivors (83%), had no neurologic deficit. Asystole was the presenting CA rhythm in 48% survivors, of which 79% survived with good neurologic outcome. Variables associated with survival included the following: female gender (P < .001); low core temperature (P = .005); non-asphyxia-related mechanism of cooling (P < .001); pulseless electrical activity as an initial rhythm (P < .001); high blood pH (P < .001); low lactate levels (P = .003); low serum potassium concentration (P < .001); and short resuscitation duration (P = .004). Severely hypothermic patients with unwitnessed CA may survive with good neurologic outcome, including those presenting as asystole. The initial blood pH, potassium, and lactate concentration may help predict outcome in hypothermic CA.
Subject(s)
Cardiopulmonary Resuscitation/methods , Extracorporeal Membrane Oxygenation/methods , Hypothermia/therapy , Out-of-Hospital Cardiac Arrest/therapy , Rewarming/methods , Cardiopulmonary Resuscitation/instrumentation , Cold Temperature/adverse effects , Extracorporeal Membrane Oxygenation/instrumentation , Humans , Hypothermia/complications , Hypothermia/diagnosis , Hypothermia/mortality , Out-of-Hospital Cardiac Arrest/etiology , Out-of-Hospital Cardiac Arrest/mortality , Prognosis , Rewarming/instrumentation , Severity of Illness Index , Survival Rate , Treatment OutcomeABSTRACT
PURPOSE: We aimed to assess whether insulating covers and warming systems cause artifacts in fluoroscopy, and whether they alter the radiation dose. METHODS: Eight insulating and warming systems were wrapped around the phantom in order to obtain images in fluoroscopy, and to measure the absorbed and scattered radiation dose. A dosimeter, endovascular catheters, and stents were placed into a phantom. The other dosimeter was placed outside of a C-arm table, at the operator's and anesthesiologist's locations. RESULTS: Most of the insulating covers did not cause artifacts in the fluoroscopy and led to a significant decrease in both the absorbed and scattered radiation dose. The highest decrease in the absorbed dose was observed with metalized foil (- 2.09%; p = 0.001) and in the scattered dose with Helios cover (- 55%; p < 0.001). Only one heating system (Ready Heat combined with Hypothermia Prevention and Management Kit cover) caused significant artifacts and increased radiation up to 99% (p < 0.001). CONCLUSION: Thermal insulation may be maintained during X-ray-guided emergency endovascular procedures in trauma victims. Self-heating blankets should be replaced with another warming system.
Subject(s)
Artifacts , Bedding and Linens/adverse effects , Endovascular Procedures , Radiation Dosage , Fluoroscopy , Humans , Hypothermia/prevention & control , Phantoms, Imaging , Wounds and Injuries/diagnostic imaging , Wounds and Injuries/surgeryABSTRACT
OBJECTIVE: Extracorporeal rewarming is the treatment of choice for patients who had hypothermic cardiac arrest, allowing for best neurologic outcome. The authors' goal was to identify factors associated with survival in nonasphyxia-related hypothermic cardiac arrest patients undergoing extracorporeal rewarming. DESIGN: All 38 cardiac surgery departments in Poland were encouraged to report consecutive hypothermic cardiac arrest patients treated with extracorporeal life support. All variables collected were analyzed in order to compare survivor and nonsurvivor groups. The parameters available at the initiation of extracorporeal rewarming were considered as potential predictors of survival in a logistic regression model. The primary outcome was survival to discharge from the intensive care unit. The secondary outcome was neurologic status. SETTING: Multicenter retrospective study. PARTICIPANTS: Ninety-eight cases in the final analysis. INTERVENTIONS: All patients in nonasphyxia-related hypothermic cardiac arrest rewarmed with extracorporeal life support. MEASUREMENTS AND MAIN RESULTS: The survival rate was 53.1%, and 94.2% of survivors had favorable neurologic outcome. The lowest reported core temperature with cerebral performance category scale 1 was 11.8°C. A univariate analysis identified 3 variables associated with survival, namely: age, initial arterial pH, and lactate concentration. In a multivariate analysis, 2 independent predictors of survival were age (0.957; 95% confidence interval [CI] 0.924-0.991) and lactates (0.871; 95% CI 0.789-0.961). The area under the receiver operating characteristics curve for this fitted model was 0.71; 95% CI 0.602-0.817. CONCLUSIONS: Favorable survival with good neurologic outcome in nonasphyxiated hypothermic patients treated with extracorporeal life support was reported. Age and initial lactate level are independently associated with survival.
Subject(s)
Cardiopulmonary Resuscitation , Heart Arrest , Hypothermia , Heart Arrest/diagnosis , Heart Arrest/therapy , Humans , Hypothermia/diagnosis , Hypothermia/epidemiology , Hypothermia/therapy , Poland , Prognosis , Registries , Retrospective Studies , RewarmingABSTRACT
Mountain accident casualties are often exposed to cold and windy weather. This may induce post-traumatic hypothermia which increases mortality. The aim of this study was to assess the ability of warming systems to compensate for the victim's estimated heat loss in a simulated mountain rescue operation. We used thermal manikins and developed a thermodynamic model of a virtual patient. Manikins were placed on a mountain rescue stretcher and exposed to wind chill indices of 0 °C and - 20 °C in a climatic chamber. We calculated the heat balance for two simulated clinical scenarios with both a shivering and non-shivering victim and measured the heat gain from gel, electrical, and chemical warming systems for 3.5 h. The heat balance in the simulated shivering patient was positive. In the non-shivering patient, we found a negative heat balance for both simulated weather conditions (- 429.53 kJ at 0 °C and - 1469.78 kJ at - 20 °C). Each warming system delivered about 300 kJ. The efficacy of the gel and electrical systems was higher within the first hour than later (p < 0.001). We conclude that none of the tested warming systems is able to compensate for heat loss in a simulated model of a non-shivering patient whose physiological heat production is impaired during a prolonged mountain evacuation. Additional thermal insulation seems to be required in these settings.
Subject(s)
Hypothermia , Manikins , Body Temperature , Body Temperature Regulation , Cold Temperature , Humans , Hypothermia/prevention & control , Rewarming , ShiveringABSTRACT
Both the temperature at which defibrillation can be effectively used and how often it should be repeated in severe accidental hypothermia have not been definitely established. Current recommendations are based mainly on expert opinion and suggest withholding defibrillation after 3 shocks when the core temperature is below 30°C (86°F). However, growing evidence supports the effectiveness of defibrillation in patients with a core temperature below 30°C (86°F). We present a case of successful defibrillation of a 54-y-old, severely hypothermic patient with a core temperature of 18.2°C (64.8°F). The shock was delivered automatically by an implanted cardioverter-defibrillator shortly after the implementation of extracorporeal rewarming. The patient survived and was discharged from the hospital neurologically intact. It might be reasonable to consider defibrillation attempts in severely hypothermic patients despite current guidelines to the contrary. Increasing coronary perfusion using extracorporeal circulation may result in a better response to defibrillation.
Subject(s)
Electric Countershock , Hypothermia/therapy , Rewarming , Environmental Medicine , Humans , Male , Middle Aged , Treatment Outcome , Wilderness MedicineABSTRACT
PURPOSE: Unintentional drop in body temperature in trauma victims is an independent risk factor for mortality. We aimed to assess the impact of thermal insulation on image quality and radiation dose in polytrauma computed tomography (CT). METHODS: Thirteen different insulating covers were used to wrap CT phantoms. Images were assessed subjectively at a radiological workstation and analyzed digitally with dedicated software evaluating the noise intensity, spatial resolution, and image homogeneity. The radiation dose was measured using a dosimeter. RESULTS: Most materials did not cause significant artifacts apart from 2 heating pads. Although the radiation dose was increased by the majority of insulating covers (up to 64.66%), certain covers decreased the absorbed radiation (up to -7.35%). CONCLUSIONS: The majority of insulating systems do not cause artifacts in CT scans. When using covers with self-heating warmers, removing the heating pad is suggested due to the risk of considerable artifacts appearing. Certain insulating covers may increase or decrease the radiation dose.
Subject(s)
Radiation Dosage , Temperature , Tomography, X-Ray Computed/standards , Artifacts , Hypothermia/prevention & control , Multiple Trauma/diagnostic imaging , Phantoms, Imaging , Prospective Studies , Radiographic Image Interpretation, Computer-AssistedABSTRACT
BACKGROUND: Some crucial decisions in treatment of hypothermic patients are closely linked to core body temperature. They concern modification of resuscitation algorithms and choosing the target hospital. Under- as well as over-estimation of a patient's temperature may limit his chances for survival. Only thermometers designed for core temperature measurement can serve as a guide in such decision making. The aim of the study was to assess whether ambulance teams are equipped properly to measure core temperature. METHODS: A survey study was conducted in collaboration with the Health Ministry in April 2018. Questionnaires regarding the model, number, and year of production of thermometers were sent to each pre-hospital unit of the National Emergency Medical System in Poland. RESULTS: A total of 1523 ground ambulances are equipped with 1582 thermometers. 53.57% are infrared-based ear thermometers, 23.02% are infrared-based surface thermometers, and 20.13% are conventional medical thermometers. Only 3.28% of devices are able to measure core body temperature. Most of analyzed thermometers (91.4%) are not allowed to operate in ambient temperature below 10 °C. CONCLUSIONS: There are only 3.28% of ground ambulances that are able to follow precisely international guidelines regarding a patient's core body temperature. A light, reliable thermometer designed to measure core temperature in pre-hospital conditions is needed.
Subject(s)
Ambulances/standards , Body Temperature , Hypothermia/diagnosis , Thermometers/standards , Cross-Sectional Studies , Emergency Medical Services/methods , Humans , Hypothermia/therapy , Poland , Surveys and QuestionnairesABSTRACT
OBJECTIVE: Introduction: Improper initial management of a victim in severe hypothermia is associated with a risk of cardiac arrest. At the same time, an uncontrolled drop in core body temperature in trauma victims is an independent risk factor for mortality. Medical personnel require a thorough understanding of the pathophysiology and treatment of hypothermia. Gaps in this understanding can lead to serious complications for patients. The aim: To compare knowledge concerning hypothermia between medical personnel working in emergency departments (ED) and emergency medical services (EMS). PATIENTS AND METHODS: Materials and methods: A total of 5,362 participants were included in the study. In this study, EMS and ED personnel were encouraged to participate in an e-learning course on hypothermia. Subsequently, the scores of a pre-test, lesson tests and post-test completed by participants of this course were compared. RESULTS: Results: Pre-test scores were significantly higher among personnel working in EMS compared with those working in EDs. Nurses employed in EDs had significantly more failures in completing the course than EMS nurses. The most difficult topics for all practitioners were post-traumatic hypothermia and hypothermia-related clotting disorders. CONCLUSION: Conclusions: EMS personnel have a higher level of knowledge of hypothermia than ED personnel. Moreover, an e-learning course is an effective tool for improving medical personnel's knowledge of hypothermia.
Subject(s)
Hypothermia , Ambulances , Emergency Service, Hospital , Health Personnel , HumansSubject(s)
Body Temperature , Esophagus/physiology , Hypothermia/diagnosis , Contraindications, Procedure , Humans , ThermometersABSTRACT
OBJECTIVE: Introduction: The paper covers the problem of pre-hospital hypothermia recognition and management among lifeguards, board guards and policemen, who took part in e-learning course Academy of Hypothermia. PATIENTS AND METHODS: Materials and methods: The subject of analysis were the results of pre-test, post-test and lesson revision tests of Academy of Hypothermia e-learning course, taken by lifeguards (WOPR), board guards (SG) and policemen (POL). RESULTS: Results: 221 participants were enrolled in a study. Lifeguards were significantly younger than other groups (mean age respectively: 34,13 years SG; 32,95 years POL and 23,31 years WOPR; p< 0,001) and median work experience (respectively: 10 years SG, 8 years POL and 2 years WOPR; p< 0,001). Pre-test analysis showed significant difference in results of board guards and lifeguards (median and q1-q3 values respectively: 61%; 43%-92% for SG and 53%; 46%-69% for WOPR, p = 0,02). Post-test analysis proved significantly better results of board guards (median and q1-q3 values: 92%; 77%-100%) in comparison to policemen (median and q1-q3 values: 85%; 69%-92%) and lifeguards (median and q1-q3 values: 85%; 69%-92%). Extra analysis was performed for lesson revision tests. The least correct answers were noted in lessons covering the topic of post trauma hypothermia and the algorithm of hypothermia casualty management. CONCLUSION: Conclusions: Lifeguards have least knowledge on accidental hypothermia than board guards and policemen. E-learning course is an effective tool for improving knowledge of hypothermia recognition and treatment.
Subject(s)
Computer-Assisted Instruction , Emergency Responders/education , Hypothermia , Adolescent , Adult , Female , Humans , Male , Young AdultABSTRACT
Fast and accurate measurement of core body temperature is crucial for accidental hypothermia treatment. We have developed a novel light and small adapter to the headset jack of a mobile phone based on Android. It has been applied to measure temperature and set up automatic notifications (e.g. Global Positioning System coordinates to emergency services dispatcher, ECMO coordinator). Its validity was confirmed in comparison with Vital Signs Monitor Spacelabs Healthcare Elance 93300 as a reference method, in a series of 260 measurements in the temperature range of 10-42 °C. Measurement repeatability was verified in a battery of 600 measurements (i.e. 100 readings at three points of 10, 25, 42 °C for both esophageal and tympanic catheters). Inter-method difference of ≤0.5 °C was found for 98.5% for esophageal catheter and 100% for tympanic catheter measurements, with concordance correlation coefficient of 0.99 for both. The readings were almost completely repeatable with water bath measurements (difference of ≤0.5 °C in 10 °C: 100% for both catheters; in 25 °C: 99% for esophageal catheter and 100% tympanic catheter; in 42 °C: 100% for both catheters). This lightweight adapter attached to smartphone and standard disposable probes is a promising tool to be applied on-site for temperature measurement in patients at risk of hypothermia.
Subject(s)
Body Temperature , Monitoring, Physiologic/instrumentation , Smartphone , Catheterization , Equipment Design , Humans , Hypothermia/diagnosis , Point-of-Care Systems , Reproducibility of Results , Signal Processing, Computer-Assisted , Thermometers , Tympanic Membrane , Vital SignsABSTRACT
BACKGROUND: Application of appropriate method of rewarming is the key issue in the management of hypothermia. Severely hypothermic, life-threatened patients require advanced extracorporeal rewarming. Such procedure is not free of possible complications, yet, if the qualification for extracorporeal rewarming is correct, it guarantees restoration of hemodynamic stability, and what is the most important, leads to full neurologic recovery, even with long resuscitation times. THE AIM: The summary of complications observed during extracorporeal rewarming with ECMO in severely hypothermic patients and analysis of their prevalence in managed group. Presentation of possible etiology and means of prevention of anticipated complications and suggested strategies of their treatment. MATERIALS AND METHODS: Retrospective analysis of medical records of all 33 patients with severe accidental hypothermia, accepted for extracorporeal rewarming with venoarterial ECMO. CONCLUSIONS: Based on reviewed medical records of severely hypothermic patients subjected to extracorporeal rewarming it was possible to identify these complications of management, that are hypothermia related, and which are not to be seen in patients treated with ECMO for other reasons.
Subject(s)
Extracorporeal Membrane Oxygenation/adverse effects , Hypothermia/therapy , Rewarming , Humans , Retrospective StudiesABSTRACT
Polish Medical Air Rescue is tasked to deal with the most serious incidents associated with life threatening situations, in multiple circumstances. As a consequence, medical personnel have to meet high standards of education and show a continuous theoretical and practical development of the skills which are necessary during medical treatment. Thanks to the introduction of ECMO treatment for accidental hypothermia patients, new clinical and operational possibilities have arisen, so more patients can be saved with a very good neurological outcome. AIM: To analyze the data on hypothermia collected by the personnel of Polish Medical Air Rescue and to assess the e-learning platform as an educational tool. MATERIALS AND METHODS: 123 persons were involved. The subject of analysis were the e-learning platform results of the Polish Medical Air Rescue medical personnel. The e-learning consisted of a pre-test, 8 lessons followed by MCQ's (multi choice questions) and a post-test. RESULTS AND CONCLUSIONS: We could not prove a statistically significant difference in the knowledge about hypothermia between doctors and other medical professionals. Post-traumatic hypothermia and associated coagulation disturbances are two important topics requiring particular focus during the design of further educational and training projects. As a consequence of the training, both groups significantly improved their knowledge: i.e. a statistically significant improvement of knowledge about hypothermia between pre-test and post-test results in both groups was shown. The hypothermia e-learning platform for medical personnel is an effective educational tool.
Subject(s)
Air Ambulances , Attitude of Health Personnel , Emergency Service, Hospital/standards , Health Knowledge, Attitudes, Practice , Hypothermia/therapy , Adult , Emergency Medical Services , Female , Humans , Male , PolandABSTRACT
OBJECTIVES: When establishing the Severe Hypothermia Treatment Centre, certain problems and pitfalls regarding the qualification for extracorporeal rewarming were encountered. The authors shared their experience and opened a discussion with other centers that deal with severe, accidental hypothermia. DESIGN: Retrospective analysis of medical records of all patients examined by the hypothermia coordinator. SETTING: Patients consulted and treated by the Severe Hypothermia Treatment Centre. PARTICIPANTS: Patients who underwent accidental hypothermia. INTERVENTIONS: From July 2013 until January 2016, hypothermia coordinators at the Severe Hypothermia Treatment Centre examined the cases of 152 hypothermic patients. Of those cases, 127 patients were subjected to noninvasive rewarming in referral hospitals and 25 were accepted to the center for extracorporeal rewarming. MEASUREMENTS AND MAIN RESULTS: Difficulties that deferred or delayed the implementation of extracorporeal membrane oxygen rewarming were identified and addressed, including low platelet/red blood count, intraperitoneal fluid of unknown origin, abnormal results of head computed tomography, extremes of age, bleeding from the external auditory meatus, inaccuracy of infrared-based thermometers, iatrogenic trauma to the femoral vessels, chronic/terminal comorbidities, poisonings, pregnancy, hypoglycemia, hemodynamic stability despite severe hypothermia, and decontamination protocol. CONCLUSIONS: The problems discussed may delay the use of extracorporeal membrane oxygen rewarming in hypothermic patients but should not discourage medical teams from the implementation of extracorporeal rewarming. The prognosis for severe hypothermia is favorable, even with a long resuscitation time and low core temperatures.
Subject(s)
Hypothermia/therapy , Rewarming/methods , Accidents , Adolescent , Adult , Aged , Aged, 80 and over , Child , Child, Preschool , Female , Humans , Male , Middle Aged , Pregnancy , Retrospective Studies , Treatment Outcome , Young AdultABSTRACT
The objectives: To show and discuss the most frequent functional problems encountered in patients who underwent extracorporeal membrane oxygenation (ECMO) treatment after severe hypothermia and point out appropriate physiotherapy procedures used in order to diminish the effects of hypothermia on the human organism. It is necessary to look for effective physiotherapeutic solutions, especially that the number of scientific publications on the subject is very limited. DESIGN: Retrospective analysis Setting: Severe Accidental Hypothermia Center ( medical intensive care unit of a university hospital) Patients or participants: Nineteen patients who were qualified for ECMO in Severe Accidental Hypothermia Center Intervention: At least three times a day rehabilitation session (physiotherapeutic procedures adequate to patient problems) and interventions in case of emergency. Physiotherapy staff in the Center has regular work hours and night duties, so can provide round-the clock rehabilitation treatment adjusted to the dynamically changing clinical picture of the patient. METHODS AND RESULTS: We analyzed the group of patients who were treated in our center from July 2013 to March 2015. The degree of functional complications increased with the duration and extent of hypothermia and time of conducting extracorporeal therapy. The frequent problems were: respiratory failure due to sputum retention (25%) or sternum fracture due to resuscitation (25%), lower and upper extremity muscle weakening (75%), peroneal nerve palsy (25%). In the first period of hospitalization all of patients have generalised edema. As a result of the treatment and rehabilitation, full stabilization of the cardiovascular - respiratory system and full recovery of neurological functions was achieved in 14 persons (73.68%). CONCLUSION: early and round-the clock physiotherapy treatment adequate to appearing patient's syndromes seems crucial for his physical and mental recovery after severe accidental hypothermia treated by ECMO support. In order to attain therapeutic success, it is indispensable to work in experienced, multidisciplinary team.
Subject(s)
Extracorporeal Membrane Oxygenation/adverse effects , Hypothermia/therapy , Adult , Aged, 80 and over , Female , Humans , Hypothermia/complications , Hypothermia/rehabilitation , Male , Middle Aged , Retrospective StudiesABSTRACT
The objectives: To show and discuss the most frequent functional problems encountered in patients who underwent extracorporeal membrane oxygenation (ECMO) treatment after severe hypothermia and point out appropriate physiotherapy procedures used in order to diminish the effects of hypothermia on the human organism. It is necessary to look for effective physiotherapeutic solutions, especially that the number of scientific publications on the subject is very limited. DESIGN: Retrospective analysis Setting: Severe Accidental Hypothermia Center ( medical intensive care unit of a university hospital) Patients or participants: Nineteen patients who were qualified for ECMO in Severe Accidental Hypothermia Center Intervention: At least three times a day rehabilitation session (physiotherapeutic procedures adequate to patient problems) and interventions in case of emergency. Physiotherapy staff in the Center has regular work hours and night duties, so can provide round-the clock rehabilitation treatment adjusted to the dynamically changing clinical picture of the patient. METHODS AND RESULTS: We analyzed the group of patients who were treated in our center from July 2013 to March 2015. The degree of functional complications increased with the duration and extent of hypothermia and time of conducting extracorporeal therapy. The frequent problems were: respiratory failure due to sputum retention (25%) or sternum fracture due to resuscitation (25%), lower and upper extremity muscle weakening (75%), peroneal nerve palsy (25%). In the first period of hospitalization all of patients have generalised edema. As a result of the treatment and rehabilitation, full stabilization of the cardiovascular - respiratory system and full recovery of neurological functions was achieved in 14 persons (73.68%). CONCLUSION: early and round-the clock physiotherapy treatment adequate to appearing patient's syndromes seems crucial for his physical and mental recovery after severe accidental hypothermia treated by ECMO support. In order to attain therapeutic success, it is indispensable to work in experienced, multidisciplinary team.
Subject(s)
Extracorporeal Membrane Oxygenation , Hypothermia/therapy , Respiratory Insufficiency , Hospitalization , Humans , Retrospective Studies , Treatment OutcomeABSTRACT
INTRODUCTION: Accidental hypothermia is a condition associated with significant morbidity and mortality. Hypothermia has been reported to affect left ventricular systolic and diastolic function. However, most of the data come from animal experimental studies. AIM OF THE STUDY: The purpose of the present study was to assess the impact of severe accidental hypothermia on systolic and diastolic ventricular function in patients treated using veno-arterial extracorporeal membrane oxygenation (ECMO). METHODS: We prospectively assessed nine hypothermic patients (8 male, age 25-78 years) who were transferred to the Severe Accidental Hypothermia Center and treated with ECMO. Transthoracic echocardiography was performed on admission (in patients without cardiac arrest) and on discharge from ICU after achieving cardiovascular stability. Cardiorespiratory stability and full neurologic recovery was achieved in all patients. RESULTS: Biomarkers of myocardial damage (CK, CKMB, hsTnT) were significantly elevated in all study patients. Admission echocardiography performed in patients in sinus rhythm, revealed moderate-severe bi-ventricular systolic dysfunction and moderate bi-ventricular diastolic dysfunction. Discharge echocardiography showed persistent mild bi-ventricular diastolic dysfunction, although systolic function of both ventricles returned to normal. Discharge echocardiography in patients admitted with cardiac arrest showed normal (5 patients) or moderately impaired (1 patient) global LV systolic function on discharge. However, mild or moderate LV diastolic dysfunction was observed in all 6 patients. Discharge RV systolic function was normal, whereas mild RV diastolic dysfunction was present in these patients. CONCLUSION: After severe accidental hypothermia bi-ventricular diastolic dysfunction persists despite systolic function recovery in survivors treated with ECMO.