重症的聲音被聽見!
健保署繼新增給付「經鼻高流量濕化氧氣治療」(HFNC)在COVID-19的治療後,今天再新增「俯臥通氣治療」(Prone positioning therapy,俗稱「超人姿勢」)的給付!
HFNC 1,745點/每日
俯臥通氣治療 4,938點/每日
健保 署於6/10僅通過HFNC給付,
而「超人姿勢」,健保僅同意以原有的「體位引流」支付(每次140點),但
放寬一天只能申報2次的限制。
這個給付項目,其實名不符實,因為「俯臥通氣治療」和「體位引流」差很多,而且,這樣的給付,真的讓人很辛酸。
昨天6/17,健保署聽到了重症醫師的聲音,新增「俯臥通氣治療」的給付4,938點/每日。(但是,限COVID-19合併ARDS,有插管使用呼吸器的病人申報)
這兩項都是在ICU重症醫療行之有年的治療,以前都未獲得給付,此次雖然通過給付,但是都僅限於COVID-19病人申報,未來希望健保署能擴大給付因為其他疾病造成的低血氧、ARDS的病人申報。
另外,也希望衛福部,能夠盡早給重症醫師一個「名份」— 「部定專科醫師」!
大家一起同心協力抗疫
物資、人力、名份都要到位
同時也有10000部Youtube影片,追蹤數超過2,910的網紅コバにゃんチャンネル,也在其Youtube影片中提到,...
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ARDS 的血行動力學
Experts’ opinion on management of hemodynamics in ARDS patients: focus on the effects of mechanical ventilation
Acute respiratory distress syndrome (ARDS) is frequently associated with hemodynamic instability which appears as the main factor associated with mortality. Shock is driven by pulmonary hypertension, deleterious effects of mechanical ventilation (MV) on right ventricular (RV) function, and associated-sepsis. Hemodynamic effects of ventilation are due to changes in pleural pressure (Ppl) and changes in transpulmonary pressure (TP). TP affects RV afterload, whereas changes in Ppl affect venous return. Tidal forces and positive end-expiratory pressure (PEEP) increase pulmonary vascular resistance (PVR) in direct proportion to their effects on mean airway pressure (mPaw). The acutely injured lung has a reduced capacity to accommodate flowing blood and increases of blood flow accentuate fluid filtration. The dynamics of vascular pressure may contribute to ventilator-induced injury (VILI). In order to optimize perfusion, improve gas exchange, and minimize VILI risk, monitoring hemodynamics is important.
During passive ventilation pulse pressure variations are a predictor of fluid responsiveness when conditions to ensure its validity are observed, but may also reflect afterload effects of MV. Central venous pressure can be helpful to monitor the response of RV function to treatment. Echocardiography is suitable to visualize the RV and to detect acute cor pulmonale (ACP), which occurs in 20–25 % of cases. Inserting a pulmonary artery catheter may be useful to measure/calculate pulmonary artery pressure, pulmonary and systemic vascular resistance, and cardiac output. These last two indexes may be misleading, however, in cases of West zones 2 or 1 and tricuspid regurgitation associated with RV dilatation. Transpulmonary thermodilution may be useful to evaluate extravascular lung water and the pulmonary vascular permeability index. To ensure adequate intravascular volume is the first goal of hemodynamic support in patients with shock. The benefit and risk balance of fluid expansion has to be carefully evaluated since it may improve systemic perfusion but also may decrease ventilator-free days, increase pulmonary edema, and promote RV failure. ACP can be prevented or treated by applying RV protective MV (low driving pressure, limited hypercapnia, PEEP adapted to lung recruitability) and by prone positioning. In cases of shock that do not respond to intravascular fluid administration, norepinephrine infusion and vasodilators inhalation may improve RV function. Extracorporeal membrane oxygenation (ECMO) has the potential to be the cause of, as well as a remedy for, hemodynamic problems. Continuous thermodilution-based and pulse contour analysis-based cardiac output monitoring are not recommended in patients treated with ECMO, since the results are frequently inaccurate. Extracorporeal CO2 removal, which could have the capability to reduce hypercapnia/acidosis-induced ACP, cannot currently be recommended because of the lack of sufficient data.
http://bit.ly/1Xdb1Kv
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ARDS
Do we need ARDS? This is a good question, isn’t it?
by Jean-Louis Vincent, Carlos Santacruz
After all, once we’ve made a diagnosis of ARDS (acute respiratory distress syndrome), what do we actually do with it? Does it really change the way we treat these patients? In Berlin, we revisited the criteria for ARDS diagnosis [1], but was this a major advance? Some years ago, one would have claimed that a diagnosis of ARDS indicated that a protective ventilation strategy using small tidal volumes was needed. However, we have now learned that this strategy is also of use in patients at risk of ARDS, and, even more, that it should be used in all ventilated patients, even for short periods of time during surgery [2]. Hence, because we also need to apply some positive end-expiratory pressure (PEEP) in severe hypoxemia, identification of ARDS does not mean different ventilator settings. Profound sedation, even with muscle relaxants, may be needed in all forms of severe respiratory failure, to improve tolerance to extreme respiratory conditions. Likewise, we have not been able to develop any specific pharmacologic intervention for ARDS. Admittedly, one could argue that the label ‘ARDS’ is merely a marker of severity, highlighting a need for special care and attention, but this is also the case for other causes of severe hypoxemia.
A key issue is the notoriously heterogeneous nature of ARDS, as a result of the variety of associated diseases and also the underlying pathological alterations. Autopsy studies have revealed that many patients do not have the typical diffuse alveolar damage (DAD) pattern; in our experience, only 50 % of patients with a clinical diagnosis of ARDS who underwent autopsy had DAD [3]. In a very recent autopsy study, Lorente et al. [4] reported that DAD was associated with greater degrees of respiratory and general disease severity, and with a greater likelihood of death from shock. Kao et al. [5] reported that only 56 % of 101 patients with a clinical diagnosis of ARDS who underwent open lung biopsy had DAD; a pathological finding of DAD was associated with increased hospital mortality in these patients. Likewise, in 83 patients with ARDS who underwent open lung biopsy, Guerin et al. [6] reported that DAD, present in 58 % of these patients, was associated with more severe ARDS.
The risk is that, once a diagnosis of ARDS is made and the label attached, we may focus our attention on fine tuning mechanical ventilation and perhaps using prone positioning in severe cases (when practically feasible). We may think we have a diagnosis, so that the search for an underlying cause is neglected. Yet ARDS is not a specific disease and control of the cause is of paramount importance to maximize a patient’s chances of survival.
According to the standard criteria [1], a diagnosis of ARDS requires the presence of an identified risk factor. However, there are cases where the clinical presentation is identical, although there is no identified risk factor. Common causes of such ‘pseudo-ARDS’ cases were recently reviewed by Guerin et al. [7]. In a recent article in Intensive Care Medicine, Gibelin and colleagues [8] reviewed their experience at two large centers in Paris and found that 50 (7.5 %) of 665 patients labeled as ARDS in fact had ‘pseudo-ARDS’, because they did not have an identified risk factor. These patients in general had less severe acute illness and a slower progression of their respiratory failure. As expected, cancer, pulmonary fibrosis and vasculitis represented the majority of these cases, and this may explain the generally higher mortality rates in these patients. Importantly, some of these ‘pseudo-ARDS’ cases had potentially reversible conditions, and the use of corticosteroids may have been beneficial. Indeed, one could consider that corticosteroids were indicated in most, if not all, these patients, and were actually administered in 17/17 survivors and 25/33 non-survivors. The authors propose that this strategy should be studied prospectively, but we contend that the evidence in support of such an approach is already strong enough. In any case, a prospective study of these rare cases would hardly be feasible.
The key message is that we must always try to find a cause for severe acute respiratory failure. Indeed, this is a concept that can be generalized to any severe disease, and is also true for other syndromes, like sepsis, shock or coma. Even brain death needs to have a defined cause. Finding the underlying cause of the severe respiratory failure can not only help guide treatment but may also lead to earlier discontinuation of life support if a non-reversible, terminal condition is identified.
http://bit.ly/1SlGYxr
ards prone positioning 在 Prone Positioning for Acute Respiratory Distress Syndrome (ARDS ... 的推薦與評價
Some COVID-19 patients are experiencing acute respiratory distress syndrome (ARDS) and require mechanical ventilation. While a patient is on ... ... <看更多>