Microsoft word - networkacute_chest_syndrome_v3rk slt1 _2_.docx_final from rachel nov 2012_for web.doc
Guidelines for the Diagnosis and Management of Acute Chest Syndrome in Adults with Sickle Cell Disease
Guidelines for the Diagnosis and Management of Acute Chest Syndrome in Adults with Sickle Cell Disease Acute chest syndrome (ACS) is a serious and potentially life threatening complication of sickle cell disease. Clinical progression can be rapid, leading to respiratory failure. Vigilance throughout admission for the development of this complication is essential. Early recognition and prompt intervention usually results in clinical improvement. Conversely, delay in recognition and treatment can lead to adverse outcomes. ACS occurs in all genotypes of sickle cell disease (SCD). Clinical features Hypoxia, tachypnoea, shortness of breath and tachycardia are the cardinal features of chest syndrome. Some of the other features outlined below may also be present.
• Hypoxia- oxygen saturation <94% or more than 3% below baseline
Chest signs include crepitations, bronchial breath sounds, reduced air entry and dul ness to percussion. Rhonchi may be heard. In the early stages, chest examination may be normal. Diagnosing ACS:
• ACS is largely a clinical diagnosis, particularly in the initial stages.
• Acute chest syndrome can be defined as the presence of a new pulmonary infiltrate on chest X-ray in combination
with respiratory symptoms and or fever in a patient with sickle cell disease. It is sometimes referred to as chest crisis. The chest X-ray may however be normal initially, even in the presence of significant respiratory distress.
If there is strong clinical suspicion of ACS, urgent management should not be delayed pending a chest X-ray. Close monitoring should be instituted together with supportive measures and urgent transfusion considered, particularly in the presence of severe hypoxia. • Vigilance in patients admitted with vaso-occlusive crisis and in the postoperative period is paramount. Patients may
have characteristic clinical features on initial presentation,however, 50% of patients with acute chest syndrome present initially with a painful crisis and then go on to develop ACS. There is also an increased risk of developing ACS post operatively particularly following abdominal surgery.
• Adequate monitoring on the ward is essential to prevent morbidity and mortality from this condition. At least four
hourly pulse oximetry and respiratory rate, as well as daily chest examination are essential. Any patient with oxygen saturation < 94% or a fall 3% or more from baseline needs to be reviewed by medical staff immediately and appropriate action taken. A chest X-ray is required in any patient with hypoxia, chest pain, respiratory symptoms or
Page 1 of 4
Guidelines for the Diagnosis and Management of Acute Chest Syndrome in Adults with Sickle Cell Disease
fever but must not delay the institution of urgent clinical management if the patient is very unwell or has rapidly progressive respiratory deterioration.
Aetiology The major causes of the acute chest syndrome are infection, fat embolism from infarcted bone marrow and intravascular pulmonary sequestration of sickle cel s, leading to lung injury and infarction. Bacterial pathogens and viruses are implicated.
Differential diagnosis of hypoxia in sickle cell disease
Clinically ACS may be indistinguishable from a purely infective episode. If in doubt, treat for both. All patients with ACS should receive intravenous antibiotics as part of their management.
Typical y presents with pleuritic chest pain, hypoxia and a normal chest X ray. D- dimers are usually not helpful in SCD, as they tend to be elevated. On clinical suspicion, a CT pulmonary angiogram should be performed and treatment dose heparin initiated pending CT report.
3. Over-narcosis (Opiate toxicity) 4. Underventilation due to pain 5. Fluid overload
Investigations
This should be performed on clinical suspicion of ACS. Findings range from an area of focal consolidation to extensive bilateral multi-lobe opacities. Lower lobe involvement occurs most commonly. Pleural effusions may be present. Be aware that radiology changes may lag behind clinical findings and the diagnosis should be considered even in the absence of radiological changes.
• Full blood count, reticulocyte count, serum biochemistry, LDH, clotting screen, HbS%, CRP
o Blood cultures in all cases o Sputum m,c&s o Sputum viral DNA PCR/culture o Atypical serology (repeat after 3 weeks) o Urine for legionella and pneumococcal antigen o Nasopharyngeal aspirate- consider if coryzal symptoms/ flu season
Management
• Involve Consultant Haematologist/Haematology SpR once ACS suspected
• Liaise with high dependency /intensive care unit as required. Early warning track and trigger systems should be in
place. Some patients will require ventilatory support.
Vital signs including sedation scores will need to be assessed more frequently than done routinely. Continuous pulse oximetry is desirable. Clinical review at least four hourly.
Page 2 of 4
Guidelines for the Diagnosis and Management of Acute Chest Syndrome in Adults with Sickle Cell Disease
In ACS, consider blood transfusion early. The degree of hypoxia and respiratory compromise partly governs the need for and mode of blood transfusion. Prompt transfusion often results in a fairly rapid response as timing rather than target haemoglobin S% is important at this stage. Simple top up transfusion may suffice early in the course of ACS and may also be used if Hb <6g/dl,aiming for a post transfusion haemoglobin no greater than 10g/dl. When indicated, exchange transfusion should be carried out, manually if automated red cell exchange is not readily available. Exchange transfusion is indicated in the following circumstances
o PaO2 < 8kPa on air o Deteriorating patient o Respiratory distress o Multi-lobe infiltrates o When a top up transfusion is likely to result in a detrimental increase in blood viscosity o In the presence of other significant acute organ dysfunction o Progression or limited improvement following top up transfusion.
Exchange blood transfusion in this setting, should preferably be carried out on a monitored unit such as HDU. Blood should be sickle negative, preferably less than 7 days old and also matched for Rh D, C, E, c, e as well as Kell antigens.
Aim to keep oxygen saturations >96%.
• Chest physiotherapy should be undertaken.
Incentive spirometry has been shown to be beneficial in children. • Antimicrobials
Broad-spectrum antibiotics including cover for atypical organisms. The choice is guided by local policy e.g. intravenous augmentin/cefuroxime/ceftriaxone and oral clarithromycin/doxycycline. Close liaison with microbiology is helpful. Specific guidance is required for pandemic flu.
Oral or intravenous fluids with care taken to avoid fluid overload. A fluid balance chart should be maintained.
Adequate analgesia in patients with rib, thoracic or abdominal pain is recommended so as to prevent splinting of the diaphragm and the consequent vicious cycle of hypoventilation, atelectasis, hypoxia and sickling that can occur. Due consideration should be given to the optimal safe use of opiates. Monitoring to prevent over narcosis and hypoventilation should be in place. Non-steroidal anti-inflammatory drugs are useful.
Low molecular weight heparin such as 40mg Clexane subcutaneously is recommended in the absence of any contraindications.
Beneficial particularly in the presence of reactive airway signs or if there is history of asthma.
Page 3 of 4
Guidelines for the Diagnosis and Management of Acute Chest Syndrome in Adults with Sickle Cell Disease
Prevention
Patients who present in sickle crisis with chest, sternal, rib or back pain, and post abdominal surgery should commence incentive spirometry or chest physiotherapy.
Hydroxycarbamide has been shown to reduce the incidence of ACS and should be considered in any patient who has 1 or more episode of acute chest syndrome.
This should be considered prior to surgery in patients deemed to be particularly at risk taking into account past history of ACS, severity of phenotype and or type of surgery planned.
o Optimize vaccination status o Penicillin prophylaxis (erythromycin if allergic to penicillin) o Smoking cessation o Consider echocardiogram and pulmonary function tests– at least 4 weeks following acute episode
References:
1. Vichinksy EP, Neumayr MD, Earles AN et al. Causes and outcomes of the acute chest syndrome in sickle
cell disease. National Acute Chest Syndrome Study Group.N Engl J Med 2000;342(25):1855-65
2. Gladwin MT, Vichinsky E. Pulmonary complications of Sickle Cell Disease. N Engl J Med
Lead Authors: Dr Moji Awogbade Dr Jo Howard Dr Tullie Yeghen Dr Mary Clarke Prof Swee Lay Thein Lead Editor: Dr Rachel Kesse-Adu Approved for publication: November 2012
Page 4 of 4
Tien-Yu Shieh General Information : Address: 100 Shi-Chuan 1st Road, San Ming District, Kaohsiung City.| Tel No:886-7-3121101 ext 2338 Fax No:886-7-3135340 E-mail:[email protected] Position Title : Director, Graduate Institute of Oral Health Research Center Kaohsiung Medical Professor, Graduate Institute of Oral Health Sciences, Kaohsiun
Industria ArgentinaVenta bajo receta archivadaFORMULAS: Cada comprimido dispersable contiene:EPILEPAX® 25: Lamotrigina 25 mgEPILEPAX® 50: Lamotrigina 50 mgEPILEPAX® 100: Lamotrigina 100 mgEPILEPAX® 200: Lamotrigina 200 mgExcipientes: hidroxipropilcelulosa de bajo grado de sustitución, carbonato de calcio, almidón glicolato sódico, povidona K30, estearato de magnesio, sacarina sódica, esen