Adult Respiratory distress syndrome Adult Respiratory Distress Syndrome Essay, Research Paper ARDS (adult respiratory distress syndrome) Disease Table Of Contents: ? Alternative names? Definition? Pathophysiology? Causes, incidence, and risk factors? Prognosis / Mortality? Prevention? Symptoms? Signs and tests? Treatment? Complications? Calling your health care provider Alternative names: stiff lung; shock lung; pump lung; acute respiratory distress syndrome; congestive atelectasis Definition: Adult (acute) respiratory distress syndrome (ARDS) is the rapid onset of progressive malfunction of the lungs, especially with regard to the ability to take in oxygen, usually associated with the malfunction of other organs. The condition is associated with extensive pulmonary inflammation and small blood vessel injury in all affected organs. ARDS has a fatality rate of approximately 50% despite supportive therapy, including assisted respiration. It is difficult to estimate the incidence of ARDS because it is often associated with other severe illnesses. But it is a common problem in hospital intensive care units.
The incidence of ARDS has been difficult to determine, due partly to the variety of causes. Various published estimates have ranged from 1. 5 to 71 cases per 100, 000 population. Other figures suggest the occurrence of 13, 000 to 27, 000 cases annually. Pathophysiology ARDS is the end result of acute alveolar injury caused by a variety of insults and probably initiated by different mechanisms. The initial injury is to either the capillary endothelium or alveolar epithelium.
The Essay on Acute Respiratory Distress Syndrome: A Lung Inflammation
... of the disease. It had been named shock lung, non-cardiogenic pulmonary edema, and adult respiratory distress syndrome (Marino 419). However, since the reports of ... name was again changed, permanently, to acute respiratory distress syndrome. Varied factors may cause the origin of ARDS in a patient. The disease may ...
There is increased capillary permeability, Organization and scarring follows. The capillary defect is produced by an interaction of inflammatory cells and mediators, including leukocytes, cytokines, oxygen radicals, complement and arachidonate metabolites, that damages the endothelium and allows fluid and proteins to leak. Endotoxin, neutrophils and macrophages may also play key roles in the pathogenesis of ARDS. ARDS results from widespread acute injury to the alveolar capillary membrane.
This produces high permeability edema, visible on the chest x-ray. It also inhibits surfactant function (especially fibrin monomers).
Epithelial injury also impairs new surfactant synthesis. Inflammation may exacerbate the injury because of release of oxidants and lysosomal enzymes from activated leukocytes. Lung compliance (delta V) / (delta P) is decreased because many airspace? s contain edema (and hence cannot accept air) and because abnormally high surface tension counteracts the negative intra pleural pressure. Causes, incidence, and risk factors: ARDS is a medical emergency.
It may be caused by a variety of conditions that directly or indirectly cause the blood vessels to “leak’ fluid into the lungs. The ability of the lungs to expand is severely decreased and damage to the air sacs and lining (endothelium) of the lung is extensive. Blood concentration of oxygen remains very low in spite of high concentrations of supplemental oxygen given to the patient. Systemic causes of lung injury include trauma, head injury, shock, sepsis, multiple blood transfusions, and medications. Pulmonary causes include pulmonary embolism, severe pneumonia, smoke inhalation, radiation, high altitude, near drowning, and more.
Symptoms usually develop within 24 to 48 hours of the injury or illness. Cigarette smoking may be a risk factor. The incidence is 1 out of 100, 000 people. ARDS is commonly precipitated by trauma, sepsis (systemic infection), diffuse pneumonia and shock. It may be associated with extensive surgery, and certain blood abnormalities. Less common causes include drowning and inhalation of toxic gases.
The Essay on Ebola Virus Patients Web Blood
The Ebola Virus Cause of Disorder Ebola is a virus and part of the negative-stranded RNA family known as filo virus. It was discovered in 1976 in Africa and was named after a river in Zaire. When the virus is looked at under an electron microscope the filoviridae appear as being long, thin and occasionally they have 'branches's p routing from one place or another. Ebola can also take the form of a ...
In half the cases, onset occurs within 24 hours of the original illness or injury; in nearly all, it occurs within three days. Prognosis / Mortality The death rate estimates a range from 30-70% Although survivors usually recover normal lung function, some individuals may suffer permanent lung damage, which can range from mild to severe. Recent data suggests that on average more than 40 percent die from ARDS. This data accounts for direct deaths resulting from not recovering from ARDS. The data does not account for deaths among survivors which may be causally related due to medical conditions arising or effected by the encounter with ARDS. Since ARDS was first described in 1967, the prognosis has improved slightly despite rapid advancements in medical science and technology.
Statistical data reveals that approximately one half of who develop ARDS each year will survive in the United States and other countries which have well trained medical personnel and facilities for treating ARDS patients. Younger people and those who have fewer chronic health problems are more likely to recover. It is known that people with a milder form of ARDS tend to have a better chance of recovering than those with a more severe form of the illness. It is also known that the cause of a patient’s ARDS helps predict that patient’s chances for survival.
For example, patients who develop ARDS due to sepsis usually do not do as well as patients whose ARDS is related to trauma. Finally, those patients who do survive after developing ARDS usually improve over several months with a return to normal or near normal lung function. Prevention: ? No measures to prevent ARDS are presently known. Symptoms: ? labored, rapid breathing? nasal flaring? cyanosis blue skin, lips, and nails caused by lack of oxygen to the tissues? breathing difficulty? anxiety, stress, and tension Additional symptoms that may be associated with this disease: ? joint stiffness? joint pain? breathing, absent temporarily Signs and tests: ? Chest auscultation (examination with a stethoscope) reveals abnormal breath sounds.
Tests used in the diagnosis of ARDS include: ? chest X-ray? arterial blood gas Treatment: ? The objective of treatment is to provide compensation for the severe dysfunction of the respiratory system and treat the underlying cause of the lung injury. ? Oxygen is used to treat hypoxia, often at high concentrations (100% oxygen concentration may be needed).
The Essay on The mechanism of breathing and its control
An essay on the mechanism of breathing and its control The basic mechanisms involved in inspiration and expiration are as follows; 1)Inspiration The contraction of the diaphragm and external intercostals muscles leading to an expansion of the lungs. This expansion means there is an increase in the volume of the thorax and a decrease in intrapulmonary pressure. A pressure gradient is therefore ...
? Intubation, passing a tube through the nose or the mouth into the trachea (airway), is often necessary. Mechanical ventilation or a respirator (a machine used to aid the breathing) is usually necessary for further support of the respiratory system. This treatment is continued until gradual weaning from the mechanism is tolerated. ? Medications may be indicated to treat infections, reduce inflammation, and eliminate fluid within the lungs.
? The stress of illness can often be helped by joining support groups where members share common experiences and problems. See lung disease – support group. Treatment for ARDS consists of mechanical ventilation along with fluid removal and a supportive breathing technique called positive end expiratory pressure (PEEP).
These are combined with continuing treatment of the precipitating illness or injury.
There are many experimental therapies that show promise for the treatment of ARDS. These include replacement surfactant and the use of anti-inflammatory agents. Complications: ? multiple organ system failures Calling your health care provider: ? If breathing difficulty or other symptoms of ARDS develop call the local emergency number (such as 999) or go to the emergency room. Summary? ARDS is less a disease and more the end result of a variety of severe injuries that have in common the activation of the complement system.
? The first well-described cause of ARDS was traumatic shock sustained after non-thoracic injury (shock lung).
? ARDS is a clinical syndrome characterized by the sudden onset of severe shortness of breath, tachycardia, and profound hypoxia refractory to oxygen therapy. Some degree of pulmonary edema is present on chest X-ray. ? Common causes of ARDS include: septic shock, traumatic shock, diffuse viral pneumonia? s, oxygen therapy toxicity, inhaled toxins and irritants, narcotic overdose, hypersensitivity reactions to organic solvents, cardiac surgery with an extracorporeal pump and aspiration pneumonitis.
The Term Paper on Gene They Therapy Genetic Disease
Human Gene Therapy "To much of the general public, genetic engineering is a vague notion of high tech manipulation of plants and animals. Its results too difficult to understand" (Cowen 18). It was not until this century that humans were granted a glimpse into the possible origins of biological inheritance. Scientists have only been aware of the existence of the hereditary factors, known as genes, ...
? The currently accepted pathogenesis of ARDS begins with the release of mediators (like complement C 5 a, platelet activating factor, leukotriene B 4) into the blood that result in leukocyte aggregation in the lungs. Stimulated neutrophils release oxygen free radicals, lysosomal enzymes and products of arachidonic acid that damage the lung capillaries and alveolar epithelium. ? Damaged endothelium of the capillaries allows fluid to leak from the blood. Further chemical damage by neutrophils destroys alveolar lining cells. ? The result is the accumulation of serum, fibrin and dead cell debris in the alveoli.
? Pink glassy membranes form on the insides of the alveoli. These pink membranes are called hyaline membranes. ? Once hyaline membranes have formed, no surfactant is present in the alveoli so they tend to collapse (atelectasis).
The combination of atelectasis and edema make the lung stiff and noncompliant. ? Many patients with ARDS progress to a phase of the disease where healing occurs by fibrosis of the lung (organizing stage).
? Most patients who develop ARDS have some other condition that brings them to the hospital.
Once ARDS develops, there is a 50% mortality. ? There is no effective therapy for ARDS once it has begun. Only resolving the initial injury (e. g. treating the initial sepsis) and supportive care are useful. Some patients will resolve their ARDS completely with few sequela.
QUESTIONS TO CONSIDER AS LEARNING OBJECTIVES: ? The Vietnam conflict highlighted this war-related etiology of ARDS. ? This component of the compliment system is the first to be triggered in ARDS. ? This cellular event is the second step in the pathogenesis of ARDS. ? These toxic substances are produced by neutrophils and are felt to induce vascular and epithelial damage with permeability and resultant edema. ? While many pulmonary diseases may produce “white-out’ on the chest X-ray, ARDS can be distinguished by this aspect of its presentation. ? A hallmark of ARDS pathologically are these glassy pink membranes that line the insides of alveoli.
The Essay on Voyage to the Lungs and Out the Nose
Today we are going to be entering the right femoral vein of a healthy female. I am your pilot Kierra Lewis. While we embark on this journey, make sure that you keep your hands and feet inside the submarine at all times. Fasten your seat belts and let’s start our journey! We will begin our journey in the femoral vein. As you can see the femoral vein is a blood vessel that is responsible for ...
? The mortality rate for ARDS may be as high as this figure. ? The chest X-ray in ARDS can be described best by this term. ? Some therapies may inherently aggravate ARDS which is what makes this manifestation of ARDS, the most difficult to manage. ? The stiff lungs of ARDS are produced initially by these two related events.