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Liatris Spicata( Gayfeather)

Botanical Name:Liatris spicata
Family: Asteraceae
Kingdom: Plantae
Division: Magnoliophyta
Class: Magnoliopsida
Order: Asterales
Genus: Liatris
Species: Liatris spicata

Synonyms: ‘Goblin’

Common Name:Gayfeather, Blazing Star, Dense blazing star, Spiked Blazing Star, Button Snakewot, Gayfeather, Spiked Gayfeather,
Habitat: Liatris spicata is native  to Eastern N. America – Pennsylvania and New Jersey to Wisconsin, south to Florida and Louisiana.Most open areas of North America east of the Mississippi; Canada to Florida and Mexico. It grows in meadows, borders of marshes, savannahs, damp slopes etc. Poor dry ridges.

Description:

Liatris spicata is a perennial plant, growing to 0.6 m (2ft) by 0.3 m (1ft in) at a medium rate.
Flower Color: Showy spikes on many tiny purple flowers
Plant Type: Perennial. Returns each spring from same roots, forming expanding clump. Blooms second spring from seed.
Flower Type: Tall spike of clustered tiny flowers
Bloom Time: Mid-season

Liatris spicata
Liatris spicata (Photo credit: Wikipedia)

You may click to see the picture

 

Cultivation :
Soil preference: Needs loose fast-draining soil.
Sun/Shade: Needs full sun.
Moisture Requirements: Average moisture, well-drained.
Instructions: This valued perennial takes some time. From seed, it is quite easy, as long as its native conditions of gritty, loose soil is there. If soil is heavy, it will take longer, since a bulbous root must develop.

This cultivar of a U.S. prairie plant offers the garden spikes of purple, fuzzy-looking flowers that open from the top down on plants up to 2 feet tall and 18 inches wide. The show starts in late summer and attracts butterflies and bees. Grow it in a moist meadow or border. The flowers are also beautiful in a vase.

Propagation:
Seed – best sown as soon as it is ripe in autumn in a greenhouse[200]. Sow stored seed as soon as possible in the year in a greenhouse. Prick out the seedlings into individual pots when they are large enough to handle and grow the plants on in the greenhouse for their first year. Plant them out into their permanent positions in early summer. Division in spring[1]. Larger clumps can be replanted direct into their permanent positions, though it is best to pot up smaller clumps and grow them on in a cold frame until they are rooting well. Plant them out in the spring. Basal cuttings taken in spring as growth commences. Harvest the shoots when they are about 10cm long with plenty of underground stem. Pot them up into individual pots and keep them in light shade in a cold frame or greenhouse until they are rooting well. Plant them out in the summer.

Medicinal Uses
Anodyne; Antibacterial; Astringent; Carminative; Diaphoretic; Diuretic; Emmenagogue; Expectorant; Stimulant; Tonic; VD.

The leaves and root are anodyne, antibacterial, astringent, carminative, diaphoretic, diuretic, emmenagogue, expectorant, stimulant and tonic. The plant is said to be extremely efficacious when used as a local application in the treatment of sore throats and gonorrhoea. It is also used in treating kidney diseases. The leaves are harvested in the summer, the roots in the autumn. Both can be used fresh or dried.

Liatris stimulates the stomach mildly, and is used as a tonic and antispasmodic, relieving colic and soothing irritation.

Other Uses:...Pot-pourri;  Repellent….The aromatic leaves and roots are added to pot-pourri. The leaves and the roots are added to various insect-repellent herbal mixtures

Known Hazards:  Although we have no records of toxicity for this plant, one record says that the leaves contain coumarins. These have an anti-clotting effect on the blood and can prevent natural clotting of the blood when there is a cut.

Disclaimer:The information presented herein is intended for educational purposes only. Individual results may vary, and before using any supplements, it is always advisable to consult with your own health care provider.

Resources:
http://www.gardenstew.com/plantstew/37944
http://wildflowerinformation.org/Wildflower.asp?ID=80&gclid=CIaRprjzupsCFRIeDQodlWRSAQ
http://www.finegardening.com/plantguide/liatris-spicata-kobold.aspx
http://www.pfaf.org/database/plants.php?Liatris+spicata
http://www.piam.com/mms_garden/plants.html

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Herbs & Plants

Candlenut

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Botanical Name: Aleurites moluccana
Family: Euphorbiaceae
Kingdom: Plantae
Division: Magnoliophyta
Class: Magnoliopsida
Order: Malpighiales
Genus: Aleurites
Species: A. moluccana
Other Names:Candleberry, Indian walnut, Kemiri, Varnish tree or Kukui nut tree.
Habitat:Native to Malaysia, Indonesia, the Philippines, and South Pacific Islands including Hawaii.
Common Names: Candlenuts, Indian walnut, Tahitian walnut, jangli akrot (Hindi), nattu-akrotu-kottai (Tamil), dakkuna (Sinhalese), phothisat (Thai), buah keras (Malay), kemiri (Indonesian)

Description:Its native range is impossible to establish precisely because of early spread by humans, and the tree is now widely distributed in the New and Old World tropics. It grows to a height of 15-25 m, with wide spreading or pendulous branches. The leaves are pale green, simple and ovate, or trilobed or rarely 5-lobed, with an acute apex, 10–20 cm long. The nut is round, 4–6 cm in diameter; the seed inside has a very hard seed coat and a high oil content, which allows its use as a candle, hence its name….CLICK & SEE

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Growing Environment: They grow very well in tropical climates with ample rainfall, but also adapt to dry climates. Candlenut’s need little if any care after they are established.

Cultivation: Moderate to abundant water; prefers a good drainage. Propagated by seed and takes 3-4 months to germinate. Use nuts that sink. Soak in hot water 5 minutes before planting. Seeds take 3-4 months to germinate. To transplant seedling, keep soil surrounding the start intact. Fruits are gathered twice per year. Gather fruits from trees or nuts from the ground. Throw away nuts that float in water. Kernels adhere to sides of shell and are difficult to separate. Seedlings planted 300/ha. Once established, trees require little to no attention.

Mythology:
In Hawaii the Candlenut tree is a symbol of enlightenment, protection and peace. Candlenut was considered to be the body form of Kamapua’a, the pig god. One of the legends told about a woman who, despite her best efforts to please her husband, was routinely beaten. Finally, the husband beat her to death and buried her under a kukui tree. Being a kind and just woman, she was given new life, and the husband was eventually killed.

Constituents: Moluccanin, moretenone, moretenol, alpha-amyrin, and beta-sitosterol. The oil cake, contains ca 46.2% protein, 4.4% P2O5, and 2.0% K2O and is said to be poisonous. A toxalbumin and HCN have been suggested. Bark contains ca 4–6% tannin. Oil also contains glycerides of linolenic, oleic and various linoleic acids. Per 100 g, the seed is reported to contain 626 calories, 7.0 g H2O, 19.0 g protein, 63.0 g fat, 8.0 g total carbohydrate, 3.0 g ash, 80 mg Ca, 200 mg P, 2.0 mg Fe, 0 mg beta-carotene equivalent, 0.06 mg thiamine, and 0 mg ascorbic acid. The fruit contains alkaloids. The nuts have 626 calories, 7 grams of water, 19 grams of protein, and 63 grams of fat. They also contain 8 grams of carbohydrates, 3 grams of ash, 80 milligrams of calcium, 200 milligrams of potassium, 2 milligrams of iron, and 0.06 milligrams of thiamine.

Different Uses :
Cooked nuts are generally edible, although some strains contain high amounts of cyanide. Usually the nut is pressed for its oil, which is used for a variety of industrial purposes like soapmaking, varnishes, and fuel. The oil is sometimes used medicinally similar to castor oil, as well as a laxative. In Southeast Asia, the oil is sometimes applied topically to treat headaches, fevers and swollen joints.

*The candle nut is similar (though “rougher”) in flavor and texture to the macadamia nut, which has a similarly high oil content. It is mildly toxic when raw.

*The nut is often used cooked in Indonesian cuisine and Malaysian, where it is called kemiri in Indonesian or buah keras in Malay. In Java of Indonesia, it is used to make a thick sauce which is eaten with vegetables and rice.

*In ancient Hawaii, the nuts, named kukui were burned to provide light. The nuts were strung in a row on a palm leaf midrib, lit one end, and burned one by one every 15 minutes or so. This led to their use as a measure of time. One could instruct someone to return home before the second nut burned out.

*In Tonga, still nowadays, ripe nuts, named tuitui are pounded into a paste, tukilamulamu, used as soap or shampoo.
Candle nuts are also roasted and mixed into a paste with salt to form a Hawaiian condiment known as inamona. Inamona is a key ingredient in traditional Hawaiian poke. It’s the Hawaiian state tree.

*Dead wood of candlenut is eaten by a larva of a coleoptera called Agrionome fairmairei. This larva is eaten by some people.

Modern cultivation is mostly for the oil. In plantations, each tree will produce 30–80 kg of nuts, and the nuts yield 15 to 20% of their weight in oil. Most of the oil is used locally rather than figuring in international trade.

Medicinal Uses: Several parts of the plant have been used in traditional medicine in most of the areas where it is native. The oil is an irritant and purgative and sometimes used like castor oil. The seed kernels have a laxative effect. In Japan its bark has been used on tumors. In Sumatra, , pounded seeds, burned with charcoal, are applied around the navel for costiveness. In Malaya, the pulped kernels or boiled leaves are used in poultices for headache, fevers, ulcers, swollen joints, and gonorrhea. In Java, the bark is used for bloody diarrhea or dysentery. In Sumatra, pounded seeds, burned with charcoal, are applied around the navel for cositiveness. Bark juice with coconut milk is used for sprue. The fruit is eaten to produce aphrodisiac stimulation and the gum from the bark is chewed for the same reason. The oil is sometimes used medicinally similar to castor oil, as well as a laxative. In Southeast Asia, the oil is sometimes applied topically to treat headaches, fevers and swollen joints. To treat sores or infections in the mouth and to soothe the gums of teething babies, healers pick green kukui nuts in the morning when the sap is running. They separate the stem from the husk of the nut, and a small pool of sap fills the resulting hole. They apply the sap topically on sores or mix it with water to make a mouthwash. Its partly dried sap is used to treat thrush (ea) and its leaves are used as poultice for swellings and infections.

Dosage: For constipation, 1 roasted nut. Topical as needed.

Toxicity: The nuts can be poisonous when raw, causing violent vomiting. In 1999 the media reported that a child became ill after eating raw candlenuts in a park in Brisbane. However others have eaten them raw without ill effects. Roasting destroys the toxin in the oil which causes these effects. The roasted nuts are delicious, and are reported to be nutritious and high in energy from the fat they contain. They can be used to tenderize meat. However particular trees produce a nut which has a high cyanide content, and if many roasted nuts are eaten at a time, they can cause stomach cramps and vomiting, so suitable selection methods need to be applied. Kukui is used as a “poison” in Haiti and Turkey. If too much kukui was taken in old Hawai’i, and diarrhea resulted, specially prepared Tacca leontopetaloides (pia) root was given with poi. Not for use in pregnancy. Not with diarrhea. Not with weak central Qi.

Cosmetic Uses: Oil is used topically to stimulate hair growth in Fiji. Kukui nut oil is high in the essential fatty acids linoleic and linolenic acids. These acids are vital for the metabolism of healthy skin. Vitamins A, C and E are added to stabilize the oil. Kukui nut oil is easily absorbed by the skin. It soothes irritated, sunburned, or burned skin. Surveys have shown that kukui nut oil can help relieve itchy and dry skin due to eczema, psoriasis and rosacea. You can use up to 10% kukui nut oil for a nourishing bar of soap or use it at 5-10% in your cream, lotion, balm and scrub formulations.

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Culinary Uses: The nut is often used cooked in Malaysian and Indonesian cuisine, where it is called buah keras or kemiri. In Java, it is used to make a thick sauce which is eaten with vegetables and rice. The nuts are roasted, then ground and mixed with Hawaiian salt and limu kohu to make a relish called “inamona”.

Other Uses: Seed yields 57–80% of inedible, semi-drying oil, liquid at ordinary temperatures, solidifying at 5°F, containing oleostearic acid. Oil, quicker drying than linseed oil, is used as a wood preservative, for varnishes and paint oil, as an illuminant, for soap making, waterproofing paper, rubber substitutes and insulating material. Seeds are moderately poisonous and press cake is used as fertilizer. Kernels when roasted and cooked are considered edible; may be strung as candlenuts. Oil is painted on bottoms of small crafts to .protect against marine borers. Tung oil, applied to cotton bolls, stops boil weevils from eating them. Also prevents feeding by striped cucumber beetle. In old Hawai’i soot from burning nuts were used for tattoos and fixed with the juice of Plumbago zeylanica (‘ilie’e). A superior black dye obtained from the soot produced by burning the seed, is used to dye the tapa and for tattooing. The seeds are strung into leis. The inner bark is used to dye the fishnets and the tannin in the dye strengthened nets and prevented decay. The soot from the burnt kukui nuts is also used to stain surfboards.

Disclaimer:The information presented herein is intended for educational purposes only. Individual results may vary, and before using any supplements, it is always advisable to consult with your own health care provider

Resources:
http://www.tradewindsfruit.com/candlenut.htm
http://en.wikipedia.org/wiki/Candle_nut
http://www.innvista.com/HEALTH/foods/seeds/candle.htm
http://www.herbnet.com/magazine/mag7_p05__candlenut.htm

 

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ARDS (Acute Respiratory Distress Syndrome)

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Alternative Names :
Non-cardiogenic pulmonary edema; Increased-permeability pulmonary edema; Stiff lung; Shock lung; Adult respiratory distress syndrome; Acute respiratory distress syndrome; Acute lung injury.

Definition:
Acute respiratory distress syndrome (ARDS) is breathing failure that can occur in critically ill persons with underlying illnesses. It is not a specific disease. Instead, it is a life-threatening condition that occurs when there is severe fluid buildup in both lungs. The fluid buildup prevents the lungs from working properly—that is, allowing the transfer of oxygen from air into the body and carbon dioxide out of the body into the air.

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In ARDS, the tiny blood vessels (capillaries) in the lungs or the air sacs (alveoli (al-VEE-uhl-eye)) are damaged because of an infection, injury, blood loss, or inhalation injury. Fluid leaks from the blood vessels into air sacs of the lungs. While some air sacs fill with fluid, others collapse. When the air sacs collapse or fill up with fluid, the lungs can no longer fill properly with air and the lungs become stiff. Without air entering the lungs properly, the amount of oxygen in the blood drops. When this happens, the person with ARDS must be given extra oxygen and may need the help of a breathing machine.

Breathing failure can occur very quickly after the condition begins. It may take only 1 or 2 days for fluid to build up. The process that causes ARDS may continue for weeks. If scarring occurs, this will make it harder for the lungs to take in oxygen and get rid of carbon dioxide.

In the past, only about 4 out of 10 people who developed ARDS survived. But today, with good care in a hospital’s intensive or critical care unit, many people (about 7 out of 10) with ARDS survive. Although many people who survive ARDS make a full recovery, some survivors have lasting damage to their lungs.

How the Lungs Work

To understand acute respiratory distress syndrome (ARDS), it is helpful to understand how your lungs work.

Normal Lung Function

A slice of normal lung looks like a pink sponge—filled with tiny bubbles or holes. Around each bubble is a fine network of tiny blood vessels. These bubbles, which are surrounded by blood vessels, give the lungs a large surface to exchange oxygen (into the blood where it is carried throughout the body) and carbon dioxide (out of the blood). This process is called gas exchange. Healthy lungs do this very well.

Here’s how normal breathing works:

  • You breathe in air through your nose and mouth. The air travels down through your windpipe (trachea) through large and small tubes in your lungs called bronchial (BRON-kee-ul) tubes. The larger tubes are bronchi (BRONK-eye), and the smaller tubes are bronchioles (BRON-kee-oles). Sometimes, we use the word “airways” to refer to the various tubes or passages that air uses to travel from the nose and mouth into the lungs. The airways in your lungs look something like an upside-down tree with many branches.
  • At the ends of the small bronchial tubes, there are groups of tiny bubbles called air sacs or alveoli. The bubbles have very thin walls, and small blood vessels called capillaries are next to them. Oxygen passes from the air sacs into the blood in these small blood vessels. At the same time, carbon dioxide passes from the blood into the air sacs.

Causes:
The causes of acute respiratory distress syndrome (ARDS) are not well understood. It can occur in many situations and in persons with or without a lung disease.

ARDS can be caused by any major lung inflammation or injury. Some common causes include pneumonia, septic shock, trauma, aspiration of vomit, or chemical inhalation. ARDS develops as inflammation and injury to the lung and causes a buildup of fluid in the air sacs. This fluid inhibits the passage of oxygen from the air into the bloodstream.

The fluid buildup also makes the lungs heavy and stiff, and the lungs’ ability to expand is severely decreased. Blood concentration of oxygen can remain dangerously low in spite of supplemental oxygen delivered by a mechanical ventilator (breathing machine) through an endotracheal tube (breathing tube).

Typically patients require care in an intensive care unit (ICU). Symptoms usually develop within 24 to 48 hours of the original injury or illness. ARDS often occurs along with the failure of other organ systems, such as the liver or the kidneys. Cigarette smoking and heavy alcohol use may be risk factors.

There are two ways that lung injury leading to ARDS can occur: through a direct injury to the lungs, or indirectly when a person is very sick or has a serious bodily injury. However, most sick or badly injured persons do not develop ARDS.

Direct Lung Injury

A direct injury to the lungs may result from breathing in harmful substances or an infection in the lungs. Some direct lung injuries that can lead to ARDS include:

  • Severe pneumonia (infection in the lungs)
  • Breathing in vomited stomach contents
  • Breathing in harmful fumes or smoke
  • A severe blow to the chest or other accident that bruises the lungs

Indirect Lung Injury

Most cases of ARDS happen in people who are very ill or who have been in a major accident. This is sometimes called an indirect lung injury. Less is known about how indirect injuries lead to ARDS than about how direct injuries to the lungs cause ARDS. Indirect lung injury leading to ARDS sometimes occurs in cases of:

  • Severe and widespread bacterial infection in the body (sepsis)
  • Severe injury with shock
  • Severe bleeding requiring blood transfusions
  • Drug overdose
  • Inflamed pancreas

It is not clear why some very sick or seriously injured people develop ARDS, and others do not. Researchers are trying to find out why ARDS develops and how to prevent it.

Pollution: Checking the Damages Caused to the Respiratory System

Symptoms:

*Shortness of breath
*Fast, labored breathing
*A bluish skin color (due to a low level of oxygen in the blood)
*A lower amount of oxygen in the blood
*Labored, rapid breathing
*Low blood pressure or shock (low blood pressure accompanied by organ failure)
Often, persons affected by ARDS are so sick they are unable to complain of symptoms.

Doctors and other health care providers watch for these signs and symptoms in patients who have conditions that might lead to ARDS. People who develop ARDS may be too sick to complain about having trouble breathing or other related symptoms. If a patient shows signs of developing ARDS, doctors will do tests to confirm that ARDS is the problem.

ARDS is often associated with the failure of other organs and body systems, including the liver, kidneys, and the immune system. Multiple organ failure often leads to death.

Effects of ARDS

In ARDS, the tiny blood vessels leak too much fluid into the lungs. This results from toxins (poisons) that the body produces in response to the underlying illness or injury. The lungs become like a wet sponge, heavy and stiffer than normal. They no longer provide the effective surface for gas exchange, and the level of oxygen in the blood falls. If ARDS is severe and goes on for some time, scar tissue called fibrosis may form in the lungs. The scarring also makes it harder for gas exchange to occur.

People who develop ARDS need extra oxygen and may need a breathing machine to breathe for them while their lungs try to heal. If they survive, ARDS patients may have a full recovery. Recovery can take weeks or months. Some ARDS survivors take a year or longer to recover, and some never completely recover from having ARDS.

Who Is At Risk for ARDS?

Acute respiratory distress syndrome (ARDS) usually affects people who are being treated for another serious illness or those who have had major injuries. It affects about 150,000 people each year in the United States. ARDS can occur in people with or without a previous lung disease. People who have a serious accident with a large blood loss are more likely to develop ARDS. However, only a small portion of people who have problems that can lead to ARDS actually develop it.

In most cases, a person who develops ARDS is already in the hospital being treated for other medical problems. Some illnesses or injuries that can lead to ARDS include:

  • Serious, widespread infection in the body (sepsis)
  • Severe injury (trauma) and shock from a car crash, fire, or other cause
  • Severe bleeding that requires blood transfusions
  • Severe pneumonia (infection of the lungs)
  • Breathing in vomited stomach contents
  • Breathing in smoke or harmful gases and fumes
  • Injury to the chest from trauma (such as a car accident) that causes bruising of the lungs
  • Nearly drowning
  • Some drug overdoses

Diagnosis:

Doctors diagnose acute respiratory distress syndrome (ARDS) when:

  • A person suffering from severe infection or injury develops breathing problems.
  • A chest x ray shows fluid in the air sacs of both lungs.
  • Blood tests show a low level of oxygen in the blood.
  • Other conditions that could cause breathing problems have been ruled out.

ARDS can be confused with other illnesses that have similar symptoms. The most important is congestive heart failure. In congestive heart failure, fluid backs up into the lungs because the heart is weak and cannot pump well. However, there is no injury to the lungs in congestive heart failure. Since a chest x ray is abnormal for both ARDS and congestive heart failure, it is sometimes very difficult to tell them apart.

Exams and Tests :

Chest auscultation (examination with a stethoscope) reveals abnormal breath sounds, such as crackles that suggest fluid in the lungs. Often the blood pressure is low. Cyanosis (blue skin, lips, and nails caused by lack of oxygen to the tissues) is frequently seen.

Tests used in the diagnosis of ARDS include:

  • Chest X-ray
  • Arterial blood gas
  • CBC and blood chemistries
  • Evaluation for possible infections
  • Cultures and analysis of sputum specimens

Occasionally an echocardiogram (heart ultrasound) or Swan-Ganz catheterization may need to be done to exclude congestive heart failure, which can have a similar chest X-ray appearance to ARDS.

Treatment: Patients with acute respiratory distress syndrome (ARDS) are usually treated in the intensive or critical care unit of a hospital. The main concern in treating ARDS is getting enough oxygen into the blood until the lungs heal enough to work on their own again. The following are important ways that ARDS patients are treated.

The objective of treatment is to provide enough support for the failing respiratory system (and other systems) until these systems have time to heal. Treatment of the underlying condition that caused ARDS is essential.

The main supportive treatment of the failing respiratory system in ARDS is mechanical ventilation (a breathing machine) to deliver high doses of oxygen and a continuous level of pressure called PEEP (positive end-expiratory pressure) to the damaged lungs.

The high pressures and other breathing machine settings required to treat ARDS often require that the patient be deeply sedated with medications.

This treatment is continued until the patient is well enough to breathe on his or her own. Medications may be needed to treat infections, reduce inflammation, and eliminate fluid from the lungs.

Modern Medications:

Many different kinds of medicines are used to treat ARDS patients. Some kinds of medicines often used include:

  • Antibiotics to fight infection
  • Pain relievers
  • Drugs to relieve anxiety and keep the patient calm and from “fighting” the breathing machine
  • Drugs to raise blood pressure or stimulate the heart
  • Muscle relaxers to prevent movement and reduce the body’s demand for oxygen

Other Treatment

With breathing tubes in place, ARDS patients cannot eat or drink as usual. They must be fed through a feeding tube placed through the nose and into the stomach. If this does not work, feeding is done through a vein. Sometimes a special bed or mattress, such as an airbed, is used to help prevent complications such as pneumonia or bedsores. If complications occur, the patient may require treatment for them.

Results

With treatment:

  • Some patients recover quickly and can breathe on their own within a week or so. They have the best chance of a full recovery.
  • Patients whose underlying illness is more severe may die within the first week of treatment.
  • Those who survive the first week but cannot breathe on their own may face many weeks on the breathing machine. They may have complications and a slow recovery if they survive.

ARDS Treatment

Acute Respiratory Distress Syndrome

Prognosis :

The death rate in ARDS is approximately 30%. Although survivors usually recover normal lung function, many individuals suffer permanent, usually mild, lung damage.

Many people who survive ARDS suffer memory loss or other problems with thinking after they recover. This is related to brain damage caused by reduced access to oxygen while the lungs were malfunctioning.

After going home from the hospital, the ARDS survivor may need only a little or a lot of help. While recovering from ARDS at home, a person may:

  • Need to use oxygen at home or when going out of the home, at least for a while
  • Need to have physical, occupational, or other therapy
  • Have shortness of breath, cough, or phlegm (mucus)
  • Have hoarseness from the breathing tube in the hospital
  • Feel tired and not have much energy
  • Have muscle weakness

Calling Your Health Care Provider

Usually, ARDS occurs in the setting of another illness, for which the patient is already in the hospital. Occasionally, a healthy person may develop severe pneumonia that progresses to ARDS. If breathing difficulty develops, call the local emergency number (such as 911) or go to the emergency room.

Disclaimer: This information is not meant to be a substitute for professional medical advise or help. It is always best to consult with a Physician about serious health concerns. This information is in no way intended to diagnose or prescribe remedies.This is purely for educational purpose

Resources:
http://www.nlm.nih.gov/medlineplus/ency/article/000103.htm
http://www.nhlbi.nih.gov/health/dci/Diseases/Ards/Ards_WhatIs.html

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