Month: February 2011

Categories
Fruits & Vegetables Herbs & Plants

Pondapple

Botanical Name :Annona glabra
Family: Annonaceae
Genus: Annona
Species: A. glabra
Kingdom: Plantae
Order: Magnoliales
Synonyms:Annona australis,Annona chrysocarpa,Annona laurifolia,Annona palustris,Annona peruviana

Common Names: Pond-apple, Alligator-apple, Corkwood, Bobwood, and Monkey-apple. The name Alligator-apple derives from the fact that American Alligators sometimes eat the fruit.

Habitat : The tree is native to Florida in the United States, the Caribbean, Central and South America, and West Africa

Description:
Pond-apple tree is generally semi-decidious.It grows in swamps, is tolerant of saltwater, and cannot grow in dry soil. The trees grow to a height of around 10–12 m. They have thin, gray trunks and sometimes grow in clumps. The leaves are ovate and  alternate.  They are   oblong with an acute tip, 8–15 cm long and 4–6 cm broad.They can be more than 4 in (10 cm) long, and are shiny green on the upper face.The pond apple has flowers with white petals which have a pink base. They are about 1 in (2.5 cm) in diameter. The fruit is oblong to spherical and apple-sized or larger, 7–15 cm long and up to 9 cm diameter, and falls when it is green or ripening yellow. It disperses by floating to new locations, and it is food for many animal species. It is edible for humans, and can be made into jam, although the taste is usually not preferable to Soursop and other related fruits. The flesh is sweet-scented and agreeable in flavor, but it has never attained general popular use.

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The pond apple is a rounded fruit that is similar either to a rounded mango, or an apple. This fruit can be up to 4 in (10 cm) long and more, and is yellow-green when ripe. Its flesh is edible and aromatic, even if this fruit is seldom consumed. In fact, this wild fruit is considered to be inferior in quality to its more well-known relatives like cherimoya, atemoya and custard apple. However, the pond apple can be eaten raw, or transformed into juice.


Cultivation:
*Annona glabra requiert les expositions suivantes : lumière,soleil
*This tree can grow in very moist soils.

Experiments in South Florida have been made in an attempt to use it as a superior rootstock for Sugar-apple or Soursop. While the grafts initially appear to be effective a high percentage of them typically fail over time. Soursop on Pond-apple rootstock has a dwarfing effect.

Although tropical, a mature pond apple can withstand brief negative temperatures down to about 28°F/26°F. (-2°C to -3°C) This tree is considered as invasive in many tropical areas.

It is a very troublesome invasive species in Australia. There it grows in estuaries and chokes mangrove swamps, where its seedlings carpet the banks and prevent other species from germinating or thriving.


Constituents:
On a preliminary screening, substantial antimicrobial, antifungal and moderate insecticidal, sporicidal and cytotoxic activities were observed for the hexane extract of the stem bark of Annona glabra L. Chromatographic fractionation of this extract led to the isolation of kaur-16-en-19-oic acid in a large amount as the main constituent, which was found to be largely responsible for the biological activities possessed by the crude extract.

Medicinal Uses:
A recent study suggests that its alcoholic seed extract contains anticancer compounds that could be used pharmaceutically.

Traditional remedy or use: Wood used to make rafts, sharpen blades and bottle corks. Insect repellent and fish poison. Emetic; Used to treat tuberculosis, abdominal cramps, colic, diarrhea, dysentery, jaundice and rheumatism. Tea was used as a vermifuge.

Modern remedy or use: Genus being researched as a treatment for cancer, malaria and H.I.V.

You may click to see :Anticancer effects of Annona glabra plant extracts in human leukemia cell lines.

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://coolexotics.com/plant-400-annona-glabra.html
http://en.wikipedia.org/wiki/Annona_glabra
http://davesgarden.com/guides/pf/go/2059/
http://www.issg.org/database/species/ecology.asp?si=187&fr=1&sts=
http://www.medgarden.org/plantfiles/annona_glabra.html
http://www.sciencedirect.com/science?_ob=ArticleURL&_udi=B6T8D-3YVD0GR-G&_user=10&_coverDate=08%2F11%2F1995&_rdoc=1&_fmt=high&_orig=search&_origin=search&_sort=d&_docanchor=&view=c&_acct=C000050221&_version=1&_urlVersion=0&_userid=10&md5=55610d05197843748fa24a1b1e2aafd0&searchtype=a
http://www.uni-kl.de/FB-Biologie/Botanik/2006_s-laube.html

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Categories
Ailmemts & Remedies

Adrenoleukodystrophy

Alternative Names:  Adrenoleukodystrophy; Adrenomyeloneuropathy; Childhood cerebral adrenoleukodystrophy; ALD; Schilder-Addison Complex


Definition:
Adrenoleukodystrophy (ALD),  is a rare, inherited disorder that leads to progressive brain damage, failure of the adrenal glands and eventually death. ALD is a disease in a group of genetic disorders called leukodystrophies. Adrenoleukodystrophy progressively damages the myelin sheath, a complex fatty neural tissue that insulates many nerves of the central and peripheral nervous systems. Without functional myelin, nerves are unable to aid in the conduction of an impulse, which leads to increasing disability.

click & see the pictures

Patients with X-linked ALD have defects in the ATP-binding cassette, sub-family D (ALD), member 1 transporter protein, which is encoded by the ABCD1 gene. The ABCD1 (aka ALDP) protein is indirectly involved in the break down of very long-chain fatty acids (VLCFAs) found in the normal diet. Lack of this protein can give rise to an over-accumulation of VLCFAs which can lead to damage to the brain, adrenal gland, and peripheral nervous system.

There are several different types of the disease which can be inherited, but the most common form is an X-linked condition. X-linked ALD primarily affects males, but about one in five women with the disease gene develop some symptoms. Adrenomyeloneuropathy is a less-severe form of ALD, with onset of symptoms occurring in adolescence or adulthood. This form does not include cerebral involvement, and should be included in the differential diagnosis of all males with adrenal insufficiency. Although they share a similar name, X-linked ALD and neonatal adrenoleukodystrophy (NALD), a peroxisome biogenesis disorder, are completely different diseases.

Although this disorder affects the growth and/or development of myelin, leukodystrophies are different from demyelinating disorders such as multiple sclerosis where myelin is formed normally but is lost by immunologic dysfunction or for other reasons.

Causes:
There are several types of ALD, which may be inherited in two different ways, and which can cause different patterns of disease even among people in the same families.

ALD is most commonly inherited as an X-linked condition. This means the abnormal gene is found on the X chromosome.

Because women have two X chromosomes, they have a spare normal gene as well as the abnormal one, so generally only carry the condition (although they may have a mild form of the disease). Men have only one X, so they are affected by the condition.

X-linked ALD may occur in three forms, with onset of symptoms in either childhood or adulthood.

Neonatal ALD is much less common. In this type of ALD the faulty gene isn’t X-linked but is found on one of the other chromosomes. This means both boys and girls can be affected.

Symptoms:
Childhood cerebral type:

•Changes in muscle tone, especially muscle spasms and spasticity
•Crossed eyes (strabismus)
•Decreased understanding of verbal communication (aphasia)
•Deterioration of handwriting
•Difficulty at school
•Difficulty understanding spoken material
•Hearing loss
•Hyperactivity
•Worsening nervous system deterioration
*Coma
*Decreased fine motor control
*Paralysis
•Seizures
•Swallowing difficulties
•Visual impairment or blindness

Adrenomyelopathy:
•Difficulty controlling urination
•Possible worsening muscle weakness or leg stiffness
•Problems with thinking speed and visual memory

.
Adrenal gland failure (Addison type):

•Coma
•Decreased appetite
•Increased skin color (pigmentation)
•Loss of weight, muscle mass (wasting)
•Muscle weakness
•Vomiting

Diagnosis:
The diagnosis is established by clinical findings and the detection of serum very long-chain free fatty acid levels. MRI examination reveals white matter abnormalities, and neuro-imaging findings of this disease are somewhat reminiscent of the findings of multiple sclerosis. Genetic testing for the analysis of the defective gene is available in some centers.

Neonatal screening may become available in the future, which may permit early diagnosis and treatment.

Genetics:
X-linkedX-linked ALD (X-ALD) is the most common form of ALD. In X-ALD, the defective ABCD1 gene resides on the X chromosome (Xq28). The incidence of X-ALD is at least 1 in 20,000 male births.[6] The ABCD1 (“ATP-binding cassette, subfamily D, member 1”) gene was discovered in 1993 and codes for a peroxisome membrane protein necessary for the ?-oxidation of VLCFAs.

X-ALD is characterized by excessive accumulation of very long-chain fatty acids (VLCFA), which are fatty acids with chains of 25–30 carbon atoms. The most common is hexacosanoate, with a 26 carbon skeleton. The elevation in (VLCFA) was originally described by Moser et al. in 1981.[8] The precise mechanisms through which high VLCFA concentrations in affected organs cause the disease is still unknown.

Autosomal
Neonatal adrenoleukodystrophy (NALD) is one of three autosomal dominant disorders which belong to the Zellweger spectrum of peroxisome biogenesis disorders (PBD-ZSD).The other two disorders are Zellweger syndrome (ZS), and infantile Refsum disease (IRD). NALD is most frequently caused by mutations in the PEX1, PEX5, PEX10, PEX13, and PEX26 genes.

Treatment:
There’s no cure for ALD, and the nervous system progressively deteriorates, with death usually occurring between one and ten years after the start of symptoms.

Research suggests that a mixture of oleic acid and euric acid, known as Lorenzo’s oil, may delay or reduce symptoms in boys with X-linked ALD by lowering levels of VLCFAs. The most benefit is seen when the treatment is used before symptoms develop, before irreversible damage has occurred.

Bone marrow transplants have also been used with some success in boys in the early stages of X-linked ALD but are not without considerable risk. Newer treatments that may lower brain levels of VLCFA are being tested. Treatment with docosahexanoic acid (DHA) may help young children with neonatal ALD.

Genetic research has identified the transporter proteins and their faulty genes, starting the path towards gene therapy.

Research directions:
Active clinical trials are currently in progress to determine if the proposed treatments are effective:

*Glyceryl Trioleate (Lorenzo’s oil) for Adrenomyelneuropathy.
*Beta Interferon and Thalidomide  This study is closed.
*Combination of Glyceryl Trierucate and Glyceryl Trioleate (Lorenzo’s Oil) in assymptomatic patients.
*Hematopoietic stem cell transplantation.

Prognosis:
Treatment is symptomatic. Progressive neurological degeneration makes the prognosis generally poor. Death occurs within one to ten years of presentation of symptoms. The use of Lorenzo’s Oil, bone marrow transplant, and gene therapy is currently under investigation.

Possible Complications:
•Adrenal crisis
•Vegetative state (long-term coma)

Prevention:
Genetic counseling is recommended for prospective parents with a family history of X-linked adrenoleukodystrophy. Female carriers can be diagnosed 85% of the time using a very-long-chain fatty acid test and a DNA probe study done by specialized laboratories.

Prenatal diagnosis of X-linked adrenoleukodystrophy is also available. It is done by evaluating cells from chorionic villus sampling or amniocentesis.

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.bbc.co.uk/health/physical_health/conditions/adrenoleukodystrophy1.shtml
http://en.wikipedia.org/wiki/Adrenoleukodystrophy
http://www.nlm.nih.gov/medlineplus/ency/article/001182.htm

http://health.bwmc.umms.org/imagepages/17277.htm

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Categories
Ailmemts & Remedies Pediatric

Adenoids

Alternative Names: :lymph glands or lymph nodes,pharyngeal tonsil, or nasopharyngeal tonsil

Definition:
Adenoids are masses of tissue located high on the posterior wall of the pharynx. They are made up of lymphatic tissue, which trap and destroy pathogens in the air that enter the nasopharynx.

click to see the picture

The adenoids help protect kids from getting sick. They sit high on each side of the throat behind the nose and the roof of the mouth. Although you can easily see your tonsils by standing in front of a mirror and opening your mouth wide, you can’t see your adenoids this way. A doctor has to use a small mirror or a special scope to get a peek at your adenoids.

click to see the picture

Like tonsils, adenoids help keep your body healthy by trapping harmful bacteria and viruses that you breathe in or swallow. Adenoids also contain cells that make antibodies to help your body fight infections. Adenoids do important work as infection fighters for babies and little kids. But they become less important once a kid gets older and the body develops other ways to fight germs.

click to see the picture

Some doctors believe that adenoids may not be important at all after kids reach their third birthday. In fact, adenoids usually shrink after about age 5, and by the teenage years they often practically disappear
Enlarged adenoids refers to swollen lymphatic tissue. The tissue is similar to the tonsils, but found higher up above the throat.

Pathology:
Enlarged adenoids, or adenoid hypertrophy, can become nearly the size of a ping pong ball and completely block airflow through the nasal passages.

Even if enlarged adenoids are not substantial enough to physically block the back of the nose, they can obstruct airflow enough so that breathing through the nose requires an uncomfortable amount of work, and inhalation occurs instead through an open mouth.

Adenoids can also obstruct the nasal airway enough to affect the voice without actually stopping nasal airflow altogether.

Adenoid facies:
Enlargement of adenoids, especially in children, causes an atypical appearance of the face, often referred to as adenoid facies.
click to see the picture
George Catlin, in his humorous and instructive book Breath of Life, published in 1861, illustrates adenoid faces in many engravings and advocates nose-breathing.

Causes of enlargement :
A child may be born with large adenoids, which have developed in the womb.

More commonly, the adenoids become enlarged during the first few years of childhood. Repeated infections of the upper respiratory system cause the adenoids to become chronically inflamed and enlarged. The tonsils are also usually enlarged.

Symptoms:

Swollen or enlarged adenoids are common. When this happens, the tonsils get swollen, too. Swollen or infected adenoids can make it tough for a kid to breathe and cause these problems:
*Bad breath
*Cracked lips
*Dry mouth
*Mouth breathing (mostly at night)
*Mouth open during day (more severe obstruction)
*Persistent runny nose or nasal congestion
*Restlessness while sleeping
*Snoring
*Ear infections (because the drainage tubes from the middle ear may be blocked)
*Disruption of sleep can interfere with a child’s growth.
*Enlarged adenoids can put excessive strain on the heart.

Diagnosis :
The adenoids cannot be seen by looking in the mouth directly, but can be seen with a special mirror or using a flexible endoscope through the nose.

Tests may include:
•X-ray (side view of the throat)
•Sleep apnea studies (severe cases only)

Treatment:
Antibiotics may be used to treat the adenoids when they’re infected but may not have much effect on chronically enlarged adenoids.

Surgery to remove the adenoids (adenoidectomy) may relieve symptoms or prevent complications in those with frequent ear or sinus infections or fluid behind the ears. It may also be done when ear tubes have not successfully reduced infections. It is done to prevent the long-term complications of airways obstruction, such as heart failure. Surgery may lead to improved growth and development because deep sleep is restored

Prognosis: Full recovery is expected.

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://kidshealth.org/kid/ill_injure/sick/adenoids.html
http://www.bbc.co.uk/health/physical_health/conditions/adenoids2.shtml
http://www.nlm.nih.gov/medlineplus/ency/article/001649.htm
http://www.nlm.nih.gov/medlineplus/ency/imagepages/19259.htm
http://health.allrefer.com/health/adenoid-removal-adenoid-removal-series-2.html
http://kidshealth.org/kid/ill_injure/sick/adenoids.html#
http://en.wikipedia.org/wiki/Pharyngeal_tonsil

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