Month: May 2011

Categories
Ailmemts & Remedies

Guillain-Barre syndrome

Definition:
Guillain-Barre syndrome is an uncommon disorder in which your body’s immune system attacks your nerves. Weakness and numbness in your extremities are usually the first symptoms. These sensations can quickly spread, eventually paralyzing your whole body.

Click to see the picture

The exact cause of Guillain-Barre syndrome is unknown, but it is often preceded by an infectious illness such as a respiratory infection or the stomach flu. Luckily, Guillain-Barre syndrome is relatively rare, affecting only 1 or 2 people per 100,000.

In its most severe form, Guillain-Barre syndrome is a medical emergency requiring hospitalization. There’s no known cure for Guillain-Barre syndrome, but several treatments can ease symptoms and reduce the duration of the illness.

GBS can cause symptoms that last for a few weeks. Most people recover fully from GBS, but some people have permanent nerve damage. In very rare cases, people have died of GBS, usually from difficulty breathing. In the United States, for example, an estimated 3,000 to 6,000 people develop GBS each year on average, whether or not they received a vaccination.

Guillain-Barre affects about 1,500 people every year in the UK, and about 150 develop CIDP. The exact mechanisms that cause the conditions aren’t clear, but about 60 per cent of those affected will have had a throat or intestinal infection, flu or major stress within the previous two weeks. This triggers the immune system, which then attacks the nerves.

It rarely occurs in first-degree relatives, but familial cases have been reported and genetic similarities noted. For example, a study of Japanese people with Guillain-Barre following an intestinal infection with the bacteria Campylobacter jejuni found they were more likely to have a rare version of the gene for an immune system chemical known as tumour necrosis factor.

Symptoms:
Guillain-Barre syndrome often begins with weakness, tingling or loss of sensation starting in your feet and legs and spreading to your upper body and arms. These symptoms may begin — often not causing much notice — in your fingers and toes. In some people, symptoms begin in the arms or even the face. As the disorder progresses, muscle weakness can evolve into paralysis.

Signs and symptoms of Guillain-Barre syndrome may include:

*Prickling, “pins and needles” sensations in your fingers, toes or both
*Weakness or tingling sensations in your legs that spread to your upper body
*Unsteady walking or inability to walk
*Difficulty with eye movement, facial movement, speaking, chewing or swallowing
*Severe pain in your lower back
*Difficulty with bladder control or intestinal functions
*Very slow heart rate or low blood pressure
*Difficulty breathing
.
Most people with Guillain-Barre syndrome experience their most significant weakness within three weeks after symptoms begin. In some cases, signs and symptoms may progress very rapidly with complete paralysis of legs, arms and breathing muscles over the course of a few hours.

The disorder was first described by the French physician Jean Landry in 1859. In 1916, Georges Guillain, Jean Alexandre Barré, and André Strohl diagnosed two soldiers with the illness and discovered the key diagnostic abnormality of increased spinal fluid protein production, but normal cell count.

GBS is also known as acute idiopathic polyradiculoneuritis, acute idiopathic polyneuritis, French polio, Landry’s ascending paralysis and Landry Guillain Barré syndrome.

Canadian neurologist C. Miller Fisher described the variant that bears his name in 1956

Causes:
Many things can cause GBS; about two-thirds of people who develop GBS symptoms do so several days or weeks after they have been sick with diarrhea or a respiratory illness. Infection with the bacterium Campylobacter jejuni is one of the most common risk factors for GBS. People also can develop GBS after having the flu or other infections (such as cytomegalovirus and Epstein Barr virus). On very rare occasions, they may develop GBS in the days or weeks after getting a vaccination.

Click to see picture of Neuron Hand-tuned

Typically, Guillain-Barre develops as an autoimmune reaction following an acute infection. It’s not inherited, although it’s thought that genetic factors may make some people more likely to develop autoimmune conditions.

Risk Factors:
Anyone can develop GBS; however, it is more common among older adults. The incidence of GBS increases with age, and people older than 50 years are at greatest risk for developing GBS.

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Guillain-Barre may be triggered by:

*Most commonly, infection with campylobacter, a type of bacteria often found in undercooked food, especially poultry
*Surgery
*Epstein-Barr virus
*Hodgkin’s disease
*Mononucleosis
*HIV, the virus that causes AIDS
*Rarely, rabies or influenza immunizations

Diagnosis:
The diagnosis of GBS usually depends on findings such as rapid development of muscle paralysis, areflexia, absence of fever, and a likely inciting event. Cerebrospinal fluid analysis (through a lumbar spinal puncture) and electrodiagnostic tests of nerves and muscles (such as nerve conduction studies) are common tests ordered in the diagnosis of GBS.

*cerebrospinal fluid:
Typical CSF findings include albumino-cytological dissociation. As opposed to infectious causes, this is an elevated protein level (100–1000 mg/dL), without an accompanying increased cell count pleocytosis. A sustained increased white blood cell count may indicate an alternative diagnosis such as infection.

.
*Electrodiagnostics
Electromyography (EMG) and nerve conduction study (NCS) may show prolonged distal latencies, conduction slowing, conduction block, and temporal dispersion of compound action potential in demyelinating cases. In primary axonal damage, the findings include reduced amplitude of the action potentials without conduction slowing.

Diagnostic criteria Required:

*Progressive, relatively symmetrical weakness of two or more limbs due to neuropathy
*Areflexia
*Disorder course < 4 weeks
*Exclusion of other causes (see below)

.
Supportive:
*relatively symmetric weakness accompanied by numbness and/or tingling
*mild sensory involvement
*facial nerve or other cranial nerve involvement
*absence of fever
*typical CSF findings obtained from lumbar puncture
*electrophysiologic evidence of demyelination from electromyogram

.
Differential diagnosis:
*acute myelopathies with chronic back pain and sphincter dysfunction
*botulism with early loss of pupillary reactivity and descending paralysis
*diphtheria with early oropharyngeal dysfunction
*Lyme disease polyradiculitis and other tick-borne paralyses
*porphyria with abdominal pain, seizures, psychosis
*vasculitis neuropathy
*poliomyelitis with fever and meningeal signs
*CMV polyradiculitis in immunocompromised patients
*critical illness neuropathy
*myasthenia gravis
*poisonings with organophosphate, poison hemlock, thallium, or arsenic
*intoxication with Karwinskia humboldtiana leaves or seeds
*paresis caused by West Nile virus
*spinal astrocytoma
*motor neurone disease
*West Nile virus can cause severe, potentially fatal neurological illnesses, which include encephalitis, meningitis, Guillain-Barré syndrome, and anterior myelitis.

Treatment :
Supportive care with monitoring of all vital functions is the cornerstone of successful management in the acute patient. Of greatest concern is respiratory failure due to paralysis of the diaphragm. Early intubation should be considered in any patient with a vital capacity (VC) <20 ml/kg, a negative inspiratory force (NIF) that is less negative (i.e., closer to zero) than -25 cmH2O, more than 30% decrease in either VC or NIF within 24 hours, rapid progression of disorder, or autonomic instability.

Once the patient is stabilized, treatment of the underlying condition should be initiated as soon as possible. Either high-dose intravenous immunoglobulins (IVIg) at 400 mg/kg for 5 days or plasmapheresis can be administered, as they are equally effective and a combination of the two is not significantly better than either alone. Therapy is no longer effective two weeks after the first motor symptoms appear, so treatment should be instituted as soon as possible. IVIg is usually used first because of its ease of administration and safety profile, with a total of five daily infusions for a total dose of 2 g/kg body weight (400 mg/kg each day). The use of intravenous immunoglobulins is not without risk, occasionally causing hepatitis, or in rare cases, renal failure if used for longer than five days. Glucocorticoids have not been found to be effective in GBS. If plasmapheresis is chosen, a dose of 40-50 mL/kg plasma exchange (PE) can be administered four times over a week.

Following the acute phase, the patient may also need rehabilitation to regain lost functions. This treatment will focus on improving ADL (activities of daily living) functions such as brushing teeth, washing, and getting dressed. Depending on the local structuring on health care, a team of different therapists and nurses will be established according to patient needs. An occupational therapist can offer equipment (such as wheelchair and special cutlery) to help the patient achieve ADL independence. A physiotherapist would plan a progressive training program and guide the patient to correct functional movement, avoiding harmful compensations which might have a negative effect in the long run. There is also some evidence supporting physiotherapy in helping patients with Guillain–Barré syndrome regain strength, endurance, and gait quality,[23] as well as helping them prevent contractures, bedsores, and cardiopulmonary difficulties. A speech and language therapist would be essential in the patient regaining speaking and swallowing ability if they were intubated and received a tracheostomy. The speech and language therapist would also offer advice to the medical team regarding the swallowing abilities of the patient and would help the patient regain their communication ability pre-dysarthria. There would also be a doctor, nurse and other team members involved, depending on the needs of the patient. This team contribute their knowledge to guide the patient towards his or her goals, and it is important that all goals set by the separate team members are relevant for the patient’s own priorities. After rehabilitation the patient should be able to function in his or her own home and attend necessary training as needed.

Prognosis:
Most of the time recovery starts after the fourth week from the onset of the disorder. Approximately 80% of patients have a complete recovery within a few months to a year, although minor findings may persist, such as areflexia. About 5–10% recover with severe disability, with most of such cases involving severe proximal motor and sensory axonal damage with inability of axonal regeneration. However, this is a grave disorder and despite all improvements in treatment and supportive care, the death rate among patients with this disorder is still about 2–3% even in the best intensive care units. Worldwide, the death rate runs slightly higher (4%), mostly from a lack of availability of life support equipment during the lengthy plateau lasting four to six weeks, and in some cases up to one year, when a ventilator is needed in the worst cases. About 5–10% of patients have one or more late relapses, in which case they are then classified as having chronic inflammatory demyelinating polyneuropathy (CIDP).

Poor prognostic factors include: 1) age, over 40 years, 2) history of preceding diarrheal illness, 3) requiring ventilator support, 4) high anti-GM1 titre and 5) poor upper limb muscle strength

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/guillainbarre1.shtml
http://www.riversideonline.com/health_reference/Nervous-System/DS00413.cfm
http://en.wikipedia.org/wiki/Guillain%E2%80%93Barr%C3%A9_syndrome
http://www.cdc.gov/flu/protect/vaccine/guillainbarre.htm

http://nursingcrib.com/nursing-notes-reviewer/guillain-barre-syndrome/

http://nursingcomments.com/tag/guillain-barre-syndrome/

http://www.ami20.com/tag/guillain-barre

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Herbs & Plants

Red Baneberry

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Botanical Name :Actaea arguta
Family: Ranunculaceae
Subfamily: Ranunculoideae
Tribes: Actaeeae
Genus: Actaea
Species: Actaea rubra
Subspecies: Actaea rubra
Regnum: Plantae
Kingdom : Plantae
Subkingdom : Tracheobionta
Order: Ranunculales
Superdivision:Spermatophyta
Division: Magnoliophyta
Class : Magnoliopsida
Subclass:Magnoliidae

Synonyms:Synonyms: Actaea arguta, Actaea eburnea, Actaea neglecta, Actaea rubra ssp. arguta, Actaea rubra var. arguta, Actaea rubra var. dissecta, Actaea spicata, Actaea spicata var. rubra, Actaea viridiflora

Common Name :Baneberry or Red Baneberry
red baneberry
Actaea: an ancient Greek name, from its wet habitat and similarity to Sambucus leaves
rubra: Latin for red

Habitat :Native to USA (AK, AZ, CA, CO, ID, MT, NM, NV, OR, UT, WA, WY), CAN (AB, BC, SK, YT) Baneberry may be found from Alaska south to California and east to the Rockies, and found again along the Atlantic coast.

In the Columbia River Gorge it may be found between the elevations of 100′-4400′ from east of Troutdale, OR east to near the Major Creek Plateau.

Baneberry may be found in moist, dark woods and along streambanks, primarily west of the Cascades, but also eastward in moist, mountainous areas.

Description:
Baneberry is an attractive wildflower with one to several erect and branched stems arising 40-100 cm high from a cluster of lower leaves. All the large leaves are found on the stem. Individual leaves are twice to thrice pinnatifid, the leaflets ovate in shape tapering to a point, and the the margins of the leaflets having coarse teeth or lobes. Individual leaflets measure from 3-9 cm long.alternate; 2-3 times 3-parted into separate, sharply toothed, oval-oblong leaflets often with some hairs in the bottom

click to see the pictures.> ……….(01)..…(1).……...(2).…....(3)....(4)…....(5)…....
The inflorescence consists of axillary or terminal clusters of many small white flowers. The 3-5 sepals are white or purplish-tinged and measure about 2-3 mm long. The 5-10 white petals are narrow and are roughly about the same size as the sepals. The stamens are longer than the petals. The fruit are red or white in color and are spherical to ellipsoid in shape, measuring from 5-11 mm long.

As noted in the photo above, baneberry is an attractive plant for the natural border in the garden. The lacy leaves and the vibrant red or white fruit are both reasons to use this wildflower in the garden, although one should remember that the fruits are deadly poisonous.

Plant:  erect, perennial, 1 1/2′-3′ tall forb
Flower:  white, 4-10-parted, petals falling off leaving numerous white stamens; mature stigma narrower than the ovary; inflorescence a 2″ ball-like, dense, long-stalked cluster usually about as wide as long; blooms May-June
Fruit: several seeded, red berry, occasionally white, on greenish, thin stalks

Medicinal Uses:
Internally, the root has the same uses as Black Cohosh, with the exception of the estrogenic ones.  The roots have been considered laxative and capable of causing vomiting.  They have been ground, mixed with tobacco or grease, and rubbed on the body to treat rheumatism.  The powdered root is a good counterirritant, the powder mixed with hot water, applied where appropriate, and covered with hot towels.  A pinch of the dried ground seeds added to a dish of food was once a treatment for diarrhea.  Ground seeds mixed with pine pitch were applied as a poultice for neuralgia. The dried root is made into a strong tea, a little bit of which is drunk and the rest used as a pain-relieving wash for acute arthritis and swollen joints.  Sometimes powdered wild tobacco is moistened with the baneberry for a poultice and the mixture covered with cheesecloth or muslin to hold it in place.

Known Hazards: Barries are highly posoinous.

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.herbnet.com/Herb%20Uses_AB.htm
http://swbiodiversity.org/seinet/taxa/index.php?taxon=11110
http://www.wnmu.edu/academic/nspages/gilaflora/actaea_rubra.html
http://plants.usda.gov/java/profile?symbol=ACRUA8&photoID=acrua8_001_ahp.tif
http://wisplants.uwsp.edu/scripts/detail.asp?SpCode=ACTRUB

Red Baneberry

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Herbs & Plants

White baneberry

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Botanical Name : Actaea pachypoda
Family: Ranunculaceae
Genus: Actaea
Species: A. pachypoda
Kingdom: Plantae
Subkingdom: Tracheobionta
Division: Magnoliophyta
Superdivision: Spermatophyta
Class: Magnoliopsida
Order: Ranunculales

Common Names:Doll’s-eyes, White Baneberry

Habitat :Actaea pachypoda  is  native to eastern North America.

Description:
It is a herbaceous perennial plant growing to 50 cm or more tall (1½ to 2 feet tall and 3 feet wide). It has toothed, bipinnate compound leaves up to 40 cm long and 30 cm broad. The white flowers are produced in spring in a dense raceme about 10 cm long. Its most striking feature is its fruit, a 1 cm diameter white berry, whose size, shape, and black stigma scar give the species its other common name, “doll’s eyes”. The berries develop and ripen over the summer, and persist on the plant until frost. Fall color may be yellowish, and is fairly unremarkable..

CLICK TO SEE THE PICTURES
White baneberry prefers clay to coarse loamy upland soils, and are found in hardwood and mixed-forest stands. In cultivation it requires part to full shade, rich loamy soil, and regular water with good drainage to reproduce its native habitat.

Medicinal Uses:
Baneberry root tea is sometimes used as an appetite stimulant, but is also used to treat stomach pains, coughs, colds, menstrual irregularities, and postpartum pains. It works well in increasing milk flow in nursing women and is used as a purgative after childbirth. White Baneberry has been used as a remedy for snake-bite, especially rattlesnake bite.

Known Hazards: The berries are highly poisonous, and the entire plant is considered poisonous to humans. First Nations peoples are reported to have drunk a tea made from the root of this plant after childbirth.

The berries contain cardiogenic toxins which can have an immediate sedative effect on human cardiac muscle tissue, and are the most poisonous part of the plant. Ingestion of the berries can lead to cardiac arrest and death. The berries are harmless to birds, the plant’s primary seed dispersers.

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.herbnet.com/Herb%20Uses_AB.htm
http://en.wikipedia.org/wiki/Actaea_pachypoda
http://plants.usda.gov/java/profile?symbol=ACPA
http://www.edelweissperennials.com/Large_Image.aspx?nm=1087&gclid=CNHwxKC_6KgCFU195QodwmtdEQ#

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Pediatric

Development of Toddler

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Introduction:
Brain fact: Brains are ready for learning from birth.
The human brain function and development grows amazingly fast, starting from day one in the womb. By age 6, your baby’s brain will be almost adult-sized. Even at birth, babies’ brains contain millions of brain cells, which are called neurons.

Brain fact: Brain connections are strengthened with experience.
Brain connections are called synapses. Thousands and thousands of them are formed with everyday experiences. Synapses are crucial because they transmit brain impulses, which control body functions, thinking, feeling, learning, memory, and language.

Your toddler has a new toy, which he is exploring with lots of energy. His brain cells are firing away, and new synapses may occur. Toddlers‘ brains will make many more synapses than needed for good brain functioning. Synapses that are used frequently will be strengthened and remain. Those that are not will eventually disappear. So by hugging and reading to your toddler, you can encourage the growth and strengthening of brain connections.

When a baby is born, parents must consider their most important job is to take proper care  of their child, leaving aside    every other important  job  in   life.

Toddlers are children ages 1 – 3.

THEORIES
Jean Piaget, in the cognitive (thought) development theory, includes the following:

•Early use of instruments or tools
•Following visual (then later, invisible) displacement (moving from one place to another) of objects
•Understanding that objects and people are there even if you can’t see them (object and people permanence)
Erik H. Erikson‘s personal-social development theory says the toddler stage represents Autonomy (independence) vs. Shame or Doubt. The child learns to adjust to society’s demands, while trying to maintain independence and a sense of self.

These milestones are typical of children in the toddler stages. Some variation is normal. If you have questions about your child’s development, contact your health care provider.

PHYSICAL DEVELOPMENT
The following are signs of expected physical development in a toddler:

GROSS MOTOR SKILLS (use of large muscles in the legs and arms)
•Stands alone well by 12 months
•Walks well by 12 – 15 months (if the child is not walking by 18 months, he or she should be evaluated by a health care provider)
•Learns to walk backwards and up steps with help at about 16 – 18 months
•Throws a ball overhand and kicks a ball forward at about 18 – 24 months
•Jumps in place by about 24 months
•Rides a tricycle and stands briefly on one foot by about 36 months

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FINE MOTOR SKILLS (use of small muscles in hands and fingers)……click & see
•Makes tower of three cubes by around 15 months
•Scribbles by 15 – 18 months
•Can use spoon and drink from a cup by 24 months
•Can copy a circle by 36 months

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LANGUAGE DEVELOPMENT

click & see

•Uses 2 – 3 words (other than Mama or Dada) at 12 – 15 months

•Understands and follows simple commands (“bring to Mommy”) at 14 – 16 months
•Names pictures of items and animals at 18 – 24 months
•Points to named body parts at 18 – 24 months
•Begins to say his or her own name at 22 – 24 months
•Combines 2 words at 16 to 24 months — there is a range of ages at which children are first able to combine words into sentences; if a toddler cannot do so by 24 months, parents should consult their health care provider
•Knows gender and age by 36 months.

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SOCIAL DEVELOPMENT…....click & see
•Indicates some needs by pointing at 12 – 15 months
•Looks for help when in trouble by 18 months
•Helps to undress and put things away by 18 – 24 months
•Listens to stories when shown pictures and can tell about immediate experiences by 24 months
•Can engage in pretend play and simple games by 24 – 36 months

BEHAVIOR
Toddlers are always trying to be more independent. This creates not only special safety concerns, but discipline challenges. The child must be taught — in a consistent manner — the limits of appropriate vs. inappropriate behavior.

When toddlers try out activities they can’t quite do yet, they can get frustrated and angry. Breath-holding, crying, screaming, and temper tantrums may be daily occurrences.

It is important for a child to learn from experiences and to be able to rely on consistent boundaries between acceptable and unacceptable behaviors.

Toddlers always imitate their parents and so  toddlers behavior with others depends  on their parents behavior .
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SAFETY

TODDLER SAFETY IS MOST IMPORTANT
•It is important for parents to recognize that the child can now walk, run, climb, jump, and explore. This new stage of movement makes child-proofing the home essential. Window guards, gates on stairways, cabinet locks, toilet seat locks, electric outlet covers, and other safety features are essential.
•As during the infancy period, place the toddler in a safety restraint (toddler car seat) when riding in a car.
•Do not leave a toddler unattended for even short periods of time. Remember, more accidents occur during the toddler years than at any other stage of childhood.
•Introduce and strictly stick to rules about not playing in streets or crossing without an adult.
•Falls are a major cause of injury. Keep gates or doors to stairways closed, and use guards for all windows above the ground floor. Do not leave chairs or ladders in areas that are likely to tempt the toddler into climbing up to explore new heights. Use corner guards on furniture in areas where the toddler is likely to walk, play, or run.
•Childhood poisonings are a frequent source of illness and death during the toddler years. Keep all medications in a locked cabinet. Keep all toxic household products (polishes, acids, cleaning solutions, chlorine bleach, lighter fluid, insecticides, or poisons) in a locked cabinet or closet. Many household plants may cause illness if eaten. Toad stools and other garden plants may cause serious illness or death. Get a list of these common plants from your pediatrician.
•If a family member owns a firearm, make sure it is unloaded and locked up in a secure place.
•Keep toddlers away from the kitchen with a safety gate, or place them in a playpen or high chair. This will eliminate the danger of burns from pulling hot foods off the stove or bumping into the hot oven door.
•Toddlers love to play in water, but should never be allowed to do so alone. A toddler may drown even in shallow water in a bathtub. Parent-child swimming lessons can be another safe and enjoyable way for toddlers to play in water. Never leave a child unattended near a pool, open toilet, or bathtub. Toddlers cannot learn how to swim and cannot be independent near any body of water.

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PARENTING TIPS
•The toddler years are the time to begin instilling values, reasoning, and incentives in the child, so that they learn accepted rules of behavior. It is important for parents to be consistent both in modeling behavior (behaving the way you want your child to behave),and in addressing appropriate versus inappropriate behavior in the child. Recognize and reward positive behavior. You can introduce time-outs for negative behavior, or for going beyond the limits you set for your child.
•The toddler’s favorite word may seem to be “NO!!!” It is important for parents not to fall into a pattern of negative behavior with yelling, spanking, and threatening of their own.
•Teach children the proper names of body parts.
•Stress the unique, individual qualities of the child.
•Teach concepts of please, thank you, and sharing with others.
•Read to the child on a regular basis — it will enhance the development of verbal skills.
•Toddlers thrive on regularity. Major changes in their routine are challenging for them. Toddlers should have regular nap, bed, snack, and meal times.
•Toddlers should not be allowed to eat many snacks throughout the day. Multiple snack times tend to suppress their appetite for regular meals, which tend to be more balanced.
•Travel and guests can be expected to disrupt the child’s routine and make them more irritable. The best responses to these situations are reassurance and reestablishing routine in a calm way.

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/002010.htm
http://www.enfamil.com/app/iwp/enf10/content.do?dm=enf&id=/Consumer_Home3/Toddlers3/Toddlers_Articles/brainDevelopment&iwpst=B2C&ls=0&cm_mmc=paid%20search-_-Enfagrow-_-Google-_-2010&csred=1&r=3482830970

http://www.whattoexpect.com/funnel/registration.aspx?18=toddlerdevelopment&xid=g_reg&s_kwcid=TC|21967|the%20development%20of%20toddlers||S|b|8765848023&gclid=CKbri6_J56gCFRG4KgodSz8bCw

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Ailmemts & Remedies

Group B Streptococcus (GBS) Infection

Definition:
Infection with Group B Streptococcus (GBS), also known as ‘Streptococcus agalactiae’ and more colloquially as Strep B and group B Strep, can cause serious illness and sometimes death, especially in newborn infants, the elderly, and patients with compromised immune systems. Group B streptococci are also prominent veterinary pathogens, because they can cause bovine mastitis (inflammation of the udder) in dairy cows. The species name “agalactiae” meaning “no milk”, alludes to this.

Streptococcus is a genus of spherical, Gram-positive bacteria of the phylum Firmicutes. Streptococcus agalactiae is a gram-positive streptococcus characterized by the presence of Group B Lancefield antigen, and so takes the name Group B Streptococcus.

click to see the pictures

This type of bacteria (not to be confused with group A strep which causes “strep throat”) is commonly found in the human body, and it usually does not cause any symptoms. However, in certain cases it can be a dangerous cause of various infections that affect pregnant women & their newborns .

Group B streptococcal infections affect one in 2,000 babies born every year in the UK and Ireland. About 340 babies a year will develop group B streptococcal infection within seven days of birth (early group B streptococcus disease).

Causes:
The bacteria is found living harmlessly in the vaginal and gastrointestinal tracts of up to 50 per cent of healthy women (and in many men too). It may be passed on to a baby either while the baby is still in the womb or during delivery. Although about 50 per cent of babies born to mothers carrying group B streptococcus pick up the micro-organism, only about one to two per cent of these newborns then go on to develop severe group B streptococcal disease.

Group B streptococcal sepsis is most likely to develop when the baby is premature or if there has been prolonged rupture of the membranes, with many hours passing before the baby is born, or if the baby has no antibodies to group B streptococci.

In the last 30 years it’s been show to be a cause of serious infection in non-pregnant adults too. It’s extremely rare in healthy people and is almost always associated with underlying problems such as diabetes or cancer, or less often, problems with:

•Heart and blood vessels
•Genitourinary system
•Liver disease
•Kidney disease

About five per cent of affected adults will eventually experience a second episode of group B streptococcal disease.

How is group B strep transmitted?
In newborns, GBS infection is acquired through direct contact with the bacteria while in the uterus or during delivery; thus the infection is transmitted from the colonized mother to her newborn. However, not every baby born to a colonized mother will develop GBS infection. Statistics show that about one of every 100-200 babies born to a GBS-colonized mother will develop GBS infection.

There are maternal risk factors, however, that increase the chance of transmitting the disease to the newborn:

•labor or membrane rupture before 37 weeks
•membrane rupture more than 18 hours before delivery
•urinary tract infection with GBS during pregnancy
•previous baby with GBS infection
•fever during labor
•positive culture for GBS colonization at 35-37 weeks
.
Group B strep infection is not a sexually transmitted disease (STD).

Symptoms :
If a pregnant woman is carrying (or ‘colonised with’) group B streptococcus, there is a chance she could pass it to her unborn baby. Most babies will not be harmed and will simply carry the bacteria themselves, but it can cause:

•Early birth
•Stillbirth
•Late miscarriage and complications
Group B streptococcal disease in newborns is divided into early and late disease. Early group B streptococcal neonatal sepsis appears within 24 hours of delivery (and up to seven days afterwards) and accounts for over 80 per cent of cases. Typically it causes signs of pneumonia (breathing problems) or, less often, meningitis. Most of these babies will make a full recovery.

Late group B streptococcal neonatal sepsis appears between one week and three months after birth, and is more likely to cause meningitis. One in ten infected babies will die of blood poisoning, pneumonia or meningitis, while one in five will be affected permanently by cerebral palsy, blindness, deafness or serious learning difficulties.

Once a baby has reached three months of age, group B streptococcal infection is extremely rare.

In vulnerable adults, group B streptococcus can cause a range of different infections at different sites in the body.

Diagnosis:
In pregnant women, routine screening for colonization with GBS is recommended. This test is generally performed between 35-37 weeks of gestation. The test involves using a swab to collect a sample from both the vaginal and rectal area, and results are usually available within 24-72 hours.

In newborns, GBS infection can be diagnosed with blood tests and/or spinal-fluid analysis. Similar testing may be used to diagnose the disease in adults.

Treatment:
For women who test positive for GBS during pregnancy and for those with certain risk factors for developing or transmitting GBS infection during pregnancy, intravenous antibiotics are generally recommended at the time of labor (before delivery). The administration of antibiotics has been shown to significantly decrease GBS infection in newborns. If a pregnant carrier of GBS receives intravenous antibiotics prior to delivery, her baby has a one in 4,000 chance of developing GBS infection. Without antibiotics, her baby has a one in 200 chance of developing GBS infection.

In adults who develop GBS infection, whether they are pregnant women or individuals with chronic medical conditions, intravenous(IV) antibiotics are also recommended.

At this point in time, the best treatment for GBS infection is prevention through routine screening during pregnancy. This testing has served to decrease the overall number of GBS infections in newborns, and there is currently research underway to develop a GBS vaccine.

Should all at-risk women be treated?
Some women prefer not to receive antibiotics if their risk is only slightly increased. Experts advise that the risk of infection in the baby must be balanced against the wishes and beliefs of the woman in labour and against her risk of an adverse reaction to the antibiotics. If a group B streptococcus carrying woman had a healthy baby in a previous pregnancy, she is unlikely to be at greater risk with following pregnancies.

Scientists are trying to develop a vaccine for group B streptococcus, but technical problems mean that it’s likely to be some years before one is available.

Prevention:
Through collaborative efforts clinicians, researchers, professional organizations, parent advocacy groups, and the public health community developed recommendations for intrapartum prophylaxis to prevent perinatal GBS disease. Many organizations have developed perinatal GBS disease prevention and education programs to reduce the incidence of the disease. Information about the recommendations and the prevention programs can be found in medical journals and on the internet. Simple anti-septic wipes do not prevent mother-to-child transmission

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.medicinenet.com/group_b_strep/article.htm
http://www.bbc.co.uk/health/physical_health/conditions/group_b_streptococcus_infection.shtml
http://en.wikipedia.org/wiki/Group_B_streptococcal_infection
http://www.trying-to-conceive.com/pregnancy/preventing-group-b-strep-%E2%80%93-is-it-possible/
http://www.medicaldaily.com/news/20110211/5422/third-trimester-group-b-streptococcus-test-doesnt-accurately-predict-presence-during-labor.htm

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