learning disorders

Posts Tagged ‘learning disorders’

ADHD Exercise and Learning

Posted in ADHD, Attention Deficit Hyperactivity Disorder, education, hyperactivity, Learning and exercise, Learning Disorders, SEN, tagged ADHD, Attention Deficit Hyperactivity Disorder, education, hyperactivity, Learning and exercise, learning disabilities, learning disorders, Learning problems, SEN on 21/08/2012| 2 Comments »

Image: Guardian

A few articles I’ve read over the past week interested me, as ADHD is also a topic I’ve always been interested in. Having a SEN-qualification and now going to persue a Masters, I try and read even more -when there is time! I once had a Gr3 boy in my class and immediately recognised the symptoms of ADHD. -This was in my school in South Africa. – My class was near the main entrance of the school where there was a mini-roundabout with a huge tree. Twice per day, I sent Paul [not his real name] to run a few rounds around the roundabout. He usually ran about 5 times around it. Afterwards he wet his face, had some water and could sit for about 5 min in the shade of the tree, before he joined the class again. Through my class window, I could have my eye on him and he really enjoyed this little bit of ‘exercise’. From the start I made it clear to him – and the rest of the class of course, why I would like him to do this. He didn’t see it as a joke and took it very seriously and we could see a big difference in his concentration, quality of his school work and progress. I still treasure his letter he gave me by the end of the year thanking me helping him to do better and to understand his ‘problem’. His parents gave me a mini-grandfather’s clock as a symbol of time, the time I spent to support Paul – and them. Here are three articles I would like to share. The third article is more about outdoor play and nearsightness, but thought to link it here too. I hope you find it interesting and useful to read. All the links, of the original sources, are in the entry too and will open in a new window.

Also on my blog, I have done an entry on Hyperactivity and Dyslexia in 2008 where you will find some more to read and links to follow up, if you wish to do so.

What can athletes with ADHD teach us about the condition?
Michael Phelps, hailed as the greatest Olympian ever, has attention deficit hyperactivity disorder. Can his, and others’, success be used help inspire younger people?

The Guardian, Wed 1 Aug 2012 20.00 BST
One has acquired more Olympic medals than any other athlete in history. The other was knocked out of the Games after just 250 seconds. But Michael Phelps and Ashley McKenzie, the 23-year-old British No 1 judoka, have one thing in common: both have attention deficit hyperactivity disorder (ADHD), as does another high-profile Olympian, British gymnast Louis Smith, who this week helped win the first British men’s gymnastics team medal for a century. Suddenly, a condition that is hugely stigmatised and still controversial, is unexpectedly in the spotlight. It raises several interesting questions. Does ADHD hinder or help sporting success? And can the Olympics offer a positive legacy for people suffering from it? Phelps, the American swimmer with a record-breaking 19 Olympic medals to his name, is probably the most famous person in the world with ADHD, the top behavioural disorder in Britain, which is estimated to affect 2-5% of children and young people. For Phelps, a gangly, hyperactive child who was diagnosed with the condition aged nine, the swimming pool was a sanctuary, a place to burn off excess energy. His mother, Debbie, once recalled being told by a teacher: “Your son will never be able to focus on anything.” It’s interesting that the boy who was unable to concentrate at school would sit for four hours at swimming meets waiting to compete in five minutes of races. Louis Smith has spoken of how gymnastics was an outlet for his tremendous energy, and taught him discipline and manners. But Ashley McKenzie’s story is perhaps most dramatic of all. Expelled from three schools and placed in a psychiatric unit aged 11 because his mother was unable to cope, McKenzie also served time in a young offenders’ institute. He credits judo with saving him from prison, and in a recent BBC documentary called it a “mad booster” to his life, giving him “a pavement instead of walking on the road”.
“I don’t want to be looked at as, ‘He’s got ADHD and he’s the bad person.’ I’ve changed now,” he said. But it is not as simple as sport rescuing him. McKenzie served three bans from judo for drinking and fighting, and on the last night of the Team GB training camp before the Olympics, he went out to celebrate his 23rd birthday and told a stranger at a bar: “I’m gonna smash your face in.” His ADHD may bequeath him energy but his sporting career is actually a hindrance to tackling his condition: he cannot take the medication he needs to treat his ADHD because it contains substances banned by the sporting authorities – hence his struggle to control his behaviour. More athletes will almost certainly be undiagnosed or keeping it quiet, such as Adam Kreek, a Canadian rower who won gold in Beijing, and two years later began talking openly about his condition. “I found that the disorder isn’t a negative infliction, but it gives positive energy as well,” Kreek, who is now a motivational speaker, said in 2010. Diagnosed aged six, he believes anyone with ADHD can train their mind to channel their “incredible” energy. As well as a good diet and family support, he found “rowing to be an outlet to control my ADHD”.

ADHD can be a confusing condition because people may be fidgety and unable to focus and yet – as Phelps so spectacularly proved – are capable of concentrating intently on an activity they find rewarding. Children with the disorder, says Andrea Bilbow, founder and chief executive of ADDISS, a charity and support service for ADHD, are often brilliant at computer games. Psychiatrists say that this “hyperfocusing” is a relatively common feature in individuals with ADHD. Athletes like Phelps and McKenzie do not, however, have special powers via their condition. Bilbow believes it is actually significantly harder for people with ADHD to become elite athletes. “Having ADHD doesn’t mean you’re going to be a great sportsperson,” she says. “Your ADHD isn’t going to get you there, it’s hard work that will. ADHD is not a contributor towards success but equally it is not a barrier to success.”

People with ADHD, which is a developmental disorder, may find they have poor problem-solving skills, and struggle with timekeeping, and organising and motivating themselves, explains Bilbow. This may suggest that adapting to the discipline demanded by athletic training is tough for those with ADHD and yet Bilbow believes many with the condition find sport gives them the kind of immediate rewards and sense of achievement they need to build confidence and resilience.

After his early exit in the judo, McKenzie has vowed to come back stronger in Rio in 2016. Bilbow hopes McKenzie can get the extra help he will need in the coming years. She works with parents with children with ADHD and believes more could find sport a constructive way of managing the condition, rather than being preoccupied with academic success. Her two sons, Max and Joe, both have ADHD: Max, who is 29, finds an outlet for his energy in elite kayaking while Joe, who is 25, is currently an Olympic volunteer. Her advice to parents? “Find your child’s island of competence and invest in it heavily.”

Bilbow has noticed that children with ADHD may have their sporting opportunities curtailed as punishment for their behaviour, as McKenzie found. Bilbow knows of a brilliant young footballer with ADHD who was barred from representing his school because of his conduct in lessons.
Many teachers and schools, she believes, still scoff at the disorder, believing there are only naughty children – and bad parents. The concept of role models can seem an overused cliche but the Olympians with ADHD may really inspire a generation of athletes who once would have been written off. “Parents can be saying to kids who are having a miserable time in school, ‘Look, Michael Phelps had ADHD and he worked really hard. Ashley McKenzie has been in a young offenders’ institute but he didn’t give up,'” says Bilbo. “That’s the message we’ve got to give kids.”

Click HERE to read the article on the site of the Guardian.

Click on the image for a larger view

How Exercise Affects the Brain: Age and Genetics Play a Role

ScienceDaily (May 18, 2012) — Exercise clears the mind. It gets the blood pumping and more oxygen is delivered to the brain. This is familiar territory, but Dartmouth’s David Bucci thinks there is much more going on.

“In the last several years there have been data suggesting that neurobiological changes are happening — [there are] very brain-specific mechanisms at work here,” says Bucci, an associate professor in the Department of Psychological and Brain Sciences.

From his studies, Bucci and his collaborators have revealed important new findings:

The effects of exercise are different on memory as well as on the brain, depending on whether the exerciser is an adolescent or an adult.
A gene has been identified which seems to mediate the degree to which exercise has a beneficial effect. This has implications for the potential use of exercise as an intervention for mental illness.

Bucci began his pursuit of the link between exercise and memory with attention deficit hyperactivity disorder (ADHD), one of the most common childhood psychological disorders. Bucci is concerned that the treatment of choice seems to be medication.

“The notion of pumping children full of psycho-stimulants at an early age is troublesome,” Bucci cautions. “We frankly don’t know the long-term effects of administering drugs at an early age — drugs that affect the brain — so looking for alternative therapies is clearly important.”

Anecdotal evidence from colleagues at the University of Vermont started Bucci down the track of ADHD. Based on observations of ADHD children in Vermont summer camps, athletes or team sports players were found to respond better to behavioral interventions than more sedentary children. While systematic empirical data is lacking, this association of exercise with a reduction of characteristic ADHD behaviors was persuasive enough for Bucci.

Coupled with his interest in learning and memory and their underlying brain functions, Bucci and teams of graduate and undergraduate students embarked upon a project of scientific inquiry, investigating the potential connection between exercise and brain function. They published papers documenting their results, with the most recent now available in the online version of the journal Neuroscience.

Bucci is quick to point out that “the teams of both graduate and undergraduates are responsible for all this work, certainly not just me.” Michael Hopkins, a graduate student at the time, is first author on the papers.

Early on, laboratory rats that exhibit ADHD-like behavior demonstrated that exercise was able to reduce the extent of these behaviors. The researchers also found that exercise was more beneficial for female rats than males, similar to how it differentially affects male and female children with ADHD.

Moving forward, they investigated a mechanism through which exercise seems to improve learning and memory. This is “brain derived neurotrophic factor” (BDNF) and it is involved in growth of the developing brain. The degree of BDNF expression in exercising rats correlated positively with improved memory, and exercising as an adolescent had longer lasting effects compared to the same duration of exercise, but done as an adult.

“The implication is that exercising during development, as your brain is growing, is changing the brain in concert with normal developmental changes, resulting in your having more permanent wiring of the brain in support of things like learning and memory,” says Bucci. “It seems important to [exercise] early in life.”

Bucci’s latest paper was a move to take the studies of exercise and memory in rats and apply them to humans. The subjects in this new study were Dartmouth undergraduates and individuals recruited from the Hanover community.

Bucci says that, “the really interesting finding was that, depending on the person’s genotype for that trophic factor [BDNF], they either did or did not reap the benefits of exercise on learning and memory. This could mean that you may be able to predict which ADHD child, if we genotype them and look at their DNA, would respond to exercise as a treatment and which ones wouldn’t.”

Bucci concludes that the notion that exercise is good for health including mental health is not a huge surprise. “The interesting question in terms of mental health and cognitive function is how exercise affects mental function and the brain.” This is the question Bucci, his colleagues, and students continue to pursue.

Source: Please click on THIS LINK to read the original article on ScienceDaily.

Outdoor Play May Protect Children’s Eyes From Nearsightedness: Study

Click on the image for a larger view.

Click on THIS LINK to read the entire article.

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Hyperactive? Dyslexic?

Posted in ADHD, Concentration problems, dyslexia, EEG, EEG Scan, hyperactivity, Janet Lerner, Learning difficulties, learning disabilities, Learning Disabilities and Related Disorders Characteris, Learning Styles, Petit Mal, Psychoneurological Learning Disabilities, Remedial Education, Ritalin, SEN, Special Educational Needs, Symptoms of ADHD, Test for Learning Styles, tagged Aandag-tekort-sindroom, ADHD, Attention Deficit Hyperactivity Disorder, Attention Deficit Syndrome, Attention difficulties, brain scan, Celebrities that suffer dyslexia, characteristics, Concentration problems, dyslexia, EEG, EEG Scan, hiperaktiwiteit, hyperactivity, Janet Lerner, kinders met konsentrasie probleme, kinders wat disleksies is, Learning difficulties, learning disabilities, Learning Disabilities and Related Disorders Characteris, learning disorders, Learning Styles, Leerders met leerprobleme, leerprobleme, Petit Mal, Psychoneurological Learning Disabilities, Remedial Education, Ritalin, Ritalin and what you need to know, SEN, Special Educational Needs, Spesiale Onderwys, students with dyslexia, Symptoms of ADHD, Syndromes, Test for Learning Styles, what does a child look like with dyslexia on 27/07/2008| 27 Comments »

Read about the characteristics of students with dyslexia at the end of this entry, this entry is very extensive..slide down, please. There are more other links at the end of this entry too.

I’ve heard many times that children think they are “dumb” when they have learning difficulties. I always tell them there is NO such thing in this world as a ‘dumb‘ child. Everybody learns in a unique and different way. Some children are visual learners and some are kinesthetic learners and others just take a bit more time to learn due to development of the brain, which plays an important part. Those synapses – (electronic messages that get sent around to the receptors) might have a longer route, but eventually, the messages will come through to the receptors. A synapse might have a disconnection and needs to follow a different route to get the message to where it should go.

On this link….http://school.familyeducation.com/intelligence/teaching-methods/38519.html… you can read about learning styles. And on this link —http://www.ldpride.net/learningstyles.MI.htm — you can take a test to see which style is your learning style! {I hope these links are still active by the time you use it. Sometimes, links get inactive for various reasons, over time.}

This newspaper article is from the London newspaper: London Lite. Please click on the newspaper-image to have a larger view to read it. It also says that Teachers in England identify too many children with Hyperactivity and they should get more help [or training] to know how to identify these children.

I was lucky to be one of the last Teachers in South Africa to complete the course, that Teachers in South Africa needed to be able to teach children in our ‘Support Classes‘ – these were classes to support the child with learning difficulties until they were ready to go back in mainstream. These classes were based at the school and not at a different location. This qualification was called MBD and later renamed to Neurological Learning Disabilities.

Depending on the problem/disorder that was identified, the child could be placed back into mainstream after a year in the Support Class, but sometimes it took about 2 years. Most children went back to mainstream after two years. Today some schools have an SEN-class with about 20 children, but the teacher teaches, as usual, in groups and she doesn’t work on a particular individual designed programme – like in the smaller Support Class.

That was my dream, to work with those children in a Support Class and my dream was scattered into pieces when our ‘lovely and wonderful‘ Government (of the time in 1998) started closing down those classes. It was very sad for us as Teachers to know that we were the last bunch for that particular course.

The current course, I have been told – is more like Remedial Education, which was one of my academic subjects during my time as a trainee-teacher. It sounds like a dumb down course, after talks with some tutors at FE. What made this course very difficult for us, was the in depth study of the brain and how it functions – almost like a medical course! I had to know the brain inside out, upside down. Plus all the extensive study work – assignments and written exams. The practical part was in your second year, when you had to work with a child individually on a weekly basis – for an hour. With full time teaching, it was very hard, because we were not allowed to buy any resources. I agree with the reasons: Every child is unique and different and every child’s learning difficulty is different. Every child is an individual and NO resource has what you need for an individual child with an individual problem. Yes, you get TONS of resources with 1 page here, one page there about the problem, but not a single book from page 1 – 30 to suit a particular child with a particular learning difficulty.

I want to stress it out, that you shouldn’t look at the list of symptoms and think that your child has got at least one or two of the symptoms and that classifies your child as a child with hyperactivity! Only if there are at least 10 or more of the symptoms, I would advise you to speak to an expert. Your child needs to be observed over a period of time by professional people, who know what they need to be looking at and see your child as a whole. [A one-off observation is NOT enough!] Some children are very easy identifiable but some children need to be observed over a longer period of time. Every child is different and every child responses differently in particular situations, therefore, he/she can not be observed in an hour’s session or in a day’s time. You need to observe the child in different situations – busy with different tasks.

My experience with children starting the new year to play chess was also an eye opener. You can immediately see which child will be able to focus on the game and will stay focus! As chess is a game where you have to sit still, focus on the game…that means tons of concentration! If you think your child has got concentration-problems, let him play chess! But, don’t punish him with chess if he doesn’t want to play it! He needs to enjoy the game! Chess is fun!

The following book is a book I can recommend strongly.

Learning Disabilities: Theories and diagnoses and teaching strategies – the ‘Bible’ of our course.

The best book! This was my teaching ‘bible’! See this link for the book on the previous image

http://search.barnesandnoble.com/Learning-Disabilities/Janet-W-Lerner/e/9780618224050

ADHD: Overview
Attention Deficit Hyperactivity Disorder (ADHD), sometimes inaccurately referred to as ADD (There is no clinical term by this name) is a disorder usually first diagnosed in infancy, childhood or adolesence. In the United States, approximately 3 – 5% of children are diagnosed with this disorder currently, with the peak around ages 8-9 years of age., with approximately 50% of cases diagnosed before age 4. The ratio of males to females is 3 males for every 1 female diagnosed.

There are 4 recognized types of ADHD. They are: ADHD – predominantly inattentive type; ADHD – predominantly hyperactive-impulsive type; ADHD – combined type (inattention and hyperactivity-impulsivity); and ADHD – Not otherwise specified.

Some of the symptoms of ADHD – hyperactive-impulsive type include: overactivity, impulse inhibition, language disorders, rejection by peers, aggressiveness, and conduct disorders. These children are generally referred for their behaviors early in their schooling or by their parents, and the symptoms have a high chance of persistence. More males than females have this subtype of disorder. Thus, the younger the age a child is diagnosed, the greater the chance they will be diagnosed with ADHD – hyperactive-impulsive subtype.

Some of the symptoms of ADHD- inattentive type include: sluggishness, organization, subtle deficits, social withdrawl, anxiety and depression. These children are generally referred for learning disabilities later in school, and have a greater chance for adjustment. Males and females have a more equal chance of being afflicted by this subtype of the disorder. Those diagnosed in their teen years are more likely to be diagnosed with ADHD – inattentive subtype.

There is a high level of correlation between children with ADHD and other psychiatric illnesses. This included illnesses ranging from behavioral, mood, family, anxiety, cognitive, social to school functioning, with the greatest increase in those with the ADHD – combines subtype. 45% of those with ADHD ADHD exhibit symptoms of OppositionalDefiant Disorder, and 25% Conduct Disorder. Younger children are more at risk for social phobia, while adolescent children are at risk for depression.

The symptoms of ADHD change over time. As children enter adolescence, ADHD is persistent, although the diagnosis appears to change from ADHD – hyperactivity-impulsive or ADHD – combined to one of ADHD- inattentive. This is possibly due to the hormonal changes. At this point, only 70-80% still meet the full criteria for ADHD, lowering the percentage of teenagers with ADHDto 1-2%. Entering Adulthood, the estimates range from 30 to 70% of those diagnosed as a child still meeting the full criteria, though there is general agreement that those who do meet the criteria have a definite lessening of the hyperactivy-impulsivity of the disease.

Substance abuse is common among those with ADHD. 75% of males with ADHD who were not on medication are reported as having a substance abuse disorder, 25% of those on medication having a substance abuse disorder (18% of the general population has a substance abuse disorder for comparison), and adults with ADHD were 2 times as likely to develop a substance abuse disorder. They esimate that 33% of adults with ADHD abuse alcohol and 20% abuse other substances.

The primary treatment for ADHD is stimulant medications such as Ritalin or Adderal, sometimes combines with supportive psychotherapy, especially when other psychiatric disorders are present.

With appropriate psychotherapy, that focuses on controlling their environment to increase or decrease stimulation as needed, working on coping mechanisms, among other factors, approximately 50% of adults with ADHD can stop medications by some reports.

Learning Disabilities
Imagine having important needs and ideas to communicate, but being unable to express them. Perhaps feeling bombarded by sights and sounds, unable to focus your attention. Or trying to read or add but not being able to make sense of the letters or numbers.

You may not need to imagine. You may be the parent or teacher of a child experiencing academic problems, or have someone in your family diagnosed as learning disabled. Or possibly as a child you were told you had a reading problem called dyslexia or some other learning handicap.

Although different from person to person, these difficulties make up the common daily experiences of many learning disabled children, adolescents, and adults. A person with a learning disability may experience a cycle of academic failure and lowered self-esteem. Having these handicaps–or living with someone who has them–can bring overwhelming frustration.

But the prospects are hopeful. It is important to remember that a person with a learning disability can learn. The disability usually only affects certain limited areas of a child’s development. In fact, rarely are learning disabilities severe enough to impair a person’s potential to live a happy, normal life.

This booklet is provided by the NationalInstitute of Mental Health (NIMH), the Federalagency that supports research nationwide on the brain, mentalillnesses, and mental health. Scientists supported by NIMH are dedicated to understanding the workings and interrelationships of the various regions of the brain, and to finding preventions and treatments to overcome brain dysfunctions that handicap people in school, work, and play.

The booklet provides up–to-date information on learning disabilities and the role of NIMH-sponsored research in discovering underlying causes and effective treatments. It describes treatment options, strategies for coping, and sources of information and support. Among these sources are doctors, specialeducation teachers, and mental health professionals who can help identify learning disabilities and recommend the right combination of medical, psychosocial, and educationaltreatment.

In this booklet, you’ll also read the stories of Susan, Wallace, and Dennis, three people who have learning disabilities. Although each had a rough start, with help they learned to cope with their handicaps. You’ll see their early frustrations, their steps toward getting help, and their hopes for the future.

The stories of Susan, Wallace, and Dennis are representative of people with learning disabilities, but the characters are not real. Of course, people with learning disabilities are not all alike, so these stories may not fit any particular individual.

What Is a Learning Disability?
Unlike other disabilities, such as paralysis or blindness, a learning disability (LD) is a hidden handicap. A learning disability doesn’t disfigure or leave visible signs that would invite others to be understanding or offer support. A woman once blurted to Wallace, “You seem so intelligent–you don’t look handicapped!”

LD is a disorder that affects people’s ability to either interpret what they see and hear or to link information from different parts of the brain. These limitations can show up in many ways–as specific difficulties with spoken and written language, coordination, self-control, or attention. Such difficulties extend to schoolwork and can impede learning to read or write, or to do math.

Learning disabilities can be lifelong conditions that, in some cases, affect many parts of a person’s life: school or work, daily routines, family life, and sometimes even friendships and play. In some people, many overlapping learning disabilities may be apparent. Other people may have a single, isolated learning problem that has little impact on other areas of their lives.

Please click HEREto read about the different types.

What Causes Learning Disabilities?
Genetic Factors — The fact that learning disabilities tend to run in families indicates that there may be a genetic link. For example, children who lack some of the skills needed for reading, such as hearing the separate sounds of words, are likely to have a parent with a related problem. However, a parent’s learning disability may take a slightly different form in the child. A parent who has a writing disorder may have a child with an expressive language disorder. For this reason, it seems unlikely that specific learning disorders are inherited directly. Possibly, what is inherited is a subtle brain dysfunction that can in turn lead to a learning disability.

There may be an alternative explanation for why LD might seem to run in families. Some learning difficulties may actually stem from the family environment. For example, parents who have expressive language disorders might talk less to their children, or the language they use may be distorted. In such cases, the child lacks a good model for acquiring language and therefore, may seem to be learning disabled.

Tobacco, Alcohol, and Other Drug Use — Many drugs taken by the mother pass directly to the fetus. Research shows that a mother’s use of cigarettes, alcohol, or other drugs during pregnancy may have damaging effects on the unborn child. Therefore, to prevent potential harm to developing babies, the U.S. Public Health Service supports efforts to make people aware of the possible dangers of smoking, drinking, and using drugs.

Scientists have found that mothers who smoke during pregnancy may be more likely to bear smaller babies. This is a concern because small newborns, usually those weighing less than 5 pounds, tend to be at risk for a variety of problems, including learning disorders.

Alcohol also may be dangerous to the fetus’ developing brain. It appears that alcohol may distort the developing neurons. Heavy alcohol use during pregnancy has been linked to fetal alcohol syndrome, a condition that can lead to low birth weigh, intellectual impairment, hyperactivity, and certain physical defects. Any alcohol use during pregnancy, however, may influence the child’s development and lead to problems with learning, attention, memory, or problem solving. Because scientists have not yet identified “safe” levels, alcohol should be used cautiously by women who are pregnant or who may soon become pregnant.

Drugs such as cocaine–especially in its smokable form known as crack–seem to affect the normal development of brain receptors. These brain cell parts help to transmit incoming signals from our skin, eyes, and ears, and help regulate our physical response to the environment. Because children with certain learning disabilities have difficulty understanding speech sounds or letters, some researchers believe that learning disabilities, as well as ADHD, may be related to faulty receptors. Current research points to drug abuse as a possible cause of receptor damage.

Please click HERE to read more about it.

Symptom Description…ADHD Behavioral Checklist
Trouble attending to work that child understands well
Trouble attending to work that child understands poorly
Impulsive (trouble waiting turn, blurts out answers)
Hyperactive (fidgity, trouble staying seated)
Disorganized
Homework not handed in
Inconsistent work and effort
Poor sense of time
Does not seem to talk through problems
Over-reacts
Easily overwhelmed
Blows up easily
Trouble switching activities
Hyper-focused at times
Poor handwriting
Certain academic tasks seem difficult (specifiy)
Seems deliberately spiteful, cruel or annoying
Anxious, edgy, stressed or painfully worried
Obsessive thoughts or fears; perseverative rituals
Irritated for hours or days on end (not just frequent, brief blow-ups)
Depressed, sad, or unhappy
Extensive mood swings
Tics: repetitive movements or noises
Poor eye contact
Does not catch on to social cues
Limited range of interests and interactions
Unusual sensitivity to sounds, touch, textures, movement or taste
Coordination difficulties
By Martin L. Kutscher, MD
Departments of Pediatrics and Neurology, New York Medical College, Medical Professional
Pediatrician and Neurologist

Some of the most famous celebrities of today and yesteryear are dyslexic personalities. The owner of Virgin airlines Richard Branson, John Lennon of the music group Beatles, actors like Tom Cruise,
Robin Williams, and Whoopi Goldberg, photographer David Bailey. Even people from past times like Leonardo da Vinci, Thomas Alva Edison, and Albert Einstein are also said to suffer from learning problems like Dyslexia.

Source for info on ADHD..http://www.mental-health-matters.com/articles/article.php?artID=49

Checklist: http://www.mental-health-matters.com/articles/article.php?artID=311

Ritalin – what you need to know and please find out more too! Please note that I myself is no expert on Ritalin, this info is from a source and you can find the source at the end of the article. All I can say is: I have the experience of kids in my class who used to take Ritalin. I’m not for Ritalin, but not completely against it. Every child is a different case and only a Medical Specialist can decide what’s best for your child – in collaboration with the parents/teachers. Don’t trust every quack of a doctor! Make sure you go to a specialist trained in the field of children with ADHD and not only learning problems. My opinion: Most kids – with problems – can go without Ritalin. All you need to do is to give your child attention and love!

This doggie needs “help” too…but not in the form of Ritalin. He needs attention and love. Image: flatrock.org.nz

What is Ritalin?

Generic Name: methylphenidate (METH il FEN i date)
Brand Names: Concerta, Metadate CD, Metadate ER, Methylin, Methylin ER, Ritalin, Ritalin LA, Ritalin-SR

Ritalin is a mild central nervous system stimulant. It affects chemicals in the brain and nerves that contribute to hyperactivity and impulse control.

Ritalin is used to treat attention deficit disorder (ADD), attention deficit hyperactivity disorder (ADHD), and narcolepsy (an uncontrollable desire to sleep). When given for attention deficit disorder, Ritalin should be an integral part of a total treatment program that includes psychological, educational, and social measures.

Ritalin may also be used for other purposes not listed in this medication guide.

What is the most important information I should know about Ritalin?
Do not use Ritalin if you have used an MAO inhibitor such as isocarboxazid (Marplan), tranylcypromine (Parnate), phenelzine (Nardil), rasagiline (Azilect), or selegiline (Eldepryl, Emsam) within the past 14 days. Serious, life-threatening side effects can occur if you use Ritalin before the MAO inhibitor has cleared from your body. Do not use Ritalin if you are allergic to methylphenidate or if you have glaucoma, overactive thyroid, severe high blood pressure, tics or Tourette’s syndrome, angina, heart failure, heart rhythm disorder, recent heart attack, a hereditary condition such as fructose intolerance, glucose-galactose malabsorption, or sucrase-isomaltase deficiency, or severe anxiety, tension, or agitation.

Ritalin may be habit-forming and should be used only by the person it was prescribed for. Ritalin should never be shared with another person, especially someone who has a history of drug abuse or addiction. Keep the medication in a secure place where others cannot get to it.

What should I discuss with my healthcare provider before taking Ritalin?
Do not take Ritalin if you have used an MAO inhibitor such as isocarboxazid (Marplan), tranylcypromine (Parnate), phenelzine (Nardil), rasagiline (Azilect), or selegiline (Eldepryl, Emsam) within the past 14 days. Serious, life-threatening side effects can occur if you use Ritalin before the MAO inhibitor has cleared from your body.

Do not use Ritalin if you are allergic to methylphenidate or if you have:

glaucoma; overactive thyroid; severe high blood pressure; angina (chest pain), heart failure, heart rhythm disorder, or recent heart attack; a personal or family history of tics (muscle twitches) or Tourette’s syndrome; severe anxiety, tension, or agitation (methylphenidate can make these symptoms worse); or a hereditary condition such as fructose intolerance, glucose-galactose malabsorption, or sucrase-isomaltase insufficiency.

Some stimulants have caused sudden death in children and adolescents with serious heart problems or congenital heart defects. Tell your doctor if you have a congenital heart defect.

If you have certain other conditions, you may need a dose adjustment or special tests to safely take this medication. Before using Ritalin, tell your doctor if you are allergic to any drugs, or if you have:

a congenital heart defect; a personal or family history of mental illness, psychotic disorder, bipolar illness, depression, or suicide attempt; epilepsy or other seizure disorder; or a history of drug or alcohol addiction.

FDA pregnancy category C. It is not known whether Ritalin is harmful to an unborn baby. Tell your doctor if you are pregnant or plan to become pregnant during treatment. It is not known whether methylphenidate passes into breast milk or if it could harm a nursing baby. Do not use this medication without telling your doctor if you are breast-feeding a baby.

Long-term use of Ritalin can slow a child’s growth. Tell your doctor if the child using this medication is not growing or gaining weight properly.

Do not give Ritalin to a child younger than 6 years old without the advice of a doctor.

How should I take Ritalin?
Take Ritalin exactly as it was prescribed for you. Do not take the medication in larger amounts, or take it for longer than recommended by your doctor. Follow the directions on your prescription label.

Take Ritalin at least 30 minutes before a meal. The extended-release forms of methylphenidate (Ritalin-SR) can be taken with or without food.

The chewable tablet must be chewed before you swallow it.

Do not crush, chew, or break an extended-release TABLET. Swallow the tablet whole. It is specially made to release medicine slowly in the body. Breaking the tablet would cause too much of the methylphenidate to be released at one time.

If you have trouble swallowing the extended-release CAPSULE, you may open the capsule and sprinkle the medicine into a spoonful of applesauce to make swallowing easier. Swallow this mixture right away without chewing. Do not save the mixture for later use. Discard the empty capsule.

Measure liquid Ritalin with a special dose-measuring spoon or cup, not a regular table spoon. If you do not have a dose-measuring device, ask your pharmacist for one.

To prevent sleep problems, take Ritalin early in the day, no later than 6:00 pm.

If you need to have any type of surgery, tell the surgeon ahead of time that you are using Ritalin. You may need to stop using the medicine the day of your surgery. Store Ritalin at room temperature away from moisture and heat. Keep track of how many pills have been used from each new bottle of this medicine. Methylphenidate is a drug of abuse and you should be aware if any person in the household is using this medicine improperly or without a prescription.

What happens if I miss a dose?
Take the missed dose as soon as you remember. If it is almost time for your next dose, skip the missed dose and take the medicine at your next regularly scheduled time. Do not take extra medicine to make up the missed dose.

What happens if I overdose?
Seek emergency medical attention if you think you have used too much Ritalin. An overdose of methylphenidate can be fatal.
Overdose can cause vomiting, agitation, tremors, muscle twitching, seizure (convulsions), confusion, hallucinations, sweating, fast or pounding heartbeat, blurred vision, dry mouth and nose, and fainting.

What should I avoid while taking Ritalin?
Ritalin can cause side effects that may impair your vision or reactions. Be careful if you drive or do anything that requires you to be awake and alert.

Ritalin side effects
Get emergency medical help if you have any of these signs of an allergic reaction: hives; difficulty breathing; swelling of your face, lips, tongue, or throat.

Stop taking Ritalin and call your doctor at once if you have any of these serious side effects:

fast, pounding, or uneven heartbeats;

feeling like you might pass out; fever, sore throat, and headache with a severe blistering, peeling, and red skin rash; aggression, restlessness, hallucinations, unusual behavior, or motor tics (muscle twitches); easy bruising, purple spots on your skin; or dangerously high blood pressure (severe headache, blurred vision, buzzing in your ears, anxiety, confusion, chest pain, shortness of breath, uneven heartbeats, seizure).

Less serious Ritalin side effects may include:

stomach pain, nausea, vomiting, loss of appetite;

vision problems, dizziness, mild headache;

sweating, mild skin rash;

numbness, tingling, or cold feeling in your hands or feet;

nervous feeling, sleep problems (insomnia); or

weight loss.

This is not a complete list of side effects and others may occur. Tell your doctor about any unusual or bothersome side effect.

What other drugs will affect Ritalin?
Before taking Ritalin, tell your doctor if you are using any of the following drugs: a blood thinner such as warfarin (Coumadin); clonidine (Catapres); dobutamine (Dobutrex), epinephrine (EpiPen), or isoproterenol (Isuprel); phenylbutazonie (Azolid, Butazolidin); cold/allergy medicine that contains phenylephrine (a decongestant); potassium citrate (Urocit-K, Twin-K), sodium acetate, sodium bicarbonate (Alka-Seltzer), citric acid and potassium citrate (Cytra-K, Poly-Citra), or sodium citrate and citric acid (Bicitra, Oracit); medications to treat high or low blood pressure; stimulant medications or diet pills; seizure medicine such as phenytoin (Dilantin), phenobarbital (Luminal), primidone (Mysoline); or an antidepressant such as amitriptyline (Elavil, Etrafon), citalopram (Celexa), doxepin (Sinequan), fluoxetine (Prozac, Sarafem), imipramine (Janimine, Tofranil), nortriptyline (Pamelor) paroxetine (Paxil), sertraline (Zoloft), and others.

This list is not complete and there may be other drugs that can interact with Ritalin. Tell your doctor about all the prescription and over-the-counter medications you use. This includes vitamins, minerals, herbal products, and drugs prescribed by other doctors. Do not start using a new medication without telling your doctor.

Remember, keep this and all other medicines out of the reach of children, never share your medicines with others, and use Ritalin only for the indication prescribed.
Every effort has been made to ensure that the information provided by Cerner Multum, Inc. (‘Multum’) is accurate, up-to-date, and complete, but no guarantee is made to that effect. Drug information contained herein may be time sensitive. Multum information has been compiled for use by healthcare practitioners and consumers in the United States and therefore Multum does not warrant that uses outside of the United States are appropriate, unless specifically indicated otherwise. Multum’s drug information does not endorse drugs, diagnose patients or recommend therapy. Multum’s drug information is an informational resource designed to assist licensed healthcare practitioners in caring for their patients and/or to serve consumers viewing this service as a supplement to, and not a substitute for, the expertise, skill, knowledge and judgment of healthcare practitioners. The absence of a warning for a given drug or drug combination in no way should be construed to indicate that the drug or drug combination is safe, effective or appropriate for any given patient. Multum does not assume any responsibility for any aspect of healthcare administered with the aid of information Multum provides. The information contained herein is not intended to cover all possible uses, directions, precautions, warnings, drug interactions, allergic reactions, or adverse effects. If you have questions about the drugs you are taking, check with your doctor, nurse or pharmacist. Source: http://www.drugs.com/ritalin.html