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==Parkinson’s disease and biking==
==Parkinson’s disease and biking==
[http://well.blogs.nytimes.com/2011/10/12/what-parkinsons-teaches-us-about-the-brain What Parkinson’s teaches us about the brain]<br>
by Gretchen Reynolds, ''New York Times'', 12 October 2011


Health care remains a hot-button issue.  When it comes to degenerative diseases which affect the increasing number of elderly people, the Holy Grail is to find an inexpensive treatment which has few side effects and actually works.  According to [http://well.blogs.nytimes.com/2011/10/12/what-parkinsons-teaches-us-about-the-brain/ the New York Times], a surprisingly effective treatment for Parkinson’s disease is bike riding on the back of a tandem.   
Health care remains a hot-button issue.  When it comes to degenerative diseases which affect the increasing number of elderly people, the Holy Grail is to find an inexpensive treatment which has few side effects and actually works.  According to this ''New York Times'' article, a surprisingly effective treatment for Parkinson’s disease is bike riding on the back of a tandem.   
<blockquote>
<blockquote>
[T]he rider in front had been instructed to pedal at a cadence of about 90 r.p.m. and with higher force output or wattage than the patients had produced on their own. The result was that the riders in back had to pedal harder and faster than was comfortable for them.<br><br>
[T]he rider in front had been instructed to pedal at a cadence of about 90 r.p.m. and with higher force output or wattage than the patients had produced on their own. The result was that the riders in back had to pedal harder and faster than was comfortable for them.<br><br>

Revision as of 20:42, 16 February 2012

Quotations

"I focus on the most important form of innumeracy in everyday life, statistical innumeracy--that is, the inability to reason about uncertainties and risk."

--Gerd Gigerenzer

Submitted by Bill Peterson

Forsooth

“[The] ballad ‘Someone Like you’ … has risen to near-iconic status recently, due in large part to its uncanny power to elicit tears and chills from listeners. …. Last year, [scientists] at McGill University reported that emotionally intense music releases dopamine in the pleasure and reward centers of the brain, similar to the effects of food, sex and drugs. …. Measuring listeners' responses, [the] team found that the number of goose bumps observed correlated with the amount of dopamine released, even when the music was extremely sad.”

“Anatomy of a Tear-Jerker” (italics added)
The Wall Street Journal, February 11, 2012

Submitted by Margaret Cibes

Predictioneering

Bruce Bueno de Mesquita has written a fascinating, readable book, The Predictioneer’s Game: Using the Logic of Brazen Self-Interest to See and Shape the Future. A lengthy and generally positive review of Bueno de Mesquita’s views may be found in a NYT article, Can game theory predict when Iran will get the bomb?, by Clive Thompson (12 August 2009).

His game-theory-based track record is indicated by:

For 29 years, Bueno de Mesquita has been developing and honing a computer model that predicts the outcome of any situation in which parties can be described as trying to persuade or coerce one another. Since the early 1980s, C.I.A. officials have hired him to perform more than a thousand predictions; a study by the C.I.A., now declassified, found that Bueno de Mesquita’s predictions “hit the bull’s-eye” twice as often as its own analysts did.

In the introduction to his book, Bueno de Mesquita says, “I have been predicting future events for three decades, often in print before the fact, and mostly getting them right.” Furthermore, “In my experience, government and private business want firm answers. They get plenty of wishy-washy predictions from their staff. They are looking for more than ‘On the one hand this, but on the other hand that’--and I give it to them.”

Discussion

1. In that NYT article may be found a statement shocking to the world of statistics and probability:

Bueno de Mesquita does not express his forecasts in probabilistic terms; he says an event will transpire or it won’t.

Why is this a shocking statement to statisticians and probabilists?

2. In the NYT article is found the following criticism by Stephen Walt, a professor of international affairs at Harvard:

While Bueno de Mesquita has published many predictions in academic journals, the vast majority of his forecasts have been done in secret for corporate or government clients, where no independent academics can verify them. “We have no idea if he’s right 9 times out of 10, or 9 times out of a hundred, or 9 times out of a thousand,” Walt says. Walt also isn’t impressed by Stanley Feder’s C.I.A. study showing Bueno de Mesquita’s 90 percent hit rate. “It’s one midlevel C.I.A. bureaucrat saying, ‘This was a useful tool,’ ” Walt says.

Along these lines, suppose someone avers his hit rate is 100% when it involves forecasting a male birth, that is Prob (male predicted|male) = 1. Why might this be less than impressive?

3. Another critic may be found here regarding a prediction about Libya.

In February 2011 Bueno de Mesquita predicted that the unrest in the Arab world will not spread to such places as Saudia Arabia and ... Libya. Yes, Libya. Watch and listen carefully to the segment starting at 1:51 min into the interview.

Other incorrect predictions made by Bueno de Mesquita are also noted on this web site, including what this author calls “The n factorial debacle” whereby Bueno de Mesquita misconstrues the number of possible interactions between n individuals (game participants). This web site also brings up the issue of the so-called “black swans” when it comes to predicting outcomes of the game. What is a black swan and why does a black swan have an impact on prediction?

4. Brazen Self-Interest and its mathematical logic rest on game theory which asserts that morality or any other nicety is counter productive to achieving success. Bueno de Mesquita’s particular computer model starts with data of expert opinion and then somehow via simulation iterates to a conclusion. Comment on the problem of local minimums/maximums.

5. Health care is in the news today as it was back in the 1990s. The NYT article notes that “In early 1993, a corporate client asked him to forecast whether the Clinton administration’s health care plan would pass, and he said it would.” The black swan in this instance was Congressman Daniel Rostenkowski who [page 125] “was the key to getting health care legislation through Congress.” Google Daniel Rostenkowski to see why Rostenkowski was a black swan and “contrary to my expectations, nothing passed through Congress.”

Submitted by Paul Alper

Flood of data means flood of job opportunities

The Age of Big Data, Steve Lohr, The New York Times, February 11, 2012.

If you like working with data, you have great career opportunities ahead of you. We are seeing an

an explosion of data, Web traffic and social network comments, as well as software and sensors that monitor shipments, suppliers and customer

This means a big deal for the job market.

A report last year by the McKinsey Global Institute, the research arm of the consulting firm, projected that the United States needs 140,000 to 190,000 more workers with “deep analytical” expertise and 1.5 million more data-literate managers, whether retrained or hired.

It is a trend that occurs in more than business. This article cites major changes in Political Science and Public Health. The article introduces a term "big data" which it defines as

shorthand for advancing trends in technology that open the door to a new approach to understanding the world and making decisions.

While the article extols the virtues of data analysis, for the most part, there are some cautionary statements.

Big Data has its perils, to be sure. With huge data sets and fine-grained measurement, statisticians and computer scientists note, there is increased risk of “false discoveries.” The trouble with seeking a meaningful needle in massive haystacks of data, says Trevor Hastie, a statistics professor at Stanford, is that 'many bits of straw look like needles.'

Now data analysis demanding more attention from business circles and more.

Veteran data analysts tell of friends who were long bored by discussions of their work but now are suddenly curious. “Moneyball” helped, they say, but things have gone way beyond that. “The culture has changed,” says Andrew Gelman, a statistician and political scientist at Columbia University. “There is this idea that numbers and statistics are interesting and fun. It’s cool now.”

Submitted by Steve Simon

Note: The theme for Math Awareness Month this April is Mathematics, Statistics, and the Data Deluge.

Martin Gardner's "mistake"

“Martin Gardner’s Mistake”
by Tanya Khovanova, The College Mathematics Journal, January 2012

Martin Gardner first discussed the following problem in 1959:

Mr. Smith has two children. At least one of them is a boy. What is the probability that both children are boys?

His answer at that time follows:

If Smith has two children, at least one of which is a boy, we have three equally probable cases: boy-boy, boy-girl, girl-boy. In only one case are both children boys, so the probability that both are boys is 1/3.

Gardner later wrote a "correction" to his original solution, indicating that “the answer depends on the procedure by which the information is ‘at least one is a boy’ is obtained.”

He suggested two potential procedures.

(i) Pick all the families with two children, one of which is a boy. If Mr. Smith is chosen randomly from this list, then the answer is 1/3.

(ii) Pick a random family with two children; suppose the father is Mr. Smith. Then if the family has two boys, Mr. Smith says, “At least one of them is a boy.” If he has two girls, he says, “At least one of them is a girl.” If he has a boy and a girl he flips a coin to choose one or another of those two sentences. In this case the probability that both children are the same sex is 1/2.

Khovanova discusses a number of other scenarios related to being given both the sex and the day of the week on which the given child was born. The results may surprise students - and/or probability amateurs like this Chance contributor.

The pdf file containing this article is accessible to all and contains active links to her references, which include two 2010 articles by Keith Devlin, both discussing day-of-the-week scenarios and real-life cultural differences which might impact solutions: “Probability Can Bite” and “The Problem with Word Problems”

Discussion

Do you think that Gardner made a mistake? Why or why not?

Submitted by Margaret Cibes

Parkinson’s disease and biking

What Parkinson’s teaches us about the brain
by Gretchen Reynolds, New York Times, 12 October 2011

Health care remains a hot-button issue. When it comes to degenerative diseases which affect the increasing number of elderly people, the Holy Grail is to find an inexpensive treatment which has few side effects and actually works. According to this New York Times article, a surprisingly effective treatment for Parkinson’s disease is bike riding on the back of a tandem.

[T]he rider in front had been instructed to pedal at a cadence of about 90 r.p.m. and with higher force output or wattage than the patients had produced on their own. The result was that the riders in back had to pedal harder and faster than was comfortable for them.

After eight weeks of hourlong sessions of forced riding, most of the patients in Dr. [Jay] Alberts’s study showed significant lessening of tremors and better body control, improvements that lingered for up to four weeks after they stopped riding.

Compared to voluntary exercise,

The forced pedaling regimen, on the other hand, did lead to better full-body movement control, prompting Dr. Alberts to conclude that the exercise must be affecting the riders’ brains, as well as their muscles, a theory that was substantiated when he used functional M.R.I. machines to see inside his volunteers’ skulls. The scans showed that, compared with Parkinson’s patients who hadn’t ridden, the tandem cyclists’ brains were more active.

Dr. Alberts suspects that in Parkinson’s patients, the answer may be simple mathematics. More pedal strokes per minute cause more muscle contractions than fewer pedal strokes, which, in consequence, generate more nervous-system messages to the brain. There, he thinks, biochemical reactions occur in response to the messages, and the more messages, the greater the response.

Discussion

1. Part of the mystique of bike riding and Parkinson’s disease is evident from this startling video:

A 58-year-old man with a 10-year history of idiopathic Parkinson's disease presented with an incapacitating freezing of gait. However, the patient's ability to ride a bicycle was remarkably preserved.…

2. The NYT article, like most lay publications, left out all the important numbers that a statistician might be interested in. From a 2009 publication we learn the following:

Ten patients with mild to moderate PD were randomly assigned to complete 8 weeks of FE [forced exercise] or VE [voluntary exercise]. With the assistance of a trainer, patients in the FE group pedaled at a rate 30% greater than their preferred voluntary rate, whereas patients in the VE group pedaled at their preferred rate.

There were five in each group, eight men and two women in total. The output measures of success are quite technical; the paper uses averages and error bars (standard deviation) for each of the two groups for the respective output measures but the publication does not appear to do a t-test of the difference of any output measure. Comment on the small sample sizes and the lack of a t-test of the difference.

3. There is also a 2011 publication in another journal in a different field. Many of the figures and the data appear to be the same as in the 2009 publication.

4. Obviously, not every Parkinson’s patient can obtain unlimited use of a rider in front. Therefore, it is not surprising that there is a need for a special motorized stationary bike where a patient who is handicapped can pedal solo.

The Theracycle motorized exercise bicycle has been identified as one of the few exercise devices able to replicate the 80 – 90 RPM needed for the Cleveland Clinic bike study. Over 150 participants with Parkinson's disease have been chosen to study the effects of forced exercise on the Theracycle exercise bicycle.

A video of the Theracycle may be found here. Testimonials for Theracycle claim that it is useful not only for people who have Parkinson’s disease but also for people who suffer from multiple sclerosis, digestion, stroke, spinal cord injury, arthritis, diabetes and obesity. Why would a 150 patient study be more impressive than a ten patient study?

Submitted by Paul Alper