All Mud Fun
2012 Knog – Muddy Hell
©Olly Townsend of Cloud9Trails
Read our full Muddy Hell report here.
2012 Knog – Muddy Hell
©Olly Townsend of Cloud9Trails
Read our full Muddy Hell report here.
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Click SL (slideshow) or FS (fullscreen)
All Images ©AEhotos
Knog Muddy Hell
Herne Hill Velodrome
Saturday, October 27th, 2012.
Knog Muddy Hell earns it’s name. Nick Craig dominates in tough conditions.
Finally, after three years with dry conditions Knog Muddy Hell truely was a mud-fest. Plenty of rain leading up to the event, plus downpours on the night and the action of over 700 wheels, churning up the course created difficult conditions for competitors but great entertainment for spectators.
Course designer Phil Glowinski, created a smooth, flowing course, whilst maintaining the popular features of wall-ride, bridge, whoops, muddy corner and hurdles but it was the conditions which had the greatest effect on the results. A confident Nick Craig knew that his years of experience at top level off-road riding would stand him in good stead. Fresh from his recent win at the (slighly warmer) Mountain Bike Tour of Langkawi Nick indeed provided a master class in technique, though he was distanced in the sprint from the start, his superior bike handling soon saw him opening up a big gap with National Junior champion Hugo Robinson chasing. Hugo however suffered a mechanical as did many others, Ed McParland made a valiant effort to catch the veteran, but it was never going to happen and Nick took the £400 from Knog with a huge gap.
Three previous winners of the Women’s event took to the line, and Louise Mahe took her second Knog Muddy Hell title with Claire Beaumont second, National track champion Corinne Hall did not repeat her podium finish instead Leona Kadir took third spot.
Supported by Vulpine cycle clothing the vets category saw a very competitive field, multiple Knog Muddy Hell winner Mick Bell could not repeat his usual top spot due to mud-induced mechanical issues and relinquished the top step of the podium to Kevin Knox of Vicious Velo.
Racing at the same time as the women and vets, 2012 saw the largest junior field in the history of the event with Chris McGovern the clear winner finishing up amongst the first few vets.
The ever popular Novice race had over 100 entries, the best fancy dress, two tandems (one pantomime horse) and the worst weather, this is when the rain hit and there were more than a few retirements. James Flury was best male and Lise Sorenson best female, both taking prizes from Cycelab.
The youth categories saw record levels of entries, organisers Rollapaluza claim that over 70 entry enquiries were received for the U12 event alone, because of the high level of interest they will look to accomodate more youngsters in 2013. In all over 350 racers took part with, despite the rain, hundreds of cheering spectators enjoying the racing, atmosphere, food, mulled cider, “Off-Road” Rollapaluza competition and bike polo skills try out.
AEphotos full galleries of all races: http://aephotos.co.uk/muddyhell2012
RESULTS:
Seniors:
1. Nick Craig
2. Ed McParland
3. Darren Barclay
4. Chris Metcalfe
5. William Thomson
6. Bruce Dalton
7. Richard Mardle
8. Jack Finch
9. Will Fooks
10. Uldis Karklins
Women:
1. Lousie Mahe
2. Claire Beaumont
3. Leona Kadir
Vets:
1. Kevin Knox
2. John Lyons
3. Nick Walsh
Juniors:
1. Chris McGovern
2. James Wood
3. Ashley Dennis
Novice Male:
1. James Flury
1. Keith Brewster
3. John Coolahan
Novice Female:
1. Lise Sorensen
2. Lesley Auchterlonie
3. Hester Polak
U16
1. Sam Titmarsh
2. Matt Clements
3. Thomas Finch
U14
1. Luke Mitchie
2. George Finch
3. Freddie Argent
U12
1. Noah Charlton
2. Charlie Craig
3. Aaron Freeman
I’ve been on the periphery of groups of people doing endurance mountain bike racing for a few years now, always on the outside looking in. But I finally got the chance to pop my endurance cherry at the Bristol Bikefest in June as part of a 4 man team going for 12 hour glory. Quite apart from being the event that meant I HAD to buy a new MTB, it was an unbelievable weekend in many ways. Some of them have no words in English adequate to describe them.
Straight off the bat, things were not looking good. Stuck in work at Banbury until six on the Friday evening, Luke, Jon and Steve had long been on site before I could even set off, they had first hand experience of the shocking weather conditions that I didn’t want to know about. Rocking up at eight after McDonalds (race fuel is important, right?) and a long drive, Ashton Court was blustery and wet. The rain had largely stopped, but the ground was wet enough that the toilets had had to be left in a separate field and duck planks laid down to give vehicles a chance to make it into the camping field. I wouldn’t say morale was rock-bottom, but neither was it at it’s adrenaline-filled peak, either. What with hydration being as important as race fuel, I’d optimistically brought a rake load of Kronenbourg, but no-one was in the mood for much more than an early night and good sleep.
The early night bit went off as planned, but the sleeping bit wasn’t great, with gales giving the tents some gyp. With the race kicking off at nine, we were all up and about by half seven, popping to the Luff Bus for bacon rolls and a hot drink – as preparation goes, it wasn’t ideal, but the others had at least had a wander down the day before and seen a few lengths of trail. Preparation, after all, is about more than just hydration and fuel.
After scientifically formulating our riding order (by going “who wants to go first? Who wants to go second?” etc) , Luke was the man to step forward for the important first stint. Following the rider’s briefing, a horde of riders meandered over the horizon to await the nine o’clock start time out of our sight, and when the clock finally struck nine, an endless stream of two-wheeled lunatics came pouring past us after the Le Mans-esque run to the bikes and mad sprint up the hill that starts the event. For the most part, the riders that flooded past were composed and happy-looking – some of them, however, looked pretty gassed straight off the bat. Hard not to get carried away at the start of a race like this, I guess, but the last thing you need is to be knackered 30 seconds after the flag drops on a 12 hour race.
It was, I found, easy to be a smart-arse before I actually took to the track. Scientifically placed at random in the number three slot, I started my stint in glory by not being in the transition area when speedy Steve turned up for the changeover. That hiccup overcome, I rolled out onto the track for the first time, down the hill through the pits, then dived into the woods for some blisteringly fast, flowing single track. And guess what – about 30 seconds in, I was gassed.
It was incredible. I’ve not been to a modern mountain bike facility on a modern mountain bike since, ooo, forever, so finding myself on pristine manmade single track under race conditions was astonishing, a really liberating experience. I flung myself (in relative terms) down the track as fast as I dared, carving arcs through a beautiful green cathedral of trees for a minute or two before a nagging doubt began to creep into the back of my mind – had I missed a turn somewhere? There was nowhere that I’d had any moments of doubt about which way to go, but even looking on the brightest of bright sides, it was unlikely that I was on the pace of the fast folk, nor was it likely that said pace was the same as the folk at the back of the field. Nevertheless, I swear I must have battled through the woods for fully ten minutes in solitude, doubt growing with every turn of the wheel, but the path was so cool, I was loathed to turn back. As I made my way downhill however, eventually I heard the sound of freewheels and chain slap slowly growing behind me. If I was lost, at least it wasn’t just me – cool.
Of course, I wasn’t lost, I must have just popped out into an unusually large gap, because most of the rest of my day aboard the bike was spent looking for places to get out of the way of faster traffic. Almost without exception, from the first to the last, they were all achingly polite, asking if they could come by and thanking me when I found enough trail to move to one side, which not only blew a personal pre-race misconception out of the water but cemented the point by proving what nice folk mountain bikers are. If ever you’ve wanted to do a race but have been put off by the fear of being out off your depth, fear no more – based on my Bristol experience, as long as you make an effort not to hold people up, they’ll all be nice to you on the way by.So I cracked on, and I took it steady, knowing there was a long way to go – not taking it easy, running at about 90% instead of flat out, The track had moments of awesomeness, many great lengths of swoopy sweepy singletrack, most of it wide enough to allow faster traffic through, although there was the odd painful climb – a particular standout was the fast downhill hairpin section, very Alpine, that led into a quick righthander before climbing up… And up and up, through a horrible rising righthand hairpin, all wet roots, then a long rocky stretch, nice and damp, horrible and bobbley so you could never relax. It was nasty, and it wasn’t the only bit of track that hurt, but beyond any shadow of a doubt, the bits that stung were nothing compared to the good bits. This track rocks.
I completed lap one with a smidge in reserve, but decided lap two was party time. I went out and gave it everything, from the first turn of the pedal all the way through to the desperate, breathless crossing of the line. Depressingly, it made almost no difference whatsoever, the scant seconds I saved as likely to be down to knowing the course as to the extra effort expended, but it meant that, by the end of the lap, I was almost done. Stint three was an exercise in survival, treading the line between cracking on as fast as I could and keeping a little something in reserve for a final lap four, but by then an eerie spectre had arisen, that we might just – JUST – be able to sneak an extra lap in for one of us. It was a most curious feeling – if Natalie Imbruglia thinks she knows something about being torn, I can tell her she can think again. The extra lap might make a difference in our overall position, but we were all as close to having given our all as to make the prospect of an extra lap, even on this brilliant track, a truly scary prospect.
I put myself forward for the fifth lap then hit the track, running stint four as quick as I could muster, knowing I had Jonno to follow and, if the clock smiled on us, that meant about 35 minute’s rest and the dread lap would be on me. Making the changeover to Jon as swiftly as possible, I trembled out of the changeover area on wobbly legs to check the clock – Luke and Steve were on the job, and the news was… We were JUST out of time to do another lap. Gutted. Relieved, but at the same time, gutted.
The level of competition was an eye-opener (NTG MTB finished 88th out of 95, beaten even by the appropriately-monikered Team Inappropriate Bike, who really were on some shocking equipment), but the atmosphere was cracking, the event well run and everyone was just so friendly. But it was the track that was the star for me – first time out on my first mountain bike in 16 years, I had an absolute blast, even if the hurt lasted a long time. Roll on Oktoberest and the 8 hour endurance event at the same place – see you there…
For more information on both the summer Bikefest and forthcoming Oktoberfest, visit www.bike-fest.com
With the recent BBC Panorama documentary in mind about the research that underpins sales and marketing of sports drinks in the UK, I have become some what sceptical about the claims made by manufacturers relating to the performance enhancement that the general population of active sports people and in our case active cyclists can gain from the use of sports drinks and nutrition products. People believe it super effective during their workouts, having even become famous as the joe rogan diet included drinking sports drinks in his workout routine. And that’s what the researcher is trying to analyze.
For those who did not see the programme, in a nutshell, the BBC had linked up with a group of researchers at Oxford University who wanted to test the validity of the research and data that is currently being used to sell Lucozade Sport and Powerade.
As we may know all research findings are based on statistical analysis and we all know about statistics, ‘there are lies, damn lies and statistics’! I should know I used to use research findings and materials data to sell a specific engineering product. In the past making claims that our product out performed the competition. Well it did in certain areas but not always the one the customer wanted to use it in, but who was I to enlighten them to that fact!
The outcome of the team at Oxford appeared to suggest that sports drinks offer no significant advantage to the average population vs drinking water. In fact they went even further and suggested the the ingestion of 23 grammes of sugar per 500ml of fluid could be detrimental to the target audience, children!
But perhaps this is where Nuun is different as the name might suggest it has nuun of the ‘nasty’ calories found in sugar, although this does mean the drink does not provide an energy source but then it is does not claim to do this.
So what does the American manufacturer actually claim? Well here is their promotional information on the company website:-
Nuun branded products’ formulation is based on years of research and feedback from some of the world’s top academic and practicing experts in the field of sports medicine—specifically in dehydration and hyponatremia. Nuun’s development is focused on the three most important aspects of proper hydration: SPEED OF ABSORPTIONOther then the reference to the American College of Sports Medicine no specific references appear to be easily found on the company website. The marketing blurb continues with:-
WHY IS HYDRATION IMPORTANT?
Hydration is important for your overall health, regardless of your daily activity level. A large percentage of your body is made up of water, and proper hydration means ensuring that your body maintains that level of water, as we are constantly losing water. Water helps your body regulate temperature, transport nutrients to organs and tissues, transport oxygen to cells, remove waste, and protect your joins and organs.
Hydration, however, is more than just drinking water. Proper hydration is essential for concentration and attention to detail, whether you’re running a marathon, or a marathon of errands. Even a small decline in dehydration levels can result in a decrease of mental and physical performance.
HOW CAN I STAY HYDRATED WITHOUT THE UNNECESSARY SUGARS?
Nuun is hydration, without the sugar – a refreshing alternative to many of the options in the beverage market today. On average, Americans consume 130 pounds of sugar per person, per year. Sugar has been directly related to heart disease, metabolic syndrome and diabetes.
Beverages containing large amounts of sugar can accelerate the dehydration process. Sugar requires water from the body in order to be digested, leaving less water to properly fuel muscle and brain function. With zero sugars and only 8 calories in each 16oz. bottle, Nuun is a smart choice for hydration.
All very interesting, but wait what is this about sugar causing dehydration, this a new one to me. I always thought that the key to rehydration was to drink water with the addition of salt and sugar. Well that is certainly what I remember being told would save lives in third world countries, if only they could have clean water, salt and sugar!
But wait please remember that this product was developed for the American market and the key words to pick up on are:-
On average, Americans consume 130 pounds of sugar per person, per year. Sugar has been directly related to heart disease, metabolic syndrome and diabetes.
A quick internet search revealed via the Livestrong website that sugar can dehydrate you if you get very high levels in you blood, this can happen if you are, guess what, yes you guessed it Diabetic! (Read more: www.livestrong.com)
So with all this in mind and one over riding memory of the Panorama programme, Graeme Obree describing his feed and hydration regime for his hour records, water and jam butties!
The first thing to comment on is the Nuun bottle that came with the test product, it is very good, and continues to be a favourite of mine after two weeks of daily rides. It has an easy to use soft mouth piece, wide mouth to allow for easy cleaning and is made of a soft plastic that allows easy squeeze to get a good squirt of hydration product.
The test arena for the hydration tabs is the sunny Vendee (Atlantic Coast France) and the region that is one of the key sponsors of the Europcar Team. Testing has been conducted on medium paced rides of over 60 minutes in temperature approaching and in excess of 30oC! Prime weather for dehydration and salt imbalance, the type of weather that can easily promote post ride cramp.
The three flavours on test were, Strawberry, Lemon and Lime and the main sample of Grape. Nuun recommended dosage is one tab per 500ml bottle, but being a tight Yorkshireman, I typically only use one tab (habit was developed using High 5 Zero) so my initial test rides are all based on a single tab.
The tabs are incredibly easy to use, drop one into the bottle and add water. Step back and watch them fizz away to their hearts content. With a little agitation they dissolve very quickly, so much easier then a powder mix and no mess. The tab format also means that will be easy to carry on a long ride and mix on route. Nice. This as far as I am concerned is an absolutely major benefit to using tabs vs powders. They are really easy to transport anywhere in the world and better still take up less cupboard space, this means less hassle from the one who is to be obeyed (aka the wife)!
Ride 1 Strawberry.
72 mins early morning start 7.30am temperature 22oC and climbing.
Initial reaction was that the flavour would probably be the bottom of my list, a little insipid to say the least but I would never normally drink anything strawberry flavoured so a little harsh maybe and especially as I am using a half dose.
The product seemed to work during and post ride and I would certainly say that it was more palatable then plain water.
Ride 2 Lemon and Lime.
78 mins fast paced afternoon ride 4pm temperature 32oC
This was a much better flavour for my taste even at half strength a very smooth taste and no after taste of bicarb (can sometimes get this with other tab products) over all quite impressed. No issues with cramp during the ride.
Further rides using Grape
A range of easy and hard rides across similar temperatures to the first two tests.
At half strength the grape did not taste very strong so I took the plunge and used the recommended one tabs per 500ml. Bingo! the taste was great and more importantly no cramp during or post rides. The biggest benefit for me, from past experience, is the fluids were good to drink even when the bottle temperature had risen during the ride. I normally find it unpleasant to drink warm water mid to end of a long warm ride. Adding Nuun changes this and the tepid fluid stays pleasant to drink and actually encourage you to maintain fluid balance.
So much for the use now for the science behind the product or at least the labeling and list of ingredients. Now be honest after all the hype, advertising and endorsements listed for the product you use how many of you actually read the ingredients and find out what they do or are used for? I confess I have never done so, but in view of the TV documentary I thought it might be enlightening!
On each packet is found the following:-
Nuun turns water into a refreshing sports hydration drink (hmm this smacks of the Apprentice style sales pitch!!)
According to the label Nuun are electrolyte enhanced drinks tabs with zero sugar and only 8 calories per tab.
The full nutrition data is listed for a tab in 240ml as:-
Fat 0g
Sodium 173mg (2%)
Potassium 50mg (1%)
Total Carbs <1g
Sugar 0g
Vitamin C 19mg (31%)
Riboflavin 250mg (15%)
Calcium 6.5mg (1%)
Magnesium 12.5mg (3%)
(percentages based on a 2000 calorie diet)
Ingredients: citric acid, sorbitol, sodium bicarbonate, sodium carbonate, sodium benzonate, natural flavours, polyethylene glycol, magnesium oxide, sodium acetate, ascorbic acid, acesulfame potassium, calcium carbonate, natural colour, riboflavin 5-phosphate.
Hmm that all sounds very tasty, if not a little industrial!
A couple of the ingredients leapt out at me immediately:
Sorbitol is that not a laxative? I seem to remember in my childhood falling foul of eating too many sorbitol mints, hmm not a pleasant memory.
Sodium Bicarbonate (baking soda), is this not the active ingredient in popular Plink Plink fizz pick me up and headache tablet? I remember a science experiment at school where our teacher demonstrated that over 50% of the Alka Salksa was actually Bicarb and was only added to give the good old fizz for branding!
Sodium Benzonate, is that not related to benzene and is that not found in petrol and is it a cancer causing chemical?
Well that is what got me thinking about what all these chemical actually are and you can find out too my reading the ingredients appendix. (data sourced from Wikipedia so reader beware).
Does it work? yes it does create a very palatable hydration drink with the benefit of no added sugar. Does it keep cramp at bay and provide good salt balance. Used at full strength Nuun works very well and does what it says on the Tin (or plastic tube in Nuun’s case) Would I buy it? Yes. It really does turn water into a great flavoured hydration drink. I would recommend you try Nuun for yourself, you might just find you like it and that it suits your needs well.
Tablets RRP: £6.00 for a pack of 12 Tablets.
Nuun Bottle RRP:£4.00
Flavours: Banana, Tropical, Lemon Tea, Citrus Fruit, Fruit Punch, Strawberry Lemonade, Kona Kola, Orange, Grape & Tri-Berry.
Citric acid is a weak organic acid. It is a natural preservative/conservative and is also used to add an acidic, or sour, taste to foods and soft drinks. In biochemistry, the conjugate base of citric acid, citrate, is important as an intermediate in the citric acid cycle, and therefore occurs in the metabolism of virtually all living things. Citric acid is a commodity chemical, and more than a million tonnes are produced every year by fermentation. It is used mainly as an acidifier, as a flavoring, and as a chelating agent.
Sorbitol, also known as glucitol, is a sugar alcohol, which the human body metabolizes slowly. It can be obtained by reduction of glucose, changing the aldehyde group to a hydroxyl group. Sorbitol is found in apples, pears, peaches, and prunes. It is synthesized by sorbitol-6-phosphate dehydrogenase, and converted to fructose by succinate dehydrogenase and sorbitol dehydrogenase. Succinate dehydrogenase is an enzyme complex that participates in the citric acid cycle.
Sweetener
Sorbitol is a sugar substitute. It may be listed under the inactive ingredients listed for some foods and products. Sorbitol is referred to as a nutritive sweetener because it provides dietary energy: 2.6 kilocalories (11 kilojoules) per gram versus the average 4 kilocalories (17 kilojoules) for carbohydrates. It is often used in diet foods (including diet drinks and ice cream), mints, cough syrups, and sugar-free chewing gum.[citation needed]
It also occurs naturally in many stone fruits and berries from trees of the genus Sorbus.
Laxative
Sorbitol can be used as a non-stimulant laxative via an oral suspension or enema. As with other sugar alcohols, gastrointestinal distress may result when food products that contain sorbitol are consumed. Sorbitol exerts its laxative effect by drawing water into the large intestine, thereby stimulating bowel movements. Sorbitol has been determined safe for use by the elderly, although it is not recommended without consultation with a clinician. Sorbitol is found in some dried fruits and may contribute to the laxative effects of prunes.
Sodium bicarbonate
Sodium bicarbonate or sodium hydrogen carbonate is the chemical compound with the formula NaHCO3. Sodium bicarbonate is a white solid that is crystalline but often appears as a fine powder. It has a slightly salty, alkaline taste resembling that of washing soda (sodium carbonate). The natural mineral form is nahcolite. It is a component of the mineral natron and is found dissolved in many mineral springs.
Since it has long been known and is widely used, the salt has many related names such as baking soda, bread soda, cooking soda, and bicarbonate of soda. In colloquial usage, its name is shortened to sodium bicarb, bicarb soda, or simply bicarb. The word saleratus, from Latin sal æratus meaning aerated salt, was widely used in the 19th century for both sodium bicarbonate and potassium bicarbonate. The term has now fallen out of common usage.
Baking soda in sports
Small amounts of sodium bicarbonate have been shown to be useful as a supplement for athletes in speed-based events, like middle distance running, lasting from about one to seven minutes. But overdose is a serious risk because sodium bicarbonate is slightly toxic and in particular gastrointestinal irritation is of concern. Additionally this practice causes a significant increase in dietary sodium.
Sodium carbonate (also known as washing soda or soda ash), Na2CO3 is a sodium salt of carbonic acid. It most commonly occurs as a crystalline heptahydrate, which readily effloresces to form a white powder, the monohydrate. Sodium carbonate is domestically well known for its everyday use as a water softener. It can be extracted from the ashes of many plants. It is synthetically produced in large quantities from salt (sodium chloride) and limestone in a process known as the Solvay process.
Sodium carbonate is also used in the production of sherbet powder. The cooling and fizzing sensation results from the endothermic reaction between sodium carbonate and a weak acid, commonly citric acid, releasing carbon dioxide gas, which occurs when the sherbet is moistened by saliva.
Sodium benzoate has the chemical formula NaC6H5CO2; it is a widely used food preservative, with E number E211. It is the sodium salt of benzoic acid and exists in this form when dissolved in water. It can be produced by reacting sodium hydroxide with benzoic acid.
Sodium benzoate is a preservative. It is bacteriostatic and fungistatic under acidic conditions. It is most widely used in acidic foods such as salad dressings (vinegar), carbonated drinks (carbonic acid), jams and fruit juices (citric acid), pickles (vinegar), and condiments. It is also used as a preservative in medicines and cosmetics. As a food additive, sodium benzoate has the E number E211.
It is also used in fireworks as a fuel in whistle mix, a powder that emits a whistling noise when compressed into a tube and ignited. The fuel is also one of the fastest burning rocket fuels and provides a lot of thrust and smoke. It does have its downsides: there is a high danger of explosion when the fuel is sharply compressed because of the fuel’s sensitivity to impact.
Sodium benzoate is produced by the neutralization of benzoic acid with sodium hydroxide. Benzoic acid is detectable at low levels in cranberries, prunes, greengage plums, cinnamon, ripe cloves, and apples. Though benzoic acid is a more effective preservative, sodium benzoate is more commonly used as a food additive because benzoic acid does not dissolve well in water. Concentration as a preservative is limited by the FDA in the U.S. to 0.1% by weight. The International Programme on Chemical Safety found no adverse effects in humans at doses of 647–825 mg/kg of body weight per day.
Cats have a significantly lower tolerance against benzoic acid and its salts than rats and mice. Sodium benzoate is, however, allowed as an animal food additive at up to 0.1%, according to AFCO‘s official publication.
Safety and health
Main article: Benzene in soft drinks
In combination with ascorbic acid (vitamin C, E300), sodium benzoate and potassium benzoate form benzene, a known carcinogen. However, in most beverages that contain both, the benzene levels are below those considered dangerous for consumption. Heat, light and shelf life can affect the rate at which benzene is formed.
Professor Peter W. Piper of the University of Sheffield claims that sodium benzoate by itself can damage and inactivate vital parts of DNA in a cell’s mitochondria. Mitochondria consume oxygen to generate ATP, the body’s energy currency. If they are damaged due to disease, the cell malfunctions and may enter apoptosis.[citation needed]
Polyethylene glycol (PEG) is a polyether compound with many applications from industrial manufacturing to medicine. The structure of PEG is (note the repeated element in parentheses):
HO-CH2-(CH2-O-CH2-)n-CH2-OH
PEG is also known as polyethylene oxide (PEO) or polyoxyethylene (POE), depending on its molecular weight, and under the tradename Carbowax.
Biological uses
Commercial uses
Magnesium oxide (MgO), or magnesia, is a white hygroscopic solid mineral that occurs naturally as periclase and is a source of magnesium (see also oxide). It has an empirical formula of MgO and consists of a lattice of Mg2+ ions and O2− ions held together by ionic bonds. Magnesium hydroxide forms in the presence of water (MgO + H2O → Mg(OH)2), but it can be reversed by heating it to separate moisture.
Magnesium oxide was historically known as magnesia alba (literally, the white mineral from Magnesia), to differentiate it from magnesia negra, a black mineral containing what is now known as manganese.
Medical
In medicine, magnesium oxide is used for relief of heartburn and sore stomach, as an antacid, magnesium supplement, and as a short-term laxative. It is also used to improve symptoms of indigestion. Side effects of magnesium oxide may include nausea and cramping. In quantities sufficient to obtain a laxative effect, side effects of long-term use include enteroliths resulting in bowel obstruction.
Sodium acetate, CH3COONa, also abbreviated NaOAc, also sodium ethanoate, is the sodium salt of acetic acid. This colourless salt has a wide range of uses.
Sodium acetate may be added to foods as a seasoning. It may be used in the form of sodium diacetate — a 1:1 complex of sodium acetate and acetic acid, given the E-number E262. A frequent use of this form is in salt and vinegar chips in the United States. Many US brands, including national manufacturer Frito-Lay, sell “salt and vinegar flavoured” chips that use this chemical, with lactose and smaller percentages of other chemicals, in lieu of a real salt and vinegar preparation.
Ascorbic acid is a naturally occurring organic compound with antioxidant properties. It is a white solid, but impure samples can appear yellowish. It dissolves well in water to give mildly acidic solutions. Ascorbic acid is one form (“vitamer“) of vitamin C. It was originally called L-hexuronic acid, but when it was found to have vitamin C activity in animals (“vitamin C” being defined as a vitamin activity, not then a specific substance), the suggestion was made to rename L-hexuronic acid. The new name for L-hexuronic acid is derived from a- (meaning “no”) and scorbutus (scurvy), the disease caused by a deficiency of vitamin C. Because it is derived from glucose, many animals are able to produce it, but humans require it as part of their nutrition. Other vertebrates lacking the ability to produce ascorbic acid include other primates, guinea pigs, teleost fishes, bats, and birds, all of which require it as a dietary micronutrient (that is, a vitamin).
Chemically, there exists a D-ascorbic acid which does not occur in nature. It may be synthesized artificially. It has identical antioxidant properties to L-ascorbic acid, yet has far less vitamin C activity (although not quite zero). This fact is taken as evidence that the antioxidant properties of ascorbic acid are only a small part of its effective vitamin activity. Specifically, L-ascorbate is known to participate in many specific enzyme reactions which require the correct epimer (L-ascorbate and not D-ascorbate).
Food chemistry
Ascorbic acid and its sodium, potassium, and calcium salts are commonly used as antioxidantfood additives. These compounds are water-soluble and thus cannot protect fats from oxidation: For this purpose, the fat-solubleesters of ascorbic acid with long-chain fatty acids (ascorbyl palmitate or ascorbyl stearate) can be used as food antioxidants. Eighty percent of the world’s supply of ascorbic acid is produced in China.
The relevant European food additive E numbers are
It creates volatile compounds when mixed with glucose and amino acids in 90 Celsius.
It is a cofactor in tyrosineoxidation.
Acesulfame potassium (ay-see-SUHL-faym) is a calorie-free artificial sweetener, also known as Acesulfame K or Ace K (K being the symbol for potassium), and marketed under the trade names Sunett and Sweet One. In the European Union, it is known under the E number (additive code) E950. It was discovered accidentally in 1967 by German chemist Karl Clauss at Hoechst AG (now Nutrinova). In chemical structure, acesulfame potassium is the potassium salt of 6-methyl-1,2,3-oxathiazine-4(3H)-one 2,2-dioxide. It is a white crystalline powder with molecular formula C4H4KNO4S and a molecular weight of 201.24 g/mol.
Acesulfame K is 200 times sweeter than sucrose (table sugar), as sweet as aspartame, about 2/3 as sweet as saccharin, and 1/3 as sweet as sucralose. Like saccharin, it has a slightly bitter aftertaste, especially at high concentrations. Kraft Foods has patented the use of sodium ferulate to mask acesulfame’s aftertaste. Acesulfame K is often blended with other sweeteners (usually sucralose or aspartame). These blends are reputed to give a more sugar-like taste whereby each sweetener masks the other’s aftertaste, and/or exhibits a synergistic effect by which the blend is sweeter than its components.
Unlike aspartame, acesulfame K is stable under heat, even under moderately acidic or basic conditions, allowing it to be used in baking, or in products that require a long shelf life. In carbonated drinks, it is almost always used in conjunction with another sweetener, such as aspartame or sucralose. It is also used as a sweetener in protein shakes and pharmaceutical products, especially chewable and liquid medications, where it can make the active ingredients more palatable.
Safety
As with other artificial sweeteners, there is concern over the safety of acesulfame potassium. Although studies of these sweeteners show varying and controversial degrees of dietary safety,[citation needed] the United States Food and Drug Administration (US FDA) has approved their general use. Critics say acesulfame potassium has not been studied adequately and may be carcinogenic, although these claims have been dismissed by the US FDA and by equivalent authorities in the European Union.
Some potential effects associated with Acesulfame K have appeared in animal studies. Acesulfame K has been shown to stimulate dose-dependent insulin secretion in rats, though no hypoglycemia was observed.
One rodent study showed no increased incidence of tumors in response to administration of acesulfame K. In this study, conducted by the National Toxicology Program, 60 rats were given acesulfame K for 40 weeks, making up as much as 3% of their total diet (which would be equivalent to a human consuming 1,343 12-oz cans of artificially sweetened soda every day). There was no sign that these (or lower) levels of acesulfame K increased the rats’ risk of cancer or other neoplasms. However, a similar study conducted with p53 haploinsufficient mice showed signs of carcinogenicity in males but not females. Further research in terms of food safety has been recommended.
Research suggests that acesulfame K may affect prenatal development. One study appeared to show that acesulfame K is ingested by mice through their mother’s amniotic fluid or breast milk, and that this influences the adult mouse’s sweet preference.
Calcium carbonate is a chemical compound with the formula CaCO3. It is a common substance found in rocks in all parts of the world, and is the main component of shells of marine organisms, snails, coal balls, pearls, and eggshells. Calcium carbonate is the active ingredient in agricultural lime, and is usually the principal cause of hard water. It is commonly used medicinally as a calcium supplement or as an antacid, but excessive consumption can be hazardous.
Health and dietary applications
500-milligram calcium supplements made from calcium carbonate
Calcium carbonate is widely used medicinally as an inexpensive dietary calcium supplement or gastric antacid. It may be used as a phosphate binder for the treatment of hyperphosphatemia (primarily in patients with chronic renal failure). It is also used in the pharmaceutical industry as an inert filler for tablets and other pharmaceuticals.
Calcium carbonate is known among IBS sufferers to help reduce diarrhea[citation needed]. Some individuals report being symptom-free since starting supplementation. The process in which calcium carbonate reduces diarrhea is by binding water in the bowel, which creates a stool that is firmer and better formed. Calcium carbonate supplements are often combined with magnesium in various proportions. This should be taken into account as magnesium is known to cause diarrhea.
Calcium carbonate is used in the production of toothpaste and has seen a resurgence as a food preservative and color retainer, when used in or with products such as organic apples or food.
Excess calcium from supplements, fortified food and high-calcium diets, can cause the milk-alkali syndrome, which has serious toxicity and can be fatal. In 1915, Bertram Sippy introduced the “Sippy regimen” of hourly ingestion of milk and cream, and the gradual addition of eggs and cooked cereal, for 10 days, combined with alkaline powders, which provided symptomatic relief for peptic ulcer disease. Over the next several decades, the Sippy regimen resulted in renal failure, alkalosis, and hypercalcemia, mostly in men with peptic ulcer disease. These adverse effects were reversed when the regimen stopped, but it was fatal in some patients with protracted vomiting. Milk alkali syndrome declined in men after effective treatments for peptic ulcer disease arose. During the past 15 years, it has been reported in women taking calcium supplements above the recommended range of 1.2 to 1.5 g daily, for prevention and treatment of osteoporosis, and is exacerbated by dehydration. Calcium has been added to over-the-counter products, which contributes to inadvertent excessive intake. Excessive calcium intake can lead to hypercalcemia, complications of which include vomiting, abdominal pain and altered mental status.
As a food additive it is designated E170; INS number 170. Used as an acidity regulator, anticaking agent, stabiliser or colour it is approved for usage in the EU, USA and Australia and New Zealand. It is used in some soy milk products as a source of dietary calcium; one study suggests that calcium carbonate might be as bioavailable as the calcium in cow’s milk. Calcium carbonate is also used as a firming agent in many canned or bottled vegetable products.
Flavin mononucleotide (FMN), or riboflavin-5′-phosphate, is a biomolecule produced from riboflavin (vitamin B2) by the enzyme riboflavin kinase and functions as prosthetic group of various oxidoreductases including NADH dehydrogenase as well as cofactor in biological blue-light photo receptors. During catalytic cycle, the reversible interconversion of oxidized (FMN), semiquinone (FMNH•) and reduced (FMNH2) forms occurs in the various oxidoreductases. FMN is a stronger oxidizing agent than NADH and is particularly useful because it can take part in both one- and two-electron transfers. In its role as blue-light photo receptor, (oxidized) FMN stands out from the ‘conventional’ photo receptors as the signaling state and not an E/Z isomerization.
It is the principal form in which riboflavin is found in cells and tissues. It requires more energy to produce, but is more soluble than riboflavin.
Food additive
Flavin mononucleotide is also used as an orange-red food colour additive, designated in Europe as the E number E101a.
E106, a very closely related food dye, is riboflavin-5′-phosphate sodium salt, which consists mainly of the monosodium salt of the 5′-monophosphate ester of riboflavin. It is rapidly turned to free riboflavin after ingestion. It is found in many foods for babies and young children as well as jams, milk products, and sweets and sugar products.
When London won the Olympic bid, it was claimed that these would be the ‘greenest Olympics ever’. While there have been some important green strides, some of which undoubtedly can be used to inform future major sporting events, it’s been disappointing that so many of the initial green pledges have since been dropped.
CARBON FOOTPRINT
Reports out suggest that the organisers claim that it will be the greenest games ever is being put to shame by the fact that the 2008 Beijing games might have had a lower carbon footprint that the London games will have. It is that estimated 3.4 million tons of carbon will be released into our atmosphere as a result of London 2012, whereas, according to this report, Beijing released some 1.1 million tons.
This is interesting as on its own report, London 2012 has claimed its figure will only be 1.9 million. To put these numbers into perspective, the UK’s average yearly carbon emissions is 0.5 million tons. Thought it’s worth pointing out that the lifespan of the Olympics carbon footprint is roughly 7 years.
HEALTH AND SAFETY
Health experts have also warned that athletes might suffer from the high amount of air pollution in the capital, which raises another worry of health and safety. As the London games is set to be the most visited Olympics, that is a risk that should be taken seriously.
A British cyclist recently won the Tour de France; the first Brit ever to have achieved one the biggest honours in cycling. This could have been the kickstart for the cycling revolution that the UK so desperately needs, but instead the government and the Olympic organisers seem to be doing everything they can to discourage cycling.
The UK still has one of the worst cycling infrastructures in Europe. It will be even worse during the Olympics as several cycle paths have been sacrificed to make way for Olympic VIP lanes; should a cyclist make a way into such a lane, they could face a fine of £160. Add to that the sad fact that several of the Barclays Bike hire docking stations (Boris Bikes) will be taken out of operation as some of them are placed close to the VIP lanes.
It seems that the Olympics core spirit which is to encourage everyone to do more sports is being sacrificed for corporate interests.
UNSUSTAINABLE SPONSORS
Then there is the issue of the Olympic sponsors. How insulting it must be for those people who suffered (and might still be suffering) due to the Gulf of Mexico oil spill, to see BP announced as ‘sustainability’ sponsors.
Let us be honest here, if you chose to have sponsors like BP, who have wrecked the lives for so many people, at least be transparent about it.
There is absolutely nothing sustainable about BP. Even their solar arm has now been closed and they’re not making any strides forward in clean energy technologies. Additionally, the biofuel which they champion to market their sustainability can be highly unsustainable depending on where it comes from.
It would be very interesting to know on what basis they and the Olympic organisers can justify having them as a ‘sustainability sponsor’.
It is equally insensitive to have Dow Chemicals as main sponsors; 2001 Dow bought Union Carbide Corporation, responsible for the Bophal disaster which people still suffer from today and they rightly feel very angry about this. Neither company then or now accepts any responsibility for the disaster.
CONCLUSION
The conclusion that can be drawn is that there is no doubt who the baddies are; the Olympic Organisers and the Olympic Committee, not the athletes.
Though you could wish that the athletes would use their influence and profile to speak out about these issues and then go and compete for their respective countries.
There is no doubt that some green strides have been taken and these should be commended, but we are once again seeing that when the going gets tough (don’t forget large part of the Olympic village has been constructed during a recession), the first thing to be sacrificed is the environment. That is something we can’t afford in today’s climate.
I have owned this helmet for 6 months, and wear it on my daily commute and on my longer weekend rides.
Features:
Light weight, it is the lightest helmet I have owned so far, weighing only 262 grams for the universal size (52-59cm). (MET state that the helmet weighs 270g)
Good ventilation, when riding on frosty/cold mornings I have to wear a warm cap underneath, I have never had to do this with any of my previous helmets.
Longevity, the box states that it comes with a three year warranty, and unusually its lifespan is between 8-10 years!
Price: Models vary from £30 to £60, click here to buy.
The advice given by most manufacturers is to replace a helmet after 2-3 years of use, depending on its exposure to UV and the damage that comes from handling. But MET have an initiative called Low Impact On Nature (L.I.O.N) that not only prolongs the life of the product but also reduces its ‘carbon footprint’ and waste during production. Surprisingly the helmet does not retail at a higher price compared with other shorter-life lids of a similar spec, so you save money too! (Also, last years models, as this is, are currently discounted in many outlets, for sale for only £29.99 instead of MRP £39.99, making it an even better deal).
MET offer a helmet crash replacement policy, which means that if your helmet is seriously damaged (due to a crash or serious fall) within three years of the purchase date they can offer an equivalent helmet at a discounted rate, providing you can supply proof of purchase, and the broken helmet.
Minimal exposed polystyrene, the outer shell which is moulded and bonded to the inner during manufacture (as most do nowadays, except for the very cheapest ones) covers the back of the helmet too. This feature adds to the look and feel of quality and must help to protect the inner from knocks and UV light.
From the picture above you will also see the integrated rear LED light, this contains four red LEDs and is operated by pressing the whole assembly, it has a flashing and constant mode.
This is also the ratchet tensioner which adjusts the frame that sits around the head:
From this internal view you can see the washable pads and see the insect net that is moulded into the helmets front vents, you will also notice that the whole helmet is an oval shape, so may not be completely comfortable with someone with a more rounded head shape, for me though it fits perfectly.
The straps and quick release clip are easily adjustable; in fact I had my fit set up within seconds, as I hardly had to adjust anything straight from the box. The straps don’t rely on a thin rubber band to hold the excess in place, which can easily snap and leave a long piece of strap flapping in the breeze, the strap is a loop and is retained by a sturdy moulded piece of rectangular rubber, a much better design, also the strap itself is not so long as to have any free to stick out, it is also finished by a plastic end that is easy to pull even when your fingers are cold or when wearing gloves.
In the past I have often had trouble in getting the straps behind the ears to sit close to my head, but with this helmet these are tensioned properly, matching the front ones, so making it a secure fit.
Styling: This is of course a personal opinion, but the overall style is more generic than other helmet brands on the market, nothing about it stands out as being uniquely MET, unlike some others who seem to add peculiar shapes and designs in order to stand out, I like the look of the pointed rear protrusions as they look very strong and therefore more protective than bare polystyrene. I chose this colour combination because the turquoise is very reminiscent of the famous ‘Celeste’ used by Bianchi, as I have one of their bikes, thinking that the Italian made helmet might be purposely designed to match the Italian marquee. (All MET helmets are designed, developed and manufactured in Italy, at Talamona, in the heart of the Italian Alps).
My only (minor) criticism is that the switch on the light often needs pressing several times to either switch it on or off, especially when the temperature is low, I have noticed that in this years model it looks as if the light has been moulded in a red plastic rather than my clear one, so this issue may have been resolved already.
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