Last year I had to get our clients some quality magnesium!
Many of our clients were taking a magnesium product, it was not working for them and many were experiencing gastrointestinal upset (constipation) due to taking a blended product with high oxide content.
So out of all the rubbish on the shelves I've finally found it!
Even better it was 100% natural and was provided by the main supplement provider of many athletes under High Performance Sports such as Lisa Carrington and Dame Valerie Adams. It had evidence behind it.
So far clients we have provided it too are loving it and one client after trying it for one night, had the best night sleep and bought six more!
I'm already taking a magnesium supplement?
Great! This magnesium offers the most effective solution to optimising both uptake and retention of a client’s magnesium levels, does yours?
It's not about how much mg it boosts, it's about how much mg your body absorbs! With this product you absorb 100%.
What flash about this one, how is it different?
It consists of a trio of citrate, bisglycinate and taurate, all in their ‘fully reacted’ forms (not ‘blended’ or ‘buffered’, this means your body will absorb 100%. Other supplements added magnesium oxide to artificially boost elemental label claims leaving some supplements only delivering 4% of mg to be absorbed by your body. This product has no side effects - Yes - NO constipation!!!!!
What can Mg help me with?
This is what this Triple Complex Magnesium can help you with!
You may not be getting enough - 75% of the population are not meeting a daily adequate intake of 300mg magnesium.
With this magnesium supplement you take 3 tablets per day, or you could take one in the morning and two at night.
Ha! I've tried Mg and it doesn't work
Whilst choosing this quality supplements is paramount for effectiveness, it is also important to acknowledge factors affecting an individual’s magnesium levels.
You may be taking common drugs that interfere with magnesium absorption such as:
Cimetidine. Ranitidine (Zantac™, Peptisoothe™), Famotidine (Pepzan™) that are H2 antihistamines.
Omeprazole, Lansoprazole and Pantoprazole that are proton pump inhibitors.
Laxatives that enhance excretion either via the GI tract (such as laxatives) or by renal loss (such as diuretics).
If you are taking drugs for pre-existing health conditions such as:
The medication can further compromise magnesium status as they interfere with magnesium absorption and retention.
If you want to try it - email Anj at firstname.lastname@example.org or ask your therapist today
Massage Therapy alleviates pain, fatigue and improves your performance!
You've challenged yourself, pushed a little bit harder - and now your paying for it.
You've gone and got yo'self DOMS!
Let's break it down - Delayed onset muscle soreness - which is delayed onset occurs within the first 24 hours after strenuous or exhaustive exercise and gawd do you feel it when it peaks between that 24 -72 hour period! (Guo, 2017).
DOMS comes with
- muscle swelling and reduction in performance ( (Kargarfard et al., 2016; De Marchi et al., 2017)
- decreased range of motion (Cheung et al., 2003; Lavender and Nosaka, 2006)
Why it happens? It's unclear. The most accepted theory is that there is mechanical damage induced by exercise, which creates inflammation (to heal the damage). Which then results in your achy symptoms.
Therapeutic massage therapy has been around for thousands of years, world wide and is used to alleviate the symptoms of DOMS.
Massage Therapy aids in:
This results in great physical benefits such as:
There is also psychological benefits:
Robust evidence shows Massage Therapy is effective for alleviating DOMS, as well as increasing muscle performance. Especially after 48 hours post exercise. (Gou, 2017)
Cheung K., Hume P., Maxwell L. (2003). Delayed onset muscle soreness: treatment strategies and performance factors. Sports Med. 33, 145–164. 10.2165/00007256-200333020-00005De Marchi T., Schmitt V. M., da Silva Fabro D. C., da Silva L. L., Sene J., Tairova O., et al. . (2017). Phototherapy for improvement of performance and exercise recovery: comparison of 3 commercially available devices. J. Athl. Train. 52, 429–438. 10.4085/1062-6050-52.2.09
Guo, J., Li, L., Gong, Y., Zhu, R., Xu, J., Zou, J., & Chen, X. (2017). Massage Alleviates Delayed Onset Muscle Soreness after Strenuous Exercise: A Systematic Review and Meta-Analysis. Frontiers in Physiology, 8, 747. http://doi.org/10.3389/fphys.2017.00747
Kargarfard M., Lam E. T., Shariat A., Shaw I., Shaw B. S., Tamrin S. B. (2016). Efficacy of massage on muscle soreness, perceived recovery, physiological restoration and physical performance in male bodybuilders. J. Sports Sci. 34, 959–965. 10.1080/02640414.2015.1081264
Lavender A. P., Nosaka K. (2006). Changes in fluctuation of isometric force following eccentric and concentric exercise of the elbow flexors. Eur. J. Appl. Physiol. 96, 235–240. 10.1007/s00421-005-0069-5
New Blends have hit Top Notch this month! To combine with our organic virgin coconut oil, we have been working with a Clinical Aromascience Practitioner in bringing more quality to our essential oil blends we have been using.
Sports and Remedial Massage
This blend will help with tired aching muscles, it is stimulating and warms the muscles, will
relieve stiffness, tightness, over worked muscles. The blend is also mildly anti-depressant and
uplifting. May assist in the healing of damaged nerves if used regularly on a particular problematic
area of the body (i.e.: joint injury, back injury etc.)
The benefits are anti-inflammatory, helps with poor circulation, gently diuretic, anti-spasmodic, analgesic, immune builder, anti-rheumatic, gently anti-depressant, uplifting.
This blend is very balancing to mood and hormones, it is strongly anti-depressant as well as
uplifting but also very calming. It will assist to relieve stress & anxiety, hyper-ness & panic. The
blend also has muscle relaxing properties.
The benefits are antidepressant, antispasmodic, analgesic (pain relief), gentle stimulant, immune builder, anti-inflammatory, restorative, antiviral, antiseptic, calming, muscle relaxant.
This blend is very uplifting and refreshing, it is great to relieve irritability, it will also assist
in relieving aches & pains, is a great tonic to the skin too. It should promote a great sleep the night
of the day the massage is given.
The benefits antidepressant, antispasmodic, analgesic (pain relief), gentle stimulant, immune builder, anti-
inflammatory, restorative, antiviral, antiseptic.
It used to be said that getting a sports massage will help to flush out your 'lactic acid build up' in your muscles”.
Well, I am here to tell you that, this statement should have left our mouths years ago and in fact, everyone should all think of lactic acid as our ‘back up’ fuel source.
If we look at basic physiology, massage is unable to squeeze out the lactic acid from our muscles because lactic acid is recycled within our bodies as part of an important energy process called glycolysis.
Let’s look at an example. Say you raced your friend to the car.
Due to the speed you run, your muscles would be screaming out for oxygen to help keep up with the energy demand, but because your body could not get enough oxygen in – lactic acid was produced.
Where does lactic acid come from?
On a cellular level, there is a process called glycolysis, which helps to convert glucose into energy. Glucose will turn into pyruvate acid. If no oxygen is available pyruvate acid ferments and converts to lactic acid - called anaerobic metabolism. This lactic acid is your ‘back up’ fuel system. When you first start to sprint within 6 seconds, any energy stored in the muscle depletes, a 10 seconds window where muscle will use any available creatine to make energy and then around 30-40 seconds glucose stored in the muscles will be broken down into pyruvate and due to the lack of oxygen, it will undergo fermentation and be converted into lactic acid which will provide you with a couple of minutes more of energy to get you there quicker than your friend.
When the sprint ended and you go to the car, you would have found your body trying to get as much oxygen in as possible - this is called EPOC - Excess Postexercise oxygen consumption - aka I NEED OXYGEN! Once the oxygen becomes replenished in your muscles, your breathing rate slows down and then repayment begins.
What happens to lactic acid?
Any lactic acid circulating in the blood which was not used for energy is readily then converted back to pyruvate acid in the muscles and enter the pay as you go system - the aerobic pathway, where tonnes of energy is produced for body function. Even typing this I am using this pathway.
You can now see that lactic acid does not linger in our muscles and that in fact it gets recycled back into pyruvate to enter the aerobic pathway where there is plenty of oxygen or the liver may convert it back to be stored as glycogen, only to be release if blood sugar levels are low.
As the weather gets warmer, so does the aim to get out and about and ENJOY the weather! If you have taken to hibernation this winter the best advice is ‘steady as she goes’ – gradually building your fitness up over time is the key to reducing injury. When you are starting out on an exercise regime it is a good idea to know how to appropriately load the body so that it can adapt to the increased forces you are now asking of it.
Load does not just mean the amount of weights you lift, it also can be the amount of activity you do a week, how long you do it for (duration), how fast or slow you do it (speed) and we also have to remember adequate rest – the most important part of load management where you make your biggest gains.
If you suffer from things such as cardiovascular issues or you are new to exercise? It is always a good idea to check in with the doctor and get a W.O.F before embarking on any exercise programme.
Proof you have pushed yourself
Can’t hold your arm up high enough to brush your teeth? Getting up off the couch and taking that first step a bit ‘ouchy’? Chances are you’ve pushed yourself a bit further than your body is accustomed to and you’re in a lot of pain, so congratulations on your workout and we wish you the best of luck walking down the stairs for the rest of the week!!
What is DOMS?
DOMS stands for delayed onset of muscle soreness and it’s got stealthy tactics. Essentially 6-8 hours post exercise you’ll start feeling it and it will definitely be felt when it peaks around the 48 hours mark, even more so if you’ve performed anything eccentric. "Eccentric" is when your muscle is contracting at the same time it is being lengthened. For example you walk up a steep hill and you have sore calves, or run downhill and your hammies and glutes are sore, leg day 'can't get off the toilet' or after several bouts of lowering yourself slowly under control from a pull up, you pretty much feel sore everywhere! (let's be honest).
Why does it happen?
Exercise places a large amount of stress on muscle tissue. Microscopically that stress has resulted in “micro tears” that is accompanied by inflammation (part of the healing process) which causes your pain.
Should I be worried?
Not at all. The aches and pains you are experiencing should be minor. It is a tell-tale sign your muscles are adapting, so take it as encouragement you have had a good work out!!
Will I ever be at the stage where I will not get DOMS?
Yes – if you don’t challenge your body you won't get any adaption in strength and fitness so you won't suffer any pain but you will in plenty of other ways (that's a different topic altogether). We all want to be awesome, so really the answer is No. No one is ‘immune’, it affects the weekend warriors to elite athletes. I guess this is where the "no pain, no gain" comes from in exercise (not massage by the way) - essentially the stronger you get the more inclined you are to go harder, which will result in DOMS but that’s what you want.
Is there anything that can help me? What can I do?
There is nothing proven to stomp DOMS out, but here are some #topnotchtips to help alleviate that soreness.
1. Keep it up – regular exercise will diminish that soreness as your muscles will adapt and become stronger. But there is a catch, if you challenge your muscles again or too soon you will experience DOMS.
2. Do a proper cool down – No I am serious do a proper cool down. 10 minutes max will do it, choose anything such as a light jog, or a walk and then finish with specific stretches targeting the muscles you have just used.
3. Active recovery – Do a lighter workout THE NEXT DAY, keep that bod’n’motion so to speak, and it is crucial you can talk and hold a conversation whilst you are doing this workout so that you keep it 'light'.
4. Get a sports massage. Come and see us at Top Notch, we regularly see people who are suffering from DOMS post exercise – we assist in the recovery process by reducing your pain. Massage reduces soreness when performed 2 hours post exercise (Hilbert, Sforzo, & Swensen (2002) & Ernst. E. (1998)).
1. Hilbert, J. E., Sforzo, G. A., & Swensen, T. (2002). The effects of massage on delayed onset muscle soreness. British Journal of Sports Medicine (37) 72-75. doi: 10.1136/bjsm.37.1.72
2. Ernst. E. (1998). Does post-exercise massage treatment reduce delayed onset muscle soreness? A systemic review. British Journal of Sports Medicine (32) 212-214
If you ever have experienced this sudden intense pain, you will agree getting cramp can become extremely frustrating
We see a lot of our patients coming in regarding cramping especially in the calves (which is one of the most common places) and it makes no difference whether it be our ultramarathon runners, elite triathletes, the recreational fitness fanatic, our desk jockeys, musicians or our mums to be. It can affect everyone.
What it is not proven - Debunking the Myths
Muscle cramping mythology is said to be linked to having low electrolyte concentration after exercise, becoming dehydrated or exposed to extreme weather conditions, such as hot and humid environments, but these 'theories' which are widely promulgated are only said to be anecdotal clinical observations which have never been proven.
What is proven
Accumulating evidence suggest it is has a neuromuscular basis. Firstly it is associated with how the muscle is contracted through nerve stimulation. Secondly, it is associated with how sensory receptors (muscle spindles and Golgi Tendon Organ (GTO) play a key role in controlling the muscles length and state of relaxation (muscle tone) after exercise. For example when sensory receptors are exposed to such things as faulty posture, shortened muscles, intense exercise, and exercise to fatigue; it results in ramping up these sensory receptors to increase muscle activity, this provokes a neural response similar to a contraction and causes cramp.
What attributes to cramping
High Intensity exercise
Exercising for a long duration
Performing high mechanical loads, such as Hill running
Conditions causing premature fatigue due to going too hard too fast or being unfit
Poor stretching habits and/or flexibility
Two-joint muscles such as your calves and hammies. The most commonly affected is the calves
A genetic predispostion for cramping in your family history
Muscle stretching - this is your first port of call. Slow passive stretching is the most common and effective therapy for relieving acute muscle cramps as this ideally acts on a certain sensory receptor called the GTO which works to inhibit cramp.
To lessen the affects of cramping here are some useful strategies to implement.
1. Have a good warm up, followed by a well-controlled exercise session (avoid going too hard too soon), a good cool down with stretches and adequate rest.
2. How's your fitness? Are you fit enough to perform the activity and are you giving your body enough time to adapt to your training programme?
3. Commence regular stretching - the team at Top Notch Massage and Health can show you the right stretching relaxation technique that you can perform at home during your next massage session.
Other strategies such as incorporating plyometrics or eccentric muscle training, maintaining adequate carbohydrate reserves during competition still remain speculative.
Bently. S. (1996). Exercise-Induced muscle cramp. Journal of Sports Medicine, 21(6), 409-420.
Hoffman, M.D., & Stuempfle, K.J. (2015). Muscle cramping. Journal of Sports Medicine. Unpublished.
Schwellnus. M. P. (2008). Cause of exercise associated muscle cramps (EAMC) - Altered neuromuscular control, dehydration or electrolyte depletion? British Journal of Sports Medicine, 43, 401-408. doi:10.1136/bjsm.2008.050401