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Ask just about anyone if they think they could do more to improve their health and they will tell you that they could. More and more Americans are becoming obese. Most of us are aware of this fact, but still given the chance to eat a candy bar or a Brussels sprout, we choose the candy bar. Just because you may not be obese does not mean that you are living a healthy lifestyle. Many of us at least attempt to eat right and to exercise. Exercise soon gets the back seat to busy schedules, desk jobs and driving the kids around town. So what many of us are left to reconcile is whether it is better to supplement with vitamins, power drinks and powder boosts or if our good health goals lay mainly in the food that we eat.
Of course there is no substitute for exercise. You have to do it. There is no way to replace the benefits of a cardiovascular and aerobic workout. With that said, there does seem to be more confusion regarding the taking of health supplements and making a change in diet. Most people who have tried to diet know that it can be very difficult. There are calorie counting diets, no/low-carb diets, no-meat diets, smoothie only diets, and the list goes on and on. The thing that most physicians will tell you is that you want a diet that is well balanced. This practical advice really is going to get you the furthest as far as your health is concerned.
Eating fresh fruits and vegetables is always recommended and rarely limited. If you are hungry never hesitate to reach for a piece of fruit or a vegetable. But there are also many nutritional benefits to foods that do not grow on trees or out of the ground. Dairy products and red meats (when eaten in moderation) also provide the body with valuable vitamins and amino acids that are possible to receive in other foods, but not in the quantities that they are abundant within these foods.
It is generally the topic of quantity that people are worried about. They may find that they are eating enough food, but that they are not experiencing the health benefits of those foods. For example, dietary fiber is generally easy to find in a variety of foods, but receiving a sufficient amount of dietary fiber only through the foods that we eat is unrealistic as even the most vitamin rich foods may only contain a fraction of our daily recommended dose of nutrients. And so there is need for a compromise. The best way to improve your health is neither in exclusively depending on eating right nor on supplementing with formulas; it is a combination of the two.
Ideally, dietary supplements are meant to be just that, supplements to a normal diet. Supplements do little good if you are not eating a well balanced diet, and a reasonable diet can only do so much to improve health. Health supplements are meant to help the nutrients that are naturally present in the foods that we eat go as far as possible and provide as much “bang for our buck” as possible, so to speak. Natural digestive absorption leaves the body wanting for more in able to distribute nutrients to cells throughout the entire body. Supplements provide the extra push that is needed for nature to truly work its magic, improve our immune systems, and ward off the risks of disease and even cancer.
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Eric Glenn is the successful owner of several global health businesses and regularly advises clients and customers on health, nutrition and creating a global business. Eric strongly recommends the use of supplements to improve your health. To learn more about supplements that can help to improve your health visit http://www.ericglenn.com or his health supplements website http://www.synergyteamglobal.com.
The acai berry is taking the nutritional and health food segments by storm. It has quickly become one of the most popular super foods that can be found out there, but you will be surprised that it has been around for a very long time and people have been taking advantage of the health benefits of acai for a very long time. So how can you take advantage of acai and what can you really do with it? Here is some more information that can help you understand what you can do with the acai fruit.
Food is very important to most people and some get a great deal of pleasure from eating healthy things (some get a lot of pleasure from eating unhealthy things too) and there are many reasons why people are so conscious of their diet and what they put in their mouths. Food is one of the main ways that we get nutrients, vitamins and minerals that our body needs to function properly from day to day. You can come up with millions upon millions of different ways to prepare foods and people are always looking for ways to incorporate new ingredients or new foods into meals of all varieties. The acai berry is one food that many people are trying to make a regular part of their diet because of all the health benefits that it provides. Acai is considered to be a super food and one of the most nutritious foods that can be found anywhere. It is very rich in vitamins and minerals and also has very high quantities of good carbohydrates (they are low on the glycemic index), proteins, and healthy fatty acids.
Acai has been used in Amazonian cultures for hundreds of years and has been a staple of their diet for a very long time. They have seen and experienced the health benefits of the fruit firsthand and know how to prepare it and use it well. The berry is harvested from the tree but can only be used and retain its nutritional value for about 24 hours after it has been picked. Many people choose to grind op the fruit into a pur‚e that can then be eaten with other ingredients. You can eat the berries all by themselves and they are very healthy. Some say that they taste like a blueberry and have a small hint of chocolate flavor to them. Many people will have the berry for breakfast and it helps them to remain strong and focused throughout the day. Others grind the food up and serve it with other things like granola and other fruits and berries. It can also be served with brown sugar or cane sugar which is more common in the areas where it grows depending on the tastes of the people preparing it. But you don’t live in the Amazon and you probably can’t get access to acai very easily so you will need other ways to use it in your diet.
Because of the extremely short shelf life and quick deterioration people have come up with other ways to make use of the acai berry and all the health benefits it has to offer. Some people will take the pulp of the fruit and put it into juices and smoothies which can then be drunk or added to other drinks to use as a supplement. The pulp can also be frozen or the fruit freeze dried and then used in a variety of applications. Some people even grind it into a powder after it has been freeze dried, preserving the nutrients in the fruit, so that it can be used in supplements with a meal to get all the health benefits.
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Eric Glenn is the successful owner of several global health businesses and regularly advises clients and customers about health, nutrition and creating a global business. Eric strongly recommends use of the Acai berry in its many forms for its health benefits. To learn more about the Acai berry visit http://www.ericglenn.com or his health supplements website http://www.synergyteamglobal.com.
Recently there has been a lot of buzz about the acai berry and the health benefits that it can offer to people. But what are the real benefits of acai berry products? Here is some information that will help you understand more about the health benefits of the acai berry and what it can do to help you in your life.
As you may know, the acai berry comes from mainland South America and Central America. It has been very popular for hundreds of years in these countries but is now coming to America and is getting very popular and also attracting a lot of attention. Brazil is one of the most commonly cited places where it grows and Brazilian acai has become very popular. One of the benefits most commonly noted with acai is that it gives you more energy and boosts your stamina and that is why it has become so popular as a supplemental food to what people already eat. With the busy schedules that many people lead these days everyone is looking for another way to get more energy to get them through the day. It can be compared to many of the other supplements out there that people use to get more energy and will compete with many of them. It raises energy levels because of the high vitamin and mineral content and this also helps for general good body functions. It also helps improve digestion because of the high fiber content and is loaded with carbohydrates and vegetable proteins that help raise energy levels and increase concentration.
There are many different health benefits that are listed about the acai berry and many of them are very important to many people. As mentioned already, it helps improve energy and stamina but also improves blood circulation and can also ease body pain and other joint problems. People say that it also fights depression and just makes you feel better in general. It also cleanses and detoxifies the body which leads to many other benefits. It can alleviate the pains and stresses of diabetes and can also help regulate the cholesterol levels because of the healthy omega fatty acids it contains. This helps acai to also aid in preventing cardiovascular disease and the many other health problems that are associated with high cholesterol and cardiovascular health problems. It can also help fight chronic diseases such as cancer by reducing the amount of free radicals in the body using antioxidants. These antioxidants also help slow down the aging process and cell degradation caused by other environmental factors. Acai berry also helps to flush out toxins from the body and cleanse the circulatory system. It also helps the circulation of blood and promotes a healthier immune system.
Some people say that it even helps the appearance of the skin and will give you a youthful glow and improve your complexion. It is also said that acai will help you prevent weight gain and therefore give you a sexier physique. Clinical reports also say that acai berries will enhance sexual performance because of the high nutritional value and mineral content.
People who have taken the acai berry in whatever form have reported many benefits like reduction in arthritis pain, clearing of warts and other skin blemishes, reduction of seizures and faster recovery from injuries. They also report that they have had a more stable blood sugar level, which is a benefit for diabetics, and have felt less depressed in general. They also reported that they felt better and were more capable and willing to do activities to lose weight. It also helped people improve their overall strength and to do things they couldn’t do anymore or didn’t want to do because they didn’t have the energy or it hurt too bad to perform the tasks involved with certain actions.
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Eric Glenn is the successful owner of several global health businesses and regularly advises clients and customers about health, nutrition and creating a global business. Eric strongly recommends Acai berry supplements for their health benefits. To learn more about the Acai berry visit http://www.ericglenn.com or his health supplements website http://www.synergyteamglobal.com.
It seems like these days more than ever, people will do almost anything to avoid getting sick. When you do not feel your best it is hard to go about your normal routine, and for most of us a normal routine is a very busy routine. So what if there was something that you could do to boost your body’s natural defenses while giving you energy and increased stamina at the same time? Using L-Arginine and L-Citrulline supplements is a simple answer to the ever pressing question of how to boost your body’s immune system.
The immune consists of organs, bone marrow, cells, antibodies and chemicals, as well as the nutrients that help nourish and generate them. The immune system wards of the things that could potentially make us sick. The stronger our immune system is, the better we are able to ward off illnesses and the better we feel. L-Citrulline and L-Arginine have the ability to provide immune system benefits that range from simply feeling better from day to say, to keeping the blood flow to the heart at a healthy level, thus helping to prevent a variety of cardiovascular problems. L-Citrulline helps to strengthen the body?s immune system through its conversion to L-Arginine. L-Arginine is so efficient in the fight against illnesses because it is an amino acid. More specifically, L-Arginine restores production of nitric oxide to the body, a key element in improving blood flow. When blood is able to flow more freely through the blood vessels, you feel more energetic because your heart does not have to work as hard to pump blood throughout the body. You are also better able to fight of disease because your blood is better able to provide infection sites with healthy blood cells.
Increasing your body’s defenses does not only provide benefits against common illnesses, but by increasing your body?s defenses you can also increase your ability to ward off more traumatic illnesses such as cardiovascular disease. A more free flow of blood means that cramping due to poor blood flow as well as fatigue are improved, if not avoided. The heart then does not have to work as hard to pump blood to the rest of the body. A healthy heart allows individuals with the opportunities to lead longer and healthier lives.
Of course no dietary supplement can substitute for unhealthy lifestyle choices and you will always obtain greater benefits in boosting your body’s immune system if you take an all-around approach to bettering your health. Exercise and a sensible diet are recommended. Medical evaluations and specialized treatment for health related conditions should also be topics of discussion that take place with your physician in order to determine if supplementing with L-Arginine and L-Citrulline to boost your body’s defenses is in fact a good health choice for your individual situation. Remember that supplements are meant to play a complimentary role to a healthy lifestyle; they are not meant to be tools of self medication. If you are looking for a supplement that takes on multiple aspects of health, you are probably best off looking for a line of supplements that are meant to be used as a total care system for health. As is the case with L-Arginine and L-Citrulline, there are combinations of supplements that can work together with the chemistry of the body to yield pleasing and even surprising results.
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Eric Glenn is the successful owner of several global health businesses and regularly advises clients and customers about health, nutrition and creating a global business. Eric strongly recommends using L-Arginine and L-Citrulline to help boost your immune system. To learn more about these supplements visit http://www.ericglenn.com or his health supplements website at http://www.synergyteamglobal.com.
Measurement of Ambulatory Central Aortic Pressure in Clinical Trials using the BPro™ Device (by HealthStats).
Bryan Williams MD FRCP FAHA
Professor of Medicine
Department of Cardiovascular Sciences
University of Leicester School of Medicine, United Kingdom.
August 2008
Introduction:
Blood pressure (BP) plays a key role in the development of cardiovascular disease. Conventionally, BP is measured using a sphygmomanometer (manual or automated) over the brachial artery in the “office setting”. This has remained the “gold standard” for BP measurement in clinical trials. Infrequent isolated BP readings in a seated position in an office setting are unlikely to be comprehensive in assessing the full impact of cardiovascular interventions, particularly BP-lowering drugs therapies in clinical trials. Consequently, more recently, ambulatory BP monitoring (ABPM) has increasingly been incorporated into trials as sub-studies. Traditionally, ABPM also uses a cuff device to measure BP over the brachial artery at pre-set intervals throughout the day and night. The assumption with all of these measurements is that the pressure being measured over the brachial artery is representative of the pressure in the central circulation, i.e. the aorta. Whilst this assumption be reasonable for the trial population as a whole, it is not accurate and for individual patients, in whom there may be marked differences in their central pressure, especially their systolic pressure, despite similar brachial pressures. Moreover, this differential relationship between brachial and central aortic systolic pressure (CASP) may be further modified by the effects of drug therapy. These observations are important because they suggest that brachial BP measurements are not always providing an accurate representation of central pressures in individual patients, or the potential effects of BP-lowering drugs on their central pressures.
Why is central aortic pressure different from brachial BP?
Whilst diastolic pressure is largely unchanged across the main arteries, i.e. from aorta-to-brachial, systolic pressure (and thus pulse pressure) differs markedly. This is due to pressure amplification as the pressure waves moves from the heart to the periphery. Thus, systolic pressures are higher at the periphery than they are centrally. This difference can be very substantial, amounting to 30mmHg or more in younger, healthy individuals. The differences between central aortic systolic pressure and brachial systolic pressure diminish with age but the two pressures are rarely ever the same. The diminution in pressure amplification from aorta-brachial with ageing reflects deterioration in the performance of large conduit arteries, especially the aorta with ageing and disease. This is mainly due to a loss of the aorta’s elastic properties due to fragmentation of elastin and its replacement by in-elastic collagen. This is further compounded by two processes; i) post-translational modification of the collagen by the accumulation of advanced glycation end-products, a process that it accelerated in people with diabetes; and ii) vascular wall calcification. The resultant stiffening of the aorta adversely effects the characteristic impedance of the aorta thereby increasing left ventricular work and increasing pulse wave velocity (PWV). In westernised societies, PWV typically doubles from age 20yrs to 80 yrs. This increase in PWV is of major importance because it results in faster forward wave propagation after systole and earlier pulse wave reflection from distal reflection sites. This earlier pulse wave reflection means that the reflected wave returns earlier, towards the end of systole (rather predominantly in diastole in healthy people) and leads to augmentation of central aortic pressure, further increasing left ventricular work. The augmentation of central systolic pressure diminishes the normal differential between central aortic and brachial systolic BP (figure 1). Importantly, these dramatic changes in pulse wave morphology and central aortic systolic pressure cannot be appreciated by the simple measurement of brachial BP.
Controversy over the mechanism accounting for the increased central aortic systolic pressure with ageing and disease;
There has been much debate about the aforementioned mechanism accounting for the elevation of the central aortic systolic pressure with ageing. Some have suggested it is less dependent on wave reflection and more dependent on the increased characteristic impedance of the stiffened proximal aorta, for which the increased PWV is a surrogate. Others have argued that the aforementioned changes to wave reflection and enhanced systolic augmentation are more important. Whilst this debate is of academic interest, it should not distract from the unanimous agreement that central aortic systolic and pulse pressures rise relative to brachial pressures with age and are likely to be a major a factor accounting for increased risk of cardiovascular morbidity and mortality with ageing.
Central Aortic Systolic and Pulse Pressures and Cardiovascular Disease Risk;
Evidence is now emerging to support the view that this sinister but unmeasured relentless rise in central aortic systolic and pulse pressure is a key driver of target organ damage, cardiac dysfunction and enhanced risk of heart disease and stroke with ageing. Moreover, this change is enhanced in those at risk of developing early aortic damage, notably, those with i) hypertension, ii) diabetes, and iii) renal impairment, and especially severe in those with a combination of all three. Recent data suggesting that central aortic systolic and pulse pressure might be better predictors of clinical outcome than brachial BP is consistent with this hypothesis. Furthermore, modulation of the relationship between brachial and central pressures might be an important protective action of cardiovascular drugs as highlighted by the CAFE study but has been otherwise been poorly studied. It is indeed remarkable that the main read-out for the action of BP-lowering drugs in clinical trials has been the measurement of seated brachial BP! It is even more remarkable when one considers that the various drugs evaluated often have different mechanisms of action and the potential to influence the relationship between brachial and central aortic pressures in different directions and by different orders of magnitude. In this regard, brachial BP has never been and will never be an adequate surrogate for the differential actions of drug therapies on the circulation.
Based on these observations, it seems very likely that the measurement of central aortic pressure would provide a more accurate read-out of the effects of drug therapies on the circulation, and more importantly, on target organ damage and clinical outcomes.
The Non-invasive Measurement of Central Aortic Pressures from Radial Pulse Wave Analysis:
To be practical for routine clinical use and for use in clinical trials, central pressure has to be measured simply, accurately and non-invasively. Experience in clinical trials thus far has been limited; i) largely by a lack of suitable technology, ii) compounded by a lack of appreciation of the potential importance of central aortic pressures, iii) poor recognition of the differential effects of drugs on central pressures, and iv) a general assumption/complacency that traditional brachial BP measurements tell us all we need to know. Where central aortic pressures have been assessed non-invasively, this has mainly been done by the technique of pulse wave analysis. This is performed by applying a tonometer to the skin overlying the radial artery to record a radial wave-form in a patient seated and at rest. This radial wave form can then be calibrated by imputing the readings from the brachial BP (measured contemporaneously in the same arm using a standard validated BP device) to generate a pressure-wave form (the assumption being that the pressures in the brachial artery are little different from those at the radial artery). The Sphygmocor™ device (used in the CAFE study) uses this approach. In this application, the radial pressure wave-form is then transformed to generate a central aortic pressure wave form using a validated generalised transfer function. The central aortic pressures are then derived from the central aortic pressure wave form. This approach can be used to derive central aortic pressures and other central hemodynamic indices at routine clinical trial visits. However, this is still only recording a static seated pressure reading and provides no information about the ambulatory profile of central pressure. This latter point is important because fluctuations and variability in central aortic systolic pressures are greatest when the patient is ambulant. Moreover, such variability is likely to be even greater in those with stiffer conduit arteries and higher pressures. Thus, seated central aortic pressure readings are likely to greatly underestimate the effect of drug therapies on ambulant central aortic pressures.
The BPro™ Watch:
The BPro™ device is different to other devices for measuring ambulatory BP and ambulatory central aortic pressure. It has a high fidelity tonometer incorporated into a watch strap. The watch is worn with the tonometer positioned and fixed over the radial artery (figure 2). The tonometer samples the radial wave-form in up to 96 x 10 second blocks of time, over 24hrs. When the watch is first placed onto the patient, the radial wave-form is calibrated to the brachial BP, measured conventionally using a standard validated electronic BP monitor. This calibration then allows the radial wave form to be transformed into a pressure wave form, providing measurements, equivalent to brachial blood pressure every time the radial wave form is sampled . Thus, the pressure wave form recorded from the radial pulse wave, by virtue of its calibration to the brachial pressure, is now recording ambulatory brachial BP. Thus the BPro™ device can be used as an unobtrusive device to measure 24hr ambulatory BP, calibrated to the brachial pressure measured in clinical trial conditions. The BPro™ is comfortable to wear and the patient simply wears it as a wrist watch for 24hrs. Thereafter, the watch is connected to a computer to down-load the wave form data. The BPro™ has been validated against the AAMI and ESH protocols and passed both validations. It carries a CE mark and is approved for clinical use by the FDA.
Measurement of Ambulatory Central Aortic Systolic Pressure (CASP) using BPro™:
Unlike conventional BP monitoring devices, the BPro™ records pressure wave forms calcibrated to the brachial BP. Thus, in addition to using the waveforms to measure brachial BP, it seemed feasible to utilise this abundant wave-form data to derive central aortic systolic pressure (hereafter terms CASP) from the pressure wave forms records. The basis of the “generalised transfer function” used by the Sphygmocor™ device to generate a central aortic wave-from and derive central pressure indices was unpublished and thus unknown to us. We thus considered a novel approach to develop a new method to derive central aortic pressures from the radial artery pressure wave form. We used an “n-point forward moving average” (NpMA) method and experimented with a number of sampling frequencies. We applied the NpMA method to the wave forms recorded by BPro™ (where n = ¼ sampling rate of the tonometer)to derive the maximum value from the wave-form array, which we hypothesised should equate to CASP. To further evaluate this novel approach, we utilised the radial wave forms from the CAFE study data base. These wave-forms had been captured with the Sphygmocor™ device and we wanted to determine whether application of the NpMA method to the radial wave-forms would generate similar CASP measurements to those generated by the Sphygmocor™ device for the CAFE study. We used our NpMA method in a vlinded study of 5,366 brachial pressure calibrated radial wave-forms from the CAFE study. We derived CASP using this method and then compared the CASP result using the NpMA method with the central pressure data derived from the Sphygmocor™ generalised transfer function (figure 3). The correlation was r2=0.993. This confirmed the applicability of the NpMA method to derive CASP directly from the radial pressure wave form.
In-vivo Validation of BPro™ NpMA method to derive central aortic systolic pressure (CASP):
We then went on to undertake a direct in-vivo validation of this approach in humans in collaboration with Dr. Peter Yan at the Gleneagles medical Centre in Singapore. 20 patients undergoing routine cardiac catheterisation provided their informed consent to participate in this study. At the end of their diagnostic cardiac catheterisation, the central aortic pressures were recorded at the aortic root using a Millar’s SPC-454D tonometer (Millar’s instruments, Texas U.S.A). Simultaneously, the patients were wearing a BPro™ watch calibrated to their brachial BP measured using a conventional (MC3100) automatic BP monitor. The BPro™ provided real-time derivation of the CASP from the calibrated radial pressure wave-form using the NpMA method. This was compared with the simultaneous real-time direct in-vivo aortic measurement of CASP using the Millar’s tonometer. The correlation between the BPro™ readings of CASP and the direct measurement of aortic CASP was R2=0.9835, r=0.9917 (Figure 4) .
These two validation steps for the NpMA method to derive CASP, i.e. i) cross validation with the CAFE data set, and ii) direct in-vivo measurement of central pressure in humans, confirms that the BPro™ device can be used to record both; i) the brachial ambulatory BP (as the radial wave form is calibrated to the brachial pressure) and ii) ambulatory central aortic systolic pressure or CASP.
Thus, with the BPro™ technology we now have the potential to make the first detailed recordings of ambulatory central aortic pressures. In addition, because the BPro™ records 96 x 10 second blocks of wave forms per 24hrs, there is also the potential to obtain data on heart rate changes and to detect paroxysmal arrhythmias. Moreover, there is the potential to perform further off-line processing of the wave form data to determine the effects of disease and therapeutic intervention on a wide range of wave form characteristics.
Implications for Clinical Trials:
There is an urgent need to learn more about the effects of BP-lowering drugs and other cardiovascular interventions on hemodynamics from two perspectives; i) their impact on BP in an ambulatory setting, rather than just a static isolated clinic setting, and ii) their impact on central aortic pressures. It is likely that both parameters will be seen to be more important than conventional office brachial BP measurements as a predictor of target organ damage and clinical outcomes. It is also likely that potentially beneficial effects of drug interventions on these parameters, by virtue of both their mechanism of action and their duration of action, are being overlooked.
Implications for Specific Trials Settings:
Patients with diabetes / diabetic nephropathy: Patients with diabetes have accelerated ageing of their aorta, with enhanced stiffening. This process is accentuated in patients with co-existing renal disease who form the highest risk group. In addition, these patients also have disturbances to their circadian rythms such that nocturnal pressures are higher and BP variability is greater. Furthermore, aortic stiffening means that the resulting wider fluctuations in pressure and higher central aortic pulse pressures are likely to be transmitted deeper into the circulation – this allied to the impaired blood flow autoregulation of these patients makes them especially vulnerable to small vessel injury. It is conceivable that much of the beneficial effects of ACE-inhibition, ARBs and Direct Renin inhibition on renal, cardiovascular and heart failure outcomes in these patients relate to favourable effects central aortic systolic pressures over 24hrs – effects that are not fully appreciated by simple measurement of clinic BP at the end of the dose interval.
Patients with Hypertension: Hypertension accelerates aortic ageing and predisposes to higher central aortic pressures relative to brachial pressures, greater BP variability and potentially higher nocturnal central pressures. As indicated above, we have already shown in the CAFE study that different types of BP-lowering treatment can influence central pressures in different ways. The prospect of incorporating ambulatory central aortic pressure measurements into major clinical outcomes trials in hypertensive patients is very exciting and would provide important and novel data relating central pressures to intermediate and hard clinical outcomes and drug effects on pressures and these outcomes.
Patients with Atherosclerosis: There have been many recent studies of patients using intravascular ultrasound (IVUS) to quantify coronary atheroma progression and regression. It seems likely that the pressure modifying effects of drugs could have a major impact on the evolution of atheroma. It is also logical to assume that pressure in the central aorta, rather than pressure in the brachial artery is more relevant to this process. Thus, it would be very interesting to define the impact of drug related changes in central aortic pressure (both absolute changes and qualitative circadian rhythm changes) with regard to the evolution of atheroma.
Patients with Heart failure: Ventricular:vascular coupling is a key determinant of systolic and diastolic function. We spend much time studying the heart as a pump but too little time considering the huge importance of the aorta as the conduit. Pulse wave characteristics are potentially very important in heart failure but have been poorly studied. The impact of acute or chronic heart failure on central aortic pressure profiles over 24hrs, the impact of drug therapies on these parameters, and their impact on outcomes, has never been established. The recent data showing impressive falls in plasma NT-proBNP in patients with heart failure receiving direct renin inhibition is consistent with a significant beneficial effect of the intervention on central aortic pressures and improved ventricular:vascular coupling.
Conclusions:
Technology is now available that has the potential to provide much added value to ongoing clinical trials by providing the first detailed recordings of ambulatory central aortic pressures and a repository of arterial pulse wave form data that could be further analysed for other key indicators of large artery function and the impact of specific drug therapies. The standard clinic brachial BP reading has provided an important but crude read-out of the impact of drug therapies on the arterial circulation and pressures. There is a clear need to move to the next level to better appreciate the mechanism of action of modern drug interventions and inform the development of even more effective drug interventions in the future.
Synergy Team Global Canada performs for food, part 2
Synergy Team Global Canada performs for food, part 2…our group was too big so we had to have 2 tables…this is the table with the real professionals..
Synergy Team Global Canada performs for food
Our Team Global Canadian group has some fun going out to eat at our local Japanese style diner. It was fun for all of us.
Synergy Team Global Canada enjoy May 1 event
Synergy Team Global Canada enjoy some fun after the Friday event in Utah on May 1.
Passion Is the Great Energizer
John C. Maxwell is an author, speaker and leadership expert whose more than 50 books include best sellers, The 21 Irrefutable Laws of Leadership and The 21 Indispensable Qualities of a Leader: Becoming the Person Others Will Want to Follow.