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Chronic Pain

Back Clinic Chronic Pain Chiropractic Physical Therapy Team. Everyone feels pain from time to time. Cutting your finger or pulling a muscle, pain is your body’s way of telling you something is wrong. The injury heals, you stop hurting.

Chronic pain works differently. The body keeps hurting weeks, months, or even years after the injury. Doctors define chronic pain as any pain that lasts for 3 to 6 months or more. Chronic pain can affect your day-to-day life and mental health. Pain comes from a series of messages that run through the nervous system. When hurt, the injury turns on pain sensors in that area. They send a message in the form of an electrical signal, which travels from nerve to nerve until it reaches the brain. The brain processes the signal and sends out the message that the body is hurt.

Under normal circumstances, the signal stops when the cause of pain is resolved, the body repairs the wound on the finger or a torn muscle. But with chronic pain, the nerve signals keep firing even after the injury is healed.

Conditions that cause chronic pain can begin without any obvious cause. But for many, it starts after an injury or because of a health condition. Some of the leading causes:

Arthritis

Back problems

Fibromyalgia, a condition in which people feel muscle pain throughout their bodies

Infections

Migraines and other headaches

Nerve damage

Past injuries or surgeries

Symptoms

The pain can range from mild to severe and can continue day after day or come and go. It can feel like:

A dull ache

Burning

Shooting

Soreness

Squeezing

Stiffness

Stinging

Throbbing

For answers to any questions you may have please call Dr. Jimenez at 915-850-0900


Understanding The Metabolic Connection & Chronic Diseases (Part 2)

Understanding The Metabolic Connection & Chronic Diseases (Part 2)


Introduction

Dr. Jimenez, D.C., presents how chronic metabolic connections like inflammation and insulin resistance are causing a chain reaction in the body in this 2-part series. Many factors often play a role in our health and wellness. In today’s presentation, we will continue on how these chronic metabolic diseases affect the vital organs and organ systems. It can lead to overlapping risk factors associated with pain-like symptoms in the muscles, joints, and vital organs. Part 1 examined how overlapping risk profiles like insulin resistance and inflammation affect the body and cause muscle and joints pain-like symptoms. We mention our patients to certified medical providers that provide available therapy treatments for individuals suffering from chronic conditions associated with metabolic connections. We encourage each patient when it is appropriate by referring them to associated medical providers based on their diagnosis or needs. We understand and accept that education is a marvelous way when asking our providers’ crucial questions at the patient’s request and acknowledgment. Dr. Alex Jimenez, D.C., uses this information as an educational service. Disclaimer

 

How The Liver Associated With Metabolic Diseases

So we can look to the liver to find earlier cues of cardiovascular risk. How can we do that? Well, let’s understand some liver biochemistry. So in a healthy liver cell hepatocyte, when you have increased insulin being secreted because there was a meal that required glucose to be absorbed, what you expect if the insulin receptor works is that the glucose would go in. Then the glucose would get oxidized and turned into energy. But here’s the problem. When the hepatocyte has insulin receptors that don’t work, you’ve got that insulin on the outside, and the glucose never made it in. But what also happens on the inside of the hepatocyte is it was assumed that the glucose was going to get in. So what it does is it turns off fatty acid oxidation, thinking, “Guys, we don’t need to burn our fatty acids. We’ve got some glucose coming in.”

 

So when the glucose is not there, and you’re not burning off fatty acids, very common for people to feel fatigued because nothing is burning for energy. But here is the secondary sequela; where are all those fatty acids going, right? Well, the liver may try to repackage them as triglycerides. Sometimes, they stay in the hepatocyte or get shifted out of the liver into the bloodstream as VLDL or very low-density lipoprotein. You might see it as a high triglyceride shift in a standard lipid panel. So, when all of us are talking about getting a triglyceride level to around 70 as your 8+ goal, when I start seeing triglycerides rising, we wait until they’re 150, even though that’s the cutoff for our labs. When we see it at 150, we know they are shunting triglycerides out of the liver.

 

So that will happen many times before we find impaired fasting glucose. So look at your triglycerides, fasting triglycerides, as an emerging or early biomarker of insulin dysfunction. So this is another diagram that says that if the triglycerides are being created because the fatty acids are being oxidized, they can stay in the liver. Then that makes steatosis or the fatty liver, or they can be pushed out, and they turn into lipoproteins. We’re going to talk about that in just a second. The body is like, “What are we going to do with these fatty acids?” We can’t try to shove them into places because nobody wants them. To that point, the liver is like, “I don’t want them, but I will keep some with me.” Or the liver would have these fatty acids transported and stuck to the blood vessel walls.

 

And then the blood vessels and arteries are like, “Well, I don’t want them; I’ll put them underneath my endothelium.” And so that’s how you get atherogenesis. The muscles are like, “I don’t want them, but I’ll take some.” That’s how you get the fatty streaks in your muscles. So when the liver is getting bogged down with steatosis, inflammation occurs in the body and produces this feed-forward cycle inside the hepatocyte, damaging the liver. You’re getting cellular death; you’re getting fibrosis, which is just an extension of what happens when we don’t address the core issues for fatty liver: inflammation and insulin resistance. So, we look for subtle rises in AST, ALT, and GGT; remember that it is a liver-based enzyme.

 

Hormone Enzymes & Inflammation

GGT enzymes in the liver are smoke detectors and tell us how much oxidative stress is going on. Will we look at HSCRP and APOB to see the output of this liver? Is it starting to dump excess fatty acids through VLDL, APOB, or triglycerides? And how it picks that is just genetics, honestly. So I look for liver markers to tell me what’s going on in the liver as a sign of what’s happening everywhere. Because that might be the genetic weak spot of the person, some people are genetically vulnerable just in terms of their lipid profiles. To that point, we can look for something called metabolic dyslipidemia. You know this as high triglycerides and low HDL. You can specifically look for a ratio; an optimal balance is three and lower. It starts going from three to five and then five to eight, like eight is almost pathognomonic of insulin resistance. You’re just reaching becoming more and more insulin resistant.

 

As the number increases for that trig over HDL ratio, that is a simple, easy way to screen for insulin resistance. Now some people look 3.0 on this but still have insulin resistance. So there are other tests you do. This is a way to find those who show insulin resistance through lipids. And remember, everybody is different. Women with PCOS could have amazing lipids but could express an increase or decrease of hormones associated with insulin, estrogen, and inflammation. So look for something other than one test or ratio to indicate whether they’ve got it. You’re looking to see what could be the place where we will find the clue.

 

So let’s use the word healthy. A healthy person has VLDL that looks to be a healthy normal size in their bodies, and they have normal LDL and HDL. But now look at what happens when you get insulin resistance. These VLDL ls start to pump up with triglycerides. That’s why they’re fattening up. It’s lipotoxicity. So if you start looking at the VLDL three numbers in a lipoprotein profile, you’ll see that that number is creeping up, and there are more of them, and their size is bigger. Now with LDL, what happens is that the cholesterol amount within the top and the bottom is the same. If I pop all these water balloons, it’s the same amount of LDL cholesterol. However, that amount of LDL cholesterol in insulin resistance is repackaged in small dense LDL.

 

How Does Functional Medicine Play Its Part?

Now we understand that there may be some of you who cannot or do not have access to this testing, or your patients cannot afford it, and that’s why we answered the questions and looked for other clues of insulin resistance and treat the root cause that is affecting the body. Look for signs of inflammation and other overlapping profiles of insulin resistance. The particle number is higher when they’re insulin resistance. So cholesterol is the same, whereas the particle number is more elevated, and small dense LDL is more atherogenic. Treat it because whether or not you have access to knowing the LDL particle, there should be something in your head that says, “Man, even though this person’s LDL cholesterol looks good, they have tons of inflammation and insulin resistance; I can’t be sure that they don’t have higher particle number.” You might assume that they do this just to be safe.

 

The other thing that happens in insulin resistance is that the HDL or the healthy cholesterol tends to become small. So that’s not very good because the efflux capacity of HDL is lessened when it’s smaller. So we like the larger HDL, if you will. Access to these tests would give you a solid indication of what’s going on with your patient from a cardiometabolic perspective.

 

When it comes to these tests, it is important to utilize them to determine the patient’s timeline when they have inflammation or insulin resistance in their bodies, affecting their quality of life. However, many people would often express that these tests are expensive and would go with the gold standard of testing for affordability and be able to decide if it is worth it to better their health and wellness.

 

Look For Cardiometabolic Risk Patterns

So when it comes to cardiometabolic risk factor patterns, we look at the insulin aspect and how it correlates with mitochondrial dysfunction associated with insulin resistance and inflammation. A research article mentions how two mitochondrial dysfunctions can affect the body. Okay, let’s talk about the first issue, which is the quantity issue. One could be endotoxins that we encounter in our environment, or two; it can be genetically passed along from generation to generation. So the two types could indicate that you don’t have enough mitochondria. So that’s a quantity issue. The other problem is it’s a quality issue. You got plenty of them; they don’t work well, so they don’t have high output or at least normal results. Now how does this play out in the body? So out in the periphery, your muscles, adipocytes, and liver, you have mitochondria in those cells, and it’s their job to energize that lock and jiggle. So if your mitochondria are in the right number, you’ve got plenty to energize the insulin cascade lock and jiggle.

 

Interesting, right? So here it is in summary, if you don’t have enough mitochondria, which is the problem in the periphery, you get insulin resistance because the lock and jiggle aren’t working well. But if you do not have the mitochondria working well in the pancreas, especially in the beta cell, you don’t secrete insulin. So you still get hyperglycemia; you don’t have high insulin state. When this happens, we know your brain should be hurting, but hopefully, it will come together slowly.

 

Another article mentions that it connects mitochondrial dysfunction with type two diabetes, and poor maternal nutrition can prime it. This one talks about how fatty liver is associated with lipotoxicity, right? That’s that increased fatty acid, and oxidative stress, which, remember, is the byproduct of inflammation. ATP depletion and mitochondrial dysfunction. When this happens, it can affect the liver, which then turns into the fatty liver, and can also be associated with gut dysfunction, which leads to chronic inflammation, elevated insulin resistance, mitochondrial dysfunction, and many more. These chronic metabolic diseases are connected, and there are ways to reduce these symptoms from affecting the body.

 

Conclusion

When having a conversation with their doctors, many patients know that the same drivers affect a whole host of other phenotypes, all commonly rooted in inflammation, insulin, and toxicity. So when many people realize these factors are the root cause, doctors will work with many associated medical providers to develop personalized functional treatment plans. So remember, you always have to use the timeline and the matrix to kind of help you know where do you start with this patient, and for some people, it might be you’re just going to tweak a little bit of lifestyle because all they’re working on is changing their body count. So it’s one of the blessings of functional medicine that we were able to turn off the inflammation in the gut, which helps reduce the toxic impact burdening the liver. It also allows the individual to find out what works or doesn’t work with their bodies and take these small steps to improve their health.

 

We hope you have fresh eyes about inflammation, insulin, and toxicity and how it is at the root of so many conditions that your patients are facing. And how through very simple and effective lifestyle and nutraceutical interventions, you can change that signaling and change the course of their symptoms today and the risks they have tomorrow.

 

Disclaimer

Understanding The Metabolic Connection & Chronic Diseases (Part 2)

The Metabolic Connections Between Chronic Diseases (Part 1)


Introduction

Dr. Alex Jimenez, D.C., presents how metabolic connections are causing a chain reaction to major chronic diseases in this 2-part series. Many factors often play a role in our health and wellness. It can lead to overlapping risk factors associated with pain-like symptoms in the muscles, joints, and vital organs. Part 2 will continue the presentation on metabolic connections with major chronic diseases. We mention our patients to certified medical providers that provide available therapy treatments for individuals suffering from chronic conditions associated with metabolic connections. We encourage each patient when it is appropriate by referring them to associated medical providers based on their diagnosis or needs. We understand and accept that education is a marvelous way when asking our providers’ crucial questions at the patient’s request and acknowledgment. Dr. Jimenez, D.C., makes use of this information as an educational service. Disclaimer

 

How Inflammation Affects The Body

Dr. Alex Jimenez, D.C., presents: So here you have a lean set of adipocytes on the left, and then as they start to plump up with more cellular weight, you can see those macrophages, the green boogies come around looking, saying, “Hey, what’s going on here? It doesn’t look right.” So they are investigating, and this causes local cell death; it’s just a part of the inflammatory cascade. So there is also another mechanism happening here. Those adipocytes are not just getting plumper by accident; it’s often related to a calorie surfette. So this nutrient overload damages the endoplasmic reticulum, leading to more inflammation. What these cells and the adipocytes are trying to do is protect themselves from glucose and lipo toxicity.

 

And the whole cell, the adipocyte cell, is creating these caps that are trying to say, “Please stop, we can’t take any more glucose, we can’t take any more lipids.” It’s a protection mechanism known as insulin resistance. It’s not just some random thing happening. It is the body’s way of trying to prevent glucose and lipotoxicity. Now that the inflammation alarm is occurring more than just in the adipocytes, it’s getting systemic. Other tissues and organs are starting to feel the same burden of the calorie surfette, causing inflammation and cell death. So glucose and lipotoxicity look like fatty liver when dealing with the liver. And you can also have it just like fatty liver progresses to cirrhosis with hepatocyte death. The same mechanism that’s happening in muscle cells. So our skeletal muscle cells specifically see cell death after inflammation and see fatty deposition.

 

The best way to think about it is, for example, the cows raised for food consumption and how they have marbled. So that’s the fatty deposition. And in humans, you can think about how people become sarcopenic as they become more and more insulin resistant. It’s the same phenomenon when body tissue tries to protect itself from glucolipotoxicity, causing a local inflammatory response. It becomes an endocrine response when it starts targeting other tissues in the periphery, whether the liver, muscle, bone, or brain; it’s just whatever is happening; they’re in the visceral adipocytes that can occur in other tissues. So that’s your paracrine effect. And then it can go viral, if you will.

 

Inflammation Associated With Insulin Resistance

Dr. Alex Jimenez, D.C., presents: You’re getting this local and systemic pro-inflammatory response coupled with insulin resistance, returning to this protection mechanism against glucose and lipotoxicity. Here you see how the blood vessels in our arteries get caught in the loop of fatty deposition and cell death. So you’ll see leaky blood vessels and fatty deposits, and you’ll see damage and pro-atherogenesis. Now, this is something we explained in AFMCP for the cardiometabolic module. And that is the physiology behind the insulin receptor. This is known as the lock and jiggle technique. So you have to have insulin lock into the insulin receptor up at the top., which is known as the lock.

 

And then there’s a phosphorylation cascade called the jiggle that then creates this cascade that ultimately causes the glucose-4 channels to open up the glucose-4 receptors to go into the cell so that it can be then the glucose, which is then utilized for energy production by the mitochondria. Of course, insulin resistance is where that receptor isn’t sticky or as responsive. And so not only do you fail to get glucose into the cell for energy production, but you are also rendering a hyper insulin state in the periphery. So you get hyperinsulinemia as well as hyperglycemia in this mechanism. So what can we do about that? Well, many nutrients have been shown to improve the lock and jiggle things that can improve the glucose-4 transporters coming up towards the periphery.

 

Anti-Inflammatory Supplements Reduce Inflammation

Dr. Alex Jimenez, D.C., presents: You see these listed here: vanadium, chromium, cinnamon alpha lipoic acid, biotin, and another relatively new player, berberine. Berberine is a botanical that can dampen all primary pro-inflammatory signals. So what precedes these comorbidities often and it’s insulin dysfunction. Well, what precedes insulin dysfunction many times? Inflammation or toxicity. So if berberine is helping the primary inflammation issue, it will address the downstream insulin resistance and all the comorbidities that can happen. So consider berberine as your option. So again, this shows you that if you can reduce inflammation up here at the top, you can minimize many cascade effects downstream. Berberine specifically seems to act in the microbiome layer. It modulates the gut microbiota. It may create some immune tolerance, therefore not rendering as much inflammation.

 

So consider berberine as one of the tools you can use to support insulin dysfunction and insulin resistance-related comorbidities. Berberine seems to increase insulin receptor expression, so the lock and jiggle work more effectively and improve the cascade with the glucose-4 transporters. That’s one mechanism by which you can start to find the root cause of many of the conditions we discussed when you see paracrine and endocrine glucose toxicity, lipotoxicity organ damage. Now another mechanism for you to consider is leveraging NF kappa B. So the goal is to keep NF kappa B grounded because as long as they don’t translocate, a host of inflammation signals do not get triggered.

 

So our goal is to keep NF kappa B grounded. How can we do that? Well, we can use NF kappa B inhibitors. So in this presentation of treatment options for any comorbidities related to insulin dysfunction, there are many ways to reduce these overlapping conditions affecting our bodies. So you can directly affect insulin resistance through anti-inflammatory supplements or indirectly help insulin resistance or insulin dysfunction by leveraging things against inflammation. Cause if you remember, insulin dysfunction is what then causes all those comorbidities. But what causes insulin dysfunction is generally inflammation or toxins. So our goal is to address pro-inflammatory things. Because if we can address pro-inflammatory things and nip the insulin dysfunction in the bud, we can prevent all the downstream organ damage or organ dysfunction.

 

Reducing Inflammation In The Body

Dr. Alex Jimenez, D.C., presents: Let’s move on to the next section that you can leverage or reduce the inflammation and insulin soup damage if you will, that the genes bathe in the body. This is the one you’ll often hear in our presentation, and that’s because, actually, in functional medicine, we help fix the gut. That’s usually where you need to go. And this is the pathophysiology for why we do that in cardiometabolic medicine. So if you have that poor or sad diet, that modern western diet with bad fats, it will directly damage your microbiome. That change in the microbiome can render increased intestinal permeability. And now lipopolysaccharides can translocate or leak into the bloodstream. To that point, the immune system says, “Oh no way, buddy. You’re not supposed to be in here.” You’ve got these endotoxins in there, and now there is a local and systemic inflammatory response that inflammation will drive the insulin dysfunction, which will cause the metabolic disorders that come after that.

 

Whatever the person’s genetically prone to, it gets clicked on epigenetically. So remember, if you can quell the inflammation in the microbiome, meaning create this tolerant and strong microbiome, you can reduce the inflammatory tone of the entire body. And when you reduce that, it’s been shown that it sets the insulin sensitivity. So the lower the inflammation, the higher the insulin sensitivity related to the microbiome. So surprise, it’s been shown that probiotics are associated with improved insulin sensitivity. So the right probiotics will create immune tolerance. Microbiome strength and modulation occur with probiotics. And so insulin sensitivity is preserved or regained based on where you are. So please consider that as another indirect mechanism or treatment option for leveraging cardiometabolic health for patients.

 

Probiotics

Dr. Alex Jimenez, D.C., presents: So when it comes to probiotics, we will use them in someone who might also concurrently have irritable bowel syndrome or food allergies. We might pick probiotics over NF kappa B inhibitors if they also have insulin resistance issues. But if they have many neurocognitive problems, we might start with the NF kappa B. So, that’s the way you can decide which ones to pick. Now, remember, when talking with patients, it is important to discuss how their eating habits are causing inflammation in their bodies. It is also important to note that it’s not just a quality conversation; it’s a quantity conversation and an immune conversation.

 

This reminds you that when you fix the gut by feeding it well and reducing its inflammatory tone, you get a host of other preventative benefits; you stop or at least reduce the strength of the dysfunction. And you can see that, ultimately can reduce the overlapping risk of obesity, diabetes, and metabolic syndrome. We are trying to drive home that metabolic endotoxemia, or just managing the microbiome, is a powerful tool to help your insulin-resistant or cardiometabolic patients. So much data tells us that we cannot just make the conversation about eating right and exercising.

 

It’s so much beyond that. So the more we can improve the gut microbiota, we can change inflammation signals through proper diet, exercise, stress management, sleep, all the other things we’ve been talking about, and fixing the gums and the teeth. The less the inflammation, the less the insulin dysfunction and, therefore, the less all those downstream disease effects. So what we want to make sure you know is to go to the gut and make sure that the gut microbiome is happy and tolerant. It’s one of the most potent ways to influence a healthy cardiometabolic phenotype. And aside, although it was a bigger thing a decade ago, non-caloric artificial sweeteners do as they might be non-caloric. And so people may be tricked into thinking it’s zero sugar.

 

But here’s the problem. These artificial sweeteners can interfere with healthy microbiome compositions and induce more type two phenotypes. So, even though you think you’re getting the benefit with no calories, you’re going to increase your risk for diabetes more through its effect on the gut microbiome. All right, We’ve made it through objective one. Hopefully, you’ve learned that insulin, inflammation, adipokines, and all the other things that happen in the endocrine response affect many organs. So let’s now start to look at emerging risk markers. Okay, we’ve talked a bit about TMAO. Again, that’s still a relevant concept here with gut and insulin resistance. So we want to make sure that you look at TMAO not as the end all be all but as another emerging biomarker that could give you a clue about microbiome health in general.

 

Looking For The Inflammatory Markers

Dr. Alex Jimenez, D.C., presents: We look at elevated TMAO to help the patient recognize that they have changed their eating habits. Most of the time, we help patients reduce unhealthy animal proteins and increase their plant-based nutrients. It’s generally how many doctors use it in standard medical practice. Alright, now another emerging biomarker, okay, and it sounds funny to call it emerging because it seems so obvious, and that is insulin. Our standard of care is centralized around glucose, fasting glucose, to our postprandial glucose A1C as a measure of glucose. We are glucose so centric and need insulin as an emerging biomarker if we try to be preventative and proactive.

 

And as you remember, we talked yesterday that fasting insulin in the bottom of the first quartile of your reference range for fasting insulin might be where you want to go. And for us in the US, that tends to be between five and seven as a unit. So notice that this is the pathophysiology of type two diabetes. So type two diabetes can happen from insulin resistance; it can also occur from mitochondrial problems. So pathophysiology of type two diabetes could be because your pancreas is not secreting enough insulin. So again, this is that little 20% that we talk about the majority of the people who are getting type two diabetes; it’s from insulin resistance, as we would suspect, from a hyper insulin problem. But there is this group of people who have damaged mitochondria, and they are not outputting insulin.

 

So their blood sugar rises, and they get type two diabetes. Okay, then the question is, if there is a problem with pancreatic beta cells, why is there a problem? Is the glucose going up because the muscles have insulin resistance, so they cannot capture and bring in glucose? So is it the liver that’s hepatic insulin resistant that cannot take in glucose for energy? Why is this glucose running around in the bloodstream? That’s what this is paraphrasing. So contributing role, you have to look at the adipocytes; you have to look for visceral adiposity. You must see if this person is just a big belly fat inflammatory-like catalyst. What can we do to reduce that? Is the inflammation coming from the microbiome?

 

Conclusion

Dr. Alex Jimenez, D.C., presents: Even the kidney can play a role in this, right? Like perhaps the kidney has increased glucose reabsorption. Why? Could it be because of an oxidative stress hit to the kidney, or could it be in the HPA axis, the hypothalamus pituitary adrenal axis where you’re getting this cortisol response and this sympathetic nervous system response that’s generating inflammation and driving the blood insulin and blood sugar disturbances? In Part 2, we will talk here about the liver. It’s a common player for many people, even if they don’t have fulminant fatty liver disease; it’s generally a subtle and common player for people with cardiometabolic dysfunction. So remember, we’ve got the visceral adiposity causing inflammation and insulin resistance with atherogenesis, and the liver is like this innocent bystander caught up in the drama. It’s happening before sometimes the atherogenesis starts.

 

Disclaimer

Why Magnesium Is Important For Your Health? (Part 3)

Why Magnesium Is Important For Your Health? (Part 3)


Introduction

Nowadays, many individuals are incorporating various fruits, vegetables, lean portions of meat, and healthy fats and oils into their diet to get all the vitamins and minerals that their bodies need. The body needs these nutrients biotransformed into energy for the muscles, joints, and vital organs. When normal factors like eating unhealthy foods, not getting enough exercise, and underlying conditions affect the body, it can cause somato-visceral issues that correlate with disorders that push many individuals to feel unwell and miserable. Luckily, some supplements and vitamins like magnesium help with overall health and can reduce the effects of these environmental factors that are causing pain-like symptoms in the body. In this 3-part series, we will look at the impact of magnesium helping the body and what foods contain magnesium. Part 1 looks at how magnesium correlates with heart health. Part 2 looks at how magnesium helps with blood pressure. We refer our patients to certified medical providers that provide many available therapy treatments for individuals suffering from underlying conditions associated with low magnesium levels affecting the body and correlated to many underlying conditions affecting a person’s health and wellness. We encourage each patient when it is appropriate by referring them to associated medical providers based on their diagnosis. We accept that education is a marvelous way when asking our providers’ hard-hitting questions at the patient’s request and acknowledgment. Dr. Jimenez, D.C., only utilizes this information as an educational service. Disclaimer

 

An Overview Of Magnesium

 

Have you been experiencing muscle numbness in different locations in your body? What about muscle cramps or fatigue? Or have you been experiencing issues with your heart? Suppose you have been dealing with these overlapping issues that are affecting not only your body but your overall health. In that case, it could correlate with your body’s low magnesium levels. Studies reveal that this essential supplement is the body’s fourth most abundant cation when it comes to magnesium since it is a co-factor for multiple enzymic reactions. Magnesium helps with cellular energy metabolism, so the muscles and vital organs can function properly and helps replenish intracellular and extracellular water intake. Magnesium helps with the body’s metabolism, but it can also help reduce the effects of chronic conditions affecting the body. 

 

How Magnesium Helps The Body

 

Additional studies reveal that magnesium is important in lowering chronic conditions’ effects on the body. Magnesium could help many individuals dealing with cardiovascular issues or chronic diseases associated with the heart or the muscles surrounding the upper and lower extremities of the body. How can magnesium help with overlapping health disorders that can affect the body? Studies show that taking magnesium can help prevent and treat many common health conditions:

  • Metabolic syndrome
  • Diabetes
  • Headaches
  • Cardiac arrhythmias

Many of these conditions are associated with everyday factors that can affect the body and lead to chronic disorders that can cause pain to the muscles, joints, and vital organs. So, taking magnesium can reduce pre-existing conditions from elevating the body and causing more harm.

 


Magnesium In Food

Biomedical physiologist Alex Jimenez mentions that magnesium supplementation usually causes diarrhea and explains what foods are high in magnesium. Surprisingly, avocados and nuts have a chaulk full of magnesium. One medium avocado has about 60 milligrams of magnesium, while nuts, especially cashews, have approximately 83 milligrams of magnesium. One cup of almonds has about 383 milligrams of magnesium. It also has 1000 milligrams of potassium, which we covered in an earlier video, and around 30 grams of protein. So this is a good snack to break up the cup into about half-cup serving throughout the day and snack on as you’re going. The second one is beans or legumes; for example, one cup of black beans cooked has around 120 milligrams of magnesium. And then wild rice is also a good source of magnesium. So what are the signs of low magnesium? The symptoms of low magnesium are muscle spasms, lethargy, irregular heartbeat, pins and needles in the hands or legs, high blood pressure, and depression. This video was informative for you regarding magnesium, where to find it, and the best supplemental forms to take it in. Thank you again, and tune in next time.


Foods Containing Magnesium

When it comes to taking magnesium, there are many ways to incorporate magnesium into the body’s system. Some people take it in supplemental form, while others eat healthy, nutritious foods with a chaulk full of magnesium to get the recommended amount. Some of the foods that are riched in magnesium include:

  • Dark Chocolate=65 mg of magnesium
  • Avocados=58 mg of magnesium
  • Legumes=120 mg of magnesium
  • Tofu= 35 mg of magnesium

What is great about getting these magnesium riched foods is that they can be in any dishes we consume for breakfast, lunch, and dinner. Incorporating magnesium in a healthy diet can help boost the body’s energy levels and help support the major organs, joints, and muscles from various disorders.

 

Conclusion

Magnesium is an essential supplement that the body needs to boost energy levels and help reduce the effects of pain-like symptoms that can cause dysfunction in the body. Whether it is in supplemental form or eating it in healthy dishes, magnesium is an important supplement that the body needs to function properly.

 

References

Fiorentini, Diana, et al. “Magnesium: Biochemistry, Nutrition, Detection, and Social Impact of Diseases Linked to Its Deficiency.” Nutrients, U.S. National Library of Medicine, 30 Mar. 2021, www.ncbi.nlm.nih.gov/pmc/articles/PMC8065437/.

Schwalfenberg, Gerry K, and Stephen J Genuis. “The Importance of Magnesium in Clinical Healthcare.” Scientifica, U.S. National Library of Medicine, 2017, www.ncbi.nlm.nih.gov/pmc/articles/PMC5637834/.

Vormann, Jürgen. “Magnesium: Nutrition and Homoeostasis.” AIMS Public Health, U.S. National Library of Medicine, 23 May 2016, www.ncbi.nlm.nih.gov/pmc/articles/PMC5690358/.

Disclaimer

Why Is Magnesium Important? (Part 1)

Why Is Magnesium Important? (Part 1)


Introduction

The cardiovascular system allows oxygen-rich blood and other enzymes to travel throughout the body and allow the various muscle groups and vital organs to function and do their jobs. When multiple factors like chronic stress or disorders begin to affect the heart, it can lead to cardiovascular issues that mimic chest pains or heart disorders that can affect a person’s daily lifestyle. Fortunately, there are many ways to ensure the heart stays healthy and prevent other chronic issues that can disrupt the body’s function. Today’s article looks at one of the essential supplements known as magnesium, its benefits, and how it corresponds with heart health in this 3-part series. Part 2 looks at how magnesium lowers blood pressure. Part 3 looks at the different foods containing magnesium and improves health. We refer our patients to certified providers that consolidate many available treatments for many individuals suffering from low magnesium levels affecting the cardiovascular system and correlating to chronic conditions that can cause overlapping risk profiles in the body. We encourage each patient by referring them to associated medical providers based on their diagnosis when it is appropriate. We understand that education is a fantastic way when asking our providers intricated questions at the patient’s request and understanding. Dr. Jimenez, D.C., only utilizes this information as an educational service. Disclaimer

 

What Is Magnesium?

 

Have you noticed that your blood glucose levels are elevated? What about feeling low on energy? Or have you been dealing with constant headaches? When many individuals are dealing with these issues that affect their health, it could be due to low magnesium levels affecting their bodies. Studies reveal that magnesium is the fourth most abundant cation that is a cofactor for 300+ enzymes in the body. Magnesium is an essential supplement that is an important electrolyte that hydrates the intracellular water intake in the body. Additional studies have revealed that magnesium plays a huge role in the body’s metabolism and involves hormone receptor bindings to allow muscle contraction, cardiac excitability, neurotransmitter release, and vasomotor tone. Magnesium is also necessary for the body as it is an active transport for potassium and calcium to go across the cellular membrane for proper functioning. 

 

The Benefits Of Magnesium

 

When it comes to magnesium, there are many beneficial properties that it can provide to the body. Some of the benefits of taking magnesium include:

  • Boost exercise performance
  • Regulating neurotransmitters
  • Reduce depression and anxiety
  • Regulate blood glucose levels
  • Prevent migraines

When many individuals have low magnesium levels, studies reveal that common health conditions like migraines, metabolic syndrome, diabetes, and cardiac arrhythmias. These various health conditions can affect not only the vital organs in the body, but when a person has low magnesium levels, their energy levels are low, and they begin to feel sluggish. Additionally, a person with low energy levels from magnesium deficiency can affect their health and wellness. Studies reveal that magnesium deficiencies could cause overlapping risk profiles in the body, which can develop into chronic disorders like cardiovascular issues, hypotension, and osteoporosis.


An Overview Of Magnesium

Biomedical physiologist Alex Jimenez will be going over magnesium with you. But before we get started, it’s important to define some things. The first one is glycolysis. So if we break that down, glyco means carbohydrates or sugar. Lysis implies the breakdown of such glycolysis, the breakdown of carbohydrates. The next one is the co-factor. A co-factor is defined as a non-protein chemical compound that is required for enzymatic activity. You can think of this as the enzyme being the car, and the co-factor is the key. With the key, the vehicle can get started. So what is magnesium? Magnesium is a positively charged cat ion and an electrolyte we need for our bodies. So why is magnesium important? Because it supports proper muscle and nerve function? It regulates glucose metabolism or the breakdown of carbs in glycolysis. And five out of the ten steps in glycolysis require magnesium as a co-factor. So that is over 50% of the breakdown of carbs requires magnesium as a co-factor. It helps regulate our bone density.


Magnesium & Heart Health

As stated earlier, magnesium is an essential supplement that helps with intracellular water intake and helps with the body’s energy levels. So how does magnesium help the heart? Studies reveal that the many diverse roles that magnesium offers to the body allow it to regulate blood pressure and glycaemic control associated with the heart. Many cardiac patients take magnesium to ensure the intracellular membranes travel through the heart. Additionally, additional studies reveal that foods rich in magnesium can help lower the risk of major cardiovascular risks like ischemic heart disease and coronary heart disease. Magnesium also helps reduce pain-like symptoms associated with metabolic syndrome and hypertension that can affect the various muscle groups and joints. When the intracellular membrane is supported by magnesium and travels from the heart to the rest of the entire body, fewer pain-like symptoms can affect joints, muscles, and vital organs. 

 

Conclusion

Magnesium is the fourth most abundant essential supplement that provides intracellular water intake in the body and can provide support to the cardiovascular system. This supplement plays a huge role in the body as it supports its metabolism and makes sure that it reduces cardiovascular issues. When many individuals have low magnesium levels, chronic problems like cardiovascular disorders, metabolic syndrome, and musculoskeletal disorders will develop and affect the body’s function to work properly. Incorporating magnesium-rich foods or supplements can lower the risk of these issues from progressing further and help regulate the elevated hormone levels affecting the body. Part 2 will look at how blood pressure is reduced when taking magnesium.

 

References

Al Alawi, Abdullah M, et al. “Magnesium and Human Health: Perspectives and Research Directions.” International Journal of Endocrinology, U.S. National Library of Medicine, 16 Apr. 2018, www.ncbi.nlm.nih.gov/pmc/articles/PMC5926493/.

Allen, Mary J, and Sandeep Sharma. “Magnesium – Statpearls – NCBI Bookshelf.” In: StatPearls [Internet]. Treasure Island (FL), StatPearls Publishin, 3 Mar. 2022, www.ncbi.nlm.nih.gov/books/NBK519036/.

DiNicolantonio, James J, et al. “Magnesium for the Prevention and Treatment of Cardiovascular Disease.” Open Heart, U.S. National Library of Medicine, 1 July 2018, www.ncbi.nlm.nih.gov/pmc/articles/PMC6045762/.

Rosique-Esteban, Nuria, et al. “Dietary Magnesium and Cardiovascular Disease: A Review with Emphasis in Epidemiological Studies.” Nutrients, U.S. National Library of Medicine, 1 Feb. 2018, www.ncbi.nlm.nih.gov/pmc/articles/PMC5852744/.

Schwalfenberg, Gerry K, and Stephen J Genuis. “The Importance of Magnesium in Clinical Healthcare.” Scientifica, U.S. National Library of Medicine, 2017, www.ncbi.nlm.nih.gov/pmc/articles/PMC5637834/.

Swaminathan, R. “Magnesium Metabolism and Its Disorders.” The Clinical Biochemist. Reviews, U.S. National Library of Medicine, May 2003, www.ncbi.nlm.nih.gov/pmc/articles/PMC1855626/.

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What Are The Benefits Of Potassium?

What Are The Benefits Of Potassium?


Introduction

As more and more people start to keep track of their health, many often try to figure out what foods contain the right amount of vitamins and supplements to benefit their bodies and support the vital organs and the body’s gene levels. Many fruits and vegetables have a chock-full of vitamins and minerals that the body needs for energy and to prevent chronic issues from affecting the body. Today’s article looks at the most beneficial mineral the body needs, potassium, its benefits, and what kind of foods have potassium for the body. We refer our patients to certified providers that consolidate many available treatments for many individuals suffering from low potassium levels affecting a person’s body and correlating to chronic conditions that can cause overlapping risk profiles. We encourage each patient by referring them to associated medical providers based on their diagnosis when it is appropriate. We understand that education is a fantastic way when asking our providers intricated questions at the patient’s request and understanding. Dr. Jimenez, D.C., only utilizes this information as an educational service. Disclaimer

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What Is Potassium?

Have you been experiencing muscle cramps and aches throughout your entire body? What about feeling tired constantly or experiencing low energy? Or have you noticed that your blood pressure is elevated? Many of these chronic issues are correlated with low levels of potassium in the body. Studies reveal that potassium is an essential mineral that the human body needs to function properly. Potassium is important since it is an electrolyte to replenish the body when a person sweats. Many athletic people need to fill their bodies with electrolytes after an intense workout session to ensure that the extracellular and intracellular compartments are hydrated. Additional studies also mentioned that potassium is one of the shortfall nutrients that many people often forget because of the adequate intake that needs to be met for the body to have the recommended amount of potassium to function throughout the entire day. However, incorporating different types of food that have potassium can provide the recommended amount that the individual needs and provide beneficial results. 

 

The Benefits Of Potassium

When it comes to the body and potassium, there are many beneficial factors that this essential mineral can provide. Research studies have revealed that increasing potassium intake with healthy, nutritious foods can benefit body health. Some of the beneficial properties that potassium can provide include the following:

  • Lowering blood pressure
  • Reduce the progression of renal disease
  • Decrease the risk of osteoporosis
  • Manages hypercalciuria
  • Prevent diabetes development

All these chronic issues that can affect the body are correlated with low potassium levels. When the body doesn’t have the right amount of vitamins and supplements to help prevent these issues, it can lead to pain-like symptoms associated with the muscles, joints, and vital organs. So when pain specialists like chiropractors or functional medicine doctors thoroughly examine patients and ask questions to determine if the patient’s body has low potassium levels. When the body has low potassium levels, studies reveal that chronic issues like hypertension and elevated glucose levels could potentially lead to cardiovascular problems associated with chest pain and diabetes. When these overlapping issues affect the body, it is known as somato-visceral pain. Somato-visceral pain is when the affected organs are causing problems to the body’s muscles and causing referred pain in different locations. 


An Overview Of Potassium

Biomedical physiologist expert Alex Jimenez is going to be going over potassium. He mentions that potassium is a cat ion that is positively charged. So potassium is important for a few different reasons. It helps us regulate our heartbeat. It helps us regulate how our muscle and nervous tissue work, and it’s important for synthesizing protein and metabolizing carbohydrates. The recommended daily amount of potassium is 4.7 grams for the U.S. and 3.5 for the U.K. So, an average of three and a half grams. When we think about potassium and what foods are high in potassium, what’s the first that comes to mind? The banana, right? A banana only has 420 or 422 milligrams of potassium. So to get our daily amount of potassium, that’s going to require us to eat eight and a half bananas. I don’t know anybody eating eight and a half bananas unless you’re a monkey. So let’s look at other foods high in potassium to help counterbalance the nutritional amount instead of just eating eight and a half bananas. Some foods high in potassium are dried fruits, specifically dried apricots and raisins, which have about 250 milligrams per half-cup serving.


Foods That Are High In Potassium

It is easy to incorporate potassium into a person’s daily habits. Many pain specialists like chiropractors work with associated medical providers like nutritionists and physical therapists to restore the body, prevent chronic conditions from progressing further, and reduce muscle and joint pain. Everybody knows that bananas are one of the more known fruits with potassium; however, eating bananas alone can be tiresome. So many fruits and vegetables have higher potassium levels and can help replenish the body’s electrolytes. Some of the nutritious foods that have potassium include:

  • Banana
  • Avocado
  • Sweet Potatoes
  • Spinach
  • Dried Fruits (Apricots, Raisins, Peaches, Prunes)

Now eating potassium-riched foods can help the body’s intra- and extracellular water intake but combined with treatments and exercises can prevent chronic issues associated with muscle and joint pain. When people utilize these healthy habits in their daily lives, they can feel better and function throughout the day.

 

Conclusion

Trying to be healthier should not be difficult and can begin small with the right motivation. Incorporating a healthy diet combined with exercises and therapy treatments can restore the body to its healthier version and prevent overlapping issues affecting the muscles, joints, vital organs, and gene levels. Eating whole, nutritional foods filled with potassium can help restore lost electrolytes and help prevent chronic disorders from progressing further in the body to avoid muscle and joint pain.

 

References

He, Feng J, and Graham A MacGregor. “Beneficial Effects of Potassium on Human Health.” Physiologia Plantarum, U.S. National Library of Medicine, Aug. 2008, pubmed.ncbi.nlm.nih.gov/18724413/.

Stone, Michael S, et al. “Potassium Intake, Bioavailability, Hypertension, and Glucose Control.” Nutrients, U.S. National Library of Medicine, 22 July 2016, www.ncbi.nlm.nih.gov/pmc/articles/PMC4963920/.

Sur, Moushumi, and Shamim S Mohiuddin. “Potassium – StatPearls – NCBI Bookshelf.” In: StatPearls [Internet]. Treasure Island (FL), StatPearls Publishing, 11 May 2022, www.ncbi.nlm.nih.gov/books/NBK539791/.

Weaver, Connie M. “Potassium and Health.” Advances in Nutrition (Bethesda, Md.), U.S. National Library of Medicine, 1 May 2013, www.ncbi.nlm.nih.gov/pmc/articles/PMC3650509/.

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Dr. Alex Jimenez Presents: The Impact Of Stress (Part 2)

Dr. Alex Jimenez Presents: The Impact Of Stress (Part 2)


Introduction

Dr. Alex Jimenez, D.C., presents how chronic stress can impact the body and how it is correlated with inflammation in this 2-part series. Part 1 examined how stress correlates with various symptoms affecting the body’s gene levels. Part 2 looks at how inflammation and chronic stress correlate with the various factors that can lead to physical development. We refer our patients to certified medical providers who provide available treatments for many individuals suffering from chronic stress associated with the cardiovascular, endocrine, and immune systems affecting the body and developing inflammation. We encourage each of our patients by mentioning them to associated medical providers based on their analysis appropriately. We understand that education is a delightful way when asking our providers questions at the patient’s request and understanding. Dr. Jimenez, D.C., only uses this information as an educational service. Disclaimer

 

How Stress Can Impact Us?

Dr. Alex Jimenez, D.C., presents: Stress can create many emotions that can hugely impact many of us. Whether it is anger, frustration, or sadness, stress can make anyone reach a breaking point and cause underlying conditions that can develop into cardiovascular issues. So those people with the highest level of anger, when you look at the cardiovascular literature, have the least probability of survival. Anger is a bad player. Anger causes arrhythmia. This study looked at, now that we have people with ICDs and defibrillators, we can monitor these things. And we see that anger can trigger ventricular arrhythmias in patients. And it’s easy now to follow, with some of our technology.

 

Anger has been linked to episodes of atrial fibrillation. When you think about it, it’s adrenaline outpouring into the body and causing coronary constriction. It’s increasing the heart rate. All of these things can lead to arrhythmia. And it doesn’t have to be AFib. It can be APCs and VPCs. Now, some very interesting research has come out about telomerase and telomeres. Telomeres are little caps on the chromosomes, and telomerase is the enzyme linked to telomere formation. And now, we can understand through the language of science, and we’re starting to use technology and use science in a way that we could never do before to understand the impact of stress on telomeres and telomerase enzymes.

 

The Factors That Lead Up To Chronic Stress

Dr. Alex Jimenez, D.C., presents: So one of the key people to study this is the Nobel Prize-winning, Dr. Elizabeth Blackburn. And what she said is that this is a conclusion, and we’ll come back to some of her other studies. She tells us that the telomeres of babies from women in utero had a lot of stress or were even shorter in young adulthood compared to mothers who did not have the same stressful situations. Maternal psychological stress during pregnancy may exert a programming effect on the developing telomere biology system that is already apparent at birth as reflected by the setting of newborn leukocyte telemetry length. So children can come in imprinted, and even if they do, this can be transformed.

 

What about racial discrimination these boxes here show high racial discrimination leading to low telomere length, which most of us have ever thought about. So, shorter telomere length leads to an increased risk of cancer and overall mortality. Cancer incidence rates are 22.5 per 1000 person-years in the shortest telomere group, verse 14.2 in the middle group, and 5.1 in the longest telomere group. Shorter telomeres can lead to instability of the chromosome and result in cancer formation. So, now we understand, through the language of science, the impact of stress on the telomerase enzyme and the telomere length. According to Dr. Elizabeth Blackburn, 58 premenopausal women were caregivers of their chronically ill children verse women who had healthy children. The women were asked how they perceive stress in their lives and whether it impacts their health by affecting their cellular aging.

 

That was the question of the study as they looked at telomere length and telomerase enzyme, and this is what they found. Now, the keyword here is perceived. We are not to judge each other’s stress. Stress is personal, and some of our responses may be genetic. For example, someone who has homozygous comps with a sluggish gene may have much more anxiety than someone who doesn’t have this genetic polymorphism. Someone who has an MAOA in an MAOB may have more anxiety than someone who doesn’t have that genetic polymorphism. So there is a genetic component to our response, but what she found was perceived psychological stress. And the number of years caring for chronically ill children was associated with shorter telomere length and less telomerase activity, providing the first indication that stress can impact telomere maintenance and longevity.

 

How To Transform Our Stress Response?

Dr. Alex Jimenez, D.C., presents: That’s powerful, and many healthcare providers are under some form of stress. And the question is, what can we do to transform our response? Framingham also looked at depression and identified clinical depression as a bigger risk for cardiovascular events and poor outcomes than smoking, diabetes, high LDL, and low HDL, which is crazy because we spend all of our time on these things. Yet, we don’t spend much time dealing with the emotional aspects of vascular disease. This is affected depression, inventory, a simple screening test for depression, looking at people with high levels of depression versus low levels of depression. And you can see that as you go from the low to the highest level, as you work your way through, the chance of survival becomes less.

 

And many of us have our theories as to why this occurs. And is it because if we are depressed, we don’t say, “Oh, I’m going to eat some brussels sprouts, and I’m going to take those B vitamins, and I’m going to go out and exercise, and I’m going to do some meditation.” So post-MI independent risk factor for an event is depression. Our mindset regarding depression makes us incapable of functioning normally and can make our bodies develop issues that affect our vital organs, muscles, and joints. So, depression is a big player, as 75% of post-MI deaths are related to depression, right? So looking at patients, now, you have to ask the question: Is it the depression causing the problem, or is it the cytokine sickness that’s already led to the heart disease causing the depression? We have to factor all of this in.

 

And yet another study looked at over 4,000 people with no coronary disease at baseline. For every increase of five points on the depression scale, that increased risk by 15%. And those with the highest depression scores had a 40% higher coronary artery disease rate and a 60% higher death rate. So mostly everyone thinks it’s a cytokine sickness that leads to MI, vascular disease, and depression. And then, of course, when you have an event, and you come out with a whole host of issues around it, we know that people who are depressed have a twofold increase in mortality, a fivefold increase in death after a heart attack, and poor outcomes with surgery. It’s like this, what came first, the chicken or the egg?

 

How Depression Is Linked With Chronic Stress?

Dr. Alex Jimenez, D.C., presents: Every surgeon knows this. They don’t want to do surgery on depressed people. They know the outcome is not good, and of course, they are less likely to follow through on all of our great functional medicine recommendations. So what are some of the mechanisms of autonomic dysfunction have been evaluated heart rate variability and low levels of omega-3s, which have a profound effect on the brain, and low levels of vitamin D. There are those inflammatory cytokines we talked about not getting restorative sleep, and many of our heart patients do have apnea. And remember, don’t just think it’s the heavyset heart patients with thick short necks; it can be quite deceiving. And it’s really important to look at the structure of the face and, of course, social connection, which is the secret sauce. So is autonomic dysfunction a mechanism? One study looked at heart rate variability in people with a recent MI, and they looked at over 300 people with depression and those without depression. They found that four heart rate variability indices will lower in people with depression.

 

Gut Inflammation & Chronic Stress

Dr. Alex Jimenez, D.C., presents: So here are two groups of people having a heart attack and heart rate variability, rising to the top as a possible etiology. One of the many things that can also affect chronic stress in the body is how the gut microbiome plays its part in oxidative stress. The gut is everything, and many heart patients laugh because they would ask their cardiologists, “Why do you care about my gut microbiome? Why would this affect my heart?” Well, all that gut inflammation is causing cytokine sickness. And what a lot of us have forgotten since medical school is that many of our neurotransmitters come from the gut. So chronic inflammation and exposure to inflammatory cytokines appear to lead to alterations in dopamine function and the basal ganglia, reflected by depression, fatigue, and psychomotor slowing. So we can’t emphasize the role of inflammation and depression enough if we take a look at acute coronary syndrome and depression, which was associated with higher markers for inflammation, more elevated CRP, lower HS, lower heart rate variability, and something that never gets checked in the hospital, which is nutrition deficiencies.

 

And in this case, they looked at omega-3s and vitamin D levels, so at a minimum, an omega-3 check and a vitamin D level are warranted in all of our patients. And certainly, if you can get a full diagnosis for stress-induced inflammation. Another condition you must look at when it comes to stress-induced inflammation is osteoporosis in the joints. Many people with osteoporosis will have muscle loss, immune dysfunction, fat around the midline, and high blood sugar are associated with aging, and it can come from elevated cortisol levels in the body.

 

High cortisol heart disease risks are two times higher in people taking high doses of steroids. Small amounts of steroids don’t have the same risk, so it is not as big a deal. Of course, we try to get our patients off of steroids. But the point here is that cortisol is a stress hormone and is a stress hormone that raises blood pressure and puts weight on the midline, makes us diabetic, causes insulin resistance, and the list is endless. So, cortisol’s a big player, and when it comes to functional medicine, we have to look at the various tests that pertain to elevated levels of cortisol like food sensitivity, a 3-day stool valve, a nutra-valve, and an adrenal stress index test to look at what is going on with the patients. When there is a heightened sympathetic nervous system and high cortisol, we discussed everything from coagulopathy to decreased heart rate variability, central obesity, diabetes, and hypertension.

 

Parental Relationships & Chronic Stress

Dr. Alex Jimenez, D.C., presents: And turning on the renin-angiotensin system it’s all linked to stress. Let’s look at this study that looked at 126 Harvard Medical students, and they were followed for 35 years, a long research. And they said, what’s the incidence of significant illness, heart disease, cancer, hypertension? And they asked these students very simple questions, what was your relationship with your mom and your dad? Was it very close? Was it warm and friendly? Was it tolerant? Was it strained and cold? This is what they found. They found that if the students identified their relationship with their parents as strained 100% incidence of significant health risk. Thirty-five years later, if they said it was warm and close, the results cut that percentage in half. And it would help if you thought about what it is and what can explain this, and you’ll see how adverse childhood experiences make us sick in a few minutes and how we learn our coping skills from our parents.

 

Conclusion

Dr. Alex Jimenez, D.C., presents: Our spiritual tradition comes from our parents often. Our parents are the ones who frequently teach us how to get angry or how to resolve conflict. So our parents have had a profound effect on us. And when you think about that, our connection is also not very surprising. This is a 35-year follow-up study.

 

Chronic stress can lead to multiple issues that can correlate to illness and dysfunction in the muscles and joints. It can affect the gut system and lead to inflammation if it is not taken care of immediately. So when it comes to the impact of stress affecting our daily lives, it can be numerous factors, from chronic conditions to family history. Eating nutritious foods high in antioxidants, exercising, practicing mindfulness, and going to daily treatments can lower the effects of chronic stress and reduce the associated symptoms that overlap and cause pain to the body. We can continue with our health and wellness journey pain-free by utilizing various ways to lower chronic stress in our bodies.

 

Disclaimer

Dr. Alex Jimenez Presents: How Hypertension Is Explained (Part 2)

Dr. Alex Jimenez Presents: How Hypertension Is Explained (Part 2)


Introduction

Dr. Alex Jimenez, D.C., presents how hypertension affects the human body and how to find ways to manage the symptoms associated with hypertension affecting many individuals in this 2-part series. Part 1 looked into the various factors that correlate with hypertension, and part 2 looked at the different genes and body levels affected by hypertension. We refer our patients to certified medical providers who provide multiple available treatments for many people suffering from hypertension associated with the cardiovascular, endocrine, and immune systems affecting the body. We encourage each of our patients by mentioning them to associated medical providers based on their analysis appropriately. We understand that education is a delightful way when asking our providers questions at the patient’s request and understanding. Dr. Jimenez, D.C., only makes use of this information as an educational service. Disclaimer

 

What Are ADMA Levels In Hypertension

Dr. Alex Jimenez, D.C., presents: Okay, so what affects ADMA levels? Upregulation of NRF-2 can decrease ADMA levels. So that’s great. So looking at things high in EGCG, think of green tea, sulforaphane, resveratrol, and exercises that reduce ADMA levels in the body. Improving blood sugar control improves ADMA levels, addressing the homocysteine pathway and looking at acidencial homocysteine. So this asks the question, what is the most common over-the-counter medication in the United States for gastroesophageal reflux or hyperacidity of the stomach that increases ADMA levels? And that is proton pump inhibitors, a poor diet, or elevated homocysteine. These are a couple of touch points on the ADMA that you can consider.

Let’s shift a little bit. Remember we talked about increased oxidative stress? There’s a whole enzyme system orchestra that addresses oxidative stress. And chronic oxidative stress can lead to hypertension. It also leads to fibrosis or gradual fibrosis of end organs. And so when you have elevated, reactive oxygen species, cell proliferation, migration changes, apoptosis changes, there’s increased inflammation. Reactive oxygen species make your tissue at the basal membrane level stiffer; your tissue becomes stiffer when you have increased oxidative stress. You start shifting with increased oxidative stress, extracellular matrix enzymes, and structure, and then you start getting endothelial dysfunction.

Many enzymes are influenced by nutrition and our genetic makeup that shift our balance of oxidative stress. Some of those enzymes are glutathione and glutathione peroxidase. The fifth enzyme down is GPX, which is the enzyme that helps us react to inflammation and toxins by altering the glutathione balance. We mentioned glutathione multiple times. We’ll talk about glutathione as a biomarker that you can check to assess oxidative stress in your patient. So is your oxidative stress because of mitochondrial dysfunction, or is your increased oxidative stress due to inflammation? We’ve seen this as a side effect in many patients, as increased inflammation leads to increased oxidative stress associated with increased mitochondrial dysfunction. This triangle is a matrix of interaction between the energy node, mitochondrial dysfunction, reactive oxygen species, and the defense and repair node inflammatory markers. We have seen this multiple in multiple different conditions.

 

How Oxidative Stress Is Associated With ADMA Levels?

Dr. Alex Jimenez, D.C., presents: When we see oxidative stress findings in many different organ systems in many other conditions in our medical practices, in many patients, we often see all these chronic conditions associated with oxidative stress as part of their symptoms. When this happens, we have to consider how to modulate them by asking them a few simple questions. We would ask them what kind of spices and herbs they use when they cook. Or what is their diet plan? These questions are important to analyze and assist the patient because culinary spices can affect many aspects of our body’s metabolism that could influence blood pressure.

 

By looking at the list of various spices, it is important to add them to food preparations or to alter the taste of food to add flavor and improve your health. Another thing to look for when it comes to lowering blood pressure is by adding these various spices into your food as part of your daily routine and being referred to a health coach or a nutritionist, whose main job is to add more spices to a patient’s diet and coming up with numerous recipes that have these spices. Remember, it doesn’t take a lot; a teaspoon to a tablespoon of mixed herbs in your food throughout the day could help normalize your blood pressure.

How To Come Up With A Plan To Lower Hypertension

Dr. Alex Jimenez, D.C., presents: Okay, how will you address oxidative stress, and what biomarkers might you look at? Well, oxidative stress affects many different levels of our cellular and subcellular levels. Oxidative stress can cause damaged DNA and change the fats in the membranes of the mitochondrial cell. It can induce increased lactation and disrupt protein structure in our bodies. So we start looking at total antioxidant capacity. Total antioxidant capacity is influenced by the nutritional adequacy of essential fats of too many simple carbohydrates of enough minerals, vitamins, and phytonutrients. So you can check glutathione levels in the serum, cysteine levels, enzymes, glutathione peroxidase, superoxide dismutase, and lipid peroxide on this list to see what is elevated in the body. You can check these different markers and get a clue of what portion of the cells or organ system is influenced by oxidative stress.

 

When we see these results, we need to develop a plan to increase the fat-soluble antioxidants, which can be fat and water-soluble, like alpha-lipoic acid. Or, say, for example, somebody has elevated eight-hydroxy-deoxy guanosine. What are the things that help you repair their DNA sequence? Well, it’s the components in one cellular, one-carbon metabolism. It’s your B vitamins. It’s methyl groups from essential fats. But then you have to ask, why is this elevated? Is it elevated because of micronutrient deficiency, mitochondrial toxicity, chronic inflammation, or hyperglycemia? So it’s common for your cardiometabolic patients to frequently see increased DNA oxidation marker eight-hydroxy-deoxy-guanosine.

 

Okay, those are biomarkers you can check in the urine or the blood. What’s another biomarker that you can check by looking at the nitric oxide angiotensin balance? What are ways that you can check endothelial function? What are ways that you can improve endothelial function even without checking? Well, there are different things that you can do to enhance nitric oxide. We’ve mentioned them before, like improving the bacterial balance, eating more flavonoids, increasing foods rich in nitrates, or even adding yoga to your regimen. There are ways that you can improve endothelial function without medications like sildenafil, as noted, that could potentially correlate with sleep apnea. It may address whether they have sleep apnea, need a mandibular split, and address some of the conditions they carry with them. Or, at the very bottom, it may manage their high-fat meals.

 

Okay, if you have somebody on a ketogenic diet, you must recognize potential oxidative stress and address it with your patients. So what are some early ways to detect vascular or endothelial dysfunction? One of the outpatient tools you can use is the vascular reactivity index. This detects vascular disease and looks at the pliability of the flexibility of the small capillaries and how well you profuse tissue downstream of an obstruction. So instead of looking at coronary arteries or carotids, it’s looking down at the level of the arterial, and we look at what’s called reactive hyperemia. So, it gives you some prognostic inflammation.

Measuring Blood Pressure

Dr. Alex Jimenez, D.C., presents: And there have been studies that follow people with reactive hyperemia to look at endothelial dysfunction and how that interacts with the Framingham risk score. And we know that when somebody has an abnormal index that predicts cardiovascular events, combining it with the end path lowers the lower endothelial function readings, which is associated with long-term cardiovascular disease. So how does it happen? You put a blood pressure cuff on your arm with a monitor on your finger. You blow the blood pressure cuff up to obstruct blood flow. You then, after five minutes, release it, and your vascular response to that surge of blood after having the blood flow occluded predicts hypertension and coronary heart disease. On the left, you see the normal endothelial function; the blue line on the top graph on the left is the obstruction of blood flow.

 

And then, after five minutes, you release the cuff, and you see this almost bell-shaped flow of blood down to the capillaries. You know the response, the endothelial function. That is a normal curve on the right. It is poor endothelial function. You can see there are no signs of arterial capillary flexibility. And so this is predictive up to seven years later. So then you ask yourself, is there anything that can improve endothelial function when I expect endothelial function dysfunction, or do I have an abnormal vascular reactivity index? And yes, let’s choose one as an example. Eating blueberries twice a day or taking them in powder form is rich in anthocyanins. To that point, you can add them to a smoothie that you have incorporated into your diet and have antioxidants in your system. The anthocyanins and their metabolites can help improve vascular function while increasing the mediated flow dilation and lowering 24-hour systolic blood pressure.

 

We use a lot of carotid in medial thickness because if I have somebody with hyperlipidemia, hyperglycemia, or hypertension, I want to use it as a leverage point to see if they have inflammation, their carotid bull or their internal carotid on each side to track to see if we’re getting systemic improvement in inflammation or can we get reversal with plaque. And so we’ve successfully done that through testing our clinic, advanced lipids, and education through group medical visits along with lifestyle interventions with nutraceuticals. And we have had a reduction in plaque and mark modulation and improvement in inflammation. If you don’t do anything helpful, the average increase in carotid intimal medial thickness per year is between 10 and 20% of the abnormal level. You can use this as a tool, as an outpatient, very easily to monitor the reduction in systemic vascular inflammation in plaque.

 

Looking At The Emerging Markers

Dr. Alex Jimenez, D.C., presents: Some other emerging markers, like HSCRP, uric acid, heavy metals, nutritional deficiencies, and TMAO, correlate with hypertension. And by improving those markers, you get improvement in blood pressure. Here’s the thing to remember. When you look at an HSCRP and see that it’s above one, here’s the connection. Now HSCRP inhibits endothelial nitric oxide synthase. So when you see an elevated HSCRP, you make a connection to lower nitric oxide. If you see an elevated HSCRP that downregulates the angiotensin-two receptors, it can increase blood pressure and is associated with increased cardiovascular risk.

 

How often do you check uric acid? It’s important to prevent uric acid in hypertensive patients. If it’s above six, you need to address it. How do you manage elevated uric acid levels? Well, by removing purine-rich foods or improving the metabolism of urine through your one carb metabolism, b12, fully b6, limiting their alcohol or avoiding a lot of extra high fructose sugar or improving their body weight, or addressing insulin resistance. All these mediate uric acid. If you have somebody who’s hyperemic, remember these five areas of modifiable physiologic imbalance. So I hope you’ve seen that hypertension is a syndrome. It’s not one thing; it’s not stiffness; it’s a syndrome in that you have three areas that you have to consider inflammation, oxidative stress, and immune response. You can look at a lot of the different imbalances around this dial.

Conclusion

Dr. Alex Jimenez, D.C., presents: You can look at your patient; you can look at what ways you can further evaluate them. And so, when you see a patient with hypertension, consider the treatments outlined in your clinical decision tree. And then, you can apply the modifiable lifestyle factors and the things to lower their blood pressure. Incorporating these lifestyle applications can improve the root cause and help you find the root cause of hypertension through the functional medicine lens.

 

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