Back Clinic Conditions Treated. Chronic Pain, Auto Accident Care, Back Pain, Low Back Pain, Back Injuries, Sciatica, Neck Pain, Work Injuries, Personal Injuries, Sports Injuries, Migraine Headaches, Scoliosis, Complex Herniated Discs, Fibromyalgia, Wellness & Nutrition, Stress Management, and Complex Injuries.
At El Paso’s Chiropractic Rehabilitation Clinic & Integrated Medicine Center, we are focused on treating patients after debilitating injuries and chronic pain syndromes. We focus on improving your ability through flexibility, mobility, and agility programs tailored for all age groups and disabilities.
If Dr. Alex Jimenez feels you need other treatment, then you will be referred to a clinic or Physician that is best suited for you. Dr. Jimenez has teamed with the top surgeons, clinical specialists, medical researchers, and premiere rehabilitation providers to bring El Paso the top clinical treatments to our community. Providing the top non-invasive protocols is our priority. Clinical insight is what our patients demand in order to give them the appropriate care required. For answers to any questions you may have please call Dr. Jimenez at 915-850-0900
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.
Dr. Alex Jimenez, D.C., presents how stress can impact many individuals and correlate with many conditions in the body in this 2-part series. 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 uses this information as an educational service. Disclaimer
How Stress Impacts the Body
Dr. Alex Jimenez, D.C., presents: Now everyone responds to changes in the environment differently. When it comes to many individuals doing everyday activities from working at their job, opening on the weekends, traffic jams, taking exams, or preparing for a big speech, the body goes through a constant state of hyperreactive to a stage of emotional, mental exhaustion that leaves the individual to be exhausted and stressed out. And the key is to recognize this before it happens, as we see this impact of stress on our patients and ourselves. And the first thing to realize is what the initiating event is causing this impact.
Whatever the initiating event, the most important part is our perception of the event. What does it mean to us? Is it our perception? When the body goes through this initiating event, it can cause the perception to lead to the response and the effect on our body. So perception is everything as we talk about stress and the stress response. Now, we have over 1400 chemical reactions that occur in the body. So for this talk’s purpose, we’ll discuss the three key ones: adrenaline and neuro-adrenaline, aldosterone, and of course, cortisol.
And why are these important? Because every one of these has a huge impact on cardiovascular disease. Now, in the 1990s, many doctors were starting to understand the effect of stress on the physical body. And what happens to people when their HPA-axis signals that they are under threat and start flooding their bodies with stress hormones? Well, we see enhanced coagulation. We see a shift in the renin and angiotensin system. It revs up. We see weight gain in people and insulin resistance. What a lot of people don’t realize is that lipids become abnormal with stress. Almost every one of our patients knows that tachycardia and arrhythmia occur when our adrenaline is flowing, and our blood pressure increases. Now, think about this through the language of medicine.
Around the 1990s, doctors were giving aspirin and Plavix at the time for coagulation. We continue to provide ACEs and ARBs to our patients. The impact of cortisol causes weight gain and insulin resistance. We give statins; we give metformin. We provide beta blockers for that, tachycardia, and calcium blockers for that high blood pressure. So every single hormone that gets turned on with stress, we have a drug that we’re using to balance that. And quite frankly, for years, we talked about how good beta blockers were for the heart. Well, when you think about that, beta blockers do block adrenaline. So when doctors look at this, they begin to think, “Well, maybe we need to medicate and meditate, right? We’re using all these drugs, but we may need to look at other ways to transform the stress response.”
What is Vasoconstriction?
Dr. Alex Jimenez, D.C., presents: We won’t read every one of these symptoms because there are so many, but it all comes down to the same thing. Stress. We have to think of someone who’s in an auto accident, for example, and that person is bleeding. So the body is beautiful in that it puts together a way to stop the individual from bleeding or vasoconstriction. Vasoconstriction is constructing these blood vessels and making the platelets sticky so they form a clot, and the blood can stop. This increases the cardiac output by raising the heart rate and increases aldosterone, which causes salt and water retention to raise the blood pressure. So for someone in a medical emergency, like an accident, bleeding, or losing volume, this is the beauty of the human body. But unfortunately, we see people living this way, literally 24/7. So we know the vasoconstriction and the platelet stickiness, and we see increases in markers for inflammation, homocysteine, CRP, and fibrinogen, all of which increase cardiovascular risk.
We see the impact of cortisol, not only raising blood pressure, not only causing diabetes and insulin resistance, but also depositing abdominal fat around the midline. And then, as you’ll see in a few minutes, there are links between stressful events and arrhythmias like atrial fibrillation and even ventricular fibrillation. For the first time in medicine, in cardiology, we have a syndrome called takosubo cardiomyopathy, which is affectionately called broken heart syndrome. And this is a syndrome in which the myocardium becomes acutely stunned to the point of causing severe left ventricular function or dysfunction. And usually, this is triggered by bad news and an emotionally stressful event. It looks like someone needs a heart transplant. So when we think about the old Framingham risk factors, we say, which of these are impacted by stress?
Symptoms of Stress
Dr. Alex Jimenez, D.C., presents: People have all sorts of maladaptive behaviors to stress, whether 20 friends in this pack of cigarettes, eating this Cinnabon because it makes me feel good right now, or all the cortisol will make me fat and diabetic. Lipids go up under stress; blood pressure goes up under stress. So every one of these risk factors is impacted by stress hormones. And, of course, we know that with the turning on of the RAS system or the renin-angiotensin system, we always see a worsening in heart failure. And this is very much described in the literature. And, for those of you who may work in the emergency room, ask your patients what they were doing before coming in with their episode of congestive heart failure or chest pain. And you’re going to hear stories like, I was watching a bad movie, or I was watching a war movie, or I got upset over the football game, or something like that.
We’ll talk about heart rate variability, which gets impacted by stress. And, of course, stress affects our ability to resist infections. And we know that people are under stress when they’re vaccinated. For example, Cleco lasers work but don’t produce antibodies to the vaccine when they’re under stress. And, of course, as you’ll see in a minute, severe stress can cause sudden cardiac death, MI, and so on. So it is a bad player that’s overlooked. And for many of our patients, stress drives the train. So when we’re talking about eating brussels sprouts and cauliflower and, you know, lots of green leafy vegetables, and someone is under so much stress that they’re trying to figure out, “How am I going to get through the day?” They’re not hearing any of the other things that we’re recommending.
So, chronic stress and affective disorders, whether depression, anxiety, or panic, put our foot on the accelerator and rev up the sympathetic nervous system. We know that the same things we see with aging, as you’ll see in a minute, are linked to increased levels of stress hormones, especially cortisol. So whether it’s osteoporosis, decreased bone density, endothelial dysfunction, platelet activation, hypertension, central obesity, or insulin resistance, this comes from a stress response. And we have to have a plan for our patients on how to handle this. American Institute of Stress says that 75 to 90% of all healthcare provider visits result from stress-related disorders. And that’s way too high, but by looking at the patients and where they were coming in with, they tell their stories to their doctors. The results are the same; it doesn’t matter whether it was headaches, muscle tension, angina, arrhythmia, or irritable bowel; it almost always had some stress trigger.
Acute & Chronic Stress
Dr. Alex Jimenez, D.C., presents: There’s a difference between acute and chronic stress with our perception and social connection. Even though we gain some strength from a higher power, stress can impact anyone, and most of us might not be able to handle it well. So a great study was done many years ago by Dr. Ray and Holmes that stated, 50 years ago, put together a method for quantifying life-changing events. So let’s look at some areas, such as life-changing events. How do life-changing events and how do they rank? Which are the big ones, and which are the little ones?
And how does that ranking lead to major medical problems like cancer, heart attack, and sudden death in the future? So they looked at 43 life-changing events, ranked them originally, and re-ranked them in the 1990s. And some of them remained the same. They gave an adjustment score to the event, and then they looked at numbers that would be linked to major illness. So, for example, a life-changing event. Number one, 100 life-changing units, is a death of a spouse. Anyone could relate to that. Divorce was number two, separation number three, and the end of a close family member. But also noticed that some things got ranked that are, you might not equate with, being a major life-changing event that can impact a stress response like marriage or retirement.
Conclusion
Dr. Alex Jimenez, D.C., presents: So it wasn’t the actual single event that made the difference. It was the adding up of events. And what they found after looking at 67 physicians was if you had a life-changing unit score of somewhere between zero and one 50, not a big deal, no real major illness, but once you hit that 300 mark, there was a 50% chance of major illness. So this timeline of events in the patient’s life. We want to know what was going on in their life when their symptoms started and then bring it back earlier to understand the environment in which this individual was living. The impact of stress can make many individuals develop chronic conditions and mask other symptoms that can lead to muscle and joint pain. In part 2, we will dive in more about how the impact of stress affects a person’s body and health.
Dr. Alex Jimenez, D.C., presents how hypertension affects the human body and some causes that can increase hypertension in many individuals in this 2-part series. We refer our patients to certified medical providers who provide multiple available treatments for many individuals suffering from hypertension associated with the cardiovascular 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
How To Look For Hypertension
Dr. Alex Jimenez, D.C., presents: Let’s go back to the decision tree so you can begin to think about how you will apply the go-to-it model in functional medicine to hypertension and how you will start better assessing somebody with hypertension rather than telling them that their blood pressure is elevated. Is the body influenced by inflammation, oxidative stress, or immune response? Is it affecting endothelial function or vascular smooth muscle from those three categories of reactions, inflammation, oxidative stress, or immune response? Do we choose a diuretic calcium channel blocker or an ACE inhibitor? And so to do that, it’s really important in our gather section. Taking the medical history and the timeline of their hypertension, you get a clue about the organ damage to the questionnaires. You’re looking at their anthropometrics.
This includes the following questions:
What are the inflammatory markers?
What are the biomarkers and clinical indicators?
Those are outlined through the clinical decision tree. And already just doing that, you’re going to expand and fine-tune your lens on what you might see in your hypertensive patient. Let’s add to the timeline when does hypertension begin? The timeframe of hypertension begins actually in prenatally. It’s important to ask your patient if they were early or large educational age. Was their mother stressed? Were they born early or premature? Was there nutritional stress in their pregnancy? If they know that, you can have two people with the same kidney size, but the person who didn’t have enough protein during pregnancy can have up to 40% less glomeruli. Knowing that will change how you adjust the medication decades later if you know they possibly have 40% less glomeruli.
The Timeline For Blood Pressure
Dr. Alex Jimenez, D.C., presents: So it’s important to take the timeline of their blood pressure. Then it’s also important to recognize what is happening when we begin to organize and collect data through the biomarkers; the basic biomarkers will give you clues about whether they have issues with insulin lipids, whether they have problems with vascular reactivity, autonomic nervous system balance, imbalance, coagulation, or immune toxin effects. So this is a reasonable thing to print off because, in your hypertensive patient, this is through just the biomarkers you can begin to get a clue as to what areas of dysfunction affect inflammation, oxidative stress, and immune response and how these biomarkers reflect that information for you. This is very reasonable to have in front of you to help change your thoughts about hypertension and also enables you to refine some of the characteristics of the person on the other side of your stethoscope in a more personalized, precise way.
But let’s start at the very beginning. Does your patient have high blood pressure? We know that depending on the end organ effects of their comorbidities, you may run someone a slightly higher blood pressure if you have a profusion issue in the brain and the kidneys or the heart, but some guidelines are there. Our 2017 American Heart Association guidelines for blood pressure categories are listed here. They’ve waxed and waned back and forth over the last couple of decades, but this is very clear. Having elevated blood pressure, anything above 120, really shifted how many people we start seeing or considering addressing the root causes of their blood pressure. So we will come back to this, especially in the case to help us look at how we categorize people with blood pressure issues.
The Criteria To Mesure Blood Pressure
Dr. Alex Jimenez, D.C., presents: What is the first step? It’s how do you have the blood pressure taken in your patient? Do they monitor it at home? Do they bring those numbers to you? How do you monitor blood pressure in your clinic? How do you get accurate readings in your clinic? Here are the criteria to accurately measure blood pressure and the questions to consider whether you’re doing all these.
Do you ask your patient whether they’ve had caffeine in the last hour?
Whether they’ve smoked in the previous hour?
Were they exposed to smoke in the last hour?
Is the place where you’re taking blood pressure warm and quiet?
Are they sitting with their back supported in a chair with their feet on the ground?
Do you use the roll-around side table to rest your arm at the heart level?
Are they sitting at the exam table with their feet dangling, and a nurse aide elevates their arm and puts in their axillary fold to hold their arm there?
Are their feet on the ground?
Have they sat there for five minutes?
Have they exercised in the previous 30 minutes?
You may have systolic blood pressure if everything is in the criteria. Here’s the challenge. There are 10 to 15 millimeters of mercury higher when it comes to sitting and taking blood pressure. What about the cuff size? We know last century; most adults had an upper arm circumference of fewer than 33 centimeters. Over 61% of people now have an upper arm circumference greater than 33 centimeters. So the size of the cuff is different for around 60% of your adult patients, depending on your population. So you have to use a large cuff. So take a look at how blood pressure is collected in your office. Let’s say the blood pressure is elevated in your patients; then we have to ask, is it normal? Great.
The Different Types Of Hypertension
Dr. Alex Jimenez, D.C., presents: Is it elevated because of white-coat hypertension? Do they have normal blood pressure, elevated outside the clinic, or masked hypertension? Or do they just have sustained hypertension which is a challenge? We’ll talk about that. So when you interpret, it is also important to consider ambulatory blood pressure monitoring. So if you have somebody who’s hypertensive and don’t know whether the blood pressure goes down and you’re trying to figure out whether they have sustained hypertension, you can use 24-hour blood pressure monitoring. The mean daytime blood pressure above 130 over 80 is hypertensive the mean nighttime blood pressure above 110 over 65 is hypertensive. So why is this important? The average blood pressure dips to around 15% at night because of the issue with blood pressure dipping. Failure to have blood pressure drop while you sleep at night could develop problems that can affect a person throughout the day.
If your patient sleeps at night, it should drop about 15% when they sleep. If they have non-dipping blood pressure, it is associated with comorbidities. What are some of those comorbidities in non-dipping blood pressure? Some of the conditions correlated with non-dipping blood pressure include:
Congestive Heart Disease
Cardiovascular Disease
Cerebrovascular Disease
Congestive Heart Failure
Chronic Renal Failure
Silent Cerebral Infractions
Co-morbidities Associated With Non-Blood Pressure
Dr. Alex Jimenez, D.C., presents: These are the comorbidities associated with non-blood pressure. All of us agree that elevated blood pressure is not necessarily good in all those conditions. So when you look at different people groups or other comorbidities, non-dipping blood pressure is most commonly associated with sodium-sensitive folks, people who have renal insufficiency, people who have diabetes, people who have left ventricular hypertrophy, people who have refractory hypertension or autonomic nervous system dysfunction and finally, sleep apnea. So, non-dipping blood pressure increases your association with subclinical cardiac damage. Okay, Reverse dipping means you are more hypertensive at night and is more ascent associated than during the day is more related to hemorrhagic stroke. And if you have somebody with nocturnal hypertension, you have to start thinking about things like the carotid arteries and increased carotid, internal medial thickness. You start thinking about left ventricular hypertrophy and may see it on EKG. Here’s what we know about nocturnal hypertension. Nocturnal hypertension is a nighttime blood pressure greater than 120 over 70. It is associated with greater predictability of cardiovascular morbidity and mortality.
If you have nocturnal hypertension, it increases your risk of mortality from cardiovascular disease by 29 to 38%. We must know what’s happening at night when we sleep, right? Well, what’s another refinement? Another refinement is recognizing that resting blood pressure is controlled by your renin-angiotensin system. Waking blood pressure is controlled by your sympathetic nervous system. So let’s talk about how their renal angiotensin system drives their nighttime hypertension, and you think about what medication they’re taking. You might change the medication dosing to nighttime. Well, studies have shown that if you have nighttime hypertension and are a non-dipper, it’s best to take your ACE inhibitors, ARBs, calcium channel blockers, and certain beta blockers at night before bed. But it makes sense that you wouldn’t move your diuretics to nighttime, or you will have a disruptive sleep.
Addressing Daytime & Nighttime Blood Pressure
Dr. Alex Jimenez, D.C., presents: So if we don’t address daytime and nighttime blood pressure, we have to consider the effect of blood pressure load. What is your average daytime blood pressure and your moderate sleeping blood pressure is. We know that blood pressure load in young adults is hypertensive only about 9% of the time. So meaning the systolic load is about 9% versus in the elderly, about 80% of the blood pressure load is systolic. And so when you have a higher systolic load, you have more complications and end-organ damage. So what we’re talking about is helping identify your patient with hypertension; what is their timeline? What is their phenotype? Are they only hypertensive during the day, or they’re hypertensive at night also? We have to look at what helps balance that.
Here’s the other point, only about 3.5% of people with hypertension do it have a genetic cause. Only 3.5% of people their genes cause hypertension. The power is at the bottom of the matrix and recognizing these patterns, right? So you look at exercise, sleep, diet, stress, and relationships. So we know that these four autonomic balances help determine blood pressure. We will examine the renal angiotensin system, plasma volume where they hold onto too much fluid, secondary salt load, and endothelial dysfunction. Abnormalities in any of these can lead to hypertension. We’ve been talking about another one that can lead to hypertension: the link between insulin resistance and hypertension.
This diagrammatically gives you an idea of the physiologic interactions between insulin resistance and hypertension. It affects increasing sympathetic tone and increasing renal-angiotensin system balance. So let’s spend a few minutes on the renin-angiotensin system pathway angiotensinogen down to angiotensin two. We take advantage of these enzymes by giving inhibitors to angiotensin-converting enzymes in our hypertensives patients. Elevated angiotensin two leads to cardiovascular hypertrophy, leads to sympathetic phase constriction, increased blood volume, sodium fluid, retention, and aldosterone release. Can you inquire about your patient biomarkers? Can you ask whether they have elevated renin levels?
Look For The Signs
Dr. Alex Jimenez, D.C., presents: Well, you can. You can check plasma renin activity and aldosterone levels. It’s important to do this if your patient is hypertensive and has never been on medication because this is where nitrous oxide is so important. This is where your endothelial nitric oxide synthase is present. This is where you have sheer and hemodynamic stress. This is where dietary intake of arginine or the environment that affects nitric oxide plays such a role in the health of this layer of endothelia. If you lay it all together somehow, miraculously, or at least in your mind’s eye, it’ll cover six tennis courts in the average adult. It’s a huge surface area. And the things that cause endothelial dysfunction are not new news to people in functional medicine. Increased oxidative stress and inflammation are two things we mentioned that play an effect.
And then, look at some of these other components, your ADMA being elevated and correlated with insulin resistance. It all begins to form together in a matrix that interacts. So you look at one comorbidity in cardiometabolic syndrome, and it affects another comorbidity. You suddenly see the interrelation between them or hyperhomocysteinemia, which is a one-carbon metabolism marker, meaning you’re looking at the adequacy of folate, b12, b6, riboflavin, and that activity of your one-carbon metabolism. So let’s look at some of these emerging risk markers to improve and track in patients with hypertension. Let’s reanalyze ADMA again. ADMA stands for asymmetric dimethyl arginine. Asymmetric, dimethyl arginine is a biomarker of endothelial dysfunction. That molecule inhibits nitric oxide synthase while impairing endothelial function, and in all of the comorbidities associated with cardiometabolic syndrome, ADMA can be elevated.
Conclusion
So, as a quick review, L-arginine is converted to nitric oxide via nitric oxide synthase, and nitric oxide adequacy leads to vasodilation. ADMA blocks this conversion. And if your ADMA levels are elevated and your nitric oxide levels are low, then you have decreased nitric oxide platelet aggregation increases in LDL oxidation. So many things reduce nitric oxide or are associated with lower nitric oxide levels, sleep apnea, low dietary arginine, protein, zinc insufficiency, and smoking.
Dr. Alex Jimenez, D.C., presents how anti-inflammatory phytochemicals can reduce inflammation and treat other chronic conditions that inflammation is correlated with. We dive into what medicines can trigger inflammatory cytokines and some treatments that work together to reduce chronic inflammation. We refer our patients to certified medical providers incorporating multiple therapies for many individuals suffering from chronic inflammation and its correlating symptoms 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
How Medications Associate With Inflammation
Dr. Alex Jimenez, D.C., presents: When it comes to a person’s health and wellness, it is important to know that when you are introducing them to potential antigenic medication, that person’s immune system is already imbalanced and much more likely to make abnormal immune responses, which then can lead to inflammatory effects in the body’s system. You see them mostly with chimeric human marine antibodies, which are the ones that make antibodies for the immune system, to that point, will elicit a much higher immune response. When this happens, it becomes a challenge to long-term pharmacotherapy. So when people go to their doctors for a prescription, about 20-30% of medication prescriptions are never filled because, most of the time, the prescription will never fill them in the drugstore, which can cascade into various issues.
And when people follow their prescription, sometimes they’ll take it for a little while, and after six months, they stop taking it. So the drop in prescriptions taken for longer than six months is quite low. In the last article, we discussed NSAIDs, DMARDs, and biologics, and we will touch base with acetaminophen. Acetaminophen is another one that’s just really widely used, and it’s because it’s put into all of these different cold and flu, and pain products. They sneak it into many other medications; you must read the labels. This is because some people metabolize acetaminophen quickly, which can become toxic. This can lead to individuals getting random headaches throughout the day and causes their glutathiones to be used promptly. So when looking for cold and flu medicine, it is best to look at the labels for acetaminophen because it doesn’t have anti-inflammatory responses since it is used for pain control.
How Acetaminophen Affects the Immune System
Dr. Alex Jimenez, D.C., presents: So even though we do not know how exactly how the analgesic effects work when people take cold and flu medicines, however, we do know that when people take a ubiquitous amount of acetaminophen, it could increase the pain threshold by inhibiting nitric oxide pathways in the body through mediation through the receptors for NMDA and substance P. We still don’t have a great handle on that, but that’s how it works. So, these drugs can be quite useful in the short term, but long-term use has serious side effects.
When looking for medications, it is important to read the labels that have a black box warning, which is the highest warning that the FDA issues for any potential overlapping risk profiles that the FDA issues. This can include severe liver injuries or serious possible allergic reactions that can develop into chronic inflammation of the muscles and joints. Now there are ways to reduce inflammation and prevent the body from being in more pain by slowly introducing anti-inflammatory botanicals and phytochemicals to detoxify the medication causing these complications.
Some individuals may not realize that constant medication for various pains and issues affecting the body can mask other problems involving the body’s systems. This can include:
Endocrine system
Cardiovascular system
Gastrointestinal system
Reproductive system
When these systems have been affected by medications, they can develop inflammatory markers in the vital organs and cause lead to visceral-somatic dysfunction in the body. When pain medications target pain localized in one location, but the issue is in a different area, this is known as referred pain. Referred pain is where the pain is in one muscle group location but is felt in another area of the body. When the organs are involved, it can cause inflammatory symptoms in the system. To that point, this causes the immune system to be induced into autoimmunity.
How The Immune System Is Induced Into Autoimmunity
Dr. Alex Jimenez, D.C., presents: When the immune system has been induced with autoimmunity, the corticosteroids can develop side effects that can be long termed and delay the healing process. Some of the physical symptoms that are visible with autoimmunity include:
Muscle weakness
Diabetes
High blood pressure
Thin bones
Delay wound healing
Flare-ups
Rheumatoid arthritis
Mood changes
When dealing with these inflammatory symptoms associated with pain, there are fundamental functional treatment approaches that can reduce the inflammatory cytokines causing joint and muscle pain.
Treatments To Target Inflammation
Dr. Alex Jimenez, D.C., presents: Some of the treatments that target inflammation include the following:
Slowly incorporating healthy lifestyle choices into a person’s daily lifestyle can reduce the effects of inflammatory cytokines affecting the vital organs, muscles, and joints. It is important to know that incorporating antioxidants, phytonutrients, and anti-inflammatory supplements can reduce residual symptoms in the body. All these treatments are some of the foundations that can address these inflammatory triggers and help reduce muscle and joint pain associated with inflammation.
Anti-Inflammatory Vitamins & Supplements
Dr. Alex Jimenez, D.C., presents: Another important note about these treatments is that vitamins and supplements can combine to help treat inflammatory effects that are causing issues in the body. These anti-inflammatory botanicals and phytochemical agents can not only act on the different pathways in the body but also have different mechanisms similar to healthy nutritional foods. Incorporating anti-inflammatory botanicals and phytochemical agents into the body will help modulate the inflammatory cascades and provide multiple synergistic activities to the body.
These agents down-regulate the inflammatory pathways caused by NF-kappaB. They can act as modulators that dissociate the cytokines from causing more issues like oxidative stress or infections triggering inflammation. However, we need inflammation to heal the body from wounds and infections. We mustn’t want the cytokines too high to cause inflammatory effects. So incorporating anti-inflammatory botanicals and phytochemicals provides a much safer option to the body and can be used in many chronic inflammatory conditions.
Conclusion
Since many botanicals and phytochemicals have anti-inflammatory properties, it can be difficult to find a good amount that the body needs to reduce chronic inflammation. Since many cultures and places have used many nutritional plants and herbs for years worldwide, it can be exhausting. Some of the botanical supplements include:
Zinc
Green tea extract
Capsaicin
S-adenosylmethionine
Ginger
To summarize how it is important to know which supplements have anti-inflammatory properties, doing research and incorporating small changes into a daily lifestyle can provide amazing results and allow the individual to be pain-free and have good health when combining botanicals and phytonutrients.
The iliopsoas muscle is a primary hip flexor that assists in the femur’s external rotation and maintains the hip joint’s strength and integrity. It also helps to stabilize the lumbar spine and pelvis. Athletes often overuse these muscles with all the sprinting, jumping, kicking, and changing directions when running, causing strains and/or tears. Repetitive hip flexion can result in chronic degenerative tendon changes. Chiropractic care and physical therapy can assist in the early phases of healing, safely transitioning to rehabilitation, and returning to physical activities.
Iliopsoas Muscle
The hip flexors are the group of muscles, including the iliac and psoas major muscles/iliopsoas and the rectus femoris/quadriceps. One of the largest and thickest muscles in the body, the psoas, extends from the lumbar vertebrae, crosses in front of each hip, and attaches to the inside top of the thigh bone. The muscle works by flexing the hip joint and lifting the upper leg towards the body. These fibers can tear if tension is more than the muscle can bear. An iliopsoas strain occurs when one or more of these hip flexor muscles become overly stretched or begin to tear.
Injury
The injury can occur from sports or everyday physical activities. This leads to inflammation, pain, and scar tissue formation. An iliopsoas injury is commonly caused by sudden movements, including sprinting, kicking, and changing direction fast while running. Individuals participating in any sports, especially cycling, running, dance, tennis, martial arts, and soccer, are more likely to experience this injury. Other contributing factors include:
Muscle tightness
Joint stiffness
Muscle weakness
Inadequate core stability
Not warming up correctly
Improper biomechanics
Decreased fitness and conditioning
Individuals will feel a sudden stinging pain or pulling sensation, usually on the front of the hip, groin, or abdominal area. Other symptoms include:
Healing and recovery depend on the severity of the injury. A minor iliopsoas muscle injury can take around three weeks to recover fully. More serious strains and tears take six to eight weeks before returning to activity, as the tissue needs time to repair before starting rehabilitation.
Chiropractic Rehabilitation and Recovery
The first steps when dealing with this injury should be P.R.I.C.E. protection, rest, ice, compression, and elevation. It is important to rest and seek treatment immediately; if left untreated, the condition could worsen, lead to a chronic condition, and require surgery. A chiropractic treatment and rehabilitation plan will consist of the following:
Soft tissue massage
Joint mobilization
A chiropractor may recommend crutches to keep the weight off the hip.
A brace can help compress and stabilize the hip flexor to expedite healing.
A flexibility and strengthening program will be implemented to target the muscles around the hip.
Core strengthening exercises will improve the stability of the pelvis area to prevent any further overuse problems.
Wearing compression clothing could also be recommended, as the clothing helps maintain muscle temperature.
Labral Tear
References
Dydyk AM, Sapra A. Psoas Syndrome. [Updated 2022 Oct 24]. In: StatPearls [Internet]. Treasure Island (F.L.): StatPearls Publishing; 2022 Jan-. Available from: www.ncbi.nlm.nih.gov/books/NBK551701/
Lifshitz, Liran BPt, MSc, PT; Bar Sela, Shlomo BPt MPE; Gal, Noga BPt, MSc; Martin, RobRoy PhD, PT; Fleitman Klar, Michal BPt. Iliopsoas the Hidden Muscle: Anatomy, Diagnosis, and Treatment. Current Sports Medicine Reports 19(6):p 235-243, June 2020. | DOI: 10.1249/JSR.0000000000000723
Rauseo, Carla. “THE REHABILITATION OF A RUNNER WITH ILIOPSOAS TENDINOPATHY USING AN ECCENTRIC-BIASED EXERCISE-A CASE REPORT.” International journal of sports physical therapy vol. 12,7 (2017): 1150-1162. doi:10.26603/ijspt20171150
Rubio, Manolo, et al. “Spontaneous Iliopsoas Tendon Tear: A Rare Cause of Hip Pain in the Elderly.” Geriatric orthopedic surgery & rehabilitation vol. 7,1 (2016): 30-2. doi:10.1177/2151458515627309
Dr. Alex Jimenez, D.C., presents how anti-inflammatory botanicals and phytochemicals can reduce inflammatory cytokines that can cause pain-like issues in the body. We dive into how different pharmaceuticals could influence NF-kappaB and how chronic conditions can affect inflammation. We refer our patients to certified providers that incorporate techniques and multiple therapies for many individuals suffering from inflammation, and its correlating symptoms can affect the musculoskeletal system. We encourage and appreciate 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
How Does The Body Deal With Inflammation
Dr. Alex Jimenez, D.C., presents: Our objectives are to look at the evidence for using selective phytochemicals and botanicals as anti-inflammatory and analgesic agents. Controlled studies have grown into mass numbers over the years, and we can feel more confident in some of their findings because a lot of these studies have been done with good-quality investigators and well-designed studies. And even though we get those studies published, the problem is that we rarely hear about them. The media needs to pick them up, and they usually don’t make it into the medical community despite their studies. If you compare that to when pharmaceutical research is done, you know it often makes the headlines and news. Let’s look at some of these botanicals and phytochemicals today.
In autoimmune conditions, pain is a huge issue in the body, and we also want to use its analgesic properties. And then, we have to identify the most appropriate phytochemicals and botanicals for specific inflammatory and pain conditions. So, before we jump into that, we want to review some of the mechanisms of the pharmaceuticals that are very commonly prescribed for inflammatory and autoimmune conditions. Even some of the newer biologics we’ve referred to a little bit, we want to look into them and, and look at how they work and some of their drawbacks, and then we’ll delve into these botanicals that are at our disposal. So it is important to remind anyone that all degenerative diseases have this pro-inflammatory state or inflammation as part of their underlying biochemical ideology. And that inflammation is a final common pathway for all these different dysfunctions. Diabetes, Alzheimer’s, atherosclerosis, cancer, and even some psychiatric disorders like schizophrenia and depression all have inflammation as one of their root causes. Now in this module, we’re focusing on the ones that are in the circles and these.
As you know, most chronic diseases are linked to excessive, persistent inflammation. We’ve pounded that point home well enough, as chronic inflammation occurs when the injury is ongoing or when a predisposed immune system just doesn’t shut off. It fails at counter-regulation and acute inflammation, which is beneficial; however, it can turn into a chronic inflammation if left untreated. Many chronic diseases have been associated with excessive or persistent inflammation. When it comes to chronic inflammation develops when an injury or traumatic event is ongoing, causing the muscles to tense up or when the immune system begins to attack the body when there are no pathogens that are affecting the body. And that the conventional pharmacological treatment focuses on specific pathways that are often really downstream in that inflammatory process, and from a functional medicine perspective, we want to look a bit more upstream to figure out what is the cause of chronic inflammation that is causing this many issues to this person and how anti-inflammatory botanicals and phytochemicals can dampen these inflammatory effects in the body.
How Do Pharmaceuticals Affect The Body?
Dr. Alex Jimenez, D.C., presents: One of the factors that can enhance inflammatory markers is pharmaceutical drugs. So, for example, pharmacologic controls like NSAIDs can inhibit the COX enzyme, while leukotriene inhibitors inhibit the LOX enzyme. DMARDs can affect various immune mechanisms that can influence the development of chronic inflammation. Biologics can inhibit multiple cytokines in the body, including the TNF-alpha and steroids, which can affect NF-kappaB and phospholipase-A2. So there are numerous ways to influence the inflammatory pathway and cause muscle and joint pain issues.
Pharmaceuticals are not the only factors that can cause inflammatory triggers to affect the body; it can be the food we eat or the environment that we live in that can trigger NF-kappaB, which disassociates from I-kappaB while going into the nucleus and binding to the DNA. That point leads to the transcription of many different genes. The body’s genes not only make DNA but can make RNA. When the body makes RNA, it is then biotransformed into DNA, leading to the turning of different inflammatory pathways. So when the pharmaceutical starts entering the body, it can inhibit the other cytokines and enzymes from turning on and cause chronic inflammation, thus causing the anti-inflammatory markers to dampen and causing the immune system to focus on the NF-kappaB.
NSAIDs
Dr. Alex Jimenez, D.C., presents: So let’s start looking at the non-steroidal anti-inflammatories or NSAIDs, which are ubiquitous as they are very common for many people to reach for when they are in pain. And the reason they use them is that they do work. NSAIDs inhibit cyclooxygenase enzymes and prevent those inflammatory prostaglandins, which cause inflammation and pain in the muscles or joints. Now paracetamol is on here, or acetaminophen is not technically an NSAID, but we will look at that separately.
But these NSAIDs, you know, aren’t without issues, as 70 million prescriptions for NSAIDs are written in the U.S. annually. And that over-the-counter uses included 30 billion doses of NSAIDs. That’s an enormous amount, and it’s no wonder most of us have taken them; we’re part of that 30 billion. However, that amount can lead to a leaky gut in our body system. We know their association with peptic ulcers and G.I. bleeding while inhibiting that resolving pathway, which is important to shut off the inflammatory response. So let’s look at DMARDs or disease-modifying anti-rheumatic agents. They’re the first-line therapy for rheumatoid arthritis. And one of the reasons they’re the first line of treatment is that they’re inexpensive but are slow acting and do decrease inflammation, but they don’t work very well to relieve pain directly.
So methotrexate is hydroxychloroquine, or Plaquenil is a very well-known one right now, especially with its use today. Still, methotrexate inhibits RNA and DNA synthesis, which has been used as a chemotherapy agent in cancer. And when it inhibits, it affects the dihydrofolate reductase, which is needed to make DNA and RNA; however, it also suppresses T and B-cell activation while inhibiting IL1 beta from binding to its receptors. So, unfortunately, even though they’re the first-line therapy, they come with several fairly severe side effects. But we keep talking about this idea of side effects; it’s no side effects. They’re the direct effects of the medication.
The Effects Of Pharmaceuticals
Dr. Alex Jimenez, D.C., presents: You know, they may be unwanted effects like rashes, stomach upset, liver, bone marrow, toxicity, congenital disabilities, and, of course, which we’ll see repeatedly. Any time that you shut down your immune system, you open yourself up for infections. So you become much more susceptible to infections. So, look at these biological DMARDs, which work as TNF-alpha blockers. These biological DMARDs work by curbing either T-cell activation or blocking TNF, which is the most common one, but they also can stop things like IL-six, deplete T-cells, and work in other ways. These biologics are called biologics because they’re actually monoclonal antibodies. And so these monoclonal antibodies, as antibodies do, they have very strong specific binding affinities.
And so, using antibodies as medications has been a great advance. Now, as we’re going to see, they may not be the ultimate solution for treating autoimmune disease, but they hold a lot of promise, especially when we need their specificity. So there are many chronic conditions that NSAIDs DMARDs or Biologic DMARDs that can mask inflammation and cause pain to the muscles and joints. Some of the chronic conditions include:
Ankylosing-spondylitis
Arthritis
Crohn’s disease
Endometriosis
Psoriasis
Rheumatoid Arthritis
Osteoarthritis
Fibromyalgia
Lupus
Conclusion
Dr. Alex Jimenez, D.C., presents: These pharmaceuticals can reduce the pain that the person is experiencing with these conditions, but they are short-termed and only mask the issue until a person goes into treatment. When a person has an autoimmune or chronic disorder associated with inflammation, the cost of any medication is high. Even though good pharmaceuticals are important, we need to look at treatments that can examine the lesser-known or rarer conditions that can reduce the inflammatory effects that cause joint and muscle pain. Incorporating anti-inflammatory botanicals and supplements like:
Fish oil
Curcumin
Ginger extract
Green Tea Extract
Resveratrol
All have anti-inflammatory properties that can reduce inflammatory cytokines from the muscle and joints and combine with physical therapy. Physical therapy can allow the body to heal itself and will enable the individual to be pain-free naturally.
The various muscles and ligaments that encompass the back help protect the spine’s thoracic region. The spine has three sections: cervical, thoracic, and lumbar, which assist the body with bending, turning, and twisting. For the thoracic spine, various muscles like the rhomboid, trapezoid, and other superficial muscles provide functionality to the scapula or shoulder blades to stabilize the ribcage. When the body succumbs to injuries or traumatic forces, it can develop myofascial pain syndrome associated with upper back pain. Upper back pain can lead to unwanted symptoms affecting their quality of life. Fortunately, various exercises target the upper portion of the back and can strengthen multiple muscles from injuries. Today’s article looks at the effects of upper back pain in the body and shows a few stretches and exercises that can support the various muscle groups in the upper back region. We refer our patients to certified providers that incorporate techniques and multiple therapies for many individuals suffering from upper back pain and its correlating symptoms that can affect the musculoskeletal system in the neck, shoulders, and thoracic region of the spine. We encourage and appreciate 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
The Effects Of Upper Back Pain In The Body
Have you been experiencing stiffness around or near your shoulder blades? Do you feel muscle strain when you are rotating your shoulders? Or does it hurt when you stretch your upper back in the morning? Many of these issues are signs and symptoms of upper back pain. Studies reveal that back pain is one of the most common complaints many individuals would go for emergency care. Back pain can affect the different regions in the back and cause unwanted symptoms in various areas in the upper back. Additional studies mentioned that persistent pain in the thoracic region could cause hyper-sensitization of the intercoastal nerves that mimic other conditions affecting the back. Some of the causes and effects that can lead to the development of upper back pain include:
When this happens, it can lead to overlapping conditions that mimic other issues and, if not treated right away, leave individuals with chronic disabling symptoms that correlate with upper back pain.
Upper Back Pain Relief-Video
Have you been experiencing stiffness in your shoulders or neck? Do you feel aches and pains when stretching your arms? Or what about feeling muscle strain when lifting a heavy object? Many of these factors correlate with upper back pain affecting the thoracic spine region. When this happens, it can lead to overlapping risk profiles that can develop into different issues that can cause even more pain to the body. There are various ways to prevent upper back pain from causing further issues to the individual and can relieve the pain associated with it. Many people would go to chiropractic therapy to have their spine re-aligned to bring adequate relief or incorporate upper back exercises and stretches to relieve tension accumulated in the neck and shoulder regions. The video above explains how stretches work for different muscle regions in the upper back and provide relief to the thoracic spine.
Exercises For Upper Back Pain
Regarding the upper back, it is important to understand that incorporating various exercises that target the thoracic region can cause prolonged injuries. Studies reveal that different back exercises focus not only on the back but the shoulders, arms, chest, core, and hips providing stability, balance, and coordination to the individual. This allows the muscles in the back region to improve strength and endurance over time when a person continues to work out. More studies reveal that protocols like the McKenzie back exercise are effective programs to treat various musculoskeletal conditions that can cause pain in the back. Many physical therapists use this protocol on their patients to relieve back pain and help improve their muscular structure to have better posture.
Warm Up
Just like any individual that is starting to get back to their health and wellness through exercise, the most important step that anyone has to do is warming up their muscles before getting into a workout. Warming up each muscle group can prevent future injuries and increase blood flow before starting the exercise. Many individuals would incorporate stretches and foam rolling for 5-10 minutes to ensure that each muscle is ready to perform with maximum effort.
Exercises
After the body is warmed up, it is time to begin the exercise regime. Many different exercise movements target each muscle group and help build muscle mass and improve functionality. It is important to build up momentum when it comes to working out. Starting slowly with minimum reps and sets is important to ensure the exercise is done correctly. Afterward, the individual can increase the workout reps and go with a heavier weight. Below are some of the exercise routines that are suited for the upper back.
Superman
Lie on your stomach and extend your arms above the head
Keep neck in a neutral position and lift legs and arms off the floor at the same time
Make sure to use the back and glutes to lift
Briefly pause at the top, then return to starting position
Complete three sets of 10 reps
This exercise helps strengthen the spine and surrounding muscles to support the spine and reduce any future injuries from upper back pain.
Reverse Dumbbell Flies
Grab light weighted dumbbells
Hinge at the waist at 45 degrees while standing
Make sure the arms are hanging down with the weights
Keep the neck in a neutral position while gazing down
Lift the arms (with the dumbbells) out to the side and upwards
Squeeze the shoulders together at the top during this movement
Complete three sets of 8-12 reps
This exercise is excellent for strengthening the muscles that surround the shoulder and upper back.
Rows
Use a resistance band or a light weighted dumbbell.
For the resistance band, affix the band to a stable surface above eye level. For the light weighted dumbbells, extend the arms in front of the body above eye level.
Use an overhead grip when holding the resistance band handles and the light weighted dumbbells.
Pull resistance bands or dumbbells toward the face.
Flare out the upper arms to the sides
Squeeze the shoulders together
Pause for a bit and then return to starting position
Complete three sets of 12 reps
This exercise helps strengthen the shoulder muscles and prevent future injuries from occurring in the upper back.
Conclusion
Some various muscles and ligaments encompass the back and help protect the spine’s thoracic region. These muscles help with the stabilization of the ribcage and help provide the functionality to the upper back. When multiple factors cause traumatic injuries to the upper back, it can lead to pain-like symptoms that can cause overlapping features and affect a person’s quality of life. Luckily, various exercises target the upper back and surrounding muscle groups. Each activity targets all the muscles in the upper back and allows a person to regain health and wellness without constant pain.
References
Atalay, Erdem, et al. “Effect of Upper-Extremity Strengthening Exercises on the Lumbar Strength, Disability and Pain of Patients with Chronic Low Back Pain: A Randomized Controlled Study.” Journal of Sports Science & Medicine, U.S. National Library of Medicine, 1 Dec. 2017, www.ncbi.nlm.nih.gov/pmc/articles/PMC5721192/.
Casiano, Vincent E, et al. “Back Pain – Statpearls – NCBI Bookshelf.” In: StatPearls [Internet]. Treasure Island (FL), StatPearls Publishing, 4 Sept. 2022, www.ncbi.nlm.nih.gov/books/NBK538173/.
Louw, Adriaan, and Stephen G Schmidt. “Chronic Pain and the Thoracic Spine.” The Journal of Manual & Manipulative Therapy, U.S. National Library of Medicine, July 2015, www.ncbi.nlm.nih.gov/pmc/articles/PMC4534852/.
Mann, Steven J, et al. “McKenzie Back Exercises – Statpearls – NCBI Bookshelf.” In: StatPearls [Internet]. Treasure Island (FL), StatPearls Publishing, 4 July 2022, www.ncbi.nlm.nih.gov/books/NBK539720/.
IFM's Find A Practitioner tool is the largest referral network in Functional Medicine, created to help patients locate Functional Medicine practitioners anywhere in the world. IFM Certified Practitioners are listed first in the search results, given their extensive education in Functional Medicine
