Liver Congestion and Adrenal Fatigue Syndrome – Full Version
The liver, along with the kidneys, skin, and intestine, is the waste management plant of the body. The liver filters blood to remove bacteria, modulate bile secretion to eliminate cholesterol, regulate hemoglobin, breakdown products, and remove negative results left by prescription drugs.
Because of its importance, the body has provided us with more liver than we normally need for daily living. A healthy person can donate half of their liver. Due to the excess reserves, liver injuries and damages are often not symptomatically recognized but are frequently given no attention to thinking it is a normal occurrence by many Adrenal Fatigue Syndrome (AFS) sufferers.
There is little room to disregard the role the liver plays for those in advanced stages (stages 3 and 4) of Adrenal Fatigue Syndrome. Without a strong and optimized liver, complete AFS recovery is retarded at best and often not possible. Fortunately, those in earlier stages of AFS (stages 1 and 2) normally do not present with significant liver congestion, unless there is prior history of liver damage, such as with alcohol and infection.
Let us begin with understanding the role cortisol plays as the key determinant of liver and gallbladder health.
Cortisol and the Liver
Cortisol is the body’s main anti-stress hormone secreted by the adrenal glands as a response to stress. Stress can be metabolic such as a sugar imbalance, physical such as over exercise, or emotional such as going through a divorce or accident.
In addition to its many anti-inflammatory and metabolic control properties that are critical in stress reduction, cortisol has been found to have great effect on liver function. Elevated plasma cortisol has been shown to inhibit non-hepatic glucose utilization, raise plasma insulin levels, and increase hepatic gluconeogenesis in vivo. In addition, there is a direct connection between cortisol levels and fatty liver disease. This is seen in early stages of Adrenal Fatigue Syndrome, where the adrenal gland production of this hormone is put in overdrive due to hypothalamic-pituitary-adrenal (HPA) axis overstimulation. High cortisol, a hallmark of early stages of AFS, is known to promote fat deposits in the liver and is associated with a higher incidence of non-alcoholic fatty liver. Fortunately, this is reversible. Studies have shown that in the absence of cortisol, liver fat accumulation slows.
For decades, the medical community has known that those with liver cirrhosis present with a higher incidence of concurrent adrenal dysfunction. When the adrenal glands are not producing adequate amounts of steroid hormones, primarily cortisol, a medical condition called Adrenal Insufficiency (AI) or Addison’s Disease arises. Lifelong steroid therapy is required. This is very different from Adrenal Fatigue Syndrome, where the adrenal glands are still pathologically intact and making hormones, though at a lower level, but not low enough to be called AI. Symptoms of AFS are much more intense than AI in the early stages, but as AFS progresses to the advanced stage, sufferers can be incapacitated and bedridden.
The term hepatoadrenal syndrome is used to define adrenal insufficiency in patients with advanced liver disease who have sepsis and/or other complication’s. Liver cirrhosis is considered to be among the major groups of high-risk diseases with a predisposition to AI. Decreased levels of HDL and LDL cholesterol, along with increased levels of pro-inflammatory mediators, exhaustion or fatigue of the adrenal cortex, and glucocorticoid resistance have all been implicated as pathophysiologic mechanisms involved in AI development in critically ill patients with sepsis. Clearly, adrenal and liver functions are closely connected. The key connecting bridge is cortisol. The exact mechanism is not yet known, but it is clear that liver and adrenal dysfunction is closely tied. It is important, therefore, to look at liver function comprehensively anytime adrenal dysfunction is implicated.
Cortisol and the Gallbladder
In addition to the liver, cortisol also has strong and direct effect on gallbladder and bile production. When we are hungry, cortisol, a glucocorticoid hormone, is released from the adrenal glands. Upon reaching the liver, glucocorticoid receptors are activated, and the gallbladder prepares for the imminent food intake. After a meal, bile is released from the gallbladder into the intestine. Bile acids contained in bile are critical for fat digestion. They emulsify fats into small constituents so fat can be broken down and absorbed. After that job is completed, bile is recycled through the blood back to storage in the gallbladder. Our body recovers ninety-five percent of bile acids from the bowel content. This important recycling process is controlled in part by cortisol. If the cortisol level is off balance or dysregulated, our gallbladder function will automatically be affected negatively. Symptoms can include liver/gallbladder discomfort after a meal, improper digestion with food particles in the stool, and signs of toxic overload such as brain fog, fatigue, and lethargy after a meal.
Liver Congestion and Adrenal Fatigue Syndrome
While small fluctuations of cortisol levels within the body are well tolerated during normal daily living, chronic imbalance and dysregulation can be problematic.
Chronic stress is particularly worrisome, because it leads to over activation of the HPA axis, resulting in Adrenal Fatigue Syndrome mentioned earlier. In the early stages of AFS, cortisol, the main anti-stress hormone, rises. This is part of the automatic compensatory effort of the adrenal glands to help the body deal with stress. The unintended consequence is increased risk of fatty liver that can eventually lead to liver congestion or a sluggish liver in layman’s terms. Unfortunately, this is seldom attended to as a possible risk because symptoms of liver dysfunction have yet to surface in early stages of AFS, where most sufferers remain asymptomatic. While they may be tired and unable to work at peak performance, this is compensated by taking in caffeine drinks and sugary foods as sources of energy.
The underlying insult to the liver because of stress induced AFS and resulting high cortisol continues unabated unless the stressors are removed. If left unabated, the liver workload increases, and liver function is marginalized. Breakdown of metabolic products slows, resulting in liver congestion or stagnation. Like a clogged water pipe, excess input will only create a backlog and spillover at the source. Weak liver function and resulting congestion leads to a rise in the level of internal toxins, as toxic metabolites remain unprocessed and thus unable to be broken down into less harmful metabolic byproducts for excretion out of the body.
Signs and Symptoms of Liver Congestion
Accumulation of such toxins within the liver can be responsible for a myriad of symptoms. They include fatigue, anger, psoriasis, neck and back tension, acne, acidosis, eczema, joint and muscular pain of unknown origin, cramps, menstrual irregularities, PMS, dizziness, pulsating headaches, insomnia, depression, anxiety, hormonal imbalance, brain fog, food sensitivity, insomnia, intolerance or sensitivity to drugs and nutritional supplements. A weak liver may also weaken the kidneys and contribute to digestive problems, including lowered vitamin B12 absorption.
When the liver is chronically congested, sediment often settles out of the bile and accumulates in clumps that resemble stones or sand in the gallbladder. As a result, the gallbladder can become clogged as well. Pre-existing stones can further aggravate the situation as they become lodged in the bile duct leading to the small intestine. It is common for AFS sufferers to complain of discomfort in the gallbladder area, especially after a meal.
You can tell how well a person’s liver and gallbladder is functioning simply by looking carefully at a person’s skin color, tone, pigmentation level, and texture. Dry, pale, and mottled skin with dark spots and pigmentation are signs of underlying liver congestion. Unfortunately, by the time these are observed, congestion within can be well entrenched.
Advanced Adrenal Fatigue Syndrome and Liver Congestion
As AFS proceeds to more advanced stages, the adrenal glands become exhausted in a continuous effort to put out ever increasing demands of the anti-stress hormone cortisol. Over time, cortisol output begins to drop below normal after reaching peak output. Low cortisol level affects gallbladder function by negatively impacting the bile recycling process. Fat metabolism becomes suboptimal. With the resulting deregulated fat metabolism, the liver is further burdened with increased workload. The detoxification pathways responsible for breaking down substrates into smaller toxic metabolites within the liver are marginalized. Internal toxin buildup increases, further overloading the liver and the body, which has been working hard since AFS appeared.
Throughout the AFS progression from mild to severe, relentless insult on the liver continues. This results in the vicious cycle of a decompensating liver faced with a concurrently increasing metabolic workload as AFS advances. The liver is a silent soldier bearing much more of the brunt of a losing battle at the frontlines. It comes as no surprise that most sufferers of advanced AFS usually have some degree of liver congestion and dysfunction at the same time. However, physical and laboratory examination continues to be normal as the injury is occurring at the cellular level and therefore remains sub-clinical and evades detection.
The Real Question
The clinically important question when dealing with AFS sufferers in advanced stages is not about whether the liver is involved but more about the degree of congestion and the level of reserve remaining in the liver for normal function. Bear in mind that even at this point, no gross pathological signs of hepatic cell injury are apparent therefore the concept of liver congestion evades the conventional medical world and is merely passed over as insignificant with no action required. This may work well for those who are constitutionally strong. Those who have prior liver injury such as hepatitis, poor lifestyle habits such as a history of excessive alcohol use, or a weak constitution tend to do worse.
Unfortunately, routine liver function tests will be unremarkable, and liver congestion is usually ignored as a contributing factor to fatigue, while AFS progresses.
Even among alternative health care practitioners, the usual focus with the patient is on generating energy when faced with fatigue as the chief complaint. This usually leads to the use of energy stimulating herbs and adaptogens such as ashwagandha, rhodiola, maca root, green tea, as well as glandular. Without a healthy liver to break down these compounds, work load of an already over burdened liver only increases, resulting in further congestion. It comes as no surprise that with chronic use of herbs, hormones, medications and glandular in the AFS setting, the risk of liver congestion increases.
General Liver Decongestion Approaches
A comprehensive adrenal fatigue recovery plan for those in advanced stages of AFS should therefore consider liver optimization as an important component. A detailed history is required as a starting point. However, depending on the level of liver congestion and weakness already suffered, recovery is easier said than done.
The Chinese have recognized liver congestion as a significant deterrent to good health for centuries. Western medicine is lagging far behind. Fortunately, there are many proven and well-accepted liver detoxification methods that work quite well most of the time. Common and traditional detoxification approaches to a congested liver include using a variety of herbs such as milk thistle; vitamins such as lipoic acid, vitamin C, glutathione; castor oil packs; lymphatic drainages; acupressure and acupuncture; fasting; enemas; saunas; wheat grass vegetable juicing; and heat therapy. These regular detoxification methods work well for those who are young and strong constitutionally with healthy livers. Self-navigation and self-healing can be considered if you are in early stages of AFS and have no prior liver pathology.
Liver Decongestion Principals for Advanced Adrenal Fatigue Syndrome
Chronic AFS sufferers in advanced stages tend to be fragile and weak. This is especially true if there is a long history of adrenal crashes and prior use of glandular, herbs, and steroid medications. This historic backdrop presents special challenges. Like a rubber band that has been repeatedly used and over stretched over time, the risk of breaking increases exponentially with each stretch after the breaking threshold is reached. The threshold breaking point that indicate where rapid decompensation takes place is not readily known and varies from person to person, due to the lack of clear laboratory indicators or signs.
Those who experience adrenal crashes repeatedly will generally be able to tell when they are close to this breaking point. Unfortunately, by the time they are on the alert, the body has already suffered much damage internally. Most are unaware of the damage within until too late, when the crash happens. That is why many advanced AFS sufferers experience repeated setbacks and congested liver and failed in their recovery efforts despite their best attempts, even with professional help. Not being alert and attentive to early signs of detoxification failure and congestion within is a common mistake during AFS recovery.
The more advanced the AFS, the higher the risk. Liver congestion may be so severe internally that any gentle attempt to detoxify or cleanse the liver by the ways previously mentioned may trigger adrenal crashes and paradoxical reactions. Cleanses, flushes, sauna, wheatgrass ingestion, steroid use, and IV therapy are common culprits. They are widely touted as excellent healing and detoxification tools, but the body disagrees. The problem is not so much on the approach but the already marginalized body with minimal reserves.
Action Plan When Liver is Severely Congested
A thorough review of nutritional supplements and medication should be taken and adjustments made to reduce any insult to the liver. Lifestyle factors that increase liver burden should be looked into and reduced. Water consumption should be increased along with proper electrolyte replacement. Regular detoxification approaches mentioned suitable for mild to moderate AFS should be placed on hold. The focus should turn from the intracellular focus with micronutrients delivered by nutritional supplements to the extracellular matrix (ECM). This is also called the body’s ground matter or “goo” that acts as scaffolding for the body’s organs. Toxic metabolites and environmental toxins tend to accumulate in the ECM. A polluted ECM will retard any AFS recovery because vital nutrients trying to reach the cells are blocked. The ECM needs to be cleansed and “drained” of its pollutants. Only after the ECM has been optimized that cellular nutrient delivery be made efficient.
Proper timing therefore is key. Doing the right thing at the wrong time can worsen the condition overall. Any attempts to aggressively support intracellular nutritional when the ECM is polluted may backfire.
Sometimes, even gentle attempts to cleanse the ECM may not be tolerated. The body is simply too weak. A resting time may be required for stabilization. This can go on for days or weeks, depending on the situation. Macronutrition such as soups and food based nutrients should then be considered as the primary tools to support the body in the interim.
Bear in mind that if a liver is healthy, it should be able to sustain normal detoxification processes as if nothing has happened. Use this clinical pearl as a valuable indicator of your liver function. In other words, learn that the more congested the liver, the more negative will be the response.
ECM Cleansing Tools and Techniques
To cleanse the ECM, a different set of tools and techniques are required. These tools need to be gentle enough to remove pollutants from the ECM but not penetrate into the cell. In other words, the desired goal is extracellular and not intracellular detoxification. This can be done with a variety of unusual techniques and tools not commonly considered as part of mainstream or alternative medicine world. They include transdermal application of charcoal or germanium, inhalation of essential oil, oil pulling orally, ingestion of water that has gentle detoxification properties, etc. Usually, by the time these techniques are considered, the body is usually quite weak. Each of these tools also carries side effects. Experience professional supervision is needed.
Only after extracellular cleanse is complete, when adequate nutritional reserves are established once again, regular liver detoxification approaches that focuses on intracellular space can be tried again, often with success at this point. As the liver recovers after both extracellular and intracellular optimization, energy should increase, food sensitivities reduce, and tolerance to medications and nutritional supplements increase.
The liver and the adrenal glands are intimately connected though cortisol, the main anti-stress hormone. Cortisol dysregulation can lead to liver and gallbladder dysfunction. Similarly, severe liver disease is associated with adrenal insufficiency. When the adrenals are overstressed, the liver can become congested over time. The weaker the adrenals become the higher the risk. Liver congestion represents an important roadblock to complete Adrenal Fatigue Syndrome recovery. This is seldom recognized. Without careful consideration to liver function, intracellular function, and extracellular matrix, indiscriminate use of herbs, drugs, detoxification and glandular compounds can worsen liver function and AFS concurrently. They should be placed on hold while a more fundamental approach to optimize the internal milieu takes priority.
If you think that you have liver congestion and suffer from Adrenal Fatigue Syndrome, recovery needs to be personalized. An improper approach to recovery can complicate, deter, or even exacerbate your current state.
© Copyright 2015 Michael Lam, M.D. All Rights Reserved.