Liver Health

    Researchedby:
    Louie Neri, Marina Shkayeva

    Fact-checked

    by:

    Mike Murray, Nick Milazzo
    Last Updated: August 16, 2022

    Liver health refers to the absence of liver disease and reduction of damage to the liver.

    examine-databaseExamine Database

    What does liver health encompass?

    The liver is the largest solid organ in the body, with vital functions that include digesting food, storing energy, and removing toxins and waste from the blood. Liver health encompasses reducing damage to the liver and preventing the development of liver disease.

    What are some tests used to determine liver function and health?

    Do you need to detox?

    How could diet affect liver health?

    Because the liver is a digestive organ, diet plays a major role in its health. A healthy, balanced diet and a healthy body weight are conducive to liver health, and unbalanced, hypercaloric diets (especially ones that increase risk of metabolic syndrome) are not. Fat intake may influence the risk of nonalcoholic fatty liver disease, but fat type and total calorie intake matter.[1] Also, limited evidence has found an association between increased consumption of coffee and nuts and reduced liver disease.[2]

    Can eating too much protein be bad for you?

    Which supplements are of most interest for liver health?

    Supplements of the greatest interest for liver health include antioxidants like vitamin E and glutathione, polyphenols like resveratrol and curcumin, omega-3 fatty acids, and milk thistle.[3][4] There are also a number of dietary supplements that have been associated with liver damage, such as pyrrolizidine alkaloid-containing herbs, kratom, large doses of green tea extract, kava kava, black cohosh, and Garcinia cambogia.[2] The dosages at which these supplements reach hepatotoxic levels are unknown, and therefore, avoiding formulations that contain one or more of these ingredients can help to support liver health.

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    Frequently asked questions

    What does liver health encompass?

    The liver is the largest solid organ in the body, with vital functions that include digesting food, storing energy, and removing toxins and waste from the blood. Liver health encompasses reducing damage to the liver and preventing the development of liver disease.

    What are some tests used to determine liver function and health?

    Liver function tests are blood tests that can help determine the overall health of the liver. These tests look at enzymes, proteins, and waste products made by the liver. A person’s blood is tested for proteins made by the liver such as albumin and prothrombin, enzymes such as alkaline phosphatase (ALP), alanine transaminase (ALT), aspartate aminotransferase (AST), and bilirubin (a waste product).[5] Imaging tests such as ultrasounds, computed tomography CT, and magnetic resonance imaging (MRI) are also done to detect and measure liver scarring.

    Do you need to detox?
    Quick answer:

    Although your body does accumulate toxicants, cleanses (detox diets) aren't supported by toxicological mechanisms or trial evidence, and they can occasionally be dangerous. Your liver, lungs, kidneys, and other organs work nonstop to "detoxify" you; a diet rich in protein, vegetables, and fruits will provide them with the nutrients they need to function optimally.

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    If you’re feeling a bit sluggish or looking to kickstart your journey to better health, you’ve likely come across any number of quick-fix detox or cleansing programs that promise to restore vitality.

    Such programs can claim to cleanse your whole body or specific organs. They commonly consist of a highly restrictive diet, with a possible array of supplements. The Master Cleanse, for example, prescribes 6–12 glasses of lemonade with maple syrup and cayenne pepper as your only sustenance. According to its creator, this program promotes the elimination of every kind of disease and is the most successful healing diet in the world.

    If you’re thinking that “every kind of disease” is conveniently vague, you have a point. In 2009, an investigative report of 15 detox-program manufacturers found that none could provide a clear-cut list of the harmful substances being eliminated, and that no two even defined “detox” the same way.

    Not only are most commercial detox programs ambiguous, almost none have been tested for their safety or efficacy.[6] Even the National Center for Complementary and Integrative Health states that “there isn’t any convincing evidence that detox or cleansing programs actually remove toxins from your body or improve your health”. They also warn that “some of the products and procedures used in detox/cleansing programs may be harmful to your health” — a warning supported by case reports on kidney damage from a green-smoothie cleanse[7] and liver failure from drinking too much “detox tea”.[8]

    Commercial detox programs claim to eliminate harmful substances that accumulate in the body, usually through highly restrictive diet protocols. Those programs, however, are largely untested for their efficacy or safety, and most can’t even agree on a definition for “detox”.

    Does your body need detoxification?

    It definitely can — just not as detox companies sell it.

    The Centers for Disease Control and Prevention’s Agency for Toxic Substances & Disease Registry defines detoxification as “the process of removing a poison or toxin or the effect of either from an area or individual”.

    Medically, you need detoxification when you poison yourself with drugs, such as alcohol.

    Standard medical detoxification involves shoving 25–100 grams of activated charcoal down your throat every couple of hours to prevent the swallowed chemicals from being absorbed from your gut into your bloodstream.[9][10] The charcoal binds the chemicals, allowing you to poop them out.

    But then, can’t you simply take activated charcoal supplements every day “just in case”? No, you can’t, or rather you shouldn’t, because activated charcoal doesn’t differentiate between friends and foes: it will bind vitamins and essential minerals just as readily as it will dangerous chemicals.[11] Moreover, the doses in those pills are well below the 25–100 grams used medically, and activated charcoal can only bind chemicals in your intestinal tract — so not chemicals you’ve already absorbed, and not chemicals in your lungs.

    Medical detoxification is warranted only in case of acute poisoning, and should be performed only under medical supervision.

    Do you accumulate toxins?

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    The short answer is yes: your body, like that of any animal, can accumulate toxicants (poisons), including toxins (poisons produced by a living organism). This process is called bioaccumulation. Mercury, for instance, is known to accumulate in predator fish and in people who eat those fish,[12] and even our beloved protein powders may not be entirely safe,[13] according notably to Consumer Reports and the Clean Label Project.

    Of particular concern are environmental persistent organic pollutants (POPs), a type of toxicant that accumulates in body fat.[14] In the short term, your fat can protect the rest of your body from acute harmful effects such as metabolic and hormonal disruption.[15] Over time, however, your fat releases POPs back into your system, causing low-level chronic exposure that has been associated with metabolic diseases.[14][15]

    Your body can accumulate toxins and other toxicants, notably heavy metals, such as mercury, and liposoluble chemicals, such as persistent organic pollutants (POPs).

    A side note on POPs and dieting

    Few studies on obesity and fat loss consider the role of POPs,[16] yet POPs might help explain why weight loss doesn’t improve everyone’s health equally — in some people, the increased toxic load from POPs offsets the benefits of carrying around less fat.[16] More precisely, an inefficient excretion of the POPs released when dieting may reduce health improvements, as well as increase the risk of weight regain.[17]

    Whether POP redistribution results in adverse effects in humans remains to be studied, but some data is suggestive. For example, in people whose weight loss was induced by gastric bypass surgery, higher levels of POPs in the blood was associated with lesser health improvements from weight loss.[18] Weight loss induced by regular dieting also leads to an accelerated release of POPs from fat cells into circulation, with the increase in serum POPs being proportional to the weight loss.[19]

    Fat loss appears to accelerate the release of POPs from fat cells into circulation, and more POPs in the blood correlates with less improvement in health biomarkers. However, there is still little research on the role of POPs in obesity and weight-loss interventions.

    Detoxing done right

    Your body has a built-in detoxification system: your lungs and other organs work around the clock to remove harmful substances. Your liver, for instance, transforms noxious chemicals into benign substances that are excreted in the urine (via the kidneys) or feces (via the gallbladder).[20]

    There are three ways a realistic detoxification program could work:

    1. By decreasing your exposure to known toxicants

    It is wise to reduce your exposure to airborne pollutants such as smoke, smog, and chemical fumes. You don’t always get to choose where you live (e.g., rural areas tend to have less air pollution than urban areas[21]), but you can at least reduce pollution accumulation in your home through proper air conditioning and ventilation.[22] You can also, if you live in a smoggy area, wear a face mask — how much it’ll filter will depend on its design, including how well it fits on your face.[23][24]

    Pesticide residues in food are a valid concern too, though it should be noted that the Pesticide Data Program (PDP) of the United States Department of Agriculture (USDA) has consistently found that the vast majority of the food on the market contain either no detectable residues or residues below the tolerable limits set by the Environmental Protection Agency (EPA).

    While the USDA does not currently test for residues of pesticides commonly used on organic foods, it does test for residues of pesticides not approved and some approved for limited application. Unsurprisingly, organic produce (notably fruit) less often have synthetic pesticide residue than conventional produce do.[25] Trials in adults and children have shown that switching from conventional to organic produce can reduce biomarkers of organophosphate-class pesticides, which are used in conventional agriculture and may be harmful, in as little as a week.[26][27] Fortunately, in the US, this class of pesticide has consistently dropped from use in favor of less acutely toxic ones since 2000.

    When found, pesticide residues were similarly low in organic and conventional produce, but there is some evidence that even very low doses of pesticides might still elicit physiological effects.[28] These effects, be they beneficial, neutral, or harmful, and be they from organic or conventional pesticides, are not well studied. So, what is a consumer to do? The practical solution is quite simple: rinsing, peeling when possible, and cooking can reduce the amount of pesticide left on your produce, whether this produce is organic or not.[29][30]

    (Alas, organic products are not unilaterally safer than conventional ones: a 2018 test of protein powders revealed that organic ones had about half the amount of BPA (an industrial chemical) but twice the amount of heavy metals.)

    2. By improving your liver’s ability to metabolize toxicants

    Current evidence suggests that some compounds in plant foods can upregulate your liver’s detoxification process and antioxidant activity.[31][32] One such compound is the sulforaphane in broccoli and other cruciferous vegetables, as was shown in humans[33] as well as in rats.[34]

    Of the many supplements marketed for liver health, four are supported by strong evidence from human studies: milk thistle, NAC, SAMe, and TUDCA.

    3. By enhancing your body’s ability to excrete toxicants

    Fiber, especially soluble and/or fermentable, can enhance detoxification both directly and indirectly. Directly, by binding bile and its associated toxins, thus facilitating their excretion. Indirectly, by feeding the bacteria in your digestive tract, some of which create short-chain fatty acids and other metabolites that act on the liver and kidneys to increase their ability to excrete toxicants.[35][36]

    Sweating may help excrete heavy metals,[37] but sauna studies are scarce and rely mostly on subjective assessments, such as questionnaires about quality of life, rather than on objective measures of toxicant burden or excretion.[38]

    As for the notion that a juice-only cleanse can shift your guts away from digestion and toward the excretion of toxicants — it is one of those catchy ideas that lack scientific backing. If you want your organs to do their best, including to rid you of toxicants, then you should not deprive them from the nutrients they need to function. That means that, rather than the occasional cleanse, what you need is a daily diet rich in varied fruits and vegetables.

    Toxicants, notably heavy metals and liposoluble chemicals, can accumulate in your body. Avoid them whenever possible. You can support your inborn detoxification system by eating a diet rich in fruits and vegetables (preferably organic ones, which have less known harmful pesticide residue) and possibly by sweating. Some supplements, such as NAC, can also help.

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    Do commercial detoxes work?

    A 2011 survey reported that 92% of naturopaths prescribed detoxification therapies, commonly as treatments for environmental exposure to toxicants. Said therapies consisted mainly in eating more “cleansing foods,” such as Brassica vegetables; eating more fruits and vegetables in general; opting for organic foods; supplementing with vitamins, minerals, and fibers; and minimizing environmental exposure to toxicants. More questionable treatments, such as homeopathy, were less common.[39]

    But what about commercial detox programs, or “cleanses”? Studies on those are scarce and, according to a review from 2015, not very convincing, as they suffer from small sample sizes, sampling bias, lack of control groups, reliance on self-report, and qualitative assessments rather than quantitative measurements.[6] A more recent study shared these limitations: with no control group, it showed that following a detox program centered around eating a whole-food diet improved self-reported health.[40]

    The one randomized controlled trial (RCT) we could locate separated middle-aged women into three groups: Master Cleanse (MC), placebo, and control. The control group kept eating as usual, whereas the MC and placebo groups ate only 400 Calories per day. As a result, both the MC and placebo groups lost weight and showed related health improvements, with no difference between groups.[41] In short, the “magic” was found to be in the caloric restriction only, not in the combination of lemon juice and Neera syrup (a blend of maple and palm-tree syrups designed to have high amounts of minerals and trace elements).

    Finally, the one RCT on a commercial detox supplement without caloric restriction reported that this supplement didn’t have much of an effect on anything.[42]

    What little evidence there is on “cleanses” (commercial detox diets) is fraught with methodological problems. Cleanses’ short-term benefits (weight loss and related health improvements) seem to be mostly attributable to caloric restriction and placebo effects, not to special detoxification effects.

    Explaining why it feels like detoxes work

    image

    Why do fad cleanses spread through word of mouth so quickly? The answer is threefold: rapid weight loss, removal of problematic foods, and the placebo effect. This could be great … if weight loss always meant fat loss.

    If you slash your caloric intake, you probably slash your carbohydrate intake, and if you slash your carbohydrate intake, you don’t replenish your glycogen stores. Not only do you lose your stored glycogen, but you lose the associated water. To store 1 gram of glycogen, you need about 3 grams of water.[43][44] The average man carries 341–593 grams of glycogen in his liver and muscles, so about 1,364–2,372 grams (3–5 pounds) of glycogen+water.

    Therefore, by depleting your glycogen stores, you can lose several pounds in a couple of days.[45] And of course, less food consumed also means less food (and its associated weight) moving through your intestines.

    The result? Spectacular weight loss — in the short term. But cleanses are short term, so people never get to see them fail. All they see is the spectacular weight loss; they feel better because of it, and they attribute both their weight loss and perceived better health to their cleanse. And they still do when they resume eating normally and most of the weight they lost (all the weight from glycogen+water and food-in-transit) comes rushing back.

    The short-term weight loss from a cleanse can be spectacular, but most of what is lost is glycogen and water, which come rushing back when normal eating habits are resumed.

    So when people feel better from a cleanse, is it just a placebo effect? Not always. People who undergo a cleanse might also feel better because they stop consuming foods that don’t agree with them. In other words, cleanses work as de facto elimination diets.

    An elimination diet is a diet that removes a food or category of foods that you suspect might negatively affect your health. Some people, for instance, will stop consuming milk (or all dairy products) to see if, after a few weeks, they feel better. Sometimes, people remove many foods at once; then, after a few weeks, if they feel better, they start adding the foods back, one by one, to determine which ones are problematic.

    Bottom line

    image

    Toxicants, notably heavy metals and liposoluble chemicals, can accumulate in your body. Avoid them whenever possible. A diet rich in protein, vegetables, and fruits will provide your organs with the nutrients they need to function optimally, and some supplements may support your liver specifically. Sweating may also help you excrete heavy metals.

    As sold to the public, cleanses (detox diets) do not work. Most of their benefits — notably a rapid, but mostly short-term, weight loss — can be attributed to the drastic caloric restriction, not to detoxification. A cleanse might also help by removing foods that don’t agree with you (they work as a de facto elimination diets).

    In case of acute poisoning by a toxicant, go to the hospital.

    While “detox diets” are better avoided, some supplements can support liver health. Check out our Liver Health Supplement Guide to learn which supplements are backed by the evidence and which are dangerous or simply a waste of money. You’ll also find practical, specific information on dosages, combinations, etc.

    How could diet affect liver health?

    Because the liver is a digestive organ, diet plays a major role in its health. A healthy, balanced diet and a healthy body weight are conducive to liver health, and unbalanced, hypercaloric diets (especially ones that increase risk of metabolic syndrome) are not. Fat intake may influence the risk of nonalcoholic fatty liver disease, but fat type and total calorie intake matter.[1] Also, limited evidence has found an association between increased consumption of coffee and nuts and reduced liver disease.[2]

    Can eating too much protein be bad for you?
    Quick answer:

    Higher-protein diets augment muscle hypertrophy when combined with resistance training,[46] boost weight loss and mitigate reductions in fat-free mass while dieting,[47] help maintain muscle mass and function with aging,[48] and can improve glycemic control in people with type 2 diabetes.[49][50][51] But must all good things come with downsides? Over the years, some have cautioned that despite its numerous potential benefits, consuming a high-protein diet may also come with long-term health risks, while others have proclaimed that a high-protein diet is outright bad for you. The two most notable criticisms are that a high-protein diet negatively affects bone health and kidney health.

    Bone health

    The acid-ash hypothesis states the following: The metabolism of certain foods — namely protein and grains — increases acid production in the body, as evidenced by an increase in urinary acidity.[52] To counteract this increase in acidity, bone is broken down to release calcium bicarbonate (a base) corresponding with an increase in urinary calcium excretion, which is thought to reflect negative body calcium balance or bone loss. Therefore, a high-protein or acid-producing diet accelerates bone loss and increases the risk of osteoporosis.

    However, changes in urine pH don’t necessarily reflect changes in blood pH, which is maintained within a narrow range primarily by the renal and pulmonary systems in healthy people.[53] Additionally, variations in diet have virtually no effect on blood pH, as any nutritional influence that slightly disrupts acid-base balance is immediately corrected by biochemical buffering systems that do not involve bone.[53]

    While an increase in urinary acidity has been correlated with an increase in urinary calcium excretion, dietary changes that increase urinary acidity do not lower body calcium balance.[54] Relatedly, a higher-protein diet does not negatively affect dietary calcium retention because although it increases urinary calcium excretion, it increases intestinal calcium absorption by a similar magnitude.[55][56]

    Ultimately, the available evidence does not support the acid-ash hypothesis,[57] and in accordance, higher-protein diets do not have a negative effect on bone health.

    Meta-analyses of prospective cohort studies have reported that a higher-protein diet was either not associated with the risk of hip fracture,[58] or, compared to the group with the lowest protein intake, there was an 11%–16% lower risk of hip fracture in the group with the highest protein intake.[59][60][61]

    With respect to bone mineral density (BMD), a meta-analysis of randomized controlled trials 12–24 months long reported that a higher-protein diet had a protective effect on lumbar spine BMD.[62] A higher-protein diet also tended to have a protective effect on total hip BMD, although this finding was not statistically significant. The data from prospective cohort studies is mixed on whether higher-protein diets have a protective effect on BMD (some studies suggest a benefit with more protein, while others have reported no impact), but there is a lack of evidence indicating that higher-protein diets are associated with lower BMD.[60][62]

    Concerning protein intakes significantly greater than the Recommended Dietary Allowance (RDA), there are a couple of long-term prospective cohort studies in older adults that shed light on the topic. In one four-year study that included older men and women (average age of 75), the quartile with the highest protein intake (1.24–2.78 grams of protein per kg of body weight per day) showed the least BMD loss at the femur and lumbar spine.[63] Compared to the quartile with the highest protein intake, the quartiles with the lowest (0.21–0.71 g/kg/day) and second-lowest (0.72–0.96 g/kg/day) protein intakes experienced a significant reduction in femoral neck BMD.

    In a separate five-year cohort study that only included older women (average age of 75), a higher protein intake was associated with greater whole-body bone mineral content, and the tertile with the highest protein intake (about 1.6 g/kg/d) had significantly higher whole-body and appendicular bone mineral content than the tertiles with lower intakes.[64]

    Kidney health

    The idea that a high-protein diet puts undue stress on the kidneys stems from early research in rodents and dogs that reported increased urea excretion, renal blood flow, glomerular filtration rate (GFR; a marker of kidney function), and kidney size in animals fed a high-protein diet.[65] From this data, it was determined that a high-protein diet increases the workload of the kidneys, and thus may damage the kidneys over time and increase the risk of chronic kidney disease (CKD).

    A 2018 meta-analysis of randomized controlled trials that compared the effects of a high-protein diet (1.8 grams of protein per kilogram of body weight per day, on average) to a low-protein diet (0.93 g/kg/d) in healthy adults reported that higher protein intakes may slightly increase GFR.[66] Other data indicates that a high-protein diet does not adversely affect blood markers of kidney function or blood pressure.[67][68]

    Given these findings, a high-protein diet does not appear to pose a serious threat to kidney health. In further support of this conclusion, the issue at hand can be viewed through a different lens altogether; that is, is an increase in GFR a risk factor for CKD in healthy people? Such a relationship has yet to be clearly established.[66]

    In fact, an increase in GFR in response to an increase in solute load (e.g., nitrogen from protein) is a normal adaptive mechanism.[69] For example, GFR can increase by as much as 65% during pregnancy[70] but does not increase the risk of CKD.[71] Also, surgical removal of a kidney is not associated with a deterioration in kidney function in the long term (> 20 years), despite the increase in workload.[72][73][74]

    While a low-protein diet is recommended for people with CKD to help prevent disease progression,[75] this does not mean that a high-protein diet is harmful in all cases. The available evidence suggests that, in healthy people, a high-protein diet does not adversely affect kidney function or increase the risk of CKD.

    Which supplements are of most interest for liver health?

    Supplements of the greatest interest for liver health include antioxidants like vitamin E and glutathione, polyphenols like resveratrol and curcumin, omega-3 fatty acids, and milk thistle.[3][4] There are also a number of dietary supplements that have been associated with liver damage, such as pyrrolizidine alkaloid-containing herbs, kratom, large doses of green tea extract, kava kava, black cohosh, and Garcinia cambogia.[2] The dosages at which these supplements reach hepatotoxic levels are unknown, and therefore, avoiding formulations that contain one or more of these ingredients can help to support liver health.

    References

    1. ^Sharma A, Nagalli SChronic Liver DiseaseStatPearls.(2022-07)
    2. ^Peng X, Li J, Zhao H, Lai J, Lin J, Tang SLifestyle as well as metabolic syndrome and non-alcoholic fatty liver disease: an umbrella review of evidence from observational studies and randomized controlled trials.BMC Endocr Disord.(2022-Apr-10)
    3. ^Salomone F, Godos J, Zelber-Sagi SNatural antioxidants for non-alcoholic fatty liver disease: molecular targets and clinical perspectives.Liver Int.(2016-Jan)
    4. ^Salvoza N, Giraudi PJ, Tiribelli C, Rosso NNatural Compounds for Counteracting Nonalcoholic Fatty Liver Disease (NAFLD): Advantages and Limitations of the Suggested Candidates.Int J Mol Sci.(2022-Mar-02)
    5. ^The content of this page was partially adapted from MedlinePlus of the National Library of Medicine
    6. ^Klein AV, Kiat HDetox diets for toxin elimination and weight management: a critical review of the evidenceJ Hum Nutr Diet.(2015 Dec)
    7. ^Makkapati S, D'Agati VD, Balsam L"Green Smoothie Cleanse" Causing Acute Oxalate NephropathyAm J Kidney Dis.(2017 Dec 1)
    8. ^Kesavarapu K, Kang M, Shin JJ, Rothstein KYogi Detox Tea: A Potential Cause of Acute Liver FailureCase Rep Gastrointest Med.(2017)
    9. ^Park GD, Spector R, Goldberg MJ, Johnson GFExpanded role of charcoal therapy in the poisoned and overdosed patientArch Intern Med.(1986 May)
    10. ^Neuvonen PJClinical pharmacokinetics of oral activated charcoal in acute intoxicationsClin Pharmacokinet.(1982 Nov-Dec)
    11. ^Kadakal C, Poyrazoglu ES, Artik N, Nas SEffect of activated charcoal on water-soluble vitamin content of apple juiceJournal of Food Quality.(2007)
    12. ^Yaginuma-Sakurai K, Murata K, Iwai-Shimada M, Nakai K, Kurokawa N, Tatsuta N, Satoh HHair-to-blood ratio and biological half-life of mercury: experimental study of methylmercury exposure through fish consumption in humansJ Toxicol Sci.(2012 Feb)
    13. ^Kracker M, Bernhard Z, Vanata D, Weidenhamer JThe cadmium content of protein drinks and nutritional powdersJournal of the Academy of Nutrition and Dietetics.(2016)
    14. ^Jackson E, Shoemaker R, Larian N, Cassis LAdipose Tissue as a Site of Toxin AccumulationCompr Physiol.(2017 Sep 12)
    15. ^La Merrill M, Emond C, Kim MJ, Antignac JP, Le Bizec B, Clément K, Birnbaum LS, Barouki RToxicological function of adipose tissue: focus on persistent organic pollutantsEnviron Health Perspect.(2013 Feb)
    16. ^Lee YM, Kim KS, Jacobs DR Jr, Lee DHPersistent organic pollutants in adipose tissue should be considered in obesity researchObes Rev.(2017 Feb)
    17. ^Cheikh Rouhou M, Karelis AD, St-Pierre DH, Lamontagne LAdverse effects of weight loss: Are persistent organic pollutants a potential culprit?Diabetes Metab.(2016 Sep)
    18. ^Kim MJ, Marchand P, Henegar C, Antignac JP, Alili R, Poitou C, Bouillot JL, Basdevant A, Le Bizec B, Barouki R, Clément KFate and complex pathogenic effects of dioxins and polychlorinated biphenyls in obese subjects before and after drastic weight lossEnviron Health Perspect.(2011 Mar)
    19. ^Hue O, Marcotte J, Berrigan F, Simoneau M, Doré J, Marceau P, Marceau S, Tremblay A, Teasdale NIncreased plasma levels of toxic pollutants accompanying weight loss induced by hypocaloric diet or by bariatric surgeryObes Surg.(2006 Sep)
    20. ^Grant DMDetoxification pathways in the liverJ Inherit Metab Dis.(1991)
    21. ^Strosnider H, Kennedy C, Monti M, Yip FRural and Urban Differences in Air Quality, 2008-2012, and Community Drinking Water Quality, 2010-2015 - United StatesMMWR Surveill Summ.(2017 Jun 23)
    22. ^McNall RE JrPractical methods of reducing airborne contaminants in interior spacesArch Environ Health.(1975 Nov)
    23. ^Pacitto A, Amato F, Salmatonidis A, Moreno T, Alastuey A, Reche C, Buonanno G, Benito C, Querol XEffectiveness of commercial face masks to reduce personal PM exposureSci Total Environ.(2019 Feb 10)
    24. ^Cherrie JW, Apsley A, Cowie H, Steinle S, Mueller W, Lin C, Horwell CJ, Sleeuwenhoek A, Loh MEffectiveness of face masks used to protect Beijing residents against particulate air pollutionOccup Environ Med.(2018 Jun)
    25. ^Barański M, Srednicka-Tober D, Volakakis N, Seal C, Sanderson R, Stewart GB, Benbrook C, Biavati B, Markellou E, Giotis C, Gromadzka-Ostrowska J, Rembiałkowska E, Skwarło-Sońta K, Tahvonen R, Janovská D, Niggli U, Nicot P, Leifert CHigher antioxidant and lower cadmium concentrations and lower incidence of pesticide residues in organically grown crops: a systematic literature review and meta-analysesBr J Nutr.(2014 Sep 14)
    26. ^Lu C, Toepel K, Irish R, Fenske RA, Barr DB, Bravo ROrganic diets significantly lower children's dietary exposure to organophosphorus pesticidesEnviron Health Perspect.(2006 Feb)
    27. ^Oates L, Cohen M, Braun L, Schembri A, Taskova RReduction in urinary organophosphate pesticide metabolites in adults after a week-long organic dietEnviron Res.(2014 Jul)
    28. ^Vandenberg LN, Colborn T, Hayes TB, Heindel JJ, Jacobs DR Jr, Lee DH, Shioda T, Soto AM, vom Saal FS, Welshons WV, Zoeller RT, Myers JPHormones and endocrine-disrupting chemicals: low-dose effects and nonmonotonic dose responsesEndocr Rev.(2012 Jun)
    29. ^Keikotlhaile BM, Spanoghe P, Steurbaut WEffects of food processing on pesticide residues in fruits and vegetables: a meta-analysis approachFood Chem Toxicol.(2010 Jan)
    30. ^Liang Y, Liu Y, Ding Y, Liu XJMeta-analysis of food processing on pesticide residues in fruitsFood Addit Contam Part A Chem Anal Control Expo Risk Assess.(2014)
    31. ^Hodges RE, Minich DMModulation of Metabolic Detoxification Pathways Using Foods and Food-Derived Components: A Scientific Review with Clinical ApplicationJ Nutr Metab.(2015)
    32. ^Ferramosca A, Di Giacomo M, Zara VAntioxidant dietary approach in treatment of fatty liver: New insights and updatesWorld J Gastroenterol.(2017 Jun 21)
    33. ^Kikuchi M, Ushida Y, Shiozawa H, Umeda R, Tsuruya K, Aoki Y, Suganuma H, Nishizaki YSulforaphane-rich broccoli sprout extract improves hepatic abnormalities in male subjectsWorld J Gastroenterol.(2015 Nov 21)
    34. ^Yoshida K, Ushida Y, Ishijima T, Suganuma H, Inakuma T, Yajima N, Abe K, Nakai YBroccoli sprout extract induces detoxification-related gene expression and attenuates acute liver injuryWorld J Gastroenterol.(2015 Sep 21)
    35. ^Yu J, Marsh S, Hu J, Feng W, Wu CThe Pathogenesis of Nonalcoholic Fatty Liver Disease: Interplay between Diet, Gut Microbiota, and Genetic BackgroundGastroenterol Res Pract.(2016)
    36. ^den Besten G, van Eunen K, Groen AK, Venema K, Reijngoud DJ, Bakker BMThe role of short-chain fatty acids in the interplay between diet, gut microbiota, and host energy metabolismJ Lipid Res.(2013 Sep)
    37. ^Sears ME, Kerr KJ, Bray RIArsenic, cadmium, lead, and mercury in sweat: a systematic reviewJ Environ Public Health.(2012)
    38. ^Hussain J, Cohen MClinical Effects of Regular Dry Sauna Bathing: A Systematic ReviewEvid Based Complement Alternat Med.(2018 Apr 24)
    39. ^Allen J, Montalto M, Lovejoy J, Weber WDetoxification in naturopathic medicine: a surveyJ Altern Complement Med.(2011 Dec)
    40. ^Kim JA, Kim JY, Kang SWEffects of the Dietary Detoxification Program on Serum γ-glutamyltransferase, Anthropometric Data and Metabolic Biomarkers in AdultsJ Lifestyle Med.(2016 Sep)
    41. ^Kim MJ, Hwang JH, Ko HJ, Na HB, Kim JHLemon detox diet reduced body fat, insulin resistance, and serum hs-CRP level without hematological changes in overweight Korean womenNutr Res.(2015 May)
    42. ^Tinsley G, Urbina S, Santos E, Villa K, Foster C, Wilborn C, Taylor LA Purported Detoxification Supplement Does Not Improve Body Composition, Waist Circumference, Blood Markers, or Gastrointestinal Symptoms in Healthy Adult FemalesJ Diet Suppl.(2018 Jun 29)
    43. ^Nilsson LHLiver glycogen content in man in the postabsorptive stateScand J Clin Lab Invest.(1973 Dec)
    44. ^Fernández-Elías VE, Ortega JF, Nelson RK, Mora-Rodriguez RRelationship between muscle water and glycogen recovery after prolonged exercise in the heat in humansEur J Appl Physiol.(2015 Sep)
    45. ^Kreitzman SN, Coxon AY, Szaz KFGlycogen storage: illusions of easy weight loss, excessive weight regain, and distortions in estimates of body compositionAm J Clin Nutr.(1992 Jul)
    46. ^Morton RW, Murphy KT, McKellar SR, Schoenfeld BJ, Henselmans M, Helms E, Aragon AA, Devries MC, Banfield L, Krieger JW, Phillips SMA systematic review, meta-analysis and meta-regression of the effect of protein supplementation on resistance training-induced gains in muscle mass and strength in healthy adultsBr J Sports Med.(2018 Mar)
    47. ^Wycherley TP, Moran LJ, Clifton PM, Noakes M, Brinkworth GDEffects of energy-restricted high-protein, low-fat compared with standard-protein, low-fat diets: a meta-analysis of randomized controlled trialsAm J Clin Nutr.(2012 Dec)
    48. ^Bauer J, Biolo G, Cederholm T, Cesari M, Cruz-Jentoft AJ, Morley JE, Phillips S, Sieber C, Stehle P, Teta D, Visvanathan R, Volpi E, Boirie YEvidence-based recommendations for optimal dietary protein intake in older people: a position paper from the PROT-AGE Study GroupJ Am Med Dir Assoc.(2013 Aug)
    49. ^Silva Ton WT, das Graças de Almeida C, de Morais Cardoso L, Marvila Girondoli Y, Feliciano Pereira P, Viana Gomes Schitini JK, Galvão Cândido F, Marques Arbex P, de Cássia Gonçalves Alfenas REffect of different protein types on second meal postprandial glycaemia in normal weight and normoglycemic subjects.Nutr Hosp.(2014-Mar-01)
    50. ^Mary C Gannon, Frank Q Nuttall, Asad Saeed, Kelly Jordan, Heidi HooverAn increase in dietary protein improves the blood glucose response in persons with type 2 diabetesAm J Clin Nutr.(2003 Oct)
    51. ^Mads J Skytte, Amirsalar Samkani, Amy D Petersen, Mads N Thomsen, Arne Astrup, Elizaveta Chabanova, Jan Frystyk, Jens J Holst, Henrik S Thomsen, Sten Madsbad, Thomas M Larsen, Steen B Haugaard, Thure KrarupA carbohydrate-reduced high-protein diet improves HbA 1c and liver fat content in weight stable participants with type 2 diabetes: a randomised controlled trialDiabetologia.(2019 Nov)
    52. ^Buclin T, Cosma M, Appenzeller M, Jacquet AF, Décosterd LA, Biollaz J, Burckhardt PDiet acids and alkalis influence calcium retention in boneOsteoporos Int.(2001)
    53. ^Bonjour JPNutritional disturbance in acid-base balance and osteoporosis: a hypothesis that disregards the essential homeostatic role of the kidney.Br J Nutr.(2013-Oct)
    54. ^Fenton TR, Lyon AW, Eliasziw M, Tough SC, Hanley DAMeta-analysis of the effect of the acid-ash hypothesis of osteoporosis on calcium balanceJ Bone Miner Res.(2009 Nov)
    55. ^Hunt JR, Johnson LK, Fariba Roughead ZKDietary protein and calcium interact to influence calcium retention: a controlled feeding studyAm J Clin Nutr.(2009 May)
    56. ^Kerstetter JE, O'Brien KO, Caseria DM, Wall DE, Insogna KLThe impact of dietary protein on calcium absorption and kinetic measures of bone turnover in womenJ Clin Endocrinol Metab.(2005 Jan)
    57. ^Fenton TR, Tough SC, Lyon AW, Eliasziw M, Hanley DACausal assessment of dietary acid load and bone disease: a systematic review & meta-analysis applying Hill's epidemiologic criteria for causalityNutr J.(2011 Apr 30)
    58. ^Darling AL, Millward DJ, Torgerson DJ, Hewitt CE, Lanham-New SADietary protein and bone health: a systematic review and meta-analysis.Am J Clin Nutr.(2009-Dec)
    59. ^Wu AM, Sun XL, Lv QB, Zhou Y, Xia DD, Xu HZ, Huang QS, Chi YLThe relationship between dietary protein consumption and risk of fracture: a subgroup and dose-response meta-analysis of prospective cohort studies.Sci Rep.(2015-Mar-16)
    60. ^Taylor C Wallace, Cara L FrankenfeldDietary Protein Intake above the Current RDA and Bone Health: A Systematic Review and Meta-AnalysisJ Am Coll Nutr.(2017 Aug)
    61. ^Inge Groenendijk, Laura den Boeft, Luc J C van Loon, Lisette C P G M de GrootHigh Versus low Dietary Protein Intake and Bone Health in Older Adults: a Systematic Review and Meta-AnalysisComput Struct Biotechnol J.(2019 Jul 22)
    62. ^Shams-White MM, Chung M, Du M, Fu Z, Insogna KL, Karlsen MC, LeBoff MS, Shapses SA, Sackey J, Wallace TC, Weaver CMDietary protein and bone health: a systematic review and meta-analysis from the National Osteoporosis FoundationAm J Clin Nutr.(2017 Jun)
    63. ^Hannan MT, Tucker KL, Dawson-Hughes B, Cupples LA, Felson DT, Kiel DPEffect of dietary protein on bone loss in elderly men and women: the Framingham Osteoporosis Study.J Bone Miner Res.(2000-Dec)
    64. ^Xingqiong Meng, Kun Zhu, Amanda Devine, Deborah A Kerr, Colin W Binns, Richard L PrinceA 5-year cohort study of the effects of high protein intake on lean mass and BMC in elderly postmenopausal womenJ Bone Miner Res.(2009 Nov)
    65. ^Brenner BM, Meyer TW, Hostetter THDietary protein intake and the progressive nature of kidney disease: the role of hemodynamically mediated glomerular injury in the pathogenesis of progressive glomerular sclerosis in aging, renal ablation, and intrinsic renal diseaseN Engl J Med.(1982 Sep 9)
    66. ^Devries MC, Sithamparapillai A, Brimble KS, Banfield L, Morton RW, Phillips SMChanges in Kidney Function Do Not Differ between Healthy Adults Consuming Higher- Compared with Lower- or Normal-Protein Diets: A Systematic Review and Meta-AnalysisJ Nutr.(2018 Nov 1)
    67. ^Mary E Van Elswyk, Charli A Weatherford, Shalene H McNeillA Systematic Review of Renal Health in Healthy Individuals Associated with Protein Intake above the US Recommended Daily Allowance in Randomized Controlled Trials and Observational StudiesAdv Nutr.(2018 Jul 1)
    68. ^Rebholz CM, Friedman EE, Powers LJ, Arroyave WD, He J, Kelly TNDietary protein intake and blood pressure: a meta-analysis of randomized controlled trialsAm J Epidemiol.(2012 Oct 1)
    69. ^Martin WF, Armstrong LE, Rodriguez NRDietary protein intake and renal function.Nutr Metab (Lond).(2005-Sep-20)
    70. ^Conrad KPMechanisms of renal vasodilation and hyperfiltration during pregnancy.J Soc Gynecol Investig.(2004-Oct)
    71. ^Cortinovis M, Perico N, Ruggenenti P, Remuzzi A, Remuzzi GGlomerular hyperfiltration.Nat Rev Nephrol.(2022-07)
    72. ^Regazzoni BM, Genton N, Pelet J, Drukker A, Guignard JPLong-term followup of renal functional reserve capacity after unilateral nephrectomy in childhood.J Urol.(1998-Sep)
    73. ^Higashihara E, Horie S, Takeuchi T, Nutahara K, Aso YLong-term consequence of nephrectomy.J Urol.(1990-Feb)
    74. ^Goldfarb DA, Matin SF, Braun WE, Schreiber MJ, Mastroianni B, Papajcik D, Rolin HA, Flechner S, Goormastic M, Novick ACRenal outcome 25 years after donor nephrectomy.J Urol.(2001-Dec)
    75. ^Ikizler TA, Burrowes JD, Byham-Gray LD, Campbell KL, Carrero JJ, Chan W, Fouque D, Friedman AN, Ghaddar S, Goldstein-Fuchs DJ, Kaysen GA, Kopple JD, Teta D, Yee-Moon Wang A, Cuppari LKDOQI Clinical Practice Guideline for Nutrition in CKD: 2020 Update.Am J Kidney Dis.(2020-09)