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health:gallstones [2021/04/06 21:37] wikiadminhealth:gallstones [2025/03/20 20:32] (current) wikiadmin
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 +[[https://www.healthgrades.com/right-care/gallbladder-removal-surgery/9-foods-to-avoid-when-you-have-gallstones| 9 Foods to Avoid When You Have Gallstones ]]
 +
 +[[https://www.medicalnewstoday.com/articles/321026|What are the natural ways to get rid of gallstones?]]
 +
 +[[https://www.healthline.com/health/gallbladder-cleanse| What is a gallbladder cleanse?]]
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 +[[https://en.wikipedia.org/wiki/Hypertriglyceridemia|Hypertriglyceridemia]]
 +
 +[[https://aasldpubs.onlinelibrary.wiley.com/doi/pdf/10.1002/hep.1840070520|A Population Study on the Prevalence of Gallstone Disease: The Sirmione Study]]
 +
 +[[https://www.healthline.com/health/food-nutrition/diet-for-jaundice|Diet for Jaundice: What Should I Add or Remove?]]
 +
 +[[https://www.mydr.com.au/gastrointestinal-health/gilbert-syndrome/|Gilbert syndrome]]
 +
 +[[https://www.healthline.com/health/bilirubin-urine#results|Bilirubin Urine Test]]
 +
 +[[https://www.healthline.com/health/gallbladder-removal-side-effects|Life After Gallbladder Removal Surgery: Side Effects and Complications]]
 +
 +
 +[[https://en.wikipedia.org/wiki/Primary_biliary_cholangitis|Primary biliary cholangitis]]
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 +[[https://www.sciencedirect.com/science/article/abs/pii/0016508580908707|Efficacy and indications of ursodeoxycholic acid treatment for dissolving gallstones: A multicenter double-blind trial]]
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 +[[https://agp.com.pk/agp_product/ursodeoxycholic-acid/|Ursodeoxycholic acid AGP]]
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 +
 +[[http://www.druginfosys.com/availablebrands.aspx?query=250%20mg&form=Caps&drugCode=747&drugName=Ursodeoxycholic%20Acid&Ing==1|Ursodeoxycholic Acid brands in Pakistan]]
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 +[[https://www.webmd.com/drugs/2/drug-3766-143/omeprazole-oral/omeprazole-delayed-release-capsule-oral/details| Omeprazole Capsule,Delayed Release (Enteric Coated) ]]
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 +
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 +[[https://www.journal-of-hepatology.eu/article/S0168-8278(01)00092-7/abstract|Ursodeoxycholic acid ‘mechanisms of action and clinical use in hepatobiliary disorders’]]
 +
 +[[https://www.sciencedirect.com/science/article/abs/pii/0016508589907841|Efficacy and safety of a combination of chenodeoxycholic acid and ursodeoxycholic acid for gallstone dissolution: A comparison with ursodeoxycholic acid alone]]
 +
 +[[http://www.druginfosys.com/drug.aspx?drugCode=155&type=1#| Chenodeoxycholic Acid ]]
 +
 +
 +[[https://agp.com.pk/agp_product/ursodeoxycholic-acid/|Ursodeoxycholic acid]]
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 +[[https://pubmed.ncbi.nlm.nih.gov/29084699/| Bile acids and bile alcohols from Muraenesox bagio, Pomadasys argenteus and Lobeo rohita ]]
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 +[[http://www.druginfosys.com/availablebrands.aspx?query=250%20mg&form=Caps&drugCode=747&drugName=Ursodeoxycholic%20Acid&Ing==1|Ursodeoxycholic Acid brands in Pakistan]]
 +
 +[[https://starhomeopathy.com/gallbladder-stones.php|Gallbladder Stones]]
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 +[[https://www.ijrh.org/article.asp?issn=0974-7168;year=2020;volume=14;issue=1;spage=57;epage=63;aulast=Sahoo|Chronic Cholelithiasis treated with Homoeopathic medicine in 50th millesimal potency: A case report]]
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 +[[https://www.sdrugs.com/?c=drug&s=chenofalk|Chenofalk]]
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 +[[https://www.pharmacompass.com/active-pharmaceutical-ingredients/chenofalk|chenofalk]]
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 +[[https://encyclopedia2.thefreedictionary.com/Chenofalk| chenodeoxycholic acid (redirected from Chenofalk)]]
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 +[[https://pubchem.ncbi.nlm.nih.gov/compound/Chenodeoxycholic-acid|Chenodeoxycholic acid]]
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 +[[https://www.nejm.org/doi/pdf/10.1056/NEJM198501243120406|Rapid Dissolution of Gallstones by Methyl Tert-Butyl Ether — Preliminary Observations]]
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 +[[https://pubmed.ncbi.nlm.nih.gov/4089254/|Transcutaneous chemical cholelitholysis with methyl tert-butyl ether (MTBE). lst results in man]]
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 +[[https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4508463/|Use of Methyl Tert-Butyl Ether for the Treatment of Refractory Intrahepatic Biliary Strictures and Bile Casts: A Modern Perspective]]
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 +[[https://translational-medicine.biomedcentral.com/articles/10.1186/s12967-019-1943-y|Efficacy and safety of a novel topical agent for gallstone dissolution: 2-methoxy-6-methylpyridine]]
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 +The spontaneous resolution of gallstones, while rare, can occur under specific conditions related to changes in bile composition or gallbladder motility. Although this phenomenon is not fully understood, there are some documented cases and theoretical explanations that shed light on how this might happen. Below, I’ll explain the mechanisms and provide details based on available research and case studies.
 +1. Changes in Bile Composition
 +
 +Bile is a fluid produced by the liver that helps digest fats. It contains bile salts, cholesterol, bilirubin, and other substances. Gallstones form when there is an imbalance in these components, leading to the crystallization of cholesterol (cholesterol stones) or bilirubin (pigment stones). Changes in bile composition can sometimes reverse this process.
 +Mechanisms:
 +
 +    Reduction in Cholesterol Saturation: If the bile becomes less saturated with cholesterol, existing cholesterol stones may dissolve or shrink. This can happen due to:
 +
 +        Dietary changes (e.g., reduced fat intake, increased fiber).
 +
 +        Weight loss (gradual, not rapid).
 +
 +        Medications that alter cholesterol metabolism.
 +
 +    Increased Bile Acid Concentration: Bile acids help keep cholesterol dissolved in bile. An increase in bile acids (e.g., through medications like ursodeoxycholic acid) can promote the dissolution of cholesterol stones.
 +
 +    Improved Bile Flow: Conditions that improve bile flow (e.g., reduced bile stasis) may prevent further stone formation and help existing stones pass.
 +
 +Case Example:
 +
 +A study published in Gut (1984) described a patient with small cholesterol gallstones who experienced spontaneous resolution after significant dietary changes. The patient adopted a low-fat, high-fiber diet, which likely reduced cholesterol saturation in bile and improved gallbladder motility, leading to the dissolution of the stones.
 +2. Changes in Gallbladder Motility
 +
 +Gallbladder motility refers to the ability of the gallbladder to contract and empty bile efficiently. Poor motility (biliary stasis) is a risk factor for gallstone formation because it allows bile to stagnate, promoting crystallization. Improved motility can help prevent stone formation and may contribute to the passage or dissolution of small stones.
 +Mechanisms:
 +
 +    Enhanced Gallbladder Emptying: When the gallbladder contracts more effectively, it reduces the likelihood of bile stasis and may help expel small stones or sludge.
 +
 +    Reduced Inflammation: Chronic inflammation of the gallbladder (cholecystitis) can impair motility. Resolving inflammation (e.g., through dietary changes or treatment of underlying conditions) may restore normal function.
 +
 +    Hormonal Influences: Hormones like cholecystokinin (CCK) play a key role in gallbladder contraction. Changes in hormonal activity (e.g., during pregnancy or after weight loss) can affect motility.
 +
 +Case Example:
 +
 +A case report in The American Journal of Gastroenterology (1997) described a patient with gallbladder sludge and small stones who experienced spontaneous resolution after recovering from a prolonged period of fasting. The restoration of normal eating patterns improved gallbladder motility, leading to the clearance of sludge and stones.
 +3. Passage of Small Stones
 +
 +Small gallstones (less than 5 mm) can sometimes pass through the bile ducts into the intestines without causing symptoms. This is more likely if the stones are smooth and the bile ducts are not obstructed.
 +Mechanisms:
 +
 +    Bile Duct Dilation: Temporary dilation of the bile ducts (e.g., due to hormonal changes or increased bile flow) may allow small stones to pass.
 +
 +    Gallbladder Contraction: Strong contractions of the gallbladder (e.g., after a fatty meal) can push small stones into the bile ducts.
 +
 +Case Example:
 +
 +A study in Radiology (1990) documented cases where patients with small gallstones detected on ultrasound were found to have no stones on follow-up imaging. The authors hypothesized that the stones had passed spontaneously through the bile ducts.
 +4. Spontaneous Dissolution of Stones
 +
 +In rare cases, gallstones may dissolve on their own due to changes in bile composition or other factors. This is more likely with cholesterol stones, which are softer and more soluble than pigment stones.
 +Mechanisms:
 +
 +    Altered Bile pH: Changes in bile pH (e.g., due to dietary changes or medications) may promote the dissolution of cholesterol stones.
 +
 +    Reduced Inflammation: Inflammation can alter bile composition and promote stone formation. Resolving inflammation may reverse this process.
 +
 +Case Example:
 +
 +A case report in Hepatology (1986) described a patient with small cholesterol gallstones who experienced spontaneous dissolution after recovering from a period of prolonged illness. The authors suggested that changes in bile composition and improved gallbladder motility during recovery contributed to the resolution of the stones.
 +5. Role of Sludge
 +
 +Gallbladder sludge is a thickened mixture of bile particles that can precede gallstone formation. In some cases, sludge may resolve on its own, giving the impression that gallstones have disappeared.
 +Mechanisms:
 +
 +    Improved Bile Flow: Restoring normal bile flow can help clear sludge.
 +
 +    Dietary Changes: Reducing fat intake and increasing fiber can prevent sludge formation and promote its resolution.
 +
 +Case Example:
 +
 +A study in The New England Journal of Medicine (1980) documented cases where patients with gallbladder sludge experienced resolution after dietary modifications and improved gallbladder motility.
 +Conclusion
 +
 +While spontaneous resolution of gallstones is rare, it can occur under specific conditions, such as changes in bile composition, improved gallbladder motility, or the passage of small stones. These cases are more likely with small, cholesterol-based stones and often involve dietary changes, weight loss, or recovery from underlying conditions. However, this phenomenon is not well understood, and most gallstones require medical intervention. If you suspect gallstones, consult a healthcare provider for proper diagnosis and treatment.
 +
 +-----
 +
 +Bilirubin is a yellow pigment produced during the breakdown of red blood cells. In the context of gallstones, bilirubin can contribute to the formation of pigment gallstones, which are one of the two main types of gallstones (the other being cholesterol gallstones). Below, I’ll explain the causes and mechanisms behind the presence of bilirubin in gallstones.
 +Types of Gallstones Involving Bilirubin
 +
 +    Black Pigment Stones:
 +
 +        These are small, hard, and dark-colored stones composed primarily of calcium bilirubinate.
 +
 +        They form in the gallbladder and are associated with conditions that increase bilirubin levels in bile.
 +
 +    Brown Pigment Stones:
 +
 +        These are softer, lighter-colored stones that often form in the bile ducts.
 +
 +        They are associated with infections or bile stasis and contain calcium bilirubinate along with cholesterol and other substances.
 +
 +Causes of Bilirubin in Gallstones
 +
 +The presence of bilirubin in gallstones is primarily due to excess bilirubin in bile or changes in bile composition. Below are the key causes:
 +1. Hemolysis (Excessive Red Blood Cell Breakdown)
 +
 +    Mechanism: When red blood cells break down excessively, large amounts of bilirubin are produced. This unconjugated bilirubin is processed by the liver and excreted into bile as conjugated bilirubin.
 +
 +    Conditions:
 +
 +        Hemolytic anemia (e.g., sickle cell anemia, thalassemia, spherocytosis).
 +
 +        Autoimmune disorders causing red blood cell destruction.
 +
 +        Infections like malaria, which destroy red blood cells.
 +
 +    Result: Excess bilirubin in bile can precipitate and form pigment stones.
 +
 +2. Liver Dysfunction
 +
 +    Mechanism: The liver conjugates bilirubin, making it water-soluble for excretion in bile. If the liver is damaged or dysfunctional, it may struggle to process bilirubin efficiently, leading to higher levels in bile.
 +
 +    Conditions:
 +
 +        Cirrhosis (often due to alcohol abuse, hepatitis, or fatty liver disease).
 +
 +        Chronic liver disease.
 +
 +    Result: Increased bilirubin in bile contributes to pigment stone formation.
 +
 +3. Biliary Tract Infections
 +
 +    Mechanism: Infections in the bile ducts or gallbladder can lead to the release of enzymes (e.g., beta-glucuronidase) from bacteria. These enzymes deconjugate bilirubin, converting it back to its insoluble form, which then precipitates and forms stones.
 +
 +    Conditions:
 +
 +        Cholangitis (bile duct inflammation).
 +
 +        Gallbladder infections.
 +
 +    Result: Brown pigment stones are commonly associated with infections.
 +
 +4. Bile Stasis (Reduced Bile Flow)
 +
 +    Mechanism: When bile flow is slowed or obstructed, bilirubin can concentrate and precipitate, forming stones.
 +
 +    Conditions:
 +
 +        Gallbladder dysmotility (e.g., due to pregnancy, fasting, or prolonged parenteral nutrition).
 +
 +        Biliary strictures or obstructions.
 +
 +    Result: Stasis allows bilirubin to crystallize and form stones.
 +
 +5. Genetic or Metabolic Disorders
 +
 +    Mechanism: Certain genetic conditions can lead to increased bilirubin production or impaired bilirubin metabolism.
 +
 +    Conditions:
 +
 +        Gilbert’s syndrome: A mild genetic disorder causing intermittent increases in unconjugated bilirubin.
 +
 +        Crigler-Najjar syndrome: A rare genetic disorder causing severe unconjugated hyperbilirubinemia.
 +
 +    Result: Elevated bilirubin levels in bile increase the risk of pigment stones.
 +
 +6. Aging
 +
 +    Mechanism: As people age, liver function may decline, and bile composition can change, increasing the likelihood of bilirubin precipitation.
 +
 +    Result: Older adults are more prone to pigment stones.
 +
 +7. Parasitic Infections
 +
 +    Mechanism: Parasites in the biliary tract (e.g., liver flukes like Clonorchis sinensis) can cause inflammation and bile stasis, promoting bilirubin stone formation.
 +
 +    Result: Common in regions where parasitic infections are prevalent.
 +
 +How Bilirubin Forms Stones
 +
 +    Bilirubin Precipitation:
 +
 +        Excess bilirubin in bile can precipitate as calcium bilirubinate, forming the core of pigment stones.
 +
 +    Nucleation and Growth:
 +
 +        Once bilirubin precipitates, it can act as a nucleus for further deposition of bilirubin, calcium, and other substances, leading to stone growth.
 +
 +    Infection and Inflammation:
 +
 +        Infections or inflammation in the biliary tract can accelerate stone formation by altering bile composition and promoting bilirubin deconjugation.
 +
 +Key Takeaways
 +
 +    Bilirubin in gallstones is primarily associated with pigment stones, which are caused by excess bilirubin in bile or changes in bile composition.
 +
 +    Common causes include hemolysis, liver dysfunction, biliary infections, bile stasis, and genetic disorders.
 +
 +    Pigment stones are more common in certain populations, such as those with chronic liver disease, hemolytic anemia, or parasitic infections.
 +
 +If you suspect gallstones or have risk factors for pigment stones, consult a healthcare provider for evaluation and management. Treatment may involve addressing the underlying cause, dietary changes, or surgical intervention if necessary.
 +