Open Access Articles- Top Results for Malabsorption


Whipple's disease: Alcian blue with apparently eosin counterstain enlarged villus with many macrophages
Classification and external resources
ICD-10 (K90)
ICD-9 579
DiseasesDB 7698
MedlinePlus 000299
eMedicine med/1384
NCI Malabsorption
Patient UK Malabsorption
MeSH D008286

Malabsorption is a state arising from abnormality in absorption of food nutrients across the gastrointestinal (GI) tract. Impairment can be of single or multiple nutrients depending on the abnormality. This may lead to malnutrition and a variety of anaemias.[1] Normally the human gastrointestinal tract digests and absorbs dietary nutrients with remarkable efficiency. A typical Western diet ingested by an adult includes approximately 100 g of fat, 400 g of carbohydrate, 100 g of protein, 2 L of fluid, and the required sodium, potassium, chloride, calcium, vitamins, and other elements. Salivary, gastric, intestinal, hepatic, and pancreatic secretions add an additional 7–8 L of protein-, lipid-, and electrolyte-containing fluid to intestinal contents. This massive load is reduced by the small and large intestines to less than 200 g of stool that contains less than 8 g of fat, 1–2 g of nitrogen, and less than 20 mM each of Na+, K+, Cl –, HCO3–, Ca2+, or Mg2+. If there is impairment of any of the many steps involved in the complex process of nutrient digestion and absorption, intestinal malabsorption may ensue. If the abnormality involves a single step in the absorptive process, as in primary lactase deficiency, or if the disease process is limited to the very proximal small intestine selective malabsorption of only a single nutrient may occur. However, generalized malabsorption of multiple dietary nutrients develops when the disease process is extensive, thus disturbing several digestive and absorptive processes, as occurs in celiac sprue with extensive involvement of the small intestine.[2]


Some prefer to classify malabsorption clinically into three basic categories:[3]

  1. selective, as seen in lactose malabsorption.
  2. partial, as observed in a-Beta-lipoproteinaemia.
  3. total as in coeliac disease.

Signs and Symptoms

Gastrointestinal manifestations

Depending on the nature of the disease process causing malabsorption and its extent, gastrointestinal symptoms may range from severe to subtle or may even be totally absent. Diarrhea, weight loss, flatulence, abdominal bloating, abdominal cramps, and pain may be present.Although diarrhea is a common complaint, the character and frequency of stools may vary considerably ranging from over 10 watery stools per day to less than one voluminous putty-like stool, the latter causing some patients to complain of constipation. On the other hand, stool mass is invariably increased in patients with steatorrhea and generalized malabsorption above the normal with 150–200 g/day. Not only do unabsorbed nutrients contribute to stool mass but mucosal fluid and electrolyte secretion is also increased in diseases associated with mucosal inflammation such as celiac sprue. In addition, unabsorbed fatty acids, converted to hydroxy-fatty acids by colonic flora, as well as unabsorbed bile acids both impair absorption and induce secretion of water and electrolytes by the colon adding to stool mass. Weight loss is common among patients with significant intestinal malabsorption but must be evaluated in the context of caloric intake. Some patients compensate for fecal wastage of unabsorbed nutrients by significantly increasing their oral intake.Eliciting a careful dietary history from patients with suspected malabsorption is therefore crucial. Excessive flatus and abdominal bloating may reflect excessive gas production due to fermentation of unabsorbed carbohydrate, especially among patients with primary or secondary disaccharidase deficiency. Malabsorption of dietary nutrients and excessive fluid secretion by inflamed small intestine also contribute to abdominal distention and bloating. Prevalence, severity, and character of abdominal pain vary considerably among the various disease processes associated with intestinal malabsorption. For example, pain is common in patients with chronic pancreatitis or pancreatic cancer and Crohn disease, but it is absent in many patients with celiac sprue or postgastrectomy malabsorption.[4]

Extraintestinal manifestations

Substantial numbers of patients with intestinal malabsorption present initially with symptoms or laboratory abnormalities that point to other organ systems in the absence of or overshadowing symptoms referable to the gastrointestinal tract. For example, there is increasing epidemiologic evidence that more patients with celiac sprue present with anemia and osteopenic bone disease in the absence of significant gastrointestinal symptoms than present with classic gastrointestinal symptomatology. Microcytic, macrocytic, or dimorphic anemia may reflect impaired iron, folate, or vitamin B12 absorption.Purpura, subconjunctival hemorrhage, or even frank bleeding may reflect hypoprothrombinemia secondary to vitamin K Malabsorption. Osteopenic bone disease is common, especially in the presence of steatorrhea.Impaired calcium and vitamin D absorption and chelation of calcium by unabsorbed fatty acids resulting in fecal loss of calcium may all contribute. If calcium deficiency is prolonged, secondary hyperparathyroidism may develop. Prolonged malnutrition may induce amenorrhea, infertility, and impotence. Edema and even ascites may reflect hypoproteinemia associated with protein losing enteropathy caused by lymphatic obstruction or extensive mucosal inflammation. Dermatitis and peripheral neuropathy may be caused by malabsorption of specific vitamins or micronutrients and essential fatty acids.[5]


The main purpose of the gastrointestinal tract is to digest and absorb nutrients (fat, carbohydrate, protein, and fiber), micronutrients (vitamins and trace minerals), water, and electrolytes. Digestion involves both mechanical and enzymatic breakdown of food. Mechanical processes include chewing, gastric churning, and the to-and-fro mixing in the small intestine. Enzymatic hydrolysis is initiated by intraluminal processes requiring gastric, pancreatic, and biliary secretions. The final products of digestion are absorbed through the intestinal epithelial cells.

Malabsorption constitutes the pathological interference with the normal physiological sequence of digestion (intraluminal process), absorption (mucosal process) and transport (postmucosal events) of nutrients.[6]

Intestinal malabsorption can be due to:[7]


Due to infective agents
Due to structural defects[8]
Due to surgical structural changes
Due to mucosal abnormality
Due to enzyme deficiencies
  • Lactase deficiency inducing lactose intolerance (constitutional, secondary or rarely congenital)
  • Sucrose intolerance
  • Intestinal disaccharidase deficiency
  • Intestinal enteropeptidase deficiency
Due to digestive failure
Due to other systemic diseases affecting GI tract

Clinical features

Small intestine : major site of absorption

They can occur in a variety of ways and features might give a clue to the underlying condition. Symptoms can be intestinal or extra-intestinal - the former predominates in severe malabsorption.


There is no single, specific test for malabsorption. As for most medical conditions, investigation is guided by symptoms and signs. A range of different conditions can produce malabsorption and it is necessary to look for each of these specifically. Many tests have been advocated, and some, such as tests for pancreatic function are complex, vary between centers and have not been widely adopted. However, better tests have become available with greater ease of use, better sensitivity and specificity for the causative conditions. Tests are also needed to detect the systemic effects of deficiency of the malabsorbed nutrients (such as anaemia with vitamin B12 malabsorption).

Blood tests

  • Routine blood tests may reveal anaemia, high CRP or low albumin; which shows a high correlation for the presence of an organic disease.[10][11] In this setting, microcytic anaemia usually implies iron deficiency and macrocytosis can be caused by impaired folic acid or B12 absorption or both. Low cholesterol or triglyceride may give a clue toward fat malabsorption.[12] Low calcium and phosphate may give a clue toward osteomalacia from low vitamin D.[12]
  • Specific vitamins like vitamin D or micro nutrient like zinc levels can be checked. Fat soluble vitamins (A, D, E & K) are affected in fat malabsorption. Prolonged prothrombin time can be caused by vitamin K deficiency.
  • Serological studies. Specific tests are carried out to determine the underlying cause.
IgA Anti-transglutaminase antibodies or IgA Anti-endomysial antibodies for Coeliac disease (gluten sensitive enteropathy).

Stool studies

  • Microscopy is particularly useful in diarrhoea, may show protozoa like Giardia, ova, cyst and other infective agents.
  • Fecal fat study to diagnose steatorrhoea is rarely performed nowadays.
  • Low fecal pancreatic elastase is indicative of pancreatic insufficiency. Chymotrypsin and pancreolauryl can be assessed as well[12]

Radiological studies

Interventional studies

File:Coeliac path.jpg
Biopsy of small bowel showing coeliac disease manifested by blunting of villi, crypt hyperplasia, and lymphocyte infiltration of crypts.

Other investigations

Obsolete tests no longer used clinically

  • D-xylose absorption test for mucosal disease or bacterial overgrowth. Normal in pancreatic insufficiency.
  • Bile salt breath test (14C-glycocholate) to determine bile salt malabsorption.
  • Schilling test to establish cause of B12 deficiency.


Treatment is directed largely towards management of underlying cause:

See also


  1. ^ Jensen, Jonathan E. "Malabsorption Syndromes - Page 1". Colorado center for digestive disorders. Archived from the original on 2007-04-11. Retrieved 2007-05-10. 
  2. ^ Bernstein, CN; Leslie, WD; Leboff, MS (March 2003). "AGA technical review on osteoporosis in gastrointestinal diseases.". Gastroenterology 124 (3): 795–841. PMID 12612917. doi:10.1053/gast.2003.50106. 
  3. ^ Gasbarrini G, Frisono M: Critical evaluation of malabsorption tests; in G. Dobrilla, G. Bertaccini, G. Langman (Editor) (1986). Problems and Controversies in Gastroenterology. New York: Raven Pr. pp. 123–130. ISBN 88-85037-75-5. 
  4. ^ CN, Bernstein; WD, Leslie; MS, Leboff (2003). "AGA technical review on osteoporosis in gastrointestinal disease". Gastroenterology 124 (3): 795-841. PMID 12612917. doi:10.1053/gast.2003.50106. 
  5. ^ Fine, KD; Schiller, LR (1999). "technical review on the evaluation and management of chronic diarrhea". Gastroenterology. 116 (6): 1464–1486. PMID 10348832. doi:10.1016/s0016-5085(99)70513-5. 
  6. ^ a b c Bai J (1998). "Malabsorption syndromes". Digestion 59 (5): 530–46. PMID 9705537. doi:10.1159/000007529. 
  7. ^ Walker-Smith J, Barnard J, Bhutta Z, Heubi J, Reeves Z, Schmitz J (2002). "Chronic diarrhea and malabsorption (including short gut syndrome): Working Group Report of the First World Congress of Pediatric Gastroenterology, Hepatology, and Nutrition". J. Pediatr. Gastroenterol. Nutr. 35 Suppl 2: S98–105. PMID 12192177. doi:10.1097/00005176-200208002-00006. 
  8. ^ M. S Losowsky, (1974). Malabsorption in clinical practice. Edinburgh: Churchill Livingstone. ISBN 0-443-01007-2. 
  9. ^ health a to z"Malabsorption syndrome". Retrieved 2007-05-10. 
  10. ^ Bertomeu A, Ros E, Barragán V, Sachje L, Navarro S (1991). "Chronic diarrhea with normal stool and colonic examinations: organic or functional?". J. Clin. Gastroenterol. 13 (5): 531–6. PMID 1744388. doi:10.1097/00004836-199110000-00011. 
  11. ^ Read N, Krejs G, Read M, Santa Ana C, Morawski S, Fordtran J (1980). "Chronic diarrhea of unknown origin". Gastroenterology 78 (2): 264–71. PMID 7350049. 
  12. ^ a b c Thomas P, Forbes A, Green J, Howdle P, Long R, Playford R, Sheridan M, Stevens R, Valori R, Walters J, Addison G, Hill P, Brydon G (2003). "Guidelines for the investigation of chronic diarrhoea, 2nd edition". Gut. 52 Suppl 5 (90005): v1–15. PMC 1867765. PMID 12801941. doi:10.1136/gut.52.suppl_5.v1. [1].

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