A bezoar (/ˈbizɔːr/BEE-zor) is a mass often found trapped in the
gastrointestinal system,[2] though it can occur in other locations.[3][4] A pseudobezoar is an indigestible object introduced intentionally into the digestive system.[5]
There are several varieties of bezoar, some of which have
inorganic constituents and others
organic. The term has both modern (medical, scientific) and traditional usage.
Types
By content
Food
boluses (or boli; singular bolus) have the archaic and positive meaning of bezoar, and are composed of loose aggregates of food items such as seeds, fruit pith, or pits, as well as other types of items such as
shellac,
bubble gum, soil, and concretions of some medications.
Lactobezoars are a specific type of food bezoar comprising
inspissated milk. It is most commonly seen in premature infants receiving formula foods.
Pharmacobezoars (or medication bezoars) are mostly tablets or semiliquid masses of drugs, normally found following an overdose of
sustained-release medications.[6]
Pseudobezoars are man-made ingestible, permeable, expandable implements that can swell in the stomach or in the intestines and stay inflated for a certain period of time, during which they perform particular function, for example, to reduce gastric volume.[5]
Phytobezoars are composed of indigestible plant material (e.g.,
cellulose), and are frequently reported in patients with impaired digestion and decreased gastric motility.
Trichobezoar is a bezoar formed from hair[11] – an extreme form of
hairball. Humans who frequently consume hair sometimes require these to be removed. In cases of
Rapunzel syndrome, surgery may be required.
By location
A bezoar in the
esophagus is common in young children and in horses; in horses, it is known as
choke.
A bezoar in the
trachea is called a tracheobezoar.
Cause
This section needs expansion with: other examples. You can help by
adding to it. (May 2021)
Esophageal bezoars discovered in nasogastrically fed patients on mechanical ventilation and sedation are reported to be due to the precipitation of certain food types rich in casein, which are precipitated with gastric acid reflux to form esophageal bezoars. Bezoars can also be caused by
gastroparesis due to the slowing of gastric emptying, which allows food to form a bolus.[12]
History
The word bezoar is derived from the
Persianpād-zahr (پادزهر), literally 'antidote'.[13] The myth of the bezoar as an antidote reached Europe from the Middle East in the 11th century and remained popular until it started to fall into disrepute by the 18th century.[14] People believed that a bezoar had the power of a universal
antidote and would work against any
poison - a drinking glass which contained a bezoar could allegedly neutralize any poison poured into it.
Ox bezoars (niu-huang (牛黃) or calculi bovis) are used in
Chinese herbology[vague] to treat various diseases. They are
gallstones or gallstone substitutes formed from ox or cattle
bile. Some products allegedly remove
toxins from the body.
The
Andalusian physician
Ibn Zuhr (
d. 1161), known in the West as Avenzoar, is thought[by whom?] to have made the earliest description of bezoar stones as medicinal items.[15] Extensive reference to bezoars also appears in the Picatrix.
In 1567, French surgeon
Ambroise Paré did not believe that it was possible for the bezoar to cure the effects of any poison and described an experiment to test the properties of the stone. A cook in the King's court was sentenced to death and chose to be poisoned rather than hanged, under the condition that he would be given a bezoar after the poison. Paré administered the bezoar stone to the cook, but it had no effect, and the cook died in agony seven hours after taking the poison, proving that - contrary to popular belief - the bezoar could not cure all poisons.[16]
Modern examinations of the properties of bezoars by Gustaf Arrhenius and Andrew A. Benson of the
Scripps Institution of Oceanography show that when bezoars are immersed in an arsenic-laced solution, they can remove the poison. The toxic compounds in arsenic are
arsenate and
arsenite; each is acted upon differently by the bezoars: arsenate is removed by being exchanged for phosphate in
brushite found in the stones, while arsenite is bound to sulfur compounds in the protein of degraded hair, which is a key component in bezoars.[17]
A famous case in the
common law of England (Chandelor v Lopus, 79 Eng Rep. 3, Cro. Jac. 4,
Eng. Ct. Exch. 1603) announced the rule of caveat emptor ("let the buyer beware") if the goods purchased are not in fact genuine and effective. The case concerned a purchaser who sued for the return of the purchase price of an allegedly fraudulent bezoar.
Bezoars were important objects in
cabinets of curiosity and in natural-history collections, mainly for their use in early-modern pharmacy and in the study of animal health.[18][19]
The Merck Manual of Diagnosis and Therapy notes that consumption of unripened
persimmons has been identified as the main cause of epidemics of intestinal bezoars and that up to 90 percent of bezoars that occur from excessive consumption require surgery for removal.[20]
A 2013 review of three databases identified 24 publications presenting 46 patients treated with Coca-Cola for phytobezoars. Clinicians administered the cola in doses of 500 ml (18 imp fl oz; 17 US fl oz) to up to 3,000 ml (110 imp fl oz; 100 US fl oz) over 24 hours, orally or by gastric lavage. A total of 91.3% of patients had complete resolution after treatment with Coca-Cola: 50% after a single treatment, with others requiring cola plus endoscopic removal. Doctors resorted to surgical removal in four cases.[21]
^Bala M, Appelbaum L, Almogy G (November 2008). "Unexpected cause of large bowel obstruction: colonic bezoar". Isr. Med. Assoc. J. 10 (11): 829–30.
PMID19070299.
^Malhotra A, Jones L, Drugas G (November 2008). "Simultaneous gastric and small intestinal trichobezoars". Pediatr Emerg Care. 24 (11): 774–6.
doi:
10.1097/PEC.0b013e31818c2891.
PMID19018222.
^"Bezoar Stones". Archived from
the original on 16 January 2013. Retrieved 30 November 2012. Modern examinations of the properties of bezoars by Gustaf Arrhenius and Andrew A. Benson of the Scripps Institution of Oceanography have shown that they could, when immersed in an arsenic-laced solution, remove the poison. The toxic compounds in arsenic are arsenate and arsenite. Each is acted upon differently, but effectively, by bezoar stones. Arsenate is removed by being exchanged for phosphate in the mineral brushite, a crystalline structure found in the stones. Arsenite is found to bond to sulfur compounds in the protein of degraded hair, which is a key component in bezoars.
^Heintzman, Kit (2018). "A cabinet of the ordinary: domesticating veterinary education, 1766–1799". The British Journal for the History of Science. 51 (2): 239–260.
doi:
10.1017/S0007087418000274.
PMID29665887.
S2CID4947361.
Martín-Gil FJ, Blanco-Ávarez JI, Barrio-Arredondo MT, Ramos-Sanchez MC, Martin-Gil J. Jejunal bezoar caused by a piece of apple peel – Presse Med, 1995 Feb. 11; 24(6):326.
Borschberg, Peter, "
The Euro-Asian Trade in Bezoar Stones (approx. 1500-1700)", Artistic and Cultural Exchanges between Europe and Asia, 1400–1900: Rethinking Markets, Workshops and Collections, ed. Thomas DaCosta Kaufmann and Michael North, Aldershot: Ashgate, 2010, pp. 29–43.
Borschberg, Peter, "The Trade, Forgery and Medicinal Use of Porcupine Bezoars in the Early Modern Period (c.1500–1750)", ed. Carla Alferes Pinto, Oriente, vol. 14, Lisbon: Fundação Oriente, 2006.