The Effect of H2 Receptor Antagonist in Acid Inhibition and Its Clinical Efficacy

Young Kwang Shim; Nayoung Kim

doi:10.4166/kjg.2017.70.1.4

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Shim and Kim: The Effect of H2 Receptor Antagonist in Acid Inhibition and Its Clinical Efficacy

Review Article

Korean J Gastroenterol 2017;70(1):4-12.

Published online: 4 October 2017

DOI: https://doi.org/10.4166/kjg.2017.70.1.4

The Effect of H₂ Receptor Antagonist in Acid Inhibition and Its Clinical Efficacy

Young Kwang Shim¹, Nayoung Kim^1,²

¹Department of Internal Medicine, Seoul National University Bundang Hospital, Seoungnam, Korea

²Department of Internal Medicine and Liver Research Institute, Seoul National University College of Medicine, Seoul, Korea

Correspondence to: Nayoung Kim, Department of Internal Medicine, Seoul National University Bundang Hospital, 82 Gumi-ro 173beon-gil, Bundang-gu, Seongnam 13620, Korea. Tel: +82-31-787-7008, Fax: +82-31-787-4051, E-mail: nayoungkim49@empas.com

Received 31 May 2017 Revised 17 June 2017 Accepted 19 June 2017

This is an Open Access article distributed under the terms of the Creative Commons Attribution Non-Commercial License (http://creativecommons.org/licenses/by-nc/4.0/) which permits unrestricted non-commercial use, distribution, and reproduction in any medium, provided the original work is properly cited.

Abstract

The first histamine H₂ receptor antagonists (H₂ RAs) were developed in the early 1970s. They played a dominant role in treating peptic ulcer disease and gastroesophageal reflux disease (GERD). H₂ RAs block the production of acid by H⁺, K⁺-ATPase at the parietal cells and produce gastric luminal anacidity for varying periods. H₂ RAs are highly selective, and they do not affect H₁ receptors. Moreover, they are not anticholinergic agents. Sequential development of H₂ RAs, proton pump inhibitors (PPIs), and discovery of Helicobacter pylori infection changed the paradigm of peptic ulcer disease with marked decrease of morbidity and mortality. PPIs are known to be the most effective drugs that are currently available for suppressing gastric acid secretion. Many studies have shown its superiority over H₂ RAs as a treatment for acid-related disorders, such as peptic ulcer disease, GERD, and Zollinger-Ellison syndrome. However, other studies have reported that PPIs may not be able to render stomach achlorhydric and have identified a phenomenon of increasing gastric acidity at night in individuals receiving a PPI twice daily. These nocturnal acid breakthrough episodes can be eliminated with an addition of H₂ RAs at night. The effectiveness of nighttime dose of H₂ RA suggests a major role of histamine in nocturnal acid secretion. H₂ RAs reduce secretion of gastric acid, and each H₂ RA also has specific effects. For instance, nizitidine alleviates not only symptoms of GERD, but also provokes gastric emptying, resulting in clinical symptom improvement of functional dyspepsia. The aim of this paper was to review the characteristics and role of H₂ RAs and assess the future strategy and treatment of upper gastrointestinal disease, including acid related disorders.

Keywords: Peptic ulcer, Histamine H₂ antagonists, Gastric acid

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Fig. 1.

A model structure of gastric H⁺, K⁺-ATPase. The gastric H⁺, K⁺-ATPase α subunit has 3 lobes, N (ATP binding), P (phosphorylation), and A (activation) domains in the cytoplasmic domain, and 3 transmembrane segments in the membrane domain. The gastric β-subunit has a short cytoplasmic region, 1 transmembrane segment, and a heavily glycosylated extracellular region. The number of Asn sites having carbohydrates is based on pig H⁺, K⁺-ATPase, as previously described by Shin and Kim.²⁴

Fig. 2.

Structures of H₂ receptor antagonists. Red box indicates pyridine ring or modified structures.^29–31

Table 1.

Pharmacokinetics of H₂ Receptor Antagonists^32,33

Drug	Bioavailability (%)	Half-life (hr)	Duration of action (hr)	Metabolites	Excretion
Cimetidine	60–70	Oral: 2.0	Nocturnal: 6–8	Sulfoxide	Mainly urine
		Parenteral: 1.6–2.1	Basal: 4–5
Ranitidine	50	Oral: 2.5	Nocturnal: 13	N-oxide (<4%)	Mainly urine
		Parenteral: 2–2.5	Basal: 4	S-oxide (1%)
				Desmethyl (1%)
Famotidine	40–45	Oral/Parenteral: 2.3–3.5	Nocturnal and basal: 10–12	S-oxide	Urine: 65–70%
			(oral and IV)		Feces: 30–35%
Nizatidine	70	Oral: 1–2	Nocturnal: Up to 12	N2-monodesmethyl (<7%)	Urine: >90%
			Basal: Up to 8	N2-oxide (<5%)	Feces: <6%
				S-oxide (<6%)

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