• Journal of Digestive Cancer Research
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• v.3 no.2
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• pp.82-88
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• 2015

Gastric lymphoma comprises 1-6% of all gastric malignant neoplasms and among them 50% is gastric MALT lymphoma. The 60-70% of MALT lymphomas is diagnosed at early, localized diseased state. Gastric MALT lymphoma is assumed that it progress slowly with indolent course. It presents nonspecific symptoms such as epigastric pain, dyspepsia, nausea and vomiting. It is rarely associated with serious complication such as gastrointestinal bleeding or perforation. The definite diagnosis of gastric MALT lymphoma should be made with histopathologically. Wotherspoon score is used to differential diagnosis with Helicobacter pylori associated gastric inflammatory change. Gastric MALT lymphoma is associated with Helicobacter pylori infection with supported by epidemiologic and histopathologic studies. Gastric MALT lymphoma is characterized with genetic aberrations such as trisomy 3, trisomy 18, chromosomal translocations t(11;18), t(1;14), t(14;18), t(3;14). Appropriate clinical staging is essential to determine the optimal treatment strategy for gastric MALT lymphoma. Lugano International Conference classification has been applied widely. Helicobacter pylori eradication is used as the first line treatment for gastric MALT lymphoma independent of the stage. The complete remission has been achieved in 60-90% of the stage I/II1 patients with Helicobacter pylori eradication only. The treatment options for the patients with refractory to eradication are radiotherapy, chemotherapy and/or immunotherapy with the complete remission rate of 75% to 100%. The incidence of gastric MALT lymphoma can be expected to down by virtue of the decrease of Helicobacter pylori infection rate. Further basic and clinical research is necessary to advance in determine the pathogenesis and management.

• Biomolecules & Therapeutics
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• v.29 no.5
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• pp.465-482
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• 2021

Lipids, which along with carbohydrates and proteins are among the most important nutrients for the living organism, have a variety of biological functions that can be applied widely in biomedicine. A fatty acid, the most fundamental biological lipid, may be classified by length of its aliphatic chain, and the short-, medium-, and long-chain fatty acids and each have distinct biological activities with therapeutic relevance. For example, short-chain fatty acids have immune regulatory activities and could be useful against autoimmune disease; medium-chain fatty acids generate ketogenic metabolites and may be used to control seizure; and some metabolites oxidized from long-chain fatty acids could be used to treat metabolic disorders. Glycerolipids play important roles in pathological environments, such as those of cancers or metabolic disorders, and thus are regarded as a potential therapeutic target. Phospholipids represent the main building unit of the plasma membrane of cells, and play key roles in cellular signaling. Due to their physical properties, glycerophospholipids are frequently used as pharmaceutical ingredients, in addition to being potential novel drug targets for treating disease. Sphingolipids, which comprise another component of the plasma membrane, have their own distinct biological functions and have been investigated in nanotechnological applications such as drug delivery systems. Saccharolipids, which are derived from bacteria, have endotoxin effects that stimulate the immune system. Chemically modified saccharolipids might be useful for cancer immunotherapy or as vaccine adjuvants. This review will address the important biological function of several key lipids and offer critical insights into their potential therapeutic applications.