scholarly journals Application of Heat-induced Antigen Retrieval to Aldehyde-fixed Fresh Frozen Sections

2005 ◽  
Vol 53 (11) ◽  
pp. 1421-1432 ◽  
Author(s):  
Shuji Yamashita ◽  
Yasunori Okada
Keyword(s):  
Room Temperature ◽  
Glucocorticoid Receptors ◽  
Estrogen Receptor Α ◽  
Antigen Retrieval ◽  
Frozen Sections ◽  
New Approach ◽  
Cacodylate Buffer ◽  
Ligand Free ◽  
Fresh Frozen ◽  
Mouse Hepatocytes

We applied the heat-induced antigen retrieval (HIAR) to aldehyde-fixed fresh frozen sections based on a new approach (i.e., a rapid and complete immobilization of antigen followed by heating). Frozen sections were fixed with 10% formalin in 0.1 M cacodylate buffer (pH 7.4) containing 25 mM CaCl2 for 30 min, or with 0.5% glutaraldehyde in 0.1 M phosphate buffer (pH 7.4) for 1 min at room temperature, and then autoclaved in 20 mM Tris-HCl buffer (pH 9.0) for 10 min at 120C. Both fixatives yielded good tissue structure after autoclaving. In the sections fixed with formalin containing CaCl2, 20 of 22 antigens located in the nucleus, cytoplasm, membranes, and extracellular matrix greatly recovered their antigenicity after autoclaving; only two antigens exhibited stronger immunoreaction in acetone-fixed fresh frozen sections than these sections. Heating also retrieved the immunoreactivity of at least 14 antigens in the sections fixed with glutaraldehyde. We used the similar procedures to localize ligand-free estrogen receptor α (ERα) and glucocorticoid receptors (GR). Mouse uterine cells exhibited almost the same nuclear ERα immunostaining regardless of the hormonal status in glutaraldehyde-fixed fresh frozen sections and unliganded GR was localized mainly in the nucleus of mouse hepatocytes in fresh frozen sections fixed with 20% formalin containing 50 or 75 mM CaCl2 at 40C, after autoclaving. These results demonstrate that HIAR is useful for the immunohistochemistry of many antigens in aldehyde-fixed fresh frozen sections.

scholarly journals Antigen Masking During Fixation and Embedding, Dissected

2016 ◽  
Vol 65 (1) ◽  
pp. 5-20 ◽  
Author(s):  
Carla Rossana Scalia ◽  
Giovanna Boi ◽  
Maddalena Maria Bolognesi ◽  
Lorella Riva ◽  
Marco Manzoni ◽  
...  
Keyword(s):  
Room Temperature ◽  
Detection System ◽  
Antigen Retrieval ◽  
Fixation Time ◽  
Water Removal ◽  
Immunohistochemical Detection ◽  
Frozen Sections ◽  
Ki 67 ◽  
Paraffin Embedding ◽  
Multiple Factors

Antigen masking in routinely processed tissue is a poorly understood process caused by multiple factors. We sought to dissect the effect on antigenicity of each step of processing by using frozen sections as proxies of the whole tissue. An equivalent extent of antigen masking occurs across variable fixation times at room temperature. Most antigens benefit from longer fixation times (>24 hr) for optimal detection after antigen retrieval (AR; for example, Ki-67, bcl-2, ER). The transfer to a graded alcohol series results in an enhanced staining effect, reproduced by treating the sections with detergents, possibly because of a better access of the polymeric immunohistochemical detection system to tissue structures. A second round of masking occurs upon entering the clearing agent, mostly at the paraffin embedding step. This may depend on the non-freezable water removal. AR fully reverses the masking due both to the fixation time and the paraffin embedding. AR itself destroys some epitopes which do not survive routine processing. Processed frozen sections are a tool to investigate fixation and processing requirements for antigens in routine specimens.

Opening images of synaptic vesicles and calcium localization by means of microwave fixation method

1990 ◽  
Vol 48 (2) ◽  
pp. 182-183
Author(s):  
Vinci Mizuhira ◽  
Hiroshi Hasegawa
Keyword(s):  
Synaptic Vesicles ◽  
Room Temperature ◽  
Osmium Tetroxide ◽  
Sampling Procedure ◽  
Fixation Method ◽  
Potassium Oxalate ◽  
X Ray ◽  
Cacodylate Buffer ◽  
Ultrathin Sections ◽  
Microwave Fixation

Microwave irradiation (MWI) was applied to 0.3 to 1 cm3 blocks of rat central nervous system at 2.45 GHz/500W for about 20 sec in a fixative, at room temperature. Fixative composed of 2% paraformaldehyde, 0.5% glutaraldehyde in 0.1 M cacodylate buffer at pH 7.4, also contained 2 mM of CaCl2 , 1 mM of MgCl2, and 0.1% of tannic acid for conventional observation; and fuether 30-90 mM of potassium oxalate containing fixative was applied for the detection of calcium ion localization in cells. Tissue blocks were left in the same fixative for 30 to 180 min after MWI at room temperature, then proceeded to the sampling procedure, after postfixed with osmium tetroxide, embedded in Epon. Ultrathin sections were double stained with an useal manner. Oxalate treated sections were devided in two, stained and unstained one. The later oxalate treated unstained sections were analyzed with electron probe X-ray microanalyzer, the EDAX-PU-9800, at 40 KV accelerating voltage for 100 to 200 sec with point or selected area analyzing methods.

scholarly journals p-HYDROQUINONE AND p-BENZOQUINONE AS HISTOCHEMICAL REAGENTS I. A NEW TETRAZOLIUM METHOD FOR AMINO GROUPS, AND THE MECHANISM OF FORMAZAN STAINING OF PARAFFIN AND FRESH FROZEN SECTIONS

1967 ◽  
Vol 15 (7) ◽  
pp. 404-408 ◽  
Author(s):  
G. G. CARMICHAEL ◽  
STEPHANIE T. K. MANDER
Keyword(s):  
Electron Acceptor ◽  
Thermal Shrinkage ◽  
Frozen Sections ◽  
Amino Groups ◽  
Paraffin Sections ◽  
Tetrazolium Bromide ◽  
Acid Ph ◽  
Reduction System ◽  
Oxidation Reduction ◽  
Fresh Frozen

The staining of amino groups by formazan when dehydrated paraffin sections are incubated in a mixture of hydroquinone and 3-(4,5-dimethyl thiazolyl-2)-2 ,5-diphenyl-2H-tetrazolium bromide at an acid pH is reported. The mechanism of this reaction and of the cytoplasmic deposition of formazan in fresh frozen sections incubated under similar conditions is investigated. It is shown that the oxidation of hydroquinone to semiquinone is responsible for the reaction, the tetrazole acting as electron acceptor. The tissue amino groups, exposed by dehydration and thermal shrinkage, and the nitrogen groupings of phosphobipid behave as "catalysts." The relevant properties of the hydroquinone-benzoquinone oxidation-reduction system are described, and the reactions between benzoquinone and tissue constituents are reviewed.

ChemInform Abstract: A Ligand-Free and Room-Temperature Protocol for Pd-Catalyzed Kumada-Corriu Couplings of Unactivated Alkenyl Phosphates.

ChemInform ◽  
2009 ◽  
Vol 40 (37) ◽  
Author(s):  
Delphine Gauthier ◽  
Stephan Beckendorf ◽  
Thomas M. Goegsig ◽  
Anders T. Lindhardt ◽  
Troels Skrydstrup
Keyword(s):  
Room Temperature ◽  
Ligand Free

A highly efficient copper and ligand free protocol for the room temperature Sonogashira reaction

RSC Advances ◽  
2015 ◽  
Vol 5 (1) ◽  
pp. 16-19 ◽  
Author(s):  
Ankur Gogoi ◽  
Anindita Dewan ◽  
Utpal Bora
Keyword(s):  
Catalytic System ◽  
Room Temperature ◽  
Sonogashira Reaction ◽  
Highly Efficient ◽  
Aryl Iodides ◽  
Ligand Free

A mild and efficient catalytic system based on PdCl2 and Na2SO4 has been developed for the Sonogashira reaction of aryl iodides at room temperature.

Comparison of the coagulation potential of lyophilized blood plasma virus-inactivated by two different methods.

2021 ◽  
Author(s):  
И.А. Кривов ◽  
А.А. Рагимов ◽  
Э.Л. Салимов
Keyword(s):  
Comparative Evaluation ◽  
Room Temperature ◽  
Coagulation Factors ◽  
Fresh Frozen Plasma ◽  
Activated Partial Thromboplastin Time ◽  
Plasma Virus ◽  
Coagulation Parameters ◽  
Normal Limits ◽  
Fresh Frozen ◽  
Frozen Plasma

Введение. Свежезамороженная плазма (СЗП) — один из самых распространённых компонентов крови, применяемых сегодня в клиниках при оказании медицинской помощи при кровотечениях и тяжёлых коагулопатиях. В отличие от вирусинактивированной замороженной плазмы, сублимированная (лиофилизированная) плазма может храниться при комнатной температуре, и восстановление перед переливанием обычно требует меньших временных затрат. Цель исследования: оценить коагуляционный потенциал лиофилизированной плазмы, полученной из вирусинактивированной плазмы, инактивированной 2 способами: с использованием метиленового синего + видимый свет и рибофлавина + ультрафиолетовое облучение спектра B. Материалы и методы. Проведен анализ 100 образцов иофилизированной плазмы, вирусинактивированной двумя методами. Изучали влияние лиофилизации на уровень факторов свертывания и показатели свертываемости в вирусинактивированной плазме. Для сравнительной оценки в качестве контроля были проанализированы 150 образцов СЗП. Результаты. При использовании обоих технологий инактивации в лиофилизированной вирусинактивированной плазме установлено снижение содержания факторов V и VIII как по отношению к СПЗ, так и по отношению к физиологической норме. Лиофилизация вирусинактивированной плазмы различными методами привела к некоторому увеличению показателей свёртывания крови — протромбинового времени и активированного частичного тромбопластинового времени. Остальные показатели оставались в нормальных пределах. Существенных различий в показателях между образцами плазмы, инактивированной различными методами, выявлено не было. Заключение. По клиническим свойствам вирусинактивированная лиофилизированная плазма может служить альтернативой СЗП, однако для уточнения всесторонних аспектов её применения необходимы дополнительные исследования. Introduction. Fresh frozen plasma (FFP) is one of the most common blood components used today in clinics for medical care of bleeding and severe coagulopathies. Unlike virus-inactivated frozen plasma, sublimated (lyophilized) plasma can be stored at room temperature, and recovery before transfusion usually requires less time. Objectives: to assess the coagulation potential of lyophilized plasma obtained from virus- inactivated plasma inactivated by 2 methods: using methylene blue + visible light and riboflavin + ultraviolet radiation of spectrum B. Materials/Methods. Analysis of 100 samples of lyophilized plasma, virus-inactivated by 2 methods, was carried out. The effect of lyophilization on the level of coagulation factors and coagulation parameters in virus-inactivated plasma was studied. For comparative evaluation, 150 samples of FFP were analyzed as a control. Results. Using both technologies for inactivation of lyophilized virus- inactivated plasma, a decrease in the content of V and VIII factors was found both in relation to the FFP and in relation to the physiological norm. Lyophilization of virus-inactivated plasma by various methods led to a slight increasing in blood coagulation parameters — prothrombin time and activated partial thromboplastin time. The rest of the parameters remained within normal limits. There were no significant differences in parameters between plasma samples inactivated by different methods. Conclusions. According clinical properties, virus- inactivated lyophilized plasma can serve as an alternative to FFP, but more studies are needed to clarify the comprehensive aspects of its use.

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