The long history of hematoxylin

Hematoxylin is a naturally occurring chemical used as the basis of a dye in laboratories throughout the world to stain nuclei in microscope slide preparations. This chemical is extracted from the logwood tree Hematoxylon campechianum and was discovered by Spanish explorers to the Yucatan in 1502. A vigorous trade soon developed related to growing and preparing hematoxylin for use in dyeing fabrics in Europe. In the mid 1800s, amateur microscopists first used hematoxylin to stain cellular components. Later scientists developed a wide range of techniques to demonstrate different cellular components. Hematoxylin remains the most popular nuclear stain in histology. This paper briefly describes the history of hematoxylin production and use in histology.     

An improved staining method for intervertebral disc tissue

The objective of this study was to design a new staining procedure for human disc tissue for visualizing both collagen and proteoglycan-matrix components on the same histology section. Weigert's hematoxylin, alcian blue and picrosirius red were combined to produce distinctive staining of collagen (red), proteoglycans (blue) and cellular elements of the intervertebral disc. This novel stain reveals sharp details of collagen composition in the perilacunar, territorial and intraterritorial extracellular matrix, and concomitantly demonstrates the presence of proteoglycan accumulations around cells in the lacunar spaces and in the extracellular matrix. These details reveal variations within the tissue that would not be apparent with routine stains.     

Mechanisms of reaction of hematoxylin with aluminium-treated wheat roots

Hematoxylin stain is used for localization of aluminium in plant root tissue and is the basis of a rapid assay of relative At tolerance among wheat cultivars. In the present study, mechanisms by which hematoxylin might selectively stain Al-sensitive wheat roots have been examined. The results are consistent with the idea that in Al-sensitive cultivars, hematoxylin forms complexes with Al that precipitate with phosphate as AlPO₄ in intercellular spaces: (1) Al and P are co-localized in the cell wall region of the outer cortex of Al-stressed roots by using x-ray microanalysis: (2) the molybdenum blue histochemical stain for extracellular phosphate reveals areas of stain that parallel those observed with hematoxylin; (3) in vitro, the presence of phosphate in an Al-hematoxylin reaction mixture causes formation of precipitate when the P/Al ratio exceeds 1. 0. I suggest that selective hematoxylin staining of Al-sensitive wheat cultivars is the result of direct damage by Al to root cells, leading to leakage of phosphorus into the cell wall region. Cultivars whose roots are damaged by Al in this way are likely to be judged Al-sensitive when other criteria such as growth or crop yield are used.     

An improved staining method for intervertebral disc tissue

The objective of this study was to design a new staining procedure for human disc tissue for visualizing both collagen and proteoglycan-matrix components on the same histology section. Weigert's hematoxylin, alcian blue and picrosirius red were combined to produce distinctive staining of collagen (red), proteoglycans (blue) and cellular elements of the intervertebral disc. This novel stain reveals sharp details of collagen composition in the perilacunar, territorial and intraterritorial extracellular matrix, and concomitantly demonstrates the presence of proteoglycan accumulations around cells in the lacunar spaces and in the extracellular matrix. These details reveal variations within the tissue that would not be apparent with routine stains.     

Standardization of the Papanicolaou stain. I. A comparison of five nuclear stains.

The staining characteristics of five nuclear stains used in a Papanicolaou staining procedure were investigated. Alcohol-fixed cervical smears were stained with a modified Papanicolaou procedure using hematoxylin, alcoholic thionin bromide, alcoholic Victoria blue B, gallocyanin or the thionin Feulgen reagent (thionin-SO2) as the nuclear stain. The same anionic counterstain was used for all slides, and the optical densities of cell nuclei and cytoplasm were measured with the IBAS 2000 image analyzer. Alcoholic thionin gave the most intense nuclear stain, with a very high reproducibility of the staining pattern. Hematoxylin showed the highest coefficient of variation of the staining intensity. Both hematoxylin and gallocyanin gave some nonspecific cytoplasmic staining. Thionin-SO2 allowed a quantitative assessment of DNA, but gave a low staining intensity. Staining with the metal complex dyes interfered with subsequent staining with the pararosaniline Feulgen reagent. Alcoholic thioinin is thus recommended as a nuclear stain for cervical cytology in the Papanicolaou procedure, both for image analysis and for visual microscopy.     

A Modification of Mayer's Hemalum

A survey of histological literature shows that Delafield's hematoxylin is one of the most widely used histological stains. Personal interviews with workers in this field elicit comments which seldom appear in print. Most workers confess that it usually requires several unsuccessful attempts to make a usable stain. The experienced technician is no more successful than the self-taught beginner. I have examined, at various schools, preparations stained with so-called Delafield's stain and the range of colors and degrees of muddiness found were surprising. A somewhat greater degree of certainty and uniformity is desirable in a stain which is to be used by classes in elementary histology. Mayer's hemalum has not enjoyed the popularity which it deserves perhaps because the formula given in a widely used text is incorrect. This was found to be a source of discouragement to self-taught students in some smaller colleges.     

Nuclear staining with alum hematoxylin

The hematoxylin and eosin stain is the most common method used in anatomic pathology, yet it is a method about which technologists ask numerous questions. Hematoxylin is a natural dye obtained from a tree originally found in Central America, and is easily converted into the dye hematein. This dye forms coordination compounds with mordant metals, such as aluminum, and the resulting lake attaches to cell nuclei. Regressive formulations contain a higher concentration of dye than progressive formulations and may also contain a lower concentration of mordant. The presence of an acid increases the life of the solution and in progressive solutions may also affect selectivity of staining. An appendix lists more than 60 hemalum formulations and the ratio of dye to mordant for each.     

The Use of Buffered Solutions in Staining: Theory and Practice

The importance of pH in staining tissue is emphasized. The effect of pH upon the selectivity and intensity of staining with iron hematoxylin, malachite green, and eosin Y is considered. Many difficulties may be avoided by staining in the higher alcohols and directions are given for the preparation of buffer solutions from pH 1.2-8 in alcohol. The concentration of stains, time of staining, and order of staining are discussed for progressive and regressive staining. At pH 8 in 95% alcohol very few tissues stain with malachite green at a concentration of 1/1000 saturated. At pH 6 most cytoplasmic elements stain with malachite green at a concentration of 1/1000 saturated or with eosin Y at 1/250 saturated. As the pH is lowered more tissue elements stain until the nucleus is completely stained. This behavior is in accord with the theory of chemical combination of dyes with proteins, which states that proteins combine with basic dyes on the basic side of their isoelectric points and with acid dyes on the acid side of their isoelectric points. With hematoxylin stain the pH range is much shorter. A satisfactory hematoxylin stain is composed of 0.1% hematoxylin, 0.1% FeCl₃, and HCl to bring the pH to 1.2-1.6 in 80% alcohol. With this stain, which may be used immediately, the nuclei of most tissues begin to stain at pH 1.2 and much of the cytoplasm will be stained if the pH is raised to 1.4. The shortness of this effective pH range is thought to be due to the dissociation of the hematoxylin-iron-protein complex. The use of different dyes successively at different pH values, such as hematoxylin at 1.3, malachite green at 8, and eosin at 6, permits better differentiation of the tissue elements, and intelligent variations in the staining technic.     

Simultaneous quantification of nucleoproteins and comparison of methyl green-pyronin Y and Feulgen staining in sections of oral squamous cell carcinoma,dysplastic lesions and normal mucosa

A fundamental difference between normal cells and tumor cells is the proliferative activity of the nucleus and nucleolus, which increases progressively from normal to oral dysplastic mucosa to oral squamous cell carcinoma (OSCC). This activity is evaluated routinely using hematoxylin and eosin (H & E) staining, but in some cases, inter-observer variability occurs among pathologists. We evaluated cellular proliferation by staining sections with the methyl green-pyronin Y procedure and the Feulgen reaction. We also compared the efficacy of methyl green-pyronin Y and Feulgen staining for studying nuclear and nucleolar features in oral dysplastic mucosa and in different grades of OSCC. Sections cut from formalin fixed, paraffin embedded blocks of five normal mucosa, 15 dysplastic mucosa, 10 well-differentiated OSCC, 10 moderately differentiated OSCC and five poorly differentiated OSCC cases were stained with Hematoxylin and Eosin, methyl green-pyronin Y and the Feulgen reaction. The mean diameters of the nuclei and number of nucleoli showed significant differences. A progressive increase in diameter of the nucleus and number of nucleoli was observed from normal mucosa through poorly differentiated OSCC. We observed that methyl green-pyronin Y stain is more useful than Feulgen and hematoxylin and eosin for simultaneous quantitative assessment of both RNA and DNA. The simplicity of this technique makes it a valuable tool even for daily routine examination.     

A Modification of Mayer's Hemalum

A survey of histological literature shows that Delafield's hematoxylin is one of the most widely used histological stains. Personal interviews with workers in this field elicit comments which seldom appear in print. Most workers confess that it usually requires several unsuccessful attempts to make a usable stain. The experienced technician is no more successful than the self-taught beginner. I have examined, at various schools, preparations stained with so-called Delafield's stain and the range of colors and degrees of muddiness found were surprising. A somewhat greater degree of certainty and uniformity is desirable in a stain which is to be used by classes in elementary histology. Mayer's hemalum has not enjoyed the popularity which it deserves perhaps because the formula given in a widely used text is incorrect. This was found to be a source of discouragement to self-taught students in some smaller colleges.     

A Stable, High-Contrast Mordant for Hematoxylin Staining

Small, quantities of sulfuric acid will stabilize iron mordants, used in hematoxylin staining, by preserving these solutions against oxidation. The presence of acetic acid in the mordant improves the specificity of the stain. A stable, high-contrast mordant is obtained when both acids are combined with ferric-ammonium sulfate. This mordant, used in combination with fresh alkaline solutions of hematoxylin, has been found especially effective in the staining of certain nuclear and cytoplasmic components of plant cells.     

Adaptations of Goldner's Masson Trichrome Stain for the Study of Undecalcified Plastic Embedded Bone

Specialized adaptations for application of Goldner's Masson trichrome stain to plastic embedded undecalcified bone specimens are presented. This stain can be used successfully on methyl-glycol methacrylate, glycol methacrylate and Spurr embedded bones. The stain affords the advantage of good cellular staining due to the hematoxylin component with concomitant sharp discrimination of mature bone matrix which stains green, immature new bone matrix which stains red, and calcified cartilage which stains very pale green. Use of red filters during photomicrography aids in bone-osteoid discrimination in black and white photographs.     

Lugol's Hematoxylin

A few years ago Clark et al. (1973) published a modification of Cole's hematoxylin (Cole 1943) which had several advantages. Not the least of these was the progressive nature of the stain and the use of stable stock solutions from which the stain could be prepared volumetrically. A distinct disadvantage was the necessity of preparing the stain 24 hours before use. In some other work it was recently found that Lugol's solution was a more powerful oxidant than iodine alone. On this basis we developed another variant of Cole's hematoxylin.     

Highly Selective Acridine and Ethidium Staining of Bacterial DNA and RNA

The acridine dyes acridine orange (AO) and coriphosphine O (CPO) and ethidium bromide (EtBr) were used to stain bacterial digests after electrophoresis in native and denaturing (SDS) polyacrylamide gels and were shown to stain DNA and RNA preferentially over other subcellular components in the gels. Vegetative cell digests of Bacillus subtilis, Escherichia coli, Micrococcus luteus, and Staphylococcus aureus showed intense staining of DNA with AO and CPO near the top of the gel, but little or no staining of other cellular constituents. EtBr stained both DNA and RNA in the gels. Protein standards and non-nucleic acid cellular constituents stained faintly with high concentrations (> 100 μM) of AO, lower concentrations (13.9 μM) of CPO, and did not stain with 0.5 μg/ml EtBr in denaturing gels. The complete set of cellular biochemicals was visualized by silver staining, while the protein subset was detected by Coomassie blue staining. The highest concentrations of AO (120 μM) and CPO (13.9 μM) were shown to detect purified DNA in gels with a sensitivity in the range of 25–50 ng per band. This work demonstrates the specificity of acridine and ethidium dyes for nucleic acids, while illustrating the level of non-nucleic acid-specific interactions with other cellular components by staining of electrophoretically separated cellular components in a gel matrix.     

The History of Staining Logwood Dyes

Except for the cochineal derivatives, logwood extract was the first of the important modern stains to be employed in histology. Certain other natural dyes, such as madder and indigo, had been used earlier, but they are of little significance in discussing the history of staining, because none of them nor even alizarin, the derivative of madder, are of any appreciable significance in these days of synthetic dyes. Hematoxylin, on the other hand, still continues a very important stain, and it has played an interesting part in the history of staining.     

A rapid and simple method for visualizing milky spots in large fixed tissue samples of the human greater omentum

ABSTRACT

Milky spots are unique lymphoid structures in the greater omentum that participate in both immune homeostasis of the peritoneal cavity and formation of omental metastases. We developed a rapid and simple staining method to enable macro- or stereomicroscopic identification of these miniscule structures in large samples of fixed human greater omentum. By immersing approximately 6 × 4 cm samples of omental tissue in hematoxylin, these samples could be evaluated quickly for the presence of milky spots. We used an alum hematoxylin variant containing 1 g hematoxylin, 50 g aluminium ammonium sulfate, 0.2 g sodium iodide, 1 g citric acid and 50 g chloral hydrate. This staining method enabled us to determine the number, location, dimensions and topographical relation of milky spots to other structures. Our method also facilitates isolation of milky spots for further investigation. Hematoxylin imparts a blue color to the milky spots, which remains in place during further processing for paraffin embedding. This enabled easy recognition of milky spots during transfer through various solutions and permitted selection of relevant paraffin slides prior to additional staining.     

The History of Staining Logwood Dyes

Except for the cochineal derivatives, logwood extract was the first of the important modern stains to be employed in histology. Certain other natural dyes, such as madder and indigo, had been used earlier, but they are of little significance in discussing the history of staining, because none of them nor even alizarin, the derivative of madder, are of any appreciable significance in these days of synthetic dyes. Hematoxylin, on the other hand, still continues a very important stain, and it has played an interesting part in the history of staining.     

Reconstruction of 3-Dimensional Histology Volume and its Application to Study Mouse Mammary Glands

Histology volume reconstruction facilitates the study of 3D shape and volume change of an organ at the level of macrostructures made up of cells. It can also be used to investigate and validate novel techniques and algorithms in volumetric medical imaging and therapies. Creating 3D high-resolution atlases of different organs^1,2,3 is another application of histology volume reconstruction. This provides a resource for investigating tissue structures and the spatial relationship between various cellular features. We present an image registration approach for histology volume reconstruction, which uses a set of optical blockface images. The reconstructed histology volume represents a reliable shape of the processed specimen with no propagated post-processing registration error. The Hematoxylin and Eosin (H&E) stained sections of two mouse mammary glands were registered to their corresponding blockface images using boundary points extracted from the edges of the specimen in histology and blockface images. The accuracy of the registration was visually evaluated. The alignment of the macrostructures of the mammary glands was also visually assessed at high resolution.This study delineates the different steps of this image registration pipeline, ranging from excision of the mammary gland through to 3D histology volume reconstruction. While 2D histology images reveal the structural differences between pairs of sections, 3D histology volume provides the ability to visualize the differences in shape and volume of the mammary glands.     

Staining Chromosomes in Sections of Germinal Vesicles of Sarcoptid Mites by a Schiff Reagent

Chromosomes of oocytes, especially early prophase I stages, of Acaridae and Anoetidae species are difficult to stain by procedures using hematoxylin, Feulgen and aceto-orcein. Hematoxylin stains are intensely polychromatic in oocytes; the standard Feulgen procedure is negative with chromosomes during diffuse prophase stages. Satisfactory staining can be obtained with a supersensitive Schiff reagent (Tobie, W. C., Ind. Eng. Chem., Anal. Ed., 14: 405—406, 1942) made by reducing basic fuchsin with gaseous SO₂. Routinely prepared paraffin sections of mites fixed in Carnoy's 6:3:1 mixture were hydrolysed 5-8 min in 1 N HCl, washed well, and stained in this reagent: 1-2 hr for prophase oocytes, 10-20 min for condensed chromosomes. A second staining in a 0.5% aqueous solution of toluidine blue 0, adjusted to pH 5.3-5.5 with a citrate buffer, served to darken the original Feulgen stain. Counterstaining with 0.1-0.2% fast green FCF in the last fluid of the dehydrating series enhanced contrast between chromosomes and cytoplasm. This staining technic is also suitable for preparing whole mounts of mites.