Vital Staining- Pivotal Role in the Field of Pathology

A dye or stain is capable of penetrating the living cells or tissues and not inducing immediate degenerative changes. Vital stain means a stain that can be applied on a living cells without killing them. Thus these stains have been useful for both diagnostic and surgical techniques in a variety of medical specialities. As this technique is quite simple, easy to perform and cost effective, it can be useful in diagnosing any malignant changes occurring and also preventing them in a community level. Thus this vital staining can be used as an important tool in the fi eld of diagnostic pathology. This article reviews about the various types of vital stains and its applications in the fi eld of pathology. Review Article Vital StainingPivotal Role in the Field of Pathology Nitya K1*, Vikram S Amberkar2 and Bhuvaneshwari G Nadar3 1Assistant Professor, Department of Oral and Maxillofacial Pathology, Adhiparasakthi Dental College and Hospital, Melmaruvathur, Tamil Nadu, India 2Professor, Department of Oral and Maxillofacial Pathology, College of Dental Sciences, Davangere, Karnataka, India 3Department of Preventive and Community Dentistry, Private Dental Practioner, Mumbai, India Received: 27 April, 2020 Accepted: 11 June, 2020 Published: 12 June, 2020 *Corresponding author: Dr. Nitya K, Assistant Professor, Department of Oral and Maxillofacial Pathology, Adhiparasakthi Dental College and Hospital, Melmaruvathur, Tamil Nadu, India, Tel: 9962623510,8072448700; E-mail: nitya.aytin@gmail.com


Introduction
Oral cancer is the world's sixth most common malignancy and has one of the lowest survival rates, often due to late diagnosis. The most important determinant factor in cancer survival is diagnostic delay and it directly affects the survival rate [1].
Most oral cancers are preceded by precancerous lesions and early cancers that can be identifi ed by visual inspection of the oral cavity.1Conventional oral examination is useful in the discovery of some oral lesions, but it does not identify all potentially premalignant lesions, as some are not readily apparent to visual inspection alone [2]. Adjunctive techniques have emerged that may facilitate early detection of oral premalignant and malignant lesions [3].
Thorough clinical examinations being one of the best modalities in suspecting the pathology, the biggest disadvantage in the diagnosis lies in detecting the site of biopsy and also whether biopsy is required or not in early lesions. Nowadays various diagnostic aids have been established in detecting such lesions but easy chair-side techniques can be used if possible. And one such technique is by using vital staining with dyes which is used for early recognition of lesion and also can improve the patient survival rate.
The vital dyes are auxiliary techniques used ''in-vivo" in order to evidence suspicious lesions and/or to better defi ne the lesion margins and extension. These stains are capable of penetrating living cells and binding to specifi c biological structures [4].
There are basically three ways in which we impart colour to tissues. They are 1. Staining with dyes 2. Impregnation with metallic salts.
3. The formation of coloured compounds in situ by means of chemical reactions.
Vital staining is included under the category of staining with dyes, is a procedure where living cells take up certain dyes, which selectively stain some elements in the cells, like mitochondria, lipid vesicles, lysosomes etc [4].
Vital staining are of two types: Intra vital staining and Supra vital staining. When the technique is applied in vivo, it is referred to as intravital staining.Eg: gastric mucosa and oral mucosa. If the technique is applied in vitro, i.e. living cells outside the body it is known as supravital staining. Eg.
Leukocytes, nerve fi bres and nerve endings.

History
An English anatomist named John Hunter in the eighteenth century fi rst introduced vital staining. Most of the stains used for vital staining are dyes which are used in textile industry.
These dyes are diluted to a large extent before they can be used on living tissue.

Principle:
The principle behind vital staining is that particles of coloured matter are engulfed by macrophages [phagocytic cells]. The uptake of the dye may be because of phagocytosis and the coloured particle is seen within the cytoplasm of the cell [4].

Classifi cation [4]
Intravital Staining Applications [5] To determine the cell viability: Evans and Schulman noted that when leukocytes suspended in solution of tryphan blue, readily took up the dye upon mechanical injury. This is by supravital staining.
Chromoendoscopy: Is a procedure of using vital stains to identify abnormal mucosa. In patients who are at increased risk for squamous cell carcinoma, vital staining with lugol's iodine is performed at the time of upper endoscopy to aid in cancer detection, in such cases it is applied through spray catheter.
Here, the dye stains the glycogen in normal squamous epithelium a dark brown. Areas that are unstained particularly those that are larger than 5 mm are likely to be dysplastic / malignant and can be targeted for biopsy. This is an intravital staining, which is quick and easy to perform.
• To obtain cytological details of Protozoa.
• Used to stain various inclusions within the cell : Nile red fl uroscence stains lipid vesicles.
• Nerve fi bres: Using Methylene blue by Coers and Woolf which is a supravital staining.

Toluidine blue (Tb)
Discovered by William Henry Perkin in1856, after which it was primarily used in dye industry. The earliest technique of vital staining was developed by Paul Ehrlich in 1885, involved the immersion of freshly removed tissue in methylated blue.
In 1960, Suggestion was that TB may stain malignant epithelia of the mucous membrane in vivo, whereas normal tissue failed to retain the dye. TB was fi rst applied for in vivo staining by Reichart in 1963 for uterine cervical carcinoma in situ [6].
Chemistry: Also known as Tolonium chloride, methylanaline aminotoluene which belongs to Thiazine group, which is partially soluble in water and alcohol.
TB is an acidophilic metachromatic dye, that selectively stains acidic tissue components ( sulfates, carboxylates and phosphate radicals). TB has affi nity for nucleic acids and therefore binds to nuclear material of the tissues with high DNA and RNA content with molecular weight of 305.84 Composition: 100 ml of 1% TB contains 1 gm of toluidine blue powder, 10 ml of 1% acetic acid, 4.19 ml of absolute alcohol and 86 ml of distilled water, pH maintained at 4.5.

Principle of staining:
As the TB has affi nity for nucleic acids, the principle is based on the fact that dysplastic and neoplastic cells contain quantitatively more nucleic acids than normal tissues. Also malignant epithelium may contain wider intracellular canals than that of normal epithelium, which may facilitate penetration of the dye .The other proposals about the uptake of TB in dysplastic and carcinomas include the high density of nuclear material, loss of cell cohesion and increased mitosis [6,7].

Procedure:
• Rinse the mouth twice with water for 20s to remove debris.
• Apply 1% of acetic acid for 20seconds to remove ropey saliva and then apply 1% toluidine blue either with cotton swab or can be given as rinse.
• Then, 2 rinses with 1% acetic acid are done to reduce the mechanically retained stain. Finally rinse the mouth with water. Then the color change is assessd [7]. False positive results are seen with following lesions: Epithelial hyperplasia, hyperkeratotic lesions, infl ammatory and traumatic lesions, hyperplastic candidiasis can retain 60% of stain. The decision making can also be attributed to the experience of the clinician. Repeat the test after 10-14 days to allow the infl ammatory lesions to resolve. This reduces the false positivity False negative results are recognized in Low grade dysplasia, lichenoid reaction [5,8].

Advantages
• It is inexpensive and simple procedure • Can be used for screening high-risk patients who may have asymptomatic malignant lesions of oral cavity.
• Helpful for surgeon in operating room to evaluate free surgical margins.
• Toluidine blue staining of oral epithelium will not interfere with histologic staining or interpretation.

Disadvantages
• Both false positive and false negative results are more.
• Filiform papillae retain the dye due to high protein synthesis rate.
• TB appears to stain only three to four cells deep and thus refl ects changes in the epithelial layer alone. Invaded underlying tissue is not penetrated by the dye. So the extent of submucosal spread is diffi cult to appreciate.
As the dye reacts with nucleic acid, there is a possible mutagenic effect of TB when vitally stained cells are exposed to high energy radiation [8,9].

Lugol's iodine(Li)
Lugol's iodine was fi rst made in 1829, which is named after the French physician Lugol (1786-1851). Upto the end of 19th century, it was used as an antiseptic and disinfectant.
Other names for Lugol's solution are I2KI (iodinepotassium iodide), markodine, strong solution (systemic), aqueous iodine solution. In 1929, Schiller W described Iodine test to delineate areas of cervical pre cancers [10]. Hence it appears mustard yellow or saffron colour in dysplastic epithelium whereas normal epithelium appears mahogany brown colour due to high glycogen content. The vital dye with Lugol's solution is also called Schiller's test and during mucosal examination, Lugol's iodine is applied on the suspicious lesions [5,11].
Procedure: Rinse with water/ carbocisteine syrup 250 mg/5 ml and dry with a gauze to clear the mucin. Then apply Lugol's iodine until parakeratinized epithelium is stained a brown or black. After one to two minutes, interpret the stain reaction.
Most effective method is to stain the lesion with 3% Lugol's solution followed by 5% Lugol's solution. A study done by Nagaraju K (2010) [11] have used both toluidine blue and lugols iodine, showed that the combination can be used as a pretherapeutic assessment of biologic aggressiveness of lesions.

Methylene blue (Mb)
In 1990, MB has been used to detect gastric, prostrate and bladder cancer. In the diagnosis, the accuracy of MB technique is used for identifi cation of intestinal metaplasia, carcinoma or dysplasia.
The exact mechanism for the uptake of methylene blue in epithelial tissue may resemble that of toluidine blue in the acidophilic characteristic of cells with abnormal concentration of nucleic acid [14].
• Solution B: Pre and post rinse solution had 1% lactic acid; Purifi ed water.

Procedure:
The application of methylene blue was as follows: A 5-minute teeth brushing procedure is required before testing. Rinse the mouth with Bottle B for 20 seconds to remove food debris and excess saliva.  reaction . Wide, shallow or faint blue stains were marked as negative (-) reaction [13][14][15].
It plays a major role in demarcating the margins of lesion and thereby enabling clinician to estimate the correct size and extent of the lesion for proper management [15].

Acetic acid staining
In the past, 3-5% acetic acid was used as a vital staining for the detection of oral cancers in developing countries.
Sankarnarayan, et al. [16], used 3% acetic acid for the detection of cervical cancer , further Bhalang, et al. [17], used 5% as a clinical marker for detection of oral cancer. The normal squamous epithelium appears pink and the columnar epithelium red, due to the refl ection of light from the underlying stroma, which is rich in blood vessels. If the epithelium contains a lot of cellular proteins, acetic acid coagulates these proteins, which may obliterate the colour of the stroma.
The resulting aceto-whitening is seen distinctly as compared with the normal pinkish colour of the surrounding normal squamous epithelium [17].
Procedure: A piece of gauze soaked with 5% acetic acid is applied to a cleaned and dried lesion for 60 seconds.
After that gauze is removed and characteristic color change can be noted. Colorchange to opaque white is considered positive and transparent white as negative Figure 4. infl ammation and hyperkeratosis [18].

Rose bengal stain(Rb):
It is 4, 5, 6, 7 tetrachloro-2, 4, 5, 7 tetraiododerivate of fl uorescein, that can stain the desquamated ocular epithelial cells. It was observed by Norn, that with an exposure for 1 second, RB predominantly stains the cell membranes. An increasing the concentration or time of exposure, it produces predominant nuclear staining. RB staining has been even used to delineate the extent of the corneal and conjunctival neoplasms. RB is also used to detect oral epithelial dysplasia and OSCC [19].
Norn established the concept that RB stains the cells, wherever there is poor protection of the surface epithelium by the preocular tear fi lm. This concept has also been extended to the interpretation of other lesions, such as herpes simplex  [19,20].
Procedure: Distilled water is used to rinse the mouth for 1 minute in order to clean the lesions.
Apply RB solution with cotton with 2 mins. Again the distilled water is used to rinse the mouth for 1 min to remove excess stain Interpretation: Pink-positive; no color change-negative  A study done by Mittal N stated that RB staining is more promising in detection of dysplasia in precancerous or clinically benign lesions, when compared with toluidine blue because even the cases of mild dysplasia can be detected by RB staining [20].

Supra vital stains
Acridine orange: Acridine orange can be used as vital stain.
It stains green for DNA, and orange for RNA under fl uorescent microscopy. It also stains lysosomes [21].  [22].

DIOC stain for endoplasmic reticulum:
The absorption maximum is at 340nm and the emission maximum is 450nm, which emits blue colour.
Advantages: It is quick and easy to use.
Biopsy can be avoided/not required in intra vital staining. It is a non-invasive procedure. It is inexpensive and can be used for screening oral cancers. Eg. Toluidine blue test and using lugol's solution for screening esophageal carcinomas through Chromoendoscopy.
It provides more cytological details of the cell, where specifi c organelles can be stained.

Conclusion
As the oral cavity is easily accessible for the physical examination, various non-invasive diagnostic methods can be done to increase the early identifi cation thereby increasing thesurvival rate of patients. The early detection, which includes the screening of signs and symptoms will increase the probability of cure. And one such screening method is vital staining using various dyes that can be used even in mass screening is not much used in routine practice. Though there are various studies done using vital dyes, toluidine blue staining is most widely practiced in detecting oral potentially malignant lesions and malignancy. Thus, studies using other stains can be done further to know about its practical applications in various lesions.