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  In this article
    Abstract
    Introduction
    Materials and Me...
    Direct immunoflu...
    Indirect immunof...
    Skin separation ...
    Results
    Discussion
    References

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ORIGINAL ARTICLE
Year : 2002  |  Volume : 68  |  Issue : 6  |  Page : 330-333

Evaluation of salt split technique of immunofluorescence in bullous pemphigoid


Department of Dermatology, L. T. M. Medical College and General Hospital, Sion, Mumbai-400022, India

Correspondence Address:
Department of Dermatology, L. T. M. Medical College and General Hospital, Sion, Mumbai-400022, India

   Abstract 

Recent studies suggest that salt split skin is a more sensitive substrate than intact skin for immunofluorescence diagnosis of bullous pemphigoid. We undertook this study to define the role of salt split technique of immunofluorescence findings in 32 clinical and histopothology confirmed cases of bullous pemphigoid. Both direct and indirect immunofluorescences were performed using normal and split skin. Direct immunofluorescence positivity of 100% was noted with both routine and salt split method. Additional immunoreadont deposition was noted with direct method on split skin in 5 cases. Patterns of fluorescence in the latter were roof (40.60%), floor (9.4%) and combined roof and floor (50%). On indirect immunofluorescence, positivity was almost doubled with salt split technique ( 68%) as compared to routine method (36%). Thus, salt split technique was equivalent to routine on direct method in positivity with additional immunoreactant deposits noted in some and had double the sensitivity of the indirect method in detecting immunofluorescence in bullous pemphigoid.

How to cite this article:
Satyapal S, Amladi S, Jerajani H R. Evaluation of salt split technique of immunofluorescence in bullous pemphigoid. Indian J Dermatol Venereol Leprol 2002;68:330-3


How to cite this URL:
Satyapal S, Amladi S, Jerajani H R. Evaluation of salt split technique of immunofluorescence in bullous pemphigoid. Indian J Dermatol Venereol Leprol [serial online] 2002 [cited 2020 Oct 22];68:330-3. Available from: https://www.ijdvl.com/text.asp?2002/68/6/330/11180



   Introduction Top

Bullous pemphigoid is an autoimmune subepidermal blistering disorder characterized by outoantibodies to the basement membrane zone (BMZ). These are detected as a linear band of fluorescence, along the basement membrane zone, of C3 in 100%, IgG in 90-95% and less commonly IgM, IgA on direct immunofluorescence (DIF). [1] Circulating autoantibodies are detected in around 60-80% of cases on indirect immunofluorescence (IIF). [1] Recent studies suggest that skin which has been split through the BMZ using 1 mol/L sodium chloride to create an artificial blister is a more sensitive substrate than intact skin for this purpose. [2],[3] The present study was undertaken with the aim of evaluating this recently introduced modification and comparing it with the routine method of immunofluorescence in bullous pemphigoid.

   Materials and Methods Top

Thirty - two cases which were clinically and histologically bullous pemphigoid were included in the study. Serum samples were available in 25 cases. The samples for both routine and salt split method were collected and processed in the following manner: [Figure - 1]

   Direct immunofluorescence Top

A perilesional skin biopsy with 5mm punch was collected in Michel medium (transport medium) and stored at room temperature. Biopsy specimens were rinsed in Phosphate Buffered Saline (PBS) at pH 7.2 for 30 minutes. Snap freezing with embedding medium (Jung tissue freezing medium, Leica Instruments, Germany) was carried out in the cryostat at-20° C and 3-4 micron section obtained. A minimum of 3 sections were washed with PBS for 10 minutes thrice and air dried. A drop of specific regent-Fluorescein isothiocyanate (FITC) labeled antihuman IgG, IgM, IgA, complement C3 and fibrin were used. These slides were then incubated at 37°. C for 30 minutes in a moist chamber and then again rinsed with PBS (3 washing of 10 minutes each) to remove the conjugate. The slides were air dried and mounted with buffered glycerol (pH 8). Reading was done under the fluorescence microscope (Nikon model HB 1010 AF).

   Indirect immunofluorescence: Top

Serum samples were available in 25 cases. These were stored at 4° C prior to testing. Substrate used was normal human skin tissue, obtained from the plastic surgery department. The skin was transported in saline, rinsed briefly in PBS. [Figure - 2]
For routine method the tissue was directly mounted in embedding medium, snap frozen and 4 micron sections taken. Initial screening dilutions of sera in titres of 1:10 and 1:100 were made with PBS. Few drops of the dilutions of sera were poured on labeled slides and incubated at 37° C for 30 minutes in a moist chamber. Second incubation of the slides with FITC tagged anti human IgG was done for 30 minutes. The slides were washed, air dried and mounted with buffered glycerol and results read under the fluorescence microscope. Higher dilution was tested if sera was positive on 1 : 100. The fluorescence titre was determined as the highest dilution of serum giving visible fluorescence under the microscope. [Figure - 3]

   Skin separation method Top

For salt split, the method of obtaining tissue samples, transportation and processing remains the same for both DIF and IIF Tissue samples, if stored in Michel medium, were rinsed well with PBS for 30 minutes. Incubation in 10-15ml1 mol/ L sodium chloride at 40 C for 72 hours was done. The epidermis was then separated from the dermis with use of fine forceps to tease it gently. The specimens were processed in the same manner as described above to obtain 4 micron sections. DIF and IIF staining was carried out as above. The fluorescence was graded as follows:
1+
When seen only in high power (40 X)
2+
When seen with low and high power (20X & 40X)
3+
When seen even on scan­ner view (1 OX) [Figure:4]

   Results Top

Direct immunof­luorescence showed 100% positivity with both methods. C3 alone or in combination was found in 90. 60% cases on routine method. IgG deposits alone were seen in 2 cases. With salt the most common pat­tern was combined roof and floor in 50% cases. Roof alone was noted in 40. 6% and floor in 9. 4%. With salt split method an increase in the intensity of fluorescence was noted [Table - 1]. On routine method it was additionally noted with IgG in 7 cases. With salt split DIF, the strength of fluores­cence increased or remained the same but never decreased. Additional immunoreactant deposits were seen in 5 cases using split technique (15. 6%). They were IgG in 3, IgM in 2 and IgA in a single case [Table - 2].
On IIF by routine method positivity was 36%. This positivity was increased to 68% by salt split technique (p<0. 05, chi squre test). There was increase in the titres in 2 cases from 1:80 to 1:100 and 1:20 to 1:40. The pattern of fluorescence on DIF and IIF with salt split method remained consistent.

   Discussion Top

Salt split technique of immunofluores­cence has recently been described in evaluation of subepidermal blistering disorders. [2],[1] We under­took this study to evaluate this technique in our set up for bullous pemphigoid. Routine DIF positivity of 100% persisted with salt split method. This fig­ure is similar to that reported by Beutner et al. [1] On routine DIF, intensity of fluorescence increased but never decreased. Maximum intensity was ad­ditionally noted with IgG on split tissue testing. Enhanced intensity of fluorescence as observed has been shown in [Table - 1]. This shows that incu­bation of tissue in salt solution does not result in reduction of fluorescence in terms of both positiv­ity and intensity. With salt split method the pattern of linear roof and floor fluorescence was noted in maximum cases. Floor pattern was noted in 3 cases. Studies have shown that roof, roof and floor occur in bullous pemphigoid frequently. [3],[4] Floor pattern has rarely been reported.[4],[5],[6] This could be explained by heterogeneity of bullous pemphig­oid antigen and steric modification of the antigen due to such treatment, resulting in floor pattern. [7] This makes differentiation of bullous pemphigoid from epidermolysis bullosa acquisita (EBA) diffi­cult. However these can be differentiated by elec­tron microscopy, immunoelectron microscopy or response to therapy. [7] One study carried out re­cently has described the use of toad skin to differ­entiate between bullous pemphigoid and EBA when floor pattern is present. [7] In our study all 3 patients with dermal pattern of fluorescence were females with mild, moderate and severe disease respec­tively. No specific correlation, clinical and histo­pathological could be found. Additional immun­oreactant deposition was found in a total of 5 cases comprising IgG, IgM, IgA. No references regard­ing such a finding could be found. We think that this could be due to splitting resulting in exposing or making the BMS deposits more available for detection thereby increasing the sensitivity of the test.
On IIF with salt spilt the positivity increased to 68% from 36% from on routine method. Various studies have shown increased sensitivity of salt split skin as a substrate for IIF[8],[9] In addition, 2 cases showed increase in the titre of circulating autoantibodies when using split skin as substrate have been reported. [8] It has been hypothesised that sodium chloride therapy of substrate exposes or chemically modifies the BMZ antigens so that they react avidly with autoantibodies in the patients' sera. [8] Pattern on salt split IIF was consistent with that noted on salt split DIF. In cases of mixed pattern, fluorescence was more intense or equal in intensity to dermal fluorescence but never less.
Salt split technique in immunofluo­rescence is an additional tool to study and further elucidate immunopathology of bullous pemphigoid. Salt split skin as a substrate for IIF shows higher sensitivity in detecting circulating antibodies. The procedure is cheap, easy to carry out and does not create any extra burden on the immunofluorescence lab and should be employed as a routine in immunofluorescence study of patients with bullous pemphigoid.  

   References Top

1.Beutner EH, Chorzelski TP, Kumar V. Immunopathology of the Skin, 3rd edition, Wiley, New York 1987.   Back to cited text no. 1    
2.Gammon WR, Briggaman RA, Inman AO, et al. Differentiating anti lamina lucida and anti sublamina densa anti basement membrane zone antibodies by indirect immunofluorescence on 1. 0 Mol Sodium chloride separated skin. J Invest Dermatol 1984;82:139-144.   Back to cited text no. 2    
3.Gammon WR, Kowaleski C, Chorzelski TP, et al. Direct immunofluorescence studies of sodium chloride separated skin in differential diagnosis of bullous pemphigoid and epidermolysis bullosa acquisita. J Am Acad Dermatol 1990; 22: 664 - 670.   Back to cited text no. 3    
4.Domloge HN, Bisalbutra P, Gammon WR et al. Direct immunofluorescence microscopy of 1 mol/L Nacl treated patient skin. JAM Acad Dermatal 1991; 24: 946 - 951.   Back to cited text no. 4    
5.Logan RA, Bhogal B, Das AK, et al. Localisation of bul lous pemphigoid antibody on indirect immunofluorescence study of 228 cases using salt split technique. Br J Dermatol 1987;117:471-8.   Back to cited text no. 5  [PUBMED]  
6.Nimi Y, Zhu XJ, Bystryn JC. Identification of cicatricial pemphigoid antigen. Arch Dermatol 1992;128: 55 - 57.   Back to cited text no. 6    
7.Resmussen HR, Brandrup BF. Use of Nacl. separated human skin in detection of circulating anti basement zone antibodies. Acta Dermatol Venereal 1989;69:515 - 519.   Back to cited text no. 7    
8.Mochado P, Micholaki, Roche P, et al. Serological diagnosis of bullous pemphigoid. Comparison of the sensitivity of immunofluorescence on salt split skin to immunoblotting. Br J Dermatol 1992; 126: 236-241.   Back to cited text no. 8    
9.Pang RK, lee YS, Ratnam KV. Floor pattern in salt split cannot distinguish bullous pemphigoid from epidermolysis bullosa acquisita. Use of toad skin. Arch Dermatol 1993; 129:744-746.   Back to cited text no. 9    

 

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