A new systematization of histological analysis for the diagnosis of Hirschsprung’s disease

Serafini, Suellen; Santos, Maria Mercês; Tannuri, Ana Cristina Aoun; Loreto, Celso Di; Gonçalves, Josiane de Oliveira; Tannuri, Uenis

doi:10.1016/j.clinsp.2023.100198

Abstract

Background:

Hirschsprung’s Disease (HD) is characterized by intestinal sub-occlusion and the absence of enteric ganglion cells. A rectal biopsy examination is performed to confirm the diagnosis. In a recent study, we demonstrated that the analysis of 60 sections of rectal mucosa and submucosa stained by H&E may ensure a 90% diagnostic accuracy. Although the need to analyze so many sections makes the process of reading the slides more time-consuming, this encouraged us to study their distribution in the healthy rectal submucosa, to simplify the diagnosis.

Objectives:

To develop a method that facilitates HD diagnosis by studying the distribution of ganglion cells in the submucosal plexus.

Methods:

Using the calretinin technique, we studied the distribution of plexuses in 60 fragments of rectal submucosa from 19 cadavers. After the study, the reading method created was used for diagnosis in 47 cases of suspected HD, using H&E staining. The accuracy was verified by comparing the results obtained with H&E to those obtained with the acetylcholinesterase technique, the golden standard in our laboratory.

Results:

The study of submucosal plexus distribution showed that just by examining the submucosal region every 20 µm, approximately, it is possible to locate a ganglionic plexus, and we have already been able to diagnose HD with 93% accuracy.

Conclusion:

The study of ganglion cell distribution enabled the creation of a simplified method for reading the slides. The method applied achieved good accuracy and it can be used as an alternative method in HD diagnosis.

Keywords:
Hirschsprung’s Disease; Rectal biopsy; Ganglion cells; Submucosa

HIGHLIGHTS

Hirschsprung’s disease is a congenital disorder characterized by intestinal sub-occlusion and the absence of neurons in the enteric nervous system, with involvement of varying segments of the large intestine.

The treatment is only surgical, for this reason the diagnosis must have a good accuracy.

This research demonstrates a simplified method to perform the diagnosis with 93% of accuracy.

The use of this method brings benefits to the patient, the pathologist, and the service.

Background

Hirschsprung’s Disease (HD), also known as congenital megacolon, is characterized by intestinal sub-occlusion with an underlying pathology marked by the absence of neurons in the enteric nervous system, affecting different segments of the large intestine.¹1 Whitehouse FR, Kernohan JW. Myenteric plexus in congenital megacolon – study of eleven cases. Arch Intern Med 1948;82(1):75-111.,²2 Consolato S. Hirschsprung’s disease: Historical notes and pathological diagnosis on the occasion of the 100th anniversary of Dr. Harald Hirschsprung’s death. World J Clin Pediatr 2015;4(4):120-5.

Although the disease was first described in 1886 by Harald Hirschsprung, it still poses a challenge, both in terms of its etiopathogenesis and its genetic aspects.²2 Consolato S. Hirschsprung’s disease: Historical notes and pathological diagnosis on the occasion of the 100th anniversary of Dr. Harald Hirschsprung’s death. World J Clin Pediatr 2015;4(4):120-5.,³3 Gugelmin ES, Torres LFB. The accuracy of acetylcholinesterase reaction in rectal suction biopsy in the diagnosis of Hirschsprung’s disease. J Bras Patol Med Lab 2005;41 (6):431-6.,⁴4 Klein M, Varga I. Hirschsprung’s Disease – recent understanding of Embryonic aspects, etiopathogenesis and future treatment avenues. Medicina 2020;56(11):611.. (Kaunas). After the pathophysiological characterization of HD in 1948 by Whitehouse and Kernohan,¹1 Whitehouse FR, Kernohan JW. Myenteric plexus in congenital megacolon – study of eleven cases. Arch Intern Med 1948;82(1):75-111. rectal biopsy became the method of choice for confirming the diagnosis. However, there is still controversy about the best technique for preparing the biopsy material.

In 1955, Swenson demonstrated the possibility of performing the diagnosis with 98% accuracy in fragments of the total rectal wall using H&E staining, since the identification of neurons in the myenteric plexuses rules out the diagnosis.⁵5 Swenson O, Sherman JO, Fischer JH. Diagnosis of congenital megacolon: an analysis of 501 patients. J Pediatr Surg 1973;8(5):587-93. Nonetheless, this biopsy requires general anesthesia, which makes the procedure more invasive and more difficult to perform, especially in newborns.⁶6 Santos M.M.. Megacolo congênito. In: Tannuri, U. Doenças cirúrgicas da criança e do adolescente. SP: Manole, 2010. – Coleção Pediatria. Instituto da Criança HCFMUSP. v13. p.219-229. Five years later, Bodian⁷7 Bodian M. Pathological aids in the diagnosis and management of Hirschsprung’s disease Dyke, SC, editor Recent Advances in Clinical Pathology. Series 3 1960: 384. showed that HD diagnosis could be less invasive in smaller fragments, containing only mucosa and submucosa, utilizing H&E staining. Unfortunately, this method is not universally well accepted due to the dispersed distribution of the ganglion plexuses in the submucosal layer, which makes the diagnosis more difficult.⁸8 Tjaden NE, Trainor PA. The developmental Etiology and pathogenesis of Hirschsprung disease. Transl Res 2013;162(1):1-15.

Therefore, when Meier-Ruge⁹9 Meier-Ruge W, Lutterbeck PM, Herzog B, Morger R, Moser R, Schärli A. Acetylcholinesterase activity in suction biopsies of the rectum in the diagnosis of Hirschsprung’s disease. J Pediatr Surg 1972;7(1):11–7. described the histochemical technique for AChE activity in 1972, it became the method of choice for HD diagnosis in many centers worldwide. In the case of HD, this histochemical method shows the presence of fibrils and hypertrophied nerve trunks.¹⁰10 Brito IA. Atividade de acetilcolinesterase na moléstia de Hirschsprung: características etárias e estudo evolutivo. São Paulo: Tese (Doutorado) – Faculdade de Medicina, Universidade de São Paulo; 1985. p. 74p.,¹¹11 Karnovsky MJ, Roots L. A “direct-coloring” thiocholine method for cholinesterases. J Histochem Cytochem 1964;12:219-21. In addition, the technique has the advantage of being specific and it requires only a small fragment of mucosa and submucosa.³3 Gugelmin ES, Torres LFB. The accuracy of acetylcholinesterase reaction in rectal suction biopsy in the diagnosis of Hirschsprung’s disease. J Bras Patol Med Lab 2005;41 (6):431-6.,¹²12 Andrassy RJ, Isaacs H, Weitzman JJ. Rectal suction biopsy for the diagnosis of Hirschsprung’s disease. Ann Surg 1981;193(4):419-24. In our Service, this method was elected as the gold standard for HD diagnosis. In 2008, Santos et al.¹³13 Santos MM, Tannuri U, Coelho MC. Study of acetylcholinesterase activity in rectal suction biopsy for diagnosis of intestinal dysganglionoses: 17-year experience of a single center. Pediatric Surg Int 2008;24(6):715-9. demonstrated that AChE-stained biopsies provide 93.5% accuracy, by analyzing material from 297 children who underwent rectal biopsies. Despite being a specific and accurate diagnostic method, it requires specific reagents, a cryostat, and trained staff to carry it out. Finally, the rectal material biopsy may easily undergo autolysis if not immediately processed.¹⁰10 Brito IA. Atividade de acetilcolinesterase na moléstia de Hirschsprung: características etárias e estudo evolutivo. São Paulo: Tese (Doutorado) – Faculdade de Medicina, Universidade de São Paulo; 1985. p. 74p.,¹³13 Santos MM, Tannuri U, Coelho MC. Study of acetylcholinesterase activity in rectal suction biopsy for diagnosis of intestinal dysganglionoses: 17-year experience of a single center. Pediatric Surg Int 2008;24(6):715-9.

In the last 30 years, advances in immunohistochemical techniques have made the utilization of calretinin markers feasible for HD diagnosis. Calretinin is a calcium-binding protein found in ganglion cells and thin fibrils in the colon mucosa lamina propria of patients with normal gut innervation. This method requires only a small fragment of mucosa and submucosa.¹²12 Andrassy RJ, Isaacs H, Weitzman JJ. Rectal suction biopsy for the diagnosis of Hirschsprung’s disease. Ann Surg 1981;193(4):419-24.,¹⁴14 Gonzalo DH, Plesec T. Hirschsprung disease and use of calretinin in inadequate rectal suction biopsies. Arch Pathol Lab Med 2013;137(8):1099-102.,¹⁵15 Tran VQ, Lam KT, Truong DQ, Dang MH, Doan TTP, Segers V, et al. Diagnostic value of rectal suction biopsies using calretinin immunohistochemical staining in Hirschsprung disease. J Pediatr Surg 2016;51(12):2005-9. Currently, we may affirm that the investigation of AChE activity and the immunohistochemical labeling of calretinin are the most widely used methods for HD diagnosis.

The major obstacle to the routine utilization of AChE activity and immunohistochemical labeling of calretinin for HD diagnosis is that it is not available in all medical centers. So, new studies have emerged aiming to simplify HD diagnosis, revisiting the use of H&E staining in rectal mucosa and submucosa fragments.¹⁶16 Szylberg T, Marszatek A. Diagnosis of Hirschsprung’s disease with particular emphasis on histopathology. A systematic review of current literature. Prz Gastroenterol 2014;9 (5):264-9.,¹⁷17 Setiadi JA, Dwihantoro A, Iskandar K, Heriyanto DS, Gunadi T. The utility of the hematoxylin and eosin staining in patients with suspected Hirschsprung disease. BMC Surg 2017;17:71.,¹⁸18 Serafini S, Santos MM, Tannuri ACA, Zerbini MCN, Coelho MCM, Gonçalves JO, et al. Is hematoxylin-eosin staining in rectal mucosal and submucosal biopsies still useful for the diagnosis of Hirschsprung disease? Diagn Pathol 2017;12(1):84.,¹⁹19 Greenberg A, Aizic A, Zubkov A, Borsekofsky S, Hagege RR, Hershkovitz D. Automatic ganglion cell detection for improving the efficiency and accuracy of hirschsprung disease diagnosis. Sci Rep 2021;1:3306. The detection of ganglion cells in the submucosal plexuses by utilizing H&E staining, as simple as the method might be, still creates a lot of controversies. Several authors cite the difficulty in identifying these cells, since they are diffusely distributed throughout the intestinal submucosa.¹⁴14 Gonzalo DH, Plesec T. Hirschsprung disease and use of calretinin in inadequate rectal suction biopsies. Arch Pathol Lab Med 2013;137(8):1099-102.,²⁰20 Qualman SJ, Jaffe R, Bove KE, Monforte-Muñoz H. Diagnosis of Hirschsprung disease using the rectal biopsy: multi-institucional survey. Pediatr Dev Pathol 1999(2):588–96.,²¹21 Agrawal RK, Kakkar N, Vasishta RK, Kumari V, Samujh R, Rao KLN. Acetylcholinesterase histochemistry (AChE) - A helpful technique in the diagnosis and in aiding the operative procedures of Hirschsprung disease. Diagn Pathol 2015;10:1–827.,²²22 Kapur RP. Practical pathology and genetics of Hirschsprung’s disease. Semin Pediatr Surg 2009;18(4):212–23. We demonstrated, in a recently published study conducted at our laboratory, that it is possible to get an accurate HD diagnosis only with mucosal and submucosal fragments stained by H&E, as long as at least 60 sections of each fragment are analyzed.¹⁸18 Serafini S, Santos MM, Tannuri ACA, Zerbini MCN, Coelho MCM, Gonçalves JO, et al. Is hematoxylin-eosin staining in rectal mucosal and submucosal biopsies still useful for the diagnosis of Hirschsprung disease? Diagn Pathol 2017;12(1):84. Using this method, we can accurately diagnose HD in a simpler and less invasive way, although the need to analyze so many sections makes the process of reading the slides more time-consuming, taking about 30 to 60 minutes.²⁰20 Qualman SJ, Jaffe R, Bove KE, Monforte-Muñoz H. Diagnosis of Hirschsprung disease using the rectal biopsy: multi-institucional survey. Pediatr Dev Pathol 1999(2):588–96. These findings aroused the interest in better studying the distribution of plexuses in the submucosal region of normal patients since there are no pre-existing studies concerning that matter. So, in the present study, we aimed to develop a model to systematize and facilitate the process of reading the slides. It is worth mentioning that this study will be of great value for pediatric surgery services that have no access to such specific diagnostic methods for HD, such as AChE and calretinin techniques.

Methods

This study was approved by the Research Ethics Committee of the Institution (Process number 3.119.706). We also obtained a letter of assent from the director of the São Paulo city morgue for the use of cadavers, and a signed Informed Consent Form (ICF) from family members.

Study of the distribution of submucosal plexuses in intestines with normal innervation

Nineteen fragments from the rectal wall of cadavers obtained from the city morgue (Serviço de Verificação de Óbitos de São Paulo - SVOC-SP) between July 2019 and March 2020 were obtained with the consent of the respective family members. The donors were adults of varying ages and genders. The exclusion criteria for the collection of specimens were cadavers with < 12h postmortem, for quality reasons, as after this period tissues lose their integrity, and cadavers of people with Chagas disease, which may cause acquired megacolon in adults due to the loss of ganglion cells in the enteric plexuses.²³23 Jabari S, Oliveira EC, Brehmer A, Silveira ABM. Chagasic megacolon: enteric neurons and related structures. Histochem Cell Biol 2014;142:235–44.

Initially, a block was collected from the terminal region of the bowel during a necropsy examination. Then, a small fragment was removed in our laboratory, simulating a rectal biopsy procedure. The collected specimens were placed in formalin solution for tissue preparation, in an automatic processor (Lupe PT05, Brazil). The samples were embedded in paraffin blocks following a perpendicular orientation. Using a microtome (Leica RM2255, Germany), sixty (60) 3 µm-thick sections were serially obtained from each fragment. We then applied the calretinin immunohistochemical technique using an antibody (Rabbit Anti-Human Calretinin Monoclonal Antibody – Clone SP13 – Abcam, USA). A total of 180 µm comprised of 60 serial 3 µm sections of each sample were analyzed to determine the location of the plexuses (Figs. 1 and 2).

Fig. 1
Slides layout demonstrating the position of the cuts.

Fig. 2
Calretinin labeling ganglion cells in submucosal plexus (400× magnification).

Development of the model to systematize the analysis

After data collection, we systematized the material analysis by equidistance, checking the distance between the submucosal plexuses for each sample. We started the analysis by the extremities (3 µm and 180 µm) and inserted new measurements, always at the midpoint between the previous distances, until 100% accuracy was reached.

(a) Accuracy of the first and last 180-micron distance cut analyses.
(b) Accuracy of the first, 30th, and last 90-micron distance cut analyses.
(c) Accuracy of the first, 15th, 30th, 45th, and last 45-micron distance cut analyses.
(d) Accuracy of the first, 8th, 15th, 22nd, 30th, 37th, 45th, 52nd, and last 20-micron distance cut analyses.

Applying the model to HD diagnosis

This study examined 47 paraffin blocks prepared in our laboratory. These blocks contained biopsies to confirm HD diagnosis in patients treated at our institution, in the period ranging from 2016 to 2019. Two fragments of rectal mucosa and submucosa were collected from each patient. One fragment was frozen for AChE activity screening, and the other was embedded in paraffin and stored for further studies. The harvested fragment for AChE screening was processed by freezing and subsequently sectioned in a cryostat (Slee MEV, Germany). The AChE activity was demonstrated by the method of Karnovsky and Roots¹¹11 Karnovsky MJ, Roots L. A “direct-coloring” thiocholine method for cholinesterases. J Histochem Cytochem 1964;12:219-21.,²⁴24 Hanker JS, Thomburg LP, Yates PE, Moore HG. The demonstration of cholinesterases by the formation of osmium blacks at the sites of Hatchett’s brown. Histochemie 1973;37(3):223–42. and counterstained by Carrazzi’s hematoxylin (Fig. 3). The 47 specimens were also included perpendicularly and embedded in paraffin. They were sectioned with an electronic microtome (Leica RM2255, Germany). We utilized the same method for preparing the material, cutting 180 µm (60 cuts) from each sample, but we used H&E staining. The H&E-stained slides were examined using the proposed reading method to determine whether there were ganglion cells in the submucosal plexus; the observers had no information about the previous diagnosis made by AChE screening. The image below shows the submucosal plexus with three ganglion cells in evidence, 400× magnification (Fig. 4).

Fig. 3
Acetylcholinesterase pattern for Hirschsprung’s disease showing large quantities of cholinergic fibers (400× magnification).

Fig. 4
Submucosal plexus with 3 ganglion cells stained by Hematoxylin-Eosin (400× magnification).

Statistical analysis

Spearman’s test was applied to verify if there was any correlation between donor age or postmortem time and the number of plexuses found in each sample. To analyze the matches between H&E staining and AChE technique, i.e., the golden standard, we used the Kappa and Chi-Square statistical model for sensitivity and specificity after the contingency tables were put together. R software version 4.0.2 was used to perform the statistical analyses.

Results

Study of ganglion cell distribution in samples with normal rectal innervation

Among the 19 cadaver donors who participated in the study of the plexuses’ location, 12 were male and 7 were female. The patients’ ages ranged from 26 to 92 years old, and the number of plexuses also varied, as shown in (Table 1): There was no correlation between the number of plexuses observed and the age or the post-mortem time (Fig. 5).

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Table 1
Table demonstrating gender, age, time lapse between death and necropsy, number and approximate location of plexuses.

Fig. 5
Graphic demonstrating the values of correlation between age and postmortem × number of plexuses.

The data obtained from the sample reading allowed us to analyze the diagnostic accuracy according to the distance between the plexuses. We verified that at every 20 µm of distance, it is possible to locate a ganglionic plexus in the submucosal area, with an accuracy of 100% (Fig. 6).

Fig. 6
Graphic demonstrating the accuracy of reading by equidistant cuts.

Applying the systematization method to the reading of H&E-stained specimens

Out of the 47 specimens, 31 were collected from children with HD, and the other 16 were obtained from children who did not have the disease based on AChE screening. The reading method was applied to the analysis of these 47 biopsies from suspected HD patients, prepared using H&E staining. For this purpose, we performed an anatomopathological evaluation of every 20 µm of each fragment and compared our results with the diagnosis made by AChE. The accuracy obtained was 93.5%, with only three discordant cases. Validation values are shown in Table 2.

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Table 2
Values for validation of the Hematoxylin-Eosin method.

Discussion

In the current investigation, we made a refinement studying normal rectum fragments collected from adult cadavers, since it is easier to get samples from them when compared to getting samples from children. It is known that intestinal ganglion maturation is based on the maturation of ganglion cells, which may occur by the age of three weeks, so that was the reason why we collected rectal fragments from adult cadavers. Finally, in the present study, we were only interested in verifying whether ganglion cells were present in the adult normal rectum.²⁵25 Kaway H, Satomi K, Morishita Y, Murata Y, Sugano M, Nakano N, et al. Developmental markers of ganglion cells in the enteric nervous system and their application for evaluation of Hirschsprung disease. Pathology Int 2014;64(9):432–42.,²⁶26 Kulkarni S, Micci MA, Leser J, Shin C, Tang SC, Fu YY, et al. Adult enteric nervous system in health is maintained by a dynamic balance between neuronal apoptosis and neurogenesis. Proc Natl Acad Sci U S A 2017;114(18):E3709–18.,²⁷27 Pawolski V, Schmidt MHH. Neuron-glia Interaction in the developing and adult enteric nervous system. Cells 2020;10(1):47. Also, the authors may not consider the differences in ganglion cell counts between adults and children, as this number is constant over time, thanks to a mechanism of balance between apoptosis and neurogenesis.²⁶26 Kulkarni S, Micci MA, Leser J, Shin C, Tang SC, Fu YY, et al. Adult enteric nervous system in health is maintained by a dynamic balance between neuronal apoptosis and neurogenesis. Proc Natl Acad Sci U S A 2017;114(18):E3709–18.

The only excluding factor that had to be considered was the time lapse between death and the rectum fragment collection, as in periods above twelve hours, tissue autolysis could occur. In addition, cadavers with any suspicion of Chagas disease were dismissed, as Chagas disease may cause acquired megacolon due to the inflammatory loss of myenteric ganglion cells.²³23 Jabari S, Oliveira EC, Brehmer A, Silveira ABM. Chagasic megacolon: enteric neurons and related structures. Histochem Cell Biol 2014;142:235–44.

To confirm HD diagnosis, the immunohistochemical labeling of the calretinin method was chosen, because calretinin can specifically identify all ganglion cells in the histological cut. No ganglion cell went unnoticed by the observer during the reading of the slices.¹⁵15 Tran VQ, Lam KT, Truong DQ, Dang MH, Doan TTP, Segers V, et al. Diagnostic value of rectal suction biopsies using calretinin immunohistochemical staining in Hirschsprung disease. J Pediatr Surg 2016;51(12):2005-9.,²⁸28 Park WH, Choi SO, Kwon KY, Chang ES. Acetylcholinesterase histochemistry of rectal suction biopsies in the diagnosis of Hirschsprung’s disease. J Korean Med Sci 1992;7 (4):353–9. In addition, we observed a great variation in the number of neuronal cells and plexuses, between 10 and 32 cells, and between 7 and 15 plexuses per sample. Despite these variations, we could not show any correlation between the number of observed plexuses in the cadavers, which differs from previous evidence that with aging the intestinal plexuses could lose their cells.²⁶26 Kulkarni S, Micci MA, Leser J, Shin C, Tang SC, Fu YY, et al. Adult enteric nervous system in health is maintained by a dynamic balance between neuronal apoptosis and neurogenesis. Proc Natl Acad Sci U S A 2017;114(18):E3709–18.,²⁹29 Santer RM, Baker DM. Enteric neuron numbers and sizes in Auerbach’s plexus in the small and large intestine of adults and aged rats. J Auton Nerv Syst 1988;25(1):59–67. Also, we did not observe any correlation between the time elapsed after death in the moment of rectum sample collection and the number of cells observed in the analysis.

Regarding the analysis in equidistant histological cuts, the goal was to verify the distance between the ganglion plexuses. We started by analyzing the extremities (cut 1 and cut 60) and, after that, we inserted new cuts, always in the middle point between the previous two cuts, until we reached satisfactory accuracy. We found out that nine cuts 20 µm away from one another was a sufficient distance. Then, we applied this method to suspected HD cases, with an accuracy of 93.5%, similar to the specific methods utilized for HD diagnosis.¹³13 Santos MM, Tannuri U, Coelho MC. Study of acetylcholinesterase activity in rectal suction biopsy for diagnosis of intestinal dysganglionoses: 17-year experience of a single center. Pediatric Surg Int 2008;24(6):715-9.,¹⁴14 Gonzalo DH, Plesec T. Hirschsprung disease and use of calretinin in inadequate rectal suction biopsies. Arch Pathol Lab Med 2013;137(8):1099-102.,¹⁸18 Serafini S, Santos MM, Tannuri ACA, Zerbini MCN, Coelho MCM, Gonçalves JO, et al. Is hematoxylin-eosin staining in rectal mucosal and submucosal biopsies still useful for the diagnosis of Hirschsprung disease? Diagn Pathol 2017;12(1):84.,²⁸28 Park WH, Choi SO, Kwon KY, Chang ES. Acetylcholinesterase histochemistry of rectal suction biopsies in the diagnosis of Hirschsprung’s disease. J Korean Med Sci 1992;7 (4):353–9.

When we compared the method of equidistant cuts and the AChE method for HD diagnosis, there were only three divergent cases, confirmed to be false positives, i.e., in nine cuts, no ganglion cells were found, although the patient did not show any HD clinical evidence.

Therefore, with this study, it is possible to affirm that by analyzing a rectal biopsy material every 20 µm there is a greater chance of visualizing a submucosal plexus in patients with normal bowel innervation.

It is important to point out as a limitation of this study the difficulty in obtaining samples from donors. In our initial project, we intended to collect and analyze at least 60 samples, but, due to the pandemic, SVOC-SP suspended all studies involving the collection of material between 2020-2022, so we could collect only 19 samples. It is also worth mentioning that the process of preparing the slides and reading the samples from donors was very wearisome.

As a strength, we managed to achieve the result, by revisiting a technique as consolidated as H&E staining, so it was possible to create a more efficient method for HD diagnosis.

Conclusion

In conclusion, the analysis of rectal submucosa every 20 µm showed there is a high probability of finding a ganglion plexus in bowels with normal innervation. This knowledge supported the formulation of a new, simpler, and faster method for pathological evaluation, to be utilized by pathologists for HD diagnosis.

Availability of data and materials

The data supporting the conclusions are included in the article. Raw data are available upon request.

Funding

FAPESP Project no 2019/10339-1.
Ethical approval and consent to participate

The ethics committees of Hospital das Clínicas - University of Sao Paulo Medical School, Sao Paulo, Brazil approved this study (CAAE: 05219018.3.0000.0065). Consent to participate was required only in the first part of this study.
Consent for publication

Not applicable

Abbreviations:

HD, Hirschsprung’s Disease;
SVOC-SP, São Paulo City Morgue; H&E, Hematoxylin-Eosin;
AChE, acetylcholinesterase;
ICF, informed consent form

Acknowledgments

To the Smart Stat Analysis company, for the statistical analysis service.

References

¹
Whitehouse FR, Kernohan JW. Myenteric plexus in congenital megacolon – study of eleven cases. Arch Intern Med 1948;82(1):75-111.
²
Consolato S. Hirschsprung’s disease: Historical notes and pathological diagnosis on the occasion of the 100th anniversary of Dr. Harald Hirschsprung’s death. World J Clin Pediatr 2015;4(4):120-5.
³
Gugelmin ES, Torres LFB. The accuracy of acetylcholinesterase reaction in rectal suction biopsy in the diagnosis of Hirschsprung’s disease. J Bras Patol Med Lab 2005;41 (6):431-6.
⁴
Klein M, Varga I. Hirschsprung’s Disease – recent understanding of Embryonic aspects, etiopathogenesis and future treatment avenues. Medicina 2020;56(11):611.. (Kaunas).
⁵
Swenson O, Sherman JO, Fischer JH. Diagnosis of congenital megacolon: an analysis of 501 patients. J Pediatr Surg 1973;8(5):587-93.
⁶
Santos M.M.. Megacolo congênito. In: Tannuri, U. Doenças cirúrgicas da criança e do adolescente. SP: Manole, 2010. – Coleção Pediatria. Instituto da Criança HCFMUSP. v13. p.219-229.
⁷
Bodian M. Pathological aids in the diagnosis and management of Hirschsprung’s disease Dyke, SC, editor Recent Advances in Clinical Pathology. Series 3 1960: 384.
⁸
Tjaden NE, Trainor PA. The developmental Etiology and pathogenesis of Hirschsprung disease. Transl Res 2013;162(1):1-15.
⁹
Meier-Ruge W, Lutterbeck PM, Herzog B, Morger R, Moser R, Schärli A. Acetylcholinesterase activity in suction biopsies of the rectum in the diagnosis of Hirschsprung’s disease. J Pediatr Surg 1972;7(1):11–7.
¹⁰
Brito IA. Atividade de acetilcolinesterase na moléstia de Hirschsprung: características etárias e estudo evolutivo. São Paulo: Tese (Doutorado) – Faculdade de Medicina, Universidade de São Paulo; 1985. p. 74p.
¹¹
Karnovsky MJ, Roots L. A “direct-coloring” thiocholine method for cholinesterases. J Histochem Cytochem 1964;12:219-21.
¹²
Andrassy RJ, Isaacs H, Weitzman JJ. Rectal suction biopsy for the diagnosis of Hirschsprung’s disease. Ann Surg 1981;193(4):419-24.
¹³
Santos MM, Tannuri U, Coelho MC. Study of acetylcholinesterase activity in rectal suction biopsy for diagnosis of intestinal dysganglionoses: 17-year experience of a single center. Pediatric Surg Int 2008;24(6):715-9.
¹⁴
Gonzalo DH, Plesec T. Hirschsprung disease and use of calretinin in inadequate rectal suction biopsies. Arch Pathol Lab Med 2013;137(8):1099-102.
¹⁵
Tran VQ, Lam KT, Truong DQ, Dang MH, Doan TTP, Segers V, et al. Diagnostic value of rectal suction biopsies using calretinin immunohistochemical staining in Hirschsprung disease. J Pediatr Surg 2016;51(12):2005-9.
¹⁶
Szylberg T, Marszatek A. Diagnosis of Hirschsprung’s disease with particular emphasis on histopathology. A systematic review of current literature. Prz Gastroenterol 2014;9 (5):264-9.
¹⁷
Setiadi JA, Dwihantoro A, Iskandar K, Heriyanto DS, Gunadi T. The utility of the hematoxylin and eosin staining in patients with suspected Hirschsprung disease. BMC Surg 2017;17:71.
¹⁸
Serafini S, Santos MM, Tannuri ACA, Zerbini MCN, Coelho MCM, Gonçalves JO, et al. Is hematoxylin-eosin staining in rectal mucosal and submucosal biopsies still useful for the diagnosis of Hirschsprung disease? Diagn Pathol 2017;12(1):84.
¹⁹
Greenberg A, Aizic A, Zubkov A, Borsekofsky S, Hagege RR, Hershkovitz D. Automatic ganglion cell detection for improving the efficiency and accuracy of hirschsprung disease diagnosis. Sci Rep 2021;1:3306.
²⁰
Qualman SJ, Jaffe R, Bove KE, Monforte-Muñoz H. Diagnosis of Hirschsprung disease using the rectal biopsy: multi-institucional survey. Pediatr Dev Pathol 1999(2):588–96.
²¹
Agrawal RK, Kakkar N, Vasishta RK, Kumari V, Samujh R, Rao KLN. Acetylcholinesterase histochemistry (AChE) - A helpful technique in the diagnosis and in aiding the operative procedures of Hirschsprung disease. Diagn Pathol 2015;10:1–827.
²²
Kapur RP. Practical pathology and genetics of Hirschsprung’s disease. Semin Pediatr Surg 2009;18(4):212–23.
²³
Jabari S, Oliveira EC, Brehmer A, Silveira ABM. Chagasic megacolon: enteric neurons and related structures. Histochem Cell Biol 2014;142:235–44.
²⁴
Hanker JS, Thomburg LP, Yates PE, Moore HG. The demonstration of cholinesterases by the formation of osmium blacks at the sites of Hatchett’s brown. Histochemie 1973;37(3):223–42.
²⁵
Kaway H, Satomi K, Morishita Y, Murata Y, Sugano M, Nakano N, et al. Developmental markers of ganglion cells in the enteric nervous system and their application for evaluation of Hirschsprung disease. Pathology Int 2014;64(9):432–42.
²⁶
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Publication Dates

Publication in this collection
05 June 2023
Date of issue
2023

History

Received
09 Aug 2022
Reviewed
31 Jan 2023
Accepted
28 Mar 2023

This is an Open Access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.

[1] Funding

FAPESP Project no 2019/10339-1.

[2] Ethical approval and consent to participate

The ethics committees of Hospital das Clínicas - University of Sao Paulo Medical School, Sao Paulo, Brazil approved this study (CAAE: 05219018.3.0000.0065). Consent to participate was required only in the first part of this study.

[3] Consent for publication

Not applicable

Donor	Gender	Age	Time lapse	Plexuses in 180 µm	Approximate location of the plexuses	Ganglion cells in 180 µm
1	Masc	87	12h	7	6µm ‒ 27µm ‒ 60µm ‒ 81µm ‒ 138µm ‒ 165µm ‒ 180µm	11
2	Fem	55	10h	10	6µm ‒ 18µm ‒ 24µm ‒ 63µm ‒ 78µm ‒ 102µm ‒ 114µm ‒ 120µm ‒ 138µm ‒ 174µm	13
3	Masc	43	10h	15	6µm - 21µm - 33 µm - 42µm - 51µm - 60µm - 75µm - 84µm - 93µm - 102µm - 129µm - 147µm - 156µm -162µm - 180µm	32
4	Masc	55	12h	12	12µm ‒ 18µm ‒ 45µm ‒ 54µm ‒ 87µm ‒ 114µm ‒ 120µm ‒ 135µm ‒ 141µm ‒ 153µm ‒ 171µm ‒ 177µm	15
5	Masc	26	10h	11	21µm ‒ 42µm ‒ 69µm ‒ 78µm ‒ 93µm ‒ 102µm ‒ 111µm ‒ 123µm ‒ 138µm ‒ 162µm ‒ 177µm	18
6	Fem	60	9h	8	30µm ‒ 57µm ‒ 69µm ‒ 78µm ‒ 93µm ‒ 111µm ‒ 135µm ‒ 165µm	12
7	Masc	71	10h	12	9µm ‒ 27µm ‒ 48µm ‒ 60µm ‒ 90µm ‒ 99µm ‒ 108µm ‒ 114µm ‒ 132µm ‒ 144µm ‒ 153µm ‒ 177µm	18
8	Fem	86	9h	9	12µm ‒ 27µm ‒ 51µm ‒ 78µm ‒ 141µm ‒ 153µm ‒ 165µm ‒ 174µm ‒ 180µm	12
9	Fem	92	10h	8	12µm ‒ 42µm ‒ 60µm ‒ 81µm ‒ 96µm ‒ 129µm ‒ 150µm ‒ 177µm	10
10	Masc	65	10h	14	9µm ‒ 24µm ‒ 30µm ‒ 48µm ‒ 69µm ‒ 84µm ‒ 96µm ‒ 105µm ‒ 114µm ‒ 129µm ‒ 141µm ‒ 160µm ‒ 169µm ‒ 180µm	28
11	Masc	65	7h	6	18µm - 45µm - 51µm - 60µm - 168µm - 180µm	21
12	Masc	54	11h	10	12µm ‒ 27µm ‒ 36µm ‒ 54µm ‒ 87µm ‒ 105µm ‒ 120µm ‒ 141µm ‒ 150µm ‒ 180µm	19
13	Masc	47	11h	12	12µm ‒ 27µm ‒ 39µm ‒ 57µm ‒ 75µm ‒ 93µm ‒ 114µm ‒ 126µm ‒ 141µm ‒ 153µm ‒ 168µm ‒ 180µm	21
14	Masc	58	7h	12	3µm - 24µm - 36µm - 57µm - 69µm - 87µm - 99 µm - 114µm - 132µm - 153µm - 165µm - 180µm	22
15	Fem	83	12h	10	6µm ‒24µm ‒45µm ‒57µm ‒ 72µm ‒ 87µm ‒ 108µm‒ 129µm‒ 144µm‒ 165µm	24
16	Masc	76	12h	10	3µm ‒21µm ‒45µm ‒69µm ‒ 90µm ‒ 81µm ‒ 111µm‒ 129µm‒ 144µm‒ 162µm	24
17	Fem	89	8h	9	21µm ‒ 57µm ‒ 75µm ‒ 99µm ‒ 120µm ‒ 147µm ‒ 156µm ‒ 168µm ‒ 180µm	18
18	Fem	84	7h	11	12µm ‒ 21µm ‒ 39µm ‒ 66µm ‒ 84µm ‒ 99µm ‒ 114µm ‒ 126µm ‒ 144µm ‒ 162µm ‒ 177µm	22
19	Masc	52	11h	11	12µm ‒ 24µm ‒ 42µm ‒ 63µm ‒ 78µm ‒ 102µm ‒ 114µm ‒ 141µm ‒ 153µm ‒ 165µm ‒ 177µm	20

Accuracy	0.935
Sensitivity	0.911
Specificity	1.000
NPV	0.812
PPV	1.000

Brasil