Anorectal diseases in patients with Antiphospholipid syndrome: a cross-sectional study

Cunha, E.; Guzela, V.; Balbi, G. G. M.; Sobrado, C.; Andrade, D.

doi:10.1186/s42358-020-00153-5

Abstract

Background:

Hemorrhoid disease (HD) is one of the most common gastrointestinal complaints worldwide, affecting 4.4% of the general population in the United States. Since antiphospholipid syndrome (APS) may lead to intra-abdominal thrombosis, one may expect that this condition can impact the risk for HD development. Additionally, as APS patients are more prone to thrombosis and treatment with anticoagulants may increase risk of bleeding, one may also infer that rates of HD complications may be higher in this scenario. Nevertheless, no data in these regards have been published until now. The objective of the present study is to evaluate frequency of HD and describe its complications rates in antiphospholipid syndrome APS patients.

Methods:

We consecutively invited patients who fulfilled APS criteria to undergo proctological examination. After examination, patients were divided in two groups, based on the presence of HD, and compared regarding different clinical manifestations and antiphospholipid profile. We performed the analysis of the data, using chi-square and Mann Whitney U when applicable and considering a significance level of 0.05. Multivariate regression analysis included age and variables with p < 0.10 in the bivariate analysis.

Results:

Forty-one APS patients agreed to undergo proctological examination. All were female and overall median age was 43 (36–49). Seventeen (41.4%) patients were diagnosed with HD, with the following frequency distribution: 7 internal (41.2%), 4 external (23.5%) and 5 mixed hemorrhoids (29.4%). Of the internal hemorrhoids, 5 patients were classified as grade I (71.4%), 1 grade II (14.3%), and 1 grade IV (14.3%). Prior gestation ( p = 0.067) and constipation ( p = 0.067) correlated with a higher frequency of HD. In multivariate analysis, constipation remained as an important risk factor (OR 3.92,CI95% 1.03–14.2, p = 0.037). Five out of 17 patients (29.4%) reported anal bleeding, but it did not correlate with warfarin dose ( p = 0.949). Surgical treatment was indicated for 10 patients (58.8%). Other anorectal findings were anal fissure, plicoma, condyloma and one chlamydial retitis.

Conclusion:

We found an unexpected high frequency of hemorrhoids in APS patients, with a great proportion requiring surgical treatment.

Keywords:
Antiphospholipid syndrome; Antiphospholipid antibodies; Rectal diseases; Anus diseases; Hemorrhoids; Hemorrhoidal disease

Background

Antiphospholipid syndrome (APS) is characterized by thrombosis and/or pregnancy morbidity, such as recurrent abortions, fetal loss and preterm birth, in the presence of antiphospholipid antibodies. Laboratory diagnosis is based on the persistent detection of lupus anticoagulant (LA), IgM or IgG anticardiolipin antibodies (aCL) in moderate to high titers and/or IgM or IgG anti-β2-glycoprotein I antibodies (aß2GPI) in titers over the 99th percentile [ ¹1. Miyakis S, Lockshin MD, Atsumi T, Derksen RHWM, Groot PGDE, Koike T. International consensus statement on an update of the classification criteria for definite antiphospholipid syndrome. J Thromb Haemost. 2006;4(August 2005):295–306. ].

Hemorrhoid disease (HD) is one of the most common gastrointestinal complaints worldwide, affecting 4.4% of the population in the United States. Its peak of incidence ranges from age 45 to 65 years, for both genders [ ²2. Sun Z, Migaly J. Review of hemorrhoid disease: presentation and management. Clin Colon Rectal Surg. 2016;29:22–9. ]. Anorectal symptoms may include bleeding, pain, prolapse, itching and/or soiling [ ³3. van Tol R, Kleijnen J, Watson A, Jongen J, Altomare D, Qvist N, et al. European society of ColoProctology: guideline for haemorrhoidal disease. Colorectal Dis. 2020;22:650–62. ]. The most common complications of HD are thrombosis (especially in external hemorrhoids) and bleeding (especially in internal hemorrhoids) [ ²2. Sun Z, Migaly J. Review of hemorrhoid disease: presentation and management. Clin Colon Rectal Surg. 2016;29:22–9. ].

Hemorroids are characterized according to its origin relative to the dentate line, as: (1) internal (if proximal to this line), (2) external (if distal to this line), and (3) mixed (if both complexes are involved). Internal hemorrhoids can be further graded into four different stages (Goligher classification): grade I (1st degree or primary hemorrhoids) – prominent and engorged vasculature, no prolapse; grade II (2nd degree or secondary hemorrhoids) – prolapses with straining, spontaneous reduction; grade III (3rd degree or tertiary hemorrhoids) – prolapses beyond dentate line with straining and can only be reduced with manual maneuvers; and grade IV (4th degree or quaternary hemorrhoids) – evident prolapsed tissue, not reducible [ ³3. van Tol R, Kleijnen J, Watson A, Jongen J, Altomare D, Qvist N, et al. European society of ColoProctology: guideline for haemorrhoidal disease. Colorectal Dis. 2020;22:650–62. , ⁴4. Jacobs D. Hemorrhoids. N Engl J Med. 2014;371:944–51. ].

There are several reported risk factors for the development of HD, including constipation, prolonged and/or frequent straining, obesity, increased intra-abdominal pressure, cirrhosis with ascites and pregnancy, all of them concurring to increase venous pressure and impair venous drainage [ ⁴4. Jacobs D. Hemorrhoids. N Engl J Med. 2014;371:944–51. ]. Since APS may lead to intra-abdominal thrombosis, one may expect that this condition can impact the risk for HD development. Additionally, as APS patients are more prone to thrombosis and treatment with anticoagulants may increase risk of bleeding, one may also infer that rates of HD complications may be higher in this scenario. Nevertheless, no data in these regards have been published until now.

The primary objective of this study was to evaluate the frequency of HD and describe rates of HD complications in APS patients. We also recorded other anorectal diseases as an exploratory objective.

Methods

This is a cross-sectional study of HD and other anorectal diseases in APS patients. We consecutively invited patients who fulfilled Sydney criteria [ ¹1. Miyakis S, Lockshin MD, Atsumi T, Derksen RHWM, Groot PGDE, Koike T. International consensus statement on an update of the classification criteria for definite antiphospholipid syndrome. J Thromb Haemost. 2006;4(August 2005):295–306. ] and were frequently seen in our APS outpatient clinics to undergo proctological examination by an experienced colorectal surgeon. Anorectal symptoms were recorded only if they had a moderate to high frequency. Constipation was classified according to the Rome IV criteria. Clinical and serological data were obtained during visits and by chart review.

After examination, APS patients were divided in two groups, based on the presence of HD, and compared regarding different clinical manifestations and antiphospholipid profile.

We performed the analysis of the data, using chi-square and Mann Whitney U when applicable and considering a significance level of 0.05. Multivariate regression analysis included age and variables with p < 0.10 in the bivariate analysis.

This study was approved by the Ethics Committee of our institution (#2.368.484) and patients signed written informed consent, which have been archived in the Rheumatology department.

Results

Ninety-one APS patients were consecutively invited and 41 (45%) agreed to undergo proctological examination. Of those, all were female and overall median age was 43 (36–49). The most common causes for refusal to participate were: (1) patient considered proctological examination uncomfortable; and (2) absence of anal complaints.

Seventeen (41.4%) patients were diagnosed with HD, with the following frequency distribution: 7 had internal (41.2%), 4 external (23.5%) and 5 mixed hemorrhoids (29.4%). Of the internal hemorrhoids, 5 patients were further classified as grade I (71.4%), 1 as grade II (14.3%), 1 as grade IV (14.3%).

Patients diagnosed with HD were slightly older than those without HD (median 49 [39–53] vs. 41.5 [33.25– 45]), even though this difference did not reach statistical significance.

Women with prior gestation ( p = 0.067) and those with constipation ( p = 0.067) showed a tendency for higher frequency of HD. In a multivariate analysis, constipation remained as an important risk factor (OR 3.92, CI95% 1.03–14.2, p = 0.037). Obesity, family history of HD, previous history of arterial or venous thrombosis, presence of lupus anticoagulant, anticardiolipin, anti-ß2-glycoprotein or triple positivity were not associated with a higher frequency of HD.

In the HD group, the most frequently reported signs were prolapse during defecation (88.2%), increased evacuation effort (64.7%) and anal discomfort (47.1%).

Regarding hemorrhagic complications of hemorrhoids, 5 out of 17 patients (29.4%) reported anal bleeding. Only two of all HD patients were not taking warfarin at the time of data collection; of those, one presented anal bleeding and the other did not. Anal bleeding did not correlate with warfarin dose in patients with HD ( p = 0.949). No episode of thrombosed hemorrhoids was reported during proctological examination.

Surgical treatment was indicated for 10 patients (58.8%), due to internal hemorrhoid grade III or IV, mixed or external hemorrhoids.

Clinical and laboratory characteristics of each group are summarized and compared in Table 1 .

Thumbnail

Table 1
Clinical and laboratory characteristics of APS patients included, according to HD diagnosis

Other anorectal findings were anal fissure ( N = 5, 12.2%), plicoma ( N = 16, 39%), condyloma ( N = 2, 4.9%) and one chlamydial retitis (N = 1, 2.4%). Of the 2 condyloma patients, one was taking mycophenolate mofetil 500 mg BID and the other was on mycophenolate mofetil 1500 mg BID. The patient with chlamydial retitis was using azathioprine 100 mg QD and prednisone 30 mg QD.

Discussion

To the best of our knowledge, this is the first study about HD and other anorectal diseases in APS patients.

We found an unexpected high frequency of hemorrhoids (41.4%) in APS patients, if compared to the results of the largest published study in general population (prevalence of 4.4%) [ ²2. Sun Z, Migaly J. Review of hemorrhoid disease: presentation and management. Clin Colon Rectal Surg. 2016;29:22–9. , ⁵5. Johanson J, Sonnenberg A. The prevalence of hemorrhoids and chronic constipation: an epidemiologic study. Gastroenterology. 1990;98:380–6. ].

Additionally, our patients were relatively young (median 43, interquartile range 36–49), when compared to peak incidence of HD (45–65 years) [ ²2. Sun Z, Migaly J. Review of hemorrhoid disease: presentation and management. Clin Colon Rectal Surg. 2016;29:22–9. ], what may suggest patients with APS are prone to develop HD earlier in life. Even though we cannot confirm this supposition without further prospective studies and matched healthy controls, the median age of our patients diagnosed with HD was 49 (interquartile range 39–53) and we did not find differences between ages of patients with or without HD in our sample.

Furthermore, 58.8% of our patients were referred to surgical treatment due to internal hemorrhoid grade III or IV, mixed or external hemorrhoids, suggesting that APS patients may have a more severe presentation of HD at the beginning and may require surgical interventions more often.

In our cohort, we identified that constipation correlated with a higher risk of HD, resembling the existing literature about risk factors for HD in other subgroups of patients [ ⁶6. Lohsiriwat V. Treatment of hemorrhoids: a coloproctologist's view. World J Gastroenterol. 2015;21:9245–52. , ⁷7. Lee J, Kim H, Kang J, Shin J, Song Y. Factors associated with hemorrhoids in Korean adults: Korean national health and nutrition examination survey. Korean J Fam Med. 2014;35:227–36. ]. Nevertheless, we could not demonstrate an association between obesity and HD, what is in disagreement with other previously published studies [ ⁶6. Lohsiriwat V. Treatment of hemorrhoids: a coloproctologist's view. World J Gastroenterol. 2015;21:9245–52. , ⁸8. Loder P, Kamm M, Nicholls R, Phillips R. Haemorrhoids: pathology, pathophysiology and aetiology. Br J Surg. 1994;81:946–54. ].

The cornerstone of APS treatment is anticoagulation therapy with vitamin K antagonists (VKA) and this is another point that needs consideration when treating HD in APS patients. One can anticipate that VKA may increase the risk of anal bleeding in those with HD and may limit surgical therapeutic options, due to increased risk of postoperative hemorrhage.

Five of our patients with HD diagnosis (29.4%) reported a past history of anal bleeding, but we were not able to check international normalized ratio (INR) of those using warfarin at the time of bleeding event. We tried to surpass this limitation using current dose of warfarin. However, we found no correlation between warfarin dose and history of anal bleeding.

Conservative measures are the mainstay treatment for HD in patients on anticoagulants [ ³3. van Tol R, Kleijnen J, Watson A, Jongen J, Altomare D, Qvist N, et al. European society of ColoProctology: guideline for haemorrhoidal disease. Colorectal Dis. 2020;22:650–62. ]. A meta-analysis of 7 clinical trials comprising of 378 patients with hemorrhoids showed that fiber supplement had a consistent benefit of relieving symptom and minimizing risk of bleeding by approximately 50% [ ⁹9. Alonso-Coello P, Mills E, Heels-Ansdell D, López-Yarto M, Zhou Q, Johanson J, et al. Fiber for the treatment of hemorrhoids complications: a systematic review and meta-analysis. Am J Gastroenterol. 2006;101:181–8. ]. However, even this strategy requires attention in APS patients. The amount of fibers consumed daily must be taken into account when prescribing VKA, as many of them also contain high levels of vitamin K. Therefore, increasing intake of fibers in diet can result in loss of efficacy of anticoagulant therapy indirectly. Patients should be instructed to consume constant doses of vitamin K and VKA dose should be adjusted to the level of vitamin K consumed daily [ ¹⁰10. Klack K, de Carvalho JF. Dietetic issues in antiphospholipid syndrome. Rheumatol Int. 2013;33:823–4. ].

Antithrombotic treatment has already been associated with increased risk of delayed hemorrhage after rubber band ligation (RBL) [ ²2. Sun Z, Migaly J. Review of hemorrhoid disease: presentation and management. Clin Colon Rectal Surg. 2016;29:22–9. , ¹¹11. Nelson R, Thorson A. Risk of bleeding following hemorrhoidal banding in patients on antithrombotic therapy. Gastroenterol Clin Biol. 2009;33:463–5. ]. RBL is one of the alternatives for treating HD. If RBL or other inpatient surgical procedures are necessary, physicians should consider withdrawing anticoagulant before these interventions [ ³3. van Tol R, Kleijnen J, Watson A, Jongen J, Altomare D, Qvist N, et al. European society of ColoProctology: guideline for haemorrhoidal disease. Colorectal Dis. 2020;22:650–62. , ¹²12. Lohsiriwat V. Hemorrhoids: from basic pathophysiology to clinical management. World J Gastroenterol. 2012;18:2009–17. ]. Since APS requires lifelong VKA use, heparin bridging is mandatory in this context [ ¹³13. Saunders K, Erkan D, Lockshin M. Perioperative management of antiphospholipid antibody-positive patients. Curr Rheumatol Rep. 2014;16:426. ]. Alternatively, some other technique may be preferred in this subset of patients, such as injection sclerotherapy or transanal hemorrhoidal dearterialization (THD), which have been described as safe in patients on anticoagulants [ ¹⁴14. Yano T, Nogaki T, Asano M, Tanaka S, Kawakami K, Matsuda Y. Outcomes of case-matched injection sclerotherapy with a new agent for hemorrhoids in patients treated with or without blood thinners. Surg Today. 2013;43:854–8. , ¹⁵15. Atallah S, Maharaja G, Martin-Perez B, Burke J, Albert M, Larach S. Transanal hemorrhoidal dearterialization (THD): a safe procedure for the anticoagulated patient? Tech Coloproctol. 2016;20:461–6. ].

In addition to hemorrhoidal disease, the physician should be aware of other anorectal diseases, considering that anal fissure, condyloma and chlamydial retitis were found in our patient. As presented in the Results section, patients with condyloma and chlamydial retitis were using immunosuppression, which may have contributed to their occurrence.

Our study has several limitations. First, our sample is relatively small. Second, its cross-sectional design allows us only to suggest association, what needs to be confirmed in larger and prospective trials. Third, only 41 patients (45%) agreed to undergo proctological examination and one of the main reasons for refusal was that they had no anal symptoms. This may have introduced a selection bias and may have led to a higher than expected frequency and/or severity of HD. Finally, we enrolled both primary and secondary APS and, thus, we cannot exclude SLE as a contributing factor for our findings. Nonetheless, our study also has strengths: it provides insights about a condition poorly studied in APS; proctological examinations were performed by an experienced staff from specialized outpatient clinics with high patient volumes; and we provided description of our anorectal findings (including others besides HD), what may help future research.

Conclusions

We found an unexpected high frequency of hemorrhoids in APS patients, with a great proportion requiring surgical treatment. Physicians who work with APS should actively ask their patients regarding anorectal disease and refer to a colon and rectal surgeon whenever necessary.

Funding

None.
Availability of data and materials

The datasets used and/or analyzed during the current study are available from the corresponding author on reasonable request.
Ethics approval and consent to participate

This study was approved by the Ethics Committee of the Hospital das Clínicas from University of São Paulo (approval #2.368.484) and patients signed written informed consents, which have been archived in the Rheumatology department.
Consent for publication

Not applicable.
Publisher's Note

Springer Nature remains neutral with regard to jurisdictional claims in published maps and institutional affiliations.

Acknowledgements

Not applicable.

APS Antiphospholipid syndrome
aCL Anticardiolipin antibodies
aß2GPI Anti-beta-2 glycoprotein I antibodies
BID Bis in die (twice daily)
HD Hemorrhoidal disease
INR International normalized ratio
QD Quaque die (once daily)
RBL Rubber band ligation
THD Transanal hemorrhoidal dearterialization
VKA Vitamin K antagonists

References

¹
Miyakis S, Lockshin MD, Atsumi T, Derksen RHWM, Groot PGDE, Koike T. International consensus statement on an update of the classification criteria for definite antiphospholipid syndrome. J Thromb Haemost. 2006;4(August 2005):295–306.
²
Sun Z, Migaly J. Review of hemorrhoid disease: presentation and management. Clin Colon Rectal Surg. 2016;29:22–9.
³
van Tol R, Kleijnen J, Watson A, Jongen J, Altomare D, Qvist N, et al. European society of ColoProctology: guideline for haemorrhoidal disease. Colorectal Dis. 2020;22:650–62.
⁴
Jacobs D. Hemorrhoids. N Engl J Med. 2014;371:944–51.
⁵
Johanson J, Sonnenberg A. The prevalence of hemorrhoids and chronic constipation: an epidemiologic study. Gastroenterology. 1990;98:380–6.
⁶
Lohsiriwat V. Treatment of hemorrhoids: a coloproctologist's view. World J Gastroenterol. 2015;21:9245–52.
⁷
Lee J, Kim H, Kang J, Shin J, Song Y. Factors associated with hemorrhoids in Korean adults: Korean national health and nutrition examination survey. Korean J Fam Med. 2014;35:227–36.
⁸
Loder P, Kamm M, Nicholls R, Phillips R. Haemorrhoids: pathology, pathophysiology and aetiology. Br J Surg. 1994;81:946–54.
⁹
Alonso-Coello P, Mills E, Heels-Ansdell D, López-Yarto M, Zhou Q, Johanson J, et al. Fiber for the treatment of hemorrhoids complications: a systematic review and meta-analysis. Am J Gastroenterol. 2006;101:181–8.
¹⁰
Klack K, de Carvalho JF. Dietetic issues in antiphospholipid syndrome. Rheumatol Int. 2013;33:823–4.
¹¹
Nelson R, Thorson A. Risk of bleeding following hemorrhoidal banding in patients on antithrombotic therapy. Gastroenterol Clin Biol. 2009;33:463–5.
¹²
Lohsiriwat V. Hemorrhoids: from basic pathophysiology to clinical management. World J Gastroenterol. 2012;18:2009–17.
¹³
Saunders K, Erkan D, Lockshin M. Perioperative management of antiphospholipid antibody-positive patients. Curr Rheumatol Rep. 2014;16:426.
¹⁴
Yano T, Nogaki T, Asano M, Tanaka S, Kawakami K, Matsuda Y. Outcomes of case-matched injection sclerotherapy with a new agent for hemorrhoids in patients treated with or without blood thinners. Surg Today. 2013;43:854–8.
¹⁵
Atallah S, Maharaja G, Martin-Perez B, Burke J, Albert M, Larach S. Transanal hemorrhoidal dearterialization (THD): a safe procedure for the anticoagulated patient? Tech Coloproctol. 2016;20:461–6.

Publication Dates

Publication in this collection
19 Oct 2020
Date of issue
2020

History

Received
29 July 2020
Accepted
25 Sept 2020
Published
07 Oct 2020

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

None.

[2] Availability of data and materials

The datasets used and/or analyzed during the current study are available from the corresponding author on reasonable request.

[3] Ethics approval and consent to participate

This study was approved by the Ethics Committee of the Hospital das Clínicas from University of São Paulo (approval #2.368.484) and patients signed written informed consents, which have been archived in the Rheumatology department.

[4] Consent for publication

Not applicable.

[5] Publisher's Note

Springer Nature remains neutral with regard to jurisdictional claims in published maps and institutional affiliations.

		Hemorrhoidal Disease ( N = 17)	No Hemorrhoidal Disease ( N = 24)	p -value
Demographic characteristics
	Female gender (N, %)	17 (100%)	24 (100%)	–
	Age (Median, IQR)	49 (39–53)	41.5 (33.25–45)	0.09
Risk factors possibly related to HD
	Body Mass Index (Median, IQR)	29.9 (25.8–35.2)	28.57 (25.14–30.99)	0.223
	Obesity (N, %)	8 (47.1%)	7 (29.2%)	0.241
	Pregnancy (ever; N,%)	15 (88.2%)	15 (62.5%)	0.067
	Constipation (N,%)	9 (52.9%)	6 (25%)	0.067
	Family history of HD (N,%)	8 (47.1%)	7 (29.2%)	0.241
APS clinical and serological characteristics
	Arterial thrombosis (N,%)	7 (41.2%)	8 (33.3%)	0.607
	Venous thrombosis (N,%)	11 (64.7%)	16 (66.7%)	0.896
	Lupus anticoagulant (N,%)	13 (76.5%)	14 (58.3%)	0.130
	Anticardiolipin (N,%)	4 (23.5%)	3 (12.5%)	0.355
	Anti-ß2-glycoprotein I (N,%)	5 (71.4%)	7 (77.8%)	0.771
	Triple positivity (N,%)	1 (5.9%)	1 (4.2%)	0.715
Anorectal symptoms/signs
	Rectal exteriorization during defecation	15 (88.2%)	13 (54.2%)	0.021 ^* * p < 0.05
	Increased evacuation effort	11 (64.7%)	11 (45.8%)	0.233
	Anal discomfort	8 (47.1%)	4 (16.7%)	0.035 ^* * p < 0.05
	Pain during defecation	6 (35.3%)	9 (37.5%)	0.885
	Anal burning	6 (35.3%)	4 (16.7%)	0.171
	Plicoma	5 (29.4%)	11 (45.8%)	0.288
	Bleeding	5 (29.4%)	3 (12.5%)	0.178
	Anal itching	4 (23.5%)	5 (20.8%)	0.837
	Anal Fissure	1 (5.9%)	4 (16.7%)	0.299

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