Mullerian Anomaly Presenting as Chronic Pelvic Pain

DOI: http://dx.doi.org/10.3126/njog.v9i1.11198 NJOG 2014 Jan-Jun; 2(1):87-88

Squamous Cell Carcinoma Arising in Mature Cystic Teratoma of the Ovary

Malignant transformation of mature germ cell teratoma is rare and has been reported sporadically. Any of the constituent tissue of a teratoma has the potential to undergo malignant transformation. Squamous cell carcinoma is the most common transformation and is derived from the metaplastic squamous epithelium of teratoma. We are reporting a case of 65 years old postmenopausal women with squamous cell carcinoma arising in mature cystic cell teratoma of the ovary. DOI: http://dx.doi.org/10.3126/njog.v9i1.11191 NJOG 2014 Jan-Jun; 2(1):61-63

Wound healing-like immune program facilitates postpartum mammary gland involution and tumor progression

Women diagnosed with breast cancer within 5 years postpartum have poor survival rates. The process of postpartum mammary gland involution, whereby the lactating gland remodels to its prepregnant state, promotes breast cancer progression in xenograft models. Macrophage influx occurs during mammary gland involution, implicating immune modulation in the promotion of postpartum breast cancer. Herein, we characterize the postpartum murine mammary gland and find an orchestrated influx of immune cells similar to that which occurs during wound healing. Further, the normal involuting gland may be in an immunosuppressed state as discerned by the transient presence of Foxp3(+) regulatory T cells and IL-10(+) macrophages with T cell suppressive function. To determine the influence of the postpartum immune microenvironment on mammary tumor promotion, we developed an immune-competent model. In this model, mammary tumors in the involution group are sixfold larger than nulliparous group tumors, have decreased CD4(+) and CD8(+) T cell infiltrates and contain a greater number of macrophages with the ability to inhibit T cell activation. Targeting involution with a neutralizing antibody against the immunosuppressive cytokine IL-10 reduces tumor growth in involution group mice but not in nulliparous mice, implicating the involution microenvironment as the primary target of αIL-10 treatment. Relevance to women is implicated, as we find postlactational human breast tissue has transient high IL-10(+) and Foxp3(+) immune cell infiltrate. These data show an immune modulated microenvironment within the normal involuting mammary gland suggestive of immunosuppression, that when targeted reduces tumor promotion, revealing possible immune-based strategies for postpartum breast cancer.

Cyclooxygenase-2-dependent lymphangiogenesis promotes nodal metastasis of postpartum breast cancer

Breast involution following pregnancy has been implicated in the high rates of metastasis observed in postpartum breast cancers; however, it is not clear how this remodeling process promotes metastasis. Here, we demonstrate that human postpartum breast cancers have increased peritumor lymphatic vessel density that correlates with increased frequency of lymph node metastases. Moreover, lymphatic vessel density was increased in normal postpartum breast tissue compared with tissue from nulliparous women. In rodents, mammary lymphangiogenesis was upregulated during weaning-induced mammary gland involution. Furthermore, breast cancer cells exposed to the involuting mammary microenvironment acquired prolymphangiogenic properties that contributed to peritumor lymphatic expansion, tumor size, invasion, and distant metastases. Finally, in rodent models of postpartum breast cancer, cyclooxygenase-2 (COX-2) inhibition during the involution window decreased normal mammary gland lymphangiogenesis, mammary tumor-associated lymphangiogenesis, tumor cell invasion into lymphatics, and metastasis. Our data indicate that physiologic COX-2-dependent lymphangiogenesis occurs in the postpartum mammary gland and suggest that tumors within this mammary microenvironment acquire enhanced prolymphangiogenic activity. Further, our results suggest that the prolymphangiogenic microenvironment of the postpartum mammary gland has potential as a target to inhibit metastasis and suggest that further study of the therapeutic efficacy of COX-2 inhibitors in postpartum breast cancer is warranted.

Mammary gland involution as an immunotherapeutic target for postpartum breast cancer

Postpartum mammary gland involution has been identified as tumor-promotional and is proposed to contribute to the increased rates of metastasis and poor survival observed in postpartum breast cancer patients. In rodent models, the involuting mammary gland microenvironment is sufficient to induce enhanced tumor cell growth, local invasion, and metastasis. Postpartum involution shares many attributes with wound healing, including upregulation of genes involved in immune responsiveness and infiltration of tissue by immune cells. In rodent models, treatment with non-steroidal anti-inflammatory drugs (NSAIDs) ameliorates the tumor-promotional effects of involution, consistent with the immune milieu of the involuting gland contributing to tumor promotion. Currently, immunotherapy is being investigated as a means of breast cancer treatment with the purpose of identifying ways to enhance anti-tumor immune responses. Here we review evidence for postpartum mammary gland involution being a uniquely defined 'hot-spot' of pro-tumorigenic immune cell infiltration, and propose that immunotherapy should be explored for prevention and treatment of breast cancers that arise in this environment.

Postpartum breast involution reveals regression of secretory lobules mediated by tissue-remodeling

Introduction

A postpartum diagnosis of breast cancer is an independent predictor of metastases, however the reason is unknown. In rodents, the window of postpartum mammary gland involution promotes tumor progression, suggesting a role for breast involution in the poor prognosis of human postpartum breast cancers. Rodent mammary gland involution is characterized by the programmed elimination of the secretory lobules laid down in preparation for lactation. This tissue involution process involves massive epithelial cell death, stromal remodeling, and immune cell infiltration with similarities to microenvironments present during wound healing and tumor progression. Here, we characterize breast tissue from premenopausal women with known reproductive histories to determine the extent, duration and cellular mechanisms of postpartum lobular involution in women.

Methods

Adjacent normal breast tissues from premenopausal women (n = 183) aged 20 to 45 years, grouped by reproductive categories of nulliparous, pregnant and lactating, and by time since last delivery were evaluated histologically and by special stain for lobular area, lobular type composition, apoptosis and immune cell infiltration using computer assisted quantitative methods.

Results

Human nulliparous glands were composed dominantly of small (approximately 10 acini per lobule) and medium (approximately 35 acini per lobule) sized lobules. With pregnancy and lactation, a >10 fold increase in breast epithelial area was observed compared to nulliparous cases, and lactating glands were dominated by mature lobules (>100 acini per lobule) with secretory morphology. Significant losses in mammary epithelial area and mature lobule phenotypes were observed within 12 months postpartum. By 18 months postpartum, lobular area content and lobule composition were indistinguishable from nulliparous cases, data consistent with postpartum involution facilitating regression of the secretory lobules developed in preparation for lactation. Analyses of apoptosis and immune cell infiltrate confirmed that human postpartum breast involution is characterized by wound healing-like tissue remodeling programs that occur within a narrowed time frame.

Conclusions

Human postpartum breast involution is a dominant tissue-remodeling process that returns the total lobular area of the gland to a level essentially indistinguishable from the nulliparous gland. Further research is warranted to determine whether the normal physiologic process of postpartum involution contributes to the poor prognosis of postpartum breast cancer.

Physiological COX-2 expression in breast epithelium associates with COX-2 levels in ductal carcinoma in situ and invasive breast cancer in young women

Cyclooxygenase-2 (COX-2) overexpression is implicated in increased risk and poorer outcomes in breast cancer in young women. We investigated COX-2 regulation in normal premenopausal breast tissue and its relationship to malignancy in young women. Quantitative COX-2 immunohistochemistry was performed on adjacent normal and breast cancer tissues from 96 premenopausal women with known clinical reproductive histories, and on rat mammary glands with distinct ovarian hormone exposures. COX-2 expression in the normal breast epithelium varied more than 40-fold between women and was associated with COX-2 expression levels in ductal carcinoma in situ and invasive cancer. Normal breast COX-2 expression was independent of known breast cancer prognostic indicators, including tumor stage and clinical subtype, indicating that factors regulating physiological COX-2 expression may be the primary drivers of COX-2 expression in breast cancer. Ovarian hormones, particularly at pregnancy levels, were identified as modulators of COX-2 in normal mammary epithelium. However, serial breast biopsy analysis in nonpregnant premenopausal women suggested relatively stable baseline levels of COX-2 expression, which persisted independent of menstrual cycling. These data provide impetus to investigate how baseline COX-2 expression is regulated in premenopausal breast tissue because COX-2 levels in normal breast epithelium may prove to be an indicator of breast cancer risk in young women, and predict the chemopreventive and therapeutic efficacy of COX-2 inhibitors in this population.

Mechanism and preclinical prevention of increased breast cancer risk caused by pregnancy

While a first pregnancy before age 22 lowers breast cancer risk, a pregnancy after age 35 significantly increases life-long breast cancer risk. Pregnancy causes several changes to the normal breast that raise barriers to transformation, but how pregnancy can also increase cancer risk remains unclear. We show in mice that pregnancy has different effects on the few early lesions that have already developed in the otherwise normal breast—it causes apoptosis evasion and accelerated progression to cancer. The apoptosis evasion is due to the normally tightly controlled STAT5 signaling going astray—these precancerous cells activate STAT5 in response to pregnancy/lactation hormones and maintain STAT5 activation even during involution, thus preventing the apoptosis normally initiated by oncoprotein and involution. Short-term anti-STAT5 treatment of lactation-completed mice bearing early lesions eliminates the increased risk after a pregnancy. This chemoprevention strategy has important implications for preventing increased human breast cancer risk caused by pregnancy.

DOI:http://dx.doi.org/10.7554/eLife.00996.001

Pregnancy changes the probability that a woman will later develop breast cancer. If a woman’s first pregnancy occurs before her 22^nd birthday, the chances of developing breast cancer are reduced. However, if the first pregnancy occurs after her 35^th birthday, there is an increased risk of breast cancer. It is not clear why this age-related difference exists, but as more women wait until their 30s to start a family, there is greater urgency to understand this difference.

Breasts undergo extensive changes during pregnancy. This remodeling makes their cells less likely to multiply, and also less likely to develop tumors, which could explain the protective effect of pregnancy for younger women. But why would older women not reap the same benefits? One hypothesis is that older first-time mothers are more likely than younger first-time mothers to already have breast tissue with cells carrying cancer-causing mutations, or to have clusters of abnormal precancerous cells.

Now, Haricharan et al. have tested this hypothesis by inserting two cancer-causing genes into female mice. Half of the mice were then made pregnant and allowed to nurse their young, whilst the other half were never mated. Although, both groups of mice later developed tumors, the mice that had been pregnant developed more tumors and did so faster.

The increased cancer levels in the mice that had been pregnant were not due to them having more precancerous cells at the early stages of pregnancy than the unmated mice of the same age. Further, the precancerous cells in the impregnated mice did not proliferate faster than those in the mice that were never pregnant. Instead, pregnancy weakened the protective process that culls pre-existing precancerous cells. These cells evaded destruction by activating a signaling pathway called the STAT5 pathway in response to pregnancy hormones.

Haricharan et al. also examined tissue samples from women with a very early form of breast cancer and found elevated levels of STAT5 in tumors from women who had been pregnant compared to those who had not been pregnant.

The good news is that precancerous cells do not always become cancerous. However, for those women with a high risk of developing breast cancer, Haricharan et al. suggest that temporarily reducing STAT5 activity after pregnancy with medication might reduce this risk. Treating mice with anti-STAT5 drugs for a few weeks after they finished nursing their young lessened the elevated cancer risk, and so the next challenge is to see if this approach will also be effective in human clinical trials.

DOI:http://dx.doi.org/10.7554/eLife.00996.002

Abstract P1-05-01: Characterization of human postpartum breast involution: Implications for young women’s breast cancer

Introduction: Women diagnosed with breast cancer within 5 years postpartum have poor outcomes. In rodents, postpartum mammary gland involution promotes tumor progression and metastasis, implicating breast involution in the poor prognosis of breast cancers diagnosed in postpartum women. Rodent mammary gland involution is characterized by wound healing programs that include epithelial cell death, immune cell infiltrate, and fibrillar collagen deposition; all attributes associated with breast cancer progression. Thus, the gland remodeling of postpartum involution may provide a plausible explanation for how postpartum breast involution promotes breast cancer. Here, we characterize human breast tissue across pregnancy, lactation, and the postpartum time-period to determine if remodeling of the secretory competent breast to a quiescent state involves loss of secretory lobules, and whether involution is mediated by wound healing-like programs.

Methods: Adjacent normal breast tissues from pre-menopausal women (n = 140), aged 20-45 years, were grouped by reproductive categories of never-been-pregnant (NBP), pregnant, lactating, and by time since last delivery, and evaluated histologically and by special stain for epithelial area, lobular subtype composition, apoptosis, immune cell infiltration, and collagen deposition, using computer assisted quantitative methods. Statistical comparisons between multiple categories were done using one way ANOVA.

Results: Dramatic increases in breast epithelial area and lobule differentiation were observed, with 5-8 fold increases for pregnancy and 10-13 fold for lactation, over nulliparous controls. By 12 months postpartum, epithelial content and lobular differentiation were indistinguishable from nulliparous controls, consistent with complete regression of the lobular structures developed in preparation for lactation. Analyses of apoptosis, immune cell infiltration, and collagen deposition confirmed human postpartum breast involution is characterized by wound healing-like, tissue remodeling programs.

Conclusion: Human postpartum breast involution is a dominant tissue-remodeling process that returns the gland to a morphological state largely indistinguishable from the never-been-pregnant gland. Further, involution occurs within a defined window of time. Our data implicate postpartum breast involution as window of risk for breast cancer progression and suggest a rational window for intervention.

Citation Information: Cancer Res 2013;73(24 Suppl): Abstract nr P1-05-01.

Abstract B099: Postpartum mammary gland involution promotes COX-2 dependent tumor cell invasion of lymphatics

Although tumor cell dissemination via the lymphatic vasculature is thought to be a common pathway of metastasis for solid human cancers, the mechanisms of lymphatic mediated metastasis remain poorly understood1. For breast cancer patients, lymph node involvement remains a very important indicator of patient prognosis and is utilized clinically for therapeutic choices2,3. A recent study has shown that the incidence of being diagnosed with stage IV breast cancer, i.e. breast cancer that has spread outside the breast, is increasing in young women4. Furthermore, young women's breast cancers diagnosed within 5 years postpartum are more likely to be metastatic5-7. Given that 35-45% of young women's breast cancers are likely to be diagnosed within 5 years of giving birth, we predict that postpartum cases may be driving the observed increase in breast cancers with distant involvement in young women. Here, we hypothesized that the postpartum period promotes lymphangiogenesis, which leads to breast tumor metastasis. To test this hypothesis we have generated xenograft and isograft mouse models of postpartum breast cancer that show increased metastasis in postpartum animals8,9. We utilized these rodent models and a cohort of young women's breast tissues to investigate lymphatic mediated metastasis in the postpartum period. In our rodent models, we show that 1) lymphangiogenesis is enhanced during normal postpartum involution, 2) tumor cells can utilize the lymphatic vasculature to escape the mammary gland during postpartum involution, 3) postpartum tumors display increased lymphatic vessel density and lymphatic vessel invasion in the tumor periphery, and 4) that postpartum tumor cells promote lymphangiogenesis and express high levels of pro-lymphangiogenic molecules VEGF-C and Sem7a ex vivo. Importantly, we show that both normal and tumor associated lymphangiogenesis in vivo are dependent upon COX-2 and that COX-2 inhibitors can block metastasis of postpartum tumors. In our young women's breast cancer cohort we also report increased mammary lymphangiogenesis tissues from women within one year of childbirth, increased lymphatic vessel density at the tumor periphery of postpartum breast cancers, as well as a positive correlation between lymphatic vessel density and lymphatic vessel invasion. Thus, we suggest that lymphatic mediated metastasis in young women may be decreased by COX-2 inhibitor or NSAID use.

1. Stacker, S.A., Baldwin, M.E. & Achen, M.G. The role of tumor lymphangiogenesis in metastatic spread. Faseb J 16, 922-934 (2002).

2. Alitalo, K. & Carmeliet, P. Molecular mechanisms of lymphangiogenesis in health and disease. Cancer cell 1, 219-227 (2002).

3. Pepper, M.S., Tille, J.C., Nisato, R. & Skobe, M. Lymphangiogenesis and tumor metastasis. Cell Tissue Res 314, 167-177 (2003).

4. Johnson, R.H., Chien, F.L. & Bleyer, A. Incidence of breast cancer with distant involvement among women in the United States, 1976 to 2009. Jama 309, 800-805 (2013).

5. Callihan, E.B., et al. Postpartum diagnosis demonstrates a high risk for metastasis and merits an expanded definition of pregnancy-associated breast cancer. Breast Cancer Res Treat (2013).

6. Johansson, A.L., Andersson, T.M., Hsieh, C.C., Cnattingius, S. & Lambe, M. Increased Mortality in Women with Breast Cancer Detected during Pregnancy and Different Periods Postpartum. Cancer Epidemiol Biomarkers Prev 20, 1865-1872 (2011).

7. Stensheim, H., Moller, B., van Dijk, T. & Fossa, S.D. Cause-specific survival for women diagnosed with cancer during pregnancy or lactation: a registry-based cohort study. J Clin Oncol 27, 45-51 (2009).

8. McDaniel, S.M., et al. Remodeling of the mammary microenvironment after lactation promotes breast tumor cell metastasis. The American journal of pathology 168, 608-620 (2006).

9. Lyons, T.R., et al. Postpartum mammary gland involution drives progression of ductal carcinoma in situ through collagen and COX-2. Nat Med 17, 1109-1115 (2011).

Citation Format: Traci R. Lyons, Virginia F. Borges, Courtney B. Betts, Puja Kapoor, Holly A. Martinson, Sonali Jindal, Pepper Schedin. Postpartum mammary gland involution promotes COX-2 dependent tumor cell invasion of lymphatics. [abstract]. In: Proceedings of the AACR Special Conference on Advances in Breast Cancer Research: Genetics, Biology, and Clinical Applications; Oct 3-6, 2013; San Diego, CA. Philadelphia (PA): AACR; Mol Cancer Res 2013;11(10 Suppl):Abstract nr B099.

Obesity and overfeeding affecting both tumor and systemic metabolism activates the progesterone receptor to contribute to postmenopausal breast cancer

Obese postmenopausal women have increased risk of breast cancers with poorer clinical outcomes than their lean counterparts. However, the mechanisms underlying these associations are poorly understood. Rodent model studies have recently identified a period of vulnerability for mammary cancer promotion, which emerges during weight gain after the loss of ovarian function (surgical ovariectomy; OVX). Thus, a period of transient weight gain may provide a life cycle-specific opportunity to prevent or treat postmenopausal breast cancer. We hypothesized that a combination of impaired metabolic regulation in obese animals prior to OVX plus an OVX-induced positive energy imbalance might cooperate to drive tumor growth and progression. To determine if lean and obese rodents differ in their metabolic response to OVX-induced weight gain, and whether this difference affects later mammary tumor metabolism, we performed a nutrient tracer study during the menopausal window of vulnerability. Lean animals preferentially deposited excess nutrients to mammary and peripheral tissues rather than to the adjacent tumors. Conversely, obese animals deposited excess nutrients into the tumors themselves. Notably, tumors from obese animals also displayed increased expression of the progesterone receptor (PR). Elevated PR expression positively correlated with tumor expression of glycolytic and lipogenic enzymes, glucose uptake, and proliferation markers. Treatment with the antidiabetic drug metformin during ovariectomy-induced weight gain caused tumor regression and downregulation of PR expression in tumors. Clinically, expression array analysis of breast tumors from postmenopausal women revealed that PR expression correlated with a similar pattern of metabolic upregulation, supporting the notion that PR+ tumors have enhanced metabolic capacity after menopause. Our findings have potential explanative power in understanding why obese, postmenopausal women display an increased risk of breast cancer.

Abstract B29: A novel mammary intraductal delivery model that permits study of human ductal carcinoma in situ progression

Young African American women have an increased risk of developing aggressive forms of breast cancer (i.e. triple negative/basal-like) than young non-Hispanic white women. Recent epidemiological data show increased risk of basal-like breast cancer with increased childbearing in African American women (Millikan et al 2008; Palmer et al 2011). Breast cancers associated with a recent pregnancy (pregnancy-associated breast cancer) are more likely to be metastatic (Lyons et al 2011). We predict that the triple negative/basal-like breast cancer subtype is promoted by a recent pregnancy, accounting in part, for the poor prognosis of young African American breast cancer patients.

We have developed a murine intraductal mammary model to examine the effect of host reproductive status on the progression of early stage human breast cancer. Our model delivers human mammary tumor cells directly through the intact mouse teat into the correct anatomical location for ductal carcinoma in situ (DCIS) without surgical manipulations. MCF10ADCIS.com (triple negative/basal cell line) or HCC70 (triple negative cell line derived from a young African American woman) cells were delivered into the mammary gland via intraductal injection to assess influence of host reproductive state (nulliparity, pregnancy, active post-partum involution) on tumor progression.

Lesions from both cell lines displayed the full representation of human DCIS histologic subtypes, which progressed to DCIS through an atypical ductal hyperplasia stage. Although the MCF10ADCIS.com cell line is typically triple negative in vitro and other in vivo models, established tumors in the intraductal model were observed to re-express estrogen receptor. HCC70 tumors maintained the triple negative phenotype in our model. Using the MCF10ADCIS.com model to assess the effects of host reproductive status on DCIS progression, we found tumor burden in the pregnancy group was not significantly different than nulliparous controls. Within the pregnant group, tumors appear to be less proliferative and have slightly lower ER expression than nulliparous control tumors. Tumor burden in the postpartum involution group is significantly greater than the respective nulliparous control group; however, the Ki67 proliferative index is lower 4 weeks post injection in comparison to nulliparous controls. DCIS progression to locally invasive disease occurred with progressive loss of myoepithelial cell differentiation markers. In both cell line models, the loss of p63 was identified as an early indicator of compromised myoepithelium. Further, our data suggest that the protective myoepithelial cell layer may be preferentially compromised by tumors formed in postpartum involuting mammary glands.

Our murine mammary intraductal model of human breast cancer provides a rigorous approach to study early stage-tumor progression, and is well suited to study the effect of the host reproductive state on DCIS progression. Since occult tumors in women develop within ducts, we propose that this teat injection model will aid research of early disease progression, a requisite for research focused on breast cancer prevention and inhibition of local invasion. Further, this model may provide a unique opportunity to address and study tumor growth disparities among African American and non-Hispanic white women.

Citation Format: Tanya D. Russell, Samiat Agunbiade, Sonali Jindal, Jaime Fornetti, Virginia Borges, Pepper Schedin. A novel mammary intraductal delivery model that permits study of human ductal carcinoma in situ progression. [abstract]. In: Proceedings of the Fifth AACR Conference on the Science of Cancer Health Disparities in Racial/Ethnic Minorities and the Medically Underserved; 2012 Oct 27-30; San Diego, CA. Philadelphia (PA): AACR; Cancer Epidemiol Biomarkers Prev 2012;21(10 Suppl):Abstract nr B29.

Effect of sesamol on the pathophysiological changes induced by surgical menopause in rodents

OBJECTIVE

Estrogen deprivation after menopause is associated with increased oxidative stress. The present study was designed to study the role of sesamol (3,4-methylenedioxyphenol), a phenolic antioxidant and anti-inflammatory molecule, in oxidative stress-induced changes in three major affected organ systems, the central nervous system, the cardiovascular system and the skeletal system in ovariectomized rats, a widely used animal model of menopause.

DESIGN

Animals were divided into eight different groups (n = 6-8). Five groups underwent ovariectomy; starting from the 2nd day of ovariectomy, three of these groups received sesamol (2, 4, 8 mg/kg) and the fourth group was administered α-tocopherol (100 mg/kg) orally for 7 weeks. The fifth ovariectomized group did not receive any drug treatment. Rats in the naïve (non-operated) and sham-operated groups did not receive any drug treatment, while the eighth group consisted of naïve animals which were treated for 7 weeks with only sesamol 8 mg/kg orally daily. After 7 weeks, animals were subjected to testing of behavioral paradigms (elevated plus maze and Morris water maze for assessment of anxiety and memory, respectively) 24 h after the last dose. After behavioral studies, animals were sacrificed for various biochemical estimations.

RESULT

Administration of sesamol (2, 4, 8 mg/kg orally) to ovariectomized rats for 7 weeks significantly and dose-dependently improved memory, attenuated anxiety, decreased oxidative stress in brain, improved the serum lipid profile and reduced serum tumor necrosis factor-α levels when compared with ovariectomized control rats. Similar protective effects were observed in the case of the skeletal system studies. Sesamol increased the bone ash content and the mechanical stress parameters in treated groups.

CONCLUSION

The results emphasize the involvement of oxidative stress and inflammation in the development of ovariectomy-induced pathophysiological changes and point towards the therapeutic potential of sesamol in menopausal pathologies.

Tubercular abdominal cocoon- a rare cause of intestinal obstruction

Termed as a rare entity so far “abdominal cocoon” which is an encasing of the small bowel within the fibrous membrane is usually of unknown origin, although at times, it may be seen secondary to a variety of conditions. Though described in literature as a rare entity we report a case of tubercular abdominal cocoon in 15 year old boy. This case report emphasizes the importance of this surgical condition in a tuberculosis endemic region.