Bilateral bartholin’s gland abscesses in a 4-year-old girl with vitamin a deficiency: a case report

Background

A Bartholin’s gland abscess is one of the most common infections in women of reproductive age. Although Bartholin’s gland abscesses have been reported in prepubertal children, they are rarer in prepubertal children than in adults. Herein, we report a case of bilateral Bartholin’s gland abscesses in a 4-year-old girl with vitamin A deficiency.

Case presentation

A 4-year-old girl diagnosed with autism spectrum disorder was admitted to the hospital for close examination and treatment because of persistent fever and malaise. The child was a marked fussy eater and was diagnosed with corneal ulceration and night blindness secondary to vitamin A deficiency. Both of the patient’s labia were swollen, and a diagnosis of a bilateral Bartholin’s gland abscess was made using computed tomography. Incisional drainage was performed under general anesthesia. The patient’s postoperative course was uneventful, and she was discharged from the hospital on day 8 after the surgery. During hospitalization, attempts were made to correct the vitamin deficiency by adding nutritional supplements to the diet. Three months after the surgery, no recurrence of abscesses was noted.

Conclusions

Decreased immunocompetence and mucosal barrier function due to vitamin A deficiency is thought to be the underlying cause of Bartholin’s gland abscesses. Although prepubertal Bartholin’s gland abscesses have been reported, they are rare. To the best of our knowledge, no reports of bilateral Bartholin’s gland abscesses potentially caused by vitamin A deficiency have been reported. When prepubertal girls present with Bartholin’s gland abscesses, the presence of immunodeficiency due to vitamin or trace element deficiency should also be considered.

A Bartholin’s gland abscess is one of the most common infections among sexually active women [1]. In women, the Bartholin’s glands are located on the inside of the labia; they secrete a fluid during sexual activity that moistens the vagina, prevents bacterial invasion, and acts as a lubricant during sexual intercourse [1]. Bartholin’s gland abscesses can be treated with antimicrobials and incisional drainage. However, the formation of an abscess can be quite painful, sometimes impeding walking and affecting quality of life. For instance, patients may find it difficult to sit in a chair owing to severe pain.

Obstruction of the orifice leads to a Bartholin’s gland cyst, and further bacterial infection results in a Bartholin’s gland abscess [1]. It is unlikely to occur before puberty when the Bartholin’s glands have not yet begun to secrete.

Although Bartholin’s gland abscesses in prepubertal girls have been reported [1,2,3,4,5,6,7,8,9,10], they are rarer in prepubertal girls than in adult women. Herein, we report a case of a bilateral Bartholin’s gland abscesses in a 4-year-old girl with vitamin A deficiency.

A 4-year-old girl with autism spectrum disorder was hospitalized for close examination and treatment following the development of a fever and gradual poor oral intake. The patient’s height was 91.5 cm, and her weight was 14.5 kg. When spoken to, she did not make eye contact or respond. Her right eyeball was cloudy because of a corneal ulceration.

She was a fussy eater, eating only French fries from a particular fast-food company. The patient defecated in a diaper. At 4 years of age, 3 months before the current admission, she was diagnosed with a right corneal ulcer, left upper eyelid chalazion, and night blindness due to vitamin A deficiency, for which antimicrobial (cephem type 3) and hyaluronic acid eye drops were administered.

The patient’s body temperature at the time of transfer was 38.7 °C, blood pressure was 100/77 mmHg, heart rate was 100 beats/min, and oxygen saturation was 98% (room air). Upon admission, blood test results revealed a leukocyte count of 21,600 cells/µL, hemoglobin concentration of 10.1 g/dL, C-reactive protein concentration of 6.57 mg/dL, and elevated inflammatory reactions, whereas urinalysis revealed cloudy urine and the presence of bacteria. Owing to the patient’s history of refractory cystitis, she was prescribed 700 mg piperacillin (50 mg/kg) for a suspected urinary tract infection.

On day 9 of admission, the patient exhibited bilateral swelling of the labia majora, predominantly on the left side (Fig. 1). Ultrasonography revealed a subcutaneous abscess, superficial echocardiography revealed fluid retention in the left labia majora over the inguinal area, and contrast-enhanced computed tomography revealed fluid accumulation with a contrast effect in the labia majora. Therefore, a diagnosis of bilateral Bartholin’s gland abscesses was made (Fig. 2), and the patient was referred to the pediatric surgery and obstetrics department for incision and drainage. Following maximum drainage of the abscess in the left labia majora, which was punctured with an 18-G needle, the contents were submitted for culture examination.

Before drainage swollen labia majora on both sides

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Contrast-enhanced computed tomography enhanced and swollen labia on both sides indicating bilateral bartholin’s gland abscesses (red arrow and yellow triangle)

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The blood test results were as follows: leukocytes, 36,300 cells/µL; hemoglobin, 8.9 g/dL; C-reactive protein, 2.57 mg/dL; total protein, 6.4 g/dL; serum albumin, 3.1 g/dL; ferritin, 112.2 (reference range, 3.6–114) ng/mL; iron, 13 (40–188) µg/dL; zinc, 40 (80–130) µg/dL; vitamin A, 6 (97–316) IU/dL; vitamin C, 2.9 (5.5–16.8) µg/ mL; and selenium, < 2.0 (107–171) µg/L.

The patient had an excessive inflammatory response, vitamin A and C deficiencies, and a trace element deficiency due to an unbalanced diet. Bacterial culturing of the abscess yielded anaerobic gram-positive cocci (streptococci), and intravenous treatment with 1,574 mg piperacillin/tazobactam (100 mg/kg) was initiated. Subsequently, Streptococcus constellatus and Prevotella bivia were detected in the abscess culture.

The swelling did not decrease after the abscess was punctured; thus, 1 week after the antimicrobials were administered, incisional draining of the abscesses was performed under general anesthesia, and the wounds were sutured completely to avoid dead space. The patient was intravenously treated with 4,350 mg sulbactam/ampicillin (300 mg/kg) until postoperative day 5 and discharged from the hospital on postoperative day 8. As she recovered without any complications, no further postoperative blood tests were performed.

An outpatient examination 1 week after discharge from the hospital revealed healing of the wound. Three months after the patient’s surgery, no recurrence of abscesses was noted. Although the patient’s picky eating seemed to have lessened after discharge from the hospital, she had already returned to eating only French fries 3 months after surgery and continued to receive treatment with nutritional supplements.

Initially, her parents demonstrated efforts to address her selective eating habits. However, over time, she exclusively consumed a specific brand of French fries, insisting on a particular location and plate for her meals. The child’s behavior had to be addressed before she succumbed to further malnutrition-related ailments and to provide support to families facing similar challenges within society. Hospitalization facilitated the parents’ comprehension of their child’s health impact and allowed for the monitoring of her nutritional status through the administration of supplements and the assessment of trace elements and vitamins as required.

Bartholin’s gland abscesses are known to occur in sexually mature female individuals. That is why, for a prepubertal child, Bartholin’s gland abscess is normally excluded from the differential diagnosis. In Table 1, we summarize previous case reports of Bartholin’s gland abscesses in prepubertal children.

Bartholin’s gland cyst has been reported in a neonate with developmental abnormalities of the vaginal and urinary tract system [7]. However, vulvar masses in children are difficult to detect unless the patient complains about them. In this case, the child was on the autism spectrum and had difficulties communicating. She had an elevated inflammatory response that could not be explained by a urinary tract or upper respiratory infection, and a vulvar abnormality was first noticed during a diaper change.

The differential diagnosis included a lipoma, fibrosis, and infection of the canal of Nuck; however, imaging revealed a Bartholin’s gland abscess. Lipomas and fibromas typically present as solid masses and are rarely associated with infection. The canal of Nuck represents a cystic lesion extending into the inguinal region, which was ruled out based on imaging.

If local swelling and inflammation cannot be controlled with antimicrobial treatment already in place, incisional drainage is the treatment of choice for Bartholin’s gland abscesses. Considering that this disease can occur in girls who are not sexually mature, surgical treatment should be initiated at an appropriate time.

Our patient had a vitamin deficiency, particularly that of vitamin A, due to an unbalanced diet. Vitamin A deficiency has been associated with infectious diseases, particularly in developing countries, and reportedly contributes to conditions such as diarrhea, malaria, and severe cases of measles [11].

In Japan, as in other developed countries, few cases of vitamin deficiency are encountered. However, the nutritional situation should be considered for patients with certain behavioral tendencies, such as those with autism spectrum disorder.

Typical vitamin A deficiency disorders include corneal xerosis; night blindness; dryness, thickening, and keratinization of the skin; and infections due to decreased immunocompetence and dryness of the mucosal epithelium [12, 13].

Reports of infections acquired in the womb of a mother with a history of treatment for bacterial vaginitis have been documented [8, 13]. Furthermore, respiratory infections have been studied in infants with vitamin A deficiency [12]; however, we are not aware of other reports of bilateral Bartholin’s gland abscesses in the context of vitamin A deficiency. Vitamin A deficiency can result in immunodeficiency, rendering patients susceptible to infections [14]. This can result in infections that are less common in infants, such as that observed in this case. Although one does not immediately suspect a Bartholin’s gland cyst from a swollen vulva in a child, vitamin A deficiency due to an unbalanced diet may cause dry mucosal epithelium, facilitating bacterial infection of the vulva through excretion in the diaper. Other vitamin deficiencies have been linked to infectious diseases. For instance, vitamin C deficiency has been associated with a significant difference in mortality within 28 days among patients with sepsis in the intensive care unit, suggesting that vitamin deficiency plays a crucial role in infection control [15].

A Bartholin’s gland abscess is a disease that predominantly affects postpubertal female individuals but may also occur in infants and children under the conditions described above. In cases of unusual infectious diseases, the scope of the differential diagnosis should be expanded to consider deficiencies in trace elements and vitamins regardless of the patient’s age. For infants and other children who face challenges in communicating with caregivers, obtaining detailed information about their daily lives from parents is essential.

Herein, we report a case of bilateral Bartholin’s gland abscesses in a child. In Japan, as in other developed countries, few cases of vitamin deficiency are encountered. Moreover, for prepubertal children, a Bartholin’s gland abscess is typically excluded from the differential diagnosis. However, for children with certain nutritional tendencies, such as those who are picky eaters, one should consider nutritional deficiencies when making a diagnosis. Vitamin A deficiency leads to immunodeficiency, and thus, increased susceptibility to infections is considered a contributing factor.

All data generated or analyzed during this study are included in this published article.

We would like to thank the Department of General Medicine and Department of Pediatric Surgery Hyogo Prefectural Kobe Children’s Hospital for their cooperation in the management of this case.

Not applicable.

Authors and Affiliations

1. Department of Obstetrics, Hyogo Prefectural Kobe Children’s Hospital, 1-6-7, Minatojimaminamimachi, Chuo-ku, Kobe, Hyogo, 650-0047, Japan

   Tomoko Kihara & Toru Funakoshi

2. Department of Internal Medicine, Hyogo Prefectural Tamba Medical Center, Tamba, Japan

   Tsuneaki Kenzaka

3. Division of Community Medicine and Career Development, Kobe University Graduate School of Medicine, Kobe, Japan

   Tsuneaki Kenzaka

4. Department of General Medicine, Hyogo Prefectural Kobe Children’s Hospital, Kobe, Japan

   Tomohiro Hasegawa

5. Department of Pediatric Surgery, Hyogo Prefectural Kobe Children’s Hospital, Kobe, Japan

   Koutaro Uemura

Contributions

TKihara, TH, KU managed the case and prepared and revised the manuscript. TKenzaka assisted with the preparation and revision of the manuscript. TF assisted with data analysis and revision of the manuscript. All authors approve the final manuscript as submitted and agree to be accountable for all aspects of the work. All authors take full responsibility for the integrity of the report and the final manuscript.

Corresponding author

Correspondence to Tomoko Kihara.

Ethics approval and consent to participate

The Hyogo Prefectural Kobe Children’s Hospital waived the ethical approval and consent requirement for this case report owing to its retrospective nature. This study was carried out in accordance with the guidelines of the Declaration of Helsinki.

Consent for publication

Written informed consent was obtained from the patient’s parents to publish this case report and accompanying images. A copy of the written consent is available for review by the editor of this journal.

Competing interests

The authors declare no competing interests.

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