Severe hypercalcemia as a form of acute lymphoblastic leukemia presentation in children

Martins, Andreia Luís; Moniz, Marta; Nunes, Pedro Sampaio; Abadesso, Clara; Loureiro, Helena Cristina; Duarte, Ximo; Almeida, Helena Isabel

doi:10.5935/0103-507X.20150067

ABSTRACT

Hypercalcemia is a rare metabolic disorder in children and is potentially fatal. It has a wide differential diagnosis, including cancer. Here, we report the case of a previously healthy 3-year-old who was admitted to the emergency room with fatigue, hyporeactivity, fever and limping gait that had evolved over 5 days and that was progressively worsening. On examination the patient was unconscious (Glasgow coma score: 8). Laboratory tests indicated severe hypercalcemia (total calcium 21.39mg/dL, ionized calcium 2.93mmol/L) and microcytic anemia. Hyperhydration was initiated, and the child was transferred to the pediatric intensive care unit. Continuous venovenous hemodiafiltration with calcium-free solution was instituted, which brought progressive normalization of serum calcium and an improved state of consciousness. Zoledronate was administered, and metabolic and infectious causes and poisoning were excluded. The bone marrow smear revealed a diagnosis of acute lymphoblastic leukemia. Hypercalcemia associated with malignancy in children is rare and occurs as a form of cancer presentation or recurrence. Continuous venovenous hemodiafiltration should be considered in situations where there is imminent risk to life.

Keywords:
Hypercalcemia; Precursor T-cell lymphoblastic leukemia-lymphoma; Hemodiafiltration; Case reports

RESUMO

A hipercalcemia é um distúrbio metabólico raro em pediatria, potencialmente fatal, apresentando um vasto diagnóstico diferencial, incluindo neoplasias. Relatamos aqui o caso de uma criança de 3 anos, previamente saudável, admitida no serviço de urgência por fadiga, hiporreatividade, febre e claudicação da marcha com 5 dias de evolução, de agravamento progressivo. À observação, apresentava-se inconsciente (escore de coma Glasgow: 8). Laboratorialmente, apresentava hipercalcemia grave (cálcio total 21,39mg/dL, ionizado 2,93mmol/L) e anemia microcítica. Iniciou hiper-hidratação e foi transferido para a unidade de cuidados intensivos pediátricos. Instituiu-se hemodiafiltração venovenosa contínua com soluto livre de cálcio, ocorrendo a progressiva normalização da calcemia, com melhoria do estado de consciência. Administrou-se zolendronato. Excluíram-se causas metabólicas, infecciosas e intoxicação. O mielograma permitiu o diagnóstico de leucemia linfoblástica aguda. A hipercalcemia associada à malignidade em pediatria é rara, ocorrendo como forma de apresentação da neoplasia ou na recorrência desta. Em situações com risco de vida iminente, deve se considerar hemodiafiltração venovenosa contínua.

Descritores:
Hipercalcemia; Leucemia-linfoma linfoblástico de células T precursoras; Hemodiafiltração; Relatos de casos

INTRODUCTION

Hypercalcemia is an uncommon metabolic disorder in children. The differential diagnosis is complex and varies with age at presentation. Metabolic, nutritional, drug-induced, genetic, inflammatory and neoplastic factors may also be involved.⁽¹1 Lietman SA, Germain-Lee EL, Levine MA. Hypercalcemia in children and adolescents. Curr Opin Pediatr. 2010;22(4):508-15.⁾

Although common in adults, malignancy-associated hypercalcemia (MAH) is a rare complication at pediatric age and occurs in 0.4 to 1.3% of cancers, of which acute lymphoblastic leukemia is the most common in this age group.⁽²2 McKay C, Furman WL. Hypercalcemia complicating childhood malignancies. Cancer. 1993;72(1):256-60.^,³3 Inukai T, Hirose K, Inaba T, Kurosawa H, Hama A, Inada H, et al. Hypercalcemia in childhood acute lymphoblastic leucemia: frequent implication of parathyroid hormone-related peptide and E2A-HLF from translocation 17;19. Leukemia. 2007;21(2):288-96.⁾

Treatment of MAH consists in the treatment of the underlying malignancy. In severe and persistent hypercalcemia, the initial approach is hyperhydration.⁽⁴4 Sargent JT, Smith OP. Haematological emergencies managing hypercalcaemia in adults and children with haematological disorders. Br J Haematol. 2010;149(4):465-77.⁾ As a part of standard treatment, prednisolone is effective in cases of moderate severity.⁽⁴4 Sargent JT, Smith OP. Haematological emergencies managing hypercalcaemia in adults and children with haematological disorders. Br J Haematol. 2010;149(4):465-77.⁾ Calcitonin is often reported as a treatment for pediatric MAH but has a modest hypocalcemic effect and is not marketed in Portugal. Bisphosphonates have been extensively studied and are effective in adult MAH. However, due to the rarity of the disease in children and the potential adverse effects with respect to osteogenesis, studies of efficacy and safety in this age group are limited.⁽⁴4 Sargent JT, Smith OP. Haematological emergencies managing hypercalcaemia in adults and children with haematological disorders. Br J Haematol. 2010;149(4):465-77.⁾ Nonetheless, small case series have confirmed its effectiveness.⁽⁵5 Kerdudo C, Aerts I, Fattet S, Chevret L, Pacquement H, Doz F, et al. Hypercalcemia and childhood cancer: a 7-year experience. J Pediatr Hematol Oncol. 2005;27(1):23-7.⁾ Severe symptomatic hypercalcemia requires emergency correction with continuous venovenous hemodiafiltration.

CASE REPORT

A 3-year-old male child weighting 16kg with unremarkable past medical history presented with tiredness that had evolved over 1 week. Five days before admission, he started fever, left coxalgia and limping gait in the context of recent trauma. Due to symptom maintenance, the child was re-evaluated 3 days before admission. Imaging and laboratory studies did not suggest osteoarticular infection, and the child was given symptomatic treatment. Since the clinical picture persisted and was, accompanied by prostration, hyporeactivity and refusal to eat, he returned to the emergency room.

On admission, the patient was unconscious (Glasgow coma score: 8) with the maintenance of osteotendinous reflexes. He was hemodynamically stable and did not present any other alterations, such as rash, blood dyscrasia, lymphadenopathy, hepatomegaly or splenomegaly.

Laboratory evaluation revealed compensated metabolic alkalosis (pH of 7.41, partial pressure of carbon dioxide [PaCO₂] of 48.7mmHg, bicarbonate [HCO₃] of 32.5mmol/L and base excess of 9.6) and severe hypercalcemia (total calcium 21.8mg/dL, ionized calcium 2.93mmol/L). Other evaluations are shown in table 1. Craniocephalic computed tomography and renal, abdominal and hip joint ultrasound showed no significant changes.

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Table 1
Evaluation performed on admission

Given the clinical and laboratory severity of hypercalcemia, on suspicion of osteoarticular infection, intravenous hyperhydration was initiated (2,500mL/m²/day), and antibiotics were given (flucloxacillin and gentamicin). The child was transferred to the pediatric intensive care unit. Continuous venovenous hemodiafiltration was initiated after a 6.5F hemodialysis central venous catheter was placed in the right femoral vein. An HF20 filter was used and priming was performed with 5,000 UI of heparin in 1L of 0.9% sodium chloride. Continuous venovenous hemodiafiltration was programmed in accordance with the pediatric protocol (25 - 40mL/kg/h = 1/3 dialysis fluid + 2/3 fluid replacement (2/3 prefilter + 1/3 post-filter)). Ultrafiltrate was calculated according to the desired fluid balance.⁽⁶6 Ruza F. Tratado de cuidados intensivos pediatricos. 3a ed. Madri: Norma-Capitel Ediciones; 2003.⁾ A replacement and calcium-free dialysis solution was used (Prism0Cal^®, Gambro - Lund, Sweden). Regional anticoagulation was performed with machine-perfused unfractionated heparin, the dose of which was adjusted according to the patient's activated partial thromboplastin time. The technique was maintained for 72 hours and took place without complications. As a therapeutic supplement, intravenous zoledronate (0.025mg/kg) was administered on the third day of hospitalization. There was a progressive decrease in total and ionized calcium levels and an improved state of consciousness (Figure 1).

Figure 1
Evolution of total calcemia during hospitalization in the pediatric intensive care unit.

Grey area: total calcium reference value limits; black bars: period under continuous venovenous hemodiafiltration; grey bars: period under calcium supplementation. IPO - Instituto Português de Oncologia.

The investigation revealed low (unmeasurable) serum intact parathyroid hormone (PTH) and excluded metabolic and infectious causes and vitamin or drug poisoning (Table 2). Skeletal radiography excluded osteolytic lesions.

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Table 2
Laboratory tests performed

During hospitalization, progressive pancytopenia (hemoglobin 7.7g/dL, leukocytes 2200/uL, platelets 67000/uL) was identified and bone marrow examination was performed, which confirmed precursor B-cell acute lymphoblastic leukemia.

After diagnosis, the child was transferred to a pediatric oncology referral center, where, after further review, remission induction therapy was started (2005 ALL-DFCI protocol of the Dana-Farber Cancer Institute). The complementary evaluation by flow cytometry revealed 69% infiltration of B lymphoblasts. During hospitalization, there were periods of asymptomatic hypocalcemia (minimum 5.9mg/dL at day 10 post-zoledronate), which required intravenous correction. A bone marrow smear performed 4 weeks after the beginning of induction therapy confirmed complete remission both morphologically and by molecular biology.

Currently, approximately 10 months after starting treatment, the child remains in remission.

DISCUSSION

Hypercalcemia is a potentially fatal disorder, regarding its neurological and cardiac complications. The treatment includes hyperhydration, bisphosphonates and treatment of the underlying disease.⁽¹1 Lietman SA, Germain-Lee EL, Levine MA. Hypercalcemia in children and adolescents. Curr Opin Pediatr. 2010;22(4):508-15.⁾ Occasionally, rapid correction of the disturbance becomes crucial, particularly in the setting of loss of consciousness or when the hypercalcemia is refractory to conventional measures. In such situations, the use of continuous venovenous hemodiafiltration has been identified as an effective treatment.⁽⁷7 Pradhan M, Leonard MB. Calcium-free hemodialysis for hypercalcemia of malignancy in a newborn. Pediatr Nephrol. 2003;18(5):474-6.^,⁸8 Wang CC, Chen YC, Shiang JC, Lin SH, Chu P, Wu CC. Hypercalcemic crisis successfully treated with prompt calcium-free hemodialysis. Am J Emerg Med. 2009;27(9):1174.e1-3.⁾ Its successful use in severe hypercalcemia has been reported in adults,⁽⁸8 Wang CC, Chen YC, Shiang JC, Lin SH, Chu P, Wu CC. Hypercalcemic crisis successfully treated with prompt calcium-free hemodialysis. Am J Emerg Med. 2009;27(9):1174.e1-3.

9 Au S, Dunham M, Godinez T. Treatment of medically refractory hypercalcemic crisis. Int J Artif Organs. 2012;35(7):538-41.

10 Kindgen-Milles D, Kram R, Kleinekofort W, Morgera S. Treatment of severe hypercalcemia using continuous renal replacement therapy with regional citrate anticoagulation. ASAIO J. 2008;54(4):442-4.^-¹¹11 Camus C, Charasse C, Jouannic-Montier I, Seguin P, Tulzo YL, Bouget J, et al. Calcium free hemodialysis: experience in the treatment of 33 patients with severe hypercalcemia. Intensive Care Med. 1996;22(2):116-21.⁾ but the use of the technique in pediatrics has rarely been described in the literature.⁽⁷7 Pradhan M, Leonard MB. Calcium-free hemodialysis for hypercalcemia of malignancy in a newborn. Pediatr Nephrol. 2003;18(5):474-6.^,¹²12 Bahoush G, Miri-Aliabad G. Severe hypercalcemia: a rare and unusual presentation of childhood acute lymphoblastic leukemia. Int J Hematol Oncol Stem Cell Res. 2014;8(2):38-40.⁾ In this case report, due to severe hypercalcemia on admission, the use of dialysis solution with calcium-free replacement was chosen. Regular analytical calcemia controls were performed in order to avoid a sudden decrease and below-normal values. The renal replacement therapy settings were set in order to provide a gradual decrease in serum calcium, thereby avoiding complications such as circuit clotting. As the patient did not present spontaneous diuresis, it was decided to program losses to ensure a neutral fluid balance. Following clinical and laboratory stabilization, zoledronate was introduced to maintain normocalcemia, as the effect of continuous venovenous hemodiafiltration is temporary.⁽¹¹11 Camus C, Charasse C, Jouannic-Montier I, Seguin P, Tulzo YL, Bouget J, et al. Calcium free hemodialysis: experience in the treatment of 33 patients with severe hypercalcemia. Intensive Care Med. 1996;22(2):116-21.⁾ Continuous monitoring of serum calcium levels was assured due to the risk of hypocalcemia observed in this case.⁽¹³13 Kreutle V, Blum C, Meier C, Past M, Müller B, Schütz P, et al. Bisphosphonate induced hypocalcemia - report of six cases and review of the literature. Swiss Med Wkly. 2014;144:w13979.⁾

The etiological investigation suggested an independent PTH mechanism. Metabolic and infectious causes and vitamin or drug poisoning were excluded. Progressive pancytopenia led to the suspicion of MAH, which ultimately led to the final diagnosis.

The pathogenesis of MAH includes the stimulation of bone resorption, mediated by proteins and cytokines produced by the tumor cells or by the tumoral microenvironment. Two distinct mechanisms are described, which include hypercalcemia by local osteolytic lesions (bone metastasis) and humoral hypercalcemia by the activation of RANK-RANKL (receptor activator of nuclear factor κB and its ligand). Parathyroid hormone-related protein (PTHrP) is the most frequently involved mediator, but other mediators, such as interleukin (IL)-1, IL-6, tumor necrosis factor alpha (TNF-α), transforming growth factor beta (TGF-β), prostaglandins and even calcitriol and ectopic PTH production may be involved.⁽⁴4 Sargent JT, Smith OP. Haematological emergencies managing hypercalcaemia in adults and children with haematological disorders. Br J Haematol. 2010;149(4):465-77.⁾

In acute lymphoblastic leukemia, an association with hypercalcemia in patients with t (17;19) has been reported, suggesting the possible induction of PTHrP.⁽³3 Inukai T, Hirose K, Inaba T, Kurosawa H, Hama A, Inada H, et al. Hypercalcemia in childhood acute lymphoblastic leucemia: frequent implication of parathyroid hormone-related peptide and E2A-HLF from translocation 17;19. Leukemia. 2007;21(2):288-96.^,¹⁴14 Minson KA, Prasad P, Vear S, Borinstein S, Ho R, Domm J, et al. t(17;19) in children with acute lymphocytic leukemia: a report of 3 cases and a review of the literature. Case Rep Hematol. 2013;2013:563291.⁾ In this case, this cytogenetic abnormality was not observed, and high levels of PTHrP were not detected, thus excluding this mechanism as the primum movens of hypercalcemia.

CONCLUSION

The described case shows an infrequent complication, not only at pediatric age, but also in children with oncological diseases, suggesting that this metabolic emergency unveils of the underlying disease. Continuous venovenous hemodiafiltration with calcium-free solution as a first-line treatment in cases of severe and symptomatic hypercalcemia was found to be effective in the rapid induction of normocalcemia and neurological improvement, buying valuable time until maintenance treatment focused on the etiology can exert a sustained effect.

Responsible editor: Jefferson Piva

REFERÊNCIAS

¹
Lietman SA, Germain-Lee EL, Levine MA. Hypercalcemia in children and adolescents. Curr Opin Pediatr. 2010;22(4):508-15.
²
McKay C, Furman WL. Hypercalcemia complicating childhood malignancies. Cancer. 1993;72(1):256-60.
³
Inukai T, Hirose K, Inaba T, Kurosawa H, Hama A, Inada H, et al. Hypercalcemia in childhood acute lymphoblastic leucemia: frequent implication of parathyroid hormone-related peptide and E2A-HLF from translocation 17;19. Leukemia. 2007;21(2):288-96.
⁴
Sargent JT, Smith OP. Haematological emergencies managing hypercalcaemia in adults and children with haematological disorders. Br J Haematol. 2010;149(4):465-77.
⁵
Kerdudo C, Aerts I, Fattet S, Chevret L, Pacquement H, Doz F, et al. Hypercalcemia and childhood cancer: a 7-year experience. J Pediatr Hematol Oncol. 2005;27(1):23-7.
⁶
Ruza F. Tratado de cuidados intensivos pediatricos. 3a ed. Madri: Norma-Capitel Ediciones; 2003.
⁷
Pradhan M, Leonard MB. Calcium-free hemodialysis for hypercalcemia of malignancy in a newborn. Pediatr Nephrol. 2003;18(5):474-6.
⁸
Wang CC, Chen YC, Shiang JC, Lin SH, Chu P, Wu CC. Hypercalcemic crisis successfully treated with prompt calcium-free hemodialysis. Am J Emerg Med. 2009;27(9):1174.e1-3.
⁹
Au S, Dunham M, Godinez T. Treatment of medically refractory hypercalcemic crisis. Int J Artif Organs. 2012;35(7):538-41.
¹⁰
Kindgen-Milles D, Kram R, Kleinekofort W, Morgera S. Treatment of severe hypercalcemia using continuous renal replacement therapy with regional citrate anticoagulation. ASAIO J. 2008;54(4):442-4.
¹¹
Camus C, Charasse C, Jouannic-Montier I, Seguin P, Tulzo YL, Bouget J, et al. Calcium free hemodialysis: experience in the treatment of 33 patients with severe hypercalcemia. Intensive Care Med. 1996;22(2):116-21.
¹²
Bahoush G, Miri-Aliabad G. Severe hypercalcemia: a rare and unusual presentation of childhood acute lymphoblastic leukemia. Int J Hematol Oncol Stem Cell Res. 2014;8(2):38-40.
¹³
Kreutle V, Blum C, Meier C, Past M, Müller B, Schütz P, et al. Bisphosphonate induced hypocalcemia - report of six cases and review of the literature. Swiss Med Wkly. 2014;144:w13979.
¹⁴
Minson KA, Prasad P, Vear S, Borinstein S, Ho R, Domm J, et al. t(17;19) in children with acute lymphocytic leukemia: a report of 3 cases and a review of the literature. Case Rep Hematol. 2013;2013:563291.

Publication Dates

Publication in this collection
Oct-Dec 2015

History

Received
17 Sept 2015
Accepted
19 Nov 2015

Este é um artigo publicado em acesso aberto (Open Access) sob a licença Creative Commons Attribution, que permite uso, distribuição e reprodução em qualquer meio, sem restrições desde que o trabalho original seja corretamente citado.

[1] Responsible editor: Jefferson Piva

Analysis	Result	Reference value
Hemoglobin (g/dL)	9.3	11.5 - 11.5
Hematocrit (%)	26.6	34 - 43
Mean corpuscular volume (fL)	73.1	75 - 90
Leukocytes (/uL)	5,500	4,000 - 12,000
Neutrophils (/uL)	2,300
Lymphocytes (/uL)	2,500
Platelets (/uL)	186,000	150,000 - 350,000
C-reactive protein (mg/dL)	7.96	< 0,3
Urea (mg/dL)	60	17 - 38.5
Creatinine (mg/dL)	0.83	0.5 - 1.1
Albumin (g/dL)	3.3	3.6 - 5.2
Aspartate aminotransferase (UI/L)	42	10 - 47
Alanine aminotransferase (UI/L)	48	24 - 49
Lactate dehydrogenase (UI/L)	739	155 - 280
Alkaline phosphate (UI/L)	121	191 - 450
Serum inorganic phosphorus (mg/dL)	3.1	4.0 - 6.0
Serum magnesium (mg/dL)	1.1	1.7 - 2.4
Serum potassium (mmol/L)	2.52	3.5 - 5.0
Serum sodium (mmol/L)	133	135 - 145

Analysis	Result	Reference value
PTH intact	< 20
PTHrp (pmol/L)	1.2	< 2.0
1.25 (OH)₂D (pmol/L)	2	39 - 193
25 (OH)D (ng/dL)	12.7	30 - 100
Retinol (ng/dL)	21	30 - 70
ACE (U/L)	20.10	12 - 68
EBV-VCA IgM/IgG	Negative/positive
Parvovirus B19 IgM/IgG	Negative/positive
CMV IgM/IgG	Negative/positive
Mycoplasma pneumoniae IgM/IgG	Negative/negative
HIV 1/2	Negative
FT3 (pg/mL)	2.31	4.0 - 7.10
FT4 (ng/dL)	0.56	0.9 -1.70
TSH (mUI/L)	0.496	0.8 - 7.5
Total proteins (g/dL)	5.6	6 - 8
Albumin (g/dL)	2.53	3.75 - 5.01
Uric acid (mg/dL)	9.4	3.0 - 5.5

Brasil