Perinatal Stroke and Apparent Life-Threatening Event: A Case Report ()
1. Introduction
By definition, an apparent life-threatening event (ALTE) refers to a sudden event, often characterized by apnea or other abrupt changes in the child’s behavior [1] . Symptoms of an ALTE include one or more of the following: apnea, change in color or muscle tone, coughing, or gagging. The most frequent complaint was cyanosis in 12 (67%) and apnea in 8 (44%) patients [2] . These episodes may necessitate stimulation or resuscitation to arouse the child and reinitiate regular breathing.
The incidence of ALTEs of presumably healthy infants is unknown, because demographic data are derived from cases in which children are admitted to emergency departments and because of marked variability in the clinical presentations. The incidence of ALTE is reported to be 1.57 to
2.46 in
1000 live birth [3] .
Most ALTEs occur in children younger than one year with a peak incidence occurring between one week and two months of age [4] . Parker and Pitetti (2011) [5] reviewed the children presenting to an emergency department of a large children’s hospital with a diagnosis of ALTE and founded a mortality rate of 0.5%.
In the first year of life Apparent Life Threatening Events are 0.8% of access to emergency department in Children Hospital [6] , still representing a multidisciplinary challenge, first of all because 99% of patient comes to medical attention in wellness. The cause of Apparent Life-Threatening Events (ALTEs) in infants reflects a differential diagnosis that includes an array of congenital or acquired disorders. Approximately 10% - 25% of Apparent Life-Threatening Events may remain unexplained following a thorough evaluation. Commonly, the problems are digestive (up to 50%), neurologic (30%), respiratory (20%), cardiac (5%), and endocrine or metabolic (less than 5%). In this context it appears necessary as a centralized approach in advanced center.
The situation is further complicated in view of the small contribution that the instrumental and laboratory tests can provide. Another unavoidable aspect is the emotional impact that these events may have on the family, in particular for fear of a possible recurrence. Therefore, the management of infant with ALTE is difficult both for clinical features and for emotional contest. A piecemeal approach to the problem may finally determine an imbalance in the use of resources, resulting in a large number of examinations, inappropriate admissions and readmissions.
In 1996 [7] , the Study Group for SIDS of the Italian Society of Pediatric had formulated a proposal for clinical management of children with a history of ALTE, which was subsequently revised in a Consensus Conference held in Florence in 2001. The Conference made a consensus document that had been reviewed by a pool of experts within the Study Group SIDS/ALTE, with the intent to update the scientific knowledge on the subject, to make the most consistent clinical/instrumental approach to these patients and to outline future directions of research (GL SIP 2010 [8] ).
In this article we report our examination of a case of ALTE that occurs in a presumably healthy infant and we present a significant example of the applicability of this diagnostic/therapeutic path.
2. Clinical Report
B.
E.
was born after a physiological pregnancy. His neonatal weight was
3400 kg
, normal adaptation for extra uterine life, artificial feeding during normal neonatal period.
In wellbeing, shortly before meal, during sleep, the child was not responsive to repeated stimulations; he was hypotonic and unresponsive. About 15 minutes later, he presented a normal tone and state of consciousness.
Biohumoral and instrumental exams of first and second levels: (negative or normal): blood tests (hemochrome
with leucocytes count, CRP, glycemia, hepatic and kidney activity indicators, urine exam and urine culture, occult test; nasal and pharyngeal swab; EEG and ECG. PT, APTT, fibrinogen, protein S and C, AT III, antiphospholipid antibodies). We found a heterozygosis mutation of prothrombin 20210.
Significant examinations:
1) Cranial ultrasonography: hyper echoic left caudate nuclei.
2) Angio-MRI brain: focal lesion at striatal left by previous vascular based lesion (lenticulostriate left arterial territory). The study did not document MRA alterations of the main components of the arterial circulation of intracranial vessels, but a tortuous course of tortuous course of left carotid artery at the transition between the cervical and petrous area (Figure 1).
3) Hemostasis and thrombosis evaluation: “no indication to start secondary prophylaxis with ASA, due to the age of the patient (he has passed the critical period for thrombotic risk, which is the first month of life) and not sure correlations between the finding of tortuosity of the internal carotid and the previous ischemic event. Moreover, the heterozygous FII mutation constitutes additional thrombotic risk in certain situations but in this clinical context does not constitute indication for prophylaxis.”
In the suspect of an ALTE episode in patient with previous stroke were performed third level analysis:
Cardiological evaluation with echocardiography: patent foramen oval, with minimum shunt left-right direction.
During the recovery, the child didn’t presented hypotonic events or loss of consciousness; vital signs with normal parameters. According to hemostasis expertand cardiologist, no treatment was started, but only a careful clinical, biohunoral and instrumental surveillance. The patient was discharged in wellness. As scheduled in ALTE―protocol information was provided on the home management of the events; was also performed practical course of cardiopulmonary resuscitation.
Figure 1. MRI and angio-MRI: T2-image (A) and T1 image (B) show the presence of left striatal lesion (arrow) with secondary dilatation of omolateral frontal corn. Calcific point lesion (dashed arrow). Corresponding to ischemic outcome (C) we observe increase diffusion (arrow). T2 Coronal image (D) demonstrates head caudate nucleus and putamen involvement. Angio-MRI study (E) doesn’t evidence endocranic circle vessels alterations. Tortuous course of left carotid artery (arrow).
3. Discussion
This report discloses how the multidisciplinary clinical approach is essential in Apparent Life-Threatening Events. The decision to admit an ALTE patient is rather difficult, for the previous reason: the children’s age, the family anxiety, the medical history not always clear with the following risk to emphasize or minimize symptoms. Literature showed only few recommendations for patients’ recovery criteria [9] .
Recommendations published in 2004 by the European Society for the Study and Prevention of Infant Death (ESPID), based on ten years of literature evidences, say that the decision to admit to hospital depends on clinical history and clinical examination after the critic episode [10] .
The admission to the hospital is necessary when the episode requires resuscitation supporter or when clinical conditions are not stationary.
Preterm children (<40 week of gestational age) are higher exposed at events like bradycardia or apnea greater than 30 seconds and therefore they need a more careful surveillance, whilst children with age > 1 month with only one ALTE episode without resuscitation, may be discharged after a first examination in emergency Department.
To sum up, even if we have not distinct criteria for hospital admission, we can define on the basis of clinical experience the following parameters of choice:
1) Patient age (first 30 days of life).
2) Preterm children (EPC < 43 sett).
3) Clinical conditions instable at the moment of clinical assessment.
4) Event meal unrelated.
5) Sleep event.
6) Acute event.
7) Relapse of apparent life-threatening event.
8) resuscitation necessity.
9) Poor familiar compliance.
Among these parameters, the child age and the familiar compliance assume particularly importance. The less important events are those related to meal (within 30 minutes), the first and spontaneously solved event. The exact management of ALTE patients is very important in situation like this, when the concomitant disease is rare to [11] . In fact, arterial stroke incidence in children > 28 days of life is estimated between 1.2 and 7.9 cases/100,000 children/year [12] [13] . Arterial ischemic stroke is reported to be more common than hemorrhagic stroke in children [14] . However, in the last 20 years, we observed an increased incidence of stroke, probably related to two main causes: a greater attention for this disease and a major survival of children with pathology that arrange for stroke thanks to a better prevention [15] . Gupta et al. in 2009 reported the case of two ALTE patients with very early magnetic resonance imaging (MRI) demonstrating a unilateral thalamic infarction [16] . The role of MRI in detecting cerebral lesion and in assessing the clinical outcome in ALTE patients is postulated in some recent reports; in fact, the report of Christophe C. et al. demonstrated that MRI could be helpful to assess the neurologic outcome as early as 3 days after the event when combined with the score of the electrophysiological investigations [17] . In conclusion, it’s a fundamental multidisciplinary approach even in following months after the events [18] .
4. Conclusion
We have analyzed the management of syncopal episode in patient with previous stroke, foramen ovale and heterozyogosis factor II gene. We have reported the importance of a multidisciplinary team in this kind of patients.