Teeradej Kuptanon scite author profile

The number of children requiring long-term ventilation support is increasing in many countries around the world. Children benefit from being mechanically ventilated at home rather than staying in the hospital for a longer period of time. Here, we have reviewed the related literatures and guidelines on pediatric home mechanical ventilation and shared our experience in Thailand, where there is no federal or insurance coverage for home care. An economic approach has been taken that includes using less expensive ventilators, training non-professional family caregivers, and seeking funding resources. We also report on the favorable outcome of a program we started in 1995. Of 148 children, 95 (64.2 %) have used noninvasive ventilators, 128 (86.5 %) survive, 20 (13.5 %) were weaned off, only four (2.7 %) died unexpectedly. We hope that this model approach may be useful in some areas with similar difficulties. Keywords Chronic respiratory failure Á Respiratory insufficiency Á Home mechanical ventilation Á Long-term mechanical ventilator Á BPAP Á CPAP

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Improvement of Skills in Cardiopulmonary Resuscitation of Pediatric Residents by Recorded Video Feedbacks

Anantasit

Vaewpanich

Kuptanon

et al. 2016

Indian J Pediatr

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QT dispersion in childhood obstructive sleep apnoea syndrome

et al. 2010

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The difference between maximal and minimal QT interval and corrected QT interval defined as QT dispersion and corrected QT dispersion may represent arrhythmogenic risks. This study sought to evaluate QT dispersion and corrected QT dispersion in childhood obstructive sleep apnoea syndrome. Forty-four children (34 male) with obstructive sleep apnoea syndrome, aged 6.2 plus or minus 3.5 years along with 38 healthy children (25 male), 6.6 plus or minus 2.1 years underwent electrocardiography to measure QT and RR intervals. Means QT dispersion and corrected QT dispersion were significantly higher in obstructive sleep apnoea syndrome than controls, 52 plus or minus 27 compared to 40 plus or minus 14 milliseconds (p equal to 0.014), and 71 plus or minus 29 compared to 57 plus or minus 19 milliseconds (p equal to 0.010), respectively. Interestingly, QT dispersion and corrected QT dispersion in obstructive sleep apnoea syndrome with obesity, 57 plus or minus 30 and 73 plus or minus 31 milliseconds, were significantly higher than in control, 40 plus or minus 14 and 57 plus or minus 19 milliseconds (p equal to 0.009 and 0.043, respectively). However, QT dispersion and corrected QT dispersion in obstructive sleep apnoea syndrome without obesity, 43 plus or minus 20 and 68 plus or minus 26 milliseconds, were not significantly different. In conclusion, QT dispersion and corrected QT dispersion were significantly increased only in childhood obstructive sleep apnoea syndrome with obesity. Obesity may be the factor affecting the increased QT dispersion and corrected QT dispersion.

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Dengue virus infection in haemophilic patients: aggravation of bleeding risk

Chuansumrit

Tangnararatchakit

Sirachainan

et al. 2010

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P-wave dispersion as a simple tool for screening childhood obstructive sleep apnea syndrome

2019

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The effect of prenatal nicotine exposure on PDGFR-mediated anti-apoptotic mechanism in the caudal brainstem of developing rat

Simakajornboon¹,

Kuptanon²,

Jirapongsuwan³

2010

Neuroscience Letters

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Using non-invasive bi-level positive airway pressure ventilator via tracheostomy in children with congenital central hypoventilation syndrome: two case reports

et al. 2015

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IntroductionDue to the economic downturn in Thailand, two baby girls with congenital central hypoventilation syndrome had to wait for several months to obtain definite diagnosis and long-term mechanical ventilation. Genetic investigation later revealed 20/25 polyalanine expansion of PHOX2B gene in both girls. In this report we highlight the use of non-invasive bi-level positive airway pressure ventilators via tracheostomy, overnight end-tidal carbon dioxide trend graphs and outcomes of the patients whose diagnosis and treatment were delayed.Case presentationCase 1: A Thai baby girl showed symptoms of apnea and cyanosis from birth and required invasive mechanical ventilation via tracheostomy during sleep. At 5 months, she unfortunately was discharged from the hospital without any ventilatory support due to financial problems. She subsequently developed cor pulmonale, respiratory failure and generalized edema and was referred to us when she was 9-months old. An overnight polysomnogram was consistent with a central hypoventilation disorder, in which the severity of oxygen desaturation and hypercapnia was worsening during non-rapid eye movement compared to rapid eye movement sleep. At 12 months she was allowed to go home with a conventional home ventilator. The ventilator was changed to bi-level positive airway pressure when she was 4-years old. After she received adequate home ventilation, she thrived with normal growth and development.Case 2: A Thai baby girl developed apnea and cyanosis from the age of 5 weeks, requiring ventilatory support (on and off) for 5 months. After being extubated, she had been put on supplemental oxygen via nasal cannula for 2 months. She was then referred to us when she was 7-months old. An overnight end-tidal carbon dioxide trend graph revealed marked hypercapnia without increase in respiratory rate. An overnight polysomnogram was consistent with a central hypoventilation disorder. Since 9 months of age she has been on home bi-level positive airway pressure via tracheostomy without any complications.Genetic testing confirmed 20/25 polyalanine expansions of PHOX2B gene in both girls.ConclusionsBi-level positive airway pressure, originally designed as a non-invasive ventilator, was found to work effectively and safely, and may be used as an invasive ventilator via tracheostomy in young children with congenital central hypoventilation syndrome.

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