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1、Journal of Pediatric Gastroenterology and Nutrition Volume 24, 616-618. 1997, Lippincott-Raven Publishers. INDICATIONS FOR PEDIATRIC ESOPHAGEAL MANOMETRY: A MedicalPosition Statement of the North AmericanSociety for Pediatric Gastroenterologyand NutritionMark A. Gilger, MD, Department of Pediatrics,

2、 Texas Childrens Hospital, Baylor Medical CollegeJohn T. Boyle, MD, Department of Pediatrics, Rainbow Babies and Childrens Hospital Judith M. Sondheimer, MD, Department of Pediatrics, Childrens Hospital, University of ColoradoRichard B. Colletti, MD, Department of Pediatrics, University of Vermont C

3、ollege of MedicineINTRODUCTIONRecently the American Gastroenterological Association published a medical position statement on the clinical use of esophageal manometry1, accompanied by a technical review.2 These documents are a comprehensive description of basic esophageal physiology and manometry, t

4、echnical aspects and limitations of manometric recordings, and the clinical applications of esophageal manometry in the adult patient. Because the approach to the child with esophageal disorders is different, the North American Society for Pediatric Gastroenterology and Nutrition has prepared the fo

5、llowing medical position statement.ESOPHAGEAL PHYSIOLOGY IN CHILDRENSwallowing is a complex process initiated by the voluntary ingestion of food and followed by the involuntary or automatic actions of the oropharynx and the esophagus. The esophageal phase of the swallow involves the transport of the

6、 food bolus into the stomach. The three structural components of the esophagus are the upper esophageal sphincter (UES), the esophageal body, and the lower esophageal sphincter (LES).3The UES, defined as an area of increased pressure between the pharynx and the esophageal body, is present by at leas

7、t 32 weeks of gestation and is functional at birth. 4 However, swallowing coordination may be poor in the first week of life and in premature infants 1500 g. 4-6 Structurally, the UES is 0.5-1 cm long at birth and increases in length to 3 cm in the adult.3 In general, the UES corresponds to the cric

8、opharyngeus muscle, the inferior pharyngeal constrictor, and the muscle of the proximal esophagus. Surgical myotomy of the cricopharyngeus does not abolish UES tone. 7-9 Because of axial movement of the UES, its precise pressure measurement requires a special sleeve catheter; with such a catheter UE

9、S pressure ranges between 18 and 44 cm H20. 7 UES location can be determined by side-port catheters for the purpose of placing proximal esophageal pH electrodes.The esophageal body is composed of striated muscle in the upper one-third and smooth muscle in the distal two-thirds. Three types of esopha

10、geal contractions occur: primary, secondary, and tertiary.3 Primary peristalsis begins after swallowing, in coordination with pharyngeal contraction and UES and LES relaxation. Secondary peristalsis occurs secondary to intraluminal distention, usually by the food bolus. This function is important in

11、 esophageal clearance of material such as refluxed gastric contents. Tertiary contractions consist of random, spontaneous contractions that have no peristaltic function. Pressures within the esophageal body vary with respiration. The velocity of esophageal contractions is typically from 2 to 5 cm pe

12、r second but is slower during the first week of life, ranging from 0.8 to 2 cm per second.3 The LES is the high-pressure zone between the esophageal body and the stomach. Like the UES, its length increases with age, from 1 cm in the newborn to 2-5 cm in the adult. 10,11 LES pressure also varies with

13、 age, ranging from 7 mm Hg in a premature infant of 27 weeks gestation to 18 mm Hg at term and from 10 to 45 mm Hg in the adult. 1,12CLINICAL CONSIDERATIONSTypical manifestations of abnormal esophageal function in the child are eating difficulties, pain, or regurgitation. Since the esophagus is comp

14、osed of both striated and smooth muscle, abnormalities of esophageal motility can involve either muscle type or both. Disorders of esophageal function can be either primary or secondary to systemic disease.The symptoms and signs that most commonly suggest a disorder or swallowing or esophageal funct

15、ion in children are dysphagia (including food refusal, abnormally slow eating, persistent drooling, and posturing during swallow) 13, chest pain or odynophagia, recurrent aspiration, and recurrent food impaction.Achalasia and chronic intestinal pseudo-obstruction are the most common primary esophage

16、al motility disorders in children, but both occur infrequently. Diffuse esophageal spasm and nutcracker esophagus occur rarely. Esophageal motility may also be abnormal secondary to reflux esophagitis and tracheo-esophageal fistula, although esophageal manometry has little or no role in the evaluati

17、on of these disorders.Pharyngeal and cricopharyngeal motor dysfunction may be of several origins, which may be classified as follows: (a) corticobulbar disorders, such as palsies, Arnold-Chiari malformation, stroke, tumor, trauma, and multiple sclerosis; (b) neuropathic disorders, such as diabetes,

18、tetanus, lead poisoning, rabies, and drug reactions (e.g., nitrazepam); (c) motor end plate disease, such as myasthenia gravis and botulism; (d) myopathic disorders, such as muscular dystrophy, collagen vascular diseases, hyperthyroidism and hypothyroidism; and (e) autonomic disorders, such as famil

19、ial dysautonomia.Measurement of esophageal contraction allows differentiation of some of these disorders. Generally, esophageal manometry is performed after a radiographic contrast study or upper endoscopy of the esophagus has excluded structural or other causes of esophageal dysfunction. It can be

20、performed to evaluate nonstructural abnormalities of the esophagus, such as achalasia; disorders of connective tissue, such as scleroderma; and chronic intestinal pseudo-obstruction or to determine the location of the sphincters for esophageal pH monitoring. 14,16TECHNICAL CONSIDERATIONSEsophageal m

21、anometry is performed differently in children than in adults because of the differences in size of the esophagus, cooperation by the patient, and neurologic and developmental maturation. These differences require special equipment as well as technical expertise to perform the study, handle the patie

22、nt, and properly interpret the findings.Two types of catheter are available: water-perfused and solid-state. When water-perfused catheters are used in small infants, fewer recording ports are utilized to reduce the diameter of the catheter, which is typically 6-10 French (2-3 mm). Such a small cathe

23、ter size must be accounted for in the amplitude and duration of waves. Solid-state catheters offer several advantages in the pediatric patient, such as a more rapid response rate, maintenance of transducer and lumen relationship in the upright position, and lack of spontaneous stimulation of swallow

24、s by water. However, cost, fragility, and inflexibility are significant disadvantages that preclude routine usage.The spacing of the sensing ports depents on the size of the patient. The interval between perfusion ports or transducers may need to be as close as 1-3 cm apart to accommodate the shorte

25、r esophagus in infants. For precise pressure measurements, the low-compliance perfusion system may be adapted to children. During perfusion in infants and small children, the perfusion rate may need to be slower because of the size of the esophagus, the fluid tolerance of infants, and the potential

26、for aspiration. Care must be exercised to compensate for the slower flow rate by decreasing the system compliance. While such precise accounting of compliance and flow rate is required for research, it is not necessary for most clinical purposes.Esophageal manometry is best performed without sedatio

27、n. In many children, however, sedation is necessary. Midazolam and chloral hydrate have been shown to be effective with minimal or no influence on pressure measurements.17,18 A natural reflex swallow may be induced in young infants and neurologically abnormal children by gently blowing in the childs

28、 face (Santmyer swallow).19 At least the distal sensing site should be advanced into the stomach initially.20-23 The single most difficult technical aspect of esophageal manometry in children is cooperation. Physicians performing manometry in children must have great patience. The patients cooperati

29、on can, however, be improved by the use of age-appropriate relaxation techniques. For example, infants relax with swaddling and use of a pacifier. Toddlers are comforted by having a favorite blanket or toy. School-age children benefit from being allowed to handle and examine equipment before the pro

30、cedure. Adolescents benefit from a thorough review of what to expect before the procedure. Recording artifacts are common in the pediatric patient and occur more commonly than in adults. Specific behaviors (e.g., crying or squirming) should be noted on the tracing itself to allow proper interpretati

31、on upon completion of the study.RECOMMENDATIONSThe following recommendations were prepared with the critique and endorsement of the Subcommittee on Endoscopy and Procedures, the approval of the Patient Care Committee, review by the NASPGN membership at large, and the authorization of the Executive C

32、ouncil of NASPGN. These recommendations are subject to change on the basis of periodic review of subsequent research. Esophageal manometry can be useful to evaluate symptoms or signs of esophageal dysfunction, such as dysphagia, odynophagia, chest pain, aspiration, and recurrent food impaction. Cont

33、rast radiography and/or endoscopy of the esophagus is generally performed prior to manometry. Esophageal manometry can be useful to diagnose motility disorders of the esophagus such as achalasia as well as to detect esophageal manifestations of disorders of connective tissue (such as scleroderma) an

34、d chronic intestinal pseudo-obstruction. Esophageal manometry can be useful to locate the upper and lower esophageal sphincters for esophageal pH monitoring. Esophageal manometry is generally not useful in the diagnosis or medical management of gastroesophageal reflux disease or structural lesions o

35、f the esophagus. REFERENCES1. An American Gastroenterological Association medical position statement on the clinical use of esophageal manometry. Gastroenterol 1994;107:18652. Kahrilas PJ, Clouse RE, Hogan WJ. American Gastroenterological Association technical review on the clinical use of esophagea

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41、W, Siewert JR. The place of esophageal manometr y in the diagnosis of dysphagia. Dysphagia 1993;8:98-10414. Opie JC, Chaye H, Fraser GC. Fundoplication and pediatric esophageal manometry: actuarial analysis over 7 years. J Pediatr Surg 1987;22:935-815. Castell J, Castell D. Modern solid state comput

42、erized manometry of the pharyngeal segment. Dysphagia 1993;8:270-516. Colletti RB, Christie DL, Orenstein SR. Indications for pediatric esophageal pH monitoring (EpHM). J Pediatr Gastroenterol Nutr 1995;21:253-6217. Fung KP, Math MV, Ho CO, Yap KM. Midazolam as a sedative in esophageal manometry: a

43、study of the effect on esophageal motility. J Pediatr Gastroenterol Nutr 1992;15:85-818. Vanderhoof JA, Rappaport PJ, Paxson CL. Manometric diagnosis of lower esophageal sphincter incompetence in infants: use of a small, single-lumen perfused catheter. Pediatr 1978;62:805-819. Orenstein SR, Gairruss

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