Effect of Peritoneal Dialysis on the Dynamic Functions of the Diaphragm

Aim: Peritoneal dialysis (PD) is an accepted mode of renal replacement therapy in chronic kidney disease (CKD) patients. With increasing longevity, the duration of PD goes up to several years. Diaphragm is the most important muscle for inspiration during resting state. The functions of this muscle can be assessed by invasive electromyography and stimulation of phrenic nerve. In this study, we have recorded the neural function with Surface Electromyography (SEMG). Objective: This is a prospective study in patients undergoing chronic PD. We set to find out if diaphragm movement was affected in patients on peritoneal dialysis and compared it with the diaphragm movement in hemodialysis patients. Secondly, we looked for impact of diaphragmatic movements on the ultrafiltration. Methods: CKD patients enrolled on PD for more than 3 months were observed for diaphragmatic movements (surface EMG of diaphragm, NCS), airway function (PFT) and PD characteristics (ultrafiltration amount, percentage of dialysate, urine output and Serum Hemoglobin, Albumin). Volume of dwell in all subjects was 2 liters and dwell time varied between 6-8 hours. Results: Thirty-six patients underwent the study with 12 females and 24 males. The duration of PD varied between 3 months to 16 years. Mean age was 60.3 (SD ± 14.4). The mean resting EMG of diaphragm in PD subjects was 13.7 μV and in hemodialysis subjects was 13.47 μV (Normal:10-20 μV). Nine subjects were on 2L icodextrin as single dwell. NCS of phrenic nerve was abnormal in most subjects. Association of SEMG was significant for Gender (p 0.007), BMI (p 0.00), FEV1 (p 0.00) and hemoglobin (0.0059). Logistic regression analysis showed negative association between gender and hemoglobin. No correlation was observed between diaphragm movement and ultrafiltration and residual renal function. Conclusion: We conclude that diaphragmatic EMG is preserved in subjects undergoing CAPD and is comparable with that of subjects in HD group. Even though NCS of phrenic nerve showed severe sensory-motor neuropathy in most PD patients, normal resting surface EMG highlights the fact that intrinsic muscle action potential is retained. There is no impact of diaphragmatic movement on the ultrafiltration irrespective of the concentration of dialysate used in PD. Also, we hypothesize that sensory-motor neuropathy is probably is secondary to diabetes rather than due to CAPD. *Correspondence to: Supraja Kalyanaraman, Department of Clinical Research, The Madras Medical Mission, 4-A, Dr. J. Jayalalitha Nagar, Mogappair, Chennai-600037, India, Tel: 950-004-9868; E-mail: drsk02@gmail.com Received: January 10, 2019; Accepted: February 18, 2019; Published: February 21, 2019 Introduction Continuous ambulatory Peritoneal Dialysis (CAPD) has become an accepted method of renal replacement in chronic kidney disease (CKD), and the number of subjects on PD is on the rise. Without complications, these catheters can be maintained and used for many years. The abdomen is presumed to accommodate large quantities of fluid without producing significant respiratory distress. In CAPD, the number of bags used, the percentage of the dialysate and duration of the dwell is determined by the residual renal function and the ultrafiltration. Hence, these subjects have a dwell of minimum 2 Liters for at least 4-16 hours a day. Studies in the past have assessed respiratory mechanics in patients with abdominal fluid and have established that there is no change in the airflow or gas exchange [1-3]. Sensory motor neuropathy is high in such subjects due to CKD per se and due to the associated Diabetic status. This can affect all the muscles including the diaphragm [4]. The presence of the dwell for a considerable part of the day and the underlying neuropathy can impair the functions of the diaphragm. The neuro-mechanical efficiency of the diaphragm in 8 CAPD patients was assessed by Wanke et al. [5] using trans diaphragmatic pressure (Pdi) and EMG (EMGdi) and found that it was impaired in the filled state. All studies done in the past have used invasive techniques for measuring the diaphragm EMG. With the emergence of Surface EMG, studying the diaphragm has been simplified and avoids complications such as Pneumothorax [6]. In our study, we have used SEMG to obtain the muscle electrical potential of both the diaphragms. SEMG is easy to perform, noninvasive and reproducible [7] (Figure 1). Study designs and subjects This is a prospective, observational, single center study of subjects undergoing PD in the Department of Nephrology, The Madras Medical Mission, Chennai. We included 36 subjects on PD above the age of 18 years and on PD for minimum duration of 3 months. We excluded subjects with history of diaphragm palsy, history of Peritonitis in previous 3 months, Chronic obstructive pulmonary disease, Gullian Barre Syndrome, Chronic Inflammatory Demyelinating Polyneuropathy, old Pulmonary Tuberculosis, lung trauma, previous history of spinal cord Supraja K (2019) Effect of peritoneal dialysis on the dynamic functions of the diaphragm Pulm Crit Care Med, 2019 doi: 10.15761/PCCM.1000158 Volume 4: 2-3 injury and malignancy. 23 subjects on maintenance hemodialysis were also examined for diaphragm movements. Methodology The following data were captured: age (years), BMI (Kg/m2), Comorbidities, Surface EMG (SEMG) of diaphragm, Nerve conduction study (NCS), Pulmonary Function Test (PFT), PD characteristics (ultrafiltration amount, percentage of dialysate, urine output), Serum Hemoglobin, Albumin, Electrolytes, Serum Calcium and Serum Phosphorous. Neurological examination All subjects in PD group were examined by the Neurologist for clinical examination; nerve conduction study was done using ALERON RMS 401 Chandigarh, India. SEMG was done with Medicaid Systems, Neurostim, Portable EEG, India. SEMG recordings were done twice before filling PD fluid and before draining out PD fluid, with subjects lying at 45 degrees. The electrodes were fixed to the skin using adhesive tapes to reduce the friction and signal impedance. SEMG was performed with 2 electrodes on the dermis surface at the right and left costal margin 1.5 cm away from the Xiphoid and 2 electrodes at the back at the same height. The ground electrode was placed at the Sternum. Electrical activity was recorded for 10 seconds at rest and during deep breathing. The measurements were recorded on a laptop, with recorded numbers representing the surface EMG values. Twenty three subjects on hemodialysis also underwent SEMG after hemodialysis during rest and during deep breathing. Respiratory examination Subjects underwent Pulmonary function test using KoKo Spirometer and assessed for FEV1 (L/s). All subjects signed the Consent form approved by the Institutions Ethics Committee. Statistical analysis was done using Epi Info software for Windows (version 7.2.2, CDC, Atlanta) with significance level of P < 0.05. Paired t test was done using SPSS 12 (IBM, New York, USA) for group comparisons.