Readmission within 30 days of Hospital Discharge among Children Receiving Chronic Dialysis

Discussion

We observed that 25% of hospital admissions of children with ESRD receiving chronic dialysis were followed by a readmission within 30 days of discharge. Admissions with length of stay≥14 days were more likely to be followed by a readmission. An operating room charge during the index hospitalization was associated with a lower risk of readmission. Although 50% of the readmissions were within the same diagnosis group as the index admission, a particular diagnosis group was not associated with readmission. Patients with four or more admissions during the observation period were more likely to be younger, to be black, to have public insurance, and to have more comorbid conditions compared with patients with fewer admissions. However, of these factors, only age younger than 2 years was associated with a higher risk of all-cause and similar-cause 30 day readmission. These findings are consistent with previous work that examined clinical characteristics of children recurrently admitted to children’s hospitals (2).

The high rate of readmission we observed (25%) in the PHIS hospitals is consistent with, but slightly lower than, data from the most recent US Renal Data System (USRDS) report (35% readmission rate) in patients receiving chronic dialysis (1,9,10). It is possible that the older age of the USRDS cohort lead to this difference. The 30-day readmission rate for children receiving long-term dialysis is far higher than the 6% rate reported for all hospitalized children (8). In that study, diseases of the genitourinary system were grouped together and had a 30-day unplanned readmission rate of 15%. The 30-day readmission rate observed in our study, and in the USRDS data, is higher than the 30-day readmission rate of 20% observed in children with neoplasms, another population with a high prevalence of central line usage (8). Alarmingly, the readmission rate we observed in children with ESRD is at least as high as the 30-day readmission rates for 80-year-old adults with heart failure (25%), acute myocardial infarction (20%), or pneumonia (18%) (11). This demonstrates the complexity of children with ESRD when compared with clinically fragile populations.

The higher readmission rate among the youngest children receiving dialysis is consistent with the general pediatric population, where those younger than 1 year of age had a 9% increase in 30-day readmission compared with children older than 13 years of age (8). Furthermore, a longer length of stay during the index admission has been associated with a higher risk of readmission (8). Lengths of stay≥14 days may represent higher patient acuity, higher admission complexity, or a complication during the admission, making the association of longer length of stay with a higher likelihood of readmission complex. Admissions with an operating room charge may reflect planned, primarily procedural index admission in a relatively stable patient, and the lower odds of readmission following these admissions is probably not causal.

Although the validity of using 30-day readmission as a quality and/or payment metric remains debated (12,13), readmissions of chronic dialysis patients may become a quality measure in the near future (5). It is unknown whether readmissions are a marker of poor hospital care, poor outpatient care (14), suboptimal interactions between discharging hospitals and outpatient dialysis facilities (9), or appropriate and necessary care in a medically complex population (13). However, hospitalizations increase the cost of ESRD care, create a burden on the patient and family, and increase the risk of iatrogenesis and medical complication. Hospitalizations are also a marker of more severe illness acuity. Optimizing medical care across the complex medical system to prevent hospitalizations and readmissions is a prudent future goal.

Readmissions may be lowered by targeting the conditions most commonly resulting in hospitalization, including peritonitis, cardiovascular events, and HD access infections and complications. For example, the use of atriovenous fistulas or grafts is associated with lower rates of hospitalization. Ma et al. (15) found that patients with a fistula had a hospitalization rate of 0.4%, while children dialyzed with a central catheter had an admission rate of 3%. Ng et al. also found a higher rate of hospitalizations among children with central venous catheters (16). The National Kidney Foundation recommends that pediatric patients on maintenance HD be dialyzed using permanent dialysis access (17). However, permanent access placement in children is complicated by patient size, hospital resources, and the pediatric preference for deceased-donor kidneys. Therefore, almost 80% of children initiating HD do so with a catheter (18). Achievement of quality measures in adolescent HD patients (19) and closer monitoring after hospitalization in adult HD patients were associated with lower hospitalization rates (20). Interventions that target decreasing peritonitis rates, catheter-related bloodstream infections, and the highest risk patients may also decrease hospitalizations and readmissions (10,21–25).

Cardiovascular disease is a major cause of morbidity and mortality in children with ESRD (26) and accounted for approximately 16% of all admission in our cohort. Monitoring of a hematocrit-guided ultrafiltration algorithm lowered hospitalization for fluid overload and hypertension among pediatric HD patients (27). Cardiovascular admissions are higher on the day following the longest interdialytic interval in HD patients (28,29); therefore, alternative dialysis schedules deserve further study to determine their impact on hospitalization and readmission (30,31).

We acknowledge the limitations of using administrative data for the evaluation of clinical outcomes. Several important variables, including the type of HD access and the presence of a PD catheter at time of admission, could not be readily discerned from the PHIS dataset. Dialysis vintage is also unknown, and rate of admission around the time of dialysis initiation tends to be higher (1). Indeed, patients who develop ESRD during the index hospitalization would be included in our cohort. Per our inclusion criteria, all admissions had a procedure code for HD or PD in addition to an ESRD code (Table 1). Therefore, any patient who was admitted but did not receive a dialysis treatment during the hospitalization would be missed in our analysis. Our data did not contain information on patient death outside of the hospital or transplantation; therefore, the competing risks of death and transplantation were not included in the evaluation. In contrast to prior reports in the general pediatric population, we could not identify whether readmissions were planned (8); however, >50% of the admissions seem unplanned by their principal diagnoses (e.g., hypertension, peritonitis, HD catheter infection). The PHIS database presents a unique opportunity to investigate less common diseases in children using its large number of admissions. However, this database has not been previously validated in chronic dialysis patients, and it is limited by available coding. For a large proportion of admissions (30%), data on the underlying cause of ESRD (glomerular versus congenital/obstructive) were missing, which was uninformative. We believe that any coding inaccuracies are random in nature and would not bias the results. Finally, patients readmitted to a hospital not reporting data to PHIS would be missed in our analysis. We attempted to control for this by only including patients younger than 17 years of age to reduce the chance that a patient would have transitioned out of a children’s hospital.

In conclusion, expenditures for care of long-term dialysis patients are very high, leading payers to seek methods for lowering costs. From 2002 to 2006, hospitalizations of all patients with ESRD in the United States cost $31.5 billion, which was one third of all ESRD costs (1). We observed that a significant number of admissions (25%) in pediatric long-term dialysis patients are followed by readmission within 30 days. Further research is needed to clearly differentiate preventable from unpreventable admissions and to clarify the necessity and possible benefits of hospitalization despite their added costs. Future avenues of research include prospective evaluation and intervention studies to reduce readmission in this patient population. Interventions could focus on inpatient, outpatient, or the transition of care as areas of possible intervention. Studies may benefit from targeting patients at highest risk of readmission, as demonstrated by our findings.