Post-Hospital Syndrome and Hyponatremia

Introduction: Post-hospital syndrome (PHS) is defined as a period of vulnerability during the first 30 days after a patient is discharged from hospital, in which multiple factors come into play. Hyponatremia is the most frequent hydroelectrolytic disorder in hospitalized patients and may be related to the appearance of PHS. Objective: The objective is to estimate the prevalence of PHS that is assessed as the rate of readmissions in the first 30 days after discharge, in patients with hyponatremia. Material and Methods: It is a descriptive observational study of patients with hyponatremia who were discharged from 1 September 2010 to 2 February 2020 at the Internal Medicine Service of the Hospital University of San Juan (Alicante, Spain). Results: Of the 25 included patients, 5 (20%) were readmitted within a month of discharge, after a mean of 11.4 days (standard deviation [SD] 5.1). The overall mortality of the study was 20% (n = 5), with one case of death in the first 30 days post-hospitalization (4%). In 12 patients (48%) the origin of the hyponatremia was undetermined. The most frequently recorded etiology for the condition was pharmacological (n = 7, 28%), and there was pronounced variability in its clinical and laboratory study. The most widely used correc-tive measure was drug withdrawal, in 16 patients (64%). Water intake restric-tion was the most common treatment after discharge (5 patients, 20%), followed by urea (2 patients, 8%), while tolvaptan was not used. Conclusion: Hyponatremia may be the cause of PHS, which could increase the rate of early readmission. Hyponatremia is an underdiagnosed and undertreated entity, so it is necessary to apply an appropriate system to optimize its management and, in future studies, to assess its impact on PHS.


Introduction
The term "post-hospitalization syndrome" (PHS), first coined by Krumkohlz, is used to describe the set of symptoms that can appear in the first 30 days following hospital discharge, a period marked by greater vulnerability and a higher risk of complications and readmission [1].
Numerous studies have analyzed functional deterioration in patients after a hospital stay, especially in frail older people and immediately after discharge.
Covinsky et al. [2] defined hospital-associated disability as the exacerbation of baseline disability following a hospital stay. The negative impact of hospitalization has been studied from different perspectives and is associated with a high risk in both the development and the worsening of disabilities, especially in older people [3] [4]. Other authors have also described the appearance of unfavorable health events in up to 62% of patients between the first and third months post-discharge [5].
In PHS, 19.6% of patients require re-hospitalization within 30 days [6]. Although researchers have tried to identify predictive factors for this outcome, there is still no completely validated model to promptly detect patients at greater risk [7]. Among the factors known to be associated with higher readmission rates in the early period, post-discharge is the failure to recover normal levels of serum albumin [8], low pre-admission autonomy in the basic activities of daily living, diminished autonomy during the hospital stay [9], certain comorbidities, and previous hospitalizations. Age is described as the main risk factor determining the deterioration from the baseline state, but its direct impact on readmissions is not as clear.
Certain factors related to the hospital stay itself can also favor the appearance of PHS. Many stressors are inherent to hospital admission: altered sleep habits, poor adaptation to a new environment, a large number of different professionals involved in care, medication, pain, iatrogenic complications, forced immobility, and inadequate diet. Thus, a multifactorial perspective is required to study PHS in order to better predict the risk in each patient.
Inpatients often present metabolic or hydroelectrolytic alterations, the most frequent of which is hyponatremia in the general as well as inpatient population, with an estimated in-hospital incidence of 1 per 100 patients per day and a prevalence of around 2.5% [10] [11]. However, this disorder is underdiagnosed and underreported, despite constituting an analytic alteration, so these data probably underestimate the real prevalence.
There are many mechanisms involved in PHS affecting sympathetic activity, immune function, metabolism, coagulation, nutritional status, disturbance of sleep, physical functioning and coordination, pain and other discomforts. As a result, all those mechanisms may be associated during hospital stay with many different types of stressors (modify the circadian rhythm and sleep quality, multiple blood tests, constant alarm noises…). Additionally, the high complexity of the majority of patients attended in our Internal Medicine Service (multiple comorbidities) associated with the aging of the population (elderly and very elderly above 80 years are the most vulnerable to the PHS) increase the occurrence of stressors, suggesting the possibility we have inadvertently been causing harm to these patients during hospitalization [12] [13].
Hyponatremia is associated with greater in-hospital mortality, reaching up to 20% in severe cases compared to less than 10% in patients who do not develop this disorder, and this risk remains high after discharge [14]. The condition also entails a higher risk of admission to the intensive care unit, a longer length of stay, and greater hospitalization costs [15]. The risk of readmission is also high in patients with hyponatremia [16], and can be related to some common conditions (excessive hydration, chronic comorbidities decompensation, use of several medications and polypharmacy…), however, there is a need for more information clarifying the link between this entity and PHS.
The aim of this study is to assess the importance of hyponatremia in PHS in terms of one-month readmission rates following discharge from the internal medicine ward in patients with hyponatremia on admission, during the hospital stay, or at discharge. We hypothesized that hyponatremia would be associated with a high incidence of PHS. Secondary aims were to describe the characteristics of patients with hyponatremia, the diagnostic process and clinical management of the condition, and the mean interval from discharge to readmission and/or death.

Material and Methods
This descriptive, observational, longitudinal, retrospective study took place in the internal medicine ward of the University Hospital of San Juan (Alicante, Spain) and included all patients discharged from 1 September 2010 to 2 February Health (whether on admission, during the hospital stay, or at discharge). We excluded patients who died during their hospital stay or were transferred to another center or service.
The Orion Clinic hospital database was used to identify patients meeting inclusion criteria during the study period, on request to the hospital's clinical records department. Clinical histories were reviewed to collect demographic variables; clinico-analytical parameters; and details on diagnosis and treatment at admission, during the hospital stay, at discharge and on readmission. Data were fully anonymized and confidential.
For the descriptive statistical analysis, we calculated absolute and relative frequencies for the categorical variables and the mean, standard deviation (SD), and range of the quantitative variables.

Results
A total of 25 patients were discharged from the internal medicine service during the study period, including 20 women (80%) and 5 men (20%). All were white, and their age ranged from 69 years to 95 years (mean 82.3 SD 7.7).
Among the measures administered to correct the hyponatremia at discharge (Table 3), treatments were modified in 18 patients (72%). Medications that can potentially cause hyponatremia were withdrawn in 16 patients (64%), especially ARA-IIs (n = 7) as well as the antidepressant selective serotonin reuptake inhibitors (SSRI) and thiazides (n = 3 each), ACE inhibitors and anticonvulsants (n = 2 each). Other modifications included water intake restrictions (n = 5, 20%) and administration of urea (n = 2, 8%). Tolvaptan treatment was not used in any of the cases.
Six patients were discharged with hyponatremia (mean blood sodium 132.5 SD 1.6 mmol/L), which they had developed during their hospital stay. Five (20%) of these patients were readmitted within 30 days of discharge; five had     Patients' mean age was 77.6 years (SD 6.6), and heart failure was the cause of readmission in 2 of the patients (33%). All in all, five patients (20%) died during follow-up, including one within a month of discharge and four more in the following five months.

Discussion
This descriptive, observational, longitudinal and retrospective study involved 25 patients with hyponatremia who had been discharged from the internal medicine ward at our hospital. We wanted to determine whether hyponatremia was related to a higher rate of PHS, as assessed through the readmission rate in the first 30 days from discharge.
The one-month readmission rate in our sample was 20%, a result in concordance with the literature (19.6%). Our results suggest that hyponatremia may have an influence on PHS, independently of the rest of the comorbidities, carrying a higher risk compared to readmission rates reported in normonatremia.
The mean discharge-readmission interval, of 11.4 days, is consistent with the description of early vulnerability following hospitalization and highlights the importance of the transition from the hospital to home within the first month of discharge.
Diuretics are one of the most frequent causes of hyponatremia [17] [18], especially thiazides (more than 60% of patients on these drugs present hyponatremia) but also loop diuretics [19]. Hyponatremia is also associated with the use of SSRIs (about 32% of patients on SSRIs develop SIADH) and some antiepileptic drugs (40% SIADH). The results of our study are concordant with other published research, and explain the measures adopted: diuretics and antidepressants were proportionally among the most frequently withdrawn drugs.
Heart failure is responsible for up to 23% of the cases of hyponatremia, similar to our results (20%), despite our small sample size. Patients with heart failure have also been shown to carry an increased risk of readmission, as observed in our series, with a one-month readmission rate of 50%. Nevertheless, although some authors have proposed a causal relationship, other concomitant etiological factors should also be considered [20].
The cause of hyponatremia was unknown in nearly half of our patients (n = 12, 48%), reflecting the scarce diagnostic attention and characterization of this entity. In our series, for example, SIADH was diagnosed in one patient (n = 1, 4%) and noted as a possibility in one over the course of six months. The most frequent qualifier for hyponatremia was "hypoosmolar" (n = 4, 16%) with levels of Osm O of more than 100 mOsm/kg and [Na + ] O of more than 30 mmol/L. All of these characteristics could indicate undiagnosed SIADH, which could have an impact on PHS due to hyponatremia and on treatment at discharge. patients regarding the measurement of these parameters reflects the low importance given to this entity and the lack of a systematic approach in its management.
For managing hyponatremia attributed to a pharmacological origin, clinicians should suspend or change the medications responsible for causing the condition [24]. In our series, this was the most frequently applied measure (n = 16, 64%), mainly affecting thiazides, anticonvulsants, and SSRIs, and highlighting that the pharmacological etiology of hyponatremia is taken into account. The specific treatments for chronic hyponatremia attributed to SIADH, as the frequent cause among inpatients [25], mainly consisted of water restrictions and to a lesser extent urea. Tolvaptan was not used at all. European guidelines as well as recommendations from international and Spanish experts agree that water intake restrictions should be the first-line treatment in non-severe cases. As an alternative or second-line intervention, European guidelines recommend the use of urea, especially in cases of SIADH. However, even though its use is accepted, the benefits of urea have not been proven in any clinical trials. Moreover, it is not considered to be a medication, it has poor palatability, and it can provoke some complications, especially in older patients (dehydration, excessive correction).
There is some controversy around the use of tolvaptan. This study is the first that aims to associate hyponatremia due to any cause with PHS in a retrospective, real-world cohort. Our literature review revealed a dearth of adequate epidemiological studies, the scant clinical importance given to the entity, and its possible underdiagnosis. As a result, these patients may often be managed inappropriately and insufficiently, which could favor the development of PHS and slow or complicate their recovery following hospitalization.
Our study has some limitations. Its observational, retrospective nature, in a cohort of patients attended in a single ward by different professionals, may have influenced the variability in the diagnosis, therapeutic approach and treatment.
Missing data in clinical records may have also affected the results or introduced bias. The small sample size is another limitation, which could be justified by the underreporting of hyponatremia. Strengths of the study include its focus on how hyponatremia is handled in routine clinical practice in our setting, highlighting the need to implement measures that improve its study in these patients and its impact on PHS.

Conclusions
Hyponatremia may be a cause of PHS, favoring the early readmission rate in discharged patients. Larger studies are necessary to assess the relationship between PHS and hyponatremia and to demonstrate its clinical relevance.
An adequate awareness and management of this entity are necessary to detect and correct it, enabling the medical community to reach a consensus and systematize its assessment. Further, good-quality studies are needed to provide reliable evidence.