From hospice to hospital: short-term follow-up study of hospice patient outcomes in a US acute care hospital surveillance system.

OBJECTIVES: In the USA, there is little systematic evidence about the real-world trajectories of patient medical care after hospice enrolment. The objective of this study was to analyse predictors of the length of stay for hospice patients who were admitted to hospital in a retrospective analysis of the mandatorily reported hospital discharge data.
SETTING: All acute-care hospitals in Florida during 1 January 2010 to 30 June 2012. PARTICIPANTS: All patients with source of admission coded as 'hospice' (n=2674). PRIMARY OUTCOME MEASURES: The length of stay and discharge status: (1) died in hospital; (2) discharged back to hospice; (3) discharged to another healthcare facility; and (4) discharged home.
RESULTS: Patients were elderly (median age=81) with a high burden of disease. Almost half died (46%), while the majority of survivors were discharged to hospice (80% of survivors, 44% of total). A minority went to a healthcare facility (5.6%) or to home (5.2%). Only 9.2% received any procedure. Respiratory services were received by 29.4% and 16.8% were admitted to the intensive care unit. The median length of stay was 1 day for those who died. In an adjusted survival model, discharge to a healthcare facility resulted in a 74% longer hospital stay compared with discharge to hospice (event time ratio (ETR)=1.74, 95% CI 1.54 to 1.97 p<0.0001), with 61% longer hospital stays among patients discharged home (ETR=1.61, 95% CI 1.39 to 1.86 p<0.0001). Total financial charges for all patients exceeded $25 million; 10% of patients who appeared to exit hospice incurred 32% of the charges.
CONCLUSIONS: Our results raise significant questions about the ethics and pragmatics of end-of-life medical care, and the intentions and scope of hospices in the USA. Future studies should incorporate prospective linkage of subjective patient-centred data and objective healthcare encounter data. Published by the BMJ Publishing Group Limited. For permission to use (where not already granted under a licence) please go to http://group.bmj.com/group/rights-licensing/permissions.

One of the largest studies until now to explore acute-care hospitalisations of hospice patients, a neglected aspect of the dying patient's experience.

Recent, unbiased and comprehensive surveillance data from the fourth largest state in the USA (Florida) were analysed.

Detailed analyses of morbidities, in-hospital procedures, length of hospital stay and financial charges were included for four distinct patient groups: patients who died, those who returned to hospice, those who were transferred and those who went home without hospice care.

Limitations included probable under-reporting of hospice as source of admission; inability to distinguish which morbidity was the terminal illness and lack of information about patient/caregiver preferences for end-of-life care and place of death.

Introduction

Hospice care is a specialised approach to end-of-life medical care that emphasises quality of life, pain management and symptom alleviation for terminally ill patients. In the USA, hospice care is usually provided in the patient's home or in a non-hospital facility, and it typically excludes curative-intent medical or surgical interventions. The goal of hospice care is not to prolong life or postpone dying, but rather to achieve a ‘good death.’ Generally, the preferred length of enrolment in hospice is about 6 months before death, but some guidelines point to a recommended stay of 1 year.1 As a stipulation for receiving hospice benefits from most US insurance payers, the patient relinquishes access to curative interventions, although the patient can opt out of hospice at any time to regain this access. The idealised patient trajectory that is evoked by hospice advocates is that after patients and families come to terms with the terminal nature of the illness, patients will live out the remainder of their days peacefully at home or in a hospice facility with minimal medical intervention prior to death.

However, there is very little systematic evidence about the real-world trajectories of patient medical care after hospice enrolment in the USA. Instead, previous hospice studies have focused on whether the use of hospice or advanced directives decrease the cost of end-of-life care2–4 or increase the quality of life before death.5 6 These studies of cost and quality of life have generally assumed the idealised trajectory of hospice care, without considering the possible impact of hospitalisations. Previous reports on the phenomenon of post-hospice hospital admissions have been small cohorts7 or single-centre studies8 9 and have found that hospitalisation of hospice patients can not only be costly and largely preventable but also that positive patient outcomes for interventions on non-terminal conditions (like hip fractures) might explain some hospice patient hospital admissions.

In this study, one of the largest so far of hospice-to-hospital patients, we analysed very recent data from a statewide hospital surveillance system for all inpatients whose source of admission was coded as ‘hospice.’ We report patient demographics and clinical characteristics; hospitalisation procedures, duration and outcomes; and detailed financial charges. Finally, we modelled predictors of length of hospital stay for the majority of these terminally ill hospice patients who survived to discharge. Given that one of the core goals of hospice programmes in the USA is to avoid unnecessary and futile medical care at the end of life, we presumed that a long hospital stay would constitute a negative and unwanted outcome for most hospice patients.

Methods

Our study population consisted of all patients at Florida acute care hospitals whose source of admission was coded ‘hospice’ in the state hospital discharge surveillance system. Other common sources of admission include emergency department, hospital transfer, patient home and skilled nursing facility. In 2010, the reporting requirements were modified and a new code to identify hospice patients was added. In this study, we aggregated 2.5 years of data (1 January 2010 to 30 June 2012) for analysis.

Hospitals in Florida are mandated by state law to submit detailed discharge records of all patients. Consequently, these data can be considered a surveillance system with 100% coverage. Data items available include patient demographics, payer, length of stay, admission diagnosis, principal diagnosis, up to 30 secondary diagnoses, principal and secondary procedure codes and detailed financial charge data.

We analysed data for four distinct groups based on discharge status/destination. The groups were (1) patients who died prior to discharge; (2) patients who were discharged back to hospice (either home hospice care or a hospice facility); (3) patients who were discharged to a healthcare facility (including transfer to another acute-care hospital, skilled nursing facility, intermediate-care, long-term care or rehabilitation facility); and (4) patients who were discharged home (either with or without home health assistance, but without hospice). For each of our four study groups, we calculated prevalence rates for common admission diagnoses, any-mention diagnoses and procedures. Specifically, ‘any-mention diagnosis’ was based on any mention of a condition in any of 32 diagnosis fields (including admission diagnosis, principal diagnosis and secondary diagnosis fields). Multiple ICD-9-CM codes were combined into categories in some cases. Patients with a diagnosis of heart failure included those with chronic, acute exacerbation or both. A diagnosis of psychosis included those who were suffering from serious behavioural effects of Alzheimer's disease. While the principal diagnosis code is intended to capture the most serious medical condition suffered by the patient (eg, lung cancer), the admission diagnosis code is intended to identify why the patient was admitted as an inpatient to the hospital (eg, acute respiratory failure). Consequently, admission diagnosis codes may include diseases, symptoms, signs or ‘V-codes’, which are ICD-9-CM codes that describe social circumstances, medical history or other pertinent patient information not captured by traditional organ system-based disease codes. For example, the code V66.7 indicates an episode of palliative healthcare.

Payer categories included Medicare (federal government health insurance for the elderly), Medicaid (federal/state health insurance for low-income persons), Tricare (federal health insurance for military personnel and their dependants), commercial (all non-government health insurance plans including employer-provided plans) and other (including self-pay/underinsured, charity, worker's compensation and other miscellaneous small programmes).

Procedures (up to 31 per patient) were identified by ICD-9-CM procedure codes. Procedures could include major therapeutic interventions (eg, surgery), minor therapeutic interventions (eg, breathing treatment), diagnostic procedures (eg, MRI, CT scan and colonoscopy) and minor routine procedures (eg, insertion of catheters).

Given that hospital financial coverage is constrained by some payers for hospice patients based on length of stay, we examined predictors of duration of hospital stay using a Weibull accelerated failure (event) time survival model.10 The Weibull model permits calculation of ‘event time ratios (ETRs)’, which are a more appropriate measure of effect for this study than HRs. This is because our primary interest is not in whether or not an event occurs (all patients eventually leave the hospital), but in whether there are factors that accelerate or delay time to event (ie, days until discharge). ETRs provide a proportional measure of direct impact on time to event (eg, an ETR of 1.25=a 25% increase in the length of hospital stay). We first fit a model with a large number of potential predictors. For the final model, we retained all covariates with an initial p value ≤0.15.

In addition, some payers will cover occasional hospitalisations of limited duration (eg, ≤5 days) for hospice patients, for the purposes of respite care or medical attention to a condition which is not the terminal illness.1 11 Therefore, we used a multivariate logistic regression model to examine the dichotomous outcome of long (≥6 days) vs short (≤5 days) hospital stays among survivors.

Finally, we examined detailed financial charge data available for each patient as a proxy for costs. We evaluated which charge centres (eg, pharmacy and intensive care) were contributing to total costs both overall and stratified by patient discharge status. We report the percentage of patients with a non-$0 charge in a given charge centre, and the median and 99th centile dollar values (calculated based only on the distribution of non-$0 values).

This study was classified as non-human subjects research by the USF Institutional Review Board because it relied solely on de-identified secondary database analyses.

Results

Patient discharge status

There were a total of 2764 patients whose source of admission was reported as ‘hospice’ during the period 1 January 2010 to 30 June 2012 at acute-care general hospitals in Florida. The discharge status of these patients is shown in figure 1. Almost half of these patients died prior to discharge (46%), while the majority of survivors were discharged back into a hospice programme (80% of survivors, 44% of total). Patients discharged home (5.2%) included those who were scheduled to receive home healthcare.

Figure 1

Discharge outcomes for patients admitted to a hospital from hospice, Florida 2010–2012 (n=2674).

Patient characteristics, diagnoses and length of stay

Characteristics of patients by discharge status are shown in table 1. The overall median age was 81 years (range 0–106 years); however, non-trivial minorities of each group were aged <65 years (12.8–45.7%), and 5% of the patients discharged home were markedly younger than the other three groups (median age=67). The majority of patients were White non-Hispanic (70.8%), followed by Hispanic (19.9%). The majority of patients had Tricare health insurance (51.5%), followed by other (25.4%), private/commercial insurance (16.8%) and Medicare or Medicaid (6.3%).

Table 1

Characteristics* of patients admitted from hospice by final discharge status, Florida 2010–2012

	Died before discharge (n=1217)	Discharged to hospice (n=1170)	Discharged to a healthcare facility (n=149)	Discharged home (n=138)	Total (n=2764)
Median age	80	81	84	67	81
Age, years (%)
≤64	16.1	15.2	12.8	45.7	17.1
65–74	18.1	14.9	16.1	18.8	16.6
75–84	29.5	30.3	26.2	21.7	29.2
85–94	31.1	33.7	38.3	9.4	31.5
95+	5.3	6.0	6.7	4.4	5.6
Gender (%)
Male	49.1	47.5	38.9	40.6	47.4
Female	50.9	52.5	61.1	59.4	52.6
Race/ethnicity (%)
White	73.7	69.6	72.5	52.9	70.8
Hispanic	17.0	22.5	16.8	26.8	19.9
Black	6.9	6.7	9.4	15.2	7.4
Other	2.4	1.3	1.3	5.1	2.0
Payer (%)
Medicare/Medicaid	1.3	4.2	35.6	37.0	6.3
Private insurance	14.7	19.2	6.0	26.1	16.8
Tricare/Federal	57.7	49.8	40.3	23.2	51.5
Other	26.3	26.8	18.1	13.8	25.4
12 Most prevalent diagnoses†
Hypertensive disease	37.6	46.4	62.4	50.7	43.5
Non-ischaemic heart disease	31.1	32.1	38.3	18.8	31.3
Cancer	28.1	36.6	23.5	19.6	31.1
Respiratory failure	37.9	18.8	17.5	10.1	27.0
Ischaemic heart disease	25.1	25.0	33.6	21.0	25.4
Chronic obstructive pulmonary disease	23.9	25.9	27.5	21.0	24.8
Heart failure	25.4	22.3	21.5	19.6	23.5
Psychosis	15.9	28.4	43.6	28.4	23.5
Acute renal failure	16.7	13.4	18.1	10.9	15.0
Stroke	15.6	11.8	13.4	8.7	13.5
Pneumonia or influenza	14.1	14.2	12.1	2.2	13.4
Sepsis	13.6	8.8	9.4	3.6	10.8
Median length of stay (days)	1	2	3	3	2
Per cent with stay >5 days	9.7	7.6	32.9	21.7	10.7

*All per cents are column per cents.

†Based on a mention in any of the 32 diagnosis fields. Each patient could have multiple diagnoses.

As expected, these terminally ill patients suffered a high burden of serious illness. The most prevalent diagnoses (based on any mention) are listed in table 1. Some of these conditions were chronic diseases (eg, hypertensive disease, any heart disease, cancer and chronic obstructive pulmonary disease (COPD)), while others probably reflected acute conditions that may have precipitated hospital admission (eg, respiratory failure, acute renal failure, stroke, pneumonia/influenza and sepsis).

The median length of stay for all patients was 2 days, with a range of 0–99 days. While only 10.7% of hospice patients had a stay of 6 or more days, a longer length of stay was much more prevalent among patients discharged to a healthcare facility (32.9%) or home (21.7%). In contrast, patients who died were most likely to have a length of stay of zero days (22.8%), meaning that those patients died on the same day that they were admitted to the hospital.

Admission diagnoses

The top admission diagnoses for patients in our study population are depicted in figure 2. For a terminally ill patient suffering from multiple chronic and acute conditions, the choice of a single admission diagnosis may be somewhat arbitrary. In aggregate, however, these codes provide a window of insight into the diverse challenges present in medical management of the dying patient. Top admission diagnoses among patients who were discharged to a healthcare facility included palliative care (16.1%), cancer (6%), psychosis (4.7%), altered mental status (4%) and pneumonia/influenza (3.4%). Among patients who were discharged home, top diagnoses included cancer (8.7%), respiratory symptoms (7.3%), drug/alcohol dependence (6.5%) and psychosis (6.5%).

Figure 2

(A) Top admission diagnoses for hospice patients who died prior to hospital discharge (n=1217). (B) Top admission diagnoses for hospice patients who were discharged back to hospice (n=1170). (C) Top admission diagnoses for hospice patients who were discharged to a healthcare facility (n=149). (D) Top admission diagnoses for hospice patients who were discharged home without hospice care (n=138). COPD, chronic obstructive pulmonary disease; GI, gastrointestinal.

Medical and surgical procedures

Overall, the use of procedures was very limited in this population of terminally ill hospice patients, with only 9.2% overall receiving any procedure (table 2). Among patients who died, 95.2% received no procedure. Invasive mechanical ventilation was provided in 1% of these patients, and non-invasive mechanical ventilation in 0.8%. At least one procedure was received by 6.8% of patients who were discharged to hospice. In this group, the two most common principal procedures were paracentesis (1%) and transfusion of packed cells (0.9%).

Table 2

Most prevalent principal procedures* for hospice patients admitted to a hospital, Florida 2010–2012

	Died before discharge (n=1217)	Discharged to hospice (n=1170)	Discharged to a healthcare facility (n=149)	Discharged home (n=138)	Total (n=2764)
Per cent with no procedure	95.2	93.2	66.4	58.7	91.8
Mechanical ventilation for <96 h	n=12	n=8	n=1	n=1	n=22
Venous catheterisation	6	8	3	1	18
Blood transfusion	4	11	3	0	18
Non-invasive ventilation	10	5	2	0	17
Paracentesis	1	12	1	0	14
Enteral feeding	9	2	0	0	11
Percutaneous endoscopic gastrostomy	1	1	5	3	10
Insertion of an endotracheal tube	4	2	2	0	8
Drug detoxification	0	0	0	7	7
Haemodialysis	1	3	1	0	5
Radiation therapy	0	3	1	1	5
Interruption of vena cava	0	2	1	1	4
Mechanical ventilation ≥96 h	1	1	2	0	4

*All per cents are column per cents. Each patient had one (or no) principal procedure listed.

Procedure use was more common among patients who did not return to hospice (33.6% for those who were discharged to a healthcare facility and 41.3% for those who were discharged home). Top procedures for hospice patients discharged to a healthcare facility were percutaneous endoscopic gastrostomy (PEG) (3.4%), venous catheterisation (2%) and transfusion of packed cells (2%). For patients discharged home, drug detoxification was the top procedure (5.1%), followed by PEG (2.2%).

Predictors of the hospital length of stay

We found several significant predictors of length of hospital stay in an accelerated event time survival analysis of all hospice patients who survived to hospital discharge (n=1457), as shown in table 3. ETRs significantly <1.00 indicate predictors that shortened the length of stay (ie, accelerated time to discharge), while ETRs significantly >1.00 indicate factors that delayed hospital discharge. We first fit a model with a large number of potential predictors. For the final model, we retained all covariates with an initial p value ≤0.15. Potential predictors which were NOT included in the final model were: sex, COPD, ischaemic heart disease, HIV, hypertensive disease, any fracture, respiratory failure, drug/alcohol dependence, sepsis, acute renal failure, end-stage renal disease and senility. The only patient characteristic that shortened hospital stay was older age. For example, compared with those ≤64 years of age, patients aged 85–94 years had hospital stays that were 35% shorter (ETR 0.65, 95% CI 0.58 to 0.74, p<0.0001). In contrast, several factors lengthened hospital stays, including Medicare/Medicaid (74% longer stays than those with private insurance), discharge home (61% longer stays than those who returned to hospice) or to another healthcare facility (74% longer stays than those who returned to hospice) and Hispanic ethnicity (12% longer stays than non-Hispanic Whites). Clinical diagnoses that increased the length of stay included medical complications/infections (43% longer stays than those without these diagnoses), stroke (29% longer stays), heart failure (18% longer stays) and psychosis (13% longer stays). A diagnosis of cancer did not affect the length of hospital stay (ETR 1.07, p=0.11).

Table 3

Predictors of the length of hospital stay among hospice patients who survived to discharge (n=1457): multivariate accelerated event time survival analysis results

Patient predictors	Event time ratio (95% CI) (p value)
Discharge destination
Hospice	1.00 (referent)
Healthcare facility	1.74 (1.54 to 1.97) (<0.0001)
Home	1.61 (1.39 to 1.86) (<0.0001)
Age, years
≤64	1.00 (referent)
65–74	0.73 (0.64 to 0.84) (<0.0001)
75–84	0.69 (0.61 to 0.78) (<0.0001)
85–94	0.65 (0.58 to 0.74) (<0.0001)
95+	0.72 (0.61 to 0.86) (0.0003)
Race/ethnicity
White	1.00 (referent)
Hispanic	1.12 (1.03 to 1.22) (0.01)
Black	1.06 (0.92 to 1.22) (0.44)
Other	1.82 (1.37 to 2.42) (<0.0001)
Payer
Private insurance	1.00 (referent)
Medicare/Medicaid	1.74 (1.50 to 2.02) (<0.0001)
Tricare/Federal	1.21 (1.09 to 1.34) (0.0002)
Other	0.93 (0.84 to 1.04) (0.21)
Clinical diagnoses (present vs absent)
Medical complications/infections	1.43 (1.18 to 1.73) (0.0002)
Stroke	1.29 (1.15 to 1.44) (<0.0001)
Heart failure	1.18 (1.07 to 1.30) (0.001)
Psychosis	1.13 (1.04 to 1.23) (0.04)
Pneumonia/influenza	1.11 (1.00 to 1.24) (0.06)
Other heart disease*	0.92 (0.85 to 1.01) (0.08)
Cancer	1.07 (0.98 to 1.17) (0.11)

*Excludes ischaemic heart disease and heart failure. Includes endocarditis, pericarditis, valve disease, cardiomyopathy, pulmonary hypertension and other specified and ill-defined diseases of the heart.

Predictors of extended hospital stay

Some payers will cover occasional hospitalisations of limited duration (eg, ≤5 days) for hospice patients, for the purposes of respite care or medical attention to a condition which is not the terminal illness.1 11 Therefore, we used a multivariate logistic regression model to examine the dichotomous outcome of long (≥6 days) vs short (≤5 days) hospital stays among survivors (table 4). We found that patients ≤64 years of age were almost twice as likely to experience a long hospital stay (OR=1.89, 95% CI 1.08 to 3.33, p=0.03) compared with those aged 75–84 years. Gender and race/ethnicity did not predict the length of hospital stay. A total of 18 clinical conditions were included in the model; only 3 conditions were significantly associated with a longer length of stay: cancer (OR=1.80, 95% CI 1.15 to 2.79, p=0.01), heart failure (OR=1.65, 95% CI 1.00 to 2.70, p=0.047) and stroke (OR=1.81, 95% CI 1.07 to 3.07, p=0.027). Patients with psychosis were 52% more likely to have a long length of stay compared with patients without psychosis, with borderline significance (OR=1.52, 95% CI 0.99 to 2.34, p=0.059).

Table 4

Predictors of a long (≥6 days) vs short (≤5 days) hospital stay among hospice patients who survived to discharge (n=1457): multivariate logistic regression results

Patient predictors	OR (95% CI) (p value)
Age, years
≤64	1.89 (1.08 to 3.33) (0.03)
65–74	1.65 (0.96 to 2.85) (0.07)
75–84	1.00 (referent)
85–94	0.91 (0.55 to 1.49) (0.70)
95+	1.16 (0.51 to 2.62) (0.73)
Gender
Male	1.00 (referent)
Female	1.02 (0.71 to 1.46) (0.94)
Race/ethnicity
White	1.00 (referent)
Hispanic	1.13 (0.72 to 1.76) (0.60)
Black	1.22 (0.65 to 2.28) (0.53)
Other	1.08 (0.31 to 3.73) (0.91)
Payer
Medicare/Medicaid	4.87 (2.50 to 9.51) (<0.0001)
Private insurance	1.00 (referent)
Tricare/Federal	2.71 (1.50 to 4.89) (0.001)
Other	0.86 (0.42 to 1.76) (0.68)
Clinical diagnoses* (present vs absent)
Cancer	1.80 (1.15 to 2.79) (0.01)
Heart failure	1.65 (1.00 to 2.70) (0.047)
Stroke	1.81 (1.07 to 3.07) (0.027)
Psychosis	1.52 (0.99 to 2.34) (0.059)
Discharge destination
Hospice	1.00 (referent)
Healthcare facility	4.67 (2.94 to 7.41) (<0.0001)
Home	2.61 (1.49 to 4.57) (0.0008)

*The following diagnoses were also included in the model and all were insignificant: chronic obstructive pulmonary disease, ischaemic heart disease, pneumonia/influenza, HIV, hypertensive disease, non-ischaemic heart disease, any fracture, complication of medical devices, respiratory failure, drug/alcohol dependence, sepsis, acute renal failure, end-stage renal disease and senility.

Finally, consistent with the survival analysis results shown in table 3, the strongest predictors of long versus short stay were payer and discharge destination. Compared with patients insured privately, extended hospital stays were almost five times more likely among those with Medicare or Medicaid (OR=4.87, 95% CI 2.50 to 9.51, p<0.0001), and almost three times more likely among those insured by Tricare (OR=2.71, 95% CI 1.50 to 4.89, p=0.001). Patients who did not return to hospice were several times more likely to have a long hospital stay compared with those who did return to hospice (discharge to the healthcare facility OR=4.67, 95% CI 2.94 to 7.41, p<0.0001; discharge home OR=2.61, 95% CI 1.49 to 4.57, p=0.0008).

Financial charges

The median hospital charge for patients admitted from hospice was $3916 (table 5). Reflecting differences in the length of stay, this value varied considerably by discharge status, from $3424 for patients who died to $13 293 for patients who were discharged home. The most frequent charge centre was pharmacy, with 91.6% of patients having a non-zero charge, followed by room and board (84.4% of patients), medical/surgical supplies (58.9%), respiratory services and tests (29.4%), intensive care unit (ICU, 16.8%), laboratory (18.7%), radiology/imaging (10.0%) and emergency department (5.6%). Low usage levels for laboratory and radiology are consistent with the intent of exclusion of curative-intent treatment for hospice patients. Patients who did not return to hospice were much more likely to have laboratory charges (57.7 –71.0%) and radiology/imaging charges (40.3– 44.2%). ICU usage and charges were highest among patients discharged to a healthcare facility and lowest among patients who died.

Table 5

Detailed financial charges for patients admitted from hospice by final discharge status, Florida 2010–2012

Charge centres (listed in order of decreasing frequency)	Died before discharge (n=1217)	Discharged to hospice (n=1170)	Discharged to a healthcare facility (n=149)	Discharged home (n=138)	Total (n=2764)
Total
Per cent with any charge	100	100	100	100	100
Median ($)	3424	3634	11 133	13 293	3916
99th centile ($)	46 755	59 606	310 900	252 858	100 431
Total for all patients ($)	8 041 068	9 203 758	4 074 703	3 946 310	25 265 839
Pharmacy
Per cent with any charge	86.9	95.0	98.0	97.8	91.6
Median ($)	434	562	1949	1427	586
99th centile ($)	25 727	17 099	43 220	34 186	24 322
Room and board
Per cent with any charge	83.0	86.3	81.9	82.6	84.4
Median ($)	1802	1730	4290	3912	2106
99th centile ($)	20 400	16 843	31 898	49 462	22 185
Medical/surgical supplies
Per cent with any charge	48.7	67.4	68.5	66.7	58.9
Median ($)	484	484	1,167	548	525
99th centile ($)	9942	8476	17 892	193 544	15 048
Respiratory services/tests
Per cent with any charge	23.0	33.9	35.6	40.6	29.4
Median ($)	522	585	851	548	571
99th centile ($)	16 240	7174	78 726	16 050	16 240
Intensive care unit
Per cent with any charge	17.9	14.4	24.8	19.6	16.8
Median ($)	3071	2831	5542	1915	2990
99th centile ($)	16 276	38 300	62 350	29 505	32 505
Laboratory
Per cent with any charge	6.9	19.9	57.7	71.0	18.7
Median ($)	506	1041	3337	1915	1368
99th centile ($)	62 577	37 357	41 047	35 428	37 357
Radiology/imaging
Per cent with any charge	2.7	9.7	40.3	44.2	10.0
Median ($)	1728	1475	3135	2310	2018
99th centile ($)	61 895	22 079	61 070	43 598	48 922
Emergency department
Per cent with any charge	1.9	4.6	24.2	26.1	5.6
Median ($)	1999	1886	1647	1786	1851
99th centile ($)	5089	6134	7189	5130	6134

In summary, total charges for hospice patients admitted to hospitals in Florida during our 30-month study period exceeded $25 million (table 4). Hospice patients who appeared to be exiting hospice care were 10% (287/2674) of patients by number but incurred 32% ($8 021 013/$25 265 839) of the financial charges due to longer lengths of stay, a greater number of procedures and a greater likelihood of ICU use.

Discussion

This is one of the largest studies to date of a neglected aspect of the experience of dying patients who chose to enrol in hospice. We capitalised on a new data item added in 2010 to Florida's mandatory hospital discharge reporting system which identified patients who were admitted to the hospital from a hospice programme (either home or facility-based). Our study revealed that 46% of patients admitted to the hospital from hospice died before discharge and incurred over $8 million in charges. Most of these patients died on the day of admission or within 1–2 days after admission and did not receive life-saving procedures, although 18% were admitted to the ICU. This suggests that these hospital admissions were medically unnecessary, which is important given that hospitals are not the preferred place of death for many patients. Research carried out on patients’ preferences regarding place of death has shown that in an idealised trajectory of hospice care patients want to die at home or in a hospice facility with minimal medical intervention prior to death.12 However, for some patients and caregivers, hospital admission in the final hours or days of life may be preferred. For future hospice research, an important patient-centred ‘outcome’ measure may be whether death occurred in the place and context desired by the patient and family.

A second group of patients admitted to the hospital from hospice care returned to hospice after their stay in the hospital. Many private insurance companies as well as TriCare and Medicare make allowances for ‘respite care’ hospital stays of up to 5 days’ duration in order to give patients’ caregivers a short break. Respite care is consistent with the top two admission diagnoses for this group (cancer and palliative care). However, other admission diagnoses (eg, stroke, respiratory failure/symptoms, sepsis and psychosis) suggest acute illness episodes that home or hospice facility staff were unprepared to cope with. Although there is a substantial body of research on caregiver stress and burnout, this is generally framed as a possible threat to the health of the caregivers themselves rather than a possible reason for hospitalisation from hospice.13–15 Additional research on a possible link between the preparedness of home and hospice facility staff and acute illness episodes resulting in hospitalisation is warranted.

Importantly, two groups of hospice patients in our study—those discharged to a healthcare facility and those discharged home—were patients whose admission to the hospital most likely denoted a rejection of hospice care. This hypothesis is consistent with our observations that these two groups were more likely to have a stay longer than 5 days, had higher rates of procedure use, and incurred median financial charges that were much higher than those who died or returned to hospice. Although this was a small group of patients, further study on the phenomenon of terminally ill patients exiting hospice treatment is needed.

Study limitations

Data about the total number of hospice patients in the state of Florida during our study period were not readily available. Hospice care is not subject to regular surveillance, and the large number of relatively small providers of hospice care makes ascertainment of denominator estimates difficult. On the basis of a recent report from a professional organisation,16 we roughly estimate that there 120 000 hospice patients annually during our study period in Florida. This would translate to about 1% of hospice patients being admitted to hospital. However, while hospital discharge data systems have been shown to be reasonably valid sources of patient information17–21 and are widely used,22–25 we believe this new variable to be significantly under-reported, and that the true number of hospice patients admitted was higher. In particular, patients who are admitted via the emergency department (as opposed to a direct admission by the physician) may be less likely to have their hospice status recorded in the medical record.

A second limitation of our study is that these terminally ill patients suffered from multiple chronic and acute diseases and we did not have access to data which identified the initial reason for referral to hospice. An important empirical question is whether the healthcare trajectories of patients dying from cancer, for example, differ in significant ways from those dying from congestive heart failure or COPD.

A final limitation of this study is the lack of information available about patient and family/caregiver decision-making and preferences in relation to hospice care, hospital admission, ICU admission and use of interventions such as mechanical ventilation and blood transfusions. For the patients who died, it is unknown whether dying in the hospital (often shortly after admission) was in accord with patients’ and caregivers’ wishes, or represented last-minute failures of hospice care to shield patients from unwarranted medical intervention.

Conclusions and future directions

Our results and those of previous studies2–9 raise difficult and significant questions about the ethics and pragmatics of end-of-life medical care and the intentions and scope of hospice care. Commonly used templates for patient advance directive documents, for example, 5 Wishes,26 include lists of ‘life-support treatment’ that patients may want to avoid, such as cardiopulmonary resuscitation, mechanical ventilation, tube feeding, major surgery, blood transfusions, dialysis and antibiotics. In our study, the use of procedures was very low, except among patients who survived and did not return to hospice. In a report on hospice patients with hip fracture,7 83% received hip surgery and consequently had improved survival compared with those who did not undergo surgery. Patients dying of a terminal disease (eg, cancer) may experience painful and/or life-threatening acute illness events that are completely unrelated in pathology (eg, stroke or hip fracture), and which were not directly addressed in advance directives or hospice care plans. Patients, caregivers and healthcare providers may all find themselves uncertain about the most ethical and compassionate course of action in these situations.

We would advocate inclusion of a simple hospice indicator in additional clinical registries and hospital reporting systems, as this would be a low-cost means of creating additional data resources for exploring hospice patient healthcare trajectories. Future studies should investigate variations in hospice patient healthcare trajectories by cause of terminal illness, as well as incorporate patient and caregiver needs and preferences. An ideal study design would prospectively link subjective patient-centred data (eg, advance directive content, do not resuscitate, patient-reported values and preferences) and objective healthcare encounter data (eg, emergency room visits, inpatient stays and outpatient care).