2.1 Incentive scheme

The BPT scheme was a large pay-for-performance scheme that was first incorporated into national reimbursement system for hospitals in England in 2010 (Darzi, Reference Darzi2008). The scheme incentivised the performance of hospitals across a range of clinical areas by adjusting the amount that hospitals were reimbursed by the National Health Service (NHS) for treating certain patients (Gershlick, Reference Gershlick2016). In this study, we focus on a subset of these incentives that aimed to increase the proportion of patients that were treated as a daycase (Leroy et al., Reference Leroy, Camberlin, Lefèvre, Mistiaen, Van den Heede, Van de Sande, Van de Voorde and Beguin2017); where a daycase defined a period of care in which a patient was admitted to hospital for a planned surgical procedure and then successfully discharged in the same calendar day.

When appropriately applied, treating a patient as a daycase is generally cheaper than admitting the patient overnight (Street and Maynard, Reference Street and Maynard2007) and can free up beds for other patients without requiring additional capacity (Alderwick et al., Reference Alderwick, Robertson, Appleby, Dunn and Maguire2015). There is also evidence to suggest that daycase surgery has quality advantages. Studies have shown that patients have higher satisfaction when treated as a daycase, have reduced risk of hospital acquired infection from spending less time in hospital, and have the same complication and readmission rates than if they were admitted overnight (for overview see: Jarrett and Staniszewski, Reference Jarrett, Staniszewski, Lemos, Jarrett and Philip2006).

Prior to the BPT incentives, hospitals were reimbursed the same amount per admission regardless of whether a patient was treated as a daycase or not. The amount that hospitals received for each admission was determined under the prospective payment system, known as Payment by Results (PbR) (Department of Health, 2012). Under PbR, hospitals were paid a fixed tariff per admission to cover the costs incurred throughout each patient's spell in hospital. Tariffs were set at a price equal to the national average cost of treating patients that had previously undergone the same procedure and required similar levels of resources to treat. This incentivised hospitals to reduce costs to a level below the national average in order to reduce deficits and remain financially viable (Shleifer, Reference Shleifer1985). Since overnight admissions cost more on average, the payment system also meant that hospitals were incentivised to treat patients as a daycase prior to the introduction of the BPT incentives (Street and Maynard, Reference Street and Maynard2007).

After the introduction of the BPT daycase incentives, hospitals were reimbursed more money if a patient undergoing a targeted procedure was treated as a daycase and less if they were admitted overnight (Table A1 in the supplementary material). This increased the incentives for hospitals to treat patients with a targeted condition within the same day. Differences between the daycase and overnight tariff varied between procedures from £150 to £325 (NHS England, 2016). This equated to an extra 8.8% to 40.8% in revenue for treating a patient as a daycase rather than as an overnight admission. The new daycase and overnight tariffs were set based on a predetermined target daycase rate at which hospital would have received the same average revenue per patient as in the period before the incentives. This meant that hospitals were rewarded for producing above the target daycase rate but were penalised for producing below. The target daycase rate varied between procedures dependent on the recommended rate of best practice (BADS, 2016) and the extent to which this rate was deemed achievable.

The scheme targeted procedures with daycase rates that varied substantially between hospitals and on average, fell below the national recommended rate (NHS England, 2016). Procedures were selected from a directory produced by the BADS (BADS, 2016). The directory listed procedures that were considered, by a panel of experts, to be suitable for treatment as a daycase. In total, 24 procedures listed in the BADS directory were targeted in the rollout of the BPT incentives between April 2010 and April 2013.

In April 2010, hospitals were only incentivised to treat patients undergoing a laparoscopic cholecystectomy as a daycase (Figure 1). The incentives were then expanded to include an additional 13 procedures in April 2011, six procedures in April 2012 and four procedures in April 2013. A further 18 procedures were introduced in April 2017. Information on the rollout of the BPT initiative was published in January each year. However, hospitals were able to familiarise themselves with the detail of the new proposed tariff structure approximately 6 months before it was introduced, during the ‘road testing’ stage of its release (Department of Health, 2012).

Figure 1. The announcement and introduction of the BPT incentives over time. Parentheses indicate the number of additional procedures that were targeted in each wave.

2.2 Potential spillover mechanisms

Despite the rollout of the BPT incentives, the set of elective procedures targeted by the scheme only made up a small proportion of the total procedures that were recommended for treatment as a daycase by the BADS (BADS, 2016). Patients undergoing a procedure that was recommended for treatment as a daycase but was not incentivised under the scheme may have been affected by the BPT incentives if induced changes in the behaviour of hospitals had an impact on the care that they received. We refer to these procedures and patients admitted for one of these procedures as being ‘non-targeted’.

There are different mechanisms through which the incentives may have impacted patients undergoing a non-targeted procedure that was also recommended for treatment as a daycase. On the one hand, the BPT incentives may have had a negative spillover effect on the proportion of non-targeted patients that were treated as a daycase if hospitals reallocated effort and resources towards the incentivised area of care (Holmstrom and Milgrom, Reference Holmstrom and Milgrom1991). For example, daycase units and physicians may have delayed the treatment of non-targeted patients within the same calendar day to ensure that targeted patients were treated first and had time to recover before discharge.

On the other hand, there may have been a positive spillover effect of the scheme if targeted and non-targeted patients shared commonalities in production as a daycase (Mullen et al., Reference Mullen, Frank and Rosenthal2010; Sherry et al., Reference Sherry, Bauhoff and Mohanan2016). For example, patients undergoing different procedures may have shared the same clinical staff, specialist equipment and treatment rooms within a hospital. In such a case, improvements in the targeted area of care may have also led to improvements in another through two potential mechanisms.

First, improvements in the proportion of targeted patients that were treated as a daycase may have been achieved through investment in the daycase capacity of a hospital. For example, hospitals may have invested in larger daycase facilities and hired additional staff. In return, such investments may have led to an increase in the proportion of non-targeted patients that were treated as a daycase if additional resources were also used to treat these patients.

Second, there may have been a ‘learning effect’ (or knowledge spillover) that benefited the treatment of targeted and non-targeted patients (Chandra and Staiger, Reference Chandra and Staiger2007). This effect may have occurred without any investment in additional resources. For example, a physician may have learnt from performing minimal access techniques on targeted patients and applied this skill when performing similar non-targeted procedures. Moreover, physicians that tended to admit patients overnight may have switched their treatment style towards daycase surgery after the incentives were introduced. Knowledge could have also spread between physicians that regularly interacted within the same network (Landon et al., Reference Landon, Keating, Barnett, Onnela, Sudeshna, O'Malley, Keegan and Christakis2012). Similarly, daycase units may have become more efficient and organised at admitting and discharging patients within the same calendar day.

Whether the overall spillover effect of the BPT scheme was positive or negative is dependent on which of these prevailing mechanisms caused the spillover to occur. Moreover, the interaction between these mechanisms is likely to have varied between different non-targeted patients dependent on the exposure to the incentives of the physician or surgical team responsible for the treatment of the patient.

On the one hand, positive spillover effects from investment and learning were likely to have been larger for patients within the same speciality as a targeted procedure (Mullen et al., Reference Mullen, Frank and Rosenthal2010). For example, whilst investments in general daycase facilities (e.g. admin staff, operation theatres) are likely to have been wide reaching, investments in specialist resources may have only benefitted the treatment of patients whose treatment required the same equipment or was conducted in the same location within the hospital. Similarly, positive spillover effects through learning may have been specific to certain types of procedure and larger for patients treated by physicians who were also treating more patients as daycases in response to the incentives.

By the same logic, hospitals were also more likely to have substituted effort away from non-targeted patients within the same area as a targeted procedure if they shared the use of the same specialist equipment or were treated by the same pool of specialist physicians (Holmstrom and Milgrom, Reference Holmstrom and Milgrom1991). Understanding the extent to which spillover effects differed between patients within an organisation is therefore ultimately an empirical question.

2.3 Data

To evaluate the spillover effects of the BPT incentives, we used patient-level data from Hospital Episode Statistics (HES). The same data were used to reimburse providers under PbR and the BPT scheme. The data contained clinical, personal and geographical information on all NHS-funded patients that were admitted to a hospital trust in England.

We evaluated the effect of the incentives on a binary variable from HES that measured whether the hospital both planned to and successfully discharged the patient within the same calendar day. This matched the definition of a daycase used to reimburse hospitals under the BPT scheme (Department of Health, 2013). Whether the hospital planned to treat the patient within the same day was recorded by the hospital prior to the patient's admission. Whether the patient was treated in the same day was determined using information on the date of admission and the date of discharge from hospital.

In addition, we used information from HES to construct control variables in the analysis. These variables included: the age of the patient (coded in 10-year bands from 19–30 to ≥80 years), the sex of the patient (male = 1), 31 binary variables that indicated whether the patient had a specific Elixhauser comorbidity or not (yes = 1) (Elixhauser et al., Reference Elixhauser, Steiner, Harris and Coffey1998), whether the patient was admitted from their usual place of residence or not (yes = 1), the income deprivation score of the patient's area of residence in 2010 (McLennan et al., Reference McLennan, Barnes, Noble, Davies and Garratt2011), and the average drive time to hospital from the population weighted centroid of the local geographical area in which the patient lived (Gibbons et al., Reference Gibbons, Lyytikkäinen, Overman and Sanchis-guarner2019).

We used HES data on admissions to hospital from the start of April 2007 to end of March 2016. This period included: three years before the introduction of the first incentives; the three-year rollout period; and three years after the final set of incentives were introduced (Figure 1).

We focused on patients undergoing an elective procedure that was recommended for treatment as a daycase but never targeted by the BPT incentives during the period of study. We refer to these procedures as non-targeted procedures. In total, we considered patients admitted for one of 92 different non-targeted procedures. We identified non-targeted procedures from the procedure codes recorded in the second to fifth edition of the BADS directory of procedures (BADS, 2016). The directories listed procedure codes deemed suitable for treatment as a daycase by leaders in day and short stay surgery and from a review of national performance data. The same directories were used in the development of the BPT daycase scheme and in the reporting of day surgery rates on a quarterly basis on the ‘Better Care Better Values’ website.

We grouped the 92 non-targeted procedures into incentivised and non-incentivised specialities. We defined specialities based on the surgical groupings in the BADS directories. Incentivised specialities contained both targeted and non-targeted procedures and included: general surgery; gynaecology; urology; breast surgery; orthopaedic surgery; and ear, nose and throat (ENT). 71 of the 92 non-targeted procedures belonged to one of these six categories. The remaining 21 non-targeted procedures belonged to one of three non-incentivised specialities that contained no targeted procedures: vascular surgery; head and neck; and ophthalmology. A full list of the non-targeted procedures analysed in the study is included in Table A2 in the supplementary material.

We identified admissions where a patient underwent a non-targeted procedure in HES using the procedure codes recorded throughout the duration of their hospital spell. We did not consider admissions where the patient underwent more than one non-targeted procedure in the same hospital spell because daycase surgery was unlikely to have been suitable for patients that required more than one significant procedure. Similarly, we did not consider admissions where a patient underwent both a targeted and non-targeted procedure in the same hospital spell as hospitals were rewarded for treating these patients as a daycase under the BPT scheme.

In total, we identified 10,478,334 hospital admissions to 204 hospital trusts for a single non-targeted procedure during the study period. Out of these admissions, we excluded 1,890,489 admissions to 76 hospital trusts that did not perform at least one non-targeted procedure from both an incentivised and non-incentivised speciality in every month. This ensured that we estimated the spillover effect of the incentives on a balanced panel and for the same set of hospital trusts when stratifying the estimation sample. Additionally, we excluded 82,091 admissions to a single hospital trust that did not perform at least one targeted procedure in every month in order to exclude hospitals that were not regularly incentivised by the BPT incentives during the study period.

The final estimation sample included 8,505,754 (81.2%) patients that were admitted for a single non-targeted procedure to 127 different hospital trusts between April 2007 and March 2016 (Figure 2). These patients were similar to the population of patients, but the characteristics of hospitals included in the sample differed as result of the inclusion criteria (Table A3 in the supplementary material).

Figure 2. Volume of non-targeted patients in the estimation sample, by speciality. Parentheses indicate the number of non-targeted procedures within each speciality.

2.4 Estimation strategy

2.4.1 Main analysis

We estimated average changes in the probability that a non-targeted patient was treated as a daycase using an interrupted time series (ITS) model (Wagner et al., Reference Wagner, Soumerai, Zhang and Ross-Degan2002). We opted for this approach because unlike other policy evaluation methods, the ITS method did not impose any assumptions on the potential spillover effects of the scheme. Instead, the approach exploited changes in the probability of being treated as a daycase throughout the before period to predict what the daycase rate would have been in the post-policy period had the BPT incentives not been introduced.

Specifically, the method relied on the assumption that the trend throughout the before period would have continued without interruption had the BPT incentives not been introduced (Wagner et al., Reference Wagner, Soumerai, Zhang and Ross-Degan2002). This assumption may not have held if: (i) the shape of the trend over time was incorrectly specified in the model; (ii) other policy changes or technological advances affected the daycase trend in the post-policy period; or (iii) changes in the daycase trend were caused by changes in other variables that were associated with the probability of being treated as a daycase (Lopez Bernal et al., Reference Lopez Bernal, Soumerai and Gasparrini2018).

We estimated the ITS model as follows:

(1)$$\!\!\!\!\Pr [ {Y_{ijht} = 1} ] = \alpha + \beta A_t + \mathop \sum \limits_{k = 2010}^{2015} [ {\;\gamma_kD_k + \delta_{k\;}( {A_t \times D_k} ) } ] + {\boldsymbol X}_{\boldsymbol i}{\boldsymbol \varphi } + \mathop \sum \limits_{s = 1}^{12} \sigma _sM_s + \tau _j + \eta _h + \varepsilon _{ijht}$$

where, Y _ijht was a binary variable that indicated whether patient i was treated as a daycase for non-targeted procedure j at hospital trust h in month t; A _t was a continuous variable that indicated the time in months from the start of the study period; D _k was a binary variable equal to one in post-policy year k, and zero otherwise; X_i were a vector of patient characteristics (as described above); τ _j were procedure fixed effects; M _s were month dummies; and η _h were hospital trust fixed effects.

We included D _k in the model to allow for shifts in the level of the daycase trend in each post-policy year. Similarly, we included an interaction term between A _t and D _k to allow for changes in the shape of the daycase trend in each post-policy year (Karaca-Mandic et al., Reference Karaca-Mandic, Norton and Dowd2012). This approach allowed us to investigate whether spillover effects of the incentives varied in the short- and long-term periods as a result of the yearly rollout of the scheme.

We estimated the model using a logit regression with cluster-robust standard errors at the hospital trust level. This approach allowed us to adjust for potential floor or ceiling effects under the assumption that the probability of being treated a daycase followed an S-shaped trend over time that flattened as the probability reached 0 or 1 (Lopez Bernal et al., Reference Lopez Bernal, Soumerai and Gasparrini2018). Using the output from the logit model, we then calculated the spillover effect of the policy as the average marginal effect of being treated in post-policy year k, when setting the continuous time variable (A _t) equal to the midpoint of year k. This estimated the average difference between the level of the extrapolated daycase trend from the before period and the level of the actual daycase trend in each post-policy year.

We estimated the model separately for patients undergoing a non-targeted procedure in either an incentivised speciality or a non-incentivised speciality to investigate whether the average spillover effect of the incentives differed between non-targeted patients based on their proximity to the targeted area of care. In addition, we also stratified the analysis by the speciality in which a patient was treated. This allowed us to further examine whether spillover effects varied between different incentivised specialities depending on when they became targeted by the policy.

2.5 Sensitivity analysis

We also tested the sensitivity of the results to the assumption that the trend in the daycase rate throughout the before period would have continued without interruption in the absence of the incentive scheme. This assumption may have failed if trends throughout the before period did not follow an S-shaped path as modelled by the logit regression (Verbyla et al., Reference Verbyla, Cullis, Kenward and Welham1999). To investigate this further, we estimated the ITS model using a linear probability model.

Estimates from the main analysis may have also been biased if hospital trusts responded to the announcement of the incentives up to six months before they were implemented, as suggested in a previous evaluation of the BPT scheme (Allen et al., Reference Allen, Fichera and Sutton2016). As an additional sensitivity test, we therefore also estimated changes in the post-policy trend every six months from October 2009 to the end of the study period.