Palliative care on the radiation oncology ward—improvements in clinical care through interdisciplinary ward rounds

Radiation treatment (RT) constitutes a cornerstone of cancer therapy with around 50% of oncological patients undergoing radiation during the course of their disease [1, 2]. Despite technical and conceptual innovations in the field [3], palliative concepts remain pivotal and constituted 41% of RT series in an analysis of the surveillance, epidemiology, and end results database (SEER) [4]. The use of RT also extends to the end-of-life period with a systemic review describing a rate of 5–10% among patients dying of cancer in the last 30 days of life [5]. This finding corresponds to another SEER analysis estimating the percentage for RT in the last 30 days of life to be 7.6% in a collective of about 200,000 patients dying of lung, breast, prostate, colorectal, or pancreas cancer, which demands a carefully considered balance of therapeutic interventions and best supportive care concepts [6].

Palliative patients may reveal a complex variety of symptoms, both on a physiological and psychological level, calling for holistic clinical care [7, 8]. Despite this, the abilities of physicians to manage the symptom burden of their patients vary considerably being highest for (somatic) pain but dropping regarding psychological support [9, 10]. In general, palliative care (PC) is of cardinal importance for everyday clinical practice; in a web-based survey of the German Society of Radiation Oncology (DEGRO), 84.4% of respondents answered to be in need of palliative care consultation service often or very often during their daily routine [10]. Previous publications have demonstrated feasibility of cooperation between a palliative care consultation service (PCCS) and a radiation oncology (RO) department [11, 12], yet many questions on the best way for implementation remain unanswered.

The present work intends to analyze the symptom burden of palliative patients on a RO ward in a large collective and thereby derives requirements for effective PC. We describe a multidisciplinary palliative concept based on regular palliative/radio-oncological ward rounds and its integration. Furthermore, educational demands of residents are investigated, and acceptance of the proposed model is assessed.

Overall, 1018 patients in the RO department were seen by the PCCS between 2015 and 2021 (Table 1, Fig. 1), 77 (7.6%) of whom were only counseled once on an outpatient basis. The remaining 941 (92.4%) patients were accompanied on the ward.

Mean age of patients was 65.8 ± 13 years (range 19–95 years) and mean length of stay in the acute care hospital was 30 ± 20 days. The most prevalent primary entities were lung/pleura tumors (16.9%), primary brain tumors (15.7%), and head and neck tumors (15.5%; Fig. 1a). When considering metastases and primary tumors, the most prevalent treatment indications were metastases, not otherwise specified (25.8%), brain tumors (15.6%), and head and neck tumors (13.8%; Fig. 1b). Pain at the time of admission was frequently seen with 20.4% of patients reporting this symptom. Of the 192 patients presenting with pain at time of admission, 177 improved (after 72 h), 8 revealed no changes, and 7 had no follow-up data. Pain intensity decreased from a median value of 6 on the numeric rating scale (range 2–10) to 2 (range 0–8; Supplementary Fig. 1). The mean length of stay under cotreatment by the PCCS was 22 ± 15 days (Table 1). In contrast to patients in other departments than RO (n = 3254), the time to integration could be reduced significantly by regular ward rounds (mean: 11 ± 20 vs. 8 ± 14 days, p < 0.001; Fig. 2a).

Since the implementation of the PCCS, the number of patients treated cooperatively increased from 97 patients in 2015 to 251 in 2021 (Fig. 2b). Most patients were able to return home with only a minority dying during their stay in the acute care hospital (Fig. 3a). Concerning our in-house PC unit, 478 patients in total have been treated since July 1, 2019, 58 of whom were referred from the RO ward. Of these 58 patients, 24 died on the PC unit, 12 were transferred to a hospice, 11 were transferred to another hospital/rehabilitation clinic, and 11 were discharged home. Over time, the number of patients dying on the RO ward decreased, with a significant difference concerning deaths between the time periods 2010–2015 (median: 15.5 deaths/year) and 2016–2020 (median: 7 deaths/year; p = 0.009, using the exact sampling distribution of U) indicating a strong effect (Z = −2.482; r = 0.748, Fig. 3b).

The hereby presented analysis demonstrates feasibility and efficacy of a structured cooperation between a radiation oncology department and a palliative care service. The main advantages lie within a supply of adequate PC for the individual patient and the possibility to provide knowledge on PC for the treating physicians.

In addition to that, a strong cooperation promotes acceptance of PC by the team, as well as by all patients on the ward [13]. PC is of key importance in a RO department. An assessment of PCCS demands in an acute care hospital demonstrated the RT department to be among the three most frequent users [12]. This is mirrored by a continuous rise in the number of radio-oncological patients visited by the PCCS in our study; starting from 97 patients in 2015 and reaching 251 in 2021. Despite that increase, the number of patients dying on the RO ward decreased concomitantly which is most likely due to the timely referral of patients to appropriate facilities other than the acute care hospital. Nevertheless, the integration of palliative services is often postponed due to multiple reasons: an analysis at the university hospital Munich revealed the majority of PCCS contacts to be initiated in the last week of the patient’s life [14]. In contrast, the current algorithm with regular ward rounds may enable a valuable cooperation before “end-of-life care” and strongly supports the concept of early integration, which has been identified as superior regarding guidance of further care, patient’s quality of life, and care costs [15‐17]. Focusing on patients and their relatives, honest communication on the expected course of disease, and the limited life-expectancy may facilitate integration of PC [11].

It has to be noted that the symptom burden of palliative patients may be prone to changes during RT and demands for a dynamic care approach: An assessment of patient-reported outcomes in palliative patients revealed the most prominent (clinical relevant) symptoms before the start of RT to be an impairment of general wellbeing (62.8%), pain (62.8%), tiredness (60.0%), lack of appetite (40.0%), and anxiety (38.0%) [7]. After completion of RT, symptoms changed with a significant higher percentage of lack of appetite (60%, p = 0.006) in contrast to a significant decrease in pain (42.8%, p = 0.033) [7]. In comparison, the percentage of patients suffering from pain at the beginning of PCCS integration in our analysis was relatively low (20.4%) which may be due to the abilities of the treating radiation oncologists to manage pain medication.

PC as well as palliative RT is a pivotal part of the educational program for residents as proposed by the DEGRO [18]. This topic is not limited to radiation itself but also encompasses pain medication, supportive care, psycho-oncology, and knowledge on hospice care. Correspondingly, palliative RO is taught at 87.5% of all universities as part of the curriculum for medical students [19], which paves the way for a better understanding.

However, a North American survey reported that 79% of residents judged their training in PC to be not or only partially sufficient [20]. Concerning different topics, deficits were reported in various physiological, psychological, social, and legal domains as well as in the planning of current treatment goals and further care planning with the highest insecurity in the ability to initiate a depression treatment, rotate opioids, manage fatigue, anorexia, and insomnia [20]. Dedicated training in PC exceeding 5 h was associated with higher self-assessed competence in all domains [20]. Thus, a minimal teaching intervention may significantly enhance PCcompetences. The call for a more intensive training in PC is common in the literature: a systemic review found this statement to be present in 89.4% of publications [21].

Built on the results of the current evaluation and the presented survey, we developed a model curriculum for PC in RO (Fig. 5). It is intended as a multistep process starting from theoretical knowledge (base of the pyramid) and reaching practical use (top of the pyramid). It has to be emphasized that basic knowledge on PC should be introduced early, preferably during medical school. The hereby described protocol of regular ward rounds may assist in the advanced learning steps (top levels of the pyramid) beyond textbook experience. With its basic character, the concept may be easily adapted to multinational educational programs and addresses both residents’ need for information and supervision during daily clinical care. However, it demands profound knowledge of the supervising senior physicians, sufficient time for teaching, and effective interdisciplinary cooperation with a PCCS .

The current work has some limitations being a retrospective and monocentric analysis. In spite of that, patient numbers exceed 1000, being larger than many collectives in the literature. Unfortunately, follow-up data on mortality after discharge were incomplete which prevented a decisive survival analysis. The decision to integrate PCCS into patient care was done on an individual basis by the treating radiation oncologist, a process which may be prone to selection bias. In addition, there has been no simultaneous control group treated without the help of the PCCS, which hampers estimation of the precise impact of the described concept. This is of particular interest regarding the influence on RT treatment strategies. Being a consultation service, the PCCS did not interfere directly with decisions on RT duration and fractionation but, due to the close cooperation between the two departments, an indirect influence cannot be excluded. This question has to be addressed in future (prospective) trials.

Finally, PC in RO has to pursue multiple objectives in the years to come: (1) enlarge knowledge among treating physicians and nurses, (2) increase awareness towards individual needs of palliative patients, and (3) provide adequate guidance to PCCS on a broader scale. The presented cooperative strategy proved to be innovative and successful, but additional programs will be needed in the future.