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The Dutch Cancer Society proposed that the interval between diagnosis and start of treatment should be less than 15 working days. The purpose of this study was to determine whether the interval from diagnosis to treatment for patients with colorectal cancer (CRC) shortened between 2005 and 2008 in hospitals in southern Netherlands.
Patients with CRC diagnosed in six hospitals in southern Netherlands during January to December in 2005 (n = 445) and January to July in 2008 (n = 353) were included. The time between diagnosis and start of treatment was assessed, and the proportion of patients treated within the recommended time (<15 working days) was calculated.
The time to treatment for colon cancer patients was 13 working days in 2005 and 17 working days in 2008. For rectal cancer patients, the median time to preoperative radiotherapy was 28 working days in 2005 and 30 working days in 2008, and the median time to surgical treatment for rectal cancer patients was 26 working days in 2005 and 18 working days in 2008. Time to treatment did not shorten between 2005 and 2008 for colon and rectal cancer patients, except for rectal cancer patients who underwent surgery as initial treatment in patients aged >70 years and those with stage I disease. Substantial variation was seen among hospitals.
Time to treatment for patients with CRC in southern Netherlands did not shorten between 2005 and 2008. The time to treatment should be reduced to meet the advice of the Dutch Cancer Society.
Colorectal cancer (CRC) is the third most frequent cancer in The Netherlands, with more than 11,000 new cases annually and a lifetime risk of more than 5% . Over a period of more than two decades, a clear improvement in survival of patients with CRC was attained by earlier detection due to a lower barrier for endoscopy, better staging, improved surgery, and combined-modality treatment [2, 3]. Most of these patients still present with symptomatic disease because population-based screening has not yet been implemented in The Netherlands.
Since 2000, guidelines in Dutch specialized care (Treeknormen) indicate that the time from diagnosis to the start of clinical treatment should be within 35 days for 80% of patients and within 49 days for all patients . For patients with life-threatening disease including cancer, a Dutch Cancer Society working group (consisting of medical specialists, social medicine specialists, and an economist) proposed in 2005 that the interval between diagnosis and treatment of cancer should be less than 15 working days , more or less in agreement with several other countries, including Denmark and the United Kingdom [6, 7]. To decrease the interval between diagnosis and treatment a project called Sneller Beter (Getting Well Faster) was started in November 2003 in The Netherlands funded by the Ministry of Health .
It is arbitrary to what degree treatment delay contributes to disease stage at presentation . However, a longer time interval from diagnosis to treatment might have a negative effect on the patient’s psychological well-being [10, 11], which may affect the physical condition of the patient. Symptoms or clusters of symptoms might affect the interval between diagnosis and treatment as symptoms are related to the severity of the disease .
The purpose of this study was to determine whether the time from diagnosis to treatment for patients with CRC shortened between 2005 and 2008 in hospitals in southern Netherlands.
Population-based data from the Eindhoven Cancer Registry (ECR), which is maintained by the Comprehensive Cancer Centre South, were used. The ECR collects data for all patients newly diagnosed with cancer in the southern part of The Netherlands. The ECR serves 10 community hospitals, 6 pathology departments, and 2 radiotherapy institutes in an area comprising 2.3 million inhabitants. Information on diagnosis, staging, and treatment is obtained routinely from the medical records . In addition, information on co-morbidity has been collected since 1993 based on the Charlson Co-morbidity Index . Socioeconomic status, based on individuals’ fiscal data on the economic value of the home and household income, is provided at an aggregated level for each postal code . The quality of the data is high because of thorough training of the registrars and computerized consistency checks at regional and national levels. Completeness is estimated to be at least 95% .
For the present study, 445 patients with primary CRC diagnosed in 2005 and 353 patients with primary CRC diagnosed between January 1, 2008 and August 1, 2008 in six hospitals in southern Netherlands were included. All patients underwent resection of their tumor or radiotherapy treatment within 6 months after diagnosis. Patients with previous cancer (n = 137) or who underwent acute resection (n = 34) were excluded. Colon cancer was defined as C18, rectal cancer as C19-C20 according to the International Classification of Diseases for Oncology 03 . Tumor localization was categorized into anatomic subsites: proximal colon, consisting of the cecum, appendix, ascending colon, hepatic flexure, transverse colon, and splenic flexure (C18.0–C18.5); distal colon, consisting of descending colon and sigmoid (C18.6–C18.7); colon not otherwise specified (NOS) (C18.8, C18.9); and rectum, consisting of rectosigmoid and rectum (C19.9, C20.9).
The TNM stage was based on the pathological stage and the clinical stage when the pathological stage was unknown, as clinical stage alone was unknown for many patients. Date of diagnosis was defined as the date of histological verification of the tumor. Time to treatment was defined as the time interval between the histologically confirmed diagnosis and the start of initial treatment, which is surgical resection, except for those undergoing preoperative radiotherapy. Nonelective surgical treatment was defined as surgery and diagnosis on the same day. The starting date of radiotherapy was obtained from both radiotherapy institutes in the ECR region.
Additional data were extracted from the medical records by one of the authors (L.N.S) and a research assistant, under supervision of the treating physicians. This included date of imaging procedures and date of surgery. Imaging procedures included thoracic radiography, abdominal ultrasonography (US), abdominal computed tomography (CT), and magnetic resonance imaging (MRI). For patients diagnosed in 2005, symptoms were registered based on the medical record, with a maximum of four symptoms per patient. An early-stage cluster was created that contained patients who had rectal blood loss, mucus in stool, or no complaints. Data about radiotherapy including starting date of treatment and date of registration at the institute were obtained from the radiotherapy institutes.
Time between the diagnosis of CRC and imaging procedures, surgery, and radiotherapy was assessed. Variation in time between diagnosis and treatment was determined per age group (<70 years and ≥70 years), stage, socioeconomic status, co-morbidity, and hospital. The Mann–Whitney test was conducted to test whether the time between diagnosis and treatment differed markedly between predefined groups of patients. Furthermore, the time between diagnosis and treatment was described for symptoms. The proportion of patients who were treated within the time recommended by the Dutch Cancer Society advice were compared between 2005 and 2008.
Survival time was defined as the time from diagnosis to death or January 1, 2009 for the patients who were still alive. A crude 5-year survival rate was calculated, and a log-rank test was carried out to compare survival proportions. A multivariable proportional hazards regression analysis was used to discriminate independent risk factors for death (SAS system 9.1; SAS Institute, Cary, NC, USA). A value of p < 0.05 was considered statistically significant.
Colon cancer patients diagnosed in 2005 and 2008 were similar in age, socioeconomic status, co-morbidity, stage, and timing of surgical treatment. However, those diagnosed in 2008 more often had a tumor located in the distal colon, and the pathologic lymph node status differed. The mean age of patients with colon cancer was 71 years (range 36–91 years), and almost half them suffered from one or more co-morbid conditions. Most of the patients had a T3 tumor, and 16% of those diagnosed in 2005 and 11% diagnosed in 2008 had metastatic disease at diagnosis (Table 1). Most of the rectal cancer patients underwent preoperative radiotherapy. In 2005 the age of rectal cancer patients who did and those who did not undergo preoperative radiotherapy was similar, whereas in 2008 those who underwent preoperative radiotherapy were younger (65 vs. 74 years). In 2008 almost none who underwent radiotherapy had a tumor in the rectosigmoid, whereas 8% did so in 2005. Socioeconomic status, co-morbidity, and stage were similar for rectal cancer patients between 2005 and 2008 (Table 2).
For patients with colon cancer the median time to treatment was 13 working days in 2005 and 17 working days in 2008 (Fig. 1a). Excluding those who underwent nonelective surgery in 2005 (n = 49), the median time to treatment was 20 working days. No differences were found in time to treatment between subgroups of colon cancer patients in 2005, except for hospital of diagnosis and stage of disease. The median time to treatment varied substantially among hospitals, ranging from 5 to 28 working days in 2005. Time to treatment decreased in 2005 with increasing stage, ranging from 21 working days for stage I to 4 working days for stage IV. In 2008 similar results were found, with a significantly longer time to treatment for patients with a co-morbidity. No differences in time to treatment were found for colon cancer patients between 2005 and 2008, except for one hospital where the time to treatment increased from 5 working days in 2005 to 16 working days in 2008 (Table 3).
For patients with rectal cancer, the median time to preoperative radiotherapy (mainly 5 × 5 Gy) was similar: 28 working days in 2005 and 30 working days in 2008 (Fig. 1b). In 2005 the time to surgery as initial treatment was 26 working days, whereas it in 2008 was 18 working days (Fig. 1c). No significant differences were found for subgroups of patients with rectal cancer who underwent preoperative radiotherapy in 2005, but there was a significant difference between hospitals in 2008, ranging from 24 to 38 working days. Furthermore, a significant increase in time to treatment was found in one hospital. The number of patients with rectal cancer who did not undergo preoperative radiotherapy was small. However, a significant decrease in time to treatment was found between 2005 and 2008 for elderly patients (≥70 years). Similarly, a reduced time to treatment for patients with stage I rectal cancer was found in 2008 compared to that in 2005. For patients with rectal cancer who underwent preoperative radiotherapy, the median time from diagnosis to registration at the radiotherapy institute was 17 working days (5%–95% range: 5–35 days); and the median time from registration to start of radiotherapy was 10 working days (5%–95% range: 4–18 days) in 2005. The median time between start of preoperative radiotherapy and surgery was 7 (5%–95% range: 5–67 days) in 2005. Similar time intervals were found for 2008. No significant difference was found in time to treatment between the two radiotherapy institutes, although the time to treatment differed by 7 working days between the two radiotherapy institutes in 2008 (Table 4).
In 2005, imaging procedures for diagnostic purposes of CRC largely consisted of thoracic radiography and abdominal US, which were usually conducted 6 to 8 working days after diagnosis. Abdominal and thoracic CT were used more often for CRC patients in 2008 than in 2005. The use of pelvic MRI increased from 39% in 2005 to 66% in 2008 for patients with rectal cancer (Table 5). The time from diagnosis to abdominal and/or thoracic CT was usually 7 working days for CRC patients in 2008, whereas abdominal US and thoracic radiography were usually conducted 4 working days after diagnosis in 2008.
In patients with colon cancer, the time to treatment varied by the symptoms at diagnosis, being around 5 working days (5%–95% range: 0–35 days) for patients with severe symptoms such as diarrhea, weight loss, and abdominal pain. Patients with symptoms clustered in the early-stage cluster had a time to treatment interval of 21 working days (5%–95% range: 0–38 days). A less clear pattern was found for rectal cancer (data not shown).
The time to treatment was less than 15 working days in 45% of colon cancer patients in 2008, whereas the corresponding figure was 53% in 2005. Preoperative radiotherapy was given to 4% of rectal cancer patients within 15 working days in both 2005 and 2008. A significantly higher proportion of rectal cancer patients received initial surgery within 15 working days (23% vs. 46%; p = 0.04) (Table 6).
Survival analysis showed that a shorter waiting time was not associated with an improved outcome (data not shown). After adjusting for tumor stage, differentiation grade, age, co-morbidity, socioeconomic status, and sex in a multivariate proportional hazards regression analysis, this result did not change (data not shown).
The Dutch Cancer Society working group (consisting of medical specialists, social medicine specialists, and an economist) proposed in 2005 that the interval between diagnosis and treatment of cancer should be less than 15 working days . Based on our results from 2008, we can conclude that this advice seems far from feasible to adhere to in the southern Netherlands; 45% of colon cancer patients, 46% of rectal cancer patients with surgery as their initial treatment, and only 4% of patients with rectal cancer who underwent preoperative radiotherapy were treated within 15 working days in 2008. No shortening of the interval from diagnosis to treatment was seen between 2005 and 2008. Moreover, there was substantial variation in time to treatment among hospitals.
Little is published about time to treatment of CRC patients after diagnosis. However, in Denmark the median time interval from diagnosis to treatment was 9 days for colon cancer patients and 15 days for rectal cancer patients . The Danish fast-track recommendations, introduced in 1998, stated that the time interval between diagnosis and treatment should be less than 14 days. In a large population-based study of CRC patients diagnosed during 2001–2002, these recommendations were poorly met; 79% of the colon cancer patients and 47% of rectal cancer patients started treatment within 14 days after diagnosis . The UK government decided that from July 2000 all patients suspected by their general practitioner to have bowel cancer should be seen by a specialist within 2 weeks of the date of referral . Although cancer patients referred to a 2-week standard clinic were seen more quickly, it did not reduce the overall time to treatment or stage of disease at surgery . It is a good initiative to diagnose patients quickly, but it should be expanded to treatment to reduce the interval from diagnosis to start of treatment.
Although in recent years much attention has been paid to reducing the time to treatment in hospitals in The Netherlands, a shortening in time to treatment between 2005 and 2008 could not be observed. To decrease the interval between diagnosis and treatment, a project called Sneller Beter (Getting Well Faster) was started in November 2003 in The Netherlands funded by the Ministry of Health . One of the results of this project was a reduction of 30 days (from 69 to 39 days) between first visit to the hospital and start of treatment, usually due to more efficient process reorganization . In October 2004 two hospitals included in our study engaged in this project, which indeed resulted in quicker start of surgical treatment of colon cancer patients in 2005 compared to other hospitals in southern Netherlands. However, the advantage of these two hospitals had diminished in 2008. Another initiative to reduce time to treatment for CRC patients was the advice by the Dutch Cancer Society working group, which proposed in 2005 that all patients with cancer be treated within 15 working days. Therefore, we expected a decrease in time to treatment between 2005 and 2008. A possible explanation for the lack of improvement is the increased incidence of CRC and the probably more severe and complicated co-morbidities of the patients, which need to be managed before treatment can be started.
Imaging procedures for diagnostic assessment changed from largely abdominal US and thoracic radiography in 2005 to abdominal CT and thoracic radiography or thoracic CT in 2008. In addition, pelvic MRI was indicated for patients with rectal cancer in 2008. However, the results of our study indicate that it is unlikely that these changes are responsible for the lack of reduction in time to treatment; moreover, the waiting time for a CT scan was similar to the waiting time for abdominal US and thoracic radiography in 2005.
Most patients with CRC diagnosed in 2005 or 2008 in southern Netherlands, especially those with rectal cancer, did not receive treatment within 15 working days. This can be attributed mainly to hospital factors, including logistics and multidisciplinary consultation. There are no quantitative data about the influence of delay on prognosis in the literature. The interpretation of different studies regarding the association between delay and prognosis is hampered by factors such as tumor stage and differentiation as well as patient priority . Therefore, it is controversial to what degree the time to treatment contributes to stage of disease and therefore prognosis .
We did not find a positive association between a short time interval from diagnosis to treatment and survival. Therefore, it can be assumed that other factors not addressed in this analysis—such as priority of a patient for start of treatment—are more important for survival than time to treatment. However, this does not mean that time to treatment is not important for the patients. CRC is a life-threatening disease, and a long time interval from diagnosis to treatment might cause enormous stress for cancer patients. Such stress can result in deterioration of the patient’s health, condition, and well-being [10, 11], which may affect his or her physical condition, in turn resulting in more complications and a longer hospital stay. Therefore, reducing time to treatment can reduce health care costs. Furthermore, patients are generally more satisfied when they are treated soon after being diagnosed, which results in a better working environment for health care workers and increases the quality of the overall health care system. In addition, based on tumor biology it is important to keep time to treatment as short as possible. It can be assumed that in a large proportion of patients a long time to treatment results in deterioration of the prognosis. Therefore, the time from diagnosis to treatment should be minimized.
It seems far from feasible to follow exactly the current advice of the Dutch Cancer Society in most of our CRC patients. Therefore, we propose new advice based on the general guidelines for time to treatment in Dutch specialized care and the results of this study. Guidelines in Dutch specialized care reveal a time to treatment from diagnosis to start of clinical treatment within 35 days for 80% of patients and within 49 days for all patients . Cancer patients, however, suffer from a life-threatening disease and should definitely be treated within this time. Moreover, they experience a lot of stress and uncertainty during the time to treatment. Therefore, we propose that the time from diagnosis to start of treatment should be an interval of less than 20 working days. According to this rule, 58% of colon cancer patients, 50% of rectal cancer patients with surgery as their initial treatment, and 9% of rectal cancer patients who will undergo preoperative radiotherapy can meet the advised conditions.
Based on our results, there seems to be no reduction in time to treatment for patients with CRC in southern Netherlands between 2005 and 2008. Attention and effort should be paid to reducing time to treatment, which is especially valuable in view of the increasing proportion of patients with CRC due to the aging population and the introduction of population mass screening for CRC in the near future.
The authors thank the registration team of the Eindhoven Cancer Registry for their dedicated data collection. This study was carried out with a grant from the Dutch Cancer Society (IKZ 2006-3588).
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