World Journal of Surgical Oncology volume 10, Article number: 88 [2012] Cite this article
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Abstract
Background
The Comprehensive Geriatric Assessment [CGA] is an analytical tool increasingly implemented in clinical practice. Breast cancer is primarily a disease of older people; however, most evidence-based research is aimed at younger patients.
Methods
A systematic review of literature was carried out to assess the use of CGA in older breast cancer patients for clinical decision making. The PubMed, Embase and Cochrane databases were searched.
Results
A total of nine useful full text article results were found. Only five of these were exclusively concerned with early breast cancer; thus, studies involving a variety of cancer types, stages and treatments were accepted, as long as they included early breast cancer.The results comprised a series of low sources of evidence. However, all results shared a common theme: the CGA has a use in determining patient suitability for different types of cancer treatment and subsequently maximizing the patient’s quality of life.
Conclusions
There is not yet sufficient high level evidence to instate CGA guidelines as a mandatory practice in the management of breast cancer, due to the heterogeneity of available studies. More studies need to be conducted to cement current work on the benefits of the CGA. An area of particular interest is with regard to treatment options, especially surgery and chemotherapy, and identifying patients who may be suitable for these treatments.
Background
The Comprehensive Geriatric Assessment [CGA] is a multidisciplinary management tool aimed at determining an older person’s medical, psychological and functional capability [1].
Current evidence regarding breast cancer is mainly appropriate to younger patients [≤65 years] as older patients are often excluded from clinical trials [2, 3]. There is a need for further research focusing solely on older patients, or by stratification of patients by age, to allow for accurate treatment guidelines.
Disadvantages of CGA include additional time of implementation and limited consensus regarding methodology, evaluation and utilization [3]. Comprehensive geriatric assessment generally consists of a few major components, including: medical assessment of current diagnoses, medications and nutritional status; assessment of physical function; psychological evaluation to determine patient mentality and mood; and social and environmental assessments [1].
Currently, CGA is not used routinely in breast cancer patients worldwide; however, three main areas where CGA could potentially be implemented include the following.
Assessing fitness for treatment
Since age alone may not be an accurate predictor of treatment outcome [4], CGA could assist in distinguishing between those who should be given more invasive treatments after taking into consideration tumor type and different treatment options.
Assessing appropriateness of treatment
Greater comorbidity increases risk of death from causes other than breast cancer [5, 6]. Consequently, older patients may feel the benefit of surgery for breast cancer is not worthwhile, though with modern surgical and improved anesthetic techniques, fewer patients are now deemed unfit for surgery. On the other hand, there may be situations where non-operative therapies [for example, primary endocrine therapy] or even no treatment may be considered preferable due to a number of factors, some of which are related to frailty and/or co-morbidities.
Identifying deficits in health
There is the need for identification of patients with confounding health problems, social needs or other issues that may have otherwise remained undetected [7], which could impact on the management of the patient’s cancer.
Assessment in these areas allows establishment of targeted treatment plan specific to the individual patient, leading to potential benefits, such as optimization of medical treatment; improved diagnostic accuracy and prognosis; maintained function; and improved quality of life [QOL] [8–11].
The aim of this systematic literature review was to analyze current evidence regarding CGA in early breast cancer and highlight possible areas for further research.
Methods
Three online databases were searched for relevant literature, including full-text articles and abstracts. These were PubMed, Embase and the Cochrane Library, which cover most clinical studies with high level evidence. The following key words were used: comprehensive geriatric assessment, breast cancer, primary, operable. Studies published in English in the past 10 years [January 2001 to September 2011, as far as access was allowed] were included. Studies were excluded if: a form of geriatric assessment was not used in the methodology; there was no relation to cancer; or no early breast cancer patients were included [Figure 1].
Figure 1
Selection of articles for review.
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The search limits yielded nine full-text articles [Table 1].
Table 1 Results from full-text articles
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The following aspects of each study were examined: date of publication; context of result; level of evidence the study presented [Level]; number of participants [N]; lower age cut-off of participants; type of cancer the participants had; stage of cancer; uniqueness of study; overall findings.
Level of evidence was assessed using the system proposed by Harbour and Miller [21], where evidence is graded in terms of ‘quantity, quality, consistency, applicability, generalizability and impact.’ This system has been adopted by the National Institute of Clinical Excellence [22]: ‘Grading evidence and recommendations for public health interventions’, considering factors including evidence of efficacy, cost effectiveness, research design, relevance to the UK population and consistency.
Results
Nine full-text articles met our search criteria and all graded Level 3 for quality of evidence.
Despite the aim of this review to evaluate CGA in early operable breast cancer, we found a minimal number of studies being this specific, so all studies which contained any number of early breast cancer patients are discussed.
1. A pilot study by Extermann et al. [12], recruited patients from a single center aged ≥70 years with stage I or II breast cancer, after surgery. Baseline assessment was carried out and CGA completed on follow-up at three andsix months for 15 patients.
After CGA, cancer treatment was adjusted in four participants [36%]; adjuvant endocrine therapy was selected in two patients and adjuvant chemotherapy in one patient. No information is available on the fourth patient.
In addition, CGA addressed problems indirectly impacting on treatment, in a further six patients [55%], for example, patient cognition, social support and contra-indicating medications. These problems were effectively resolved.
This study is unique in using the Functional Assessment of Cancer Treatment-Breast [FACT-B] instrument to measure QOL, validated by Extermann et al.[12]. Measures used in other similar studies [Table 1] are also incorporated, allowing comparisons to be made.
Due to the small number of patients [N = 15], findings from this study may not be comparable to all older primary breast cancer patients. Thus, more patients need to be recruited from several centers, to verify findings.
2. A pilot study by Hurria et al. [13], consisting of 40 patients from two institutions, developed and measured use of a cancer-specific geriatric assessment. Patients aged ≥65 years, with breast, lung, colorectal carcinoma or lymphoma, receiving chemotherapy and fluent in English, were recruited. The CGA was carried out after diagnosis with an aim to assess practicability of administration.
Average completion time was 27 minutes [range 8 to 45 minutes] and 78% of the patients were able to complete with no assistance. Approximately 90% of participants were happy with the questionnaire length and 83% agreed it was easy to understand.
This study used a cancer-specific geriatric assessment and has proven this is feasible. Of the 40 participants, 25% had breast cancer. The percentage of patients with primary operable cancer is unknown; findings specific to these patients cannot be determined.
The potential of applying this cancer-specific geriatric assessment tool could be evaluated in a multicenter study.
3. A prospective study by Pope et al. [14] recruited 460 patients from centers in the UK, Italy, the Netherlands, Belgium and Japan. Patients aged ≥70 years, undergoing surgery for cancer were included. The majority of the questionnaire was carried out prior to surgery with additional measures dependent on the outcome of surgery, completed afterwards.
Pope et al.[14] used an extended version of standard CGA in their study: Pre-operative Assessment of Cancer in the Older [PACE]. In addition to the typical components of CGA, PACE includes supplementary information [Table 1] assessing overall functional performance.
As age of the patient increased, functional status decreased. There was less comorbidity among breast patients, when compared to those with gastro-intestinal tumors [GIT] and genito-urinary tumors [GUT]. This could be due to the large number of patients with early breast cancer included in this study, compared with GIT and GUT, which consisted of patients with more evenly distributed cancer stages; patients in later stages may experience more severe symptoms. Alternatively, this could be explained by gender; greater comorbidity may exist in the male rather than female population; breast cancer patients are mainly female and GIT and GUT patients largely male.
This is an excellent international study using a large number of patients. All patients were receiving surgery, however only 47% for breast cancer, 87.3% being primary cases. Results appropriate to GIT and GIT cannot be differentiated from breast tumors in this study.
4. Albrand and Terret [15] conducted a study in a single unit for consecutive patients aged ≥70 years, presenting with primary breast cancer. The study employed CGA to detect medical risks influencing cancer management at follow up, for example, 17% of the cohort wwas at risk of cognitive deterioration and 30% of depression. These factors may impinge on the ability to make treatment decisions, or increase susceptibility to adverse treatment effects. These patients often present with good performance status so may be inadequately prescribed treatment based on this alone.
This study suggests CGA components related to function, mentality, nutrition and comorbidity assist in determining fitness for oncological treatments. Comorbidity was measured using the Cumulative Index Rating Scale-Geriatric [CIRS-G], which is only used by this study and the study by Extermann et al.[12] and, therefore, these studies cannot be directly compared to studies routinely using the Charlson listing [23].
Similar studies need to be conducted on a larger scale in multiple centers. Comparison of participants to matched patients not receiving CGA would be useful to determine if patient factors are acknowledged due to CGA or by increasing awareness of the patient’s own disease status.
5. A prospective, transversal study by Gironés et al. [16] was conducted in a single center to assess comorbidity in breast cancer survivors. Participants were aged ≥70 years and had primary operable breast cancer. The questionnaire was administered to 91 patients at follow-up.
The study showed these older breast cancer survivors were able to maintain function, but had high comorbidity; consequently, long-term follow-ups are recommended for cancer survivors. Gironés et al.[16] suggest multidimensional geriatric assessment [MGA] ,which considers the most relevant aspects of standard CGA only; thus it is shorter.
Similarly, it would be useful if patients in this study were matched to patients not receiving CGA.
6. A cross-sectional observational study by Molina-Garrido and Guillen-Ponce [17] was concerned with the feasibility of CGA application in early breast cancer patients. Between 1 January 2007 and 31 December 2007, 41 consecutive patients aged ≥65 years were recruited from a single center. All patients completed the Barber Questionnaire [BQ], the Vulnerable Elderly Survey [VES-13] and CGA, prior to receipt of chemotherapy.
This CGA showed correlation to the briefer measures of BQ and VES-13; patients who had a score indicative of frailty on CGA were more likely to score a high level of frailty on BQ and VES-13. Therefore, there is potential to develop a screening tool for administration of CGA. This study suggests CGA should be implemented when VES-13 score is 10% was more frequent among the group of patients who had geriatric assessment before cancer treatment decision had been made [P = 0.031]. These patients were subsequently later taking fewer medications [P = 0.036] and more likely to received adjusted cancer treatment [P = 0.051].
Lazarovici et al.[19] conclude that weight loss was the main feature leading to geriatric referral. Conducting CGA before treatment decision had been made resulted in a more personalized individual treatment plan for these patients.
A large proportion of patients in this study [60%] had metastatic disease. Therefore, there might be some selection bias in this study, as patients with primary operable breast cancer alone would have been less likely to be referred to the geriatrician under the criteria used in this study, and thus would not have undergone CGA.
9. A further multicenter study by Hurria et al. [20] aimed to identify risk factors for chemotherapy toxicity in older breast cancer patients, assessing many diagnostic and prognostic factors, including use of CGA. A total of 500 patients aged ≥65 years attending an oncology outpatient appointment at one of seven participating centers, between November 2006 and November 2009, were recruited to the study. All patients had a diagnosis of cancer and were scheduled to receive adjuvant chemotherapy.
Geriatric assessment was carried out before chemotherapy began. This study uses the same form of cancer-specific CGA as previously mentioned in the earlier study by Hurria et al.[13].
Regarding geriatric assessment, functional status, level of social activity, poor hearing and assistance required to take own medications, were important factors when considering chemotherapy toxicity.
This study was conducted on a large scale with the aim to identify any general factors relevant to all cancer types and stages with regards to toxicity from chemotherapy. The study did not look at whether there were any additional or different factors based on particular cancer types or stages.
Discussion
Due to the heterogeneity of our sample papers, it is difficult to draw comparisons relating to our original aim of evaluating CGA use in early breast cancer.
The studies by Extermann et al.[12], Albrand and Terret [15], Gironés et al.[16] Molina- Garrido and Guillén-Ponce [17] and Barthélémy et al.[18] were solely concerned with primary operable breast cancer and, thus, have the greatest weight. However, these studies used a small [N