Elsevier

Radiotherapy and Oncology

Volume 163, October 2021, Pages 55-67
Radiotherapy and Oncology

Review Article
Advances in radiotherapy in bone metastases in the context of new target therapies and ablative alternatives: A critical review

https://doi.org/10.1016/j.radonc.2021.07.022Get rights and content

Highlights

  • In uncomplicated BM, SF RT produces similar overall and complete response rates to MF, butit is associated with a higher retreatment rate.

  • Complicated bone metastases can be defined as the presence of impending or existing pathologic fracture, a major soft tissue component, existing spinal cord or cauda equina compression, and neuropathic pain.

  • There are contradictory outcomes in studies reporting pain control rates and time to pain reduction when comparing stereotactic ablative radiotherapy versus conventional fractions.

  • The ideal ablative radiotherapy schedule to treat BM remains to be defined.

  • Physical activity and rehabilitation should be included in the multidisciplinary treatment of BM, with specific adaptations to improve the patient’s condition and minimise risks.

Abstract

In patients with bone metastases (BM), radiotherapy (RT) is used to alleviate symptoms, reduce the risk of fracture, and improve quality of life (QoL). However, with the emergence of concepts like oligometastases, minimal invasive surgery, ablative therapies such as stereotactic ablative RT (SABR), radiosurgery (SRS), thermal ablation, and new systemic anticancer therapies, there have been a paradigm shift in the multidisciplinary approach to BM with the aim of preserving mobility and function survival.

Despite guidelines on using single-dose RT in uncomplicated BM, its use remains relatively low. In uncomplicated BM, single-fraction RT produces similar overall and complete response rates to RT with multiple fractions, although it is associated with a higher retreatment rate of 20% versus 8%.

Complicated BM can be characterised as the presence of impending or existing pathologic fracture, a major soft tissue component, existing spinal cord or cauda equina compression and neuropathic pain. The rate of complicated BM is around 35%. Unfortunately, there is a lack of prospective trials on RT in complicated BM and the best dose/fractionation regimen is not yet established.

There are contradictory outcomes in studies reporting BM pain control rates and time to pain reduction when comparing SABR with Conventional RT. While some studies showed that SABR produces a faster reduction in pain and higher pain control rates than conventional RT, other studies did not show differences. Moreover, the local control rate for BM treated with SABR is higher than 80% in most studies, and the rate of grade 3 or 4 toxicity is very low. The use of SABR may be preferred in three circumstances: reirradiation, oligometastatic disease, and radioresistant tumours. Local ablative therapies like SABR can delay change or use of systemic therapy, preserve patients' Qol, and improve disease-free survival, progression-free survival and overall survival. Moreover, despite the potential benefit of SABR in oligometastatic disease, there is a need to establish the optial indication, RT dose fractionation, prognostic factors and optimal timing in combination with systemic therapies for SABR.

This review evaluates the role of RT in BM considering these recent treatment advances. We consider the definition of complicated BM, use of single and multiple fractions RT for both complicated and uncomplicated BM, reirradiation, new treatment paradigms including local ablative treatments, oligometastatic disease, systemic therapy, physical activity and rehabilitation.

Section snippets

Methods

Between January 2021 and June 2021 a review was performed using Medline with the terms: bone metastases and radiotherapy. Specific research questions were approached by searching for combinations of the following keywords: stereotactic body radiotherapy, SBRT, stereotactic ablative RT, SABR, cyberknife, stereotactic radiosurgery, SRS, spinal metastases, non-spine bone metastases, spinal cord compression, prognostication, systemic treatment, chemotherapy, targeted therapy, hormonal therapy,

Radiotherapy in uncomplicated BM

Over the last twenty years, a number of prospective randomised trials have been conducted with regards to the optimal RT dose fractionation schedule to palliate pain in uncomplicated BM, with similar pain relief response rates for single or multiple fractions RT in both intention-to-treat and per protocol assessable cohorts [7], [8], [9]. A systematic review and meta-analysis, with data from 29 randomized trials, found that the overall response rate was 61% for single-fraction RT (1867/3059

Radiotherapy in complicated BM

The American Society for Radiation Oncology (ASTRO) BM consensus recognizes the need to define complicated BM more appropriately to improve the BM therapy decision process [15]. The absence of a clear definition of complicated BM makes it difficult to determine which BM patients the prospective randomized trial results apply to. Despite some controversies, complicated BM might be described as BM with the following features: impending or existing pathologic fracture, a major soft tissue

Reirradiation

Reirradiation is more common after treatment with single fraction RT than in patients treated with multiple fractions RT [9]. These differences in the retreatment rate could represent a greater predisposition to repeat RT after single RT than a real need. In addition to the higher reirradiation rate, some studies suggest that patients treated with single dose RT could have more bone fractures and it has been argued that fractionated RT courses are preferable for patients with longer predicted

Systemic anti-cancer therapy and oligometastases

Systemic anti-cancer treatment of metastatic cancer is becoming more targeted and precision-based with recent advances in molecular targeted therapies, novel hormonal agents and immunotherapy making chemotherapy no longer the only option for patients with advanced malignancies [15]. Selection of appropriate personalized systemic treatment strategies for metastatic disease is based on identification of actionable targets including EGFR, ALK, ROS1, and TREK-fusion in NSCLC; estrogen receptor,

Toxicities of combining SABR with systemic treatment

Toxicity data for concurrent treatment of SABR and systemic treatment is limited and mostly reported for cranial SABR. Concurrent treatment is mostly well tolerated in cranial SABR, but higher rates of severe toxicity were observed when combined with BRAF-inhibitors [53]. In a systematic review, the authors reported a scarce literature on extra-cranial SABR but a potential risk of increased toxicity when SABR is combined with EGFR-targeting tyrosine kinase inhibitor, and bevacizumab, which was

Physical activity, exercise, and rehabilitation in patients with BM

When treating pain related to BM, physical activity, exercise, physical medical modalities (eg. transcutaneous electrical nerve stimulation) are often perceived as contraindicated due to possible pathological fractures and spinal cord compression [135]. Regular physical activity, exercise and other physical modalities should be incorporated into the multidisciplinary and multimodality treatment of BM. Modalities increasing local blood flow like ultrasound therapy, thermotherapy, massage, and

Discussion

The decision making process in the management of BM remains complex. Several publications have described strategies to guide clinicians on the management of spinal metastases including the NOMS framework, the LMNOP system, and the integrated multidisciplinary algorithm by the International Spine Oncology Consortium group [153], [154], [155]. The initial assessment algorithm for patients with spinal metastases evaluates patients based on 4 aspects: performance status, systemic burden of disease,

Conclusion

In conclusion, BM is a common complication in patients suffering from cancer and it is estimated that around 50% of patients develop BM in the course of their disease. Complications, such as pain and fracture lead to poor QoL and reduce survival [1], [2], [3]. Over recent years, various advances in the management of BM have been proposed to optimise management in the light of greater understanding of the mechanisms involved. The growing use of systemic therapies may play an important role in

Conflict of interest

None.

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