Unsuspected lymphoma diagnosed with use of biopsy during kyphoplasty

The role of routine transpedicular biopsies during kyphoplasty or vertebroplasty for vertebral compression fractures in the detection of malignant diseases: a systematic review

INTRODUCTION

Procedures like kyphoplasty or vertebroplasty have become an established treatment option for vertebral compression fractures (VCF). The transpedicular approach used during these procedures allows to take biopsies from the affected vertebral body. The aim of this study was to systematically summarize the existing knowledge on the value of routine transpedicular biopsies during kyphoplasty or vertebroplasty for vertebral compression fractures.

METHODS

A systematic review of the literature using PubMed/Medline databases with the goal of finding all articles describing the value trans-pedicular biopsies for detecting primary bone tumors, metastases, bone diseases, or spondylitis in patients with vertebral compression fractures was performed. Search terms were (*biopsy/ OR biops*.ti,ab.) AND (vertebral compression fracture*.ti,ab.).

RESULTS

Sixteen articles met the inclusion criteria, among these were six prospective and ten retrospective case series. Publication dates ranged from 2005 to 2020. A total of 3083 patients with 3667 transpedicular biopsies performed were included. Most biopsies confirmed osteoporosis as the dominant underlying pathology of VCFs. Transpedicular biopsies revealed an unexpected malignant diagnosis in 0.4-6% of the cases.

CONCLUSION

Routine transpedicular biopsies during kyphoplasty or vertebroplasty detect unexpected malignant lesions in 0.4-6% of the patients, even though the definition of "unexpected" varies among the analyzed studies. The evidence to support a routine biopsy is inconsistent. Nevertheless, routine biopsies can be considered, especially when sufficient preoperatvie imaging is not available or radiological findings are unclear.

The value of routine biopsy during percutaneous kyphoplasty for vertebral compression fractures

Objective

Percutaneous kyphoplasty (PKP) is now widely performed to treat VCF, which is usually caused by osteoporosis. Previous researches have reported unsuspected malignancies found by biopsy. However, the safety and cost-effective profiles of routine biopsy during PKP are unclear. The purpose of this study was to evaluate the feasibility of routine biopsy during PKP in treatment of VCF.

Methods

Ninety-three patients (September 2007–November 2010) undergoing PKP without biopsy were reviewed as the control group. One hundred and three consecutive patients (November 2010–September 2013) undergoing PKP with biopsy of every operated vertebral level were prospectively enrolled as the biopsy group. The rate of unsuspected lesions was reported, and the severe adverse events, surgical duration, cement leakage rate and pain control were compared between the two groups.

Results

No statistically significant differences were found between the two groups, regarding the severe adverse events, surgical duration, cement leakage rate and pain control. Four unsuspected lesions were found in the biopsy group, three of which were malignancies with a 2.9% (3/103) unsuspected malignancy rate. The economic analysis showed that routine biopsy was cost-effective in finding new malignancies comparing with a routine cancer screening campaign.

Conclusions

Routine biopsy during PKP was safe and cost-effective in finding unsuspected malignancies. We advocate routine biopsy in every operated vertebral level during PKP for VCF patients.

Utility of routine biopsy at vertebroplasty in the management of vertebral compression fractures: a tertiary center experience

OBJECT

The authors assess the utility of routine biopsy at vertebroplasty for vertebral compression fracture (VCF) as a tool in the early detection of malignancy in presumed benign VCF.

METHODS

A prospective observational study was conducted on a cohort of consecutive patients undergoing vertebroplasty over a 5-year period between April 2006 and March 2011 at the Royal London Hospital. Polymethylmethacrylate cement injection was used in every procedure. Intraoperative vertebral body biopsy was performed routinely at every level of VCF. Pain visual analog scale (VAS) scores, Oswestry Disability Index (ODI) scores, analgesic usage, and complications were recorded preoperatively and at 1 day, 1 week, 1 month, 6 months, and 1 year postoperatively.

RESULTS

A total of 202 levels were augmented in 147 patients. The most common levels augmented were T-12 (17%), L-1 (18%), and L-4 (10%). Analysis of 184 routine vertebral biopsies in 135 patients revealed that in 86 patients with presumed osteoporosis and no prior cancer diagnosis, 4 (4.7%) had a malignant VCF. In 20 known cancer patients presumed to be in remission, 2 (10%) had a malignant VCF. Routine vertebral biopsy returned an overall cancer diagnosis rate of 5.5% (6 of 109) when combining the 2 groups (patients with no prior history of cancer or cancer thought to be in remission). In these 6 patients, history, examination, laboratory tests, and preprocedure imaging all failed to suggest malignancy diagnosed at routine biopsy. Significant reductions in pain VAS and ODI scores were evident at Day 1 and were sustained at up to 1 year postoperatively (p < 0.001). They were not dependent on the level of fracture (T3-10, T11-L2, or L3-S1) (p > 0.05), number of levels treated (single level, 2 levels, or > 2 levels) (p > 0.05), or etiology of VCF (p > 0.05). The complication rate was 6% (9 of 147). There were 5 deaths, none of which were directly related to surgery.

CONCLUSIONS

Routine vertebral biopsy performed at vertebroplasty may demonstrate cancer-related VCFs in unsuspected patients with no previous cancer diagnosis or active malignancy in patients previously thought to be in remission. This early diagnosis of cancer or relapsed disease will play an important role in expediting patients' subsequent cancer management. In cases of multiple-level VCF, the authors advocate biopsy at each level to maximize the diagnostic yield from the specimens and to avoid missing a malignancy at a single level.

Histological evaluation of bone biopsy results during PVP or PKP of vertebral compression fractures

Percutaneous vertebroplasty (PVP) or percutaneous kyphoplasty (PKP) is utilized for the treatment of vertebral compression fractures (VCFs). The present study was conducted to evaluate biopsy results obtained from VCFs during PVP or PKP. Between January 2003 and December 2011, 692 vertebral body biopsies were obtained from 546 patients (442 females and 104 males; mean age, 72.3 years), who underwent PVP or PKP for treatment of VCFs. A history of malignancy was identified in 44 patients. Histological/immunohistochemical evaluations were performed by experienced pathologists and 89.9% of biopsies obtained from 546 patients were suitable for histological/immunohistochemical evaluation. The biopsy results of 398 patients were in good agreement with the diagnosis of osteoporotic VCFs. Among the 44 patients with a history of malignancy, malignancy was identified in 25 patients, while osteoporosis was identified in 16 patients. Biopsies of the other 3 patients were not suitable for pathological examination. There were only 2 patients with previously undiagnosed malignancy. One patient was diagnosed with multiple myeloma, while another patient was diagnosed with metastatic carcinoma. In the present study, the rate of unsuspected malignancy was 0.4%. No symptomatic complications occurred as a result of biopsy. The results indicate that biopsy is safely performed during PVP or PKP and it is an efficacious procedure that verifies the pathological process and assists in identifying previously unsuspected processes responsible for VCFs. We recommend obtaining the biopsy of every collapsed vertebral body during PVP or PKP procedures.

Sensitivity, specificity and accuracy of magnetic resonance imaging for differentiating vertebral compression fractures caused by malignancy, osteoporosis, and infections

PURPOSE

To evaluate the sensitivity, specificity and accuracy of various magnetic resonance imaging (MRI) features in differentiating vertebral compression fractures caused by malignancy, osteoporosis, and infections.

METHODS

35 men and 45 women aged 40 to 78 (mean, 59) years underwent MRI to assess the underlying pathology of already diagnosed vertebral compression fractures (n=152). The interval from presentation to imaging ranged from 7 to 95 (mean, 62) days. MRI features of each vertebral compression fracture were assessed. The sensitivity, specificity, and accuracy for each of the MRI features were calculated. Association between each MRI feature and various underlying pathologies (malignancy, osteoporosis, and infections) of vertebral compression fractures was evaluated.

RESULTS

Regarding these 80 patients, the MRI diagnosis was correct in 78 and inconclusive in 2 with malignancy. MRI features suggestive of malignant fractures were a convex posterior border of the vertebral body, pedicle involvement, posterior neural element involvement, an epidural mass, a paraspinal mass, and other spinal metastases. MRI features suggestive of osteoporotic fractures were retropulsion, low signal intensity band, spared normal marrow signal intensity, and the fluid sign. MRI features suggestive of infective fractures were contiguous vertebral involvement, end plate disruption, disc involvement, and paraspinal and epidural abscesses.

CONCLUSION

Combination of several MRI features can provide clues to differentiate between malignant, osteoporotic, and infective vertebral compression fractures.

Coaxial biopsy during percutaneous vertebroplasty in patients with presumed osteoporotic vertebral compression fractures: retrospective review of biopsy results

PURPOSE

This study retrospectively analysed the results of biopsies obtained during percutaneous vertebroplasty (PVP) in patients with presumed osteoporotic vertebral compression fractures, with a view to highlighting the importance of coaxial biopsy in determining the aetiology of vertebral fractures and planning subsequent treatment.

MATERIALS AND METHODS

Between November 2003 and March 2009, 98 patients (78 women; 20 men) with a clinical and imaging suspicion of osteoporotic vertebral compression fractures underwent coaxial biopsy in conjunction with PVP of the thoracic and lumbar vertebrae. Mean age at the time of the procedure was 72.6 years. A pathologist interpreted all the biopsy samples.

RESULTS

In 83 patients, the biopsy results were consistent with the presumed osteoporotic aetiology. In two patients, a malignancy was identified. Biopsy samples from 13 patients were considered insufficient or unsuitable by the pathologist for evaluation.

CONCLUSIONS

Despite the number of biopsy samples considered insufficient or unsuitable, coaxial biopsy during PVP is useful in verifying the presumed aetiology of vertebral compression fractures, which is often unclear on the basis of clinical and imaging examinations. It is therefore both convenient and advisable to perform a vertebral coaxial biopsy in all patients undergoing a PVP.

Routine needle biopsy during vertebral augmentation procedures. Is it necessary?

Vertebral augmentation procedures are currently widely performed to treat vertebral compression fractures. The purpose of this study was to determine the frequency of underlying previously unrecognized etiology in a consecutive series of patients undergoing kyphoplasty to treat vertebral compression fractures. A prospective histological evaluation of vertebral body biopsy specimens from presumed osteoporotic vertebral compression fractures were performed in order to identify aforementioned causes. Over a 2-year period, vertebral body biopsies from 154 vertebral levels were performed in 75 patients undergoing kyphoplasty for vertebral compression fractures. All patients received a preoperative workup that included plain radiographs, MRI, whole body bone scan, and laboratory examinations. Bone specimens were obtained from affected vertebral bodies and submitted for histologic evaluation to identify the prevalence of an underlying cause. All specimens demonstrated fragmented bone with variable amounts of unmineralised bone, signs of bone-remodeling and/or fracture-healing. In 11 patients underlying pathology other than osteoporosis was identified (prostate cancer, 1; pancreatic cancer, 1; colon cancer, 1; breast cancer, 2; multiple myeloma, 3; leukemia, 1; and lung cancer, 2). In all but one patient the results of the biopsy confirmed the diagnosis suspected from the preoperative workup. For the last patient, namely the one with pancreatic cancer, the workup did not identify the origin of the primary tumor, although the patient was considered to have a compression fracture secondary to metastatic disease of unknown origin, the vertebral biopsy suggested the presence of adenocarcinoma which eventually was proven to be pancreatic cancer. In augmentation procedures for vertebral compression fractures, bone biopsy should be reserved for the patients where the preoperative evaluation raises the suspicion of a non-osteoporotic etiology.

The value of routinely performing a bone biopsy during percutaneous vertebroplasty in treatment of osteoporotic vertebral compression fractures

STUDY DESIGN

A retrospective histologic evaluation of biopsies obtained during percutaneous vertebroplasty (PVP) procedures as treatment for presumed osteoporotic vertebral compression fractures.

OBJECTIVE

To determine the rate of unsuspected malignancy in bone biopsies of patients undergoing PVP for osteoporotic vertebral compression fractures.

SUMMARY OF BACKGROUND DATA

Most vertebral compression fractures, which result from minimal, or no trauma have osteoporosis as underlying cause. The diagnosis osteoporosis is based on clinical and radiologic findings. Even in patients with proven osteoporosis it is not always the true cause of the fractures. In literature, outcomes of bone-biopsies obtained during vertebroplasty have been described with inconsistent percentages of unexpected malignancy.

METHODS

To determine the rate of unsuspected malignancy, 78 biopsies were obtained from 78 patients (18 male; 60 female; mean age, 73 years). The histologic diagnoses of vertebral body biopsy specimens were analyzed in a retrospective study.

RESULTS

Seventy-one biopsies (91%) obtained from 71 patients, were suitable for histologic evaluation. Seven biopsies (9.0%) could not be interpreted as a result of suboptimal quality biopsy material. The population included 10 patients (13%) with a history of malignancy, in this group no malignancy was found in the bone biopsies. In 3 patients (3.8% of all biopsies) previously undiagnosed malignancies, 2 multiple myeloma stage IIa and 1 chondrosarcoma grade I, were found.

CONCLUSION

Obtaining bone biopsies during PVPs does not lead to increased morbidity and can verify the pathologic process underlying the vertebral compression fractures. Since this study showed an unsuspected malignancy rate of 3.8%, we recommend routine obtainment of a vertebral body bone biopsy, preferably using a biopsy needle with a diameter larger than 14 Gauge (>2.1 mm/0.083 inch), during every PVP procedure.

Management of vertebral re-fractures after vertebroplasty in osteoporotic patients

SUMMARY

This study illustrates the usefulness of vertebral biopsy in osteoporotic patients previously treated with vertebroplasty (VP) who present at follow-up with a new fracture in a vertebral soma adjacent or distant from the collapsed vertebral body. Five hundred and fifty patients with osteoporotic vertebral collapse underwent a minimally invasive treatment with vertebroplasty (VP) for a total of 980 vertebral bodies. The approach was unipedicular in 520 patients and bipedicular in 30. Only cases with unclear findings at MR or CT (23 patients) were scheduled for a vertebral biopsy before VP treatment. The biopsy results were positive for haematological disease in only eight patients. A vertebral biopsy was carried out during re-treatment with VP in all patients who presented a vertebral refracture in the three month follow-up at a site adjacent to or distant from the previously treated vertebra (21 patients). We have found new fractures of adjacent vertebrae in 15 patients and new fractures of distant vertebrae in 16 patients at three month follow-up examination. Five of the 31 cases (16%) of spinal refracture, where during vertebroplasty treatment a bone biopsy and a sternal medullary aspiration had been carried out, an anatomopathological response to multiple myeloma was responsible for the refracture. It is useful to perform a spinal bone biopsy during re-treatment of the vertebroplasty procedure to rule out multiple myeloma or other disease as the cause of the new collapse in patients with osteoporotic disease presenting a new vertebral fracture in an adjacent or distant site from the previously collapsed vertebral body.

Biopsy of osteoporotic vertebral compression fractures during kyphoplasty: unsuspected histologic findings of chronic osteitis without clinical evidence of osteomyelitis

STUDY DESIGN

Retrospective case series.

OBJECTIVE

To evaluate biopsy results obtained during vertebral augmentation (kyphoplasty) for presumed/confirmed osteoporotic vertebral compression fractures (VCFs).

SUMMARY OF BACKGROUND DATA

Kyphoplasty to augment vertebrae in osteoporotic VCFs is well established. When VCF etiology is in question, bone biopsy can be performed at that time. Biopsy results, however, can be misleading without careful clinical correlation.

METHODS

From July 2003 to July 2006, 94 vertebral biopsies were obtained from 66 patients during kyphoplasty for VCFs. Average patient age was 73 (range, 22-99), including 47 females and 19 males. There were 48 one-level, 17 two-level, and 4 three-level biopsies. Biopsy levels included: T6 (3), T7 (7), T8 (7), T9 (3), T10 (3), T11 (8), T12 (21), L1 (18), L2 (13), L3 (8), L4 (2), L5 (1). Histologic/immunohistochemical evaluations were performed.

RESULTS

All specimens showed features of fracture in various stages of bony healing. Initially, 13 of 66 (19.7%) cases were read by a surgical pathologist as chronic inflammation, with 6 having features suggestive of chronic osteomyelitis, including polyclonal plasma cells, necrosis, and lymphoplasmacytic infiltrate. For this study, these biopsies were evaluated by an independent surgical pathologist (N.W.). Re-review showed 7 of the 13 cases were consistent with osteoporotic VCF healing in various stages with adjacent trilineage hematopoiesis. Six of 13 (46%), were read as containing fragmented bony spicules, fibrotic and fatty marrow, lymphoplasmacytic inflammation, and aggregates of mature, polyclonal plasma cells, suggesting the possibility of chronic osteomyelitis. However, at average follow-up of 37 months (range, 21-57 months), no patient demonstrated clinical and/or laboratory evidence of infection. Additionally, biopsies from 4 patients confirmed suspected or unsuspected malignancy, or confirmed no recurrence of malignant disease.

CONCLUSION

Patients undergoing first-time vertebral augmentation should be considered for vertebral biopsy. Tissue examination is useful and may reveal pathologic fracture or possible infection. However, if infection is reported, clinical and laboratory correlation are important to make a diagnosis of osteomyelitis.

New techniques for cartilage magnetic resonance imaging relaxation time analysis: texture analysis of flattened cartilage and localized intra- and inter-subject comparisons

MR relaxation time measurements of knee cartilage have shown potential to characterize knee osteoarthritis (OA). In this work, techniques that allow localized intra- and inter-subject comparisons of cartilage relaxation times, as well as cartilage flattening for texture analysis parallel and perpendicular to the natural cartilage layers, are presented. The localized comparisons are based on the registration of bone structures and the assignment of relaxation time feature vectors to each point in the bone-cartilage interface. Cartilage flattening was accomplished with Bezier splines and warping, and texture analysis was performed with second-order texture measures using gray-level co-occurrence matrices (GLCM). In a cohort of five normal subjects the performance and reproducibility of the techniques were evaluated using T1rho maps of femoral knee cartilage. The feasibility of creating a mean cartilage relaxation time map is also presented. Successful localized intra- and inter-subject T1rho comparisons were obtained with reproducibility similar to that reported in the literature for regional T2. Improvement of the reproducibility of GLCM features was obtained by flattening the T1rho maps. The results indicate that the presented techniques have potential in longitudinal and population studies of knee OA at different stages of the disease.

Retrospective review of biopsy results following percutaneous fixation of vertebral compression fractures

BACKGROUND

Percutaneous vertebral body fixation has been found to provide pain relief and restoration of function for patients with compression fractures. Despite the prevalence of osteoporosis, there are a variety of aetiologies, such as lymphoma, myeloma or metastatic disease that may be responsible for the condition. In these instances, vertebral body biopsy can play an important role in determining fracture aetiology and assist in initiating concurrent medical treatment.

MATERIALS AND METHODS

Between 2002 and 2005, 80 vertebral body biopsies were performed in conjunction with percutaneous augmentation procedures on 50 patients at our teaching institution. Eleven biopsies were performed during vertebroplasty and 69 were performed during kyphoplasty. The mean age at the time of procedure was 75.7 years. Eight patients were male and 42 were female. A pathologist interpreted all biopsy samples and all charts were reviewed examining past history, diagnoses prior to compression fracture, biopsy results and post-op conditions that developed or were diagnosed after surgery.

RESULTS

All patients healed their compression fractures following surgery and no complications were experienced. Eleven patients had a diagnosis of osteoporosis prior to vertebral fracture, while 8 patients had a malignant condition initially suspected as being responsible for the compression fracture. Malignancy was identified in 4 patients, 3 of whom did not previously have such a diagnosis. In an additional 6 cases the suspected aetiology behind vertebral compression fracture was not confirmed by pathology.

DISCUSSION

This study found a 20% prevalence of malignancy in our population, which is higher than other reports in the literature. Eight percent of the patients in this study were ultimately found to have a malignant aetiology behind their compression fracture, while in 18% of the cases the presumed aetiology was not confirmed on pathological examination. Compression fractures can be one of the most common manifestations of osteoporosis, but a variety of other conditions, including neoplastic processes may also be responsible. As a result, we recommend obtaining a vertebral body biopsy prior to every vertebral augmentation procedure.