Gene Expression Profiles in Spinal Tuberculosis. (SpinalTBX)

In the Spinal TB X cohort, the investigators aim to describe the clinical phenotype of spinal TB using whole body PET/CT and identify a specific gene expression profile for the different stages of dissemination and compare findings to previously described signatures for latent and active pulmonary TB. A blood-based test for spinal TB would lead to earlier diagnosis and treatment in all settings globally and improve treatment outcome of this devastating disease.

1. The investigators hypothesize that spinal TB may present as two clinical phenotypes: isolated spinal TB with no additional lesion on whole body PET/CT and disseminated spinal TB with a spinal lesion plus an additional extraspinal lesion on whole body PET/CT.
2. The investigators hypothesize that a specific gene expression profile may distinguish between the two clinical entities above and allows for treatment monitoring during antimicrobial therapy ("personalized medicine")
3. The investigators hypothesize that whole body PET/CT is superior to MRI in diagnosing spinal and extraspinal TB.

Primary objective

To describe the clinical phenotype of spinal TB using whole body PET/CT and to identify mRNA gene expression profiles of isolated spinal TB versus disseminated spinal TB stratified by HIV status.

Secondary objectives

1. To identify the distributive patterns of suspected spinal TB using two imaging modalities: MRI and PET/CT.
2. To analyse the genomes of Mtb. extracted from different sites of the body (if available) and to identify differences in their genome regarding SNPs and drug sensibility.
3. To analyse imaging findings using PET/CT at treatment initiation, 6 months, and 12 months to better understand treatment outcome using PET/CT.
4. To compare imaging findings on PET/CT and MRI at baseline to evaluate the role of PET/CT in spinal TB diagnostics (virtual biopsy).

Design

This is a prospective cohort study to develop new diagnostics for isolated spinal TB versus disseminated spinal TB and treatment monitoring. Furthermore, this study investigates genetic variability in spinal TB and its distributional pattern. After MRI-confirmation of spinal TB according to local algorithms, patients will be included in the study. At baseline, clinical examination as well as blood collection will be performed. Every patient with no confirmed HIV will undergo HIV-testing. Sputum will be collected and screening for diabetes and pregnancy will be completed. Whole-body PET/CTs will be performed at 0 months, 6 months, and 12 months. Spinal biopsies will be gathered if surgery is being performed. Samples of the sites of disease will be acquired if applicable and TB culture as well as GeneXpert will be performed.

Recruitment

Patients with newly diagnosed spinal TB at the Department of Orthopaedics, Groote Schuur Hospital, Cape Town, South Africa.