High-Resolution Sonography as an Additional Diagnostic and Prognostic Tool to Monitor Disease Activity in Leprosy: A Two-Year Prospective Study.

PURPOSE: Early diagnosis and treatment of leprosy and leprosy reactions are essential to prevent stigmatizing deformities and disability. Although the incidence of leprosy has decreased enormously, grade 2 disability due to nerve injury has remained the same. New tools are needed to better diagnose and monitor leprosy reactions and associated neuritis and this study assessed whether high-resolution sonography (HRUS) can be used as such a tool. MATERIALS AND METHODS: During a prospective follow-up period of 2 years at regular intervals, we performed clinical examination to assess sensory and motor function and HRUS of the four main peripheral nerves in 57 patients, of whom 36 were with reactions and 21 were without reactions. Normative data of the cross-sectional area (CSA) of these nerves were obtained from 55 healthy subjects (HS). Color Doppler (CD) was used to study blood flow in the nerves. RESULTS: At the baseline visit and during follow-up, all four nerves were significantly thicker in patients with leprosy reactions in comparison to HS (p < 0.0001) and to a lesser extent also in comparison to patients without reactions ranging from a p-value of < 0.05 to < 0.0001 in the different nerves tested. During follow-up, the nerve size did not change significantly in patients without reactions, while it decreased significantly in patients with reactions. At baseline, endoneural blood flow was present only in patients with reactions. This occurred in 20 of the 36 (55 %) patients (49 nerves) and decreased to only 1 patient (2.7 %) at the end of the follow-up period. CONCLUSION: This prospective study demonstrates the ability of HRUS to monitor disease activity and the effect of treatment in patients with leprosy reactions by determining changes in nerve size and vascularity, which are indicators of peripheral nerve involvement and damage.

Cytokine and protein markers of leprosy reactions in skin and nerves: baseline results for the North Indian INFIR cohort.

BACKGROUND: Previous studies investigating the role of cytokines in the pathogenesis of leprosy have either been on only small numbers of patients or have not combined clinical and histological data. The INFIR Cohort study is a prospective study of 303 new multibacillary leprosy patients to identify risk factors for reaction and nerve damage. This study characterised the cellular infiltrate in skin and nerve biopsies using light microscopic and immunohistochemical techniques to identify any association of cytokine markers, nerve and cell markers with leprosy reactions. METHODOLOGY/PRINCIPAL FINDINGS: TNF-α, TGF-ß and iNOS protein in skin and nerve biopsies were detected using monoclonal antibody detection immunohistochemistry techniques in 299 skin biopsies and 68 nerve biopsies taken from patients at recruitment. The tissues were stained with hematoxylin and eosin, modified Fite Faraco, CD68 macrophage cell marker and S100. CONCLUSIONS/SIGNIFICANCE: Histological analysis of the biopsies showed that 43% had borderline tuberculoid (BT) leprosy, 27% borderline lepromatous leprosy, 9% lepromatous leprosy, 13% indeterminate leprosy types and 7% had no inflammation. Forty-six percent had histological evidence of a Type 1 Reaction (T1R) and 10% of Erythema Nodosum Leprosum. TNF-α was detected in 78% of skin biopsies (181/232), iNOS in 78% and TGF-ß in 94%. All three molecules were detected at higher levels in patients with BT leprosy. TNF-α was localised within macrophages and epithelioid cells in the granuloma, in the epidermis and in dermal nerves in a few cases. TNF-α, iNOS and TGF-ß were all significantly associated with T1R (p<0.001). Sixty-eight nerve biopsies were analysed. CD68, TNF-α and iNOS staining were detectable in 88%, 38% and 28% of the biopsies respectively. The three cytokines TNF-α, iNOS and TGF-ß detected by immunohistochemistry showed a significant association with the presence of skin reaction. This study is the first to demonstrate an association of iNOS and TGF-ß with T1R.

Analysis of antibody and cytokine markers for leprosy nerve damage and reactions in the INFIR cohort in India.

BACKGROUND: The ILEP Nerve Function Impairment in Reaction (INFIR) is a cohort study designed to identify predictors of reactions and nerve function impairment (NFI) in leprosy. AIM OF THE STUDY: Antibodies to mycobacteria, nerve components and serum cytokine were measured as potential markers for their possible association with reactions and NFI. PATIENTS AND METHODS: 303 newly diagnosed leprosy patients from two centres in North India were enrolled. Antibodies to PGL-1, LAM (IgG1 and IgG3), ceramide, S100 and TNFα levels were measured using ELISA techniques. RESULTS: S-100, PGL IgG and IgM antibody levels were lowest in patients with BT leprosy and highest in patients with lepromatous leprosy. LAM IgG1 and LAM IgG3 antibody levels were highest in patients with BL leprosy. Ceramide antibody levels were not correlated with type of leprosy. Levels of all the antibodies tested and TNF α were lowest in patients with only skin reaction. PGL IgM antibody levels were elevated in patients with skin reactions and NFI. Old sensory NFI is associated with significant elevation of PGL IgG, LAM IgG and S100 antibody levels. CONCLUSION: These results reveal that the antibody response to mycobacterial antigens, nerve antigens and cytokines are in a dynamic flux and could collectively contribute to NFI in leprosy. The association of multiple markers with old NFI may indicate the contribution of different pathological processes.