Generic selectors
Exact matches only
Search in title
Search in content
Post Type Selectors
Search in posts
Search in pages
Filter by Categories
15th National Conference of the IAOMFP, Chennai, 2006
Abstract
Abstracts from current literature
Acne in India: Guidelines for management - IAA Consensus Document
Addendum
Announcement
Art & Psychiatry
Article
Articles
Association Activities
Association Notes
Award Article
Book Review
Brief Report
Case Analysis
Case Letter
Case Letters
Case Notes
Case Report
Case Reports
Clinical and Laboratory Investigations
Clinical Article
Clinical Studies
Clinical Study
Commentary
Conference Oration
Conference Summary
Continuing Medical Education
Correspondence
Corrigendum
Cosmetic Dermatology
Cosmetology
Current Best Evidence
Current Issue
Current View
Derma Quest
Dermato Surgery
Dermatopathology
Dermatosurgery Specials
Dispensing Pearl
Do you know?
Drug Dialogues
e-IJDVL
Editor Speaks
Editorial
Editorial Remarks
Editorial Report
Editorial Report - 2007
Editorial report for 2004-2005
Errata
Erratum
Focus
Fourth All India Conference Programme
From Our Book Shelf
From the Desk of Chief Editor
General
Get Set for Net
Get set for the net
Guest Article
Guest Editorial
History
How I Manage?
IADVL Announcement
IADVL Announcements
IJDVL Awards
IJDVL AWARDS 2015
IJDVL Awards 2018
IJDVL Awards 2019
IJDVL Awards 2020
IJDVL International Awards 2018
Images in Clinical Practice
Images in Dermatology
In Memorium
Inaugural Address
Index
Knowledge From World Contemporaries
Leprosy Section
Letter in Response to Previous Publication
Letter to Editor
Letter to the Editor
Letter to the Editor - Case Letter
Letter to the Editor - Letter in Response to Published Article
LETTER TO THE EDITOR - LETTERS IN RESPONSE TO PUBLISHED ARTICLES
Letter to the Editor - Observation Letter
Letter to the Editor - Study Letter
Letter to the Editor - Therapy Letter
Letter to the Editor: Articles in Response to Previously Published Articles
Letters in Response to Previous Publication
Letters to the Editor
Letters to the Editor - Letter in Response to Previously Published Articles
Letters to the Editor: Case Letters
Letters to the Editor: Letters in Response to Previously Published Articles
Media and news
Medicolegal Window
Messages
Miscellaneous Letter
Musings
Net Case
Net case report
Net Image
Net Images
Net Letter
Net Quiz
Net Study
New Preparations
News
News & Views
Obituary
Observation Letter
Observation Letters
Oration
Original Article
ORIGINAL CONTRIBUTION
Original Contributions
Pattern of Skin Diseases
Pearls
Pediatric Dermatology
Pediatric Rounds
Perspective
Presedential Address
Presidential Address
Presidents Remarks
Quiz
Recommendations
Regret
Report
Report of chief editor
Report of Hon : Treasurer IADVL
Report of Hon. General Secretary IADVL
Research Methdology
Research Methodology
Resident page
Resident's Page
Resident’s Page
Residents' Corner
Residents' Corner
Residents' Page
Retraction
Review
Review Article
Review Articles
Reviewers 2022
Revision Corner
Self Assessment Programme
SEMINAR
Seminar: Chronic Arsenicosis in India
Seminar: HIV Infection
Short Communication
Short Communications
Short Report
Snippets
Special Article
Specialty Interface
Studies
Study Letter
Study Letters
Supplement-Photoprotection
Supplement-Psoriasis
Symposium - Contact Dermatitis
Symposium - Lasers
Symposium - Pediatric Dermatoses
Symposium - Psoriasis
Symposium - Vesicobullous Disorders
SYMPOSIUM - VITILIGO
Symposium Aesthetic Surgery
Symposium Dermatopathology
Symposium-Hair Disorders
Symposium-Nails Part I
Symposium-Nails-Part II
Systematic Review and Meta-Analysis
Systematic Reviews and Meta-analyses
Systematic Reviews and Meta-analysis
Tables
Technology
Therapeutic Guideline-IADVL
Therapeutic Guidelines
Therapeutic Guidelines - IADVL
Therapeutics
Therapy
Therapy Letter
Therapy Letters
View Point
Viewpoint
What’s new in Dermatology
Generic selectors
Exact matches only
Search in title
Search in content
Post Type Selectors
Search in posts
Search in pages
Filter by Categories
15th National Conference of the IAOMFP, Chennai, 2006
Abstract
Abstracts from current literature
Acne in India: Guidelines for management - IAA Consensus Document
Addendum
Announcement
Art & Psychiatry
Article
Articles
Association Activities
Association Notes
Award Article
Book Review
Brief Report
Case Analysis
Case Letter
Case Letters
Case Notes
Case Report
Case Reports
Clinical and Laboratory Investigations
Clinical Article
Clinical Studies
Clinical Study
Commentary
Conference Oration
Conference Summary
Continuing Medical Education
Correspondence
Corrigendum
Cosmetic Dermatology
Cosmetology
Current Best Evidence
Current Issue
Current View
Derma Quest
Dermato Surgery
Dermatopathology
Dermatosurgery Specials
Dispensing Pearl
Do you know?
Drug Dialogues
e-IJDVL
Editor Speaks
Editorial
Editorial Remarks
Editorial Report
Editorial Report - 2007
Editorial report for 2004-2005
Errata
Erratum
Focus
Fourth All India Conference Programme
From Our Book Shelf
From the Desk of Chief Editor
General
Get Set for Net
Get set for the net
Guest Article
Guest Editorial
History
How I Manage?
IADVL Announcement
IADVL Announcements
IJDVL Awards
IJDVL AWARDS 2015
IJDVL Awards 2018
IJDVL Awards 2019
IJDVL Awards 2020
IJDVL International Awards 2018
Images in Clinical Practice
Images in Dermatology
In Memorium
Inaugural Address
Index
Knowledge From World Contemporaries
Leprosy Section
Letter in Response to Previous Publication
Letter to Editor
Letter to the Editor
Letter to the Editor - Case Letter
Letter to the Editor - Letter in Response to Published Article
LETTER TO THE EDITOR - LETTERS IN RESPONSE TO PUBLISHED ARTICLES
Letter to the Editor - Observation Letter
Letter to the Editor - Study Letter
Letter to the Editor - Therapy Letter
Letter to the Editor: Articles in Response to Previously Published Articles
Letters in Response to Previous Publication
Letters to the Editor
Letters to the Editor - Letter in Response to Previously Published Articles
Letters to the Editor: Case Letters
Letters to the Editor: Letters in Response to Previously Published Articles
Media and news
Medicolegal Window
Messages
Miscellaneous Letter
Musings
Net Case
Net case report
Net Image
Net Images
Net Letter
Net Quiz
Net Study
New Preparations
News
News & Views
Obituary
Observation Letter
Observation Letters
Oration
Original Article
ORIGINAL CONTRIBUTION
Original Contributions
Pattern of Skin Diseases
Pearls
Pediatric Dermatology
Pediatric Rounds
Perspective
Presedential Address
Presidential Address
Presidents Remarks
Quiz
Recommendations
Regret
Report
Report of chief editor
Report of Hon : Treasurer IADVL
Report of Hon. General Secretary IADVL
Research Methdology
Research Methodology
Resident page
Resident's Page
Resident’s Page
Residents' Corner
Residents' Corner
Residents' Page
Retraction
Review
Review Article
Review Articles
Reviewers 2022
Revision Corner
Self Assessment Programme
SEMINAR
Seminar: Chronic Arsenicosis in India
Seminar: HIV Infection
Short Communication
Short Communications
Short Report
Snippets
Special Article
Specialty Interface
Studies
Study Letter
Study Letters
Supplement-Photoprotection
Supplement-Psoriasis
Symposium - Contact Dermatitis
Symposium - Lasers
Symposium - Pediatric Dermatoses
Symposium - Psoriasis
Symposium - Vesicobullous Disorders
SYMPOSIUM - VITILIGO
Symposium Aesthetic Surgery
Symposium Dermatopathology
Symposium-Hair Disorders
Symposium-Nails Part I
Symposium-Nails-Part II
Systematic Review and Meta-Analysis
Systematic Reviews and Meta-analyses
Systematic Reviews and Meta-analysis
Tables
Technology
Therapeutic Guideline-IADVL
Therapeutic Guidelines
Therapeutic Guidelines - IADVL
Therapeutics
Therapy
Therapy Letter
Therapy Letters
View Point
Viewpoint
What’s new in Dermatology
View/Download PDF

Translate this page into:

Letter to the Editor: Articles in Response to Previously Published Articles
2018:84:1;61-62
doi: 10.4103/ijdvl.IJDVL_715_17
PMID: 29243676

Reinterpreting minimum inhibitory concentration (MIC) data of itraconazole versus terbinafine for dermatophytosis – time to look beyond the MIC data?

Ananta Khurana, Kabir Sardana
 Department of Dermatology, Dr RML Hospital and Post Graduate Institute of Medical Education and Research, New Delhi, India

Correspondence Address:
Ananta Khurana
N5/606, Narmada Apartments, Sector D6, Vasant Kunj, New Delhi - 110 070
India
How to cite this article:
Khurana A, Sardana K. Reinterpreting minimum inhibitory concentration (MIC) data of itraconazole versus terbinafine for dermatophytosis – time to look beyond the MIC data?. Indian J Dermatol Venereol Leprol 2018;84:61-62
Copyright: (C)2018 Indian Journal of Dermatology, Venereology, and Leprology

Sir,

We read with interest the article by Mahajan et al. titled, “Clinico-mycological study of dermatophytic infections and their sensitivity to antifungal drugs in a tertiary care center.”[1] It is a yet unsubstantiated notion that terbinafine, which has been used as a first-line drug against dermatophytic infections for years, has probably lost its clinical efficacy in India. This has been supported by two recent publications in Indian literature, though there is little clinico-mycological correlation in these.[2],[3] Patient's immune response is crucial for elimination of dermatophytes and this, along with rampant steroid abuse, is also a potential cause of the recalcitrance.[4]

Nevertheless, mycological studies are important. The present study highlights two noteworthy points. Firstly, the epidemiological shift in the causative strains, with T. mentagrophytes being isolated from 75.9% of cases and T. rubrum from only 11.3%. This is contrasting to the reports prior to 2012, wherein T. rubrum was most commonly isolated. Secondly, this is probably the first documentation of high minimum inhibitory concentrations (MICs) of T. mentagrophytes to terbinafine. There are occasional reports of terbinafine resistance to T. rubrum, but none of T. mentagrophytes, to the best of authors' knowledge.

However, there are a few contradictions in this study, which we would like to highlight. Firstly, with reference to the MICs of terbinafine, the authors say that “Only two studies had similar minimum inhibitory concentration which ranged from 0.003 to 16 μg/ml.” However, in the quoted study, the mentioned level is for T. rubrum and not for T. mentagrophytes, the strain which the authors have tested.[5] The MICs in the mentioned study (reference 39 in the article) were in fact lower for T. mentagrophytes (0.007–0.5 μg/ml) than T. rubrum (0.003–16 μg/ml).[5] Secondly, the authors mention that “There was a statistically significant difference in the sensitivity of itraconazole as compared to terbinafine, fluconazole and griseofulvin.” However, the MIC values for terbinafine and itraconazole, mentioned in [Table 1], are identical. Further, the P value mentioned is 0.12, not satisfying the criteria for statistical significance. Thirdly, with reference to itraconazole, the authors mention that sensitive strains have MIC between 0.01 and 8 μg/ml and that only three of their strains (6%) had MIC ≥8 μg/ml and hence were resistant to itraconazole. But, the quoted reference mentions this cutoff value in relation to Aspergillus fumigatus and not T. mentagrophytes.[6] MIC cutoffs are specific to a drug–species pair and cannot be generally applied to other strains/class of fungi. Also, instead of merging the data of MIC for all isolates, various levels with the number of isolates under each level would have been more informative. Lastly, it is erroneous to compare the MIC levels of fluconazole to terbinafine or itraconazole as it is intrinsically higher, without necessarily predicting failure.{Table 1}

Arthroconidia have been considered as the primary cause of infection by dermatophytes. However, the in vitro antifungal testing evaluates the responses mainly of microconidia or hyphae, and dermatophytes in vivo often produce arthroconidia, a cellular structure presumably more resistant to antifungals. The difference in the susceptibility between microconidia and arthroconidia depends on the drug and on the strain, and may be one of the causes of therapeutic failure, but this is rarely the focus of mycological studies, including the present one.[7]

Most importantly, overuse of a drug leads to a high MIC and that does not mean treatment failure. A moot point is whether there is a clinical utility of standard antifungal susceptibility test methods.In vitro susceptibility of an organism to an antifungal agent does not predict a successful therapeutic outcome.[8] It must be remembered that the MIC is a construct that is largely defined by testing conditions, rather than a physical or chemical measurement. This measure might correlate with clinical outcome, but a multitude of factors related to the host (immune response, underlying illness, site of infection), the infecting organism (virulence) and the antifungal agent [dose, pharmacokinetics (PK), pharmacodynamics (PD), drug interactions] may be more important than susceptibility test results in determining clinical outcomes for infected patients. An important step toward establishing clinical utility of antifungal susceptibility test data is to determine clinical breakpoints for each drug. Clinical breakpoints categorize fungal isolates into (i) susceptible (the drug is an appropriate treatment); (ii) resistant (the drug is not recommended as a treatment) and (iii) intermediate (the drug may be an appropriate treatment, depending on certain conditions). Clinical breakpoints are established based on clinical trial data, global susceptibility surveillance, resistance mechanisms and PK/PD parameters from model systems. These may be easier to establish for dermatophytes (these infections being very prevalent) than other molds. But sadly, the same are available for other fungi (accessible from http://www.eucast.org/clinical_breakpoints) but none for dermatophytes. The focus of future research should be to generate quality clinically correlated susceptibility data and further clinical breakpoints for each species–drug pair.

In conclusion, the present study should not lead to an assumption that terbinafine has lost its clinical utility against dermatophytes. Also, projection of itraconazole as the most effective drug is speculative and dangerous. Azoles have an inherent ability to potentiate resistance. The suboptimal quality of many itraconazole brands in the country may further worsen the situation. In addition, it is important not to trivialize the various innate and/or adaptive immune responses that may affect the body's ability to clear fungi organisms.[9] We should abstain from an inordinate focus on isolated MIC data, which even in ideal circumstances cannot mirror the clinical response. This is evident in India where in spite of the use of supra-pharmacological and unapproved doses of itraconazole (200 and 400 mg), and in spite of the drug's low MICs, commensurate results are not consistently achieved. This is a clear signal that the answer to recalcitrant dermatophytoses lies elsewhere.

Financial support and sponsorship

Nil.

Conflicts of interest

There are no conflicts of interest.

References
1.
Mahajan S, Tilak R, Kaushal SK, Mishra RN, Pandey SS. Clinico-mycological study of dermatophytic infections and their sensitivity to antifungal drugs in a tertiary care center. Indian J Dermatol Venereol Leprol 2017;83:436-40.
[Google Scholar]
2.
Majid I, Sheikh G, Kanth F, Hakak R. Relapse after oral terbinafine therapy in dermatophytosis: A clinical and mycological study. Indian J Dermatol 2016;61:529-33.
[Google Scholar]
3.
Babu PR, Pravin AJS, Deshmukh G, Dhoot D, Samant A, Kotak B, et al. Efficacy and safety of terbinafine 500 mg once daily in patients with dermatophytosis. Indian J Dermatol 2017;62:395-9.
[Google Scholar]
4.
Sardana K, Mahajan K, Arora P, editors. Recalcitrant dermatomycosis: Focus on tineacorporis/cruris/pedis. In: Fungal Infections: Diagnosis and Management. Delhi: CBS; 2017. p. 23-39.
[Google Scholar]
5.
Fernández-Torres B, Carrillo AJ, Martín E, Del Palacio A, Moore MK, Valverde A, et al. In vitro activities of 10 antifungal drugs against 508 dermatophyte strains. Antimicrob Agents Chemother 2001;45:2524-8.
[Google Scholar]
6.
Denning DW, Venkateswarlu K, Oskley KL, Anderson MJ, Manning NJ, Stevens DA, et al. Itraconazole resistance in Aspergillus fumigatus. Antimicrob Agents Chemother 1997;41:1364-8.
[Google Scholar]
7.
Coelho LM, Aquino-Ferreira R, Maffei CM, Martinez-Rossi NM.In vitro antifungal drug susceptibilities of dermatophytes microconidia and arthroconidia. J Antimicrob Chemother 2008;62:758-61.
[Google Scholar]
8.
Andes D. Clinical utility of antifungal pharmacokinetics and pharmacodynamics. Curr Opin Infect Dis 2004;17:533-40.
[Google Scholar]
9.
García-Romero MT, Arenas R. New insights into genes, immunity, and the occurrence of dermatophytosis. J Invest Dermatol 2015;135:655-7.
[Google Scholar]

Fulltext Views
2,735

PDF downloads
1,548
Show Sections