Panacea Journal of Medical Sciences 2020;10(3):216–221

 

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Panacea Journal of Medical Sciences

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Original Research Article

Evaluation of impact of national leprosy eradication programme in a community
health centre in Eastern India

Mayadhar Panda1, Sikata Nanda2,*, Rabi Narayan Dhar3

1Dept of Community Medicine, SLN Medical College, Koraput, Odisha, India
2Dept. of Community Medicine, S.C.B. Medical College and Hospital, Cuttack, Odisha, India
3Dept. of Orthopaedics, Veer Surendra Sai Institute of Medical Science and Research, Burla, Odisha, India

A R T I C L E I N F O

Article history:
Received 19-07-2020
Accepted 06-10-2020
Available online 29-12-2020

Keywords:
NLEP
MDT
LCDC

A B S T R A C T

Background & Aim: Leprosy a chronic infectious public health challenge is caused by a slowly
multiplying acid fast bacillus Mycobacterium leprae. An untreated leprosy-affected person is the only
known source of infection. Our aim was to study the trend in the prevalence of leprosy in the health care
facility, to compare the leprosy burden in urban and rural field practice area under the health facility, to
identify any gaps/loopholes in the implementation of the NLEP and to recommend remedial measures to
address the gaps.
Materials and Methods: A cross sectional study was conducted at Community Health Centre Jatni,
Khordha, Odisha during the year 2018-19. A pre-designed questionnaire, personal interview with multi-
purpose health worker male and review of leprosy records of different years was used as study tool.
Results: Majority i.e., 78.6% of the leprosy patients were from rural areas. Overall male predominance of
the cases was found both in urban & rural areas. More numbers of cases were registered during 2014-15
& 2015-16 which was declined in 2016-17, but again increased in the subsequent years i.e., 2017-18 and
2018-19. 61.8% diagnosed leprosy cases had successfully undergone treatment and got cured and 24.4%
of the cases were the defaulters to MDT.
Conclusion: Defaulter cases are the major source of continuous transmission of infection in the community.
Active surveillance for Leprosy is to be strengthened in both rural and urban areas with special focus on IEC
and BCC activities along with proper counseling of the family members with involvement of community
people.

© This is an open access article distributed under the terms of the Creative Commons Attribution
License (https://creativecommons.org/licenses/by/4.0/) which permits unrestricted use, distribution, and
reproduction in any medium, provided the original author and source are credited.

1. Introduction

Leprosy is a chronic infectious public health challenge
which is caused by a slowly multiplying acid fast
bacillus, Mycobacterium leprae. An untreated leprosy-
affected person is the only known source of infection.

The disease is well known for a long incubation period,
which may range from few weeks to 30 years. 1 Leprosy;
one of the neglected tropical diseases is generally associated
with poverty, overcrowding, thereby affecting the most
underserved population of the country. As far as the burden

* Corresponding author.
E-mail address: drkitusraban@gmail.com (S. Nanda).

of Leprosy is concerned, global prevalence of leprosy
according to Global leprosy Update 2017 is 0.25 per 10,000
population (Total 1,92,713 cases); an increase of 20,765
cases as compared to 2016. The increase in cases was
observed in all WHO regions and the highest prevalence
was seen in SEAR, i.e. 0.6 per 10,000 populations. SEAR
contributes about 73% of the global leprosy burden (India
and Indonesia contribute 67.4% of new cases globally and
92.3% regionally). 2 As per WHO data more than 81% of
the new cases are reported from three countries i.e., India,
Brazil and Indonesia. 3,4 Although the prevalence of leprosy
in India is less than 1 per 10,000 since 2005,it still accounts
for 62% of the total new cases reported worldwide. 3

https://doi.org/10.18231/j.pjms.2020.046
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Panda, Nanda and Dhar / Panacea Journal of Medical Sciences 2020;10(3):216–221 217

In spite of the fact that the disease has long incubation
period, the time taken for declaration of elimination after
attainment of prevalence rate < 1 per10,000, was too short,
which is revealed by the continuous emergence of new cases
along with a rise in cases amongst children in India from
2006 till date. 1,5 Despite advances in all spheres of medical
science, leprosy continues to be a public health challenge
in countries like India. 6 Leprosy is a silent emergency; the
real burden of which is underestimated; affecting the most
underserved population of the country. 2

“National Leprosy Eradication Programme (NLEP) in
India is a centrally sponsored health scheme of the Ministry
of Health and FW, Government of India. The programme
is also supported by WHO, ILEP, and few other Non-
Governmental organizations (NGOs). Due to their efforts,
from a prevalence rate of 57.8/10,000 in 1983, India has
succeeded with the implementation of MDT in bringing the
national prevalence down to “elimination as a public health
problem” of less than 1 per 10,000 in December 2005 and
even further down to 0.66/10,000 in 2016. India by the end
of March 2011–2012 succeeded in achieving elimination at
the state level in 34 out of the total of 36 states/UTs. Only
the state of Chhattisgarh and the UT of Dadra & Nagar
Haveli were yet to achieve elimination. By the end of March
2016, 82.36 % i.e. 551 out of the total 669 districts in India
achieved the target of elimination; i.e., leprosy as a public
health problem, 7 which suggests that leprosy is still a major
public health challenge in those districts which have leprosy
prevalence of more than or equal to 1 per 10,000 population
and they are a long way back from achieving the status
of leprosy elimination; rather they contribute to continued
transmission.

However at present, in spite of availability and
implementation of an effective multi-drug therapy (MDT)
for more than 30 years and attainment of status of
leprosy elimination as defined by WHO in 2002, India
still continues to have a high share of 58.8% of the world
leprosy population. 8 In the year 2007, new cases detected
in India were 137,685, and nine years later in 2016, the
number remained almost the same at 135,485, a significant
increase over the 127,326 new cases detected in 2015. This
increase in new cases is attributed by NLEP to their recent
strategy of innovative Leprosy Case Detection Campaign
(LCDC), which resulted in the detection of 34,000 new
cases from highly endemic pockets and accounted 25%
of the total annual new cases in 2016. 7 Unfortunately,
leprosy eradication from community appears as if had been
equated with the reaching of the WHO-defined target of
elimination of leprosy as a public health problem. However
many districts have not yet reached the target of elimination.
Rather the use of term “elimination” also creates confusion
among the public and also to many even in the medical
profession. 8 Over two lakh new cases of leprosy are
detected each year of which about 7% are associated with

grade-2 deformity by the time of diagnosis. Hence the
disease elimination can be achieved with a wider focus
on risk groups and their socio-demographic characteristics;
as it is evidenced that elderly age, overcrowding, hunger,
and poor SES etc, pose a greater risk for leprosy. Thereby
special attention should be directed for improving the living
conditions of the underserved population and decreasing
inequality in low and middle-income countries so as to
achieve leprosy elimination. 9 Leprosy almost eliminated a
decade ago; has been returned back in Odisha. The National
Health Profile 2019 released by the Union Ministry of
Health and FW says leprosy prevalence rate in Odisha
is second highest in the country after Chhattisgarh. The
Hansen’s disease is now prevalent in 18 districts of the state.
From a prevalence of less than one per 10,000 populations
in 2006, it now stands at 1.39 against the national average of
0.65. Six districts have recorded annual new case detection
rate (ANCDR) of more than 50 per one lakh (i.e., >5 cases
/10,000) population. According to NHP, as many as 8,754
new cases of leprosy have been detected in Odisha in 2018
and 6,445 persons are under MDT. 10

2. Materials and Methods

A cross sectional study was conducted in community
health centre, Jatni during the year 2018-19. The head
quarter multi- purpose health worker (MPHW-M) of the
CHC performing the duty of paramedical worker (PMW)
leprosy, was interviewed using a pre-designed questionnaire
to collect the data. Also secondary data were collected for a
period of 5 years from 2014-15 till 2018-19 from the leprosy
records available with him.

3. Results

Fig. 1: Residence wise distribution of male & female leprosy cases



218 Panda, Nanda and Dhar / Panacea Journal of Medical Sciences 2020;10(3):216–221

Table 1: Year wise comparative analysis of new PB Leprosy cases according to place of residence (Rural population-87958 & urban
57389).

Year
Adult PB cases

Total
Child PB cases (<15yrs)

TotalUrban Rural Urban Rural
M F M F Mch Fch Mch Fch

2014-15 1 0 8 5 14(29.8%) 1 0 1 0 2(25%)
2015-16 3 1 5 4 13(27.7%) 1 0 1 0 2(25%)
2016-17 0 0 2 0 2(4.2%) 0 0 0 1 1(12.5%)
2017-18 2 1 3 4 10(21.3%) 0 0 2 0 2(25%)
2018-19 2 2 0 4 8(17%) 0 0 0 1 1(12.5%)

Total
8 4 18 17 47

(100%)
2 0 4 2

8 (100%)
12(25.5%) 35(74.5%) 2(25%) 6(75%)

Total PB cases detected = 55

Table 2: Year wise comparative analysis of MB cases among the Urban & rural population

Year
Adult MB cases

Total
Child MB cases (<15yrs)

Total
Urban Rural Urban Rural

M F M F Mch Fch Mch Fch
2014-15 4 0 10 2 16

(24.2%)
1 1 0 2 4(40%)

2015-16 1 0 13 6 20(30.3%) 1 0 1 0 2(20%)
2016-17 1 0 3 5 9(13.6%) 0 0 0 1 1(10%)
2017-18 2 2 6 3 13(19.7%) 1 0 0 1 2(20%)
2018-19 0 0 5 3 8(12.1%) 0 0 1 0 1(10%)

Total
8

12.1%
2 (3%) 37

56.1%
19

28.8% 66 100%
3 1 2 4 10

(100%)
10 56 4(40%) 6(60%)

Total MB cases detected =76

Table 3: Leprosy cases with deformity amongst Urban and Rural population. (All MB cases N=76)
S. No. Year Urban (total detected MB cases=14) Rural (total detected MB cases=62)

Grade I Grade II Grade I Grade II
1 2014-15 2 1 4 2
2 2015-16 0 0 3 3
3 2016-17 0 0 2 1
4 2017-18 1 0 1 0
5 2018-19 0 0 1 1

Total
3 1 11 7

4 out of 14 (28.5%) 18 out of 62 (29%)

Table 4: Comparative analysis of registered Leprosy cases (PB+ MB) and place of residence
MB cases Urban Rural

Total
Year M F M F

2014-15 7 1 19 9 36 (27.5%)
2015-16 6 1 20 10 37 (28.2%)
2016-17 1 0 5 7 13 (9.9%)
2017-18 5 3 11 8 27 (20.6%)
2018-19 2 2 6 8 18 (13.7%)

Total
21 7 61 42

131 (100%)
28 (21.4%) 103 (78.6%)



Panda, Nanda and Dhar / Panacea Journal of Medical Sciences 2020;10(3):216–221 219

Table 5: Outcome of the Leprosy Cases (Old and New):

Year wise
Diagnosed Cases (new + old) Cured

Defaulters Relapse Non-traceablePB MB Total PB MB Total
2013-14 8 10 18 4 9 13 4 1 0
2014-15 14 16 30 5 7 12 8 6 4
2015-16 13 20 33 11 13 24 5 3 1
2016-17 2 9 11 1 5 6 4 0 1
2017-18 10 13 23 7 8 15 6 2 0
2018-19 8 8 16 6 5 11(68.7%) 5 (31.2%) 0 0
Total 55 76 131 100% 34 47 81 (61.8%) 32 (24.4%) 12 (9.1%) 6 (4.6%)

Table 6: Defaulter cases among Urban Vs rural population
Urban Rural

Diagnosed Defaulted Diagnosed Defaulted
PB MB Total PB MB Total PB MB Total PB MB Total
14 14 28 5 4 9 41 62 103 10 13 23

Fig. 2: Distribution of leprosy cases according to sex

Fig. 3: Distribution of cases according to place of residence

Fig. 4: Comparison of point prevalence of leprosy in rural and
urban area.

4. Discussion

Table 1 depicts that a total of 47pauci-bacillary (PB) adult
Leprosy cases (age >=15 years) have been detected over a
period of 5 years, out of which majority of the cases i.e.,
29.8% and 27.7% were registered in the year 2014-15 and
2015-16 respectively. Among the 47 adult PB cases, 26 were
males 21 were females. Among the males, 8 belonged to
urban area and 18 from rural villages. Similarly out of 21
females, only 4 were from urban & 17 from rural area. A
total of 8 children were registered as PB (child) Leprosy
over the above said study period and 6 out of 8 (75%) cases
were from rural area.

As revealed fromTable 2 a total of 66 adult MB cases
were registered during this study period out of which 24.2%
and 30.3% MB cases were registered during 2014-15 and



220 Panda, Nanda and Dhar / Panacea Journal of Medical Sciences 2020;10(3):216–221

2015-16 respectively. Majority i.e., 45(68.2%) were males.
37 out of the 45 males were from rural places, only 8
were from urban areas. Similarly 2 among the 21 female
cases were from urban area and the rest were from rural
areas. So over all, 56 out of 66 (84.8%) adult cases were
having residence in the rural areas, again showing rural
predominance of the leprosy burden.

Similarly 6 out of the 10 (60%) MB leprosy children had
residence in rural areas. From Tables 1 and 2 it was found
that a total of 18 out of 131 leprosy cases i.e., about 14%
of cases were children and majority of the affected children
i.e., 66.6% (12 out of 18) were having residence in rural
area.

So major focus should be directed towards the rural
areas as well as the children affected with leprosy as it is
well known that the proportion of child leprosy cases is
an indicator of continued transmission of infection in the
community while the percentage of patients with grade 2
deformity reflects a delay in the diagnosis. According to the
available data of NLEP- progress report for the year 2014-
15, Child cases which at present constitute about 9% of
global and Indian new cases detected annually, showed no
appreciable decline over the last decade. What is worrisome
for India is that the proportion of new child cases detected
was 12% or higher in eight states/union territories with
Lakshadweep reporting as a proportion of child cases as
high as 75%; with 245 new child cases presenting with grade
2 disabilities for the year 2014–2015. 11

In case of children i.e., under the age of 15 years old
Leprosy is common in countries where leprosy continues to
be endemic. As per the global data 2012; 21,349 new child
cases(i.e.,9%of all the new leprosy cases)were detected;
amongst which 76.5% belonged to South-East Asia region.
In India, 10 states had proportion of child leprosy cases
more than 10%, out of them in Daman and Diu it was 30%.
Based on different study reports; much higher proportion of
cases were found in active population surveysi.e., 35% in
Maharashtra and 32.5% in Agra. 12

From Tables 1 and 2 it is found that Majority of the
Leprosy cases i.e., (58%) 76 out of total 131 are of MB
category which are also the major source of transmission
of infection in the community. Similar results were found in
a study conducted by Giri VC et al(2017); where 60.8% of
cases were MB category and rest 39.2% were PB leprosy
cases. 13

Table 3 shows that, a total of 22 out of 76 MB (28.9%)
cases were detected with grade-I & grade II deformity.
Majority i.e., 18 out of 62(29%) cases were documented
from rural area, out of which 7 cases were having visible
deformity i.e., grade-II deformity. However only a single
case with grade-II deformity was detected from urban area,
showing delay in the diagnosis and treatment of the leprosy
cases in rural area; may be because of social stigma for
which special emphasis needs to be given over the rural

areas. In the study conducted by Giri VC et al(2017); it was
found that a total of 6 out of 166 newly detected leprosy
cases had either Gr-I or Gr-II deformity. 13

Table 4 shows 28 out of total 131 Leprosy cases belonged
to urban areas where as majority i.e., 103 (78.6%) cases
were from rural areas. Overall male predominance of
leprosy cases were found both in urban as well as in rural
areas. More numbers of cases were registered during 2014-
15 & 2015-16 which was declined in the subsequent year
i.e., 2016-17, but again increased in 2017-18 and 2018-19
which may be due to more active case finding by door to
door screening campaign by the grass root level workers
like ASHA in leprosy case detection campaign (LCDC).
However table Nos-2 & 4 showed that the number of new
cases detected among the children age group was found
to decrease in both PB & MB category Similar results
were found in a study conducted by Mohite et al(2013)
showed that the number of new cases of leprosy decreased
from 543 to 95, the percentage of child cases among the
new cases decreased from 44% to 4.7% due to effective
implementation of NLEP services. However the proportion
of MB cases among the new cases was increased from 17%
to 32.6%. 14

Figure 1 showed that proportionately higher numbers
of male leprosy cases in the urban area were registered in
comparison to that in rural area and the reverse was noticed
for female cases.

Figure 2 depicts amongst the registered leprosy cases
males were proportionately much higher in number which
may be due to more exposure of the males to the infection
sources.

Figure 3 shows about 80% cases were registered from
the rural area, which indicates that more stringent screening
campaigns & monitoring of the cases under treatment to be
undertaken in the rural areas.

Figure 4 shows the comparative analysis of overall point
Prevalence (by 31st March of respective years) of leprosy
cases based on residence which is much higher in rural area
in comparison to urban. Rural Prevalence was found above
the target for elimination of leprosy except for the year
2017 which was 0.9/10,000 population. However a huge
improvement in the prevalence of leprosy in rural area was
noticed from 3.2/10,000 in 2015 to 0.9/10,000 over a period
of only 2 years. Whereas there was little bit increase in the
prevalence towards 2018 and 2019 which may be a result
of increase new case detection which may be due to more
active case finding LCDC. Whereas in the urban area though
the prevalence was below the cutoff line, a gross increase
was noticed in 2018 & in 2019 it exceeded the cutoff target
for elimination. This may be due to gathering of hidden
cases, more number of resistant patients or relapse cases due
to defaulter to MDT.

From Table 5, it was found that 81 out of total
131(61.8%) diagnosed leprosy cases were successfully



Panda, Nanda and Dhar / Panacea Journal of Medical Sciences 2020;10(3):216–221 221

undergone treatment and got cured. 34 out of 55 (61.8%)
PB cases got cured from leprosy and 47 out of 76 (62%)
MB cases also got cured. However a total of 32 under both
PB & MB cases out of 131 (24.4%) cases were found to be
defaulters to treatment. Incomplete treatment or defaulters
to treatment are the major challenge for leprosy eradication
since they are the continuous source of disease transmission
in the community.

Table 6 shows that, (15 out of 32) i.e., 46.8% of the
defaulters belong to PB category, rest 53.2% However
proportion of Leprosy patients defaulted in PB category was
found to be more in comparison to that of MB category i.e.,
15 out of 55 (27.3%) diagnosed PB cases were defaulted
from treatment whereas 17 out of 76 (22.4%) diagnosed MB
cases were the defaulters. Similarly a higher proportion i.e.,
32.1% (9 out of 28) of the defaulters was found amongst
the urban patients in comparison to (22.3%) 23 out of 103
enrolled rural patients.

5. Conclusion

Majority of the cases (80%) were registered from the
rural area, which indicates that more stringent screening
campaigns & monitoring of the cases under treatment
to be undertaken in rural area. Similarly percentage of
children affected with leprosy indicates the continued
transmission of infection in the community; hence major
focus should be directed towards the children affected with
leprosy. Defaulters to MDT are also the major source
of continuous infection for the community. Hence more
effective measures need to be taken for reduction of default
rate. And strict adherence to MDT should be ensured
through regular follow-up by the frontline workers as well
as by the supervisory teams is of utmost importance to
achieve the success. Active surveillance for Leprosy can be
strengthened in above areas with special focus on IEC and
BCC activities.

6. Source of Funding

No financial support was received for the work within this
manuscript.

7. Conflict of Interest

The authors declare they have no conflict of interest.

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Author biography

Mayadhar Panda, Tutor

Sikata Nanda, Associate Professor

Rabi Narayan Dhar, Associate Professor

Cite this article: Panda M, Nanda S, Dhar RN. Evaluation of impact of
national leprosy eradication programme in a community health centre in
Eastern India. Panacea J Med Sci 2020;10(3):216-221.

http://dx.doi.org/10.4103/jfmpc.jfmpc_245_19
http://dx.doi.org/10.4103/ijdvl.ijdvl_34_16
http://dx.doi.org/10.4103/0019-5154.119952
http://dx.doi.org/10.4103/idoj.idoj_282_17
https://www.newindianexpress.

	Introduction
	Materials and Methods
	Results
	Discussion
	Conclusion
	Source of Funding  
	Conflict of Interest