Medicinal Leech Hirudo Medicinalis Research Articles

The Therapeutic Action of the Leech Hirudo medicinalis

The article under discussion examines the mechanism of the therapeutic effect of the medicinal leech Hirudo medicinalis. Today, studying the composition of the saliva of medicinal leeches is of the greatest relevance. The secretion of leech saliva contains a whole complex of biologically active substances — it contains more than a hundred medicinal components, enzymes, hormones, vitamins and amino acids, as well as a special substance hirudin, which makes the blood more fluid, which prevents the formation of unnecessary platelets. This is an indispensable way to prevent heart attacks, strokes and thrombosis. The author of the article believes that proof of the medicinal properties of specific components of saliva can lead to the development of new drugs or therapeutic methods.

18s rDNA characterization and morphological investigation of the medicinal leech Hirudo medicinalis from Felaw Pond.

Hirudinea leeches are obligate parasites on a variety of vertebrates and have recently gained attention for their medicinal purposes. The present study aimed to improve the presence of Hirudo medicinalis in Kurdistan and Iraq (especially because it is regarded as a native species in this region). A total of 23 leech specimens were collected from Felaw Pond during January-July 2023. The collected specimens were investigated morphologically and their species were confirmed according to their partial sequence of 18s rDNA. Primers used were universal, C1 (ACCCGCTGAATTTAAGCAT) (forward primer), and C3 (CTCTTCAGAGTACTTTTCAAC) (reverse primer). The results of the morphological study and molecular sequencing of partial 18s rDNA demonstrated that all these leech specimens belonged to Hirudo medicinalis with an abundance of 0.13 leech/ m2. The present record was the first one investigating this species in Iraq.

Exploiting Chemical Protein Synthesis to Study the Role of Tyrosine Sulfation on Anticoagulants from Hematophagous Organisms.

ConspectusTyrosine sulfation is a post-translational modification (PTM) that modulates function by mediating key protein-protein interactions. One of the early proteins shown to possess this PTM was hirudin, produced in the salivary glands of the medicinal leech Hirudo medicinalis, whereby tyrosine sulfation led to a ∼10-fold improvement in α-thrombin inhibitory activity. Outside of this pioneering discovery, the involvement of tyrosine sulfation in modulating the activity of salivary proteins from other hematophagous organisms was unknown. We hypothesized that the intrinsic instability of the tyrosine sulfate functionality, particularly under the acidic conditions used to isolate and analyze peptides and proteins, has led to poor detection during the isolation and/or expression of these molecules.Herein, we summarize our efforts to interrogate the functional role of tyrosine sulfation in the thrombin inhibitory and anticoagulant activity of salivary peptides and proteins from a range of different blood feeding organisms, including leeches, ticks, mosquitoes, and flies. Specifically, we have harnessed synthetic chemistry to efficiently generate homogeneously sulfated peptides and proteins for detailed structure-function studies both in vitro and in vivo.Our studies began with the leech protein hirudin P6 (from Hirudinaria manillensis), which is both sulfated on tyrosine and O-glycosylated at a nearby threonine residue. Synthetically, this was achieved through solid-phase peptide synthesis (SPPS) with a late-stage on-resin sulfation, followed by native chemical ligation and a folding step to generate six differentially modified variants of hirudin P6 to assess the functional interplay between O-glycosylation and tyrosine sulfation. A one-pot, kinetically controlled ligation of three peptide fragments was used to assemble homogeneously sulfoforms of madanin-1 and chimadanin from the tick Haemaphysalis longicornis. Dual tyrosine sulfation at two distinct sites was shown to increase the thrombin inhibitory activity by up to 3 orders of magnitude through a novel interaction with exosite II of thrombin. The diselenide-selenoester ligation developed by our lab provided us with a means to rapidly assemble a library of different sulfated tick anticoagulant proteins: the andersonins, hyalomins, madanin-like proteins, and hemeathrins, thus enabling the generation of key structure-activity data on this family of proteins. We have also confirmed the presence of tyrosine sulfation in the anticoagulant proteins of Anopheles mosquitoes (anophelins) and the Tsetse fly (TTI) via insect expression and mass spectrometric analysis. These molecules were subsequently synthesized and assessed for thrombin inhibitory and anticoagulant activity. Activity was significantly improved by the addition of tyrosine sulfate modifications and led to molecules with potent antithrombotic activity in an in vivo murine thrombosis model.The Account concludes with our most recent work on the design of trivalent hybrids that tandemly occupy the active site and both exosites (I and II) of α-thrombin, with a TTI-anophelin hybrid (Ki = 20 fM against α-thrombin) being one of the most potent protease inhibitors and anticoagulants ever generated. Taken together, this Account highlights the importance of the tyrosine sulfate post-translational modification within salivary proteins from blood feeding organisms for enhancing anticoagulant activity. This work lays the foundation for exploiting native or engineered variants as therapeutic leads for thrombotic disorders in the future.

Validation of Medicinal Leeches (Hirudo medicinalis) as a Non-invasive Blood Sampling Tool for Hematology and Biochemistry Profiling in Mammals.

Blood sampling is a challenging procedure in many captive animals. Although manual restraint or anesthesia are usually possible, they entail intense stress and a high risk of injuries or organ failure. Blood sampling using medicinal leeches (Hirudo medicinalis) represents a promising non-invasive alternative to venipuncture; however, leech blood meal was to date used only for qualitative analyses such as genetic or serological screenings. Hence, the aim of this study was to evaluate the suitability of the leech blood sampling method for quantification of hematological and biochemical parameters. Medicinal leeches were manually applied on 67 zoo animals of eleven species, and control blood samples were obtained by venipuncture of the jugular vein. The leeches drew up to 20 ml of blood in 20 to 55 min. Although most hematological and biochemical parameters were significantly altered in leech-derived samples, their values showed strong (r = 0.62–0.79; 10/24 parameters) to very strong (r > 0.8; 13/24 parameters) correlations with venipuncture in all blood parameters, except for sodium (r = 0.39). As the parameter alterations and correlations were similar among species, simple cross-species regression formulas were sufficient to correct the alterations, thereby ensuring good repeatability between leeches and venipuncture in most parameters. Our data thus suggest that medicinal leeches can be used as a reliable non-invasive and stress-reducing alternative to standard venipuncture, even for quantitative assays. This opens new opportunities for a significant improvement to animal welfare in zoological gardens, conservation programmes, and ecophysiological research, where quantification of blood parameters is often needed.

Influence of new antimicrobial peptides of the medicinal leech <i>Hirudo medicinalis</i> on the functional activity of neutrophil granule proteins

BACKGROUND: Resistance of microorganisms caused dangerous to human health infections to traditional antibiotics is a serious problem for healthcare. In this regard, the development of new effective antimicrobial drugs and therapeutic approaches is an urgent task. Antimicrobial peptides (AMPs) are considered a promising alternative to traditional antibiotic in the fight against resistant microorganisms.
 AIM: The aim of this work is to study the effect of new synthesized AMPs of the medicinal leech Hirudo medicinalis (including under conditions of development of oxidative/halogenative stress) on the functional activity of neutrophils granular proteins the main effector cells of the immune system.
 MATERIALS AND METHODS: Myeloperoxidase peroxidase activity was assessed by the rate of o-dianisidine oxidation. Neutrophil elastase activity was determined by the fluorescence method using a specific substrate MeOSuc-AAPV-AMC. Lactoferrin iron-binding activity was assessed spectrophotometrically by the change in absorption of protein solution after addition of Fe3+ salt. Lysozyme activity was determined by the rate of M. lysodeikticus bacterial cells lysis.
 RESULTS: Native AMPs 536_1 and 19347_2 inhibited and 12530 increased myeloperoxidase peroxidase activity, this tendency persisted after these AMPs modification by hypochlorous acid (HOCl). In contrast to the native AMP halogenated AMP 3967_1 acquired the ability to enhance myeloperoxidase enzymatic activity. In the presence of AMP 3967_1 neutrophil elastase amidolytic activity increased insignificantly, while AMP 19347_2 inhibited neutrophil elastase activity. After HOCl modification these AMPs retained their ability to regulate neutrophil elastase activity. Synergistic effects (~20%) against gram-positive bacteria M. lysodeikticus were revealed for combination of lysozyme with AMPs 12530 and 3967_1. Inhibition lysozyme antimicrobial activity was observed in the presence of AMPs 19347_2 and 536_1, however the severity of this effect decreased after AMPs modification by HOCl. After HOCl modification AMP 3967_1 increased, while AMP 12530 on the contrary acquired the ability to inhibit lysozyme mucolytic activity.
 CONCLUSIONS: The use of drugs based on studied AMPs of medicinal leech will have a beneficial effect on the bodys fight against infectious agents due to the antimicrobial action of AMPs themselves. But in addition studied AMPs are capable to modulate the biological activity of own endogenous antimicrobial proteins and peptides: to enhance it, if it is necessary to eliminate pathogen and to inhibit if it necessary to protect against damage to the bodys own tissues.

Detection of Antibodies against Tick-Borne Encephalitis Virus in Zoo Animals Using Non-Invasive Blood Sampling with Medicinal Leeches (Hirudo medicinalis).

Reports on non-invasive blood sampling are limited, and there are only a few studies on using kissing bugs (Reduviidae) and medicinal leeches (Hirudo medicinalis) for hematology and biochemistry testing in various zoo animal species. The aim of this study was to evaluate the usefulness of non-invasive blood sampling with medicinal leeches for arbovirus epidemiological investigations in various animal species from one zoo collection. Medicinal leeches were manually applied on 35 animals of 11 species. Control blood samples were obtained by venipuncture of the jugular vein. Antibodies to tick-borne encephalitic virus (TBEV) were detected by using the immunoenzymatic method or an immunofluorescent assay (IFAT), depending on the animal species. One of the 35 animals (2.9%) was seropositive (Ovis aries), whereas the rest of the samples were seronegative in both methods of sampling (non-invasive by leeches vs. invasive by venipuncture). Blood sampling using medicinal leeches showed promising results. It is likely a good alternative to other more complex and invasive methods, and it can provide significant advancement in blood sampling for preventive medicine and epidemiological studies in zoo animals.

Detoxication by Medicinal Leeches (Hirudo medicinalis)

The success of body detoxification by medicinal leeches (Hirudo medicinalis) depends on the rich bioactive composition of the medicinal leeches salivas. There is a total of 150 identified bioactive substances that have detoxifying and regenerative effects on the human body. However, the human organism has its own regulatory mechanisms for removing toxic products from the body: detoxification. The aim of our explorative study was to advance these mechanisms and demonstrate the efficiency of the bioactive substances of leech saliva to support the regulation of selected blood parameter levels, i.e. lower cholesterol, triglycerides and glucose levels, and to ensure the prevention of diseases caused by the fluctuation of the levels of these blood components. The participants in our study numbered 17. None of them had presented any significant medicinal complications from or contraindications to leech therapy. They participated in a total of seven leech procedures. After the therapy, blood tests for the patients were carried out to compare the blood counts before therapy and after. Using the results, we evaluated the outcomes of the detoxification therapy by using statistical analysis in the R program, version 3.0.0. Detoxication therapy using medicinal leech (Hirudo medicinalis) had no significant effect on the level of blood components provided to us, but its effect was observed in the subjective health improvements reported by patients.

Medicinal leech antimicrobial peptides lacking toxicity represent a promising alternative strategy to combat antibiotic-resistant pathogens

The rise of antibiotic resistance has necessitated the development of alternative strategies for the treatment of infectious diseases. Antimicrobial peptides (AMPs), components of the innate immune response in various organisms, are promising next-generation drugs against bacterial infections. The ability of the medicinal leech Hirudo medicinalis to store blood for months with little change has attracted interest regarding the identification of novel AMPs in this organism. In this study, we employed computational algorithms to the medicinal leech genome assembly to identify amino acid sequences encoding potential AMPs. Then, we synthesized twelve candidate AMPs identified by the algorithms, determined their secondary structures, measured minimal inhibitory concentrations against three bacterial species (Escherichia coli, Bacillus subtilis, and Chlamydia thrachomatis), and assayed cytotoxic and haemolytic activities. Eight of twelve candidate AMPs possessed antimicrobial activity, and only two of them, 3967 (FRIMRILRVLKL) and 536–1 (RWRLVCFLCRRKKV), exhibited inhibition of growth of all tested bacterial species at a minimal inhibitory concentration of 10 μmol. Thus, we evidence the utility of the developed computational algorithms for the identification of AMPs with low toxicity and haemolytic activity in the medicinal leech genome assembly.

Post-auricular leech therapy reduced headache & migraine days in chronic migraine

Background: Migraine is an exceedingly common disorder that causes substantial pain, disability and societal burden. Unfortunately, conventional treatments are insufficient, inadequate, or associated with significant risks, such as overuse, abuse or addiction. The Unani system of Medicine has been treating migraine since centuries. Leech therapy (Irsale Alaq) has been employed successfully in severe persistent headache, mania and insomnia since decades.
 Aim: The purpose of our study was to evaluate the impact of post auricular leech therapy in migraine and to collect data to warrant further clinical trials.
 Methods: We conducted a case series on 7 patients who had failed conventional oral treatments for the migraine. After informed consent, post auricular leech therapy was done. Patients were asked to keep detailed headache calendars, documenting the number of headache days, migraine days, the intensity of headaches/ migraines and analgesic usage. We compared these parameters before and after 2 months of therapy.
 Results: We observed a reduction in the number of headache & migraine days and amount of painkillers used without any adverse effects. (P≤ 0.01) Improvement in quality of life was also observed.
 Discussion: We reviewed the literature related to the medicinal leeches (Hirudo medicinalis), used for the treatment in these cases. Leech saliva contains certain potent anesthetic, anti-inflammatory and vasodilator substances, suggesting plausible mechanisms of action in these cases.
 Conclusion: The preliminary findings indicate the safe and potential therapeutic role of leech therapy. So further trials should be carried out to explore the therapeutic potential of this therapy in chronic migraine.
 Keywords: Chronic Migraine, leech therapy, hirudo medicinalis, headache, Unani Medicine, complementary Medicine.

On the presence of the European Medicinal Leech Hirudo medicinalis Linnaeus, 1758 (Annelida: Hirudinea) in Romania

Abstract An isolated, but persistent population of the European medicinal leech Hirudo medicinalis Linnaeus, 1758 is reported from the “Mestecănișul de la Reci” Natural Reserve (ROSCI0111, Covasna County), representing the first confirmed record of this species in Romania. Information regarding habitat characteristics, main diagnostic features and protection status of the species is presented.

Comparative transcriptomic analysis reveals the mechanism of leech environmental adaptation

The medicinal leeches have been widely utilized in medical procedures for thousands of years. Recently, there were more and more transcriptomes of leech published online including the medicinal leech (Hirudo medicinalis) and some other leeches. However, leech's genetic backgrounds are still largely unknown. In this report, transcriptomes of three phylogenetically close leeches (Poecilobdella javanica, Whitmania pigra, and Haemadipsa cavatuses) were established by RNA-seq technique for studying their genetic mechanisms of environmental adaption. Over 110 million high-quality reads were generated and assembled into unique transcriptome (reads = 200 bp). 27,138 out of de novo assembled transcripts (41.77%) were assigned to one or more GO terms. Additionally, the transcripts were detected in 217 predicted KEGG pathways. The enriched genes were involved in protein metabolism, GPCRs and pathogen-resistant pathways. The results showed that the great variations existed in gene expression of olfactory transduction pathway among three leech species. The comparisons of leech species hinted at the underlying mechanism of leeches adapting well in various environments. Our study will provide useful rationales for future studies of leeches and other annelid species.

Elaborate ultrastructure of the Hirudo (Annelida: Hirudinae) cocoon surface.

Species of medicinal leeches (Hirudo medicinalis, H. verbana, and H. sulukii) secrete hard-shelled cocoons. When initially deposited, a cocoon is surrounded by a foam. Over a short time, the foam is transformed into a three-dimensional structure. We show here that this peripheral structure likely forms by the solidification and dehydration of a moderately viscous, proteinaceous substance that surrounds bubbles of various sizes. The resulting matrix-like structure comprises a network of curved branches juxtaposed at ∼120° and taper in width as a function of distance from the outer cocoon wall. The material is proteinaceous, and traps environmental material in its composition, especially silicon. The geometry of compartments and abundance of silicon on branch surfaces suggest a mechanism for trapping water to prevent desiccation in a terrestrial environment.

Top-Down Atmospheric Ionization Mass Spectrometry Microscopy Combined With Proteogenomics.

Mass spectrometry-based protein analysis has become an important methodology for proteogenomic mapping by providing evidence for the existence of proteins predicted at the genomic level. However, screening and identification of proteins directly on tissue samples, where histological information is preserved, remain challenging. Here we demonstrate that the ambient ionization source, nanospray desorption electrospray ionization (nanoDESI), interfaced with light microscopy allows for protein profiling directly on animal tissues at the microscopic scale. Peptide fragments for mass spectrometry analysis were obtained directly on ganglia of the medicinal leech (Hirudo medicinalis) without in-gel digestion. We found that a hypothetical protein, which is predicted by the leech genome, is highly expressed on the specialized neural cells that are uniquely found in adult sex segmental ganglia. Via this top-down analysis, a post-translational modification (PTM) of tyrosine sulfation to this neuropeptide was resolved. This three-in-one platform, including mass spectrometry, microscopy, and genome mining, provides an effective way for mappings of proteomes under the lens of a light microscope.

HABITAT PREFERENCES AND VENTRAL COLOR VARIABILITY OF HIRUDO MEDICINALIS (CLITELLATA: HIRUDINIDA)

This study deals with the habitat preferences of medicinal leech Hirudo medicinalis Linnaeus, 1758 in the Czech Republic, in a highly agriculturally used and fragmented landscape, and provides the detailed information about the ventral coloration of this species. The study was conducted in 2010–2011 at 11 out of total 15 localities of H. medicinalis in the Czech Republic. At each locality a phytocenological sample of littoral and aquatic vegetation was recorded and physicochemical variables were measured. All captured leeches were measured and weighted, and a photo of ventral side was taken. Division of localities based on aquatic vegetation (TWINSPAN) formed groups of localities which corresponded to the population sizes of H. medicinalis. According to the abiotic factors localities with H. medicinalis were rich in carbon, poor in oxygen and situated in an area with warm climate. In this study four different ventral color patterns were described. During the ontogenetic development ventral side becomes darker, as indicated by the significant relationship between the percentage of dark color and leech size.

A comparative behavioral evaluation of the medicinal leech (Hirudo medicinalis) under different containing regime

The purpose of this study was to evaluate the distribution of the medicinal leech, Hirudo medicinalis, in the containers, type of motion in the water recirculating system, and to find the optimal frequency of exchange of water in this system. According to the results, there are found that the living conditions, created in the experimental group with a recirculation of water at the rate of 48 times a day, had the best positive impact on the welfare of the medicinal leech.

Homolog of allograft inflammatory factor-1 induces macrophage migration during innate immune response in leech.

Allograft inflammatory factor-1 (AIF-1) is a 17-kDa cytokine-inducible calcium-binding protein that, in vertebrates, plays an important role in the allograft immune response. Its expression is mostly limited to the monocyte/macrophage lineage. Until recently, AIF-1 was assumed to be a novel molecule involved in inflammatory responses. To clarify this aspect, we have investigated the expression of AIF-1 after bacterial challenge and its potential role in regulating the innate immune response in an invertebrate model, the medicinal leech (Hirudo medicinalis). Analysis of an expressed sequence tag library from the central nervous system of Hirudo revealed the presence of the gene Hmaif-1/alias Hmiba1, showing high homology with vertebrate aif-1. Immunohistochemistry with an anti-HmAIF-1 polyclonal antibody revealed the constitutive presence of this protein in spread CD68(+) macrophage-like cells. A few hours after pathogen (bacterial) injection into the body wall, the amount of these immunopositive cells co-expressing HmAIF-1 and the common leucocyte marker CD45 increased at the injected site. Moreover, the recombinant protein HmAIF-1 induced massive angiogenesis and was a potent chemoattractant for macrophages. Following rHmAIF-1 stimulation, macrophage-like cells co-expressed the macrophage marker CD68 and the surface glycoprotein CD45, which, in vertebrates, seems to have a role in the integrin-mediated adhesion of macrophages and in the regulation of the functional responsiveness of cells to chemoattractants. CD45 is therefore probably involved in leech macrophage-like cell activation and migration towards an inflammation site. We have also examined its potential effect on HmAIF-1-induced signalling.

Structural basis of RGD-hirudin binding to thrombin: Tyr3 and five C-terminal residues are crucial for inhibiting thrombin activity.

BackgroundHirudin is an anti-coagulation protein produced by the salivary glands of the medicinal leech Hirudomedicinalis. It is a powerful and specific thrombin inhibitor. The novel recombinant hirudin, RGD-hirudin, which contains an RGD motif, competitively inhibits the binding of fibrinogen to GPIIb/IIIa on platelets, thus inhibiting platelet aggregation while maintaining its anticoagulant activity.ResultsRecombinant RGD-hirudin and six mutant variants (Y3A, S50A, Q53A, D55A, E57A and I59A), designed based on molecular simulations, were expressed in Pichia pastoris. The proteins were refolded and purified to homogeneity as monomers by gel filtration and anion exchange chromatography. The anti-thrombin activity of the six mutants and RGD-hirudin was tested. Further, we evaluated the binding of the mutant variants and RGD-hirudin to thrombin using BIAcore surface plasmon resonance analysis (SPR). Kinetics and affinity constants showed that the KD values of all six mutant proteins were higher than that of RGD-hirudin.ConclusionsThese findings contribute to a novel understanding of the interaction between RGD-hirudin and thrombin.

Antimicrobial prophylaxis during Hirudo medicinalis therapy: a multicenter study.

Medicinal leeches (Hirudo medicinalis) are indicated for salvage of tissue flaps, grafts, or replants when venous congestion threatens tissue viability. The purpose of this study was to evaluate the efficacy of prophylactic antimicrobial agents in patients who received medicinal leech therapy. A multicenter retrospective cohort study of all adult patients between January 1, 2010, and February 28, 2013, who received medicinal leech therapy was conducted. Antimicrobial prophylaxis was documented in 54 (91.5%) of the included patients, ciprofloxacin, trimethoprim-sulfamethoxazole, piperacillin-tazobactam, and ceftriaxone in 33 (61.1%), 18 (33.3%), 2 (3.7%), and 2 (3.7%) patients, respectively. Surgical site infection (SSI) was found in seven (11.9%) patients, all of whom received antimicrobial prophylaxis. Aeromonas spp. was isolated in four infections, and all isolates were resistant to the chosen prophylactic agent. The SSI incidence was similar between antimicrobial prophylaxis agents. Trimethoprim-sulfamethoxazole and ciprofloxacin appear equally effective at preventing leech-associated infections.

The European medicinal leech Hirudo medicinalis L.: Morphology and occurrence of an endangered species

Although the European medicinal leech (Hirudo medicinalis L. 1758) is one of the best-known members of the Hirudinea due to its use in phlebotomy, this species has been confused with the Mediterranean taxon H. verbana Carena 1820. Here we describe the morphology of adult and juvenile H. medicinalis and document its genetic distance to H. verbana, using newly acquired mitochondrial DNA-sequence (cytochrome c oxidase subunit I, CO-I)-data from specimens collected in Germany. Our CO-I analysis shows that H. medicinalis and H. verbana differ by 9.4 %. Hence, the original Hirudo-population diverged ca. 10 million years ago so that today two geographically separated biospecies exist that co-occur in only a few natural habitats. We analyzed the behaviour of adult H. medicinalis, but could not find differences with respect to its sister taxon H. verbana. Finally, we summarize the occurrence of H. medicinalis in Central Europe and conclude that this once widely distributed freshwater species largely disappeared in many countries. We suggest that the loss of natural freshwater ecosystems, with flat, warm banks, and amphibians (frogs, newts and toads) as preferred host organisms for the juveniles, are largely responsible for the decline of H. medicinalis in Northern Europe.

“Clinical study of leech application in various medico-surgical conditions”

IntroductionThe study evaluates the effectiveness of medicinal leech (Hirudo medicinalis) therapy in a population of 150 patients having various medico-surgical conditions to treat diseases like varicose veins, varicose ulcers, perianal haematoma, skin diseases (such as eczema, herpes zoster), inflamed or thrombosed piles and other inflammatory conditions including gangrene and traumatic inflammation. MethodsThe assessment score was recorded on various parameters namely – pain, tenderness, swelling, redness, local temperature, stiffness, Kandu (itching), slough, srava, daha (burning sensation), tvakrukshata (dryness of skin), granulation tissue, assessment of base/floor and wound size. Wilcoxan Signed Rank test was used to compare the pre and post leech application score. ResultThe study clearly indicated significant reduction in severity of pain, burning sensation, itching swelling among the patients. The mean pO2 of blood (40.05) sucked by leeches was found to be almost equal to that of venous blood of the patient (34.55). ConclusionLeech sucked venous blood contributes to reduction in severity of symptoms. The study recommends the therapy to be used as a para-surgical therapy in the management of various medico-surgical conditions mentioned above.