Brorson O, Brorson SH. Grapefruit Seed Extract is a Powerful in vitro Agent Against Motile and Cystic Forms of Borrelia burgdorferi sensu lato. Infection. 2007 Jun;35(3):206-8.
PMID: 17565468 [PubMed - in process]
Posted by Vermont_Lymie (Member # 9780) on :
Infection 35 � 2007 � No. 3 � URBAN & VOGEL 207
Sorry, I copied this quickly, but I think it is mostly complete. May be missing a sentence or two, and missing the heading here:
Lyme borreliosis [1], caused by Borrelia burgdorferi sensu lato, may lead to long-term tissue infection, which may be difficult to cure.
The outcome of Lyme borreliosis is highly dependent on the antibiotic treatment [2]. The observation of the ability of B. burgdorferi sensu lato to convert (and reconvert) to cystic forms [3-5] may explain why the infection sometimes is persistent and reactivating.
Therefore, it might be important to eradicate all germative forms (not only the motile form) of the bacterium to obtain a proper treatment for Lyme borreliosis.
Grapefruit-seed extract (GSE) contains bioactive flavenoids (e.g., hesperitin, resveratrol, and naringenin) and has been shown to possess anti-microbiological effect against bacteria and fungus [6, 7].
Many studies indicate that GSE is a substance whose therapeutic effect ranks equal to or better than other known anti-bacterial agents. Positive effects of GSE are decreased levels of TNF-�\, Nuclear factor Kb, NO, protection of the gastrointestinal tract against mechanical stress, and has anti-allergic and other antioxidative properties [8, 9].
Naringenin, hesperidin and other citrus flavones have been found in plasma and tissue after ingestion [10]. Lactobacillus and bifidobacteria in the gut seems to be insignificantly affected by GSE [6], and no severe side effects have been observed. B. burgdorferi sensu lato has a gene for efflux mechanism which may be responsible for antibiotic resistance [11].
GSE is an efflux inhibitor, which can be used to enhance the activity of antibacterial agents [12]. For the reasons mentioned above it is reasonable to test the hypothesis that motile and cystic forms of B. burgdorferi sensu lato will be susceptible to GSE, and this is the aim of our study.
The bacterial strain used in our experiments was B. afzelii ACA-1. Production of mobile spirochetes and cystic forms was performed according to our previous procedure [13].
Grape fruit seed extract 33% (Citrosept; Cintamani Europe AS, 2071 R�holt, Norway) was diluted in distilled water, sterile filtered by a 0.2 �m filter, and diluted geometrically in 5 ml Nalgene tubes from 0.33%-0.00064% in 2 ml of diluted BSK-H medium (dilution 1:100 in distilled water).
The control was diluted BSK-H. Two ml suspension of cystic forms at an age of 1 h was added to each of the tubes giving a final GSE concentration of 0.165%-0.00032%.
Susceptibility testing of mobile spirochetes to GSE was performed in a final dilution of GSE from 0.165% to 0.00032% in BSK-H medium. Forty microliter of 107/ml bacteria in logarithmic growth was added, making the final volume 4 ml in each tube. One control with only BSK-H was used.
To examine if GSE could prevent the conversion of mobile spirochetes to cystic forms, testing was also performed in distilled water for 1 h at 34 �C. One control with only distilled water was used. Motile bacteria in distilled water and BSK-H medium were incubated aerobically.
The tubes with the mobile borrelia in BSK-H medium and the cysts in diluted BSK-H were examined by Dark Field Microscopy (DFM) (400�--) after 1 h and 7 days to detect presence of eventual mobile spirochetes and intact cysts.
Bacteria exposed to GSE in water were examined by DFM at 400�-- to examine the ratio of cyst/bacteria. Vital staining was performed on bacteria exposed to GSE for 1 week by mixing 10 �l of Live/dead BacLight� bacterial viability kit (Molecular Probes L-13152 Eugene, OR, USA) with 10 �l of the culture. This mixture was placed on a glass slide protected with a coverslip. The BacLight-stained bacteria were examined by UV-microscopy (800�--). Infection 2007; 35: 206-208
The following cultures of spirochetes and GSE were examined by transmission electron microscopy (TEM) as earlier described [13]:
- motile spirochetes incubated for 1 week with GSE at a dilution of 0.0052%, 0.0026%, 0.0013% and a control without GSE in BSK-H medium,
- motile spirochetes incubated for 1 h with GSE at a dilution of 0.165%, 0.0825%, 0.0413%, 0.01% and a control without GSE in BSK-H medium,
- motile spirochetes incubated for 1 h with GSE at a dilution at 0.0413%, 0.0052%, 0.0013%, 0.00064% and a control without GSE in distilled water, and
- 1 h old cysts incubated for 1 h with GSE at a dilution of 0.021%, 0.01%, 0.0052%, 0.0013%, 0.00064% and a control without GSE. GSE-exposed cultures were recultivated in BSK-H medium as earlier described [13] to confirm or invalidate the existence of viable bacteria.
MBC of the mobile spirochetes was determined by recultivation of GSE-ex posed spirochetes, and the lowest GSE concentration where no growth occurred was set as the MBC value.
The MIC value for mobile spirochetes was determined according to the lowest GSE concentration, which gave reduced multiplication when examined in DFM.
When the susceptibility testing for mobile spirochetes was performed in distilled water, the rate of conversion was strongly dependent on the GSE concentration.
After incubation for 1 h at 34 �C the number of spirochetes converted to cysts ranged from none at GSE concentration of 0.165%-0.0052%, 10% at 0.0028%, 20% at 0.0013%, 95% at 0.00064%, and > 95% in the control when examined in DFM. By TEM, the dilution of 0.0013% showed a very few cysts; the dilution of 0.00064% showed many normal cysts but not as many as in the control.
Susceptibility testing of normal mobile borrelia exposed to GSE at 34 �C for 1 h revealed motile bacteria at concentrations ? 0.01%. After 5 weeks of incubation in fresh BSK-H medium, motile spirochetes were observed only at the dilutions ? 0.021%. By TEM some bacteria with normal appearance (compared to the control) were observed in the concentration of 0.041%, which is set to be the MBC (Figure 1).
When the mobile spirochetes were exposed to GSE for 1 week at 34 �C in fresh BSK-H medium the estimated MBC was 0.0052% and MIC was ? 0.00032%. Four weeks of cultivation revealed 107 bacteria/ml in the 0.0026% dilution.
However, BacLight� showed green structures (green color indicates living organisms) only from the 0.0013% dilution. This corresponded well with results obtained by TEM. Rupturing was observed by TEM and DFM for 100% of the 1 h old cysts which had been incubated in GSE from 0.165%-0.021%; for GSE-dilutions from 0.01%-0.00064% rupturing was observed for 90%-5%
(most rupturing for the less diluted GSE). For the negative control > 98% cysts occurred intact. When transferred to BSK-H medium, motile bacteria were observed after following incubation time: 14 days for the control and GSE dilution 0.00032%; 5 weeks for the 0.00064% dilution; no re-growth for higher concentrations (Figure 2). Therefore, the MBC was calculated to 0.0013%.
The highest GSE concentrations made the bacteria and cysts disappear completely, leaving only small uncharacteristic fragments; at lower GSE-levels the membranes showed herniation and disruption, and the contents had leaked out.
The MBC was strongly dependent on the length of the incubation. GSE was very active even for very short incubation times, in agreement with previous results [7].
The MBC obtained by DFM for the motile bacteria agreed well with the TEM results. Presence of GSE reduced the conversion from spirochetes to cysts when the susceptibility testing was performed in distilled water. This study was performed in vitro and further studies are needed to demonstrate eventual effects in vivo. From our results it will be rational to test the hypothesis that a combination of GSE and antibiotics will be efficient in the treatment of resistant Lyme borreliosis.
***
Figure 1. (a) Spirochetes incubated for 1 h at 34 �C with 0.165% GSE diluted in BSK-H medium. Only a very few pycnotic bacteria were present. Most bacteria were completely dissolved. (b) Spirochetes exposed to 0.041% GSE. The bacteria have a normal ultrastructure. TEM. Bar = 500 nm.
Figure 2. (a) One hour old cysts incubated for 1 h at 34 �C in BSK-H medium with 0.0013% GSE. A few normal and some dissolved cysts were present. (b) The same cysts as in A, but exposed to 0.00064% GSE. The number of normal cysts present was approximately the same as in the control. (c) The cysts in B were transferred into fresh BSK-H medium and incubated for 5 weeks in 34 �C. Many normal spirochetes were present. TEM. Bar = 1,000 nm.
2. Petrovic M, Vogelaers D, Van Renterghem L, Carton D, de Reuck J, Afschrift M: Lyme borreliosis -- a review of the late stage and treatment of four cases. Acta Clin Belg 1998; 53: 178-183.
3. Gruntar I, Malovrh T, Murgia R, Cinco M: Conversion of Borrelia garinii cystic forms to motile spirochetes in vivo. APMIS 2001; 109: 383-388.
4. Hul�nsk� D, Bart�k P, Hercogov� J, Hancil J, Basta J, Schramlov� J: Electron microscopy of Langerhans cells and Borrelia burgdorferi in Lyme disease patients. Zbl Bakt 1994; 280: 348-359.
5. Preac Mursic V, Wanner G, Reinhardt S, Wilske B, Busch U, Marget W: Formation and cultivation of Borrelia burgdorferi spheroplast L-form variants. Infection 1996; 24: 218-225.
6. Ionescu G, Kiehl R, Wichmann-Kunz F, Williams CH, Bauml L, Levine S: Oral citrus seed extract in atopic eczema: in vitro and in vivo studies on intestinal microflora. J Orthomolec Med 1990; 5: 155-157.
7. Heggers JP, Cottingham J, Gusman J et al: The effectiveness of processed grapefruit-seed extract as an antibacterial agent: II. Mechanism of action and in vitro toxicity. J Altern Complement Med 2002; 8: 333-340.
9. Tsai SH, Lin-Shiau SY, Lin JK: Suppression of nitric oxide synthase and the down-regulation of the activation of NF B in macrophages
[ 16. June 2007, 07:34 AM: Message edited by: Vermont_Lymie ]
Posted by Al (Member # 9420) on :
Thank's Vermont_Lymie
Posted by efsd25 (Member # 2272) on :
Thanks Vermont_Lymie,
This is a gggreat article. Oystein Brorson is one of my hero's!!! Thanks for sharing this with us Ernie
Posted by JeffM (Member # 8919) on :
OK, scientists, or others who may know, please help me. This is driving me crazy.
1. Have any clinical trials on lyme been done with GSE? 2. Do any physicians or LLMD's use GSE or recommend it as part of their protocol? 3. Is there any in vivo evidence about GSE? 4. What dosage is recommended?
I ask these questions because I am so sick of tini and flagyl, I am taking GSE because of the Brorson's early findings on it.
But I was also under the impression that *someone else* stated that GSE was useless because when it gets into the body, it changes form.
Maybe some of you are taking it / have taken it / and have experiences to share?
Posted by 5dana8 (Member # 7935) on :
Idfighter
Thanks so much for posting this article on GSE
Ji Jeff.
I herx like hello on GSE. Specially emtional/depression herx's similar to my flagel & tinnie herx's and most of my lyme stmptoms get worse. I pusle it in at the end of every month... I know it's hitting something.
Don't have any answers to your 4 questions listed above but here are 2 links that might help:
Hope this helps Dana
Posted by JeffM (Member # 8919) on :
Thanks Dana and LD.
Yeah, the science really hasn't changed . . . as someone said about a year ago, bleach will kill spirochete in vitro . . . but invivo, it will kill us LOL. Someone else said they thought the GSE becomes ineffective in vivo.
I am taking 250 mg 4 x day in capsule form. I dont know if it causes herxing or not, because I am taking penicillin as well. My hope is that it is working. Dana, your experience is helpful!
Posted by mikej2323 (Member # 8913) on :
So what are the precautions or dangers of using grapefruit seed extract? I've read that pretty much the only danger is that it compounds the effects of drugs [increases the potency]. What if the extract is taken 2-3 hours before the meds.?
I used it while off antibiotics and still relapsed. I think over the years with the ND's it killed the candida, which then upped my immune system, and I was more able to fight the lyme
perhaps.
Trish
Posted by gwenb (Member # 7217) on :
I used GSE about a year ago for 8 or 9 months - when I first ramped up I did so too quickly and I was flat on my back for 2 days with a terrible herx. I haven't taken abx yet, but GSE was my most severe herx with a natural substance: extreme fatigue, nausea, chills and fever, sweating, headache and vertigo.
I think it helped get my bacterial loads down, but I don't think it was enough just on its own.
Gwen
Posted by hardynaka (Member # 8099) on :
GSE never tested good for me either (ART).
It tests good now, but only against intestinal candida (that I got after abx).
I had taken it before I had candida, just for testing, I never felt ANY improvement from my borrelia, babesia, bartonella. So I stopped it.
I can't say I feel improvement from my intestinal candida now from GSE, but I'm taking other things together, so I can't say what's helping what. I'm slowly improving, but not cured from candida.
Buhner thinks GSE can only act locally inside the intestines (check planetthrive.com), but it's not a systemic killer.